lP I I HI-I  YRRSHOTA, N.N., inzh. [translator] ,.am a wvRw-6W'111!ftrt- sinking at Free State Ssaiplaas Gold Xining company (from wJournal of the South African Institute of Mining and Metallurgy'l no.11, 1938)o Shakht.strol. no.10:27-32 058. (MIRA 11:11) 1. Institut gornogo dale AN SSSR. (South Africa, Union of--Gold mines and mining) (Shaft sinking)  37937 8/08 62/013/001/002/012 B102YB104 AUTHORS: Kochenov, I. So, Voinov, ff. L., Yerehovao No No TITLE: Calculation and analysis of the thermodynamic cycle in an atomic power plant PERIODICAL: Atomnaya energiyal v. 13, no. 1, 1962, 38-46 TEXT: As existing methods of calculating the optimum reactor parameters for atomic power plants are still defective a new method has been developed as here described. Theyarameters and the absolute internal efficiency of the thermodynamic cycle of an atomic pqwer plant which includes two coolant loops$ a gas '-cooled C02 reactor and two vapor-pressure stages in the second circuit, are calculated. The efficiency is determined as a,function of the coolant temperature at the vapor generator inlet and outlet (T,, T 7), the temperature drops at the individual stages (6j~o the design of the regenerative prelheater and the feed water temperature, the pressure in the condenser turbinet the humidity content of the vapor and- the relative internal efficiency of the turbine unit,' Relations for the dard 1/* I 11f: ;",;I HAI HIM VT 1, F1I  S/08 62/013/001/002/01,2 Calculation and analysis of the... B102YB104 quantity (G%/D)(I Iout) are arrived at each of the six sections (800 % in- Fig. 1), G and D being flow rates of the coolant and the working substance, whilst -11 takes account of the heat losses and I are the coolant 2. enthalpies. For I(T) it is assumed that I - k 0 + k 1T +1k 2~ The equations of the i-s diagram and those describing.the pressu;re drops are formulated. The required efficiency is calculated from the equation, 19i = Hj(1 - a )/qi, where Hi is the temperature drop, q. the heat jyj conSUMDtion per kg of vapor, a i are the vapor losses and yj is the corresponding underproduction of energy-. In additiont formulas are derived.for the thermodypamic properties of water and water vapor which are well suited for numerical-,computations with electron computers. The dependenoea.of Ji on various.parametero..have been oaloulated by this means and the results are represented graphioallyl e.g.0 as a function of the condenser pressure, feed water temperature and gas temperatures T 1 and T7- The method and programming hav e been developed at Card 2  S/08 62/013/001/002/012 Calculation and analysis of the... B102YB104 the Institut atomnoy energii im. I. V. Kurchatova (Institute of Atomic Enerey imeni 1. V. Kurchatov). There are 9 figures.. SUBMI TIIED: Dec'ember 6, 1961 Pig. 1: schematic drawing of the vapor generator Legend:- 49S -high-pressure circulation pump; qH" -low-p~eessure circulation pump Pig. 2: temperature distribution in the vapor generatorl T-coolant, temperature, t water or water vapor temperature (0(1) Card  "Contributions To The Genctico Of The Silk I:orm (Bcmbyx 47,bri L.,, XIX. New Lata ':~ ihe "Recessive T'ultalunarll rharacter.11 (p. 813) Ly KosmImskii, F. A.. Institute ',If 211cology, :bscou State University, Ershova, N.F. and Guzeva, M. 1. Voron02h State Univi-r.-Aty. -LIN.C.CY, (Pi~~-!~Cjcheafldi Zhurmil) Vo:. `11, 1-.~,T. '.'o- 4 .~'O: Fi`EDECESM CF JOURNAL OF CrE  PANCHZNIWV, G,K.; SIXIOMIN, I.As; MAURINA, A,G,- BOVA 9, P, I mmmt I 014" old Separation of the stable hydrocarbon Isotopes by couniqlar current chmoical exchange in the gaseous phase. Part.1 [with English sum- mary In insert].Zhurefis.khim. 30 n0-9:2070-2076 S 1546. (KLU 9:12) 1, Moskovokiy gosudars tve=y7 uAiversitet imeni T.Lomonosovag (Carbon--isot4se)  "'Will IMIM illi ! A. h." EU., 11.14; ............ SE111OKM I.A.; MCIMMOV, G.14.; YFMHOVA Separation of carbon isotoper4 by countercurrent chanical exclu-tW,e in tho gas phaie. Part 2.- ZM)ct of atropm and ojvj&n. Zhtw. k1dia. 311 no.60409-1/#Il A ~1~3. WERA 16:7) 1, Moskovskiy gosudarstvenrqy universitet imeni Lomonooova, (Carbon isotopes) (Nitrogen) .(CxMn)  YER,~)NuVA. 0. A, Kozin. N. I. and Yershova. 0. E. "Development of a methad for detemininL. the 'oyicity of kernels of grain (millet) whic"a have thr4 Anter ;:rflei, Iii-ta pitaniya (Akad. n. cd. nauk ;.':;SR), Moscow, 1948, p - 3-5-118 SO: U-35056., 15 klarch 53, (Letopis 'Zhurnal Inykh Statcy, No. 13, 19k,9)  YERSHOVA, O.A. USSR "Modification of Certain Edible late Daring Their Storage Due to the Kind(,of Packing Materials." Thesis for degree of Cand. Technical Sol. Sub 8-DOG 50, Moscow Inst of National Economy imeni G.T. Plekhanov Summary 71. 4 Sep 52. Dissertation& Presentcd for Degrees in Science and Engineering in Moscow in 1950- From Vechernyaya Moskva. Jan-Dee 19501  [L--. I- ~ : i 1 !: ~ ;:, 11 ; :I! -: lil.fildltllt. III 11;1.j,,:1: 11 IHI ~-,IIEJHH III! il~J 111i ? I.  Wr UP114, I 111H,1111 k"ilki IIH 1. 1 1 1  KOZIN, U.I.; nMSHOVA. 0.A. Iron content of red and yellow narrow and its fat fractions. Izv.vys.ucheb.%av.; pishch,tekh. no.1:135-137 160. (MIRA 13:6) 1. Moskove'kiy institut narodnogo khowp"tva imeni G.V.Plekhanova. (Karrow--Analysis) (Iron -Analrsie)  YeRSHOVA. 0. L. Yershova, 0. L. "Study of the physico-chemical roperties ofinycogenic fat," Hauch. trpdy In-ta pitaniya (Almd. red. nauk SSR), Moscow, 1948v p, 122-30 - Bibliogs 9 item SO: U-3566,, 15 t6ch 53p (Letopis tZhurnal Inykh Statey, Mo. 13, 1949)  YERSHOVAP R.I. Work of the textile laboratory at-taaed to the Glothirilg Industrj Administration. Shvein.prw. no.202-33 Mr-Ap 162 (KRA 15-14) (Clothing industry) (Testing laborntories) '11,111IJ: 411 IN -U: -111111  KWUIaIINp V.V.; POVED8KAIA, LAI 4 A - "F-TR Deep imrification of zinc by distillation. TSvet. Xmit. 34 no,6t23-27 Je 161, (MIRA 14:6) 1. Institut tavetnykb metallov imeni M. I. Kalhina. (Zinc--Metallurgy)  TEMHOVA, S.A.; POVEDSKAYA, L.G.; CILERNYATEV, V.N. Wettability of graphite and quartz by zinc and ant:Lmony. Tsivet. met. 37 no.6:83 Je 164. OMIRA 1 ': 9)  ACCESSION NRs AP4017565 S/M49/64/000/001 ;AIJTHORSt ChernMev., V. U.; Yershova, So A* :TITLEt Fluid-vapor phase equilibrium in Zn_Cd system in the region oflow zinc land cadmium concentrations iSJURCE: IVUZ. Tsvetnaya metallurgiyaj. no. 1,, 1964, 76-83 TOPIC TAGS: phase equilibrium., boiling temperature.. alloy composition,, ebult- i'liometers vapor saturation pressure, separation coefficient !ABSTRACT- The dependence ofvapor saturation pressure on temperature arA compo-, sition i;r zinc., cadmium., and their alloys in regions adjacent to the pure compo- :nents was determined, A Sventoslavskiy abulliometer was used to determine the 'boiling points below 1200G9, The data obtain4d was then used to calculate the !separation coefficient for limiting concentration regLons in tha Zn-Cd ayatem, I ;~This yielded values of 14 and 16*2 at 6130 and 9*0 to 9*3 A WC, The separation 'e.coefficient is defined by. .