FOIA
SCIENTIFIC ABSTRACT IVCHENKO. V.M. - IVONIN, I.V.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R002201130002-0
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
August 9, 2001
Sequence Number:
2
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
| Attachment | Size |
|---|---|
 CIA-RDP86-00513R002201130002-0.pdf | 3.41 MB |
Body:
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Engine and Tur4ine Design
USSR VDC 532.528.501.33
Hydromechanics Institute, Academy of Sciences USS
"Thrust Equation for Hydraulic Rocket-Jet Engine
Kiev, Gidromeklianika, Akademiya Nauk Ukrainsk-oy SSR, No 21, 1.972, pp 3-12
Abstract: The syszem analyzed consists of a nozzle provided -,,.,Iith an cjector.
The flow discharged from the nozzle sucks the external flow through the. ejec-
tor inlet. It is shown that the thrust is equal to the momentum of the total
flow leaving thc ejcotor less the momentuin of the external flow (,nterlng the
ejector. The eNterrill flu.) Should include the f3ow from the outer 5~ilrfnr~e of
the engine body sucl,ed by the stream leaving tho ejector.
Approximate forrulae- are also given that can be applied to vin)-tiphase flo-w.
Graphs are presentcd showing the propulsion coefficient and the E;pecLfic
momentum as functions of various parvmecers.
The graph of specific mumentum shv,:s that external flc-.., Can 111cre-Ise thc
specific momentum and therefore the Lhrust.
1/2
USSR
IVCIIENKO, V. M., Gidrcm(ikhanika, Akade-.niya Nauk Mzrainskoy SSR, NIO 21, 1972,
pp 3-12
Detailed studies of specific cases for velocities of the order of 25-100
m/sec showed that the optimum ratio of external to internal mass flo,.'7s is
5-10 with the external vater flashing into steam inside tha eject--or, 500-
1000 with bubble structure flow.
2/2
- 70 -
USSR
UDC 621.762.5.001
IVENSEN, V. A.
Kinetika uplotneniva rietallicheskikh noroshkov pri sneLanii (Kinetics of Cozi-
7
pacting 'Ietal Ilot-iJers during Sinrering) , Noscow, Nre tall u rgiva Press, 1971,
269 pp, ill., I r. 49 k. (from. KZh-Metallur~tiva, No 4, Aor 71, Abstract No
4G393K)
Translation: The laws of compacting cernet bodies durin sinterinp are in-
vestigated. A desC7ijItion of the- modern th-oretical concepts is Presented,
and a basis is given for the expediency of semiphenomenolo~_icnl interpretation
of some laws. Differences in ki-inecics and the characteristic: fCILLIrCS of re-
ducizig the volume of pores in cryscalline and nuorphous bodic:' are analyzed.
The possibilities of usinp the established laws for solvinp certain practical
problems of cerr-lets production are noted.
1/1
Miscellaneous
USSR
UDC 66~,.0108.25,
IYR!�~Xro~A-, CHISTYAKOVA, V. -A., and EYDUK, 0. 11., All-Union Scientific
Research and Design Institute of Hard I'lloy and Refractory Metals
"Investigation of il)ie Change of Properties In Hard Plloy WC-Co Durinp,
Deformation and Recovery of These Properties During Annealint'. Coirinunication 1.
Effect of Hard Alloy Deformation During UDiaxial Compression on Certain
Physical and Mechanical Properties"
Kiev, Poroshkovaya Metallurgiya, No 9, Sep 73, pp 39-45
Abstract: Hard WC-Co alloys were studied to determine the chan-e in proper-
ties resulting from prelimirary deformation. The nain vreas Etudied were rele-
tionships of relative resistivity and coercive force to degree of deformation,
bend strength to degree of deformation, stress at the start of yield end qrain
size of tungsten carbide to degree and direction of prelLminary Orforjr;ntion, a"Al
change in relative width of diffraction lines of carbide and cob!llt phase te
degree of deformation, all. for varying cobalt content. On the, whole the
investigations showed an essentially varying change of properties during defcr7-
ation of the alloys vith differing cobalt content and carbide prain size.
These differences were caused by nonuniform development of nftretif~,thenln;7, rend
weakening processes, and the arfinity to be slightly wcakened d-uring deforma-
tion is one of the important properties of the alloy end on t1he basis of
1/2
I
USSR
IVETISEN, V. A., et al., Foroshkovaya Metallurgiya, No 9, Sep 73, pp 3~1~-45
which it was suggested that the good performance of coarse-grain alloys undler
impact loads is determined not only by their increased formability but also by
diminished weakening from deformation. 8 figures, 5 bibliographic references.
2/2
- 23 -
USSR
UDC 621.762.001.669
IVENSEN, V. A_, EYDUK, 0. N. , ARTEMIYEVA, S. 1. , and LUKASHOVA, N. M.
"Plasticity Indicators of Tungsten-Cobalt Hard Alloys As Functions of
Temperature of Production of Tungsten and Tungsten Carbide Powders"
Sb. tr. Vses. n.-i. i proyektn. in-t tugoplavk. met. i tverd. splavov
[Collected Works of All-Union Scientific Research and Planning Institute
for Refractory Metals and Hard Alloys], No. 10, 1970, pp. 60-67 -
(Translated from Referativnyy Zhurnal-Nletallurgiya, No. 2, 1971, Abstract
No. 2 G414 by the authors)
Translation: The influence of reduction temperature and carbidization
temperature during production of W carbide on the plasticity of tungsten-
cobalt hard alloy is studied. It is established that increasing the
carbidization temperature causes a greater increase in plasticity of the
alloy than increasing the temperature of reduction of W oxides. It is
demonstrated that the effect observed results primarily from evaporation
of impurities and the production of a more perfect lattice of carbide
grains at high temperatures of production of the initial powders.
5 tables.
1/1
USSR
IVER01"OVA, V. !. , ITZINETTSOV, A. V. , Moscow State University imerii V. V.
Lomonosov, Petrozavodsk State University
"Calculation of the Dependence of the Interference Coefficient of Abso_rr-
tion of X-Rays on Dislocation Dersity"
Lenin_--ad, F-iziha Tverdogo Tela, Vol 15, No 9, Sen 73, vu 2689-2~6193
Abstract: For a thick crjstal (p~~-1/T) in the Laue symiretric case fCr:r,.U]aS
are de2'lved for dependence of integral power and the interference coef-
ficient of absmotion on disloc:ation density. Satisfactcry a-reement Js
r
b
, served between the theoretical data and published exPerimertal result-
1/3 019 UNCLASS I F I ED PRbCES~ING OATE--163CT-I0
TITLE--UNSATURATED DERIVATIVES OF HYDANTOIN. to SYNTHESIS OF N-METHYL
DERIV~TIVES OF 5,CARBOXYMETHYLIDENEHYDAtiTUIN AND HY0ANTGI.,-,t5, -'CETI(---
AUTi4OR-(04)-RUTKOVSKIY, G.V.o IVIN, B"A SOCHILIN, YE.G... TSERETELI,
l.yU.
COUNTRY OF INFO--USSR
SOURCE--ZH. OBSHCH. KHIM. 1970, 40(2)t 389-95
DATE PUBLISHED ------- 70
SUBJECT AREAS--CHEMISTRY
TOPIC TAGS--CHEMICAL SYNTHESISr UV SPECTRUM, NMR SPECTRUr.11 IR SPECTRUM,
UREA DERIVATIVE, CYCLIC GROUP
CONTROL MARKING--NO Ra-STRICTIUNS
DOCUMENT CLASS--UNCLASSIFIEO
PROXY REEL/FRAME--1992/1963 STEP NO--UR/0079/7i)/040/002/0389/0395
CIRC ACCESSION NO--AP)112928
UNCLASSIFIED
.2/3 019 UNCLASSIFIED PROCESSING DATE--160CT70
CIRC ACCESSION NO--AP0112928
ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. TREATING
5;CAkBETHOXYMETHYLENEHYDANTOIN (1) 41TH CH SU62 N SUB? GAVE THE 3-ME
DERIV. (1), .1-1. 134DEGREES. HOLDING AN EQUIMOLAR MIXT. OF DI-ET
ASPARTATE AND MENCO 12 Hk GAVE 70PERCENT 01-ET GAMMA
METHYLUREIDOSUCCINATE, M. 86DEGREES, WHICH HEATED wITH 20PERCENT HCL
GAVE 80PERCENT 3,METHYL,5,HYDANTOINYLACETIC ACID, M- 177DEGREES, WHICH
WITH I MOLE BR SUB2 IN ACOH AT 100DEGREES, THEN ;qITH HOT H SU32 0, GAVE
70PERCENT 31~IETHYL,5tCARbOXYMETHYLENEHYDANTOINI OECOMPD. 300DEGREES,
WHICH WITH DRY HCL I.N ETGH GAVE 80PERCENT 1. SIMILARLYP BUT ~illH EXCESS
CH SUB2 N SUB2, riAS PREPL). 100PERCENT Ip3tDIMETHYL,5,
CAR BETHOXYMETHYLENEHYDANT01111 M. 56DEk3REES. REFLUXING ME Ni
METHYLASPARTATE WITH BZNCO IN C SU36 H SU66 12 HR GAVE 72PERCE-NT MEO
SUB2 CCH SUB2 CH(CL1 SUB2 H) NMECONHt3Zt M. 113L)EGkEESP WHICH mITH HCL AS
ABOVE GAVE 1,,4i:TliYL,5,IIYOANTOINYLACETIC ACID, M. 1100EGRE~S, ~ail(:H '41TH
MENCO IN 6 11R AT 40DEGREI:S GAVE 67PEt"'CEINT 193PUIrMF AtIALF;G, M.
HEATING I IN AC SUB2 0 5 HR GAVE 82PERCEIlif 3-AC DERIV., M.
138DEGREES, WHILE TOSYL CHLORIDE IN ET SUB3 N-DIOXANE 6;~VE bbPERCENT
3-TOSYL DERIV., M. 205DEGREES. TREATED WITH CH SU62. N SUB2 JHtSE GAVE
THE RESP., I-ME DERIVS., M. 53 AND 157DEGREES, RESP, THE FORMER AND
ALC. K-11-4 IGAVE IN 3 HR 75RERCENT 1,
METHYL 1 5 1 CAR BETHOXYMETHYL-ENE HYDANIT-D IN, M. 123DEGR~:E'__'. Ii
PARA FOAMAL OEHYDE I AND PIPERI[)f,.',IE IN DMF GAVE 70PE~CENT
31 P I PER 10 1 ',P_"lE THYL, 5, CARBETHUXYMETHYL ENEHYDAINTO 1 N p H. 6TL')Ec_RL'_:S. U V AN L)
NMR SPECTRA DATA, AND IR CURVES WERE GIVEN. ALL IHE 5,HYD~NTuINYLACETIC
ACIDS PREP0. ~-ROVE HAD T14E DIKETO STRUC TURES, AS kEFLEC ' LO I N THE I P
UN'C L A S S I F I i: D
~! 3/3 019 -
~CIRC AC.CESSION NO-AP0112928
.ABST,RACT/EXTRACT--F-ACILITY:
I LENINGRAD, USSR.
UNCLASSIFIED PROCESSING DATE--160CT70
LENINGRAD. TEKHNOL, INST. INI. L"ENSONETA,
UNCLASSIF-IL:1)
-;V0053428 - CHEMICAL ABST.
Jr/'~O
4j-"'
413,w Pyrimidines. VU. Syn~hesls and stmcture of
raom"e, bis(2-c orcethyl)hydrazinapyrimidines. Ivin, B. A.
Glushkov, . K:; Sochilin E I,- Inst, im.
Zit. Obs1kh. Kitim. 1970, 40
(1).2tP---9 (Russ). Adding 9.2 g 2,4,6-trichlo--opyrimidine ([)in
dioxane to 19.35 9 (C1CHCH2bN-VH,.T1C1 and,20.1 g EtsN in
dioxane over 1 hr, followed by addn. of. 2a.1 g EtjN and 9.2 g 1,
and keeping the mixt. 3-4 hr at- 70* gave 5% 2-lbis(2-chloro-
ethyl)hydrazinol-4,6-dichloropyrimidine (II), m. 104*, and 739c'.
4-[bis(2-chloroethyl)hydrazinol-2,6-dichloropyrimidine (M) ni.
1170, sepd. on A1103. Adding 18.4 g I and 10.1 g Etig to 12 g
(HOCR,:tCF4hNN1NHj in dioxane and keeping the mixt. 3 hr at 60'
gave 5% hygroscopic 2-lbis()-hydroxyethyl)hydrazinol-4,6-di-
chloropyrimidine, m. 104*, and 72f,'~; 4-[bis(2-hydro.'*3,ethyl)-
hydraziitol-2,6-dichloropyriiniditie (IV) m. 112*, sepd. on A120j.
II heated I hr with concd. HCl and adjusted to pH 7.5 grave 2-
[bis(2-chloroethyi)hydraziilol-4-oxo-6-chloro-3,4 - dihydropyruni-
dine, m. 138'. 111 re(luxed 3 hr with HC1 gave 92% 2-oxo-
4-fbis(2-cliloroethyl)hydrazino)-6-chloro-2,3- dihydropyr-Imidine,
m. 184'; HC1 salt m. 198'. Similarly was prepd. 2-oxo-l-jbis-
(2 -hydroxyethyl)hydrazinol -6-chloro - 2,3 - dihydropyrituithrie,
isolated as 110 salt, m. lg()*. Heating IV with NaOl-l III aq.
MEOH 1.5 hr gave 54% 2-chlrjro-4-[bis(2-hydroxyethyl)hydra-
ziuoj'-6,,'5H'p)-rimidinon.e as Na salt, decompd. 165'; fret! sub-
stance at. 157'. Uv and ir spectra are reported.
G: M. Kosulapoff
REEL/FRAME
19830453
USSR
UDC S31
VINOGR-ADOV, V. A., IVIN, S. M., PETROV, A. S.
"Dynamic Balancing of Rotors Without a Compensation System"
Tr. Ufim. Aviats. In-ta. [Works of Ufim Aviation Institute], 1972, No 38,
pp 34-40 (Translated from Referativnyy Zhurnal, Airiatsionnye i Raketnye
Dvigateli, No 12, 1972, Abstract No 12.34.117).
Translation: A method is presented for dynamic balancin.- of rotors without
a compensation system. The method utilizes the results of theoretical con-
clusions, theoretical and experimental studies of the dependences of the
phase shift angles of oscillations of supports of a machine tool on the
magnitude and location of imbalance. A method is presented for graphic
determination of the imbalance in each plane from the si.anals of sensors
in the moving supports. 5 Figures; 2 Biblio, Refs.
1/1
USSR UDC 547.26'118'222.07
.,Z., and KARAVANOV, K. V.
