SCIENTIFIC ABSTRACT KARPENKO, P.D. - KARPINOS, O.M.

212 022 LINCLAssir-I -E D PROCESSING DATE-04DEC70 ,,~G[Rr- ACCESSION NIO--AP0136633 'ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. :SATO. VAPOR PRESSURE (P) OF THE SNCL SU82,(RB, CS)CL SYSTE14S WAS OETO. AND THE VALUES OF THE A AIN D 8 COEFFS. OF. THE LOG P EQUALS IMINUS A-l" PLUS .3 EQUATION FOR THESE SYSTEMS ARE TABULATED. MASS SPECTRA PROVEO EXISTENCE OF.MSNCL SU83 (1) (14 EQUALS RB OR rS) IN THE VAPOR PHASE. :THERMODYNAMIC PiARAMETERS OF I ~,DECOMPNS. ARE OETO. FACILITY;: ~LENINGRAD.;~GCJS. UNIV.1 LE.NINGRAOP USSR UNCLASSIFIED.  112 028 UNCL.AS S I F!I ED 0ROMSING 0A.TE--20NOV70 TITLE--APPK(;XIllATE SOLUTION r0i THE PROBLEM OF A JE1 FLOW PAST THE ARC OF A LN E- CUP AUTHOR-1 (A k P E h K 0"I CCUNTRY UF INFO-USSR S 0 UR C C - L' , K P A I N S K I IPATEMATICHES.K1 IZHURNAL# VOL. 221 NO. 2f 19700 P. 23Z-236 PLBLISHEC---70 AREAS-PHYSICS ,,'--_TCPIC, TAGS--JEr FLOW, CURVE GEOMETRY 1~,CCNTRU MAAKING-NO.RESTRICTIONS 'e~%.DGCUK;'NT CLASS--UNCLASSIFIED REE:L/~-RAME-1998/0568 STEP NO--IJR/0041/70/OZZ/002/0232/0236 ACCE-,S5lCN NQ--AP0l2LZ40 UNCLASSIFIE0  [~:~:~~-2/2 0,28 UNCLASSIFIED P'ROCESSING OATE--20NOV70 CIRCACCESSICN NO-AP0121240 -ABSTRACT/EXTRACT--(U) GP-0-- ABSTRACT. APPLICATION OF SUCCESSIVE CONFORMAL MAPPING TO THE PROBLEM OF A JET FL1311 PAST AN AR81YRARY CURVE. 14APPIt CU VE AN APPRI, -ATE SCLUTION IS GbTAINED BY (APPROXIMATELY) NG THE it IN THIS APPROACH, THE ONTO A WEDGE WHOSE APEX SPLITS THE ONCOMING FLIJW.~ CURVE IS MAPPED FIRST (INTO A CIRCLE ANU THEN ONTri THE WEDGE. FACILITY: ZHITCMIRSKII PEDAGOGICHEWI INZTITUT1. ZHITONIRt UKRAINIAN SSR~.  USSR UDC 621.375.4 KAKIENK0, R. A., NECHITAYLO, L. S. "Analys is o_` the Szabi 1ity of` a Cascade Transistor Amplifier Using a D.Agital Computer" Tr. Uralskogo palitekhn. In-ta (Works oi the Urals Poly-tachnical InSLI tut,~.) , 1970, collection 182, pp 156-161 (from RMI-Radiotekhnika, No 8, Aug 70, Ab-stract No. 8D-96) T ranslation: The stability of a transistor cascade aiVlifier :1.9 analyzed oil the basis of the Nyquist number. The results are presented in the form permLtring use of' a digital computer for the calculations. The flow -diagrani of the calcu- ation program used by the authors on the Ra zdan-2 digital computer is pre- T sented. Me bibliography has seven entries.  USSR UDC 632-95 CH, F. M.s KARFENKO, Rj_ ~G.GAORUSHKIKA G. 1.j GQL'DFARBj YA. L., STOYANOVI Institute of OrgaAM-f_~ ErYimeni N. D. Zelinskiy "A Method of making Dibenzothiophene Derivatives" LISSR Author's Certificate No -Vi9692t filed 0 Aug 70, published 6 Sep 72 (from M-Khimiya, No 10, May 73, Abstract No 1011621P by T. G. Chekareva) Translationt Dibenzothiophene derivatives, which are of interest as herbi= cides and insecticides, and can also be used as intermediates in organic synthesis, are synthesized by cyclizing 2-tert-Bu-21-diphenyisulfinic acids or' 0 -their halides in the presence of acid catalysts at 0-200 C. Cyclization takes place with splitting of the tert-butyl group. Examplet I g of 2- -tert-Bu-21-diphonylsulfinic acid (1) and 10 ml of SOQ2 are boiled for 2 hours, the excess SOC19 is driven off in a vacuum, the iesidue is dissolved 0 in 20 Ml of C21'4P12 an2l 0-5 g of anhydrous AlCl 3 is added at 0 0 with agita- tion for 20 minutes at that temperature,' which is then raiCed to about 20'C, and the resultant reaction mass is allowed -to stand for about 12 hours, The mixture is then poured into water, the organic layer is removed, washed in a solution of XAOHp in -water, wA dried, After eliminating the solvento the 1/2  tro S R STOYANOVICH, F. It., et &I., USSR Author's CorLificate 110 349692, filed 13 Aug 701 published 6Sep 72 0 result is 0.4 g of dibensothiophen-5-oxide, melting point 185-7 C (dilute alcohol). A similar process is used to,synthesize dil-enzothio hen-5-07.ide- p 1-carboxylic acid, nelting point 235-70C (alcohol). 0-95 9 of I is heated with boiling in 10 al of Ac2O. The arhydride Is drivon off in a vacuum, arxi the residue is treated with hexane, After evaporating the solvent, the residue is distilled in a vacuun at 150OC/0-1 rM; the sublimate is dissolved in 5 ml of hot alcohol, the solution is filtered, evaporated to 2 al, and cooled. The residue contains dibenzothiophene,with a.,metling point of 96-5- 9.30C. A similar procedure gives dibanzothiophene-l-carboxylic acid uith a =I-Ung point of 176-7 OC (hexane-benzene), methyl other, irielting point 6&90C. 2/2 OM  ---- -------- --- ----------- --- --- Nr, Ab~!- Acc, tracting Seviice: Ref. Code 4-4 CHMICAL ABST G4 4153 aR O~3 66 000 cokmpo ds with,an ezcv-sg of 89982d Reaction of arylsulfonyl arganolithinni reagent. M_ Synthesis of 2,"isubsti!tWted alkylbenzenes. K Stovanovich F If.- Raput 4atowlimt.-TE Khi L:, -0!!) dews. Urg. Awn. IveU. Q~.Lj. I ME .4 , r-' t o 'W,,,Veactjon.~ of l,2,6-BuLi;CH3 (1) tri h'P.CONMe2, S-Mel mi't., Me-,SO4 PhCHO, or Ph:CO gave msp.: 1,2,6- Bu(OCH)tCjH3, 1,2,~-Bu(MeS)IC61-13 (U), 1,2,6-Bu[PhCH(OH)I-.C4'H.I,orl,',1,6-B-,jiPh..C(OH,,ILCaHi- The ojidn. of H with H-01 in AcOH gave T e action of BuU-MeLi mixt.'on PhSO, Bu-Itit gave Pl.iAle, -&,, Ph]3u, 1,3,2-(HOtC):rNteC4H; (on treatment with,C03), 1,3.2- HO,C~BuC,H2 (on tre-atment with C02), 1, 1,2,G,hfeL;1CdHz. Nand 2-ter1-BuSOjC_j1,CO:H (on treatment with C02), The formation of all these products supports the transient existence of 1,2,&k,t-(BuS4:h)LixCJ1,. CPJR REEL/FRAME 1975JL402  USSR UDC: 535-31 VOROBIYEV, K. I., X&UENKQ, S. G.. KOROTKOV, P. A., and POG013BLOV, :V. Ye. "Plectro-Optical 1,11odulator Using Barium Titanate" Tomsk, Izvestiya VUZ-Fizika,' No 7, 1973, PP 35-38 Abstract: A fundamental parameter of electrooptical modulators is the controlling critical intensity of the electric field to pro- U -ion. In this first article, subtitled vide. close to 10V16 modulat "Estimation of the Controlling Critical Intensities," of the series with the general title given above, the authors desciribe research to.deter- mine these critical intensities for ~a BaTiO crystal for various mutwal orientations of the crystal's optic2 axis, the vector of the controlling field intensity, and the vector of the modulated radi,- U -t tion waive, for the cases of linear and square electro-optical effect. The phase shift between oscillations in the two beams pro- pagated in the crystal is determined for variows directions of the external electric field in the linear.effect, and a table of the results obtained in investigating the linear effect is giver.. 1-t- -z cryttal should be is concluded that the linear effect it). the BaTiO good for modulating lasers operating.1-n the vis.ible spectrum.  I)rtkkLr, A. S_ Reception ol ~, FlucNatEng 144. gtasovskiy, R. R. Vn3rtsel', V. 1. Optinization of in Optical utter~~-nln.- System 15 Z Shchelkunov, K. N. Analysis of the Synchronizatica o~ an Optical Cow"unication Channel with Ti--e Diviiieiv Multiplj!&4-n& ~,,( the PCIM Trun . ................. 159 Litvinova. T. 1'.. Frequ~-ncY-SPAce Correlation Function of the Lobitovd. L. It. A~Vlitudes of Waves Propa4ated iz. a Locall~ l,3tqrQDiC _Turbulent Atmarphe a ................ 164 .11.1 Effect of Amplitude and Phase Field Distribution Chistyakov, A. B., at a Laner Output an the Spatial Cz-herente of w, Lobkov. ~ 1A. It. the Lager Emission ......... 174 Lubkova. L. K.. Fast and Slow Fluctuations of the Angles of C11109yakov, A. a., w&I at L"Pr ZPA#oi*n ..................... Art ILI Labkov, H. M. Kislitain, H. V., Statistical Desgription of lievait-lan and P&d4ub0YY. V. V, Lnguarrr Photon Fluxes ...................... Kislitain, N. V`~, quantum Mechanical Description of Same Proced- Poddubnyy, V. V., ures of Nionpacametric Statistics .............. 194 rulenia. V. Pt roddubnyy, V. V., Patential.Accuracy of lie,siurint Oid Angular Trivothenka, B. Ye. Position of Photon Source ..................... is& -yells"Yev P. G. , Application of Semiconductor lasers for Insailov. I.. Multichannel Optical Cormurticatle . ........... 20.1 redorg-4, vu. r., Kazarmovskfty,%, L. G, CUTtrizhev kil. V. L., enko S. G., ; tribution Tunctions of a Relation of tas Lis quasimonachrb-intic Signal And Its Amplltu4es, , 4aum -zr"r" ev , , , , wy lberpainp 1. A., . Optittis&tion of Optical-bead Quantum Counting OKuranov. V. 11. .................................. systems ..... 2110 Adrianova. 1. 1., Lager Emission Modulation ..................... 221 Brodovich, H. A., Vo l-. zhonakLy,V. R., Dan ilov, a. S., Nvat*rova, Z. V., Petrova, 4. V., Popo v, Yu. V. Roganov, 11. N. 485 -  Y CIN M IC A L 74"A'N S L.A 7 3 C; AN I TITI-rt PROBLMS OF t,=R num WNTA UWSMISSION PROCEEDINCS OF THE FIRST ALL-UNEON CONFERENCE, KIEV. SEMUZER 1968 foltrAr.N TITLE: PROBLMY PERED&CIII LNPOIMX'rSII LAZERN-YX IZLVCHENI-;zm 4 AUTIM: 1. A. DERYUGIN. ET AL. KIEV ORDER OF LMN STATE V41VERSIrY IhENT T.G. SCIMMIENKO L TtariWcd for 175TC bY ACSL 0 T I C 't k o,ru rm of chi% pliblicition 1mvc bevn imislAted as prmntcd in the wigmj) Ir"t. Nl Alttli';'i 11.1% ltVLn si-lo iii verify dir amiricy of An) witenwilt c"nilinect hc"IA Till, I IN publo1w.1 .'11' . "'I'MIJUM Of COPY Cditing And graphics prcpar.imlm in orriwr pedite the dr,%ctnirwoon of snf4trination. Apj--d (,.f I,ubhl, viv,ow. 11mrilwom milimitrii.  