-7 7 - P L 40, __LC  11glu, iL ........ .. .. .ACCESSION NR: Ap4ol7565 where PO and PO - Vapor pressure of basd component wd mixtaws re-spactively., and 1 2 2f, and X2 - activ~tioq', coefzicienb o;r, solution components. Orige art* hw t 6 uress 5 equatiods.'arA 2 tables, fu I.LSSOCIATIONs Hosk6vskiv institut stali.J splavovo Laboratoriya chistylkh metallov ! i poluprovodnikov aqvdinenV (bloscow Institute for SteaU amd. Alloys. Laboratory :of Pure Metals and Semiconductor Compow3da) SUB=EDs 2EL4ar63 DATE =s 23Mar64 ENCL: 00 SUB GODEs HL NO UF SOVI 009 OTH.HR8 008 Card 2/2  JILL_~,R ]If I 1;#i I I I I! -tuj.'l I i'Mit 4_1 MI. "W";ij ! a- 6 Pe1T(-.)14MR(t)/9T1V T 11D( C ACC NR, AP 9565 SOURCE CODE: UR/0080/66/039/OOi571-gYSF/rf2-6C--7 AUTHOR: Chernyayev, V. N.; Zernov, V. Povedskaya, L. G.; Yersbova, S. A.; -7 Klofach, T. I. ORG: none TITLE: Deep purification of cgdmium and zin by rectification and zone refining SOURCE: Zhurnal prikladnoy khimii, 39, no. 6, 1966, 1259-1266 TOPIC TAGS: cadmium, zinev metal purification, metal zone refining, electric resistance,,cadmium compound, zinc oxide ABSTRACT! Deep purification of CdO commercial-grade cadmium and ZnO commercial- grade zinc by rectification and subsequent zone refining is described. Rectifica- tion was done in a h-f induction heated, graphite, shelf-type column with 26 plates, or in a quartz bubbling-type column with 10 and 20 plates. A single charge of metal was 9-11 kg. The purity of the metal fractions obtained with rectification was determined by measurement of the residual electric resistance at 4.2 K. RectificL- tion alone lowered the total content of Al, Ni, Sn, Sb, Pb, Bi, Co, Mn, Ca, Ga and other impurities in cadmium to less than 1-10-~ wt 2. The yield was 60% of the charge. The lowest values of the residual electric resistance obtained with recti- fication was 0.9-10-10 ohm-cm for zinc and 0.6-10-10 ohm-cm for cadmium. Additional purification was done by 20-pass zone refining with a molten metal zone 4.5 cm wide 621.915.592:546.47'48  L 31993-66 ACC NRs AP6019565 and a zone speed of 4.5 mm/hr. With zone refining the residual electric resistance in zinc and cadmi Ut decreased to 0.6-10-10 and 0.48-10-10 ohm-am, respectively (the .EitLJ299.99998%). From the data on cadmium rectification the coeffi- respective_2y cient of the separation for the Cd-Zn system with a low concentration (1-10-3-10-4 Wt%) of the secoud component was calculated and found to be 2.0 0.3. Orig. art. has: 6 figures and 4 tables. [HSI SUB CODE: 11, 13/ SUBM DATE*. 06May65/ ORIG REF: 015/ ATD PRESS: - ' r__A 2/2  4~ it 1~1 it I li 1.: 1-1 , 111R.".11DIANNIRL 4 likl! 10 111191 llll,~ 1:111 Illill. ! 11111:11 i111 1  P4, Ito  ;.. 1. 1 ;:? li.. 1. ::4] I- I;; I!, t! f.1('!:. : 1, i i II!, r~ ~ 1 ! ~ ~ - 1 - - ;.i ~,; 11. ~ l-' I --: ~ - ~~- I lk".1", '~ 11 H I! fli I! 1~ 1,, 111 i I I 1111,111i I [I I R111 ill I I! I I ~ I I I I! H i I I I! R III IF, I! I I[. k I I; I I I! I I d 1 1! 1  TIANSHEYDT, A.A.; SKOROKRDDDVp S.S.; WSHOVAj.:A,.q.-j,,KIKHAYIOVAp N,,V. Chemical nature of IN-vinYlacetarlide'described by Batskai and Halmos. Vysokom. noed. 3 no.2:320 F 160, ()MA 24:5) (Icetamide) I I , 1. : . -. F: ! ~, I I ~ .~ : --, ~;z I,1 11. -,  1 1 P- i'MMI m 111 ~4 !F11111-11! 4 149".11MAHM;1 S/079JOl/03I./Oll/007/01 5 D202/D305 AUTHORS.- Skorokhodov, S. S., Yershova, S. G~, Mikhaylova, N. V. Vansheydtj A. A. TITM Dehydrohalogenation of N-P-chloroethyl neetamide FERIODICAL: Zhurnal obshchey khimiig v.. 31, no. 11, 101t 3626-3631 TEXT: The authors, on theoretical and experimental grounds, criticiz,~ the works of Hungarian scientists R. Bacakai and L. Halmosq ptiblished in Magyar K61ai Folyoirat in 1054~ in which the latter claimed the prepara, tion of secondary N-vinyl amidea by dehydrohologenatiort of the corre'srond- ing P -chloro alkylamides. To substantiate their objectionsq the pn~sent authors repeated the Hungarian experiments. The Hungarians stated that, by means of removing HCI from CH 3* CO-NH-CH2 CH2C1, they obtained a viny.1 darivativ,* C11a'MMI-CH * C11 9 (i)n In tho prooont milhorpil opiwoo, 2 other compounds could be formed8 Card 1/3  S/079/61/031/011/0071/015 Behydrohalogenation of... 11202/11305 CH2 N CH 3-CO-N I (II) and CH 3-C CH 2 (111) CH2 1 1 CH Only the compound III was found in the present investigation, Tht chemical Rtructure of III was checked by the corres"..nding picrat-.4; tbq. infrat-red absorbtion spectrum was determined in CCI 4 solution on (M) Und V K(, 114 (110~1 4) Pjj6c, trottia to ra, utilit-tr L ;~ F and Wit(!] pri jimh th,s coniblue,l light disperalon the mp,~ictrogva It p with a photo,-electric recorders The spectra of the obtained dehydro- chlorination product and those of a sample of kno-wn 2--ir,~thyl~z,,~Xazolin~~ (cpd., III) being identical. The authors checked the fonnatiom of CIA, TV' by dehydrochlorination of A-chloroethyl acetamide with sodiam methoxld~,, They also synthesized cpd, Ili N--acetoethylene imine by the action of acetyl chloride on ethylene imine and determined its chemical compositioo Card 2/3  S/079~6-1 /031,1011 Dehydrohalogenation of,.., JD~) 0 2 /1 rn 65 and physical indices, The product was unstable and i (inderli-ent. I,;,. T, T isomerimation when di-9tilled at Oxi.. pressure at 150 (7 InI.11 Cpj TI, There are 2 figures and 22 references-, 7 Soviot-blot., mill 15 noil bloc , The 4 tanst recent references to the EnIT1 ish- 1 (1111- larp.. FAII)l I ~it I KI read ns follows- R Hart. J, 1101 Sci,, 29~' 629 (i958). 11. W [F~ i J~"M. r J., W. Chein, Soc. . 78 3708 (IC-5 .; IL W- Reine, J. Ain,; Chom, Sor C07 (1057). P Fantri~ A: Doutrb, J., Org- Ch- 23. 72, (1Q-58) A A; C I AT I ("N' Institut vysoko-molelailyarny1ch soyedirif-my, Akademi~- nito'-. SSST'L (Institute of High h1clectilar Weight Compotin(Itz USSI. ITYL, D Leccuber 3" -11WC Card 3/3  BERE'"7KIN, V.G.; AUSHOYEV, V.R.; YEERSHOVA. S.N.; TUTORSKIA, -'.A. Effect of the v1sooeity of stationary 111juld phar-c- ur, ~hc- b,roadening of chromatographic zolne. 1zv. Ali S";.5F- Sitr. Mix. no.9:1711-1712 165. (trim 18~(),I 1. Institut neftekhimicheskogo sinteza imeri A,11. Tapchtyeva AN SSSR.  