GRUZDEV, V. G.,jM
"A Method of Making Alkyldichlorophospbines"
Moscow, Otkrytiya, Izobreteniya, Promyshlennyye Obraztsy, Tovarnyye Znaki,
No 27, 1970, Soviet Patent No 279618, Class 12, filed 1 Aug 64, p 29
Abstract: This Author's Certificate introduces a method of making alkyl-
dichlorophosphines by reducing complex compounds of alkyltetrachlorophosphines
with aluminum chloride. As a distinguishing feature of the patent, the method
is simplified by using metal carbides such as calcium carbide to carry out the
reduction in the presence of potassium chloride.
USSR
uDc: 546.185
DROZD, G. T., SOKALISFIY, M. A., STRUKOV, 0. G., and~=I,
"Aminohalofluorophosphorans"
Leningrad, Zhurnal Obshchey Khimii, Vol 40 (102), No 11, Nov 70, pp 2396-2hlO
Abstract: The authors investigated the structure, thermal stability and chem-
ical properties of the adducts R 2NPF 2.Hlg2' (R2N)2 -PF-J11g2 zuid R(R21N)PF-jil g2
(where H1g = C1, Br). These compounds are produced by interacting the cor-
responding fluorides of trivalent phosphorus with chlorine or bromine. In
addition, the first two adducts were produced by chlorine treatment of thion
derivatives R2NP(S)F 2 and R(R -I)P(S)F respectively. In many instances, the
resultant compounds are resistant to vacuum distillation. NIM and IR spectra
indicate a pentacoordination structure (with trigonal-bipyramidal configura-
tion of the molecules) for type R 2NPF2*Hlg2 adducts. Spectral data for the
other two types of adducts are explained more satisfactorily by an ionic
structure PFHI,]*H[,-.
The chlorine or bromine.atoms in these compounds may be replaced by fluorine,
or by dialkylamino- monoalk-Ilamino- and S-alkyl groups vith formation of the
112
USSR
DROZD, G. I., et al., ammal Obshchey Mimi, Vol h0 (102), No 11, Nov 70,
PP 2396-2410
corresponding fluorophosphorans. Interaction of the adducts with H 0,1 car-
boxylic acid anhydrides and ethylene oxide produces the ~;orrespond.g fluor-
ides of tetravalent phosphorus.
2/2
USSR UDC 543-848
VOLODIANA, M. A., IVIN,__S_. Z., and PiWYANOVA, M. V., Chair of Orianic
Chemistry
"Reduction Method for Chlorinq and Bromine Determination in Organo-
phosphorus Compounds
Moscow, Vestnik Moskovskogo Univer3iteta,_Seriya 11 -- lihimiya, Vol
]L1, No !_),-5_e_p-Uct 70, i)p 03;a-04
Abstract: A method is suggested for chlorine and bromine determina-
tion in organophosphorus compounds based on pyrohydrol;enolysis of the
substance in the stream of a nitrogen-hydrogen mix tur, e obtained in the
thermal decomposition of ammonia. The pyrohydrogenolysis apparatus is
as follows: Ammonia goes through a drying bottle with alkali into two
quartz tubes (10-12 mm) heated by two electric furnaces. The tubes
cortain catalysts for decomposing the ammonia,. The electric furnaces
are heated to 600-7000 C. The mixture of nitrogen and hydrogen ob-
tained irt the decomposition of the ammonia goes through a washing bot-
1/2
(is SR
VOLODIIIA, M. A., et al., Vestnik Moskovskogo Univer- si-te.ta, ..Seriya II
-- Khiiiya Vol 11, No 5, Sep-Oct 70, PP 632-634 -
tle with a concentrated aqueous ammonia solution to a quartz tube
heated by two electric furnaces, one large and immobile, t;he other
small and mobile. The tube is equipped with a small cooler. The
pyrohydrogenolysis is carried out with the small mobile 'Curnace (400-
500 ). The article includes a sketch of the device.
2/2
USSR UD 547.261118
DROZI), G. I., SOKAL13KIYI M. Z.
"Dihalo,--enfluorophosphoranes Containing RG Groups"
Leningrad, Zhurnal Obshchey Khinii, Vol 40, No 2, -Z ab 70, 1 5G2
Abstract: A previous article by the authors sho-aed tlnaL under Llhe ac-
tion of chlorine or bromine alkyl difluorophosp'. ~J tk e s un d e r t'~;C) a.n
buzov rearrangement, forming Hlg?CF 2 it was 1ound tn.Lit &z
tial staze of this interaction unstable
rophosphoranes are formed, recorded at; lo,..; tempelrarures by P n d
F19 Mla spectra: Ch 3OPF C123' 378 ppm (relatAve zo F 900
2 F 2 1 j
cycles/sec- C t-t OPF 376 ppm, 1 910 cycles/sec;
4..q 2C'2# SF i~ -F
20 20
C6H51DPF2'12, d4 1-3870, n D 1.4725, S F 374 PPm, p 1), r,, J
n ( ),PF
1020 cycles/sec; C6!'5 2Br2l 3 F 345 ppm, ~? 96 PPM (everywhere rc" -
l/12
USSR
eb 701
;DROZ7D, G. i., et al., Zhurnal Obshchey Khimii, Vol 40, "e, 2,
p 502
ative to H3PO4 ), iP-F 1025 cycles/sec. The pentacoval en--z, Or.1"lictul-e
of the c mpounds is confirmed by the positive va' ues of ri-e
shifts and the comparatively small values ofLLhe c'On s't, an t S
iF-F*
2/2
112 016 UNCLASSIFIEO PROCESSING DATE--230CT70
TITLE--DIALKYLPHOSPHORUS COMPOUNDS* 111. SYNTHESIS AND REACTIONS OF
DIALKYLPHOSPHINIC ACID CHLORIDE -U-
AUTHOR-(03)-IVINP S.Z., SHELAKOVA, I.D.v~ PROMONENKOVo V.K.
COUNTRY OF INFO--USSR
,SOURCE--ZH. OBSHCH. KHIM. 1970, 40(3), 561-2
DATE PUBLISHED ------- 70
SUBJECT AREAS--CHEMISTRY
TOPIC TAGS--ORGANIC SYNTHESIS, ORGANIC PHOSPPORUS CO~POU,"IDp, LM1,4EP,
TR I ETHYL AMIN E
M A
CONTROL r.,RKING-NO RESTRicrioNs
DOCUMENT CLASS--UNCLASSIFIED
PROXY REEL/FRAME-2000/0869 STEP
CIRC ACCESSION NO--AP01245"12
UNCLASSIFIED
2/2 016 UNCLASSrFEED PROCESSENG
CIRC ACCESSION NO--AP0124532
ABSTRACTIEXTRACT--(U) GP-0- ABSTRACT. TO 4.3 G ErHYLEN(MrNE-r 10.1 G Er
SUB3 N, AND 30 ML C SUB6 H SUB6 WAS ADDED SLOWLY 12.8 & ME SUB2 P5CL IN
C SUH6 H SU86 AT NEGATIVE5DEGkEES TO GIVEr AFTER 2 Hk AT 40-500EGREESP
79PERCP-NT ME SU52 PSR (R EwUALS AZIRIDINO), ti SUB2 74-5DEGREES, 0
PRI-ME20 1.0827, N PRIME20 SUBD 1.5330; DI-E-T ANALOG,. PIREPD. SIPILARLY,
70PERCENT, B SUBO.06 71-2DEGREES, L.0406t 1.,~-700w ME SU62 PSCL AND RAN
SUB3 IN ME SUB2 CO IN 1 HR AT 60DEGkEES GAVE BOPERCENT ME SUBZ P(S)N
SUB3, 11. 67DEGREES, WHICH (4.05 G) IN C SU06 H SUB6 TREATED SLOWLY WLTH
4.98 G P(OET) SU63 REACTED WITH HEAT EVOLUTION ANDY[ELDED N, AT
50DEGQEES; AFTEP 2 HP, IT GAVE 6TPERCENT ME SUB2 P(S)N:P(OETY SU63, B
SUBO.008 100DEGREES, 9 PIMF20 1.1.100, N PRIMEZO SU30 1.4850; TRIvISOpPR
ANALOG, 75PERCENT, B SUBO.008 99-101DEGREES, 1.051L, 1-4710; ALSO PkEPD.
WAS ME SU82 P(S)N:PME(OPR) SU82P 80PERCENTr B SUBO.008 L05DEGREESP
1.0592, 1.4930.
112 020 UNCLASSIFIED PROCESSING DATE--23r)CT70
TITLE--DIHALOFLUORDPliOSPHORANES CONTAINING RG GROUPS -U-
AUTHOR-(03)-DROZD, G.I.v SOKALSKIY, M.A., IVIN, S.Z.
COUNTRY OF INFO--USSR
SOURCE--?.H. OBSHCH. KHIM. 1970, 40(2)t 502
DATE PUBLISHED ------- 70
SUBJECT AREAS--CHEMISTRY
TOPIC TAGS--ORGANIC PHOSPHORUS COMPOUND, FLU-JRINATED ORGANIC COMPOWUND, NmR
SPECTRUMi GLYCOL# ESTER
CONTROL MARKIN'G--NO RESTRICTIONS
DOCUMENT CLASS--UNCLASSIFIED
PROXY REEL/FRAME--1995/1466 STEP NO--UR/0079/70/040/002/0502/0502
CIRC ACCESSION NO--AP0116903
U N C L A S S I F I E 0
212 020 UNCLASSIFIED PROCESSING DATE--230CT70
CIRC ACCESSION NO--AP0116903
ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. REACTION OF ROPF SUB2 WITH CL OR
BR IN FORMING THE PRODUCTS OF THE ARBUZOV REACTION FORMED INITIALLY
UNSTABLE ALKOXY (OR ARYLOXY)DIHALODIFLUOROPHOSPliORANES WHICH 'y4FRE
DETECTED BY NMR SPECTRA TAKEN AT LOW TEMP. THUS WERE DETECTED AND
CHARACTERIZED IN TERMS OF CHEM. SHIFTS, PRODUCTS SUCH AS MEOPF SUB2 CL
SUB2, PHOPF SUB2 CL SUB2 AND PHOPF SUB2 BR SUB2. THE PENTACOVALFNT
NATURE OF THESE WAS CONFIRMED BY THE POS. VALUES OF CHEM. SHIFTS
(RELATIVE TO H SUB3 PO SU04) AND SMALL VALUES OF COUPLING CONSTS. J
SUBPF MAKING THE-AXIAL POSITION OF F ATOMS LIKELY IN TRIGONAL BJPYRA.MID
STRUCTURES. THE ADDUCTS OF HALOGENS TO (R0) SUB2 PF WERE EVEN LESS
STABLE, BUT NMR SPECTRA OF THEM WERE ALSO OBTAINED IF THEY FORMED CYCLIC
PHOSPHOLANE RINGS* THESE WERE CHARACTERIZED FOR ESTERS OF ETHYLENE AND
PROPYLENE GLYCOLS AND CATECHOLt WITH CL AND BR ADDED.
UNCLASSIFIED
USSR UDC; 519. 27
IVE~ITSM V. A.
'eu r
"Invest igati cn of the Nc-s~ationary Characteristics of a 'ne-Line C L 4
Sysi;em With Parp-moters Depend on the Length of the Queue"
V- sb. (Computaticnal and Applicrd %'athe-
jrchiql. r2at.
matics. Trterdepartmen-,al Scien-4fic Collection), 19TI, vyp. 1.4, r- ~0-'(c
(from Kh-Kibernetik-., No 12, Dec 71, Abstract No 12V1111)
Translation: The .gazer deals -with a cne-line queuing systc:!: vhos~ rarnm-
eters depend on the leng-,11 of the queue. Formulas (fairl-Y cumbersOme ores)
in explicit form are derfved for nonistat ionary distribution of que"le
length, distribution of -.1-;e timme of stay in a fi-ed set of states, and
distribution of the period of occupancy. From the author's introducticn.
1/1
USSR uDc: 621.374.5(088.8)
BOPMOTOV, Yu. D. , IVKIN, I. V. , KARULIN, A. P. , PARSAMOV, A. P.
"A Delay Line"
USSR Author's Certificate No 280537, filed 18 Apr 67, publi-~hed 9 Dec 70
(from RZ-h-Radiotel--hnika, No 6, Jun 71, abstract No 6G312 P)
Translation: A delay line is proposed which is equipped with a ferro-
magnetic element and a magnetizing winding which controls the delay time
by changing the permeability of the ferromagnetic element. To sirmlify
the design, a multilayered permalloy film which serves as a shield and
return conductor for the delay line is used as the ferromagrietic eiement.
AOr'V
USSR
UDC 54-126+546.73+546.81
NATANSON, E. M. (deceased), M'MOVICH, V. V., CHEGORYAN, V. M., IVKINA,
N. A.., and SHEVTSOVA, A. F., Institute of Colloidal Chemistry and!'&6 try
Tfl~ter, Acad. Sc. UkrSSR
"Formation of Metallopolymers on the Basis of Silicontungstic Acid"
Kiyev, Ukrainskii Khimicheskii Zhurnal, Vol 39, No 3, Mar 73, pp 249-253
Abstract: The reduction of silicontungstic acid with tin and cobalt has been
investigated. Blue forms of silicontungstic acid have been prepared stable
towards tin and cobalt. Conditions have been studied for the formation of
tin and cobalt metallopoly-mers starting from the barium salts of silicon-
tungstic acid blues. The heat conductivity and electroconductivity of the
metallopolyners obtained have been evaluated. The data obtained indicated
that the metallic phase is in highly dispersed state, stable to oxidation;
the metallic particles are isolated from each other by i film of the barium
salt of silicantungstic acid blues.
Polymers and Po
USSR UDC 54-126+546.56+546.81
DUSHCH'i",'~,0. 1-'A" --T V. "Lt., KUZ',,!0VIC11, V. V., Cu~.GORYI"~~" V. m.,
VYS0TS!"_'*%YA, V. N., and N. A- Institute of Colloidal Chemistr,; ana
of Ac 711* 0 1 ainian SSR
of cj"c
Chc,dstz- cience Ukr.