USSR UDC 621.1;~182.C02 U1, I.G., GiUMAYAS WIL1, A.I., W V A141PVHAV(M, I.B,, GVPRDISTT5 GO DANS&IINE, E.M., ZASLWSFIY, S.A.,alARPL =01- ODoping Of Silicon By Ion Bombardment" V ob. Radists. fiz. nemat 1,-,riptalloy (.0'adiation Phycice Cf Non-mot llic L I Gryetals.-Gollection Of 'ilork.a), Vol 3, Part 2, Kiev, 41auk.dumka." 1-971, pp 111-122 (from RZh--'_:*lek-troni1,a i yeye pri--5pqpl No 10, October 1971, Abstract No 1031476) el 'Translation: Doping of n-!!ilicon vith a resistivity of ohm.cm was conducted by polyenergatic heams of boron ions wiCh a ciirrent denait..y of 10 Ma id nnergy of :~00 plus ar minue 0.11-0 kov with doves of I l.., cm72 -" dcpinj; w6s attained by scanning The unifor-mity o~ and amounted to 10 i)ercent. Anneslincy of tbs doped epocimeno wao conducted 0 in a vacuuzna at a temporature 0" ~5 0--700 0 during the courtle of' 150 ffin. The method of studying th-e Bpecimona and the results obt~iined are described- 7 ill- 8 ref.  USSR UDC 621.372.826 IUMENKO, V. A. -i'Diffraction of Electromagnetic 14wres at the Open End of a Flat Dielectric Wave Guide ]4aterialy IResp. konferentsii molodykh uchenykh. In-t fiz. All BSSR' 1970, Sekts. fiziki - V sb. (Materials of the First Republiz- Conference of Yoling lorussian SSR Academy of Sciences, Scientists. Physics Institute of the Be -1970, Physics Section - collection of works), Minsk, 1970, Pp 20-21 (from RZh-Radiotekhnika, No 4, Apr 71, Abstrac& ~To 011-5) franslation: An approximate method of solving the statod problem is illustrated in the example of TE-waves. has 1 enow. The bibliography  AA0044250- I IR 0484 Soviet Inventions Illustrated, Section 11 Electrical, qerwent, 243902 HEAT FLO5 RECORDER in particular for bread Vens cau.measure directly the heat baking o7 flow during the baking process. The heating surface is covered by a substance,t-he: *heat absorption of which is equal to the me4in averageof absorbing capacity of-the materialbeing baked while draining channels (4) are provided in the body of the plate 1. Thermo-electrodes are placed inside the plate. The heat absor4ing mirface W. covered with a layer of: a mass 2 with an absorption equal to that of the baked, ma.teria 1. 3,; The coattng consists of a mixture of awrphous carbon, pumice and Liquid glass. The body,*of tbe;plate is aade..~ of a materiul with a heat absorption capacity equal to that of the crust of the baked',~read. 27-11.67 to 1199288/20-13o A.T.US 10.VEM at' &I, KIYEVINST. OF FOOD 1HDA26.9.69) ~.Bul 17/14.5.69. class 421, 2a. Int.Cl.G Olk.A21b. 1977076.0   irmi Tr7t ,1.  P UISSR UDC 536.628 GIZRASHCHMO, 0. A., KARPMO, V. G:. TATARINOV, E. A. "Adiabetic Calorimeter for Contact Calibration of Thermal Flow Gauges" Z1.9plofiz. i toplotekhnika. Reap. Mezhved. ab. (Thermal Physics and Power EnginecrIng ZZ epublic Me departmental collection of works), 1970, Vol 16, pp 83-86.(from RZh-Metrolo i-va i Izmeri- ct So 8_ $ la Tekhnika, -e1 I n~ No 8, Aug 70, Ab;3tra 32.644) Translation: The peculiarities of calibration of thermal flow _~&ugea by 7Ebe radiation and contact methods are considered. The design and principal or operation of the low-inertia adiabetic calorimeter with automatic compensation of heatlosses developed by the Institute TTF of the Ukrainian Academy of Sciences is described. As the source of tero-indioator which controls ab- 8ence of heat escape from the low-inertia adiab~wtic,calorimeter 3 is used a high-sensitivitT thermoelectric battex7 with n ~~3-10 number of microelements due to which the themal lo4;eeu of the low-inertia adiabatic oalorimoter do not ezcea4 t Ot'j-0.2%. The low-inertia adiabatic calorimeter is designed Xor contact cali- bration of thermal flow gausen. 3 ill., 2:bibl. entries. Resume  1/2 028 UNCLASSIFIED PROCESSINS DATE--11SEP70 -7'l'TL'r~_---S ELEC T lNG THE PREHEATIM(.3, TEMPERATURE FOR SURFACIN'G DIES -U- AUTHOR--KARPENK0w V.M., KASSOV, D.S. C. OU-N OF INFO--USSR TRY SOURCE-SVAR. PROIZVOD. 1970,.(l)t 2ft-6, OATE PUBLISHED ------- 70 SUBJECT AREAS--M.ATERIALSi MECH., IND., CIVIL AND MA.RiflF ENGq TOPIC TAGS--METAL HEATINGt WFLO FACINCji OTE S-TeRt MARTENSIT[C TRANSFORMATION, WELD JOINT CRACKINGi TRANSITION TE!APEk4TlJRE, ~TIJ4E DEPENDENCE, STEEL WFLDINGt DIE/(U)3KH3GSV2F STEEL, (LJM143GS'l S T M I K fQ V? FM STEEL, (U)KH12 STEEL, (U)f-19 STPFL (U)TKHG2NFM STEFLt CONTROL MA'QKIN'G--M'0 RE5TRICTI0!',J'S DOCUMENT CLASS--UNCLASSIFIED PROXY STEP r i%-r r, -tj p)--ppolo7illtq It I,.' j  212 028 UNCLASSIFIED PV71CESSfNG OATE ACCESSInN NO--AP0107849 ABSTRACT/FXTRACT--(,U) GP-0- ABSTRACT. THE DEPENDENCE WaS ST(JOIE9 QP PREHEATING TEMP. '014 THE CnMPLETE comv. OF C AND THE TPIP. CF BE1,1W'114r, MARTENSfTE TRANSFORMATInN rtj SURFACING DIES OF STEELS 8KH!GSVPFv 7KH3GSM,-7KHG2NF4, 7KH2GSVMv 6KH6GVSV2Fv KH2V2FM, KH12, AND Rli. THP C9MPLETE EQUIV. (C SU9E) OF C CAN 13E DETD* BY THE FOLLOWIN-1 EQUATI ON: (SHOWIN 014 MICROFICHE), WHERE C IS C CONCN. IN THE SURFACE0 METAL (WEL')ED jJN, METAL)t R IS THE CONTE74T OF ALLOYING ELEMENT IN PFRCENT, N IS Ti-la- OF ALLOYMG ELE-MENTSv AND-K-IS THE COEFF..DETG. TtlE CHC;~. AFFINITY CF .,THE EUEMENT 'TO C. THE SURFAC'fNG WAS DONE, IN' 12.-1S LAYERS ON PLATES (60 TIMES 60 TIMES 300 MM) FROM STEEL 45 WITH SU85EQUENT Cl)~?LING IN' SANO (DIRFCT WELDIING CURRENT 130-70 A AT ?-4-6V). MEN. PRFH'-:ATfNG, TEMFS. WE,-,E DETO, BY THE ABSENCE OF CRACKS IN THE -NEAR WELD ZONE. WITH THE RISE O.F THE COMPLETE C,SUBE FROM 1.0 TO 3.0 THE MIN. PREHEATING TE!IP. PPSE FROM 3T0 TO 500DEGREES; liOWEV(-',R, FURTI*R INCREASE OF C*'-)IJ9[- DID, N9T Ac~7:FCT THE MIN. TIEMP. ANY FURTHER. WITH THE INCREASE oF~ *THE- MIN. PPEHVATING TEMP. FRO4 250 TO.500DEGRE.ESt THE TEMPo OF 5-EGINNING uAPTENSITE- TPANSFORMATION DECREASED FROM 300 TO 70DEGREES.-  USSR UDC 577.1:615.7/9 tOIIIIA, I. A., OLEFIR, BuRmrsKAYA, YE. N., OSTROUKHOVA, V. A.,JAU A.; I. "Characteristic Features of the Reactions of the Organism under the Prolonged Effect of Various Classes of Chemicals" V sb. Nauch. osnovv sovrem. rietodov Rigiyen. normirovaniva khim. veslichestv v okruzhavushchev srede (Scientific Principles.of Modern Rethods of ilygienic Normalization of Chemicals in the -Environment - collection of works), Moscow, 1971, pp 135-141 (from M-Biologicheska~a YJiimiya, No 14, Jul 72, Abstract No 14F2050) 'Translation: On the basis of a study of the effect of organochlorine and organ- ophosphorus and carbq te pesticides (experiments on rits) on certain bio- chemical systems of the organisms.,the morphological composition of the blood axA.Uie immunological reactivity, it is considered that duribg hygienic normali- zation of chemicals as integral tests, tM biochemical.' hematolqgic and imruno- logic indexes can be used.  USSR UDC 615-777/479-015j612.014.461 BURKATSKAYA' )m'. v., and'MU=Q#Wx.A.* Kiev Scientific Research Institute :of.Industrial Hygiene and Occupational Diseases "Effect of Dinitrophenol Pesticides on Water and Electrolyte 14etabolism!' Kiev# Yrachebnoye Delo, No 2# 197lg pp, 126-130 Abstracti The effects. of five con-pounds - dinitrophenol (DNP), dinitro-ortho- exesol, (DINOC), dimitro-is I 1~nol (D'IPP), d1aitrosecondarybutylphe-nol opropy ~2'53 (MBF)p and dichlo---onitrophenol on the concentration of potassium and sodimi in plasm; erythrocytesp rWocardiums liver, an& kidneyn were studied in white rats. Despite the differences in chenical stimotures all the pesti- cides increaned blood sodium and forn of then Increan4xL the potassium con- 'OC, ViFP# and DN~F substa~ntia.Uy incraaj~,F,4 the sodium content centration, JJ1, of aLl the visceza. DOP had no offect in this respectir while XP decreased the socUum and potaoslum concontratlons in tho nyocozOltua arA liver. Total water in the ryocaardiuz and liver decreased aftex admiftiat=tion of tho pesti- -he amount. of int=cellular water imareaaed propoxtior- cides and in same cases t nately. The above changes in water and electrolyte metabolism account for some of the clinical syziptons aissociated idth poisoning by .Unitrophenol deriratives in ran - thirst, elevated temperature, senzation of fear, and 4  UDC: 616.1j1 1 -003971 :616.151 -0T:615-777/-779 V. N., Kiev Scientific Research institute of Labor Hygiene and Occupa- onal v2seases nInvestigation of Hemopoiesis and the Blood Coagulating System During Intoxica- tion With Some Carbamate Pesticides" Kiev, Vrachebnoye Dualo, No 1, Jan 71, PP 130-133 Abstract: Emeriments i~mre conducted to determine the effect of TIM and sevin an hemopoiesis and the blood. coagulating. fZrstem. The preparations inre adminis- tered to rabbits weighing 2-3-2,8 kg per w- in doses o~,' LD., (25 mgAg for TMTD, 70 mglkg for scvin) avery other day for a total. of 15 V.md. Blood draim frovi the wimals was exa-mined for content of hemioglobin, exythrocytes, robicu.1oc-Acs, thromboc.