VANEVSK17,, V.L.; PAINASHCHENKO.. A.D.1 TERSHOVA, T.G,; MOM".. I,Kh.; LTMFITS, G.M. Chwdoal and pharmacological atudy of hemithiamim,, a new hypnotic preparation. F&--mw i toka. 25 no.6t657-W It-D 162. ~141RA 17: 8) 1. Kafedra torakallnoy khirurgii i anesteniologii knavo - prof. S.A. Gadzhiyev) Leningradskogo gosudaretvennogo ordena lanina instituta. uoovershenstvovaniya vrachey imeni B#X. Kirova i kafedra khimii i tekhnologii lakarstvennykh preparatov (zav. - prof* I.Kho Felldman) Leningradekogo khimiko-farmatsevticheskogo instituta.  Sms abaracterietles of IntraTenou rtercid smostbovia. Vest,k-~Ar. no.5994"% 161, (HM 15:1) 1. Is kafedz7 torakallnoy khirurgii i anestAziologii (sav. kafedroy dokUr med.nauk S.A. Gadzhi7ev.. rukovode anestatiologicheskogo otdeleniya - V.L. rauev~kiy) tonirgmdakogo itstituta uaov~arshenst,- vovaniya vrachey im. S.M. Kirova. (BTRAMOUS XWTHESIA) (STEROIDS)  1 S7~ AUTHORS: Timonova, 111. A. and Yershova. T. TITLE: Corrosion test methods for light bending stress PERIODICAL: Zavodskaya laboratoriya, v. 27, B103/'B201 I. metal samples under no. 4, 19611 446-446 TEXT: A critical survey is given of corrosion test methods an light metals. The simplest and most accurate of all bendin,~ tests is proved to be such on arched samples with two supports in the center. The autliiors have derived for the first time a formula for calculating effective stresses. Thus, their method is suited for studying corrosion under stress as a function of the magnitude of effective stresses. The strenG-~n of metals is markedly reduced by corrosion under stress, especially high-8trongth light metals due to crack formation. Tost inachines recommend- ed in the literaturet performing the breaking test only; are too clumsy and their operation is too cumbersome. The deficiencies found in the teat types recommended both in the literature and by rCCT (GOST) are enumerated. No quantitative characteristics can be determined on Card 1/5  AIR, WILIN jg! j 23255 ~o. l 1,2,611 -11 _'i- i - a Corrosion tuat met cods for ... loopq foi,!,, or -,h- The authors recommend namplos with a varJrObie Cross section, vi.`h sirosaes provided by a Shopper machine. A mUC*.-I BimDlor test, in the authors' opinion, is a textolite.device. insert and consist of Ljteej- of the type 20 and are protected by rosisiant patty a,,,-ainst aggreSAlre media. Putty by IMendeleyev [Abstracter-a iioi;o: not described in the text] is used for tests in natural atmosp:.are. The screv; with insert effects a uniform distribution of" stresses and counteracts a too great. restriction of the regions of i:aximu= stress (Fig. 3 9), as compared with stress in the absence of an insert (Fig. 1; a). Bonding through is calculated by Vereshohngin (Abetracter's note: not described in the text], and the following formula is derived from the given stresses: f = aSI (1 + 2b)a (4), where a = I - b . US' denotes 3 Eh 2 the yield point on bendingp b is the sample width at r-- distance 1 --,r)m the point at which stress is applied, E is the modulum of elasticitv, and h the sample thickness. When the authors' method is applied in th,~ practice, a, is calculated by formulas: a f 2 US (1 --1 0) S S 2 3 Card 2/5  U, S103 61/027/004/014/028 Corrosion test methods for BJC3X12O1 CI A -.0.002 (2), with:a being the yield point. S Apart from the sample shape and the chaiacter of the stresses, it is also- ry to know their magnitude. As a rulaq the materi I in in the necessa a rac ice subjected to stresses that amount to 50 t -Mt of the yield point. p Since the magnitude of stresses cannot be precisely Unown in every ..concrete case, the curve is indicated as an example, to reprecent the dependence of the timespan until cracking due to corrosion of magnesium -.:,alloy MA2-I (MA2-I) (Fig. 4). A curve of this kind,must be set up fo'r every new alloy. To clarify the effe 'ct:.of *arious f4atorB upon the cracking due to corrosion, the testing of maximum elastic stresses within the range of 80-90~ of the yield point is recummended. There are 4 fiaures and 7 references: 3 Soviet-bloc. 7" Card 3/5 0 ITT  S103 61Y6i71OO41O141O26- Corrosion test methods for ... Fig. 3. Stress diagram of a P/Z sample. Legend-, (a) Stress in the centery (6) with an insert. I' Stress diagram of sample, II) diagram of moments of given stress; III) imaginary carrier with single stress; IV) diagram of moments of single stress. tP 1P P P I A A --2 a 4- 1  i~.vi "'IF LAw 11~4 kilo, Ill., WI! In, W, MIN k, iflfigli i M; 11 11 L~gg Wilm, 1111ja!. 1--wal 1.  S/790/6Z/000/000/005/005 AUTHORS: Zaretskiy, Ye.M., Yershova, T.I., Kibanova, T.S. TITLE: Study of the corrosion resistance of sheets of the alloy MA3 with metallic protective cladding. SOURCE: Korroziya i zashchita metallov; sbornik statey. Ed. by V. P. Batrakov. Moscow, Oborongiz, 196Z, 180-194. T EXT: The paper describes an investigation of means for the protection of the 6 tre s s -corrosion- c racking-prone Mg-alloy sheet metal MA3 which contains appX. 6% Al, 1016 Zn, and 0.3016 Mn and which cannot be rendered stres a-corrosion-c racking- resistant by any of the heat treatments that are effective with most of the Al alloys. The present tests prove that protective cladding with MAl alloy (appx. 1.5% Mn, re- mainder Mg), having a thickness of appx. 1076 of the core thickness, affords satisfac- tory corrosion protection under stress in a 0.5M NaCl + 0.05M K 2Cr Z07 solution, in fresh-water spray, and in atmospheric conditions (see alsio Logan, Hugh L., and Hessing H., NBS, J. Res., v. 44, no. 3, 1950, 233; Siebel, G., Jahrbuch d. dtsch. Luft- fahrtforschung, v.1, 1937, 528; Symposium of Stres s -Corrosion Cracking, ASTM, 1944). The tests with the MAI-cladded MA3 materials were paralleled by like tests with MA3 covered with a layer of electrolytically deposited Zn, Photographs of etched microsections of the cladded materials are accompanied by an explanation of the peculiar difficulties encountered in etching, attributable to the protective action of the MAI cladding. Test results (hours to s tre s s -corroeion-c racking inception) are Card 1/2  Study of the corrosion resistance of sheets & . . S/790/6Z/000/000/005/005 tabulated for the intensively corrosive X zCr Z07 solution, a 0.001M NaCl solution buffered to pH 6.8 by a mixture of Na monophosphate and diphosphate, fresh-water spray, and an industrial-district atmosphere. Tests were made to determine the effect of accidental damage to the cladding layer on the corrosion resistance of the whole. For that purpose 15-mm-long gaps, 0.5, l,and 3 mm wide, were produced in the cladding by exposure to 1076 HN03, with the remainder of the specimen protected by an AK-20 glue layer. Tests of such specimens in fresh-water spray showed that the exposure of the core material reduces the stres a -corrosion resistance of the cladded material noticeably (test results tabulated). The result is appreciable even with the narrowest