"Themar,hysical Pro,,)ortio3 of 'Ietallopolymers Derived From inorganic
Kiev, Ukrain~:,%Av Mhurnal, Vol 37, No 6, Jun 71, pp 618-620
AbsLracL: Cc t- 0: ~n~! of cci.,per and tin
and slilicatun.,stic acids were
studi.o6" ~'s The rcids were b-., rcs-oective
c c)
o 6 o1-1-.ctrc--.-, per ancid mclecule. E -spersed
"~hl- d4
metal- In blu-s lb
suluLicms of co-ole-N electrol
tic
.
y y
Or CC.~--uln--ed c:i CL~,. ~ur dace o' metal
t--aLc,~ --ith or -1.%-cerine
into t-=blets
a n d s t snL11:11 C --~t L*:'.-e inorganic
base oE so-e cr--'Stallinta t: a I
Part':C-'Lms ~7.-cm. cac,i o'hcr by of the i.norgaric
USSR
H
DUSHCHIENIKO, V. P., et al., M-rainskiv Khimicheskiy Zhurnal, Vol 37, No 6,
Jun 71, pp 618-620
polymer. The relation~-,hip between the coefficient of heat conductivity and
temperature is analogous to the case of crystalline polymers. t'm increase
in the concentration of metal in metallopolymers results in different in-
creases of the coefficient of heat conductivity, depending on the Dolymer.
2/2
- 69 -
, I
USSR
UDC 54-126+546.72+661.88
and
DUBININ, V. N., OVMVICH, V. V. , SHEVTSOVA, A. F., 4., INA
NATANSON, E. M., Institute of Physics and Institute of Colloid Chemistry
and the Chemistry of Water, Academy of Sciences Mr. SSR
"Application of the Moessbauer Effect for the Study of the Composition of
Metal Polymers Derived from Inorganic Polymers"
Kiev, Ukrainskiy Khimicheskiy Zhurnal, Vol 36, No 12, Dec 70, pp 1,298-1,299
Abstract: The Moessbauer effect was applied for the study of Fe and Sn poly-
mers derived from silicomolybdic acid. The synthesis of these polymers has
been described elsewhere. The Moessbauer effect spectra of the Fe polymers
exhibited a doublet indicating the presence of amorphousc Fe(011)3. Presumably
highly disperse crystalline beta-FeOO11 or alpha-FeOOII wits present in the
polymers. A second doublet corresponded to interaction of colloidal metallic
Fe with the basis of the polymer. The magnitude of this doublet indicated
that the amount of Fe which had reacted with the polymer basis was 15 and
30%, respectively, for polymers prepared by the electrolytic method and those
prepared chemically. The spectra of Sn polymers constituted a superposition
1/2
USSR
,j_, Ukrainskiy Khimicheskiy Zhurnal, Vol 36, No 12, Dec 70,
DUBININ, V. N., gt_4
pp 1,298-1,299
of spectra typical for Sn02 and metallic Sn, and of a doublet with parameters
characteristic for Sn dioxide and hydroxide. The relative content of metallic
Sn was approximately 10%.
2/2
- 79 -
i
i r T
ev oj~
c r
p t
(11) During tmb quarter I y r eport Ing v~r iod 25 i~- azt -1c' v~ uer.
dV nLif j !d f-0. Lh. IIW tit U te Of B i0ph yi,u , Pus I, chi no . On t he ba:.i, f
~q.art icljin. it wai POSS1.61C to idvntify 32 new
These versonaliLL-, the Gubjects of t hc articles, and the da tes azzo ~.ivcz
belowt '
I C 5"
.
Apikayeva. G. F. radiation ef"ect
--.r
Apova, D. F.
radiation effect
A.~Mpa. Ya. T.. hypoxia i
bregadze. 1. F. radiation effect
Burel, Ye. P.
DIvitriyeva. T. 1. radiation effect
Dmitriyeva,.Y.
blood plasma
Domarova, 0. P. radiation eff.ct
Dubrov. A. Ye. biochemical analysis
Gab"lov.1. N. muscle
Callausi, Ye. F.. rwliati.n -czt
Serum aibu;~dn.
S.
Va"'atkin, V. phosphoryl.It ion
.
911000OVI), G. K. ;Ijw;cl~ phy!;4"Iozy
inlov, A. 14. salivary sland
y L8 ~n a , olizonucleotide 4,6)
radiation offect :9;i
Kosholeva, G. N. biochemical analysis
6
I IN A r~ t'1% r- 1 F- T-%
S. V
Xnrkov ich 11. S lactat
J,,,de,j 1 . F raji..'
Pshkeva, L. V. pl'.S!'huryla t ion (4~)
Pronevicb, L. X. nu t i b I. " t J. C
Rodior.cvj, A. mirach,-ndrlon
Shchipakin, V. .14. phL,!tphjrylaLiun 1971
Skobeyev, 'ic. M. radiazion/vibration
ra~iz~tiun vffect 19, 0
Tgvet~.ov' V. D. blc~ed Plasma i-69
_UMr1kh1nx' 11. V. lactate dehydrogonase 11471
Vilenchik. M. It. radiation effect 1970
Zamyatnin, A A. muscle phy&iollo6y 1971
Dubrov and Koshe6leva(41) are o unociated with the Laboratory of Cell Siop.-.vsian
at tho institure. P,(!fcrcnce 52 nbo~c In of apt-cial. interest since it prescrics
an Invetttigatior. of combined st:rosseu, i.e., radiation and viliration. In
addittoo, to thL above articles, five of the twenty-fivv(54_58) were authored
by pernons already identified with Ott Institute of Biophysics, Pushchino.
Reference 55 asnociatea the authors of the arLiCIC, L. V. Slozhenikina, V. L.
Kigu%hina, and A. 4. Kuzin, with the Department of Radiobiology at tile
inatIcute.
7
UNCLASSIFIED
IL,
USSR uDc 681-333019.2
TEVEROVSKIY, V. I.,
"Device for Calculating the Variance of a Random Process"
USSR Authors' Certificate No 343273, Cl. G 06g "r/52, filed 23 Nov 70, pub-
lished 6 Jul 72 (from Otkrytiya, Izobreteniya, Promyshlennyye Obraztsy,
Tovarnyye Znaki, No 20, 1972, p 168)
Abstraett To provide for calculation of the variance and root-mean-square
deviation of a process with nonzero mean value, the device contains an addi-
tional counter, the input of whose first digit is connected to the output of
a delay device,and setting inputs are connected to the output of the cycle
counter. The outputs of the digit flip-flops of the additional counter are
connected through the one's complement gates to the digit inputs of the ac-
cumulator with a shift of one high-order position. The input of the delay
device is connected through an OR circuit to the output of the pulse frequency
divider, whose input is connected to the input line of the device.
USSR
UDC 662.215-1+662.4
VASIL'YEV, V. A., and IVLEV, A. A. (Moscow
"Calculation of Detonation Initiation of Mechanically Inhomogeneous Explo-
sives by a Shock Vave"
Novosibirsk, Fizika Goreniya i Vzry-va, Vol 8, No 2, Jun 72, pp 290-298
Abstracts There are two limiting catses of the initiation of the detonation
of xechanically inhomogeneou5 explosives by a shock wave. The article gives
the results of calculating the initiation of mechanically inhomogeneous ex-
plosives in the first limiting case, ithen the shock wave initiates a reac-
tion in each subsequent layer of the explosive, The calculation makes use of
exporimental data from an earlier articlo by VASIL'YEV and L. G. BOLKHOVI-
TJ1'OV on the kinetics of the total energy release and shock compressibility
of trotyl with varying initial density, An exact calculation of the second
limiting case of combustion initiation with subsequent transition to detona-
tion is impossible at the present time due to the lack of data on loccal heat-
ing in hot spots. A rodel is suggested for the state of the aubstance and
1/2
USSR
VASIL')EV., V. A.. and IVLEV, A. A., Fizika Goreniya i Vzz~rra, Vol 8, No 2,
Jun 72, pp 290-29.3
enerff release behind the shock front which gives a aijalitative descri-ption or
the process of the detonation initiation of mechanically inhomoiSeneous
explosives under shock wave acceleration,
2/2
USSR UDO 62l.,71'---.42:COl.9
GCWAIR , V.,~.. SHIR-C~-HIN, L.A.
"Analysia Of Current Dynamics In Drift Space dith Inductive Load"
Rsdiotel-hniLa i elel:troniPr,, Vol XVII, No 6, 1972, PP
Abstract: ~~ dyna-,aic reg-L-.,e is at-naidered of current passa7o in a one-di::~enslc~n~~l
drift sp3ce, produced by the ucceleratinly, grid of en electrm L;nd a
collector bct~ieen which an induct-1.,ra lead is included. in ti-.is case the c.,~ract-
or of the load applies a limit-ation to t~e time derpen"'t-mce uf tne critic--l
current becauoe in a dynamic reEiwe the retardin,r potential V -L dI/dt,
originz-Aing. at the collector ceri lead to inctubility cf tl~r. current --'In the lc-ad L.
The critico I current equation,
6 . , the ezission curm-nt A ths murfaco lirr;ited by a
apace churf e, the in lacticn of electroriv with fixed encrf.-
L. y, f3up1,lO:.1Cnt,.,ry
so,arce of accelor3tinm Volt%~Eo are discucoed. 1 ref. Received by uditors, 12
Feiiruary 1971.
AA0044819-"
Soviet Inventions
UR 0482
Il lustrated, Section II Electrical,
F243977 GENERATOR fREQUENCY STABTLISJ~NG DEVICE, in which
the piezoeTectric element is"cut at an angle of
minus 22-240 with the X-axis, and plus 33.5-350 with
the Z axis of the piezoelectric quartz crybtal. This
cutting eliminates the effect of temperature gradients
in the element on its resonant frequency.
3.7.67 as ll68743/l8-10.DlK1DZHI.A.N,et a1.(1.10.69)
Bul 17114.5.69. Class 42s. Int.Cl. B 06b.
Derwent,
AUTHORS: DikidzhiL., A. N. , Dikidzhi, L. Sh. ,
, Kumetsova . L. 1) , E~e~rel man, G . G .
USSR
1JDC 669. 71.042.6
SMIFUNOV, A. I. , KHOMITSKIY, A. A. , IXTLEV, V. A.
"Effect of Crystallization Conditions on the Tightness of Aluminum Alloys"
Usadochn. vrotessv v solavakh i otlivkakh -- V -b. (Shrinkage Processes in
Alloys and Castin,~s -- collection of works), ,~,iev, Naukova Du-mka Press, 197-0,
pp 278-265 (from RZ111-'Ietalluraiva, No 4, Apr 71, Abstract 71-0 4(;135)
Translation: A brief analysis of the tightness coefficient of castings made
of alloys based on Al as a function of the ratio of the mtetal densities in
the liquid and solid states, the thermophysical. charactoristics of the metal,
the form and viscosity of the melt, is presented. There are 2 illuGtrations
and 1 table.
J()
Powder mctaiinrz~fy
USSP UIDC: `61 ~Lt
TSYT~GV, 7-~ 7 7, 1 'IV I
Z; I - V. , and IU1"
"invest igat inp~- the Process off C~btaining LiFh- 'by the
The.-Mal Breakdown of Carbonyl IN .ickel"
i-10scOw, TsvetnYYe Metall_y, ',\4-c) 6, Aug~ 70, 26-2-
Ab
L
A stract: z% stu(ly 1:ijc~ pror
powders '.1y th.-.~ ther-mal breakdo,;;j o'L carboqY1
purpose of "Iriv invicrj-,-rotjcm % 1,a sto determ-j'n4:~ Clip
0- conditions for th,_, equilment `0
pt-i7mal st--rt- L
o~ the paramneters in thr2 str,~rt`
th-~, proces.,j. The T)oss_jL)Jjj-ty of int".mc-iffyin,,; Pro-
cess without ad'itJonal heatinr, of ~he pui.verizinF, equinment
C11
also looked into. The oper~~,ticris _Lnvolved in tlac invest~af-.tlion
of a r, vapor.Lz~!r,
were done with ecuinment consistirg . -1. C r.
and a device C.
_h o- were
each bein- carried out orl individual Sets o-'
under the 'Lo'lowin- conditions: the temperatu:,c, of -,,hc gas
u
was held constant and the pressure in the ~_quipment kept wi-l"nin
1/2
TSYI.r),,.T 3 A. et aI., Tsvetnyye. Uo S, 70, pp 2-0-27
15 I'l 0 :-,s; -a -6 e r c 0U 1 r " nt e S t~, S 0 --'6'n: ~ 1)
.:der
lrom eacn of the sysi;cms; with a balk-wei,:-hit of
t'han 0.5 g/cm3, the productivity of tho- equipm,-,,-it )T
u -C )y
reducing the va-Dorizing rate o.-,~ che carbonyl nic!~O-'' ;aI3 a: --f,Oulz
Of tile tCMper,,.-;-tU.-e OIL, -i, h epulverizer's, upjcr -.c-~:
with a drop in the powder's biLl"X wei,:~.,nt; ~.,i t-.e
bulk w,~i,-Ilt, below 0.3 dcm-), tile same actJon occurxE~d 4~,- ---,verse
order. After completion of operations, thQ
optned and the roo'kg o.L" the fo,,.ir pulverizers were Zo-uaL to be
over-frown with deposits of nickel powder to variouri
pendin:r or. tile operation period, i-,rhich differed fo~ Lla"C.
hoto-ra-h of zhe depooits on tile inner roof of one of
U V
verizers is shown.
USSR UDC: '621.1775,,12
IVLEV, I"., RYSIN. V. V., K-U-I~AREV, A. V.
"Differential Scries-'.` :-:illel Device for ;Measurement anid ~Iodt---rz'tc
Laser Radiation Level".'
Dokl. Nauchno-Tekhn. Seminara. Notrol. V 'Zadioelcktron. Toz'sy Ch. I
[Reports cf Scientific and Tec'--nical Seminar, Metrology in E.'ec-ronics.
ari--s, Part V, V~lscoiv, 19*0, pp J-23-129, (Translate; --.-o:, Pcferativn%-,-
Summ j V. -- . I I I
Zhurnal Fizika, No. 1970, Abstract ir'81)1164, by 11. P. Veyko').