-y-tes, coagulating properties, and bone marrow hempol-esis. It was found that intoxicatim with TIIND initially depresses leif-zopaiesis, reduces the bone- I marTov content of granulocytes, and induces the development o' lemkopenia. Tk-,rom- bopenia also &velops an THID intoxication ~fhich jz thG-u,-Ilt to be one -)f the main reasons for the retardation of blood coag-alation and t1w -bvelopment CIC hemor- S.- hnm-r-)-vps in-the of experimiental animals.  USSR KARPENKO, V. N., Vrachebnoye Delo, No 1, Jan 71, pp 130-133 Under sird-lar ex--Derimental concLitions, sevin. has hardly any effect on either benopoi-eds or the Ibleod coagiLlating system . Zie tendeq-,cy ncted toi-,-za-d hvper- coagulation is ascribed to a decline in the activity of. serurn cholinest erase erythrocytes. During intoxication wIth 'DUD or sev=, it is necessary to 'th re. initially study the blood picture, partiraula~Ay w-, -pect to the level of JLeakoeybes and thrombocytes, and also to determine the 'condition of the hemo- poietic qTstem.  UDC 621.315.592 KASHERININOV, F.G., MATVEYEV, O.A., "Surface-Barrier Cadmium Telluride Junction Photomemory'! Leningrad, Fizika i Tekhnika Poluprovodnikov, Vol 4, No 5, 1970, pp 937-940 Abstract: The mechanism of a surface-bartier Junction phatomemory using cad- mium. telluride is discussed from the theoretical point of vie,4, and an experi- meat is described in which the surface-barrier junctions in -x-CdTe with an initial electron concentration of 2.7.1016,cm-3 were investigated. The volt- capacitance characteristics of the Junction we re measured. The volt-capacit- ance an.1 volt-ampere characteristics of the investigateti junctions in the dark were described by ordinary classical expressions for a sharp.transftion. Curves are presented for the variation of the capacitance of the junctions illuminated by extrinsic light ~,- 0.83-1.5 microns with different J.1lurmination inLenSities. It was discovered that the capacitance of the surface-b.,~rrier junctions cre- ated in low-resistance zi-CdTa has photosensitivity inthe range of extrin ic absorption. After switching off the illumination, the perturbation caused by the extrinsic light ia reLaincd fok, a long time when T w 300' 1, (photomemory). Of- ni U by it,,oagly absorbed  ~'A USSR YARPENKO, V.O., et al., Fizika i Tekhnika Poluprovodnikov, Vol 4, No 5, 1970, pp, 937-940 short-wave light the magnitude of the capacitance decreiases, and the photomem- ory disappears. A decrease in the capacitance of such a junction takes place also on illuminating it with light with hv - 1.0-1.2 electron volts. The observed phenomena are explained by the presence of two groups of impuriLy lev- els in the initial material. One group of.deep levels is responsible for the photoweraory effect of the junctions, and their concentriation is equal to 0.96,1016 cm73, y - 1.3-10-17 cm2. The second group of shallow levels lo- cated at the edge of the valence zone isoresponsible.for tha capacitive relax- ations on switching off the IJIUMnation andLthe photocurrent when illuminat- ing the junction.by light with hV < Eg., 2/2 46  ~'N~-- ESS'NG DATE- 30UC,70 UNCLAStl F. PROC jTLE--ELECTRICAL PROPERTIES OF SURFACE OARRIER P-N JUNCTIONS ON HIGH T RES I STANCE CADMIUM TELLUkIOE -U.-- .mp~~~ LAmRP KASHERININOV, P.Got AATVEYEVt :AUTKOF.-(05)-8OGOMAZOVj A.P.t O.A. v, .5TETSY`UKv RsS. (IF INFO--USSR ;~~SOURCE-FIZ. TEKH. POLUPROV. 19701 4(4), 813-14 DATE PUBLISHED ------- 70 ,...SUBJECT AREEAS--MATERIALS, PHYSICS ~.--T.OPIC TArvS--f.AUMIUM TELLURIDE, ELECTRIC PROPERTY# PN JUNCTION, ELECTRIC -FIELOt VOLT AMPERE CHARACTERISTIC ~~CCNTROL-MARKING-NO RESTRICTIONS DOCUMENT CLASS--UNCLASSIFIED .,PROXY REEL/FRAME--1998/0932 STEP NO--UR/0449/70/00ti/004/OSL3/0814 ACCESSION NO--AP0121534 UNCL A S 5 f F I E 0  ROOM 020 UNCLA~SIFIE6' POCESSING DATE--30OCT70 CIRC ACCESSION NO--AP0121534 -,AESST.4,ACT/EXTRACT--(U),GP-0- ABSTRACT. DARK CURRENT VOLTAGE CHARACTERISTICS OF SURFACE BARRIER P-N JUNCTIONS 014 HIGH RESISTANCE COTE -jFLUENCED BY T14E ELEC. FIELD IN THE BAS~ AREA ARE QUADKATIC AND MORE It THAN BY THE RESISTANCE OF THE JUNCTION ITSELF. THE LAITER BECOMES -":'..l(4PORTAlNlT WHEN THE BASE RESISTIVITY IS~ REDUCED BY ILLUNINATION; IN THIS -...CASE# THE CURRENT VOLTAGE CURVE IS EXPONENTIAL. FACILITY: Fit. ::-.TEKH. -INST,, IM, IOFFEi LENINGRAD# USSR* UNCLASSIFIED,  1/2 OIL UNCLASSI F(ED PROCESSINIG DATE--11SEPTO TITLE- EXPERIMENTAL OETERMINATroN OF THE eXTlcMT OF LONG :P A NF 0 R D FR I NI N ALLOYS OF THE COPPER PLATINUM SYSTEM -U- AUTHOR-KARPE A.N., PqES YAK 9 A.A., DZHANBUSINOV, YE.A., !,lEl_IYHf3%1, NYUK, COUNTRY OF W0--USSR or FfZ. ZH. (RUSS. ED.) 1970f 15(11, 140-2 1--DATE PUBLISHED ------- 70 AREAS--MATERIALS __jOPIC TAGS-COPPER ALLOYv PLATINUM ALLOY, ALLOY PHASE COMPOSITION, ORDERED ~ALLOY CONTROL MARKING-NO RESTRICTIONS -DOCUMENT CLASS--UNCLASSIFIED ,-~~PPr.IXY.REEL/FRAva--1989/1279 STEP NO--UR/0185/70/015/001/0140/01.4? 0 N IND t P 0- 17 7 5 4- 7777 __rc~ .... ..... ...... ....... F  -2/2 Oil UNCLASSIFIED PROCESSIN' DATF--11SFP70 C I 9ZC ACCI-SSTON NO--AP0107754 R ABSTPACT. CONCN. CHANGES 11 E R;:T AS A .ABST' ACT/EXTRACT6--(,U) GP-0- r) FUNCTION 01; RELAVIVE INTEGRAL INTENSITY OF HIGH Rf_:~(7114. (321) AND (410) LINES AND AS A FUNCTIO-14 OF THE EXTENT.' OF LONG RANGE ORDER IN -4 C!J,PT ALLOYJANNEALED FOR 1732 AND 21.64 HR). THE EXTENT OF L ONG PA!"GE D;~DER CHANGED MARKEDLY AT 12.5-20 ATOM PERUNT.PT,.APPARENTLY, DUE TO FORMATION-OF ORDERED CU SUB7 PT AND CU-SUB4 PT PHASES. ------------ 17 T  fill, UNCLASSIFIED P90CFSSING DAT=--jlSE?70 TtTLE-:r~E-Y.PEP IMENTAL DETEW41NAT TGN OF THE :EXTENT OF LONG 'MANSE ORDERIN(', IN Em. _u_ ALL'GYS OF THE COPPER PLATINUM SYSTE ~.A_THOR-.-KARPENYUK, A.N., PRESNYAKOVt A.A., DZHANBUSINOVx, YE.A.t MELIKHOV, .:.:-.-COUNTRY OF TNFO--USSR -~-~_SOURCE-UKR. FIZ. ZH. (RUSS. EDol 19701 15f 1) ;r QATE PUBE. [SHED ------- 70 S'U B J E C TAREAS--MATERIALS 'S .-TOPIC TAG --COPPER ALLOYt PLATINUM ALLOY' ALLOY ALLOY JL 1AARKING-NO PESTRICTIONS Of4T P. r DOCUMENT CLASS-UNCLASSIFIED 1'+0-2 PHASE CoMpr)SITION, ORDEPED PROXY RESL/FRAvlc--l 989/12 7.9 STEP 40--UR /018 5/7 0/015100 1/0140/0147 1 7 7 7 7 7 7 7  --11SEP70 2/2 (1111 WCLASSIFIED PROCESSIN.3 DATF CIRC.ACCE:SSICIN NO--AP0107-154 -iACT/C-XT;l-ACT--((J) GP-0- ABSTRACT. GONCIN. CHW-YES WER~ ')F-T'). AS A Func-r I in OF R-FLATifVF INTEGRAL INTENSITY OF HIGH RESoLIN. (321) A IN cl ( 4 11.) LiNES AND AS A FUNCTION Or- THE EXTENT~ OF LONG RAN'F Cl-~DER IN A CU,PT ALLOY [ANNEALED FOR 1732 AND 21.64 HRI.,THE EXTENT OF LONG R4NGE C-DER CHANGED MARKEDLY AT 12.5-20 ATOM PERCENT PT, APPARENTLY, DUE TO A 's FORMATION OF ORDERED CU SUB7 PT- ANO CU SU94 PT PH SE  USSR uDc: 621.373:530.145.6 ALMUKOV, V. S., KARPETSKIYI V. V. "Analysis of the Change in Concentration of the Components of a Gas Mixture in an Electrical Discharge in Carbon Dioxide" Elektron. te-khnika. Nauch.-tel-hn. sb. El~-Ktron. SVCh (Electronic Technoloa. Scientific and Technical Collection. SHF~ Electronics) 1971, Vyp. 32 pp 88-96 (from RZh-Radiotekhnika, No 6, Jun~71, Abs tract No 6D188) Translwtion: A simple theory is outlined for the cbanfle in concentration of. a molecular gas in an electric discharge, which can be used to evaluate the effect which a number of parameters-of the discharge tdrie have on the rate of change in the composition of the working mixture (the lifetime of the laser). As an example, the authors examine the cliange- in concentration Of carbon dioxide in the positive column:of a glow discharge used in a 1wer. The effect which the additional volume, tube diameter and addition of o)wgen to the gas mixture have on the ~lifetime of the laser is estimated.  USSR UDC 532-582-31 IVANYUTA, Yu. F.', Y-kRPEYE, V, Yu. N.,, and KOROVICI-IEV, B. K. leningrad "Autooscillating Motions of a Cylinder Towed in a Weakly Aqueous Polymar Solution" Moscow, Izvestiya Alcademii 17,auk USSR, Mekhanika Zhidkosti i Gaza, No 1, Jan-Feb 73, pp 162-164 Abstract: The action of polymer additions on characteristics of the nonstationary oscillating motion of a towed cylinder, R.num- ber--3-103-10 , was investigated. The cylinder had the possibility of lateral dislocations under the action of the force conditional to the asyr-netry o-IL' the periodic break-off of -the boundary !,--,yer. The towLip, speed, reoistance, and the lateral,dAslocantions of the cylinder were registered. Average amplitudes.of settled lateral autoosci 'Ilations rand the resistance of the 030Lider are shown as functionz o--~' its towing sneea. The increment o--:' 'hydrodync-mic ra-- sistF4,ce of the oscillatin,:T:, cylinder is the more t"he greater the ain-vlitude o.