SCIENTIFIC ABSTRACT PASINI, M. - PASKALEV, Z.
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CIA-RDP86-00513R001239410008-3
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RIF
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S
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100
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June 21, 2000
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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CIA-RDP86-00513R001239410008-3.pdf | 3.29 MB |
Body:
OBFa4AN,B.; PASINT, M.
Contribution to the treatment of sacrocoocygeal teratoma. Aeta
chir. lugosl. 11 no.2tl44-150 164
1. Zavod za patologi~u I patolooku anatom-Iju (Predstojnik-. prof.
dr. A. ZImoln) i Xinirska k' tnika (Predstojnik i prof. dr. D.
-Tuzbasio) Medicinskog fakultsta u Zagrebu.
PASINI,,-Miram, dr.; JAINJIC, Ivo, dr.; UIETIC, Vlado, dr.
Artificial pacemaker in the treatment of atrioventricLiar block.
Lijecn. vjesn. 87 no.2:205-209 F 165.
-PASINI,Miran,dr.; PRPIC,Ivan,dr.
Survival In deep burns In children. Lijec.vjes.,Zagreb 82 no.l:
27-33 160.
1. 1z Kirurske klinike Medicinskog fakulteta Sveucilista u
Zagrebu.
(BURNS in inf. & child)
P:iS L. ECA')i~. 1.
tSM/JbUCIw - Physiology ftb 1947
)b=W Upw lo~mp - Action
*OA the Meehanlem of the Actinic Action of the
Quartz Mercury-Vap= lAmp," E I Pamiaov, 1 p
'W MMer Blol I Med" Vol IXIII, No 2
Review of a Themie eubmdtted to the SecorA Medical
Motituts. Blood reactIons to various tests.
1T86
GOLOTA, Georgiy Fedorovich; KOLODYAZHM , V.F.., inzh., retsenzent;
PASINSKIY, A. inzh., retsenzent; PRYSIICMKO,'Yu.I.,
o~m_
veynn, naukj nauchn. red.; SOSIFATHOV, O.A.p red.
[Assembler of reinforced-concrete ships] Sborshchik zhe-
lezobetomr1kh sudov. Leningradp 3-adostroenie, 1965.
277 p. (MIRA 18t7)
ACC NRt R45028930 V/ Monogmph UB/
Abrosi;mov, Konstantin Aleksandrovich Mil 'to. Aleksey Aleksandrovich Pasinskly
Anat!2~L!!~Ltsim ch
Technology of reinforced concrete shipbuilding (Wkhnologiya zhelezobetonnogo
sudostr.Veniya) Le arad, Izd-vo "Budootroyeniye", 65. 0347 P.
illus., biblio. 2,500 copies printed.
TOPIC TAGrS: shipbuilding engineering, concrete, reinforced concrete, construction
mmterial
PURPOSE AND COVERAGE: This book presents the newest developments in the technology
of constructing reinforced concrete ships. Special note is made of the methods of
producing reinforced concrete ship structures, shipyard construction of the ship
hulls, and the use of new high-efficiency materials. Descriptions are made of the
techrology and organization of mechanical assemblying, insulation work, finishing ani,
equipment for JnstaUing reinforced concrete ships. Data is given on the main works
of shiyyard reinforced concrete shipbuilding, its equipment, and technical and
economic aspects of building these ships. A large part of the book deals with Mcha-'
nization of production processes of building the hulls. The book is recommended for
technical engineers in the planning, construction and scientific study organizations
of the shipbuilding industry, and for engineers In shipyard reinforced concrete
shipbuilding. It can be useful for students of shipbuilding Institutes and depart-
ments.
Card 1/2
uDc: 629.12.011.25.002-7
ACC NRt
TARLE OF CoraElM (abridged):
Preface --~
Short historical survey of the development of technology of reinforced concrete
ottipbuilding --5
Ch. 1. Methcxls of setting up mid organization of production in shipyard reinforced
concrete shipbuilding --9
Ch. 11. The structure of shipyard reinforced concrete shipbuilding --32
Ch. 111. Preparation of equipment constructions --43
Ch. IV. Processing of concrete mix --109
Ch. V. Forming sections of reinforced concrete ships --150
Ch. VI. Accelerating the hardening of concrete --184
Ch. VIL Sectional construction of the hull of ships --193
Ch. VITL Preparation of monolithic constructions for the hull of a ship --228
Ch. ZX. FinishinG the surface and testing the impenetrability of the ship's bull.
Drainage of ships --244
Ch. X. Construction of ships from prestressed reainforced concrete --253
Ch. XL Preparation of prestressed reinforced concrte sections --266
Ch. M. Dockyard construction of ships from prestressed reinforced concrete --291
Ch. XXII. Completion of construction vork --303
Ch. X17f. Related problems in the development of technology of reinforced concrete
--328
Ch. XV. Safety procedures vhile building reinforced concrete ships --336
Blbliogmpby --344
c.m 212 60 COMB. If /BM DAM 09JU165/ OPM -REF: 040'
PASISKEVICIUS, J.
lurpentine and rosin industry in Lithuania. p. h
14USU GIRIOS (Mislu ukio ir misko pramsones ministerija ir gemtos apsaugos
Itordtetas prie Miniatru tarybos)
VOL ds Aug. 1959
Vilnius.. Poland
)bnthly List of East European Accession (EM) W, vol. 9i no.1, Jan. 1960
Uncl.
PKU U K
. - -,,- II.; 9PETSMAJD11, S.; LESNIFkICZ, L.
Liquid flovi and solid dissolution rate in pulsat on columns. p. 275
CHFEJA STWOWANA (Polsica Akadema Neuk) Wroclaw, Pnland. Vol. 2, no. 3, 199
Monthly List of East European Accessions, (EEAI) IZ, Vol. b, no. 9, Se.pterber 1959.
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SHAPOVAL, N.A., gornyi inzh.; BELYAKOV, P.K., goi-nyy inzh.; SHVEDOV,
T.M., gornyy inzh.; FASISHNICHENKC, G.K., gorn)7 inz~..
Selecting a mathod of roof control in seams subject to
rock bumps. Ugoll 39 no.7:60-63 Jl 164. (MJRA 17:10)
1. Kombinat Arterrmgcll.
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se e ***AmINoo**fN~& 0009 0 Q 06 0 0 0 a 0 0 0 0 9 0 G
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PASISKNVICIN, I.I.
.., 7:",.
Inproved scale stick. Gidreliz. i lesekhtm. prom. 8 na.7t
24 155. (MIRA 9:4)
l.Tekhneruk Villnyuskege khimleekheza.
(Tree tapping)
BRETSMAJDER, S.; PASIUK W
Enlargement of the free Burfact of the liquid in a pulsation colz-.
Biul chim PAB 11 no.2:103-106 163.
1. Department of FxuidamenW Physico-Chemical Problems in Technology,
Polish Academy of Sciences, Institute of Physical Chemistrr, and
Department of Technological Designing, Technical Uaiversity, Warsaw.
BRETSZNAJDEfi, S.; PASIUK, W.
Behavior of the free aurfAce of Lhe liquid in a pulsation column,
Biul chim PAN 1-1 no.2:101-102 163.