Translation: Acaloril-ICLI-ic I.ISCI- ridiar-'Ion and powe-r -.;(.ter IS
Parallel connection of the mica-suring and calibrati-,-.g inplits assu-,-cs high
measurement accurac7. 1-he meter can be used over a wide ranige of,
le.igt)is in the visible and lR spectra. Power levels of 1-100 w can I)e
iiicasured. The errors in the device, which vary froi,~i 3-6"
"he power level measured, are studied in detail.
ce
U S SR UD'V
L
"Determination Of Defects In Crystids 0--:' LE~bC~, by Its -Electrical Com:uctivity"
Kratkiye soob-shch, no fiz. (Short Co=-unications On Thysicc'!, 1971, No 8, PP
(-from RZ-h::.le1.trcnii.a * ho
1 YeYs 2 . 2, Freb 7~, ~'Lstr3ct INO 2i-71)
Kj~.~~eniye' I L I ,
Translation: ~.n is made to determine th~3 content of 4-cl -urit-i- in a
Li~;Klz cr-,stal by its elecirical cond,.;ctivity. 1-i-th cbiect t"e current
inten*3'ity weE neasured Lis a -1),nction of' the ta-inerature with u d-c vol'LSL-~-;rz on
the crystal. A c':-, c c ! 1 - c t r I a n a IY s --* s n h o w c d t h - t -L, e =! I c f r L, c c, n c C-
imo-arities a-mo--:nted to (2.r~L A 4-71) . 10--', and this: v,;erE:Ee irfierce ct the
impurity atoms eq-,ialled two. As a rule the order of C.6rni-lude. C.4- t1he ccncer-
tration of the monovalence defect@ dc4,(:r:jiti(!d Vrc!% the e1ec',rJc-'.1 c~)ndU(:t-LvjL,,,
is Lelow the ccncentrLi-~ions a' hard In the cz- I
yEtz~!Is a ' 'he "he -'Cn-
sity of dieloc8ticne wcc de'~ern,,Jned for the qomlity charvc-eristicc of the rryP7
tale. Me dow-lity of dii-Jocationa in -tile cry!Avls st,-;died
and nq-liiibly chE~nren with resuect to the cryctfl lc-nj!',h 5nd also 1'rc--
to opecim(,-n. `.-ho concLjr!i(jn ii drawn 1rint it Jv t);e crt!"'~re
de"ndence or thc- elcctrlc~.,'. tri ef;t!~.we fllfj,~ c-P murn~Jlxdr' (j."
th~ impuritic-r z;* hane i.n ',?.f,, cryrt;jl -,,hich h-,-ve , -~r-lencl: f r:).-.,
valence of thie ic~ne ferr,'Inr Li-N'--';~- 7 rtf- Zh. A.
1/i 11
Semiconductor Technology
USSR IMC 546.6ft'19039,238
IKONNIKOVA, G. H., and IVLEVA, 0. H., Siberian Physi co technical Institute
Imenl V. D. Kuzaetsov
"Effect of a Constant Electrical Field on the Epitaxial Growth of GaAs"
Moscow, Izvestiya Akademiya Nauk SSSR, Neorganicheskiye Materialy, Vol 10,
No 3, Mar 74, pp 397-401
Abstracti A series of tests was conducted to determine the effect of a con-
stant electrical field on the epitaxial growth of FaAs and to reveal the effect
of this field on the rate of mass transfer, morphology, and structure of the
grown layers. To determine the electrical field effect in the process of
growth and alloying of GaAs layers the following magnitudes were measuredi
rate of rgrowth, dislocation density in the layers, thickness of the n-type
transition region, and electrical properties of the layers. It war, found that
a negative potential in the substrate increases the rate of growth while a
positive potential decreases growth rate. A decrease in dislocation denaity
was observed in the GaAs layers when the difference in the potentials was
increased to 600 v; further increase in the electrical potential leads to an
increase of dislocation density. When the electrical potential goes from 0
to tOOO v the p-n transition moves to the film-substrate interface. Five
fl ures, 11 bibliographic references.
I
112 031 UNCLASSIFIED PROCESSING DATE--30OCT70
TITLE--EPITAXIAL GALLIUM ARSENIDE PN JUNCTIONS GROWN IN A CLOSEG IODIDE
SYSTEM hITm VARYING IGOINE CJN-CENTRATIONS -U-
AUTHOR-(04)-VILISOVAt M.D., LAVRENrYEVA, L.G., GAYDAREVA, S.P., IVLEVA,
a.m.
COUNTRY OF INFC--LSSR
SOURCE-IZV. VYSSH. UCHEB. ZAVED.v FIZ. 1970, 13(2), 31-5
DATE PUBLISHED------70
SU6JECT AREAS--PHYSICS
TOPIC TAGS-CRYSTAL GROWINGY, EPITAXIAL PN JUNCTION,, GALLIUM ARSEt"41DE
SEMICCNOUCTOR, IODIDE, IMPURITY LEVEL, CRYSTAL DEFECT, CRYSTAL
DISLOCATICN, X RAY AbSORPTION, ABSORPTION EDGE
CGINTROL MARKING-NO RESTRICTIONS
DOCUMENT CLASS--UNCLASSIFIEO
PaOXY REEL/FRAME-IS88/0195 STEP NO--UR/0139/7010131002/0031/0035
CIRC ACCESSICN NG--AT0105271
UNCLASSIFIE0
212 031 UNCLASSIFIED PROCESSING DATE-300CT70
CIPC ACCESSICN NQ--AT0105271
A,3STRACT/EXTRACT--(U) GP-0- ABSTRACT. EPITAXIAL GAAS LAYERS WERE GROWN
BY I TRANSPORT IN A SEALED AMPUL. THE FOLLOWING PROPERTIES WERE STUDIED
AS A f-UNCTIGN OF THE I CONCN.i TRANSPORT RATE, AV. EPITAXIAL GROWTH
RATE, PACKING DEFECT D., DISLOCATION D., INTEGRAL X ;;~AY INTENSITY AT THE
GA K ADSORPTION EDGE, CONCNS. AND MOBILITIES OF CHARGE CARRIERS,
EPITAXIAL IMPURITY DISTRIBUTIONi AND RELATIVE POSITION OF THE P-N
JUNCTIUN t%ITHIN THE LAYER. ELEC. P-N JUNCTIONS ARE DISPLACED AS FAR AS
40 MU INTO THE EPITAXIAL LAYERS WHEN A ZN DOPED SOURCE IS EMPLOYED IN
CONJUNCTIGN WITH A TE DOPED SUBSTRATE. TH15 15 DISCUSSED IN TERMS OF
CURRENT AUTODOPING THEURIES. THE CRYST. PERFECTION IS AN INVERSE
FUNCTION OF THE GROWTH RATE. FACILITY: SIB. FIZ. TEKH. INST.
IM. KUZINETSOVAP TOMSK, USSR.
UNCLASSIFIED
Acc. Nr. Abstracting Service:
PIF0034110 CMICAL ABST. 4
Ref. Code
74168u Praseodymium nitrite, its Preparation and properties~--
seriko. (,. P. ! R tmt("'.
Prot., - -MO,
Univ.. 77M-71 9-12
M. 67' -with partial deC'0Inp]!.' ob-
tained I)v reaction of Pr sulfate with Ba(.N0j'),-, cry-stalEyes as
rhuinbic or mauiwlinic crystals, depending on tlu- conditions of
crystri. At 20'.. the d. of I is 2.382 g/ciril; n-y atid na are 1.5,50
=' 0.002 and 1..%4 --4- 0.002, resp. Oil Ileating, I decomp. to
bright. t I
'., ueeri Pr~OH)(N&J7 at 11.5*' YvIlow-ish green
at 3~,91, and black-brown PrCh at 436'. DTA and ir spectra
PTE)Ve that a part of 1120 of I is H-C) of crystu. and a part is co-
ordinated to the Pr ion via 0. Stmaures are proposed J
REEL/FRAME
19710753
P ~;qa 6~
(,-'/3
111-9 WECT Or CHOVTH CONDITIONs nN THE STRUMRE AKD MtrR"ICA.L PNOPERTIES
or IMMUM 104?I.-WHIDE CRISTALS
(Article by T. U. 0hets, L. a. yolan"k.74. V. S. V. I.. SSI~Gntus,
Moscow; Ho~.; 11.1 ; .III ., I . 11=
ll~, P-re t Has t I I
Krivtmllcv I I'l-ok, ROORIAn. 1-17 Junt, 1472. 331
A study was =ads of 0%4 afr~~t of the growth techniques (tons malting
and the Ctuchralski mothod) on tile density at the dislocation etchlies hole..
The effect of tile container on tile dislocation distribution in th, ronally
purified Indium antilsonide is dgalonstrated.
A study woo made of the effect of tile growth direction an the nature of
the distribution of the etching figures in single indium siltiallaid. crystals
obtained by the Czachcalski *.thud.
The etching ccl,ditious were seletted fur discovering the di*locatious in
the (211), (511). (100). (110) plants.
An estimate was made of the inclination of the indius artisonide crystals
toward brittle rupture or crack forsation by the abrasive vast method.
32
USSR UDC: 621-315.592
YAP04EINKO, N. G., 1DOTTAFOV, V. T., and IVLETWA, V. S., Institute of
of Radio Engineering and Electronics,
"Electrical Conductivity and Hall Effect in Strongly Compensated
n-InSb at low Temreratures"
Lenin,grad, --Fizika i tekhnij1a poluprovodni-k-ov, No 7, 1-0172, Dp
1238-121-'T7
Abstract: k-,onsidering- that detailed investiCations of the effect
of strong com-pensation on galvanomagnetic effects i-n- n-InSb at
low temperatures ar-- lacking in the literature, the authors de-
scribe experiments th-ey performed to determine the charactcrist-
ics Of this materia- M,
1. Iney measured the Hall e-ffect and the con-
ductiv-JLvY in .--ure Lnd germaniu.-n-contaminated n-Inbb monocj,yejtij,-,
at tempera ture s of 4.5 to 500 K in the d-c r-ode. '11hey use-c' the
com-Densat~on nethol at =rents th-rough the sreci--eln Whil-1111 dial
riot heaIl- -Uhe crystal lattice, measuring the Hiall efiect in a i-I-enic
magnetic field of 230 oersteds. cf the szocinen
meters, --easuread at 1~00 K ir-stead of -,the usual 77" i2 L--,axen
to rether v,-ith ciaves of the n-InSb Jlall constant and conductivi-Ly
1/2
USSR
YARI-DIMTKO, 11. G., et al, Fizika i tekhnika pjoluprovodnihov, No 7,
1972, pp 1238-1247
as functions of the teinuerature. Curves are also 0.ven for the
Hall constlant mid the conductivity as functions of the lattice
temperature. it is noted that in the absence of a theory of the
Hall effect under conditions of current pinching, it may be as-
sumed that the exprPssion for the effect is no loj,,L--(-,r valid under
those conditions. ADrreciation is expressed to S. G. Kalashnikov
and Yu. V. Gulyayev Kor their interest in the work, to V. I. Tri-
fonov, I. I. Chusov, and V. I,,. Afinogenov for their co=,3nts, and
assistance with the measurements.
to G. A. Mushlietsova for her
2/2
USSR UDC 62(-7.036.3:536-46:531-77
IVLIYE-V, _A,_ V., KSOYA:-UN, N. A., LUKOHEIT, V. P., and UGLOV, B. A.
"Measurement of the Normal Combustion Rate by Means of an Automatic Elect-ronic
Device"
Tr. Kuybyshev. Avlats. In-t, No 56, 10/73, p- 17-23 (fron RefPratdvnyy Zh-,-,-ral--
Aviatsionnyye i Haketn.,Pje Dvigateli, No 10, 1973, Abstract Na 10-34,-~,6. Resume)
Translation: On the baFis of a procedure developed by the aiithors for deter-
mining the surface area of the front of a flame propacating in a horizcnt.11
tube open at the end at which the combustible mixture is ignited, an autcrntic
electronic device is proposed -which permits measurement of the apparent rate
of movement of the flame in relation to the length of the tube wall, as wcII1 as
the length of -projection of the flame frcnt alorg the tubr- axis, and malkes -it
possible, by means of a stipulated procedure, to calculate the normal rate of
combustion. An estimqte of the measurement errcr was conducted, which sh,~~ed
that the proposed device decreases the measurement errors by two crdlers of
magnitude in car..,parison to the method of slow-motion photc;frraphy. '.-4'ith thc- i;se
of this method, the lalor intensity of determinatic-n of the nor:-.1al rate of
flame propagation is considerably decreased. 4 figures. IC
1/1
USSR
LrDc 621. 396.6.002: 621.793
PROZOROVSKIY, B. S., PTLPEV, N. N.
"Determining the Moisture Resistance of Materials and Frotective Coatings
by the Method of Locali7ed -oetting"
Elektron. tekhnika. Na-uchno-tekhn. sb. Ma'eri a!v (Elec+ ron- -- T- ofe
cc no! y.
,~,Z ~
Scientific and Technical ColLection. Materials), 197C. 31 pp ,,,-c2
(from Kh-Radliotekhnika, No 12, Dec '170, Abstract No 12,V313)
Translation: The moisture resistance of -.raterials and protective polymer
coatings is determined and experimentally cbecked by the mieLhod of localized'
wetting. The basic advantage of the method is that only a part rather than
the entire surface of materials and coatings is moistened. It is shown
that the reliability of test results can be Improved by U.;irlr, the 1110thod
of localized wetting.
1/1
- 95 -
USSR
Indiustrial ism-
al", UDC;61-1.791.75
BUDNIK, N.N., Engineer, IVANOV, V.V., Engineer, IVNITSK,,-I,Y,I- B.Ya., En-
gineer, KRAVCIIENKO, V.G . , Engineer, MAGNITOV, V.'V-,~ enio'r E~~ineer,
and YAMPOLSKIY, V.M., Candidate of Technical Sciences, Docent
"A Unit for Arc !-fetal Surfacing in Vacuum"
Moscow, Izvestiva Vysshikh Uchebnykh Zavedeniy, 'Nashinostroyeriiye, No 3,
1970, pp 118-)'21
Abstract: An SDV-7 unit for arc surfacing with Stellite in a vacuum
has been designed and built at the Moscow Higher Technical School im.
Bauman. The design of the unit is based on a method o~f welding and
surfacing with nonconsumable electrode in a vacuum, developed bv the
above mentioned School. Stellite 7 (see Fig. 1) is melted by a DC arc
burning between cathode K and the article to be suriaced A--anode.
The design of the unit incorporates parts and elements of a standard
welding and vacuum equipment. The basic i,.echnologicaL specifications
of the SDV-7 unit are: volume of the vacuum chamber 300 1, ultimate
vacuum in the chamber 5-10-4 min Hg, operational vacuum 2--3- W_ min 11g,
time required to achieve operational vacuum 3-4 inin, diaineler of
1/4
BUDNIK, N.N. et al., Izvestiya Vysshikh Uchebnykh Zavedeniy Mashinos-
troyeniye, No 3, 1970, pp 118-121
i
Fig. 1. Diagram of the SDV-7 metal surfacing unit
Stellite rod 6--7 mm, maximum diameter of surfaced articLes 300 mm,
and power input 10 kw. The unit (see Fig. 1) consists of a working
2/4
BUDNIK, N.N. et al., Izvestiya Vysshikh Uchebnykh Zav(,(jeniy Mfashinos-
troyeniye, No 3, 1970, pp 111.8-L21
charaber of the vacuum system, welding gun with a for the
vertical. moveaienc of a filler rod (Stellite), meenanism ~or rotating
and longitudinal movement of the surfaced part, courrol panel, and
power supply for the welding arc. The vacuum chamber '. made o~
lKhl8N9T stainless steel plate, 0' rim thick, is reinforced with V-shaped
channels. Parts to be surfaced are loaded into the chamber through a
hatch which seals hermetically by means of a vacuum seal and four
lever clamps. The welding gun with a vertical movenient mechanism,
and electromagnet and electric arc supply terminals are located in
the upper part of the chamber. A filler rod feeding mechanism and a
valve for letting the air into the chamber are located in Lhe side
walls of the chamber. For visual observation of the surfacing, process
the chamber is fitted with three plastic windows, 20--25 mili Lnick.