-,L-" oscillations; it is ia a freshly p-re-jared- solution t - lene oxide much in water, --ions are of polye hy than given for the decrease of the axqDlitude of Futooscillations of the -QvlLider .,.,lien t-w.,iod in vieaI~ -oojyrner -soLiIJ.on. Your -Ci,.Sures, three  1/3 022 UNCLAS'.StFlEbl PROCESSING DATE--020CT70 .TITLE-MECHANISM OF THE OTENE SYNTHESIS-WITH 51ALKOXYOXAZOLES -U- ,~;AUTHOR-(05)-DROBINSKAYAP N.A.* IONOVAt L,V.i KAlkf)EISVIY, M.Y&.t PADYUKOVAr ;SH.9- -TURLHIN# K.Fo ~',CUUNTRY OF INFO-USSR OURCr-:--KHIM. GETEROTSIKL. SOEDIN. 1970,A1), 37-42 :,,,DATE.PUBLISHED - ----- 70 -.-SUliJECT AREAS-CHEMISTRYv BIOLOGICAL AND.MEDICAL SCIENCES JOPIC TAGS--MOLECULAR STRUCTUREt CONDENSATION REACTION, ORGANIC AZOLE CHEMICAL SYNTHESIS, ISOMERIZArIGNP PYRIDINEw~CHE41CAL REACT13N ~--_~'MECHANISM,. ACF-TYLENE, E-LECTRO14 DENSITY1 C V',.'TL I CLAS S---'JN,CLA.SS I F.1 CID PAIOXY ~FFL/FRAIMIE-1986/1368 STFP "4Q -IJR/OfiO9/7()/300/001/0037/0042 :CIRC ACCESSION NO-AP010-3222 i; 1% C IA S S I F IJE 0  213 -022 UNCLAS.~jr-TEIJ PkbCESSII-u DATE--02nCT70 C LRC A C C E S S 10 NN0--AP0103222 FA8STRA1'_T/EXTRACT--(UJ GP-0- ABSTRACT. THE NETERODIENE CONDENSATION OF 5o . A I.? I T H ALKG'YOXAZOLES TAKES PLACE IN TWO STAGES: REACTION OF GXAZJLES ...OTENOPHILES GIVING UNSTA8LE-ADDUCTS, AND ISOMERIZATION OF T:-4ESE ADOUCTS TO SLJOSTI~TUTED.3,HYDROXYPYFtIDINES. T14USP ET B[-TAp,ACETYCA-_RYLATE_ (1) V E -REACTS WTTH 4tMETHYLt5rETHOXYOXAZfXe 111),10 G1 2,METHYLi:3,HYDROXY*4tACETYL95trAOPETH(IXYPYRIOINE Mf) T14ROUGII THE -UNSTABLE"ADDUCT-1-flA. THIS M.ECHANISM IS, SUPPORTED BY P I ELECTPO-4 DENSITY (;ALCNS. FOR I AND lit ACTUAL ISOLATTON OP III AS THEIR MAIN REACTION PRODUCT, ITS CHEM. JCONVERSION, AND-FINALLY BY PMA AND IR REACTIONS BETWEEN 11 AND BETApACETYLACRYLIC ACID (GIVING -2sMETHYLI,3,H-YDROXYt5, ACETYLPYRIDINE) (Mi AND BEI'WEEN I AND -CYCLOPEXTEN t.3, ONE (FORMING 5vMETHY`Lv4vHYDROXYt 6vAZAHYDRJ'40E,%,31rJNE) (V) ~ALSG-~VFkIFI ED' THUS TYPE OF MECHANISM. THUS* TO A: SOLN. OF 17.9- G I IN 20 ML 'At' .~ Ell '1 ML ACOHj AND..-2,00 ~(G' .5 SUB2 0 WA!~-ADI)Eb 8-~87 G- 11, HYDROC INONE,,''Al IU '40 THE SOLN. -KE-PT I WEEK~Ar ROO'.A'TEMP. IN THE DARK TO GIVE 8-G Illv.M. 151-2DEGPEE~ (HEPTANE)* A SOLN. OF 2.5 G II Aw) 3.,t2 G RETA,AC.E1-.YLACRYLIC ACID IN 40 ML ADS. ET SLIB2 0 WAS KEPT 5 PAYS UNDE4 :CACL- SUF.,2 TUBE TO GIVE 0.64 G IV, M. 253-ADEGREES (DEC(I.M.) (14EQHI. TO A SUSPENSIGA. GF 1 .14 G LI ALH SUB4 TIN 50 ML THF WAS A'.')DED URjPNI SE W ITH '%LING 2.1 G,IlI IN' 50 IML THFv AND THE MIXT. RFFLUXED 6 HI AND LFFT C AT KOM TfmP- TO GIVE.1.74 G .2loMFTf4YLtirli'(iR(IXY,41(ALPitAltlYOK(JXYCTHYI.1, 5,IIYOROXYIIETIIYLPYR101(,4F,-4. I'tZ-3[)EGK~r-S'(ETOH-ET''SU!32 UNC LIA S S-1 F- I E msm- pno mquawt Immo ff molmmmmommmifffimm  mulaimirlmliamme `3 3 02.2 UNCLASSIF PROCESSING DATE--02bCT70 ~CIRC ACCESSION NO--AP010322Z -_ABSfRACT/E.XTRACT--A MOXT. OF 0.8 G CYCLOPENTENOPONEY 0.63 G fit AND 0.1 G ,:,,.-PYROGALLOL WAS HEATED 2 MR AT 110DEGREC-S, COOLED# :TREATED RITH I ML OR'(:HCL IN ETOHP CAREFULLY SHAKEN WITH TO ML~ABS. ET SUB2 9, -T f AND LEr JVERNIGHT IN A REFRIGERATOR TO GIVE 0.22 G V, M. LARGER THA'4 170 DEGR EE S(ETOH-ET SUL32 0). U iNIC L A S SIF I PP  M.1 r USSR um, 547-823.07:542.945.32 DROBINSMA, H.A., IONOVA, L.V., and FLOEENTIYEV, V.L., ~Instituta of Molecular Biology, Ukrainian SSR, Academy of 'Sciences USSR, Second Moscov Order of Lenin Medical Institute, Moscov- "Synthesis of Pyridoxal-5'-phosphate and Pyridoxamine-P-Pbosphate Derivatives" Riga, Khimiya Geterotsiklicheskikh Soyedineniy, No 6, Nov-]Dec 69, PP 1037-1043 Abstract: A synthetic methbd based on direct phosphorylation of respective amines is reported for the following pyridoxamijae-51 -phosphates (PAMP): 2-nar-PA~LP, 2-nor-6-methylPAMP, and 6-methyl-PAMP. The yields were 50% or better, With some tuentit; (at the carbonz 2 and difficulty in phosphorylation due to two ortho-sub6ti 6). The pyridoxal7-5'-phosphate (PP) derivatives were obtained via phosphorylation of Shiff bases of the respective aldehydes and p-plienetidirie fol-lowed by hydrolysis The following compounds were obtained: 2-nor-PP) 2-nor-6-mr..!tI1y.1-PP and 6-Iaethyl-PP in yields ranging from 53 to 73%. These eoMounde had to ba chrowatogrt6phed on a sulfore4dn and it.was diocovere& that direct.hydrolynis oa;the re-ain colxu= gave higher yields. UV spectra are reported for all 'compounda in actd, neutral and basic media.  USSR UDC: 547.8r_3'722-3:543.422.6:542.942.4 Institute F -YEV NOVA~ L.V., FLOREW V.L., DROBINSKAYA, N.A., IOT of Molecula Biology, Ukrainian SSR, Academy of Sciences USSR; Second Moscow Order of Lenin Medical Institute, Moscow "Synthesis of Pyridoxal Analogues and Their Properties Riga, Khimiya Geterotsiklicheskikh Soyedineniy, No 6, Nov-Dec 69, pp 1028-1936 Abstract: Cyclization of 11-acylaminoacid esters in the presence of phosphorus pentoxide gave 5-ethoxyoxazoles, which were reacted with maleic acid diesters to yield diesters of substituted 3-hydroxycynchomeric acid. Reduction of the latter over lithium aluminum bydride gave analogoues of pyridoxime) which could then be converted to pyridoxal derivatives by oxidation with manalpiese dioxide. The aldekvdes were converted to oxims and Shiff bases with p-j)hLOnet1 dine. Hydro- _genation of oximes gave pyridoxamine derivatives, Most of.the yields exceeded UV maxima are reported for the compounds obtained,  "R IITIIIII.i.cff, '.'Effect of Loser Radiation Structures" Kiev, Poluprovcdnikovaya tekhnika Pp 105-107 ---- ------- UDC 537-312.5 R. 0. and LYASII-101~_, P. on the Electrical Paramete, s of DICS i mikroelektronil:,a, No. 4, 1970, Abstract: The T)ur-.ose of 'his article is to i est.L. U 117% icate the effects of laser radiation, used f or welding, perforating, lf,,nd resistor adL- juating in integrated circuits, on~the seraiconduc-11-or devices i ,-;0 in int o I' -hese circuits. '31.,ecifically, the article studies laser-~-_-ade met aLl- Oxide - s emicond-act or transiotorr, of t-he planax st:vuctlitre, us- ing n-and p-ty-~e silicon, as Well as NOS vartletors makle of 11-type Si. The laser u3e:d ao t1le radiation sourcc i-a thie expel-imonts -;"a-s WE the "Luch-11i 1. Upe operating in ihe pulse wde, in which the ac- tive material v.aS ruby a 0.05~ admixture of Cr. The !.IUS at-_7acturaz wia_~_re a-rad-io-zed witlh an uznfocu.-~e~d le.:M -0--eDse enernrv -.-as insufficient to d=age the target surYaces. Chan-es o- -Ci-an~ient chaxacter-4-Stics im tthe ?M. transistors ,-.ere Lnvesti-ate-,~; the var- Z. factors were investi~7ated for changes in the -tTolta-are-re istics and in tI)e capticitance as a function of tho voltar~e --ITI_!Jed in "'Ghe cut-o~ff eunection.  P USSR UDC: 621.375.$2 XAfflMQ1,T 1. j., P. 0, LYASHOK, A. P. "Influence of Laser Radiation on Electrical Parameters of Metal-Oxide- Semiconductor Structures" Poluprovcdn. Teklm. i i"U'R-roelektroniRa. Resp. ~Iezlwed. 5b. [Semiconductor Technology and Microelt~ctronics. Republic Interdepart-ent, 1 Collection] , Ir No. 4, 1970, pp 105-107, (Translated froin.Referativnyy Zhx nal Fizikq, No. 8, 1970, Abstract H'01145, by the authors). Translation: The influence of laser radiation on the characteristics of .1105 (metal -oxide-semiconductor) devices is discovered. in the case of MOS wisistors, devices of n-type silicon are most strongly af-ected. 7"he t r, -ent is increased by .-or 'toys a discharge curi _-3 times. f MOS varia.C do- 111 capacitance and azi imerea-se in leaka-qe current are noted after Irradiation. The clianges which develop are stable and irTeversible. The presumed nature of the challges i,,; di:scusscd. 8 biblio. refs.  PROUSSYNG DATE--160CT70 013 UNCLASS,IFIM JITLE-SYNTHESIS OF SILICON OXYNITRIDE -U" UTHOR-(04)--GUZKANv I*YAor PURUSOVA, T.N.,,POLUBOYARINOV, D.N., OVSKAYA, M.N. "ZO TRY UF "S R --SOURCE-.-OGNEUPORY 1970, 35(3), 41-6 ~ZATE POOL IStiED--------70 ,SUBJECT ARE4S--CJiEHl-STRY fC` TAGS---SILICON COMPOUND, NITRIDE, DILATOMETRIC ANALYSIS CONTROL MARICING--NO RESTRICTIONS DOCUMENT CLASS-UNCLASSIFIED 'PROXY REEL/FRAME-1996/0871) STEP NO--UR/0131/70/035/003/0041/0046 CIRC ACCESSION NO-AP01180148  2/2 013 UNCLAISSIFI ED, PROCESSING DATE--16OCT7O CIRC ACCESSION NO--AP0118048 ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. ACCORDING TO THE REACTION SI PLUS SIO SUB2 PLUS N SUB2 EQUALS SI SU82 ON:SU82 PLUS ONEHALF 0 SUB2 (1) OR SU82 ON SU132 (2) SYNTHETIC 3S1 PLUS SID SUB2 PLUS 2N SUB2 EQUALS 2$1. .:-,,.:,SILICOiV OXYNITRIDE WAS PREPD. THE THERMOGRAVIMETK[C AND X RAY ANAL6 DATA SHOW THAT THE REACTIONS BEGIN AT 1000DEGREES AND FINISH AT 1450DEGREES, REACTION (2) HAS BETTER PROSPECTS FOR USE. TO PROVE THE 'ASSUMPTION THAT SI SUB2 ON SU82 IS CREATED VIA THE INTERMEIDATE SlOt -SAMPLES FROM A MIXT. SIO PLUS SI IN WT., RATIO 1.52:1 WERE PREPD. AND HEATED IN N AT-1450-70DEGREES. BY X RAYS ONLY THE PHASE SI SU8Z ON SUBZ WAS FOUND. A SLIGHTLY LOWERED W7a INCREASE (IN COMPARISUN WITH THE THEORETICAL ONE) IN (2) IS CAUSED BY THE SIO ESCAPE. THE DILATOMETRIC MEASUREMENTS AT 20-700DEGR.EES OF SMAPLES WITH VARIOUS 51;SIO SU62 RATIOS 'CONFIRM THE X RAY DATA, SAMPLES HEATED AT 1350DEGREES AND CUNTG. A LAR(vE AMT, OF SIO SUB2 SHOW THE QUARTZ,EFFECT CONNECTED WLTH TRANSFORMATION OF BETA TO ALPHA QUARTZ. THE COURSE OF DILATOMETRIC CURVES OF SAMPLES HEATED AT 1450DEGREES DEPENDS ON THE INITIAL COMPN. OF THE MASS. AT SI:SIO SUB2 EUUALS 31.95:65.15 AT 170-2800EGREES THE EFFECT CORRESPONDING TO THE EXISTENCE OF CRISTOBALITE 15 CLEARLY SHOW1114. THE AV. COEFF, OF THERMAL EXPANSION IF R.EE TIMES 10 PRIM NEGATIVE6 DEGREES. AT it kATIO 58.37:41.63 THESMOOTHE COURSE OF DfLATOMETRIC CURVES IS EVIDENT. THE COEFF. OF THERMAL EXP4.NSICh EQUALS 2.13 TIMES 10 ~PRIME,NEGATIVE6-DEGREE. FACILITY: MUSK* Kf4l.14.