1. Department of Fundamentaa Physico-Ghemical Problems in Technology,
..1 nstitute of Physical Chomlztry, Polish Academy of Sciences, and
%partruent of Technolo,.-Iica-1 Designing,, Technical University, Warsaw.
BRETSZNAJDER9 S.; PASIUK, W.
Effect of liquid colutrin hoight on the ph,,)nomana In a puluation
absorption column. Biul chim PAN 11 no.2:10'7-108 163.
1. Department of Fundamental Physico-Chemical *oblems in Technology,
Inatitute of Physical Chouistry, Polish Academy of Sciences, and
Department of Technological DesWind, Technical University, Warsp.
Ll
4 mlmft-=Dd6a*Cki thi iate CA imil ftammlej~i
in a ~*Ud4iquid em.
=
(Polit
LeAniewicz, and am").
M
BxU. "4d. poks. sti., S&. sti.. Ckim-, rM. d xlPzmPJ4
7. %5-9(19MXin RnSUO).-The pulsating motion of a
IIQUW tieffitini iaeie~ the dLmln. rate of NOXOs or
BzOll in Bowing IljO up to 13 times. For extu. of S
from a S ore with (NIIM, curves of edo, effiriencY aglinst
;pulse impUtudeaud fmq~ency showed a mix. J.Steicki--
BRETSZNAJDER,, Stanislaw; PASIUK, Wanda
Absorption in the pulsation colum . Pt. 2. Przem che= 43
no. 2: 74-79 F 164.
1. Katedra Projel-towania Technologicznego, Politechnika,
Warszawa i Za*ad Fizykochemicznych Podstaw Technologii,
Instytut Chemii Fizycznej, Polska Akademia Nauk, Warszawa.
DRE'rSZ%IAJDER, Stanislaw; FA31UX, W~anda
Studies of the resistance of certain retals to a=Wnitm
sulphtdo and multioulphlde. Przem chem 39 no.7:433-436 J1 160.
1. Katedra Projektowania Technologicznego, Politechnika, Warszawa i
Zeklad FizykochemIcznych Podstaw Technologii Instytutv (Chemii
Fizycznej, Polska Akademia Vauk, Warszawaj
.BRETSZNAJDER, ~-; PASIUK' W.
The influence of pulsation on the absorption of gases in liquids.
Bul Ac Pol chin 7 no.8:591-593 '59. (EEA1 10:4)
1. Department of Fundamental Phybico-Chemical Problems in Technology,
Institute of Physical Chemistry, Polish Academy of Sciences and
Department of Technological Disigning, Institute of Technology,
Warsaw. Communicated by B.BretstnaNer.
(Vibration) (Gases) (Liquids)
BRRTSZNAJDRR,S.; LESNIEWICZ, Lj; PASIUX, W.
A study of the influence of pulsating notion on the rate of mass
transfer in a solid-liquid two-phase system. Bul Ac Pol chijk 7 no.8:
585-589 '59- (EUI 10:4)
1. Department of Fundamental Physico-Chemical Problems in Technology,
Institute of Physical Chemistry, Polish Academy of Sciences and
Department of Technological Designing, Institute of Technology,
Warsaw. Communicated by S.Bretetnaider.
(Mass transfer) (Vibration) (Solids) (Liquids)
(Benzoic zxid) (Water) (Sodium carbonates)
(Systems (Chemistry))
~Sj
Distri 4M(b~/4M(v)/41~o(z)
/PAdd"C* 01 50=0 MOWS to I bi'vizionj
Rnlfl4 dat=onlumoolysidAde. StanLftwBretunal
4 der
-
an F a n vM VV
e resistance of steel at
4S, nil sted 3, add-resistant steel I H IS NV,
sue, H I
09.5% Al, an&an Al alloy with 3% Ca and 1% Mg to cor-
rodon caused by aq. solas. of (NB~)6S and (NE4)_%, and
by vapors of these solra, has been studied at room t=P-
'
(9 atm). The cmmd. materiab
(atm. prenure) and at 100
were uniform, gus welded, or elec. welded. The steels
IHISN9 and 1113i aud 09.5% Al we resistant at room temp.
'9 can be
and atruised temp. and pressure. Thesteell.111AN
A!_ use4 for the construction of every type of when n
=
ld
Th
Al
ll
bA
d
ith 3% C
d I ;M
7
V
--
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u ar
we
e
e
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oy w
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~ -
-.-
&t'4 terap.7 it CAU b4 U9#4 to Construtt lam'w.
ro-
tective layer. The steel St 4S is less resistant to Common
Phen the *$n. Is stirred and in contact with air or at ralsed
temp, and pressure.
4
I'All"A. J.
Repair of wheel tractors in the district repair shop-q of machine-tractor
stations. p. 235. (MechQnisace Zemede3stvi, Vol. 7, No. 10, May 2957.
Praha, Czechoslovakia)
SO: Monthly List of East European Accessions (EEAL) LG, Vol. 6, No. 8, l-,57. Uncl.
FASKA-, - L.
How rublic aryrobation ef new Ivil~Pngs shculd be -rj-,,arjzed. 1. 121
STAVBA. (Poverenictva stavr!pbnictva) Bratislava,, Czeeko:!lov&kia, Vol.
6, to. 1.1, Nov. 1959
Monthly List of East Eurcrean Acnes3icns (EEAI), LG, Vol. 9, no. 1,
Jan, 1W
uncl.
Ccr r r! n
1A ustav 4:-il L- vn~
un-
SC i. - - . ons Li Lj:
~Ic-~ 5, nt De c t, , r --, ~
~ASv-,f~c V, N - I -
A UTHOR Nauman, F.
TITLE: The Fourth Conference of the Foundry jiorkers of the 7D,-,
k',.-hetve"rtaya konferentsiya liteyshchikov r7oR)
PERIODICALt Liteynoye proizvodstvo, lq58, Nr 12, pp 25 - 27 (VSR)
ABSTRACT: The Fourth Conference of Founders was orpanized in May 1q58
by the Leipzig Chamber of Engineering together with the
Leipzie,,skiy Tsentral,nyy institut liteyncy tekhniki (Leip-
zig Central Institute of Foundry Fnglneerin4 and the Litey-
nyy institut rornoy akademii (Foundry Institute of the Mining
Academy) at Freyberg, The Conference was attended by 6~O
specialists, workers from industrial enterprises, institutes
and representatives from the US'3R, Poland, 'Tungary, Bulaaria,
Czechoslovakia and the -'Ierman Federal 5epublic. The Confer-
ence )-eard the following reports. P. Nauman, Director of the
Leipzig institute of Foundry Fnglneering, on "Vinys to In-
crease the Acc!iraev of Castings", D. P. lvanov, Doctor -)f
Technical Sciences, on "Scientific rrol)leris in the Progrers
of Foundr 7ractice"; Yosif Chikell, 'Frofessor of the Foundry
Institute of the Freyt~erg Academy of '-'ining, on "Spl,,erical
Specimens for the Investigation of Cast-Iron Shrinkapre".
