iC Ruman la M11-3. --ar. 104- 13 eLu ~Vr T-n~ 4t Ud. t the thermal treatment, they exercise a con- Ct4 on ~ g- which is however of opposite nature. cuTrent a RCI iL!7ie detrimental effect of ferrite becomes manifest a,.- 600- 0 7000 and to some extent at 8000. Tn the pinion of tin authors this is due to chromium depletion of austenite crystals as a result of increased concentration of chromium tri tho ferri.re Thus, the prote(:tive N.Im oi,' Cr-ox!Je that is formed upon the rturface of the steel has lowcred protecl~ive characteristics over austenite areas. ikr. 9000, and part-'ali-y also at 8000 , when the rate of dif fusion of 02 is very high, RC is determined by crystal size. G:.,eate5t !oxidation is observed in samples of large crystal size, 2/3  __r I - I - --- - - y r- --- ~/ /.,, r - X-- i9', V -/ ~ V-V., inzhener (g. Drapropetrovi3k); ZAFIRO, II.I., inzhener (g. Dnepropetrovsk) "Ruft Handbook on fuel Mandbook on fuel and fuel storage for the railroMs." Reviewed b;r V.V. Pokornyi, 11.1. Zaniro). 111ek.1 tepl. tiaga no.81 - 3 of covur Ag 157. (NLU n. S) (Loconotives-Yuel cour-umption) (Fuel)  .,ZAMIROV. A. *4*0~a - -61' commodities are growing. Sov. torg. 33 no.8:43 Ag '59. (MIRA 12:11) 1.Zavedtqushchiy oblastnym otdolom torgovli, g. Khorog. (Gorno-Badakhahan Autonomous Province--Commerce)  ZAMIROVSKATA. M. [Zamirouskala. M.], kolkhoznitea (derevr7a BAgdyuki) We are grateful for your concern for our health. RabA sial. 35 n0-3:15 Mr 159. (MMA 12:3) (Berestovitga District--Hospitals, Rural) 0  ACC NR. AP7004180 AUTHOR; Zamiryakin, L. K* ORG: Izhevsk Mechanics Institute (Izhevskiy mekhanicheakly Inatitut) TITLE: Effect of residual stressed state on the corrosion cracking proneness of austenitic chromium-nickal steels SOURCE: Fiziko-khimiclieskaya mekhanika materialov,*v. 2. no. 6, 1966, 624-627 TOPIC TAGS: austenitic steel, weld evaluation, welding technology, stress corrosion/ /18-8 type austenitic. steel, OKhl8NlOT steel "STRACT: Welded joints of 18-8 type austenitic Cr-Ni steels are more prone to corro- sion cracking when operationally exposed to aggressive solutions. 1his can be reme- died by using-a-more resistant metal such as OKhl8NlOT Cr-Ni steel and by applying the proper linear energy q/V of welding (q - effective thermal power of the arc; V- - welding rate). For imnular welded joints of OKhl8NlOT steel increasing the linear energy q/V to 1200 from 200 cal/cm sharply increases the resistance to corrosion cracking (time to-fracture is prolonged to 780 br and the crack, when it finally develops on Immerslon In boiling XgCl2for 7W hr, develops in the base metal at a distance of 8-10 = froui the weld axia). Generallys, In austenitic. Cr-Ni steels expo- sed to aggressive 'solutions, brittle cracks originate at the metal siectors with maxi- SOURCE C9E: UR/0369/66/032/00 Card 1/2  f-ACC-NRs - - ------ AP7004180 mum compressive residual stresses. A change In thelunear energy o:f welding leads to I a change in the residual (compressive + tensile) stressed state at aite of fracture, in time to fracture and in the distance from the weld "to to the cirack. GrIg. art. has. 3 fig. and 1. tabio* SUB CODE: 13, -11/ SUBH DATE: 24Apr65/ ORIC REP:; 006 Card 2/2  