-TEKHNOL. INST. IM, MENDELEEVAs MOSCOWt USSR*  USSR GUaIAN, 1. YA., FURUSOVA, T. N., POLUBOYARINOV, D. N., KA-RPIWVS "Synthesis of Silicon Oxynitridell Moscow, Ogneup_ory, No 3, Mar 70, pp 41-46 Abstract; A refractory material has been produced., consistuing PrInTrily of silicon oxynitride (S12042); ~he -optimal tlech-qologi- 2. Cal parameters for its synthesis are determined, and certain properties of the materials produced are desoribed.  USSR UDC:519.44 KARPILOVSKIY G. I "The Least Power of the Precise Representation of Abelian Groups" Vestn. KharIkovsk. Un-ta [Herald of KhaT,Ikov University], No. $3, 1970, Mechanics-Mathenatics Series, No. 34, pp:.~107-115 (Translated from Referativnyy Zhurnal Matematika, No. 12,~1970, Abstract No..12AI84 by P. Gudivok) Translation: The primary result is determination of tbe, least power of the precise representation of a finite Abelian group in an Palgebraically closed field of arbitrary characteristics,.  lip USSR UDG 621.317-726 KARPILOVSKIY, L. N. "New Me thod of Measuring the Amplitudes of Pulse Signals of Nanwecond Length" Haterialy naichno-teklin. konferenr-sii. Leningr- electrotellin. in-t svyazi. 2. (Hateriais of the Scientific and Technical Conference. Leningrad ElectrotechruLcal Communications Institute. ''Vyp,. 2)j Leningrad, 1970, pp 249-252 (fro-a Uh-Radiotekhaika, No 8, Aug 70, Abstract No 8A353) Translation: This article contains a discussion of a nethad of measuring pulse amolitudes based on the principles of frequency compensation conversion. A description of the operation of the block diagram of the instrument is pre- sented. The accuracy of the procedure Is es.timated# 163  USSR L~ 1) C 6 213 7. 7 KkRPILOVSKIY, L. N. "He Frequency Compensation Conversion and So74 CharactertsLic athod or O.L -it Materialm nauchro-cekhn konferentsii. r. elekrrotek'ml. in-t Svvaz; inc Vlp- 2 (Materials of the Scientific and Technical Conferencii. rad Lectrotechnical Conmunicat*ons Institute. Vyp. 2), LenlnL'zrad, 11970, pp 244-249 ffrom R-7h-Radiotekh-nika, 'N~o 8, Aug 70, Abstract No' M352) ranslation: This article ~:orttains a discuss,ion of O-Lo i-sg~!ncc! of the mathod :ompensation. ccn,.errsian. So-.,,e charaCLeriszic~ feaLtlres of Con- o ffrequency n of the measured s-nals are investigated. Tliey affi!CL Chi? S~!lc,-Ctioll versio of the measure-ment limic while retaining rhe givea accuracy. llaflned formulas .cr ca-IcOlating the charge =id discharge time of a noaiine,ar oapacitaiw:e of a P-n junction used in the investigated mathod were obtained. 'eco:--menda t ions are made with respect to expansioa of the measurement limits and actilhods of constructinc measuring instruments implement,~n g the given -rinciple.  -A: J2 .006 UNCLAS:: SIF PilillrESS-ING DATE--2MO%/70 ..TITLE--POSSIBLE USE OF VARIOUS PRI.NC,IPLES:OF IMPROVING THE A HERENCE OF D PAINTING -INKS FOR METALS AND GLASS -U-~ AUTHOR-(04)-GUREVICH, YE.1.1 KARP ILOVSKIYt_.Z,"_ POLYAKOVv V.1 GRINEVAs YE. COUNTRY 0 F INFO--USSR ~S~OURCE-POLIGRAFIYA 1970P (2)t 33-5 A, T. EPUBLISHED ------- 70 -'-50JECT AREAS--hlETHODS AND EQUIPME14T AGS---PRINTING INKs ALUMINOSILICATE~ GLASSt A OH E~S I ON '-TOPIC r ,'~CONTM MARK:TNG--NO RESTRICTIONS -.~DOCUMENT CLASS--UNCLASSIFIED PROXY P.EEL/FRAME---3006/0725 STEP NO--UR/0543/70/0001002/0033/0035 _CIRC ArCVSSION Ni.)--AP0134460 ti i%l C L A1 r 1,i:: _0  - - -11NICL A S-S IF I E-D-_-- _- _ _ , ~ -- - - -  USSR UDC: 51 SPENOV. K-,kRPlLOV5, Ye 'KIY, Ye. B., REDIN, Yu. A. '~Orgauizaion of Rep= of Rasic Equipment Using Mathematicil T~r. VIN I Illoloch. Pronn-sti I'VI'orks of All-union Scientific Researe.1 Institute of the Mill, Industry], 19772, No 28, pp 25-36 ffr~nslated frora Refor.-tivnyy a Kibernetika, No 11, 19~2, Abstract No IJV488'j, by the authorri) Trarislaticn: Problems of organization of repair work at enterprises usin.- precise methods are studiled. The appayztus of linear prograiwTting is used. wnples are calculated. Several simple ex.  USSR. UDC 51 SEMENOV, Ye. V., KARPILOVSKIY, Ye. B., REDIN, Yu. A. "Organization of the Repair of Basic Equipment Using Hathematical Methods" Tr. '71NII Moloch. prom-sti (Works of the All-Union Scientific Research Institute of the Dairy Industry), 1972,'No. 28, pp 25-36 (from RZh- Hatanatika, No 11, Nov 72, Abstract No 11V488) Translation: Problems of the organization of repair work in enterprises using exact. methods in which linear programming~is used are discussed. Several sinple examples are calculated. Authors! abstract.  USSR LTD C 51 zARrrSK1Y, L. S., KARPILOVSKIY, Ye. B., KHALEPSKIY, L. D. "Planning of the Production Activity of Enterprises of the Dairy Industry onomics" Usirqr, Methods of Mathematical Ec Tr. VNII moloch. prom-sti. (Works of the All-Union Scientific Research Institute of the Dairy Industry), 1972, No. 28, pp 17-23 (from RZh- Hateciatika, No 11, Nov 72, Abstract No 11V495) Translation: A technique for constructing a mathematical model of a dairy plant.- is discussed. The problem of operational control. of the plant using dynautic programming is f ormulated. The necessary recurrence relationships are derived. Autbors abstract. 61 "lm, M11HUTT MAN MIT24-Irstr1ra-, limp  USSR UDC: S I ~ZTSKIIY. L S, FARPILOVSKIY, Ye. B. ,KIIALEPSKIY, L. D. "Planning of Production Activitv of 1-filk Industry Enterprises Using Malthen.,-it-4cal Economics Methods" Tr. WN11 Moloch. ProT-,,.-sti P"'or"S of All-uaion Scientific Rese.~rch Institute c;f the - Industry), No 23, pp 17-23 (Translated fro-, Refevahnyy -hurnal Kibernetika, No 11, 1972, Abstract No lJV4qS, by the ~,uthors) tion of a matheimatical moilel of a Traislation: A meLhod is studied for Construe milk plairt. The task OL: OPCI'iltlve 1"Jannina of t1e. phnit using dynaiic program- ming is st-ated. The necessary rccurrent relationships are ywoduced.  USSR UDo 621-372.6 KOTMIIATIY-RV, S.L., KW~~~ (Members Cf The ScierAific-Toohaic5l. Society of Radio Engineering, Eleotronics, And Oo=unioation ivicni Ao,9.* Popov) 00onciernitz Correlation Evaluation 0? The 4Aallty 04' Oo=inication Channel" Radicitakhaik-a. Vol 27, No 3, .1,Ear 1972, pp 93-95 Abstract: It is ehown that an autooorrelatod. funct ion can norve as a crit6rion of the quality of a synchronous discrete comzunicstion :ch-annal. This concept was exper im5nt ally verified with the aid of functional ulaulation on a digital coir, puter. Modela were investigated of All. and FM charmalo with additive normal zioise and interference in the form off A14,aignals at froquencles cloue to tho 'frequency of the efeective aignal. The levols of noie3 and interference were changod within vride limits. 2 fig. 3 ref., Received, 7 Jftn 1970, after revision into short commtaication, 25 Oct 71s  USSR UDC 666.764-36 KARPINOS D M.. GROSHEVA, V. M., MMiASHCHUK, Y2. F...and TOTSKAYA, G. A., Institute of Problems of MaterJal Science AcadeaW of Sciences Uk--SSR "A Refractory Based on C11romiurfi Oxide" Moscow, Ogneupory, No 1, 1974, pp 55-S6 Abstract: Studies are performed on the production of refractory materials from chromium oxide, reinforced ivith mullite single crystal fibers. The promise of the use of mullite fiberas a~:reinforcing component to increase the thermal and impact strength of products,of chromium oxide is demon- strated. 1/1  ........ ..................... . . . . . . . USSR imc 621-762.5.001 KARP1jPOS D. H.t TUCHINSKlYt L. I.0 and rEFER, V. YA., Institute of Problems of Mterial Science, Academy of Sciences UIUGSR "Calculation of the Corrected Work of Compacting During Dynamic [lot Pressing of Stratified Reinforced Materials" Kiev, Poroshkovaya Metallurgiya, No 12, Dec 73, pp 7-13 Abstract: Energy expenditures are analyzed, producing an equation for calculation of the work of dynamic hot pressing of reinforced materials as a function of the plastic properties of the matrix and the geometric parameters of the composition considering the disrribution of' stress on the contact surface between fiber and matrix and the friction between them. The results of experimental testing of the equation cluring dynamic hot pressing of coppei-molybdenum wire and nickel -molybdentwi. wi re systems show that the work of compacting defined by the formula agrees well with the experimental results. 