The vacuum system of the SDV-7 unit. coniials of a VN-4G pr --~Iimin-Ary
vacuum pullip, BN-3 high vacuum pump, vacuum shut-off valves, and con-
necting pipes. The degree of vacuum is controlled by VT-3 and VM-1
vacuometers. The welding gun consists of a water-cooled cathode and
electromagnet 3. The electromagnet winding is made of an 8 mm copper
tube. Cooling water in fed through special inlets 14 in one of the
chamber's collars. The mechanism 5 for the movement of the part is
3/4
BUDNIK, N.N. et al., Izvestiya Vysshikh Uchebnykh Zavedeniy Mashinos-
troyeniye, No 3, 1970, pp 118-i2l
capable of moving the part longitudinally with a speed-of 0 to 22 m/hr
and rotate it at 0_6 RPM. The filler material feedin- mechanism con-
sists of a DC motor, reducer and feed rollers. It can hold either
6-7 mm. diameter rods or a 20 mm wide strip. Smooth control of the
feed rate in the 9_80 cm/min range, and reverse moving of the rod is
accomplished by varying the voltage in the DC motor winding. The con-
trol panel is located right on the chamber. Welding transformer of
the PS-500-type is used as an arc power supply. An industrial variant
of this unit for arc surfacing of valve parts is being designed.
~4/4
USSR
IVNITSKIY V 4.
t-W14~1z~_~U-1---i'.-I.- ~-:A~-;~_'-., ~ ~
UDC: 519.2
"Investigation of Nonstationary Characteristics of One Class of
Single-Line Queuing Systems"
Lit. mat. sb. (Lithuanian Mathematics Collection), 1972, 12, No
1, pp 115-128 (from R7h-Kibernetika, No 10, Oct 72, abstract
No 1OV93 [author's abstract])
Translation: A class of single-line queuing systems is con-
,g stream ivithout interruptions
sideTed with a Markovian incomin L
in serving customers. It is shoi~n that the Laplace transforms
of the principal characteristics of this system (nonstationary
probabilities of states, distribution of the time dtiring i~hich
the system remains in a fixed set of states, di.stribution of the
busy period and waiting time) are rational-fraction fUnCtiOrIS Of
the Laplace-Stielties transforms of distribLItiOnS of the amoinit
of ivork on serving custoners, their derivatives, an(] also tfie
paran.eter-constants of the incoming stream, serving rates.
1/1
USSR
UDG: 621-791-793
SKERNOV, B. A. l MALYSHEV, B. D. I IV
ZUKIN, 1. 1 , Candidates of Technical Sciences,
BOSHUPKINr N. P., SOSEWV, A. F., Engineers? VNIlmontazhspetsstroy, and YEFIMaKO,
L. A., Engineer, Moscow Institute of the Petrochemical and Gas Industry imeni
Academician I. M. Gubkin
"Particulars Associated With the Structure and Mechanical Properties of Joints Made
by Electro-Slag Welding Using Powdered Filler Metal"
Kievq Avtomaticheskaya Svarka, No 9, Sep 73, pp 46-50
Abstract: It is shown that the use of powdered filler metal reduces significantly
the amunt of thermal energy expended on joint formation and 5harply-changes the
thermal and technological characteristics of the electro-slag welding process. The
operating energy is reduced by 1.7 times. The time of the weld zone metal at above
Ac temperatures is reduced by a factor of two and the volume of the metal bath and
it2 duration time in a molten state is also reduced by a factor greater than two.
Varying the thermal conditions and the nature of crystallization implies improve-
ment of the primary and secondary structure of the seam metal and weld zone2 This
raiaes the impact strength of the metal at low temperatures by a factor of two. In
welding heat hardened steel, the extent of the weakening zone is significantly re-
--duced.
1/1
USSR
UDC 621.791.79.046-003-13
,&V1QQ1Q- 11 1. 1ALEKSEYEV, A. I. (Candidates of Techn. Sciences),
SOSEDOV, A. . (Engineer), /VNIImontazhspetss troy/, LEBEDFV, B. F.
(Doctor of Techn. Sciences), AVRAMENKO, V. 1. (Engi-neer) /Electric
1~~Hing Institute imeni Ye. 0. Patc~n:/, and IVOCHKIN, 1. M.,
/Sokolovskiy Plant of Metal Structures/-
"Electroslag Welding With the Use of Powdered Filler Metal"
Moscow, Svarochnoye proizirodstvo, No 5, May 72, pp 17-19
Abstract: The article describes an electroslag process involving the
feed of powdered filler metal (PPM) to the slag bath. The use of Pni
enables more effective utilization of fhe welding heat, doubles the
welding efficiency,and yields a weld with better properties. In
addition, the article discusses equipment designed for electroslag
welding of low-carbon and low-alloy steels, 25-60 mm thick, with PFM
and a consumable electrode of continuous cross sections. A block
diagram of a unit for proportioning and feeding PIPM to the slag bath
is shown. Various PFM compositions for low-carbon and low-alloy steel!,
are cited and test data on the strength properties of the welds are
given. (2 illustrations, 4 tables, 4 bibliographic references)
JiHl
USSR UDC
H., C=dieiate of Technical Scic-,ces, YFFI," 0 L. A F n.- 10 e 0 3:,
and PRYCA-Cr.V, A. F_ , Fn:-;.**uieer, Loscow Institito of the Nat'l-c'nal
G. V. Plel:hn-nov anI GP (abb-revialt;ion unknovii) Ineni 1. 1-1. Gubkina;
B . & , Cazdid-- te c--" Technic a 1 S3cionces , ivoc,,i; a ~i,- is 1 ul. i 'Ch-
- 'and
Ilica Sciences, SCC-EDOV, A. F., En-:-ineer I Hctimnii, ii. P., EnZineer,
u I
All-Union Scientific ReceEzch institut-e 1,,'ontazhrT.-_tsrtroy
"Regulation of the Structure P--,d of Veldod Joints of 10-312FIR 11,~at"_
Treated Steel in Electroziag Weld!_ng"
Poscow, Svaxcci,-!Ioye -Proi,:;vodstvo, I'lo 1(471), JWI 74l pp 24-26
Abstracti 1, study was rade of the conditions Ifor the rer:ulat'Lon. G'L t1l:_- S+.,.-uc-
ture and prow-r-ties of electroslag-virelded joint- of lOG2.-,'R heat-t_--~!P_.tcd low-
alloy sheet st e1, IvO rn thich, with a, view to JIIC2~CaZe 4-11,.~ stjLC-,j,-_j
-mechanical hono7eneitr of velded joint-s. Th3 Introduction of a
additive neta~' into the slz~g bath favors a 2:-sductJ_or. of tl~e st-ay ovor
the teauezature of the critical yoint Ac of the neex-se", matul at
3 0
from 45-50 to 10-12 _cec., an increaze of the j-.e_-+JnG =t3 -1 m C-10 .10
J. r0 ~. - _; : C./
6ect wid nearly two-fold increase of the weidijiE rate, applicatlcn cIF
1/2
WSSR
IfflAIM..OV, A. N. , et al. , S%,a--,:ochnoye Proizvodstvo, No 1 (471), J74, p-,) 2',,-;20'
accoapanying cooling makes it possible to aacrearc tho stay w~riod ovo,:L, -ZIL- 4-c
3
temp3)-mtia,c of the nua-scam rietal on cooling fron 140-170 to 80-95 c C -'U-o
increa-~c thu coolinv ratc- fron. 0.7-1 to 13-5-1V At- 12,1~-11!- C;z:c--c
ing rate, the im~.act ductility of the sean. and t1m neL-x-sc~in. of
joints of IOGUR h,-~at-treaated steel ircrcL.;es up -Lo a lc:ve-i
nom values uithin the tcmpz~ratum- intczrvz"'. of 20 to --60' C, rria a loc-L~
strongth in pre-etically prevented. Six fi-=es, thxcc izibles, ---im blb-Jc-
graphIc referencoB.
Welding
USSR UDC 621-791-75.045-52+621-791.046
TVOC ALEKSEYEV, A.I. (Candidates of Techn. Sciences)
/ VNIImoatazhspetsstroy .. /, LEBEDEV, B.F. (Doctor of Techn. Sci-
ences) / Institute of Electric Welding imeni Ye-O. Paton -/7,
STEKLOV, 0.1. (Cand. of Techn. Sciences) /__~Ioscoiq Higher Techni-
cal School imeni N.E. Bauman 7, IVOCHKIN) I.M. (Engineer)
/~Sokolovskiy Plant of Erect-ing Cranes-/ and MOTSOKHIN, S.B.(En-
gineer) / Trust No 7-/
"Automatic Submerged Arc Welding Using Powder Filler Metal"
Moscow, Svarochnoye pi-I;)izvodsLvo, No 2, Feb 72, pp .1.5-1-7
Abstract: The use of powder filler metal in submerged arc welding
permits joining plate structures up to 50 mm thick irithout bevel-
ling in two passes at a lower per-unit consumption of heat energy.
Described here lis a new analytical technique for determining the
1/2
USSR
IVOCHKIN,I.I.,et al, Svarochnoye proizvodstvo, No 2,Feb 72,pp 15-U
optimal technological parameters of welding with the use of powder
filler metal including the root gap, welding rate, electrode wire
feed, granulation,and the amount of powder filler metal. The weld
quality is rated on the basis of fusion depth, shape factor, weld
continuity,and the heat efficiency of the welding. Proposed is a
new automatic direct submerged (two-sided) welding technology ,.,ith
metal powder as the filler metal for low carbon and low-alloy
steels up to 50 mm thick without bevelling. The new process issaid
to increase the welding efficiency two to three fold (as compared
to conventional welding),decrease the cost per meter of weld by
about 80%,and produce an economic effect within the 10-50 rr,-.a thick-
ness range averaging at 330 rubles per ton. ( 3 illust., 3 tables,
4 biblio. ref.)
2/2
USSR
UDC 621.791.79-046-003.13
IVOCMKIN, 1. 1. , ALEKSEYEV, A. I. (Candidates of Techn. Sciences),
SOSET-107,1, A. F. (Eni:-Ineer) , Mi"11montazlispetss troff, , B.. F,
(Doctor of Techn. Sciences), A~Tx.~-'ENKO, V. I. (Engineer) /ElecEric
Weldin~ Ipstitute imeni Ye. 0. Pato21T/1 and
-- C,
/Soholovskiv Plar,- of Metal StructureJ/
"Flectrosiag V~Ieldlng With the Use. of Powdered Filler Metal"
Noscow, Svarochnoye proizvodstvo, No 5, May 72, pp 17-19
Abstract: The article describes an electroslag process involving the
feed of po-..,dared filler metal (PF:1) to the slag bath. Thie use of Pl~"
enables nore effective utilization of f4e velding heat, doubles the
welding efficiency,and yields a weld with better proporties. In
r.dirlicipa, uic article dilfscus---es equi.pinent dcs.igped for C-1ceLrosla;,
WC- I f ZiTl..Ij 10~,j-a
.1101,' Fteels. 25-60 ,=i Ciick., with PP-1
and a consu.-.,~.bje electrode of continuous cross sectio-.,,s. A block
d i -a= ~i - I z: 17- c, rr cq~ o r t , ca r, d f P- e ~1 --' nP P! t c1 ab :- t
is ~;Ilouil. "i'Arioll,. PF." composiLionsl for lo-,-carbon and
ar,2 CiLCd 1!1(1 -Ll Oil 010 -~treilgth Properties of the weld,; ~IYC
4 tables, 4 bibljm,~raphlc references)
IA
Welding
USSR UDC 621.791-75.045-521-6'~)1.791.046
IyOC11KIN, I.I., ALEKSEYEV, A.I. (Candidatcs of Techn. Sciences)
VNIImontazhspetsstroy_7, LEBEDEV, B.F. (Doctor of Techn. Sci-
ences) / institute of Electric Welding imeni Ye.0. Paton /,
STEKLOV, 0.1. (Cand. of Techn. Sciences) /71,.Ioscow Higher-Tc-chni-
'6al S'chool imeni 'N.E. Bauman /, (Engineer)
~_SokolovSlkiy Plant of Erect-ing _a'i~j_7516TSOKIIIIN, S B. (En-
gineer) / Trust No 7-/
"ALIUA]IatiC Sul),,-aerged Arc I-Jelding Using Po,,Mer Filler IMet-al"
Mosco;.7, Svarochnoye- proizvodstvo, No 2, Feb 72, pp 1.5-17
Abstr,act:: The use of poader filler mcital in submer'-Od arc' wc..Iding
permLi-s joining platLe structures up to 50 mm thick without bevel-
ling in two p.-isses ,it a lower per-unit conSWI-TtiOll Of IlCtat energy.
~a analytic.~!I technique fo_,~ determining Lhe,
1/2
3R
IV0CIIKI-N,1.1.,et al, Svarochnoye proizvodstvo, No 2,Feb 72,pp 15-17
optimal technological parameters of welding with the use of powder
Z~'- C>
filler metal including the root -ap, welding rate, electrode i-Are
feed, granulation, and the amount of powder filler rretal. The ,'eld
quality is rated on the basis of fusion depth, shape factor, weld
continuity,and the heat efficiency of the v,-elding. Proposed is a
new automatic direct: submerged (two-sided) welding Lechnolo y with
metal powder as the filler metal for low carbon and low-alloy
steels Lip to 50 virii Chick without bevelling. The new process is said
to increase the wokling efficiency two to three fold (as compared
to conventional welding),decrease the cost per ij)eLer Of lvleid by
about 80'/'oand produce an economic effect within the 10-50 nint Lhick-
ness range averaging at 330 rubles per ton. ( 3 illust., 3 tables,
4 biblio. ref.)
2/2
1/7 030 ONCL ASS IF I ED
TITL;_::'--Ll;'FTEe ~*~ INAT lf",N OF Sl RESSES 1-4 T14~ GLUE LAYER A-' I SI '%C JJE TD
SHk I NK A GL DUR I o4G THE GLU I NG OF MF T A LS -IJ-
AuTt,-R--IV_'-LGl-Nv V.YA.
CCUNTRY OF INFO-USSR.