Card 1/2 Cerlard Hertz, Technical Director of the Leipzig Tnstitute
SOV/129-59-12-l-'/21
The Pourth Conference of the Founlry ',orkers of the ~DF
of _7oundr.~,, Lngineering, on "Frospectr of Inducticn Smelting
of Cast Tron in the CDW-; Yosif Chilrell and `.'osif Shturm on
"Results of Investigations on the Chemical Coin,~,osition,
Structure and .'.'echani~al Properties of bray iron"; Helmut
Grom on 'Positive Results in the Correction of Deficiencies
in Castings Nitlfi the Use of Toxidic Tesins-i 'alter Feyke
and ~Georr., Arand on 'Stqbility of Fermanent 1,~olds`; Yo8tf
Cliikel, and Flaus Kvappe on "Thermal Re&enerntion of AASte
~~Iixtures by Organic Strengthering !.1aterials"; 'leorg r3eve-
nezi and Yoettn Stsekeres or Treparation and Froperties of
.Mold Sand", [fans Voykcs on -Economics in the "roduction of
Steel Diecasting'!, N I raskaoheyev on "--cono~,,iical Methods
in Pattern ProductiZ_n~, ffe-rman *;~_sinier on "Casting of Steel
in 7bill-Mlolds"-, Nalter Fayke and Karl Lange on "Experience
in Casting Automobile Parts from Cast-Iron V.'ith Spherical
Grapl,ite'; herd Sharf on "Practice in CI)emical Hardening of
Molds"; '.!arton Zol ti on "Production of Large-.~ize Cylinder
Blocks for Diesel _'ngines". There are 3 photos, 2 diagrams,
2 graphs and 1 table
Card 2/2
PASUL, G. [Pascal, G.)
I*thod of determining the permeablUty of a porous medium.
Izv, vys, uchebe zav.; neft' i gaz 3 no.4:49-53 160. (NIRA 15:6)
1. Nauchno-iseledo" y Institut po bureniyu i dobyche,
Kympina (I*K4F.Ye.)j%;VkaYa Jjarodnaya Respublika.
(Rocks-Permeability)
PASKAL. G.
.I- ~
Calculating losses and pressure of a ascendirg flow fluid In
drilling with gases. Haft.khoz. 36 no.8:35-37 Ag '58.
(MIRA 11:12)
(Oil well drilling) (Gases. Compressed)
FASM I Go
Approximative method of analyzing the pressure build-up ct.-rvv- in-
the case of a two-phase water-oi.1 inflow. Izv. vys. Vcheb. zav.;
neft' i gaz 3 no.1:57-63 160. (MIRA 14;10)
1. Nauchno-isaledovateliskiy institut po bureniyu i dobyche,
Kympina (I.K.F.E.), Rumynakaya Narodnaya Ilespublika.
(Oil reservoir engineering)
IPASKU, G.
Tran ient conditions of gas flow in mnin . Dokl- AN SSSR 137 no.3:
541-5" PIr '61. (MIRA 14:2)
1. Nauchno-4asledovatellAiy institut po bureniyu i. dobyehev Kympina,
Rumpskaya Naroduaya Respublika, Predetavleno akademikom L.I.
Sedovym.
(Gas flow)
ACCESSION NR: AP401996T 4/0020/64/154/006/1299/1302
AUTHOR:-_jask44-0~
TITLE*. A method for the determination of the hydrodynamic coefficient
[of friction] for gas flow in gas mains
SOURCE: AN SSSR. Doklady*, v. 154, no. 6, 19.64, 1299-1302
TOPIC TAGS: hydrodynamic friction coefficiek, gas flow., gas main,
hydraulics, friction coefficient, gas fricti,on coefficient
ABSTRACT: In a previous work (DAN 13T, no- 1 (1961)) the author has
derived an exprOssion for the transitlonal~gas flow in mains when
the valve at the terminal point Is suddenly closed-. This expression
peradts the determination of the hydrodynamic friction coefficient by
measurement of the pressure at the terminal point upon sudden c2oning,
of the valve. This method Is Inconvenient as It requires an interrup-i
tion of the normal run of the main. In the present paper,, the opera-
,tion Is considered with a constant gas consumption at the terminal
and a stationary.gas flow In the main. ZVresslan for the friction
i:;rj1/2
ACCESSION MR: AP402996T
coefficient is obtained which In Widlar to that or the rimt mer.
Orls. art. has: no r1gums., 14 owatlans.
ASSOCIATION: ~Astltut prikladnay mekhudkl,, JMc"st,,,- HPR (Institute
i.11. lor App3.1*d. ftchenles)
J T
~
DATRl~ ACQ;
SUBMITTED. 10*42, 23Xu44
WMs OD
-~,
.
1
,
S PJW SOVs. 002 VMM.- 003.
M COM PH
NP
.
PASKAL, G.
- ---------Determininl7 the critical rate of a drill cutting in gas dril2-,ng.
Izv. vys. uct.eb. zav.: neft' i gaz 4 no.,,,:59-61 '61. (M.7k?J. 15,21'
1. Nauchno-issledovatel'skiy Institut po bureniyu i dobyche nefti i
gaza (IKFE), Rumynskaya Narodnaya Respublika.
(Oil well drilling)
PASKAL, G.
Approximative determination of loss and pressure of an ascending
flow in gas drilling. Izv. vys. ucheb. zav.; neft' i gaz 4
no.4:39-45 161. (MIRA 15:5)
1. Nauchno-isoledovatellskly institut po bureniyu i dobyche
nefti i gaza (IKFE), Rumyanskaya Narodnaya Respublika.
(Oil reservoir engineering)
jAUTHOR: Paskal, G. SOV/93-58-8-8/15
TITLE: --r-st"15ation of Gas Consumption and Pressure in an
Ascending Current When Drilling With Gas (Raschet
raskhodov I davleniya voskhodyashchego potoka pri
burenii s produvkoy gazami)
PERIODICAL: Neftyanoye khozyaystvo, 1958, Nr 8, PP. 35-37 (USSR)
ABSTRACT: The author states that American and Soviet scientists
(Ref. 1, 2, 3, 4) have already established the advantages
of air drilling for certain formations, but that they
have not yet furnished exact data on the selection of
suitable compressors for this type of drilling. The
determination of gas consumption and pressure in an
ascending stream which will assure efficient removal of
cuttings in the process of air drilling depends on many
factors, including the concentration of cuttings in the
gas stream, the shape of the cuttings, the specific
gravity of the cuttings and the geometric properties
of the well. The author proposes that the motion of
the cuttings picked up by the gas stream at a point x
from the hole can be calculated with the aid of the
Card 1/2
SOV/93-58-8-8/15
Eptimation of Gas (Cont.)
following formula
du f P~g u)2 _ (1 g)g
dX __dsh ;7.v ~s
where uis the speed of the cuttings along the axis
of a strictly vertical well, f - cross-sectional area of
a sludge particle, Y sh - specific gravity of the
sludge, P shape factor of the sludge, )j - gas ve-
locity, g specific gravity of the gas, and g -
acceleration of gravity. There are 7 references, 4 of
which are Soviet and 3 English.