cladding gap; it grows with gap width. Work-hardened specimens are more sensitive than annealed specimens. Longitudinally- cut rolled specimens are more corrosion- resistant than transversely-cut specimens. An electrolytically deposited and subsequently passivated Zn facing of MA3 does not exert any effect on the stress-corrosion cracking of the alloy in either the highly corrosive solution or the fresh-water spray tested. There are 6 figures, 7 tables, and 7 references (3 Russian-language Soviet, I Russian-language translation of a German book, Z German, one of which also is available in English, and 1 English-language USA cited in the text of the abstract). ASSOCIATION: None given. Card 2/2  :ACCESSIOS NRI AP4024769 S/0080/64/037/003/0590/0595 !AUT11ORs Timonova, M. A.; Yershova, T. 1-., ~TITLE: Corrosion behavior of certain binary and ternary magnesium ,alloys alloyed with rare earth and other elements ~.SOURCE:' Zhurnal prikladnoy khimLi, ve 37, no, 3# 1964, 590--.595 11TOPIC TAGS: alloy corrosion reqLatances alloy corrosion behavior, ;.Ial-l,oy corrosion# maghesLum alloy, magnesium gallium alloy, magnesium neodymium gallium alloy, magnesium LndLum alloyo magnesium aluminum indium alloy, magnesium zinc indium-alloy, magnesium neodymium cobalt! alloy :ABSTRACT: The corrosion resistance of magnesium alloya contain'ing Irare earth-.-ad d it iv as -. is of interest since the latter inJ ~;crease the heat resistance of the alloys. AdditLon of 0.5, 1, 3l and 6% Ga to Mg or to Hg-Nd alloy shows that for both alloys the rrosion in a humid atmosphere is minimum at about 1% addition and :c0 1-Increases thereaf ter (Fig,l orAhe Dx3wum). The owge in Votential in both taystems containing up to 1% Ga is explained by increased cathodic Thp Picrostructure of Mg-Ga shows a solid nolution F6ard 1/8 ..muff  !ACCESSION NR: AP4024769 'with a eutectic (containing an intermetallic compound of unknown'com-i position) distributed along the grain boundarless With more than 1% 1 iGa in Mg. the amount of eutectic phase, which is cathodic, increasesO 1thig leads to a rise at the potential and the intensification of Idissolution of anodic components. The increase of corrosion in the 41g-Nd-Ga system,,:ontaining more than 12 Ga is explained by a drop of potential. Indium in 1, 2, 3, 6, and 12Z was added to Mg and to Mg-Al and-Mg-Zn alloys. The corrosion resistance in 0.5% NaCl so- ,lution,.'especially of the Mg-Al-In system# is greatly lowereo (Fig, 2) and the electrode potential (Fig. 3) changes accordingly. InAa moist atmosphere the increase in corrosion of the Mg-Al-In system is continuous with increase in In content; in Mg-Zn-In the increase is rapid with increase in In content to 3%, then it levels off (Fig. The addition of O&l-O.5Z Co ' to Mg-Nd alloy was investigated (Fig. 5)e~ More than 0.2% Co lowers the corrosion-reaLstance of the alloy. Orig. art* has: 6 figures and 3 tibles, 1ASSOCIATroN t none C.rd 8 2/  i Rill 11 I'ACCESSION NR: AP4024769 02JuI62 ATD PRESS: 3046 ENCL; 05 :SUB CODEt MH NO REP SOVi 002 OTHER: 001 Co'rd' 38  4111,1 ACCESSION NR: AP4024769 ENCLOSURE.- 01 -1J4 - 4 0.4 02 ..4 1. Fig. 1. Effact of adding gallium.to maRna,* sium and to Mg-Nd alloy on corrosion and electrode potential A - Potential (V);-B - weight increase (mg/cM2); Ga content (wt%); I- - cor- rosion of M&-Nd-Gal, 2 - corrosion-of Mg-Nd'; 3--. e~lectrode potential of Mg-!Nd-Ga; 4 1.4/8 electrode potential of Mg-Ga. r.6-1  ACCESSION NRs AP4024769 9NCLOSUREt 02 r4 io !so Fig. 2. Effect of' indLum' on 4corrosLou resistancs'of tmagne- 'sLum and 'its alloys in 0,5% Nalul olution 2); A-'Corrosion resistancs (cm3/cm !B In (Z) coat-ent; I - Mg-Al-in' 2 Mx-Zn-ltt*, 3 Mg-lu. jo 10 J 5  HLIVAti "~, EM REM ACCESSION NR: AP4024769 RUCLOSURE: 03 i Fig. 3. Effect of indium on the -electrode' po- tential of alloys-in O.SZ. NaCl solution A --Potential (V); B In (Z) content'# I H&-Inv 2 Mg-AI-In'. 3 H&-Zn-In, C.Td, V-1 'A  af:lu 1"waul 111h, ilia' P11,4111 t'll wil F",. U Til I -INC r. ll't ~C'C,ESS'IOM'HRl AP4024769 ENCLOSURE: 04 A Figo 4. Effect of indium on resist- ance of atloys in moist atmosphere A - Wt -Increase (mg/cm2)' B In dontent (z): .1 - Hg-Al-In; 2 - Hg-,Zn-Iu4 rd !7/8 "d Hill Hil I I  I i:~, i I& VA 1~ I A ;43 1~ I I! WHMHM~. I. I I ILI WE a,, I ACCESSION MRt AP4024769 ENCLOSURE: 05 0.4 Fig. 5, Effect of adding.Co to Xg-Nd alloy on its corrosion resistance -(mg/cmZ)* B Co (Z) contont. A -.Weight loan Of 141 m IMAIM IHI H2 M- I KI Kill #1 Plij M H411 11H I  1 L 1 4a aLm. h, s been stud-ied TLo de~:rei~ of Card 1/2  C_' L, 5 e_-,.ablished treat aydro,5Tatic pressure causes a I*our- J.- z~y ~tner investigator.5. ~Drig. axt naa ASSCCIATION: institur, met-allovedeniya i. fizi.-ki m-etallav TSOTIChl '~L -~b-U&2 DATz 27Aug63 SUB COLDS: 110 M? SOV , 0014 Caro  MMOVAt T.P,; NNYATOWOKII, YB.G- . Effect of high pressure -,n the phasa emkIliLi-~;a- DIU; '~f the eutectc,id part of fna Ircn-:arb.~x- ding..xn. --tat. J. metalloved. 17 no.4~584-591 Ap 164. WIRA 1. Ins'Itut metal1cf,4zild- TSentrallncgc- skogo institu-m cnermy metallurgilt  ACC NRs AR6013662 SOURCE CODE: UR/0()5Bj65/000/010/E027/E0i77 IAUTHOR: Yersh Ponyatovskiy, Ye. G. TITLE: Effect of high pressures on phase equilibrium in a ir-on-orbon uyntrm S6URCE: Ref. zh. Fizika, Abs. 10YeeP8 REF SOURCE: Sb. fr. In-t metalloved. i fiz. metallov Tsentr. n.-i. in-ta chernoy metallurgii, vyp. 36, 1964, 144-168 TOPIC TAGS: martensitic transfomation, phase equilibrium, high pressure research TRANSLATION: A thermodynamic analysis was made of the effect of high pressure on the phase equilibrium line on the eutectoid portion of the Fe-C diagram. It showed that the Fe-re3C becomes stable at high pressures while the Fe-C 9r becomes metastable; the solubility of Cgr increases and the solubility Of re3C strongly decreases in auste- nite; the eutectoid temperature drops and the eutectic composition is strongly dis- placed toward lower carbon concentrations. A P vs T diagram was made on the basis of thermodynamic considerations for an Fe-C alloy of eutectic. composition. It showed that the equilibrium pressure of Cv_Fe3C in the y-region it; 2-5 katm and only sl4ght- ly temperature dependent; equilibrium pressure in the a-region in strongly tempera- Card 1/2  ACC Ni;_AR601H ,ture dependent and increases from %5 katm at 10000C to %60 katm at row temperature. The calculation for the y-region was supported experimentally. It was shown that an- nealing under pressure of eutectic gray iron results in its "whitening" (transfoma- tion of Cgr into Fe3C), 1- 6-, a process that is thermodynamically disadvantageous at atmospheric pressure. SUB CODE: 20,11 2  ,YERSHOVA, T.P.; PONYATOVSKIY, Ye.G. Effect of pressure on the phase equilibrium of x7aphite - cementite in the iron - carbon system. Dokl. AN SSSR 151 no.6tl364-1367 Agg 163. (MIRA 16:10) 1. TSentrallnYY nauchno-issledovatellskiy institut chernoy metallurgii im. I.P.Bardina. Predstavleno akademikom G.V.Kurdy=ovym.  11~1!SIIOTAP. T.