Sl_jURCE--t,l,1&h. POLVA. 1970, tAl)r 179-80
OATE PUBLISHE-0 ------- 70
SUBJECT AREAS--MATEPIALS
TUPIC TAGS--AGHESION STRC'IGTH, GLUE, '4ETAL TO NONMETAL PLASSTIC
FILM, MECHANICAL STRFSS
CONTReL MARKING--NO P.ESTRICTIONS
DOCUME:NT CLASS--UNCLASSIFIED
PRJXY REEL/FRAME--1939/0807 STEP N3--Uk/0374/70/f_l0b/0Jl /01 71~'ljl 9f-'
ClaC ACCESSIO*~ NO--AP0107349
UNE LA SS I F I f.!)
I
2112 I F 1 0
I --l' C A 'I c S, s I
S T A C T E A T C, T
L S C
S F A PI J j, Y tM I
u y P, S C-4 T i 16
'
: A L j N 'E 'A,
-
tj
T
.
P L A T E S
C L A ~~S U
USSR
UDC.621,791.75
BUDN I K, N.N., Engineer, IVANOV, V.V., Engineer,, IVNITSKI B.Ya., En-
Sineer, KKAVCHENKO, V.G., Engineer, MAGNITOV, V.'T:-,-,,I;9-eMYor Enlinear,
and YAMPOLSKIY, V.M., Candidate oi Technical Sciencits, Docent
IIIA Unit for Arc Metal Surfacing in Vacuum"
-~Mo.scow, Izvestiya Vysshikh Uchebnykh Zavedeniy, Maahinostroyeniye, No 3,
_~1970, pp 118-121
'Abstract: An SDV-7 unit for are surfacing-with Stellite in a vacuum
been designed and built at the Moscow Higher:T~echnical School in.
Bauman. The design of the unit is based on. a method o:1 welding and
.surfacing with nonconsumable electrode in,a vacu'U111, Geveloped by the
above mentioned School. Stellite 7 (see' Fig. 1)~:*Ls Plaited by a DC arc
to be s;urfaced A---anode.
_:~:,~burning between cathode K and the article
'~_The dei;ign of the unit incorporates part.,; and eli,imentts of a standard
Feldial; and vacuum equipment. The basic cechno.ly$ical sPecifications
.,of the'SDV-7 unit are: volume,of the vacuur~ rhaziber;300 1, ultimate
-4
vacuum in the chamber 5-10 mm-Hg, operational~vd~cuurti 2--3-10 mm Hg,
time rv.-quired to achieve operational vaduum.3-4 min, diameter of
BUDNIKI N.N. et al., Izvestiya Vysshikh Uchebnykil Zavedeniy Mashinos-
troyenliye, No 3, 1970, pp 118-121
c n.111be.r: of the vacuum system , welding gun ~with a mechanism for the
ertIcal movement of a filler rod (Stellite),I mechaniti ra for rotating
the surfaced apart, contrt I p
0
n,.1 ngitudinal movement of ancl, and
er supply for the welding arc. The vacuum.chamber, mado of
.1 N9T stainless steel plate, 6 mm thick, is reinforce' sjith V-shaped
channels. Parts to be surfaced are loaded into the cliamber through a
-'.:-:--ha.tch which seals hermetically by means of a vacuum,seal and four
jever clamps. The welding gun with a vertical moveme,vit mechanism,
.,and,electromagnet and electric are Supply :terminals a7re Located in
2_1 the,upper part of the chamber. A filter,rod. feeding mechanism and a
amber are Located in the side
valve for letting the air into the eh,
q of the chamber. For visuaL observation of L110. qurfacing process
~--_,the chamber is fitted wiLh three plastic windows, 20-25 inut Lhick.
The vacuum system of the SDV-7 unit conalits of a V'111.44G p-rcliminary
Vacuum purip, DN-3 high vacuum pump, vaculam i3hut-off -alvau, and con-
I.`..__'necting pipes. The degree of vacuum is controlled by VT-3 and VM-t
vacuometers. The welding gun consists of a water-cooled cathode and
electroma8net 3. The electromagnet winding is made of an 8 mm copper
~_-t b- 0
-U e. C6 ling water is fed through special inlets 4 in one of the
chamber Is collars. The mechanism 5 for :thelmovement,of the part is
3/4
V,.
BUDNIK, N.N. et al., Izvestiya Vysshikh lJchebnykh Zavedeniy Mashinos-
troyeniye, No 3, 1970, pp 118-121
:capabie of moving the part longitudinally with a Speed'o: 0 to 22 7,L/hr
sind feeding mechanism con-
rotate it at 0-6 RPM. The filler material
sists of a DC motor, reducer and feed rollers. It can hold either
6-7 mm diameter rods or a 20 mm wide~strip, Smooth control of the
feed rate in the 9_80 cm/min range, and reverse noving of the rod is
accomplished by varying the voltage in the DC motor winding. The con-
-trol panel is located right on the chamber- Weldipg transformer of
the PS,-500-type is used as an arc. power.-Supply. An industrial variant
of this unit for arc surfacing of valve parts is being designed.
~4 /.4
USSR UDC: 519.2
IVN. V. A.
.jMKIY
*wow
"Investigation of Nonstationary Characteristics of One Class of
Single-Line Queuing Systems"
Lit.,mat. sb. (Lithuanian Mathematics Collection), 1972, 12, No
1, -pp 115-123 (from RZh-Kibernetika, No 10, Oct 72, abstr~Tct
No 10V93 (author's abstract]):
Translation: A class of single-line queuing 5ystems is con-
sidered with a Markovian incoming stream without interruptions
in serving customers. It is shown,that the Laplace transforms
of the principal characteristics of this system (nonstationary
probabilities of states, distribution of the time Curing which
the:system remains in a fixed set of states, distribution of the
busy period and waiting time) arexat.ional-ftlCtiOn fUnCtiOnS Of
the-Laplace-Stieltjes transforms of distributions of the amount
of1work on serving customers, theIr derivatives, and also the
PIarameter-constants of the incoming stream, serving rates.
22
SMSKOVI B. A., KkLYSHZVl B. D., IVXHK2L.__~.f
ROShU~M, 34. P., SOSEDOV, A. F., 15iiiniersf,VNIlmontazhopetustroyI and YEFIMENKO,
L~ A. I - Engin6erl Moscow Institute of the: Petrochemical and Gas Industry imeni
Academician Is M. Gubkin
"Paiticulars Associated With the Structur and Mechani al Properties of Joints Made
c
by. Blectro-Slag Welding Using Powdered Filler Metal"
Kievs Avtomaticheskaya Svarka, No 9, sep 73, Pp 46-50
Abstra~t: It is shown that the use of powdered finer metal reduces significantly
the amount of thermal energy expended on joint formation and sharply-changes the
thwvaal and technological characteristics of the electro-slag welding process. The
operating energy is reduced by 1o7 times, The time of the wald zone metal at above
Ac temperatures is reduced by.a factor of two and the volume of the metal bath and
it~ duration time in a molten state Is also:reduced by a factor greater than two,
Va7ying the thermal conditions and the nature of crysti.Luization implies improve-
m~tit of the primary and secondary structure of the seam metal and weld zone. This
-raises the impact strength of the metal at low t=Lurev by a factor of two., In
'velding heat hardened steel, the extent of the w iig zone is significantly re-
due ed.
IA
USSR UDC .621.791.79..046-003-13
I., ALEKSEYEV. A. L (Candidates of Techn. Sciences),
SOSEDOV, A. F. (Engineer), /YNIlmonta:khspetsstroi/-i,,LEBEDEV, B. F.
fences), AVRAMENKO, V. 1. (Engino-er) /Electric
(Doctor of Teenn. Sc-
Welding Institute imeni Ye. 0., PatoQ,:a'nd IVOCRO' 1. M.
/_111okolovskiy Plant of Metal StructurcO
"Ejectroslag Welding With the Use of Powdered Filler Metalls
Moscow, Svarochnoye proizvodstvo, No 52 May 72, pp 17-19
Abstract: The article describes an electroalag procevs involving the
fetA of powdered filler metal (PPM) to the slag bath.! Theuse of PFM'
enables =re effective utilAzation of fbe~wvlding heat, doubles the
welding ef f iciency, and yields a weld with bitter- prop4hr ties. In
addition, the article discusses equipment designed for, electroslag
-cae -alloy steel .25-60 nu 0 ick, with Pnf
welding of low bon and low
aa& a consumable electrode of continuou� across sectiono. A block
dia&~:am: of a unit for proportioning and feeding PFM to.~ the -31ag bath
is showa. Various PRI compositions for low~'Carboh and,low-alloy steels
are'cited and test data on the strength properties of ~ the weldr, are
given. -(2 illustrations, 4 tables, 4 bibliographic references)
USSR UDC 621.?Oi.793.o52.oii669.Ol7.3z660.14.013.')90.3
OKO, L. A., Kn,-iriecx,
MYJY.)V, A. If.# C--,d-idate of Techn-tcal Sciences, YEFIME. 1;
and PRYGAYEEV, A. K., Engineer, Moscow Institite of the Na-tion"I Erconovy iaeni
Y.-
G. V. Ple,khanov and GP (abbreviation unknoun) .1meni 1. 1-1. Gublcina; .~L- RHU,
Candi&--ta of Technical Sciences# 1VOCHUMI 1. 1 t Carld-4 dato of T--7b-
A
nical Sciences, SOBEDOV, A. F., Engineer, and SHCHLIFE121, 11. P.0 Engineer,
All-Union Scientific Rezearch institute. 1-,'ontazhsp--tsstroy
"Regulation of the Structure and Properties of. Welded Joints of IOG21FR Heat-
Treated Steel in Electroslag Welding"
Moscow, svarcchnoye Proizvodstvo, 110 1(471), Jan 74, pp 2-4-26
~or the rev.11--tiom of th~- struc-
Abztracti A study iraz rado of the conditions A,
ture EuA proparties of electroslag-w~lded jointz of 10G2,52 heat-troated low-
alloy ~aheet ntcel, 10 ma thick 0 stith a vicir to inci-ease the structur-al-
-tiechanical homogeneity of uolded Joints# , The introduction oP a pouorlika
additive mtal into the slag bath favors a' reduction of the nlay p:~Aod over
the teimp-aralture of the critical point Ac 3 of the neai-new-i matal at h3ating
fron 45-,40 to 10-12 see., an incrcase of the beating rato fnm 8-10 111-o C/
ser-9 and nearly two-fold increa-se of the welding raU-. Tha aplAicatior. of
XHAUMOV, A. H. et al., Svaxocb-noye Proizvodstvo, Ho Jan 74, pp 214-26
accompaRying cooling n&es it pcssible to decrease the stay pe-ricyl over the AC
3
temperatv-uz~e of tbe near-seam xet&l on cooling frozi VLO-1,70 to W-95 "C zulel to
0
increase the cooling rate from 0-7-1 to 13-5-1w, C/Sac. lit 12.5-14. C/O-,,c Cool-
ing xattey the impact ductility of the sexr and tho zone o-C~ veld~-cl
joints of 1OG2FR heat-treated steel incroaaes tip to a level exccadinE tho
norm values within the tozp~.~ra--"'-Ure Interval of 20 to -60 C, C~n4d a los* of
Litton is pmetically prevented, Six firmsj t1tree tablos', 11-wo biblic-
9t
graphic references,
2/2
Welding
USSR -52+621
UDC 621 .75 045 .791.~04,~
-.791
ALEKSEYEV, A.I. (Candidates of Techn. Sciences)
VNIFmontazhspetsstroy 7, LEBEDEV, B.F. (Doctor of Techn. Sci-
ences) / Institute of Electric Welding imeni Ye.O. Paton.2,
STEKLOV, 0.1. (Cand. of Techn. Sciences) Moscow Higher Techni
Cal School imeni N.E. Bauman IVOCIMIN, I.M.
Sok6lovskiy Plant of Erecting Cranes and MOTSOKHTN, S.B.(En-
gineer) ]~ Trust No 7
IlAutomatic. Submerged Arc Welding Using Powder Filler Metal"
~Mo6cow, Svarocinoye proizvodstvo, No 2, Feb 72, pp 15-17
Abstract: The use of powder filler metal:in submerged arc welding
Permits joining plate structures up to 50 mm thick without bevel-
ling in two passes at a lower per-unit consumption of heat energy.
'Described here is a new analytical technique for determining the
1/2
USSR
IVOCRK1Ni,I.I.,et al, Svarochnoye proizvodstvo, No 2,Feb 72,pp 1547
optimal technological parameters of welding with the use of powder
~.filler metal including the root gap, welding rate', electrode wire
feed, granulation,and the amount:of powder filler metal. The weld
quality is rated on the basis offusion depth, shape factor, weld
:-Continuity,and the heat efficiency of the welding. Proposed is a
:new-automatic direct submerged,(two-sided) welding technology with
as the filler metal for low carbon and low-alloy
steels up to 50 mm thick without bevelling. The new process issaid
to increase 0
the welding efficiency tw~.to three fold (as compared
to conventional welding),decrease the'cost pir meter of weld by
-about 80%.,and produce an economic effect.within the 10-50 rin thick-
veraging at 330 rubles per ton. 3 Must., 3 tables,
range a
4 biblio. ref.)
2/2
USSR UDC. 621.791.79..046-003.13
IVOCHKIN, 1. 1., ALEKSEYEV, A. I. (Candidates of Techn.~Sciences),
SOSEDOV,..A. F. (Engineer), /kFNIImonta;hspetsstrOff, LEFf.VEV,.B.,.F..,
(Doctor of Techn. Sciences) , AVR-AVMEN-KO,. V. 1. (Eng*neer): /Electric
Velding Irstitute imeni Ye. 0. Paton/,,and4&jg "-
/Sokolovski-Y Plznt of Metal Structures/
owdered Filler' Metal"
"Electroslag Welding With the Use. of P
Hoscow, Svaroclinoye proizvodstvo, No 5, May 72, pp i.7-19
Abstract: The article describes an elect,roslag process involving the
powdered filler metal (PFA) to. the slag bath. The use of PFM
feed of
enables more effective utilization of the welding beat, doubles the
welding efficiency.and yields a weld wrl t hbetter PToportles. In
addition, the article discusses equipment designed for electroslag
welding of low-carbon and low-alloy steels,.25-60 rm thick, with PFM
.2nZ a consu=ble electrode of continuous~ cross sections. it block
diagram of a unit for proportioning and, feedinc., PPH to the slag bath
is shoim. Varitus PP-1 corpositions for low-carbon and low-alloy steels
are cited and test data on the strength,properties of ~ the welds are
given, (2 illustrations, 4 tables, 4 bibliographic references)
48
Weldihg
USSR UDC 621-791-75.045-521-621-791-046
IVOGHK1N1, I.I., ALEKSEIEV, A.I. (Candidates of Techn. Sciences)
VtjjImontazhspetssL:roy.2, LEBEDEV, B..F. (Doctor of Techn. Sci-
en6es) / Institute of Electric Welding imeni Ne.O. Paton
STEI'~LOV, 0.1. (Cand. of Techn. Sciences) /-~Ioscow Higher-Techni-
cal Scho'o-f~i'n~ieni N.E. Bauman_j, L,7NO, .%[~.(Engineer)
so'kolovskiy Plant of Erecting 8 band MITSON HIN S B. (En-
gineer) Trust No 7-/
"Automatic Submerged Arc Welding Using Powder Filler Metal"
Moscow Svarochnoye proizvodstvo, No 2, Feb 72, pp 15-17
Abstract: The use of powder filler metal in submerged ard t~.relding
plate structures up to 50 mm thick without bevel-
periMA-S joining
lin in 0,10 passes, ot a lower per-unit consun-l"pt--oi) of heat energy.