1. Drilling machines--Operation GaseS--'OrS'_jr'Mt.~_IOr'
3. Pressure--Determdnation 4. M-P t he,)m t i c s
Card 2/2
PASKAL Kh. (Pascal, H.)
Transient flow of gases through main pipelines. Pt. 29
Rev mec appl 8 no. 6: 1017-1037 163o
PAS UL ,V.A.
Pert i lizers f*rjr scwinv win ter crop8 along w I tl~ L~ . : -7.1,~de ~14 i.
26 no. e:,~ 5 .4 7 1 (.j ., (~. - . ,, - , .
I f, .:- -11 ~ : ~ j ,
1. Moldavskiy nauchno-issledovatel'skiy institLt Rprokhimii i pochvu-
vedeniya imeni akademika Dimo.
PASKALI, Yu.I.; SAVITSKIY, K.V.; RAZIIEV, V.P.
Some characteristics of the hardening of aluminum- an cys
containing copper and magnesium. Izv. vys. ucheb. zav.;
fiz. 8 no.6:166-167 165. (MIRA 19:1',
1. Sibirskiy fiziko-tekhnicheskiy institut imeni V.D. KUznet.so,,a.
Submitted December 30, 1961..
PASKALI YU.I,,; KOBZAR', N.Ya.
Change in the electric resistance of partially aged Duralumin in the
oourse of its plastic deformation. Izv. vys. ucheb. zav.; fiz. 8 no.2:
181-182 165. '*MIRA 18%7)
1. Sibirskly fiziko-tekhnicheskiy Institut imeni Nuznetsova.
88049
S/l3q/6o/ooo/oo6/oi6/032
E073/E335
I Li 1-5
AUTHORS: Savitskiy, X.Y., Paskal, Yu.1. and Gvozdeva, T.I.
TITLF: on Thermacyclic Ageing of Duralumin
PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy,
Fizika, 196o, No. 6, pp. 109 - 112
TEXT: It is known that in a number of alloys creep under
cyclic temperature fluctuations is different from that under
isothermal conditions. I.A. Oding arrived at the conclusion
that the observed reduction in creep due to cyclic temperature
fluctuations in associated with the formation of alternating
temperature stresses and with activation of the process of
ageing. V.S. Yermakov (Ref. 2) has studied the influence of
cyclic heat-treatment on the dispersion decomposition of the
alloy )V,-J,3~ (E1-437). He found that cyclic heat-treatment
accelerates the thermocyclic ageing of the alloy. To some
extent the effect of cyclic heat-treatment is analogous to
the effect of an external alternating load and to the effect
of ultrasonics (Ref. 3). The effect of thermocyclic ageing
was also oboerved by the authors of this paper in lead (Ref.4).
Card 10-
8800
S/l39/6o/O00/o6%/ol6/O32
E073/E335
On Thermocyclic Ageing of Duralumin
Apparently, thermocyclic ageing is due to the effect of
temperature stresses and strains caused by it and has a
number of common characteristics with strain ageing. In
this paper the influence of cyclic heat-treatment on the
early stage of the process of ageing of duralumin A-j (D-1)
is investigated. Wire specimens of 1 and 2 mm dia. were
investigated; the microhardness was measured on 2 mm dia.
specimens on. which a facet about I mm wide was ground along
the axis of the specimen. This facet was chemically
polished in a mixture of nitric and phosphoric d,xus with
water and glycerin. To prevent blackening of the ground
surface as a result of quenching, the quenching was effected
in acetone. The electric resistance was measured on the
I mm specimens; most of the I mm dia. specimens were quenched
in water. The quenching was after a 2-hour soaking at
305-510 OC. The cyclic heat-treatment was effected from
-196 liquid nitrogen) to +20 OC (water) and from -196 to
+150 C (paraffin). Heating and tooling were effected by
Card 2/8
88049
S/139/60/000/oo6/ol6/032
E073/E335
On Thermocyclic Ageing of Duralumin
simple submersion. The soaking time in the heating and
cooling media was selected in such a way that the entire
volume of the specimen should have time to assume the
temperature of the medium. The duration of the cycle was
30-35 sec. For comparison the change in the properties of
identical,Zpecimens subjected to isothermal holding at +20
and +150 was also determined. Each experiment was
repeated on 3-5 specimens; the property-treatment time curves
were measured twice and good agreement was found to exist.
The microhardness was measured with a (PNT-3) instrument
with a 200 g load. The variance lid not exceed 5% of the
measured value. The electric resistance was measured b X means
of a bridge. The results of the treatment -196 to +20 C and
vice versa are given in Fig. 1Z the properties are plotted
as a function of the holding time. In 2Fig. 1 the changes are
plotted of the microhardness (a, kg/mm ) and of the specific
electric resistance (b 1pDcm) for thermocyclic (as a function
of the number of C oc _4A +200C cycles) ageing and isothermal
Card-3/8
88OL9
S/139/6o/ooo/oo6fol6/032
E073/E335
On Thermocyclic Ageing of Duralumin
(20 OC) ageing (as a function of holding time, min.).
Curves I and 5 represent thermocyclic ageing after quenching
in acetone; Curve 2 - isothermal ageing after quenching in
acetone; Curve 3 thermocyclic ageing after quenching in water,
Curve 4 isothermal ageing after quenching in water. The data
for the thermocyclic ageing were plotted taking into consideratio
the full duration of the cycle. Comparison of the thermocyclic
and isothermal ageing indicates that the former accelerates the
process of dispersion hardening, which is particularly pronounced
during the first cycles. The hardness curve shows a pronounced
maximum with a subsequent drop and passing through a minimum
it shows a further slowing down of the hardness increase;
the maximum microhardness is lower than that obtained in
isothermal ageing of identical specimens. The electric
resistance changes in a similar manner to the microhardness.
Whilst in water--quenched specimens pronounced maxima and
minima of the electric resistance was observed,on acetone-
quenched ones these were not very pronounced. In Fig. 2, the
Card-4/8
88049
S/139/6o/ooo/oo6/oi6/O32
E073/E335
On Thermocyclic Ageing of Duralumin
results are given of comparative measurements on cyclically
heat-treated (1300 cycles) and naturally-aged specimens with
the same hardness. The change was investigated in the
hardness of both batches during holding at +150 OC.
The change in the microhardness was qualitatively the same
in both cases, but the specimens which wereothermocyclically
aged had a higher thermal stability at 150 C. In Fig. 2
Curve I relates to thermocyclically-aged speci2ens, Curve 2
to isothermally-aged specimens (hardnesskg/mm versus
duration ' ming- In the case of cyclic heat-treatment of
-196 e 1150 C activation of the ageing process was observed
only during the first cycles of the heat-treatme2t. Fig. 3
shows the changes in the microhardness (a, kg/mm ) and in the
electric resistance (b, pAcm) as a function of the treatment
time, min, and, respectively, the number of cycles for thermo-
cyclically (496 150 00 and isothermally (+150 OC) aged
specimens. The Curves I and 3 relate to thermocyclic ageing,
Card-5/8
BE-0-49
S/139/60/000/006/o!6/032
E073/E335
On Thermocyclic Ageing of Duralumin
Curves 2 and 4 relate to isothermal ageing.