-P,.-. ; F Effect of high preseure on ouiddVid transfortat~ona in steel. Fiz. met. i metalloved. 17 no.1t144-145. J& '64. (MIRA 17:2) 1. Institut metallofiziki TSentrallnogo nauchno-issledovatellskogo instituta chernoy metallurgii im. I.P.Bardina.  MSHOVA, T.P. - PONYATOVSKlY.' Ys.G. Effect of high pressure an nhase equlUbrlum In Vne systim Itron - carbons Frobl. metalloved. i fia. mt. no.StI44-168 t64. NIRA 18,7)  3/032616h/017/001/01W0145. AcemioN xa: Ap4d3iw AUTHORz 'YershoVaj, To-,P* TITLEt Effect of high pressures on eutectoid transforiiation in steel SOURGE3 Fizika metanov i'metalloveLs ve 17s no* it 1964P 114-145 -TOPIC TAGSs phase transformations hysteresiss pressure effects eutectic points. j steel U8 ABSrRACT: The effect of isotropic pressure on the eutectoid transformation of 8arbon steel was atudied with ea ultrdhigh pressure multiplier. Pyrophyllite served as a presmire-transferring medium. The device was caUbrated according to the i phase transitions of bismuth at 25 900 and 27 700 kg/cm:2.' The pressure was eviluated from the "pressure-load" calibration curve with an accuracy of + 1000 kg/cm2. The samples were of U8 steel (composition (%)*: 0,83 C; 0.19 Si; 0.16 14n; 1 0.0095 5; and 0.0075 P) The results obtained show that the transformation proceeds with a large hystere;is AtO which at atmosphieric pressure equals 550. ,-The temperature determined.as a mean value between the direct (o< + Fe3G;j Y and reverse cK + Fe30) transformations coinoided with'the comnordy accepted Card --------------  ACCESSION URt 01103-3102 outectoid transformation valuo of 7270, It was obaorv6d that the hysterris increased with the increase in pressure and reached 3100 at 30 000 lcg/ola Furthermore# increase in pressure resulted in the lowering of,the direct and reverse transformation temperatures. "The author expresses ho'r appreciation to Yee G. Ponyatovskiy.for valuable remarks during the planning and the encution of this work and to A. N. Kryukov for his participation in the:preparati6n and execution of the experiments." Origs art. hast 1 figuire. AWOCIATION: Institut msts1lofirA~i ToNIIGhERM (Institute of Physics of Metals TsNIIChEF&=) SUKU-I'TEDs OSHar63 ENCLs 00 !SUE CmEt MH NO W SOVi 003. OTWt 003 'Card _71 H  9CESSION NR: APWAo.56 S/0126/64/017/ooh/058L/0591 Yoe Go AJITHORSt Yershova., T. P,; Ponyatovskiy TIME: The effect of high pressures on the phase equilibrium lima of the outectoid part of the iron-carbon diagram SOURCE: Fizika, meta1lov i metallovedeniye., v. 17,j no. 4., 1964s 584-591 TOPIC TAGSt iron, carbon, phase equilibrium, eutectic, austanite) cementite, ferrite,, compressibility, alpha phase, gamma line ABSTRACT: The position of the phase equilibrium lines in the outectoid, part of the Fe-cgr (graphite) diagram at a pressure of 30 kiloatmospheres and in the Fa-Fe3 diagram at, 30 and 50 kiloatmospheres was calculated on the basis of thermodynamic data. The following assumptions were made in the calculationsi 1) solubility of the carbide in the c~ -iron could be neglected; 2) the compress- ibilities of c>-, and 'rphases were equal (i.os, the volum effects of the trans- formation did not depend on the pressure); and 3) the activities of carbon and iron in austenite did not depend on the pressures Calculatiorm on the equilibrium curve (0-S line) for austenite austenite + ferrite gave the relation Card 113  ACCESSION NR: AP4o34o56 1P 23,4 q; T (T) where G is the Gibbs potential and U the specific molar volume. Expressions and & U obtained by 1. 0. Fisher (Je Metals.. 1949, l., 688) and by G. H. Cockett and C. D. Davis (Acta raeta. 1962, 10) 974) are A G"T (T) A 114:'T (T) -0,874 I -A Y'l(T) 0,268-71,62-10-4 T + 20,459P JgJ Ot 01.) where is the concentration. Theca expressions together give the temperature as a function of the pressuree For the EISI-line) for austenite 4 austenito + graphite) the axpression 6,709 0, Ooo5p Ig lpfT, (T) limiting'solubility of graphite in austanite at was obtained$ where qr (T) is U10 teoperature T. For the FIS line for mustenito austonite + comontito V 0 :-0.874 AGNSC(T) +419 + 21,768 + 0,0173P I + 9 2/3  ACCESSION NR-. APLO34056 From these expressions it was established that uniform pressure increased the solubility of LTaphito and strongly reduced the solubility of canontite in austenite, The outectoid points of the Vo-CLr and Fo-Fe a systems wore al-Liftod i under the influence of pressure in the direction of hieher temperature and lower carbon content* At high presaures,, the Fo-Fo G system became stable while the 3 Fe-Cer system became metastable. The za-,thors thank L. A. Shvartsman and I. A. Tomilin for the consultations and constant'help with thermodynamic calculations, Z. M. Vlasova and K. A. Perosada for conduoting the motallographic, analysis) and A. N. Kryukov for collaborating in the experimenta, Orige art., hant 27 equations pd 3 figures, ASSOCIATION- Institut, metallofiziki TsNIICh14 (Institute of Metal Physics) SUBMITTED s 25Jul63 EXL: 00 SUB CODE: M NO RW SOVs 005 OVER: 011 Card 3/3  NABOKOII, V.A.; SADOVNIKOV, A.I.; USPENSKIY, I.V. Prinimali uclms~ iy,; M.A.; KRIVTSOIIA, Ye.N.; YEE2HOIIA., T.S.- KIS'H, S.S.; ORWVAp G. N. Use of a helicopter for upraying fool Of tink onfw-phal~-'IJ~' -in forests. Med. paraz. i paraz. bol. 33 no.1:64-68 Ja-It 161, (miu 18:1) 1. Otdeleni7e tokeikologii i bor'by s ahlenistonogimi ( zav. - prof. V.A. Nabokov) Instituta meditainskoy parazitolog.4i i tropicheskoy meditainy imeni Ye.I.Martsinovskogo (direktor - prof. P.G. Sergieyev') i Gosudarstvemn naucibno-Issledovatell- skiy institut Grazhdanskogo Vozduslnogo Flota, Moskva. 2. In- stitut meditsinskoy parazitologii imeni Ye.l. Hartainovskogo -el (for laryukhin, Krivtsova, Yershov,-', 3. Gosudarstverinyy naucbno-issledovatellski7 inst-Itul Grazhdanskogo Vozdushnog,,- Flota (for Kish, Orlova).  RAFIKOV, S.R.; CHEINOKOVA, G.N.; YERGEBEKOV, M.Ye.; YEIUMOVA T.V -... ,phinic acIA--, Synthesis and stidy of polyallylenaphoi I 7 no.1:615769 Ja 165. (" -.:ii :LF: 51 1. Institut elementoo-,ganicheskikh soyed-,neniy AN' SSSR.  RAFIKOI, S.R.; YERGEBEKOV, M.Ya.; CIELNGKOVA, G.N.;,Yl.'RS8 Synthesis of ollgomric polymthylensphosphimic a-vida. 1: rv. AN SS.5R. Ser. khim. no.3:526-527 165. (MMA 18: 5) 1. Institut elementoorganicheskikh soyedinenly AN SSSR i In- stitut khimicheskikh nauk All KazSgR. Jj  BEBIKH, G.F.; - YERSHO.VA, T V.; KUSKOVO V.K. [deceased] Brealdng of the C - P bond in arylphosphinic acids by hydrolysis. Vest. Mosk, un. Ser. 2tKhim. 