Described here is a new analytic,11 technique for datermining the
112
1,f ij
IVOCHKL
N,I.I.,et al, Svarochnoye proizvodstvo, No 2,Feb 72,pp 1547
optimal technological parameters of welding with the use of powder
filler metal including the root gap, welding rate, electrode wire
feed, granulation.and the amount of powder filler metal. The weld
quality is rated on the basis of fusion depth, shape factor, weld
continuity,and the heat efficiency of the welding. Proposed is a
new automatic direct submerged (two-sided)-welding technology with
~metal powder as the filler metal for low carbon an& low-alloy
steels up to 50 mm thick without bevelling. The new process is said
to increase the welding efficiency two to three fold (as compared
C2
to conventional weld-itig),decrease the cost per meter of treld by
about 80%,,and produce an economic effect within the 10-50 mm thick--
ness range averaging at 330 rubles per ton. 3 illust., 3 tables,
.4.b'blio. ref.)
2/2
:P
030 UNCtAS -to
[NAT ION OF STRESSES I'l THE :GLUE LAYER. ARI'.lING DUE T9
~.:-~-'.-..:ISHR~ItNKAGE~Pt4ENOMENA DURING THE: GLUING OF: METALS -U-~
-.AU`TH0q--IV0l.GIN, V.YA.
OF. 'INFO--USSR
POLIM. 1970# 6( 1), 179-80
DA T E, PUBLISHED ------- 70
"`SUBJECT_ AREAS--MATERIALS
,.-.,-.,-TOPIC TAGS-40HESIOIN STRENGTH, GLUE, METAL TO NONMETAL BONDING, PLASTIC
FILM, MECHANICAL STRESS
zFCONTROL MARKING-1140 RESTRICTIONS
DUCUMEENT CLASS--UNCLASSIFIED
7-81ROXY RCEL/MINE--1,949/0807 STEP NO--Uk/0374/70/f.706/001/0179/Olgf)
2/2 030 uNr-LASSIFIED PROCESSING DATE--020CT70
CIRC ACCESSIT)N NO--AP0107349
ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. A CORREL&TION WAS AC-iIEVED BET WEE N
THE ADHESIVE STRENGTH (A) OF A POLYMER FILM TO METAL SURFA:E AND THE
ADHES~ION STRENGTH (A PRIME) BETWEEN 2 METAL PLATES BONDED TOGETHER WITH
THIS POLYMER. A PRIME DEPENDS ON THE COMPRESSION DURING B:)-NDING. A WAS
DETD. FROH A PRIME VALUES OBTAINED SY DELAMINATI.NG LAP JOINED METAL
PLATES.
& - Tlo
V11-9. tyr-CT OF PIE CRYSTALLMT108 CONDITIONS oN PIE rwFEirrin OF PIC TRANS-
MIT LAYUP-1i IN AUMEPITAXIAL STRUCTUM OF GALLIUM ARSENIM
lxvanm Toeakl N0.0.(htr,k. 111, 5
plenok,
June.
r-1- Tmrr to devoted to the discovery at the causes or tN* avrearancg
-Arawn-CAA4. 7"e this r~rreo -it viudT voi
cptzxxtstly
Pod', of the tfftCt Of the tYP& Of &uh4tr4t4e the surface qualirr =a the crystal.
lizati.on conditions in the Initial stage Of the process an tic prTgartles of
the transient region.
The *ritaxial ls~ors Vert grown In the r~A&Ct 3-112 y.te, The process
van realized for ordinary preparation of the substrates and,, I,"- addition, with
annealing eAd.x" etching. . Thr-duration.of the experiment vAtted from several
rAnutes, to own ~ hours. .The uqttoentEy of the distribution Of the a4mlitures
with regooct te'thicknoto of the epttaxial lover von estimated by the break-
devit. voltage of the point contact on 4 lov-onglQ oectien mnd bT- laver by
of, the Hall offset. The %itra"rvhaL*gT of t!= 1mrface was
studied. under an 41ectran microscope.
by usinx the electron NlCfOGCOP4. & new type of Rra~tlw def"t was din-
C"eted, The density of these defects In connotteil with the isetttva$ of treat-
7". tog the substiatva dir4-ttlY.fief*!rg.e:pititxial-grtmth. -At wxxf~4 that the
arosith 2-stQ and the Isvot of alloying the epitaxist layers depends an the d4no-
try of tSeas defects. by I'voulating the process conditions
in the Initial
etas* of arowth, tha width* of the transient replan can be v:art*4. Possible
inchoolaw of the formation of the transient loyers are discussant,
17
x-i. sTum or nip. mimmommocy AND wir-mmunm or nmxivus I% EmAx-
IAL Alto CALLIUM AILSWIDt AS 4 MICTIOU OF "My CN3;mi TIME
Urti!zl- bw L. G. L.vr&nt'j*vv, H, 12. -YUL-9va, 1. _.VXvgnIn. D.- H, grasil'-
atka-re, T. A. Xjrmatv~. 'J., X. fL=y.nt&ov. bj, P. Vakubanym. Tomax,
.voetbtrok, [It SL Ott- P4 rr,
Szrtat4ll,,v I rlt,,k. June, IVU, v 11"I
-A -stu4y u= =ado -of the mptttxlwl lavcr2 of Sal-elum arv*01M grown in
an oy-or-em on ft" t1WA ift the
(110) direction. Th a growth ti=,s yorted.1r9a oneat"te io tMam, h=tnt,
It VAN deftoft0traLRd that for Pit ar-th iLM9 beginning with -a mal."
site, the gjawth of the leyors of the 1&"n at 1,antaticn takes plate by phifting
of the parallel steps. There are a nuabor of i;rcvth 44facts Itading to dig-
turuo..* In the ar,)*rs4 motto. of the *r~pu. TImse are the stirwth hole*. tj,4,
j~ou0h.hlllv and some centers of retardation of the sttpaja whivs the atep-,
form local pilittpe -OK4 loops. There a a *Lint titan I -Tworrsovmont. of the
jurf4c* of the groving layer with mrawtit t'VW-,_,- the 'Pvieth,'h11U arO hate*
of the centers of vatimaitiou of the i"-m "eye
ties
and tKi-tofiffaurstien of the 'steps .1 r1kantew. The: reatrangs"at of the Uwf:ce
of the Layers to scmManted by viiiittvo In-0110ying levvii, A clear Corrals-
the alft1tron toncontrat an ','n - it slyar
tion has been estsSlIshod bet 1 11 th I and
ths, density ot the teatirs of ratstdatima,of the steps. The cA4*rv%d carrats,
tton indicates that the nonuntformity *r ailc~rtftj 44d the .19"hition.of the
trs&iltI*n,Ivy*r "n 49- conoottod witb lomth detects and their *Elect an the
mties of the StcWth steps.
330
'-"~d
7p,e 5 Z) '
(' - 7
X111-14h HUHN115ti Of T111: VORMT11111 OF [AFLCM IM LPIT-WA.L. FOKMS OF CM& CIS
cc
JArticle by L. Yr. Lviktetolra. 1, V-1-Ygnin. U. V. Ru2s,tkina. TomIrk. Novo~---
birst" Itt lf --- ' '- " - n~
rr,,v1.%LLq Prot-- RoAtA I 1'01'Tir- InMc
f -Ti i I --
tall- -'j?June
p
The itiven paper hart purs,jed tile gani of 4tudvin?. tire poweLbAs t~uvtv
Of the defect f~tnw%Llon with t-pitaxy of GaM m Cc subt;zraterr. Pie eloscd
iodide Vyatam wan w-d which gives ft Ima vith a ilrvelv"d defect -Me
vArlot Ion of tile lirawth rate of tho film ond the vorpholeipv Lit the-Ir surfaces
et'? at Ualed a" .' ro'ett." of tire rpftniital ttII unipit ~ettcdl -aid
The standard film drferts uUtaincri in thia syster, eve ticretwin
layern and hol~rl of Jifirrent 411waslarts, tot tire aurfarr of the Jvleeti~
sections of~ the, ' Mili-freiltwn tly a to& ting.~f another rharie is d4-tv'~tvrf a- thi,
in jile,file "!lies
same time as twi AncluOlon, of the srconj phasre lr~a d
9"(t0 proly , ~it Wa, Jttrcriv~tr'j tl,.t tile I$ t,i. sret,I%'C&
second PI'llse
the defc.:t: Ib. iil. growth Initially takrs rJACQUir I - it= and
" Y'K'T
rapid normal jl--r,~wth of quite large Theit are, c~rrJ.fiou.-VIC ii.rfoct
by a plknitediEfering with respect to color both (rum CaM and from Ct. With
1,, form.,jenr ("j"tintlotis film the Accon4 reaction Is bairleAlIv
at tht'Corltact !?Oiuts of the islets caused by tile iiiettal naturi~ 9 f tf~ fjoyitj
0f th. a srcti,,is-or the film. The fact that tile second phase go .,;bject tp
a graving sut(a.,:e Indicates it liquid state and that thor gft-;~% of t'Sits'r Alie'!
tions apparentki piucieds, according to Or varar-Ilquid-cryst&I %.tx"mkfs=.
The I r ;rowth tr&to triquently "'fare 'romrthe itrowth ra te of, the baste f1jul.
Ilia relation r'. these rates can vary with time.. criultina a highly cv=Len faru
of tile d.ftctJ-'Lv rogions of tile film. , The defect cso prow w4on, the *-ronil
1,1111.41 t.1 Its ct%rfdrd mlan. III* darect1w r.givon diff"Or (Tft fl~' 'Arriv (it.
with rospert t-') `alloyin;t nature. Bove facts Indicate that the second jhatit, or,
the film surl!Ltc basically It" an alloy of Ga with Ga. Possioly. it contaLno
oxyron and act sr admixtures,
A114-6. LFELCI 14 Tj,E CILYSIALL17,ATIMI TUMAMURE (Xi TllL LLr.C-&lU)l'hYSIQL T-RUP-
!.(r .4 AJ1.61.14NE
IeTTFF; A;:D tlokrlit. Y OT UPIFAMAL MUM
(Article hv L_~G--WVv.?rjt'y9vs. 1. 1-.ntn. Vu. G. ~MaY-v, L. k. f.rj41l*
KO iv a. P 4. J, --ts"V . vu. M. A. U. Sh a.
ts-rialtbirill,., t1j Sfm-1Au,, P- 1-r-t1el-At, K-ta L St~itt,2-,;
- I _;i '
'Ill unc
ft. -j9ij.
were m4de vf tile micromorpholt,97 in.1 tie 4t4tribution tit tit"
admixture witil rxp&tt to tnicknepe of tile lutelipitaxiol IsFurA uf,P-Alliup~
ortitiltdo with the (1,015, 1. 1) A orientation as a function Of tile cry%talliza-
tim te"eja6io in V.# Gafts-HI-112 oystals. Itle evitAX-1, terveraturp varied
w1tqLn the tango of 600-750" Ci, hate, tile thetmody"Amic, stioervaturation wail;
Ira r the j-IIt*tjonxTy dilcttoin, the at, tt mal. tciz:,teraturr T=F. (675-700 Q
Is observed or Which tile l'iyers grow rwre nerfect with recoect. Art "tructure,
w%th tne troatedt,clarity, Irregular fkyotvmt of avaWth litwpev "I tile ourf"Ce,
admixture concentration mid mattlatuili electron "kititty. In tWa
Co"'t Of ~ reduction in the tryst AlIttlittlift t. -ramite fro. 6ptimAl, the jrr,-t-
st.glis irt, A=,J,#Ltr4 more vvskJv, tile Arow~h ratty A;rops, and the allayllilt IcML
frertavies. lho Lvickolve in teiaverature ali-ove aptlizal, lealla to local loolation
of the 44rMd Polito. itilittiltion of tile frMth proges t"these sqCtinno finj Jos-
tructlon of the rrrulsrity. liere, the prowth rote Alecreases. And the all"Inat
ftetal lacre"em.
'WUM. Sit a"AlYNIS Of tile T*Mutts shows that the Clear C.Tralattur, is
lil-ervall betwtit t1w, Layeetigated clssractortilitica. Clue of Live 11"ritant re-
rulator" or CAturo or tits admixture by tits icre"Ing layer Is %lie surface xdm,
structufo imtd the mechanism of Its KroWth.
111-1. FrFEC-T OF CRYSTALLIZATION CONDITIONS ON THE ANISOTROPY OF WE GROWM
AP.0 ALLOYING of GEMM41UH IN CAS TMISFORr STSTEM
(Article by L. rf, tevrent'y~evs, I. S. Zakharvv,l. V, IvonInt S. Is. To
Tossak; NOV04 ri'Frok, III Z~JL= I qlhtels rolyprovedni-
jy!~ po Pjp~att~ssmm
I.Rz
t iYe Russian, 1.2-t? Ivera, 1972, p IN)
-I. It was prevEriusly downstrated th&t. rho antNotropy of the Xrowtt-
rate AV 61 Sermanium in the Ge-411-41 system 'h*m a signi fic.at feature tthe
growth fate decreases an deviation ireiv (IM mv4l' (110) to (311). It'.i. as-
ousted that this phenomenon is caused by sippititant difficulties in the dia-
rharga of adazomm to the stmLe arising on i=x-maning the angle of daflcctit'n
854, 197a).
1Cr7stAIloMT4phyJ. V.1 15. K. 4,
.2.. TimestuAy.-of the-snimotropy.of tha.xerawLum.zrovth veto In the
SWM system jntjWL(IIIj_(jI07 range centi.mard that tha'(111) plans actually
corresponds to a jfijfp, peak. ' The i~peanancr -of the growth rate peak at [trot
Ounce contradicts the thermodynamic date, pradicting the mLntm= growth rate.
for thie, plane,
3. In order to discover the monorail" of the observed Inwo. studies
war* UAJ~ of AV In the GO-re system. It wtatoumd that the Krowth masotropy
in this tame dIff#r& 044ontiolly from the preceding anisotropy. The (111) and
(100) P144"62 be" that;? growth rate miniew, ..The grouth.rate Increases on davt-
stion'frou.(Ill) and (100) by a small aglt~__*wf then it drops sharply -on 4#$WL-
stion (too thu Nits by itn angle of MoreL than I'a'. Thus, the aIgniticant difft-
cultl as w:tH the adatow dixcharge In the stag* sets* in this stale in the midi
dle of the Investigated interval..