1/1  Ussa UDO 62i.?63j669.Oi YAR1q4O5,-D,-H., FEDORENKO, V. K. I BURYWAjA. L. o and GORSEY, V. V., Msiltute of Problems of Material Sciencej~Academy of~$-eiences UkrSSR, of Metal Physics,.Acadexy of Sciences Ukr6$R insiltute ItStudy of Interactions at the Phase DivisioA Boundary:in Composite Materials with a Nichrome MatTiX and Fibers,Based on.Tungsten and Molybdenum" Kiev, Poroshkovaya Metallurgiya, No 2, Feb 74, pp 64-75 Abstract: This work studies the structure and phase composition of the transition zones, determination of the mechanism and kinetics of growth of interaction zones, the influence-of alloy elements in the fiber and matrix or. the mechanism and kinetics, the study of recrystallization in the fibers and determination of the influence of all these factors on some.of the strength characteristics of fibe-r-reinforced materials, It is established that the phase COMPGSition of the reaction zone does not influence the quantitative relationshi s of p 1. layer:growtht The kinetics of diffusion processes in the system,studied correspond to a vacancy mechanism. The alloying elements in the fiber and matrix have 1/2 15  USSR 2, Feb ?4, pp 64-?5 URPINOB, D. M., at al., Poroshkovaya Matallurgiyat No a significant influence on the parameters of layer gi-owth. The diffu- sion of nickel and chromium in the fiber is rapid. Recrystallization phenomena in fibers represent one of the main causes of the reducticn in strength of fiber reinforced materials during long-term operation.  USSR UDC 621.762,4.044.2 KARFINgst. D. !4., BESPYAWY, V. A., SUKHM, L. L., SHIYANOYSIMA, I. YE., ;i;TBESPYM1-f T, A. A., Inatitute of Problems of Katerial Sciences, Academy ~of Sciences Ukr5SRj Zaporozhlye Aluminum Plant "Kamaunoz" "Somq PropDrties of Reinforced Cylindrical Shells" X:Lev,, Poroshkovaya b1letallurgiya, No 11(131), Nov 73, pp 31-35 Abstracti The described technological. schema of the formation of cylindrical Shells includes the explosive squeezing with subsequent heat treatment (heating up to 8500 C cuid 50 min aging) of a composite Consisting of a plaztic matr1x In the form of a foil on a nickel base and reitiforcinE tungsten fibers, 0.03 mm in dian., in the form of a grid., The results of an Inyestigation of the high-temperature short-duration strength of the shel ;s show that the short- duration strength of -the composite at 800, ~501 and 1101) C considerably exceeis 116-he strength of the matrix. At 950 C the st-rengthenIng effect of the composite reaches 6, at iWOO 0 it reaches 12, with a Bimultaneo= decrease in pliLstlclty -properties, After heat treatment the coml%osites reveal thermal streetws wbich develop from the difference in~the lineax. elongation and the Olastilo constants of the components of the compoBite. 1A 15  USSR uDc 621.762.001.541.1t669.01.84 X&RT.%Y S, D. R. and LISTOMICHAYA, S. P.g Institute of Problems of Materials LC Sciences A~emy of Sciences Ukrainina SSR "Interaction of Cartain OxIde Diffusion Barriers with the Matrix Phase and Hardening Elements of Materials Reinforced with Fibers" Xiev9 Poroshkovaya 11-letallurgiyal No 1, Jan 74, pp 101-107 Abstracti An attempt was made to use oxide, one micron thick, as diffusio, barriers to prevent the formation of brittle intermetallides. This waz done by studying the interaction of the matrix phase with reInforced-fiber hardening elements, being protected by the diffusion barriers. Silicon dioxide, alumAnum oxide, and aluminosilical,:e coatings were used as the diffusion barTiers, proditced by electron-beam vaporiWUon or high-frequency discharge. From tests using the above-mentioned coatings on steel Xbl8NVT ar'd Co, N1, nichrome, Mo, and W It was found that the temperature stability of these coatings Increased In the order givenj i.e.0 the thermal stability of 0.35 micron films of si:Ucon dioxide increased with the order of the steel and aetals listed above., altu:inum oxide coatings were stable at higher teaperatures which increased In the ordor of the metals and steel listed above, e.g., 1100-12000C for 1/2  USSR KARE-INOS, D. U., and IISTOVNICHAYA, S. P., Floroshkovaya Metallurgiyal No 11 ,Tan 74, pp ioi-io7 for '.018N9T up to 1500-1600 for tung3ten, with a lower thermal stability noted for the aluminosilicate coatings. Annealing of the coated zaterials produces different coating thicknesses d.--pending on the compatibility of the coating and matrix and the fiber used, The major factor involved is 1-0he degree to which mass tramsfer of the coating Nnetrates tne substrate. It was concluded that the use of diffusion barriers opens new avenues for use in the development of zaterWs reinforced with fibers.~~ Four figures, three table5p 18 bibliographic references, 2/2  USSR UDO 620oAP4,11036.4 KARPINOS, 1). H., TWHINSKIY, L. I., MIRC6HEIKOVA, T. K. , and VISH11YAK011, =.R., Institute of Problems of Material Science, Academy of Sciences UkraJjaian SSR Z "Calculation of the Thermal Expansion of Reinforced Metals" Kiev, Poroshkovaya Metallurgiya, Ho 1, Jan 74j pp 80-84 Abstreacti A method was proposed for calculating the thermal oxpansion of cemposites, reinforced by unidirectionally oriented fibe:rB, In Hbich o;ie.or both ccf the materials in the composite possesses plastic rather than e.Laetic propextes. Tungsten wire of alloy DMOV (VZh9b) was usesd as the experimental material where the reinforcing fiber usea was tungsten wfta VA with its con- tent in T&-'h98 varied. Tests showea that pure tungsten has a verj low coefficient of theraal ax-namslon arA alloy VZh9d has a relatively hl..gh coefficient between 300 and i)000 C and Increasos with temperaUre. When reirforood ;iith VA fibersp the thermal expansion is not aa hi& as for the talrelziforoed alloy and stairts decrea:Ang between 700 and g(juOU0 d4~perAl" ci~ the VA content. The reason for this that at comparatively low temperatums the matrix has a yield strength high enough to cauuu substantW tensile efresi3as in the tunigsten  USSII KARPRICS, D. Ii., et al., Poroshkovaya Metallurgiya, No 1, Jan 740 pp 60-64 fibers anti, corsequently, to cause additional temperature daformation in them. At high temperatures the matrix assimilates an ideal plastic body, its yield strength remains small and, therefore, the coefficient!of thermal expansion of the conposite is basically determined by the thermal expansion of the fibers. Thus:, the matrix (VZh9B) coefficient is greater thaii timIgsten. (fibers) and. at loy temperat-ures the coefficient increases, but as temperature rises the pure matrix becomes plastic, e-qd the coefficient is governed then by the fibers, and the overall coefficient diminishes, Three ftgut%~usp one table, five bibliographic references. 2/2 10 RIM 0-=l.Pl.,l-.  JPkS S9873 23 kuguzt 1973 TECHNOLOGY OF PRODUCING NEW PATERIALS - Ic T4an*Iat: n at us langruage collectionz Takhrtoloulya s= Q luct Vl , ,. rialov,~ 1972,- 9 kh CONTENTS PAGE- Emissitivity al Zirconium and Niobium Carbiden In the Region of Homogeneity (L.N. 02..mchuk ,_0. _5h. 1JfWakh*y*1 .............. w, I Hark function of silicon:-Carbida- ........... .................. 4 XlectrIcal Resistance of Composite material$ (Yq. K. P~trayA)... ............ I................... Heat capacity ms,~sur&ment in somo Ceramic Materials , ! o. 1 11 He Ince, V.S. Xllmanko ................... n 14 Thermal Conductivity of Rcinforctd'Plastics (D.K. garpinos. V.S. Klimenkol ................ 113 one Optimum ease of a Method of Axial 7hermal Flow for Deterruning the Coefficient at Thermal Conductivity V -5. Kii-manko, 4t al.) ............................. ( 21 Study of Sintering KinatLcs by flat Extrusion of Zirconium and Titanium Carbide& in tho Regions of Their Homogeneity ya. ............... 25 Hot Pressing Features of ftlybd num Carbide (YU.- 1. Rqqovoy. H.S. Xovat'ClIvinko) ................. 32 USSR - Ij  USSR UDC: 621.762-5.001 KAR?INOS. D. M., TUCHINSKIY, I., FEFER, V. Ya., Institute of Problems of' ~~~-S-cre-ncezp Academy of"Sciences UkxSSR "The-Problem of Compacting of Sandwich Materials by Hot Pressing" Kiev, Poroshkovaya Metallurgiya, No 7, Ju-I 73, pp 43-50. Abstract: An analytic dependence is produced, describing the compacting of sandwich-type reinforced material during hot pressing, consido-ring the influence of smoothing of matrix projections pressed into the. intervals between fibers. It is assumed that the compacting rate is controlled by the rate of steady-state creep of the matrix. It is shown that in the initial stages of hot pressing, compacting results only from fibers pressing into tie matrix, after which the smoothing of the portions of the matrix pressed into the spaces between the fibers becomes significant. Experimental testing with reinforced copper-molybdenum and nickel-molybdenum specimens shows that the dependence produced describes the actual process of compacting of a reinforced material during hot pressing satisfactorily.  