There are 3 figures and 5 Soviet references.
ASSOCIATION: Sibirsk'.y fiziko-tekhnicheakiy institut pri
Tomskom gosuniversitete imeni V.V. Kuybysheva
(Siberian Physicotechnical Institute of
Tomsk State University imeni V.V. Kuybyshev
SUBMITTED: juiy 4, ig6o
Card 6/6
.PASKAL',, Yu.I.; SAVITSKIY, K.V.
Some characteristics of the kinetics of natural aging of
DI Duralumin. Izv. vys. ucheb. zav.; fix, 8 no.D170-
174 165. (MIRA 18;3)
1. Sibirskly fIzIko-tekhnicheekiy institut imeni akademika
Kuznatsova.
BISTROV, Yu.G.; FASKALI, Yu.1.
Electronic device for controlling cyclic heat treatment.
Priborostroenie no.3-.26-27 Mr 162. (MM 15-4)
Mlectronic control) O*tals~--Heat treatment)
AUTHORS: Kagan, Ya. I. and Paskal Yu. I-.,- SOV/126-6-2-29/3 4
TITLE: Reduction of the Coer~'1"v'-e'-'P8r'ce During Low Temperature
Treatment of High Speed Steel (Snizheniye koertsitivnoy
sily pri obrabotke bystrorezhushchey stali kholodom)
PERIODICAL: Fizika Metallov i Metallovedeniye, 1958, Vol 6, Nr 2,
pp 364-365 (USSR)
ABSTRACT: In the process of magnetic investigation of structural
transformations in high speed steel during various heat
treatment cycles, which include low temperature treatment,
certain data were obtained which indicate that low
temperature treatment influences the coercive force of
steel. The values of the coercive force of steels which
were subjected to differing regimes of hardening and
subsequent low temperature treatment are entered in the
table herewith, each value being the average of the
measurements on three specimens:
Card 1/4
SOV/126-6-2-29/34
Reduction of the Coercive Force During Low Temperature Treatment
of High Speed Steel
Card 2/4
Method of Hardening Coercive force
after hardening
Hard8ning in oil from
1250 C 62.7
Hardening from 12500C
with i8othermal annealing
at 560 C 66.6
Coercive force
afteg holdin6 at
-120 C for 30 mins
55.3
60.1
It can be seen from this table that low temperature
treatment reduces appreciably the coercive force of the
steel. In Fig.1 data are graphed of the reduction of the
coercive force as a result of cold trsatment at various
temperatures in the range -40 to -183 C; for comparison,
in Fig.2 data are graphed of the quantity of martensite
which forms at the same low temperature treatment
temDeratures. The quantity of martensite and the coercive
force were determined on the same specimens. Comparison
of the two graphs shows that the reduction in the coercive
SOV/126-6-2-29/34
Reduction of the Coercive Force During Low Temperature Treatment
of High Speed Steel
force will be the largerl the larger the quantity of
martensite which formed. Further investigations have
shown that repeated low temperature treatment, which
does not bring about additional austenite decomposition,
will also not bring about a reduction in the coercive
force. This reduction in the coercive force is closely
linked with austenite decomposition. However, an increase
in the quantity of martensite in the steel should not
bring about a reduction in the coercive force.
Apparently, the reduction in the coercive force is due
to a reduction of the internal stresses in the steel.
In other words, it can be assumed that structural stresses
which occur during decomposition of the austenite caused
by low temperature treatment are of a sign opposite to
the stresses remaining after hardening and it is this
fact which leads to a reduction of the overall stress
state of steel. Such a reduction in the internal
stresses is in accordance with data on improvement of
Card 3/4 the plastic properties (ductility) of steel as a result
SOV/126-6-2-29/34
Reduction of the Coercive Force During Low Temperature Treatment
of High Speed Steel
of low temperature treatment.
There are 2 figures and 1 Soviet reference.
(Dote: This is a complete translation)
SUDAITTED: March 11, 1957
Card 4/4 1. Steel--Hardening 2. Steel--Heat treatment 3. Steel--
Magnetic properties 4. Steel--Stresses
SAVITSKIY, K.V.; FASKkLI, YU.I.
Investigating grain grovth during the proosise of the cyolle heat
treatment of tin. Isel.po zhropr.splav. 8j214-217 162.
(MIRA 16:6)
(Crystals-Growth) (Tin-heat treatment)
B/139/60/000/005/002/031
EO73/El35
AUTHORS: Savitskiy, X.V., Paskall, Yu.I.,, and Antonoval N.N.
TITLE: On Certai atu~'e-so-f---th-e--P-1a-s tic Deformation of
j Lead and Tin Vring Cyclic Heat Treatment W
PERIODICAL: Izvestiya vysAikh uchobnykh zavedenly, Fizikaj
1960, No. 5, pp 8-12 (+ 2 plates)
TEXT: The aim of the paper was to elucidate phenomena which
are characteristic for thermal fatigue and the possible occurrenee of
plastic deformation of lead and tin during cyclic heat treatment.
Specimens of 99.98% pure lead and 99.90% pure tin were out from
pressed rods, The lead specimens were rolled into 2.5 mm thick
strip, whilst the tin specimens were cylindrical, 7 mm in diameter
with a facet ground along the generating line. The length of
the specimens was 3.5 mm. After annealing for two hours
(Pb at 200 OC, Sn at 150 OC) the specimens were polished as
follows. The lead specimens were polished chemical -I-y in a
mixture of perhydrol and acetic acid, whilst the tin specimens
were polished electrolytically in a mixture of chloric and
cetic acid. In both metals the grain dimensions were between
9
00 microns and 1.5-2 mm. The heating was in paraffin or
Card 1/3
S/139/60/000/005/002/031
EO73/S135
On Certain Features of the Plastic Deformation of Lead and Tin
during Cyclic Heat Treatment
colophony to 200 OC (lead) and 150 OC (tin); the cooling was in
acetone at +10 OC and water at 0 OC (regime I) or in liquid
nitrogen (regime II) and this was followed by heating in acetone
at +10 OC after the cooling in liquid nitrogen (regime III).
The cooling and the heating were by simple submersion. The selected
holding times were such that the entire volume of the specimen
should attain the temperature of the medium. The duration of the
oycle at various regimes was between 1+0 see and 1 min. The
5urface of the polished specimen was studied on a microscope and
on a,microinterferometer. 35 thermal cycles according to
regimes I and II and up to 300 cycles according to regime III
were carried out. Daring further cyclic heat treatment the
observations became difficult due to corrosion. Between 5 and
10 specimens were used for each regime. It was found that as
a result of heat treatment characteristic features of plastic
deformation (inter-granular shifts) occur in lead. In tin the
role of the grain boundaries is very great; the recrystallization
Card 2/3
S/139/60/000/005/002/031
E-b-73/E135
On Certain Features of the Plastic Deformation of Lead and Tin
during Cyclic Heat Treatment
processes reduce the magnitude of temperature stresses which
occur during heat treatment. Formation of grain boundary
networks has been elucidated. In further experiments 'with
cyclic heat treatment of lead containing 1.5% Sb it was found
that the hardness of this alloy increases rapidly as a result of
cyclic heat treatment. This is attributed to the acceleration
of the process of dispersion hardening under the effect of
temperature stresses.