19 no.1&56-59 Ja-F 161.. (14IRA 17:6) 1. Kafedra khimicheakoy tekhnologil Moskovskogo universiteta. 4  1111111 i HIM I P"I 1111111111 111i5 ii 11:1  P Hivi -71 --7= Tr o Z1, I ij i Y; i  FERMEV, F.Ya.; YUSHDVA, V. Reactions of f7drazine hydrate and dimett7lbydrazine with mne oxides of the acetylene series. Zhur. ob. kbim. 30 no-11: 3554-3558 N'60- (MIRA 13:11) 1. Lemingradakiy gasudaretvenVy univereltet. (Hydrazine) (Pyrrole) (Acetylene compounio)  ' a 0 0 ~06 0 9 4p lj~* 1, 12 11 14 11 4 1? It 41 or a 111 5 3 L 9 0 1 U" *, ~1,1 6 v i s m -2 0 ";r 0 lncf~ofdfif the (IMS(Itt'll Of vcm*vsl I'f Orion 110"s sat 'A'.) , 1 .IIIIL-411111, nd.!,"" I Iq 17. %, 2 j . N mut 41 1, of, III Of oOl-'"k AIM 4,1 A 0 . a III kg. lwf W1. cm. 'I'liv symvill Ilix-mi n'.1 'Ilm-Ir IN, (I lmr I l . 1,I,f .1 Coal. MIN , o" 41 1"1 '"' 1 " 1 1 - 1 g 111 N. 11IF I.m. 11 4 A oil ilia- it-as, 11,16,*hLi Iwo lot I III. mwi A m.liwi I'llot 'I. I ll~ 1 it N I go !.lee no: 1 1 %fee life 40 Il IF *FK - m i a b rw oa " i o 00 0 0 6 0 00 0 a 0 4 0 or : : : : 9 400 0 'a '00 0 o 0 0 0 0 0 0 0 0 0 0 * : - - 0 0 4 so so , : : 0 4 0 0 0 0 Q  SLOHIWKIT, G.L.; TMHMA, V.A. Dependence of the d"formation of Crystalline yoly"ro on temperature. Vyookog.nood. I na.2:240-243 Y 159. (MIRA 12:10) 1. Inatitut elemantoorganicheakikh soyedinenty AN SSSR. (Polymers) Ii., i  SI-19OV601002100610041012 BOi5/ ~.064 AUTHORSi Slonimskiy, G. L., Yershova2 V. Ao -wrWq.v4M*;;0WW*rA1d" TITLEs The Comparison of the Characteristics of Polymers Determined by Means of Different Devices PERIODICAL: Vysokomolokulyarnyye soyedineniya, 1960, Vol. 2j No. 6, pp~ 871-874 TEXTs The problem arising from the fact that dynamcmatexe cf different design do not supply the same deformation conditions even when the rate of letting down the lower holding is strictly constant.in for the "ime being not sufficiently being investigated. To explain th1s, the present paper compares the operation conditions of a dynamometer designed by Polyani and one by Shopper (type dPH-3*FM-3)) (Ref. 6).. Commurcial caprone was used for experimenting. On the basis of the sitatemaiits mads in the introduction it is found that it is possible to calculate in first approximation the elongation of a sample with a certain cross section with the curve "conditional stress - deformation" after having determined the rigidity of the dynamometer. Thus, in the aa3e of dynamc. Card 1/2  'q9M IMS The Comparison of the Characteristics of S1190 050/002/006/004/012 Polymers Determined by Means of Different Devices B015YB064 meters with varying rigidity also the rate of deformation of tho samplv will differ even if the same rates of letting down the lover holding arc, adjusted. Results of measurement made on the two above dirnamccieters are shown to illustrate the statements made (Table). Considering WIR apring deflection (of the Polyani device) and the displacement of that arm of th-? pendulum (of the FM-3 device) it is possible to prove the essi!ntial difference between the real rate of length increase of the sample and the speed of motion of the lower holding. In the present investigation, far more exact values of measurement were obtained with the Polyani device since its deviations in the rate of deformation were lenti high, There are 2 fig-area, I table, and 7 Soviet references. ASSOCIATION3 Institut elementoorganicheakikh soyedinenly AN SSSR (Institute of Elemental-organic Compounds of the AS IJSSR) SUBMITTEDt February 11, 1960 Card 2/2  MDLESNIMV, G.S.; SUPRUN, A-P-; SOMOLIVA, T.A.; YMSHOVA, V.A. a ti on Carbochain pol7mers and copolymers. Part 26: and copolymerization of 1,1#2-trichloro-1,3-butadione. Vysokom. soed. 2 no.8:1266-1269 Ag 160. (MIRA 13:9) 1. Institut elementoorganichookikh soyedineni7 AN SSM (Butadiene) (Ilolymerixation)  ~1 t f 14 4 r- S11901621004100510191026 B110/B108 AUTHORS: Kolesnikov, G. S.9*Suprun, A. P.g Soboleva, T. A.p Yershova, V. Avg Bondarev, V. B. TITLE: Carbochain polymers and copolymers. XXXIX. Copolymerization of 1,1,2-trichlorobuta-1,3-diene with other unsaturated bompounds ?ERIODICAL: Vyookomolekulyarnyye soyedineniya, v. 49 no. 5P 1962, 7 43-748 TEXT: Deterninations were made of the relative activities of 1,1,2-tri- chlorobuta-1,3-diene and styrene (10:90; 25:75; 50:50; 75:25; and 90:10) and of the composition of their copolymers at low degrees of conversion (5 - Va). On the basis of the relative activities r 0.07 � 0.03 (styrene) and r 1.18 + 0.08 (trichlorobutadiene), the composition of the copolymer' 2 - 0 was plotted versus the composition of the monomer mixture. In order to raise the softening point (-500C) of polytrichlorobutadianeq 1,1,2-tri- Card 1/3  S/190 ,/62/004/005/019/026 Carbochain polymers and copolymers... B110/BIQ6 chlorobuta-1,3-diene was copolymerized with aorylonitrilep vinyl chloiridef and bicyclo-(2,2,1)-hopta-2t5-diono. During bulk oopolymorization with acrylonitrile at a ratio of 50,50, only 10 mole'~Ia of acrylonitrile radicals was added to the copolymer. Thereupon, copolymerization was also carried out in a water-oil emulsion (1.80) with mersolate as an emulaifier, and benzoyl peroxide and ammonium persulfate as initiators. With the use of ammonium persulfate, only trichlorobutadiene homopolymers could be obtained: from mixtures of 10 - 80 mole' of trichlorobutadiene and beazoyl peroxide. With acrylonitrile radicals of less than 40 moleibi the copolymer was completely soluble in toluene, while with more than 40 mole-A, it wall only partially soluble.. Extraction of a partially soluble copolymer with toluene .-ave two fractions: (1) BSA by weight of a white, powder, soluble in toluene and containing 39 mol *edo of aorylonitrile radicals; (2) a yello-.,,,:jpY,,derp soluble only in dimethyl formamide and containing 65 molerla of acryl6nitrile radicals. Either powder possessed a low softening point, but their thermomechanical curves differed considerably. The copolymeriza-I tion of 1,1,2-trichlorobuta-1,3-diene with vinyl chloride was also carried out in an emulsion, whereby solid lumps and I&Mces were obtained at the Card 2/3 J  It lil I !I 11!1111~j [if I-all; ............ ......... ..... . ...... I PF" M S/190/6P-/004/005/019/026 Carbochain polymors and copolymers ... B110/B108 same time. Their softening point is 50 0C. The copolymerization 01' 1,1,2-trichlorobu'va-1,3-diene with bicyclo-(2,2,1)-hepta-2,5-diene vias carriod out both in bulk and emulsion. Bulk polymerization was done with U.1 molep of benzoyl peroxide. Polymerization in emulsion laoted 15 hra at room temnerature and,in addition,10 hro at 500CI, resulting in light- yellow to d~rk-brovvrn polymers. At a ratio of 36-5.M010% of trichloro- butadiene to 63.5 mole,;', of bicycloheptadiene, the softening point of thia copolymer was 130 - 1400C. It was soluble in toluene and dichloroethane. There are 2 figures and 5 tables. ASSOCIATION: Institut elenentoorganicheskikh soyodineniy AN SSSR (Institute of Elemental Organio Compounda AS USSR) SUBMITTED: April 17, 1961 Card 3/3  A AUMOR: Sionimiskiy- G. L.: Yershova, V. A. TITLE. Effect of phase transitionr, an the mechanical propertie4 (:!4' C r-j:3 ta.11- jrje polymers f SOURUE: ~y*sokcmo1ekulyaMy*ye soyedineniy~, vo 5, no. 61 1963, 8,' 1-833 TOPIC TAGS: poly- tatrafluoroethylene, defamation of poi~naari ABSTRACT: Studies ~K!re conducted on the rate of deformatiji):*i of 1-0chnical p,.)-Iy- C tetraf1uoroat4y'-endVfi1ma in relation to temperatU'e-W-,-r'Fj-ii-i,a ..,10 to A-220C rar;,Tv. 1't was foiind that. :Fb Tarves of stratch elongation genermll-y -=Tiforned to this 13-11is of gradivil transition from the ari~,Unal cryqtallizai atate to that of a. anomalies were, however, noticod at, the 19-20C and 28-30C1 tompar-Aure ranzo. A thermogram. of the polytetrafluoroethylene, taken. b-,T mea ns (:,-!' Kuvra.kov 1 3 pTr,;m~ ravGaled the existence of two distinct endothermic effects -at ab:,11.t 20 ar,-- which is i-n agre-Ement with the well! known fact of -~hei o acuirrence 1.7 ?o fluoroethylene of two phase transformat4-Inir at 2.9-20C and. lb-'%C. 3,_ "1Z spoci;;Ily themoqtated dyr-amomoter. the authors obtained ftirce i: nrina 1- 11 Card 1/2 - - - --- - - - - - - - - 7  L 12435-,3 J ACCESSION YR: AP3001152. for every degree of the 15-32C nnge and were able to dc~nioi,,iatratu the exisi:enr-4-1- 19-20C and 28-30C of peaks in the forced elasticity limit Iturve. Orig. art. 1 chart. ASSOG TIGNI. Institut elementoarE GIA -ant ahm akikh'soyadinmniy AR SS, 11 -Elemento-organic Commpounds, fixadiqW of ScilarLeen. SMUMID: 16Yov61 DATE. ACq,.- oIjU63 Amu: Do SUB CODE: 00 ND FZF SOVI 010. OTUR: 00a Card 2/2 . . . . . . . . . .  KO:'--,kK, V.V. (Korshak, 'I.V. j ('Moskva) ; VENOGILOM.. 3.V. ~'Hcsl-.ra) ; VAIZCKIJ,, P.Z~,:[Valetskiy P.11.1 (I-Ioskva); JERSOVA, V.A. [Yershova, V.ji .] (I-Ioskva~; PANIMTOV, V.M. (Roulwa) Copolyurylates of iuoplithalic acid with dihydroxy-diphenyl- propane and polyfunctio-nal aliphatic alcohols. Chem prum 13 no-5:Supplement:lbkromolekularni latk-y 13 no.5:265-270 163,  AH "MMMMIA. 16M, MIULAWRIN!"Mul WOMMUMU."M I M A i A 'IV., Jhli! J! 211M. 11044"ffW~ 21MM 'RT Art- l-4w2=65-.JUG(J)IFPA(s)-21EWT(n)lgPf(*)IVWEWP(J)ITIBWA(b)tgitA(l) PCA/ Fr-4/P&A/Pt-10/Pcb WL WIGSISH ACCESSION NR: AT6002110 810000/6#000/000/0042/0045 olennikov. 0.84 BlonIMa!qzj-G.L." AUTHOR: F Vol-010VAIT.A.1, ucly-avnMy, A._D._,_Yef._d79v`W, V.A. TITLE: Now chlorinated monomers for the synthesis of q2nj2MhujtjUq polymers SOURCE: ANSSSR. Inatitutneftekhimicheekogonintexa. sintexivoyntVamnnomerov (The aynifi-cal-s-an-g-properUou at monomers). Moscow, LzQ-vo NILUKMP 19", 42-46 TOPIC TAM fire resistant polymer, polymer mechanical property, chlorinated polymer, chloroalkeno polymerizationt tolomorization, dohydrahak9gonation, radifttion polymeriza- tion ABSTRACTs 3,3 13-Ti,fo~IOMPMRM~dl,1,2-trichlor*-L,3-butiLdleito, whichhavabeen described in prcvIo%M_ypZfiahcd studies, wore prepared by a two-stop reaction and their home- and copolymerizzlAon was studied In an effort to obtain noncombustible lvlym was oynthenized via 1, 1, 1, 8-tutrachloropro qm6a 3,3,3-Trichloropropcna pane by Idw-M a of othylena Vith carbon tetrachloride (J. Am. Chom. Boo. 70, 2529 J1110) and do4ydro- W cZcnatlon of 1, 1.1,3-tatracb1oropropane with NOR Lm othyleallwolva oolution to give a 53% yield of 3.3,3-t;rLcWoroprWc" and ~4 a. btr-yrodad.. TM latter cam UP i, AJ  Lin ",".1i -I ~~i MUNMUMEM" im, gujll !!3j~gm I! I! g I., I g j"t'. I L Me-1-63 ACC=-::O:l Mi ATSC,72110 %Yan AIGO'formcd by laomorizaUon &ring the block Polymerization of 3.8.3-trirliloTopro- Penc with benzoyl pero-ddo, And Isomerization dccreancd the yield of solid polyraer from 1% at 70C to 0.2% ALt 100C. A vircous. lovi-molecular. liquid polymoT was *Uo formed. ScIld polymer was alao fprmed In 37.3% yield in 160 hours under irraxlIntion. sad fraction- Wd into soluble polymer and a (rcetion which vr4s solulAo only In tetraltyarofuran or hot bcnzenc. Ca2.Lvrnnra% Nwhich are not dencribcd,. were formed with akvrclc,AvdlEl~Alind)mcrylonitrilo.V;3y&similnrtecbniquo, b-ut--,U1-cnb wan prepared via T7r,-Z,-i--~tr-rc.%Ioro-l-buteno. formed In 20% yfeld with by- products by telomerization of ethylene with totrachloroethylene, and by dohydrohalogena- (Ion. Tho copolymerization of 1, 1.2-Arichloro-1.3-butadina Un boien 6acribed In pub- halit.41 paper3, and Its homopolymerization under undefined optitntil condItIons yielded 99.9% bluck polymer (110,000 moledular weight). or 95.2% yields in c=ulston polymerization with polymgrdaf3,500,000molocularwelZht. The monomer was shown to have mu*odly higher activity than styrene, and the polymers showed good solubillty, resistance to cold Inorganto acids, h16h tensile strcra.-ihp wA adhcolom to vulcus mataritUo "The gmthors 1hank BeTAS -.-Juitil for carrying M the IrrMindon-polymerizWom tasts. Orig. aft h"t I tabMaLM 4 CWd 117  PFaMYGINP V.M.; YMHOVA, V.I. Amount of defolUtats arW desiawats in the dust of cottorl-cleaning, planta in KirghizintAn. Sov, adrav, Kire nc),L206-24 Tei-T 162. (MIRA 15:4) 1. Iz Kirgizskogo instituta epidemiologiip nikroblologii i gigiyony (dircktor - kand.med.nauk V.M.Perelygin). (KIRGHIZISTAN-OOTTON GJM AND GINNI140 (AGRicuLTuRAL comms)  Morphology of living bladder receptors in the co=on J~r,;g (pAw temporaria). Vest~LCU 25 noo2lt262-166 60,, (IUFA 14~,411 (Receptors (Neuro2ogy))  YRRSHOVA, V.P* Comparative study of the morphology of the tigroid and trio di- mensions of neurons of the sympathetic trunk in vertabrate-s. Dokl. AN SSSR 162 no.6tI401-1403 J9 1654 (DIIRA 1827) 1. Laningradskiy gosudaratvennyy univernitet im. A.A,Zhdanova. Submitted September 12, 1964.  Comparative cytochemical study of the neurons of the lhoracic portion of the truncus sympathicus in vertebrates. A-d-di. anat. gist. i embr. 48 no.4:24-32 Ap 166. (KMk 18:6) 1. Kafedra anatomii i gistologii (zav. - chlen-Itorrespondent AIM SSSR prof. P.V. Maluiro7) Leningradskogo gosudarsll,.'~olnnoga ordena Lenina universiteta imeni aidinova.  YMSqOVA, V. S. (Prof.) --- Basis of Veterinary Moscow, 1953 - ; ";., ~' j.1 -; f ' "!";.-IIYA - -, ! . ~ : . 1:~ - : ~ L."  -S P. Z Z1 u R no ac, A if i 'lilt 11tilmlimill I Midi 11111111111: 11 i~":i I I;;:!' 1 1111, 1! 