USSR UDC: 666.T64.36 --Q& I Ins p. M., PAVLIKOV, V. N., 14IKHASHCHTFK, Ye. P., PILIPOVSKIY, Yu. L., "Order, 6-f-th-e Red Banner of Labor" Institute of Problems of Material Science Academy of Sciences of the Ukrainian SSR "A Composite Material" Moscow, Otkr-,ftiya, Izobreten-4ya, Promyshlennyye Obraztsy, Tovamyye Znaki, No 22, Aug 72, Author's Certificate No 345111, Division C, filed 22 Jun 70, ublished 14 Jul 72, p 86 p Transla:tion: This Author's Certificate introduces a composite material based on aluminum oxide. As a distinguishing feature of the patent, thermal stability is improved without sacrificing flame resistance and impact strength by adding lamellar single cryat&ls of chromic oxide with the following ratios of components (in vt.%):~ aluminum oxide -- 80-95, lwaellar single crjstals of chromic oxide --,5-20.  Composite HateriaL, USSR, FRANTSEVICH, I. N., and KARPINAS, D,.kL,..~ Kompozitsionnyye Materialy Voloknistogo Stroyeniya (Composite Materials With a Fibrous Filament Structure), Kiev, "Naukova Dum1ta" Press, MO, 403 pp Translation of Introduction: For the solution of problems of the construc- tion of machines and mechanisms in various branches of 'the new technologies, especially the high-parameter technologies, new materials are required with a conplex of different, occasionally even contradictory,properties, which have been ~stipulated by the requirements of the designer. The materials scientist can solve these problems effectively and expeditiously only by the rational synthesis of materials with advanced, pre-established complex prope-rties, It is therefore necessary to have a thorough understanding of solid-state physics, which will open the way to predicting the- properties expected in fabricated materials, as well as to point to options of variants of the most flexible technology, resulting in the synthesis or construction of materials with any combination of constituents in a homogeneous, or sometimes, complex composite material. There is another side of the problem under consideration information and its process~',ng. Information in the area of material,,; science is especially 1/15  USSIII FRANTSEVICH, 1. N., and ICARPINAS, D. M-, "Naukova Dunika" Press, 1970, 403 pp complex, not only because of the abundance of sources but also because it is necessary to understand new, additional information from allied sciences -- mathematics, physics, chemistrY, and mechanics. Consequently, in research in materials science, particularly for the designer, one imst Droceed not from the original, even if it is only systematized ma-- terial information, but from material reprocessed by higbly qualified special- ists,and published in the form of a monograph, This mo'nograph must include ~for e~acb narrcr,7 subject, sufficiently complete and strictly stated physical questions and a fundamental theoretieal presentation for a glwn area, a detailed and exhaustive description of the technological scheme of production, both of original com-pounds and materials -and basic-purpDae materials and, finally, a comprehensive and exhaustive dencription of ti complete range of literature sources relating to properties of materials An a given class and to tta- area of their use. This monograph, prepared by specialists havirig wide experience in the given area,,must not merely be a compilation. To a-certain extent it must also be 2/15 7  ----------- - USSR FRANTSEVICH, I. N., and YQARPINAS, D. M., "Naukova Dumka" Press, 1970, 403 pp original, reflecting the subjective feelings of the authors. The reader is thus engaged with the authors in a creative search in a given area of com- posite materials. The monograph, "Composite Materials,With a Fibrous Fila- ment Structure," has been written according to this metliod and is presented for the attention of the reader- The book is devoted to one of the very realproblems of contemporary materials studies. Materials, about which much hasbeen said, to a significant degree predetermine further progress in aviation and- rocket technolo.-Y. For their development numerous associations of outstanding scientists of all disciplines have been attracted, and yearly the number of publications in scientific periodicals and in monzographic. literature have.increased, Until the publi- cation of the present monograph, "Composite Materials Vith a Fibrous Filalwnt Structure," no generalized mono-raph, of this type had beezi publisheO, either f~--re or abroad. The first nine chapters of the monograph were written by G. A. Van Fo Fy. This is: original material, dealing writh calculations of stability and other characteristics of reinforced composite materials. ContInuous tiodels were 3/15  USSR FRANTSEVICH, 1. N., and KIWINAS, D. M., ~"Naukova Dumka" Press, 1970, 403 pp used in a consideration of the elastic and rheonomic properties of fibrous materials, processes of heat conductivity and heat diffusion in them, questions of thermoelectromotive force and loss during their preparation and work at high temperatures, and also the electromagne~tic properties and propagation of elastic waves in such materials. Methods of analogy in the theory of composite materials and methods of manufacturing parts from them are described. Chapter ten, written by D. M. Karpinos and L. 1. Tuchinskiy, also has a theoretical character. Consideration is given to the reinforcement and stability of properties of the materlals, reinforced by.continUDUs and discrete fibers, the effect of electromotive forces on the stability of the mater-als, a statistical model of breakdown,.defects in composite materials, and t~,pes of breakdovm in comDosite materials.. The last chapters deal with a description of the technology of the prepara- tion.cif different forms of fibrous materials and their use. 41/15  USSPI FRMTSEVICH, 1. N., and KARPINAS, D. M., I.INaukova Dumk-a" Press, 1970, 403 pp Tdbhnological schemes for the production of metallic and ceramic materials, reinforced by fibers, and their physical-mechanical propextieu are described inC:Chapter 11 by D. M. Karpinos, L. I. Tuchinskiy, and V. G. Zil'berberg. InE:Chapter 12, D. M. Karpinos and V. M. Grosheva discuss.reinforced plastics. P&rmedSle fibrous materials, such as filters, transpirators, packing, and shuck:absorbers are described in Chapter 13, which was written by A. G. Kdstornov and I. M. Fedorchenko. ChApte-r 14, which was written by A. G. Kos tornov, V. G. Zil'berberg, D. M. Karplnas, and A. V. Tkachenko, describes technological m~!thods of preparing metallEc and nonmetallic.reinforcing elements, i.e.. fibers and filaments. Thp- firial chapter describes specific forms of metallic inaterials with fibrous st-ructure which are created in the process of crystallizvtion and other foims of thermal processing. The chapter waswritten by D. M. Karpinos and YeL-- N. Denbnovetskiy. I. N. Frantsevich, Academy of Scionces WaSSR  USSR FRAYESEVICH, I. N., and KARPINAS, D. M., ~INaukcova Dumka" Press, 1970, 403 pp Table of Contents: Foreword Chapter 1 Correlation of Continuum Theory for-Composite C6nponents 1. Real microstructures and. models of fibrous composition 8 2. Stability and elasticity, of~ fibers 15 -ties of polymeric binding with quasi-stat-ic loading 3. Proper 18 4. PiAymers at increasing tumperaltures 28 5. Properties of plastics during,periodic loadings 30 6. Heat conductivity and diffusion in continuum. 34 7. H'quation of an electromagnetic field in continuum 36 Litet-ature 39 Chapter 2 Internal Field Stress and Models of Elasticity of Fib-rous Compositions 1. Problems of longitudinal displacement 40 2. optimum volume of component content in fibrous compositions (luring displacement 50 6115  USSR FRANTSEVICH, I. N., and KARPINAS, D. M., "Naukova Dumka" Press, 1970, 403 pp 3.'-' Effect of form of microstructure of the properties of composites 52 .4.-'..Lcyngitudinal displacement of microcomponents of composites 54 5.'. Transverse displacement in fibrous composites 55 6w-. Models of multi-component materials with transverse displacement 60 .7.-. Stress in microstructures and elastic~:donstants of composites with longitudinal elongation 62 B.' Lcingitudinal elongation of multi-component media 65 19.' Transverse elongation of reinforced solids with simple regular structure 66 1(Y-' Transverse elongation of multi-componqnt composites 72 11. Elastic constants by area, slope, andlorientation of fibers 74 Literature 76 Chapter 3 Viscoelasticity of Reinforced Materials l.: . Viscoelasticity of reinforced plastics with displacement 77 2.