There are l1+ figures and 12 referencess 5 Soviet, 1 German,
and 6 English including 1 translation.
ASSOCIATION: Sibirskiy fiziko-tekhnicheskiy institut pri Tomskom
osuniversitete imeni VS. Kuybysheva
Siberian Institute of Physics and Technologyat
f
Card 3/3
SUBMITTED:
v
November 27, 1959
S/139/60/000/005/002/031
E07YE135
On Certain Features of the Plastic Deformation of Lead and Tin
during Cyclic Heat Treatment
processes reduce the magnitude of temperature stresses which
occur during heat treatment. Formation of grain boundary
networks has been elucidatad. In further e?cperiments with
cyclic heat treatment of lead containing 1.5% Sb it was found
that the hardness of this alloy increases rapidly as a result of
cyclic heat treatment. This is attributed to the acceleration
of the process of dispersion hardening under the effect of
temperature stresses.
There are l1+ figures and 12 referencest Soviet, 1 German,
and 6 English including 1 translation.
ASSOCIATIONs Sibirskiy fiziko-tekhnicheskiy institut pri Tomskom
osuniversitete imeni V.V. Kuybysheva
Siberian Institute of Physics and Technolo~y at
f
Card 3/3 msk Utate University Im-eni V.V. AUYDysnev)
SUBMITTED: November 27, 1959
S/119/62/000/003/009/009
D201/D303
AUTHORS: Bystrov, Yu.G., and Yaskall, YU.I.
I----------
TITLE; Electronic controi instrument for cyclic thermal
processing
RICRIODICI,L: Friborostroyeniyev no. 3, 1962, 26 - 27
TBXT: The authors describe an electronic instrument cosignea by
them which permits setting the aelay in both heating and cooling
substances and for control of transfer of the sample irom one aie-
dium, to the other. The electronic control instrument consists of
four interconnected tine relays, all of the same type. Each of the
relays represents an ordinary wide-rangep with the time constant
determined from the formula T = 50 RC. The thyratron 77 -1-0,1/0,3
k'TG-1-0.1/0-3), is used instead of a vacuum tube for the relay oTe-
ration. The descriDtion of the circuit and its operation is Eiven
and it is concluded that with an adequate number of contacts in th3
contaci bank of eleciromagnetic relays, the relay may oe used fo.-
controlling widely diversified classes of output stages with stabi-
Card 1/2
"-r S' k ~4 I I x3, -r'
MIMS- r ra. I. " a ka I, , Y'-1. 1. 3 --,-1 2-2S/ 7
TITLE: A Differential Ylethod of Vleasuring the Aii-owit of the Paramagmetic
Phase (Differentsial'nvyy metod izmereniya kolichestva para-
rmpitnoy razy).
PERIODIC.U! Zavodskaya Imaboratoriya, 1957, Vol. 93, Nr 12, pr. 1455-1456 ( uSSR)
ABSTRACT: The uhagnetic-ballistic method of detemliing the content of the ra-
--miagnetic phase in steel is based o-z the rell4mown formula:
4 Tr Is - LTI m .100, 4here P% Ienctcs the voluwe-nercentup.1 con-
4WIS
tent of the .)aranz,,Znetic pl-Arise in stee" , 4Trl, - the magnetizbtion
intensity of the ferromagnetic phase, a%d 4i',Iw - the iragnetization
intensity of the steel sarnple. Fc;r the stanaard sample, 1-hich ha3 a0
4rIM-
-magnetic phase, the expresslon: 47TI 100 is ob
taired, where Vile is the magnetization intensi r of the sta-ndard.
As the values inserted in the latter fornula can be measured differ-
ently, it might happen that grave errors are cornitted in the deter-
C'-. X-0 1/ rination of the value P~, iihich may hem be denotes as -JP and may
A D4,fftreritial Method of Yeasuring the Amount of the 32-1i--25/71
Pbase
Ftmvant to = 1 02 or PP;6 = 102~,). In thwis m3a P~' (4 t 4-06)~,,, is ob-
tained. By the proper shixnting of the ~;olvaricnrieter, i.e. by insert-
ing various coefficients of this shunting, it is possible to equa-
1141ze the error. Fcr tbia purlose a P,,i.l ~;rllistio device is re-
c~%r!-_nended, the Aring circuit of Aiich Is given. With its aid the
direct detemrination of the value (47fl, - 4'-1,) is possible. The de-
vice consists of bn electroragnet, a Dallistic galvanometer,
2 -measuring coils, and 3 resistances, by means of .,bich shunting of
the ballistic galvanometer can be carrie?, cut. There is I figure.
A'_:~-:)OCLATICN- Khor'),cov Elect romechanica 1 Plant ~Khar'l_ovskiy elektromekhanicheslkiy
zavod).
~V.AlLkBLE: Library of Congress
(".1r1j /.
:~ 1;. 1. Paramagnetic phase-Measuring-4-lethod
-1 ; , . I-! .
1, ~ , i - ~ Q H [ ,, 17 ~
iII- iI-'I WAN. Ya.j.; MKAL'. Yu.j.
............
Differential method for quantitative neavirement of the paramagnetic
phase. Zav. lab. 223 no.12:1455-1456 157. (MIRA 11:2)
1. KharIkovekly elektromekhanichaskiy savod.
(Steel-Metallography) (Magnetic measurements)
i:LS!KA1XV,, D.
nPreparation for Fulfillment of the Irrigation Plan." p. 21,
(KOOPERATIVNO ZDWELIE, Vol.10, No. 1, Jan*.,.1955, Sofiya, Julogaria)
SO: Monthly List of East European Accessions, (EFAL), LC, Vol. 4
No. 5, Mav 1955, Uncl.
PA5KALEV, D.
"Holiday of Abundance." p. 20,
(KOOPERATIVN0 7EXE)ZLIE, Vol. 9, No. 10, 1954, Sofiya, BISaria)
SO: Monthl.- List of East European Accessions, (EEU), LC, Vol. 4
No. 5, May 1955, Uncl.
PAS"' LEV, D.
"Construction of Block Channel Systans." p. 18,
(KOOFEIMUD Z-a-ZiLLIE, Vol. 9, No. 10, 1954, SofiYa, Bulgaria)
SO: honthly Adst of Eaat European Accer.8ions, (EEAL), LC, Vol. 4
No. 5, FaY 1955, Uncl.
nSUIEV, D.A.
The riev irrigation technique., and effectiveness of capital
investments. Inf biul rastenie makh 6 no*4:3-9 Ap 963.
PASKALEVP G.
5, *',~' eT .
ji,le : - ,~XO - 13 -~: 1,rltl~ 1 tr. thE, movement ~,f e1 - Lrf L -
nve.' L P' M.~~ . -U.: 7-~ PdaG in it F-1 -),,r-l-v I nr . 1.;~ -, - -, I -'
- , , I
1. ChPL~ r rf o),alyt.1c W.th AJ)j-,hOrl ~,
. .- i ~ ~,I-- . I . - +,
I I r I I - - ~ _, z ~ 11 - - 5
Profe 7, c-)r " , '~i r i I ; oi .