111' 11,11 Ill 'i I  PODKOSOV, L.G.; PODKOLIZINA, Ye.P.; MENA, A.V.; YERSHOV, V.J.; FEDOROV, M.V.; RUZ.HIT-S-KAYA, X.F. Nov methodn 411d '.kj)j0l'atAJfl for Lr~e drersing, of titAnIum,-iii.rcontum sands. Min.syrle no.9:3-15 163.' (141RA 1711O)  b" W11.4 I i H, 9W0 I, till igg I W I!! i I it. !111" 11!!,! il I I., I, ACC NRs AP7002436 (A sou 1 ICE COM UR/0219/66100b/012/003T/0040 AUTHOR: Gavrilyuk, M.I.; Yershova, V.T,; Konstantinoy, V.A/ ORG: none TITLE: Reaction of tantalum with nitrogen and air SOURCE: Metallovendeniye i termicheskaya obrabotka metallov, no. 12, 1966, 37-4o TOPIC TAGS: metal surface impregnation, tantalum j air, nitrogen ABSTRACT Vacuum'arc-melted ingots of 99.~I%'puie*tainta'lum were homogenized and .rolled into 1 mm thick sheets which were annealed In a vacuum of 1.10-4 mm Hg and then held in a nitrogen atmosphere at 800-1200C for 1.5 or 10 hr or in air at 300-600C for 1-15 hr. The depth of nitrogen penetration ina tantalum was found to increase with increasing temperaturel. -and duration of the contact of tantalun with nitrogen (nes Fig. 1). A  ! ! NRs AP700243 0 'Q# Fig. 1. Temperature and time dependence of the depth of nitrogen penetration into CO 43 1000~ I., tantalum Aj 0e fV 0-41 Time :particularly sharp increase in the penetration rate was observed at tem- peratures above 900C. in the reaction of tantalum vith air, the increase in metal microhardneas and in the depth of air penetration followed a similar pattern. However, the reaction of tantalum with air began at 300C, and the increase in the microhardnies of tantalum, in this case, is attributed to the air oxygen, The nitrogen-contaminated surface layer 2/3 r ~'R  A'P7002436 consisted of four zones: a very thin outer zone of TaN followed by a zone consisting of TaN,; a zone with a tetragonal lattice (a - 3.314 kX, c - 3.3715 kX, c/a - 1.0175), and a zone with a bcc structure. Vacuum annealing -of contaminated tantalum at temperatures up to 1600C brought, about a diffusion of nitrogen and oxygen from the surface deep into the ,metal and metal contamination in the entire volume. The removal of nitro-I gen and oxygen from tantalum in vacuum began at 1600-2000C. Ilitrogen and oxygen in the solid solution strongly inhibited the grain growth of .tantalum. UDC: 669.294:786'87 SUB CODE: 1l/ SUBM DATE: none/ OTH REP: 001/ ATD PRESS: 51131 Ca~d 3/3  Nill'A GURSKIY, Yevgeniy Ivano-ich; Vorp. Vasil lyevna; IVANOW., I. L. ,AJO 1 7. retsenzent; KIRIYANOVA, V.H... retaenzent; URT'h-"OV~qWA, A.21T., retsenzent; KOLOBOV, A.M., retseuzent; CHERKAS, L.A.; retsenzent; SHERDYUKOVA) S.Io, red. [Fundamentals of linear algebra and.analytic geometry] Osnovy lineinoi algebry i analiticheskaia geometriia. Minok, liyo,- shaia shkola, 1965. 262 p. 041RA 1M)  IMSHOVA Ye inzhener; )IRIDLYARD, I, inshenor; FIR11"t"AT, Technical publications on progressive practices. i4g.:-,ron. 17 no.6:52-53 je '57. W%Rf 10: 8) (Bibliography--Technology) ~zp  YERSHOVA + - 6766. Yershoval E.9 AkLmov, 1. 1 Durrovap E. Molo(tyye sily kolkhoznoy derevni. lz opyta borlby sellskikh komsomdllskikh organizatsly za urozhay.-Sm. 6388 SO: Knizhnaya Letopis' No. 6t 1955  YNRM21L=UA6w I It Is nocessary to re-Kca the All-Ohlon state Ovit-d-ard for leg.prom.15 no.1:12 JA 155* (MLRL 80) 1. Starshly modeler-kolodochnik fabriki w8korokhod'. (Boots and shoes--Standards)  BOGOYAVLENSKAYA, L.B.; YFRSHGVA, Ya.B. Evaluation of diagnostic sera of the intestiri-il. w-rcvp t~,r antibody nitrogen. Zhur. mikrobiol.,, epide. i !=Mm. 42 no.11, 75-418 N 165. (111IMIA 18,12) 1. Gosudarstvannyy kontralInyy In3l'itut meditstmki'Kh biollogl- cheskikh preparatov imeni. Tarasevicha, Mcskva. Submitted I'tarch 10,, 1964,  Ov C tr.,t USSq lp C a t 0 grz 0 ry PaCir)8enlr I'Oz, :-!axi and Anita) Abs. Jour itef ---'hur - Jiol., --fo-19, 1958, Moo Author Yershova, in.l.; Trushkova, N.B. Inatit,.it. i,,.xrov gr ettltural Tnetitate Titlo lZesintance of .1treptococci -Arsolat,-~O lmzi ~tyoglob- ullauric ilorsoij to I'lip4cal an(; QwmLvol Vactorn in the "Atei-nal Mvironment Orl.6 Pub#, ;Tr. Kirovskoro In-ta, 1957, Vol.12, llo.24, 165-168 Abatract) !no abstract Card., 1/1  ANISIMOV, V.Ye.q kand.med.nauk; MMOV"Ag YeII, Effect of a hypochloride diet, with vegetable fat an the level of cholestorolt lipoproteinp W protein fradtions in tho blood ser= of patients vith arterioselerools. Sov.med. 24 kio.nj6l-64 ii 6o. (MIRA 14:1) 1. Iz,kafedry fakalftetakoy terapii (mav. - prof-. Z.I.Malkin) Kazanskogo meditainakogo inatituta.' (iRTERIOSGUMMIS) (CHOLESTEROL) (LIPOPROTEINS) (BLOOD PROTEINS)  ARSENSHVILI, A.Yu.; BOGDANOV, M.11.; GOIIIZONTOVA, Yo.A., YELEUBAUM, IT.I.; IOFE, N-Sh.; KARAVAYEV., A.M.;KOWBOV,, G.M.; WBIN,, N.V.., kand. sellkhoz. nauk; KUMER, Kh.P., dolitor bilog" nauk; MISHIN, P.N.; PATRIK2 I.A., kande. aellkhoz. naulc; REDIKH, V.K.p kand. sellkhoz. mauk; SE14TUEV, S.I., akademik; MOLETOV, A.I.; FILASOV, V.V.; SHKUDGVAp R.I.; SOKOLOVA, G.S.p red.; ROMIOVICH, Ye.F., red.; LEVINA, L.G.,, tekhn. red. (Chickens for meat] TSypliata na miaso. 14oskva, Izd~avo 1.1-va sel%khoz. RSFSR,, 1960. 197 p. WIRA 15: 1) (pou.1try)  U.I. SI'7iIrazj Animlo, Gem;ral Problemr; Abs Jour &f Zhur - Biol., Ho 19, 1958, No 87993 Author Yershava Ye.M. Titla ;i~oDovcjopment of txjxal Husbandry in Uzbekistan Orig Pub t Sots. a. -kh. Uzbelcistana, 1957, No 111., 40-45 libstract : No abstract Card : 1/1  aMIYEL'YANTSp G.A.p glav, Md.; AZIZKIIANOVt D.A.j, red.; VENGERSKIY, VON.: red.; YEREI-2:NKO, Me... rod.; YERSNOV4.. Yo.H.p red.; MCI. - RX-A. ZIN324, T.G.., red.; XOMIEV, N.P., - UWNL07' red,; SLIVKDI, LZ.,, red.; TIKHOMIROV, A.I., rad.; YMIUSOV, F.Yu., geroy Sotsialistichookogo Truda, red.; AKBAROV, A., red.; BAIUITIYAROV, A., tekhn. red, [I'aterials of the Conference of Agricultural Workers of Contral. Asiap Azerbaijan, and Southern Areas of Kazakkintan] Materialy Soveshchaniya rabotnikov sellskogo khozyayi3t-va resItQblik Sredney Aziip Azertnifthana i iuzhrVkh oblastei RateLkhatana, Tashkent, 1961. Tashkentj, Gos. izd-vo Uzbekskoi SBR, 1962. 358 p4Za rabotu., tovariahchi khlopkorobyl) (IIIRA 15:3) 1. Soveshchaniye rabotnikov sel'skogo khozyaystva respublik Sredney Azii, Azerbaydzbana i yuzhnykh oblastey Kazakhstana, T"hkent, 1961. 2. Predsedatell kolkhoza imeni Karla Marksa Oshskogo raYona Kirgizskoy M (for Yunusov). (Soviet Central Asia-Agricultural workers) (Awrbaijan.-Agricultural workers) (Kazakhstan-Agricultural workere)  . I SHCHEKIN, V.A.; ABDURAZAKOVI A.U.- JgMOVA, Y~.&,,# kand. Bell- 0 khoz. naukp otv. red.; FRiffN G, E.D., red.; GUBAYDULLIN, S.j tekbn. red, [Fundamentals of animal husbandry) Osnovy zhivotnovod- stva; uchebnik dlia uchashchikbsia IX klaBsov srednei shko2y. Izd.2. Tashkento Sredniaia i vysshaia shkola, 1963. 138 p. (MIRA 17:1)