4. It Is "nuord that the cause of the difficulties whith set** vith
the adarom dincharee In this step,* Is adjustment of the surface structure
cou*ed by the affect of a number of thersodynewic and kinetic factors.
5. The election microscope studies of thfr surface of RomAntuxo layers
of dLf(*tent orientailon confiming the et,stwd proposition were performd.
6. A comparison and analysis of ant"tropy of the alloying level to
the investigated systems are wds. The r*poTt contain* a 41scumoton of the
C-.: qvencow arising from the studies made. and the conclusion to driown of
it,* ocessity of considering additional parameters when calculating the out-
motropy of the growth rate in much *yet*".
174
21 .040 UNCLASSI FIED . . 'I. '0413CES:S:ING DATE-- t%,'0(_'T7-j
IT-tTLE-ESTIMAT ION OF THE REPEATABILITY O~ STRENGTH OF SMUCT'URAL.
~,'f 16ERGLASS PLASTICS IN CON I CAL SHELLS: ~U-.
~,-AVT 11P R- C 0 3-1 YU.N., DUSHIN, 114. 1 1%~STEROVSKIY N. V.
~-C_QUNTRY (IF tNFO--USSR
~SUURCE-IMEKHANIKA PULIMERUV, VUL. 6, JAN.-FEB. 19 170, P. 10Z-108
DATE P031- ISHEL)-----70
UBJECT AREAS--MATERIALSp PHYSICSvMECH., IND., Cl%~IL AND MARINE ENGR
JOPIC,TAGS-FIbERGLASS, PLASTIC MMiANICAL PROPERVer COMPOSITE 14TERIAL,
PLASTIC FA6KICATION, CONIC SHELL, MECHANICAL STRE'NGTH, CONSTKUCTICIN
MATERIAL, STATISTIC A14ALYSIS
o'CONTROL MARKING--NU RESTRICTIONS
00CUMENT CLASS--UNCLAS S I F IL 0
Li _:P.K0XY AlAL/FRAME---I99l'!/I89l S I E P 03 74 10 100i, ul-W 19 201. ,)!j
'C fit' ALCESS16PJ i14Q--Av()ltldll
77777~
2 040 UNCLASSIFIED PROCESSITNi3 DArE--090CT70
ACCESSIO.% Na--AP0112671
'ABSTRACT/ -EXTi~ACT-1 Ul V-P-0- A3STRACT. C P A RS &N UF THE 14FGHAN11 CAL
--PRUPERTIES JJF FIBEIRGLASS REINFORCED rl0,'4P-J5ITF;S HAVING ASHAPE Of CONICAL
4
AND FABRICATED UNDER LA60RATORY AND INDUSTRI'Al- CONDITION'S. -THE
UF THE IMPREGNATION UF A DRY PACKAGE UNDER PRESSURE IN A
,,:,.~,CLOSED~ MOLD IS,USED. ON THE aASIS OF ASTATISTICAL ANALYSIS OF THE
L~:-_~EXPERJMENIAL DATA ASUBSTANTIAL DIFFERENCE IS DJEMONSTRArED BETWEEN THE
-,S-TRENGTliS -UF-SHELLS 'JADE UNDER LABORATOKY AND INOUSTRIAL. CONDITIONS,
009 UNCLASSI FIE0 PROCESSING DATE--Z7lN0V70
,~j__...f,TLE--EFFECT OF GIBBERELLIN t-.ND FERTILIZERS~ ON THE,ACTIv(TY OF NATURAL
G I'S BERI;-LLIN LIKE SUBSTANCES OF SCOTCH PINE: REGENERATIVE ORGANS -U-
IVONIS, I.Yl).
~'t'CUNTRY or- Wr- --USSR
RCE--AGROKWAIYA 1911), t4), 111-14
TE-PUB-LISHED - ----- 70
BJ E C r-AREAS--8 IOLOG I CAL A-140 MEDICAL SCIENCES
TA3S--GfBAERRELLIC Ar_IOt CHEMICAL FERTILIZERs PLA111T PHYSIOLOGY
~~ZONTROL HARKING--NO RESTRICTIONS
43CUMENT CLASS--Ut4CLASSIFIED
'PROXY REEL/FRAME--3001/1623 STEP i'40--UA/0485/70/0f)0/00(t/Olll/OI14
212 009 UNCLASSIFIED PROCESSING OATE--27NOV70
RC A C C E S S I ON NO--AP0121114
--(U) GP-0- ABSTRACT., GIBBERELLIC ACID ACENT~
-8S.TRACT/EXTRACT (0,01PE;
.."4-.-'.lf4CREASED THE ACTIVITY OF tlATURAL GMERELLIM LIXE. SUBSTA,~,,IcES (GLS) IN
THE ANTHCRS OF SCO17CH PINE AND OECRCASED: IT IN THE POLLEN. FERTILIZERS
-.1 '.N pPt.AND K-,MfXT.) ALONE OR COMBINED WITH GIBBERELLIC ACIO SOMEWHAT
,"--,~'-DIECREASE~D:GLS ACTIVITY IN THE ANTHERS AND,lr.4CkEAsr-o iT 1,~ YHE POLLF'14.
1-BREREL'LIN AND THE FERTILIZERS .5tGNIFICANTLY INCREA.SED THA ACTIVITY OF
A.TURAL-.GLS lN THE BUDS OF SCOTCH PINE. FAC; [,L.1 TY. ,INST. LESAI
ETROZAVOOSKI USSR*
.. . ... .. . .. .. .
USSR UDC: 624-04:534-13
IVGVICH V. (Uoscow)
"Interdependence During Oscillation of Nonlinear Vibration-Free Systems"
Moscow, Stroitellnaya Ifekhanika I Haschet Soorazhei-dy, No 2 (80), 1972, pp 11-15
Abstract: The author studies the Interaction of the individual, partial systems of
nonlinear vibration isolation diring oscillation. Conditions are detelTained where
-the nwilinear relationships have a major effect on the oscillation of various vi-
bratian. isolation schemed!,. In such an in.-Aance, nonconsideration of the nonlinear
factors can result -in a discrepancy between the actual amplitudes CS the oscil-
lations and those calculated. Under such circumstances, pscillations of a vibration-
free system can occur at a frequency which is diff erent from the frequency of the
distm-bance eff ect. This must be considered in the design of vibration in~5ulation.
The a ithor concludes that if the disturbance frequency =d the partial frequencies
ar then resonancd; oscillations: occur ,jimultaneously along
e such that w --e vla~, Va
the, x and y coordinates In this type of vib~ration-f ree system. Original article:
five figures, 22 fonmilas, and Wx bibliographic entries.
'W- DN' I IAA I Al. , I p t
Z7,-
e M L-4t
M.
--'tvm~.L "r iAt %AIL
f~~TA4. T~, 9-it-j bf thw
I-t ik~.* d,
all.kh r~rf Wi9b us. 3o"I of
kh, w61ths
qN. famation t!
pie 5
1-11 STUUY OF TIM MIMMOPPIP)LOCY A14D DIM'. ell'. jl_'1~11!~:`r~~,
'At, AND rALL101 AME.NLDE AS A MUCTIOU (IF V- G=r~ 1 -tL
[Article by L., C. L,svrerlt'7e~%, M. P. 1. 1. - 1~ "01,
niVova. 11. A. Kistnet-vt Yu. 4. Rumantottv, - . Y.
SOW). 11. P. Pro'neffiftmom '_ .1.
H" ......
v11
12-11 June 17
_v a) ?- t , on.
A sit WA =de of tilt ept taktal ! a t2
tU A,
dido ev:r- on m.bstrot.. Jofles;, t.- -j
an open I:
OJO) direction. 'I- grwth tim started no*
It was demonstrated that for a -1 ti- ~ft; so
,,, at t a t
utos. t - I, f .he r. n f th e ",,f I.'t
,f tilt parallel ostorps. There are a loss .1 Arnw!, C-.t!
t., 1" :111 rllred -Itt.m of U. I ,
It, rmrth )sill* and ow. centertit of retards i of t:,, vv,; 1- s,- Z_-,
tom Intal pileups and loop.. There to s lot~ifts~j !~atToa, -1 -...
10 rface of the growing layer with gtmt,. ~s -- orh r-,.- s-ills, ,~A s~~L-
Ifloso,ppormirp the density of the centers of -tardat-1-- 1 -~:. t-.
d t or configuraclon of the @top# chant? i The ri
h otnvossviz ,.sr -tl*cv,
7th
o layers is stcompanted by vartati.- In
:
~9-1, ;,k!
t a 4*
en
rWe is tton co-a
ttQn has b
hl19h
d
b
tot
n Totlnv tft ltt's
.
t r:
the denott n h C. t r f t: rd&tj of the 0;
:
:
:
.
(
;
,
tim ind t cataa that the nonuntforlafty (1 41 t"Aug si V~t ~f
trarseltIon layer can be cv~nectod wLth defer ts,~J tlsvtt w1fart in ~~,o
asation of the growth steps.
_NZ
is
VW
-N
(' 7 .
4LCH&NlSK OF THE FUMAIlly,; OF WALLIS IN i.J~IJA,IAL F,~kiS Ol' G.As ON
Cc SIAIYMArES
[Articlo IY L. Yo. LOIL.LeLoVa, 1. % . ..... Lypnin. V.. V. r---.;,iaa. -o"I-
1, 1 , -A .III I'MrFw-it. Ronta L *;1litl.o." D'I" .
tallov I I'lel-k. r
'I'he civen rarer tin, rurli)eJ tilt' A~Nl Of Studvtnr t!ic r-tt-1v cawca
of the defect for=n~im with crtta~ of ilai%21 M t~e qLXSrrA-.- '~r c1o'cd
Iodide n'vmtera wai uled which rtvv" III= utth 4 developed defoct P-Atfe. ilo
vnriattilo or tile prowth rate of Live MMS and tile wr,!,-:I~vv c! V-1f surfa-is
wrte "ttolic,j n,i A foottion of till- i-I-ItAniAl tt- e~jilp orti-I -a vl-t-n
"icroncor- Tile "tAndard film Jcfwcts obtaincd to Oil& AT, micccirlain
lziv.-tt' and IIc. .1 dillet.-L '11-11411-f1s. kh, Eliv surt.- ~f t'le 'tv!ectIvr
iiecttena of the film frequ-11v A cofitioF of another pi-or I- at tile
save time An tile inclusion of the Second :11'a%c In the. filt vrlu~ is vt,%erve;!
nolti. raft-ly. It - that it,,- I. t1- -j,, --, f
the defect formation. 'the film growth fnittt;l~ t.krs rli%Cc b~ I , r-A t I , n - d
rarid nilimal Pr,-th of liolto 13IFte Islets. lhp~ ,,, f,,,. t,,
by a philoe dMorLing with respect to color both frt-m wid tror ~e. L!i
the fumatiml t-f a continuous film the second Tenoticn Is bas-c,111, ctacentrate'!
at tile contfict points of tile Islets caused t,v it", special n.t.Tc e~ the Vr-tll
,I th vs c sections or tile film. itle fact that tio. second r~-c ~s ~~birct to
aT.Towing surface fildicates It Itnuid state 31W that Lhv FT-Cl I I"," ~'-
t: ,.,is apoarentIv procrolin according to tile vjpor-Ijnujd-c,,staj ft-ljj,oj,m.
Their growth rnte frequIntiv differs from thp tir,wth rate Of tile hAsLc film.
Tile relation of these rates can vary with titic.. couaing a '.".rh1v crmplcx form
of tilt, defective regions Of tile film. Tile defect can Frow waru tile second
pl.nov it. o.rf.T. end.. 111. dlof~cti- filAt"o. 'Wifflir I-si t;.' 1-.1, fit.
with teopect to allaying nature. Some facts Indicate that the secei%d roase o:i
tilt film surfnce basically has an AIIOr Of G& wl th r- rosxnly, it cont&i-
owvj-en and other admixtursis.
4_ - 207 -
fir I-PHAXIAL C-ALLM.-I AM.i.:41w
1. 1. V. I-nln, Y- i;. jAt,yj v, I..
A, -v, A. Zi,
Y,, M. 1, 1 -l. 1.
VTjntRII1v-i..1l I.t ... 6 . R-, I An 1,' 11 JW1 191~1. Z 1'1~11
sdt-l.t.- with reepoct to ttiicknemo of tilt ef ralli.,
a r:~n I ol~.w It h tile (I n 75 ; I. I) A orlentit I(m AM a fillirtLon of tlic crystalliza-
tI tI ersture In tI,* rAAx-RL-11, fiYGtCM- Ilia t0ll.-Y tel-l,tfltijf~ vatled
.It"Ivi tile fango of 600-751)" Cj here, tile thermodynnft,lc Ailipriiatur-itt.ll
I- pt C',twotailt.
ror h, attl ""'a ection, t "t ti-41 tr-or,4tre range Q
ii '. . . . h~ .%
11 0liner " t 1% rh t Y rI p,ma mic t--,rtvct with t to Lructnre,
.I'll tilt wreatent. cla irrevolar -yat". of s~m.itjj ntngl- iiii t:,c nurimm.
an~ With M.1ximi,m Adm':t'1"y4f concuntratLan aild PAULA--- tLecl.ron Irl till,
cdbv of a redlict. ItAw lin flip cryntallIldtion ti-rratur4- ff- iqiti~l, tni. r-t"
OlAre', te t..I.Pitell eare Weakly, tile rate. jlnrn, Anil tilt, alInvinr. lewl
~ rr Ihp L ncreane In temeraturn atinve o
I , ", mtteiit leadn to local isolation
f th d p Imile, Infillittim of tile rr-th mtal:#,q tit thf,ne necttoom An~4 den.
tr-ictlimi of the rerulatity. here. tile Frilliltii rate dircren,en. and tile all"'Ing
set4l IfiLressr.,
taus, an -mlyla "I ,ha I. . . It. All- that tilt, CleOr Crtrrelati-l to
01"'r r,.d be t .'.e"tlieIa"" Ipnted clifirrictortaticil. line vf tile iineartwit re,
rulntor,f of cmituris of rise advilpture by tile rr-Illp, Inytt is tile surface mtcro-
structure and the weithluilaa of Its Itrowth.
Pet A. //V,
.1 ia
L4
S'4
,
V: a VIN
NO 7
ai
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