CHOBANOVP IV.; ~A�M,~V, G.
'. 02
On the differential equation Izv nat inat BAN 4 no.2-
75-79 160. (EEAI 10~9)
(Differential equations)
1.1560046
KC-w-:--TP6M09 SoURCE 3 BU/0011A5/018/04/0339/0342
AUTHOR: Trandafelov, D.; Mihail0val D.,-,,,
CRGt Pharmacautic Instituteg Sofia
TITLE: Investigation of the system In sup 3 sup 4--Na sup +(K sup +)-OH sup
sup --H Bub 2 0
SOURCE: Bulgarska akademiya na naukite. Doklady, v. 18, no. 4, 1965, 339-342
TOPIC TAGSs Indium compound, physical chemistry property, solubility, ionization
AB57RACT: The problem of the composition, proporties and,
in particular, solubility of basic motel &&Its that do not dissolve easily
cannot be satisfactority solved by means of preparations or by the classical
methods of physico-ohomical analysis. The difficulties stem primarily from
the circumstance that these basic *sit@ are obtained as exceedingly fins,
disporsed precipitates and that It is not possible to Isolato then as
preparations. The composition and properties of a basic salt undoubtedly
depend on the composition of the system in which the salt to precipitated.
The authore assumed that the heterogeneous system, preol*tate of basic aelt
card 1A
L 15600-66
AGC M: AP6008209
-'saturated solution, cannot be completely characterized by the activities of
the metal cations participating in the composition of the basic hydroxide,
hydroxyl and acid anions in the sense that the cation which is introduced with
*'neutral electrolyte' will produce a specific effect on these activities.
Inasmuch as the heterogeneous system can be studied when introducing a 'neutral
electrolyte' with a siolected cation, the date obtained will characterize
precisely the action of this cation, other conditions being the same. One may
also assume from more general considerations that the precipitate obtained at
first should have a composition close to In(OH)C12, i.e., a basic salt richest
In 016. Proceeding from the above assumptions, the systems
-OH--H20 and 10*~-r-Cl--OH--Hp were experimontally investigated by applying
.the method given in pe or by N. V. Aksolrud and V. B. Spivakovakiy (Zhinh,
1958p 19580 No 8, 17M. Four series of Indium trichloride solutions were
prepared by dissolving the metal indium (purit7 99.9~ p. a.) In hydrochloric
!acid p. a. (Merck)., The study of the *pure@ of orthogonal proSections of
Isoconcentrations of the above mentioned heterogeneous systems five minutes
after their preparations show that the curves differ radically In character
depending on the nature of the cation of the $neutral electrolyte' used. The
,ef.Foct produced_ by :t~o cations of the other iestale belon&S to the allali
Card 2A
L 15600-66
ACC fiRt AP6CM09
group is another problem warranting attention. The paper vas submitted by
N. Pancheyt Cccf"epo~ding Fauber Bulgarian Acaft"y of Sciencest U December 1964.
Orig. art, hao:4 figures and 2 fomulas. ZJPR-S/
SM CCD3 1 07 SMM DAM s norm / OrH R" 1 001 SbV REY 8 OD9
Card 3h
TIMO T, V?
t n It f; i ir , "MI --,iv:Iiil-. -It-del 71:z snr;. GI. !--nr:
PASFUMEEV, G. ; CHOBANOV, 1.
Other Quadratures of the hypergeometric differential equation . p. 1.
GODISHNIK. HATEfRATIKA I MIKA. Sofiia, Bulpria, Vol. 50, no. 1, pt. 2
1955/56 (published 1958).
Uncl.
PASKALSV, 0. ; CHORANOV, I.
----------------
On the hypergeometric differential equation. P. 31
WDISHNIK. HATEMATIKA I FIZIKA. Sofila, Bulgaria, Vol. 50 No. 1, 1955/56
I
kpublished 1957)
Monthly Ldet of gnat Accession (EF,AI) LC, Vol. 9, No. I January 1960
Uncl.
PASYILEV, G. ; CHOBANOV, I.
A method of L. Chakalov and the bypergeometric differential equation. p. 43.
GMISHNIK. MATERHATIKA I FIZIKA. Soffla, Dulpriag Vol. 50, no. 1 Pt. 2
1955/56 (published 1958)
Monthly List of East Accession (EEAI) LC,Vol. 9, No. 1 January 1960
Uncl.
PASFALEEV, G. ; CHOBANOV, 1.
An examination of Riceati differential equations by N.V. Sakharov, p. 59.
OODISHNIK. HATERHATIKA I FIZIKA. Sofiia, Bulgaria, Vol. 50, no. 1 pt. 2
1955/56 (published 1958)
Monthly Idst of East Accession (EEAI) LC, Vol. 9, No. 1 January 1960
Uncl.
PASKAIFIV, 0. 1 CHOPANOV, 1.
Queetion on intergration of the differential equation of J. Halm. p. 61.
GODISHNIK. HATERHATIKA I FIZIKA. Soffia, Bkilgaria, Vol. 50, no. I pt. 2
1955/56 (published 1958)
Monthly List of East Accession (EEAI) LC, Vol. 9, No. 1 January 1960
Uncl.
PISKALEV, G. ; CHOBANOV, 1. ; nOLAPCHIEV, B.
On the differential equation of J. Halm. p. 67
CIODISHNIK. MATEnATIKA I FIZIKA. Sofiia, Bulgaria, Vol. 50 No. 1, 1955/56
(published 1957)
Monthly I&st of East Accession (EEAI) LC, Vol. 9, No. 1 January 1960
Uncl.
-TIM(Aw
~, G.
On the distribution of n-unequal moves on the periphery of the circle. p. 127
GDDISFRIIK. KATEMATIKA I FIZIKA. Sofiia, Bulgaria, Vol. 50 No. 1, 1955/56
(published 1957)
Mon.thly Idst of East Accession (EEAI) LC, Vol. 9, No. 1 January 1960
Uncl.
KIUCHUKOV, Iosif; PASKAM, Georgil CROBOOV...
. piral
Om the geometry of the instrument used for cuttftg* conic.4p
gear wheels. Godiabnik kbim tekh 6 no.2t65-76 '59 (Fabif"'164).
3 2 8.50 7
/4 S-io 0 S/044/61/000/012/012/054
C111/C333
AUTHORSs Paskalev, Georgi, Chobunov, Tvan
TITLE: On an elementarily integrable case of the Abel differential
equation
PERIODICALs Referativnyy zhurnal, Matematika, no. 12, 1961, 28-29,
abstract 12B122. ("Godishnik Soflyak.un-t Fiz.-matem. fak.n,
1957-1958 (1959),.~2, Nr. 1, 183-192)
TEXTs It is shown which relations must exist between the
functions Yx) in order 5that the Abelian differential equation
yl = ~-> f)?(X)yv
Y. 0
be solvable in quadratures.