~' Viscoelasticity of reinforced~plastics with longitudinal and transverse strain 80 7/15  -undamental relations of the theory of linear viscdelasticity of plastics 83 4. Elastic heredity of multi-component materials 85 Literature 90 Chapter~4 Heat Conductivity and Diffusion With Absorption 1. Ifeat conductivity of composites with continuous and tubular Abers during transverse heat flow 91 97 2. Longitudinal heat conductivity of reinforced materials 3. Reat conductivity of multi-component'reirtforced materialti 98 4.- Equation of theory of heat conductivit of.reinforced bodies 99 Diffusion in absorpin- media 101 103 Chapter'5 Heat Expansion and Loss 8/15  USSR FRANTSEVICH, I. N., and KWl,qA.5, D. M., "Naukova Dumka" Press, 1970, 403 pp 1. Thermoelastic expansion of composite materials with continuous and tubular f ibers 104 2. Effect of form of microstructure on heat exvansion 106 ~3. Heat expansion in multi-component materials 107 4. Ej'fect.of viscoelastic properties together with heat expansion and internal field loading 108 5. Loss and residual strain in glass-reinforced plastics 110 Chapter 6 Electromagnetic Fields in Fibrous Composites 1. Electrostatics of reinforced dielectrics 112 2. D.I!electric, permeability in w.eakly alternating fielft 114 3. 'Kagnetostatics of reinforced media 115 4. Electromagnetostatics of dielectrics reinforced with composite and tubular fibers 116 5. Melectric and magnetic permeability of multicomponent materials 117 6. Equation for the electromagnetic field in reinforced materials 117 9/15  'UH USSR FRANTSEVICH, I. N., and KARPINAS, D. M., "Naukove Dumka" Press, 1970, 403 pp 7. High-frequency fields in media reinforced by conductors 118 8. Longitudinal propagation of waves in~media reinforced with conductors 123 9. Electromagnetic waves in fibrous dielectrics 124 Literature 126 Chapter 7 Elastic Waves in ReinforcediMaterials 1. Waves in anisotropic viscoelastic media 127 2. Dissipation of energy in reinforced nedia 131 3. Elastic waves based on diffraction 133 4. Waves of longitudinal displacement 134 5. Transverse propagation of.elastic waves 135 -6. Longitudinal propagation of elastic waves 136 Literature 137 Chapter~8 Analogy and Modeling of Composite Materials 10/15 -----------  1~ Analogy to the theory of dispersion-hardening compoqites 138 Anal~o to the theory of fibrous composites gy 141 .3.. y reinforced media.' Analogy to hereditar 142 4., kialogy of dynamic field...s.in two-phase.fibrous composites 143 5. NonUnea r analogy of polymers 146 6. , Kithematical modeling of composite materials 147 Chapter Concentration of Strain About an Aperture in Plastics and,Coatings of Reinforced Materials L. Concentration of strain about a circular aperture iz plastics o:E laaLnated glass-rcinforrpd.plasticsi~ 149 2. Distribution of strain about an elliptical aperture and an opening in glass-reinforded plastics 154 3. H~thods- of investigation of strain in a three-ply with rigid t,-LII,3ro spherical bottom having a slitl 157 ~4. QDncentration of strain about an aperture in a thref!-ply spherical shell with a light filler 161 Literature 166  USSR FRANTSEVICH, 1. N., and KARPINAS, D. M.J. Naukova. Dumka" Press, 1970, 403 pp Chapter.:10 Hardening Effect of Reinforcement.of Composites Vith F:U)rous Structure 1. Characteristics of reinforced materials of metallic: and ceramic bases 167 2. Requixements for fibers and matrices~ 170 3. Stability of composites reinforced with continuous parallel fibera 173 4. Elastic constants of composites reinfor6ed by oriented continuous fibers 178 5. Stability of materials with discrete parallel fibers 183 6- Statistical analyses of the stability;of fibers 189 7, Statistical models of the destruction of reinforced materials during elongation 192 8. rypes of destruction of composites 196 Stability of composites to compression 200 10. Thermal strain in materials with fiber reinforcement 204 Lite rature 211 00-010 1  USSR FRANTSEVICH, I. N., and KARPINAS, D. M., "Haukova Dumka" Press, 1970, 403 pp Chapter 11 Teeinological Outline of Froduction'of Materials~Reinforced With Fibers, and Their.Physical-Mechanical Characteristics I.L.Preparation of composites by the method of powder metallurgy 214 2.-'.Mathod of coating application 219 3.'.Hathod of controlled crystallization 221 4.-. C-mposites based on copper and its alloys 221 5.-'. C6mposites based on silver and its alloys 225 6.-'. Composites based on aluminum and its alloys 228 7.7. 0:)mposites based on nickel and its alloys 232 8.. Compos:Ltes based on titanium 236 Wnposites based on iron, cobalt, magnesium, and their alloys 237 19., . Fiber-reinforced ceramic materials 238 IL- . -C-7mposites based an alumina and silica 241 12...-.. Cxmpos~tes based on other ceramic materials 245 Literature 246 Chapter 12 1.3115-  USSK FIWMEVICH, I. N. , and KARPINAS, D. H. , "Naukova Dumka" Press, 1970, 403 pp Reinforced Plastics I.-.Basic principles for the production of reinforced -plastics .249 2.:,.Types and properties of glass fibers 251 3._'~.Types of reinforced plastics 254 .4.-'..Refrectory-fiber reinforced plastics 261 5.,..Area of use of reinforced plastics 267 Li:Uxature 269 f Chapter 13 Filters, Transpirators, Packing, and Insulators With Fibrous Structure I.- -Method.of preparation of high-porosit~y fibrous ob ects 272 2._'.*Filtex materials of Eibers, 281 Transpiration materials with f ib rous structure 300 4- Fibrous-base packing material 319 5.- Insulators for mechanical and acoustic vibrations 334 Litexature 338 1411.5  ..... ...... USSR YRANTSEVICH, I. N., and KARPIIIAS, D. M., "Naukova Dumka~' Press, 1970, 403 pp Chapter.14 Methods of Production of,Reinforced,Materials and Physical- Mechanical Properties of These Materials 1- Mechanical methods 340 2. Preparation of fibers from molten metals 341 3- Physical-chemical methods 344 4.- Fibers with metallic coatings 376 383 Literature Chapter 15 re by; the Method of~Melt Production of Fibrous Structu Crystallization of Eutectic Alloys. and Thermal Processing of Solid Solutions 386 I., Properties of poured composite materials 2. Satisfactory and unsatisfactory poured.composite materials 394 Literature 398 15/15  USSR uDc 620-19i.113:514-1.12.o14 KARPINqp CIY, L. I., and VIS11HYAKOV, L. R., Institute of D. M., TUCHITISr Wgilems &r~MYVetiai Science, Academy of, Sciences Ukrainian S"M "Selection of a Matrix for 6 Composite 1~hterial Which Does Not Dissolve the Reinforcing Fiber" Kiev, Poroshkovaya Metallurgiya, No 5, MaY 73, pp 68-T2 Abstract* On the basis of concepts of alloy thermodynamics, the co,,11pcsition of a com aterial was calculated for ", matrix of a multicomponent matrix posite w- vhic4 does not dissolve single-component Pz!inforcinj; fib-~2rs. A calculation was m;-- d efor -the case when the matrix forms a solid solutfxin -with the fibel-I with clac limited solubility of the components. An experiment ack of one of' the Calculated compositions of a four-component Ni-Cr-W-Al =AtriY, reinforc.-ad with tungsten fibers, confirmed the correctness of the obtaine-d relationsLips. The experime-ixtal check showed -that the tungsten. fibers were. not dissolved in the matrix after 100 hours of annealing at 12000C. 2 figureo, 9 bibliographic refel.cnees.  USSR LU) CU1 .793-75 KARPIHM-g,-)~,_14-0 ZIL-BERGBERG, V. G., and SHARIVYX- R, S. YU., Institute of -11io'ble-is of Raterial Science, b7crainian SSH Academy of Sciences "Plasma Spraying With Submersion of the Nozzle In Water~' Kiev, Poroshkovaya Metallurgiya, No 4 tApr 73P pp 95-96 Abstracti A description Is given of a method of plwma spraying involving subnersion of the nozzle and the article bein-.-.sp=yod in water during sprayiAg. This method prevents oxidation of the sprayed poirdez, us'-n~; zirconium carbide as an example, and allowsthe spraying distance to 'to shortened to 25-30 mm while increasing the costing dbnsity.  USSR Ul)d:1620.193.43 qHMEY.-,V, N. YA, , VOROB'n' VA, 14, P., UVIERBERG, V. G. , w1.r1.,j 11F~1`10s, D. 1-1. AmideiV of Sciences UlaSSRp Institute. af General and Inorp-nic Cheipiatry, In3titu-te of Problens of 14aterial Scie7lce 7, Coatings on Nickel, MolyteLentuz, and Titwiium in "On the Resistance of A1203 Nelted LiCI-KCI Eutectic" Mroscow, Zashchita Metallov, Vol 19, No 2, DIP-r-Apr 73P pp 195-196 AbAractt The corrosion resistance in xelted LiCI-01 eutectic of Al 0 2 3 ca R'ting.-3 (200,V. m thick, Porosity), applied in az-,-on on wire spacimans f It o U, Mo, and Ti, was inveBtigated. In conpariaon vith taiprotected Pi No-, and TU-specimons, the coatin- decreased the cor-tosion, bY 2.3-2,4 tirrez, 0 '> 0 at 400 and by more tham 3-6 times at 500 ; at t~p timey aluialnwii oxide dissolved at rates of 8.0-10-5 and 1-3110-'~ g/cja'hx, respav.:tivel- The -4' unprotected Pi-specine;,a corroded at 4000 at the rat