[Abstracter's note: Complete translation
Card 1/1
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,ccupi-11 193~49P _ar, 14% (91.6 p0r, V a VY
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t., Bass-fl-l* Itne,49-1-953 for 9*08neeT
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Ca.
/hilgaria./Military B-567
MUMN, M. . Mayor., Med Ser; author of an article
hronaximetry in the Rresence of Neuritis of
the Facial Nerve " (Voe=o Meditsinsko Delo, Sofia,
mar 61, -pp 77-8i~
(l
Bulgaria/Military B-558
MUM, H., Mayor/YAed Sery; author of an article en-
titfid-"Uo-~--c-erning the Diagnostic Poss#ilitiea of the
Electrocardiogram." (Voenno Meditsinsko Delo, Sofia,
may 61, PP 56-6o)
24
(1)
PASKALEV, M.P. (Bolgariya)
Myophony in neuritis of fa,,,ial nerve. 'lop. kL-., ftzict-~.r.
I loch. fiz. ku"It. no.6.548--552 163. (MIRA 17. ~A)
1. Tz voyennogo gospita',Ya v Plovdive (nitchalinik N. Pisarov).
L
SOURCE: BU/0Dll/63/0l8/0%/0339/0342
AUMOR: TrerxWelov,, D,; Hihailova, D. Faskalev ff.
CRGs Pharnaceutic Institute., -Sofia
11TIE: Investigation of the system In sup 3 sup *-Na sup +(K sup +)-OH sup --CI
sup --H sub 2 0
SOMCE: Bulgarska akademiya.na naukite. Daklady, ve l8v noo 4j, 19650 339-342
TOPIC TAGS1 Andium compou-,A., physical chemistry prqmrtyp solubilityv Ionization
ABSTRACT: The problem of the composition, proportion and,,
in particulary solubility of basic metal salts that do rA% dissolve easily
canhat.be astisfactarity solved by means of preparatjons or by the clossical
metbods of physico-ahamics.1, analysis difficulties stem primarily frox
the circumstance Vat these basic &site are obtained as:eZooodingly fine
;dispersed precipitates and that it Is not possible to Isolate then as
alt Undoubtedly
preparations* The c osition and properties of a basic a
depend on the composition of the By3t9m in which the salt in precipitated.
~t t of basic suit
!The authors assumed that the haterogensoum system, preelp 2.0
Card 1A
L 1560D-66
AM M i AP60=09
saturstea solution, cannot be completely Obiracterixod by the activities of
!the metal cations participating In the composition of the basic hydroxide,
-bydroiyl and acid anions in the sense that the cation sibich is introduced with
"alneutral electrolyte' will produco a specific aftect on these sctivitiet4-
'Inasmuch as -the heterogeneous system can be studied when introducing a 'neutral
'electrolytes with a. siolected cation,, the data obtained will eborattarisa
scisely -the action of this cation other conditions being the some. One may
also assume from mors* general considerations that the precipitate obtained at
should hove composition close to In(OH)Cl 1, 1 9.0 a basic "It richest
-2
in C11. Proceeding from the above assumptions, the systems
-07-H20And were *xparimentally investigetid, by applying
the method given It paper by W. V. Aksolrud and V. B. Spivaltovskly (&Wbs,
19583, 19% No 8j 1748). Four aeries of indium trichlorids solutions were
red by dissolving the metal indium rilty-99s9.5 jsc in hydrochloric
Preps PU
acid p. a. (*rak).- The study of the epures of orthozopal-Projections of
isoconcentrations of the -above zsention*d but# a a tons five minutes
Torneou . YS
After their preparation* show that the curves differ xudically. In aboractor
dep -the n
Onding on* sturo of the cation of +,he Inoutral 01*otrolytel used. 7h9
1.~f at prPkU9~04-- by be cations of -the other metals to the alkali
%
RUILT.* Dimitur., prof. d-r [dece&sed]; PASKALEV,.,~.
Possibilities of' obt&ining metallurvic coke from the mixture 4of
black and brown coal. lav,Inst khim BAD n0,8.-9-20 161.
Possibilities of utilizing the potassium-rich synnites for the
manufacture of electrodes for arc welding. 21-31
IAOIEV., Dimiturs, inzh.; PASKALEV, Nikolai
Obtaining the low-mwbon iron powder through the reduction of
charcoal ashes. Tekhnika Bulg 11 no-5:192-1-94 162.
3111L I
- I_AaA:jj~V, '017 0 V, 1'.
A - , . , - a: ;. -,: I-: ~~ 1, . Ili - I - .
, 1 'n ,
I K U .; I, ~. 14- .(3, ~, ~ )'. T, I ~! '.. .. - 5t ~ ~
I , Ok r 1 1 ., ~-i I - ; ii !t ~',)t , I' , t. - ' - 'l : ( - ~ , -1;' I .. 1.11,. r . ,: , ) .
SRAMKOVP St.; PASKALLIV,--.St.
For highest standard of living of the Bulgarian people. Trud i tseni
3 no.9:8-18 161.
(Cost and standard of living)
PASKAIZV! 7-- Bulgaria
rAcademic Degrees]
rAffiliation]
rSourcel Sofia. FU-viena. No 5. Sep-Oct 1962, pp 21-25.
rDatal "Some Data on the Completness and Exactness in the
Statistics on Reasons for Deaths In Bulgaria."
TWHOV, G.; STRATEV, Il.; PASKALEY. T.
Spreading mf cancer In Bulgaria, Suvrem. sod., Sofia 7 no.
1:16-28 1956.
1. Is nauchnolzaledovatelsklia onkol. inst. --Sofia.
(NEDPLASMS, statistics,
in Bulgaria. (Bul))
FASKUEV, Vladimir (-T:Ltov Veles, Marsala Tita 34)
HoWp~-, * the Nevendre deposits of talc. Tehnika Jug 16 no.12:
2161-2164 161.
1. Tehnicki rukovodilao rudnika tallm *Dines Mircev". Titov Veles.
F;I~SKA'I Vil if .
-77~ -j-, _- __ ~
( cev rrerce cf bent c- i te c layz-: ir t~ p Lu o Li s t rlIct . , . 't 7. ( ~iE( J"-.,L, ",; 1 -1 1 . ~ , - 51- )
`C : J-
Yonti.l,,. - ist of -;,.st -ccessicrs. ("EkL, iC, ',lo3 4. Yo. -', -,ure : ~ , "rcl.
MALINOVSKI, G.; I'A,5KATIV, ".,#
Analysis of depth distorti~n3 in stereophonic twa-chan-rel syste-ze
with phantom circ,iits. Izv fiz atom BAN 11 no.1/2s8l-86 163.
PASKALEV, Zh., inzh. (Sofiya, Bolgariya)
Improvement of the stereophonic effect. Radio no.5:55 My 163.
(~11RA 16:5)
(Stereophonic sound systems)
PASIKAISV, Zdravko _
Slementary components. Prir i znanle 12 no-7:15-17 S 959. (EXAI 9:10)
(Nuclear physics) v
PASKALEV, Zdravk o
Machine for memorlizing. Prir i znanle 12 no.10:23-24 D 159.
(EEAI 9:10)
(Memory)