FRWU, J.; z0fis. H. M .7nth;sf 'on ~~ha nucleus of halogenated ephedrine. Cas.cask.lek. S Ved.prihola 133 no.9-12:157-158 Dec 1950. (CUIL. 20:9)  ZAMIS H. CZECW;LIWM*/Chemistry Pharmceu- Dec. 50 ticals "Contribution to Syntheses Based on the Nucleus of Halogenated Ephedrines," J. Frejka,. ff. Zamis If Casopis Ceskeho Le-karnietva" Vol LXIII, No 9- 121 pp 157, 158 Following substances., not described previously,, .were prepd: 1-m-bromophenyl propanol (1), I-m- bromolhenyl-1.,2-dibromopropane, 1-m-bromophenyl 1-ethcmy 2-bromopropaue 1-p-iodophenyl protanol (1), I.-p-iodophenyl propene (1), 1-p-iodophenyl 181-T13  Hold a lecturc boforc the Officer:; of an air unit on the oubject, "Imlovation in the Construction of A ircruft.Engiru.9.11 Soviet Source: 14; Kragnayn Zvesda, 7 Mar 191*6, Moscow Abstracted in USAF "Treaswe Island", on file in Library of Congress, Air Inforriation Division, Report No. Card No. 2 of 2  00 4 00 00 es A .Ij W -XpO4Md4wk cod aturW 00 ~wltia th, 00 z dow ~00 udo 91 es 2 CLASIOPKATIGH I.L ellAtLVOCKAL UltS4101 blow t"I&AL qjjw 4).Ow IVA C., it 0 L I cc ti of at -t QIt cc a 04 Z 0 0 a eeq::::(?Q%woeoo* *Te*d 0 W6*4 0 0 0 :mwe a S.W*4 0* 6ooe 0 0 0 0 Wo 0 0 0 0 Z Z P4. stvas aft e o-14---j l Tjw ~km 00 Mel r  'w 4 * 004 00 go go go khW ak a UK = A&Z a" XA al A.* POC-fIfIll - addatkm or S. 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Tsdmpow- "w k =00 tit- -040 sewn brl-o fck'-* ---- --- or 00,4 effsWis add abow., go 0: "Z Now. too MIUMMA14: tjff*ATW CQUAUNICUOM U404 411"NISTO No" "Wamv td&*gs 46 "at amt OR OR I*& a &V 00 al WIZAAMA 0 a 4d a a 0 1 or to 9 a a 3 0 0 I " !**1** 0000 of* 0 0 0 a 0 0 0 '000 0000 0 0 0 0 4b 0 40 0 0 41 0 0 0 M5#~~ - MM~~~ A  t4-- "11j, A.V I,. T 4-4k,la-va I.- A-11 to 4 Oc- to lee 4 NMI Hi". "n 100,1arvwyrw prmn" of 00.3 go,, go "TILL4"ICAA. U410414*4 C&AUVrAlON %5" 111,4119. wpaq, .. .6. ~. 4A( u &H-7--r-f-T-4-4 , " ; " r--V" " 0 q it 10 4 K . N In I a e 4p At M A.: W. Uummumn 11,1037. To "Wow4w"41m PP"04M 4A I - U% MA NY) so* hodIfftOw" (if tha CO, (W, NMI off NRHIP4' It. T, ~rnl.;41_.. %low 80"4119 149". to o roe -00 r1w o be Woo We 0 too 440 0  1 4 -V-11 --- r- 41 -4 Il- tV-11--lo 6 IF W~ Of 'Wit"CCIRS die "4014ftri act# -041 of a ge .00 age 00 as age go .00 31 cvean,~- M ;-The Isso set va#Avw moo too Ike 4*0 too tie* ILA k go* "0042 .4 T Mota"&* OPT Ott ..t I I a as 0 0 a 1 0 0 2 a 4 1 1 v &V so Is C, 0 w a a to 0 0000*000.400 00641*00*0.60.0 uils-* Cie o a a 016 0 0 0 0 0-9- 0 0 0*04#00000*0  94"MI AAO 0000141196 Ot*C4 a *file I *of V. G. 4L US- *0 S Vd so d Ow. C" tw -- bui. .NALIA ASAI-SLA ACTACLOIN"AL LM*AtME CLAUWWATCM u a kv so "I. MV cac lr-F, 11mv W. car in a I a W ofo' a :Joe 0; 0 0 a* 0 0 0 0 4 a 0 0 0 0 0 0 0 0-0 0 0 0 w0 0 7Z, All I a a 3 dft 0 0 0o0 as 0 too liof~ go* j XOO 990 =so no* a woo  so iD* Igo of* 4 LIT *M~M o_oplv-- mow 2. s *J.Illdb d so k wAb& A. .00 L,6 IL 05-4alo-stk" -06 IWAIS of Un is dograw by notat IL W. a mt IMIKI CL"WKIVCO 'twA $IT"PS& k sloo." .40 me* 064 c4till u ; lr-~ * , u AV At at .* Wet jrmLW a Is 0 6 0 6 6 GA 0 9 0 OLO 0 a 6 _0_0_0 0 10 * 0 19 0 a 0 *.~o 0 0 0 coo too too too% O"IRIS *Aitol 449 lit Nei 1--w a a a 2 6 600004000000000000  I - 1 11 1 1 1 11 . -1 ~ - I - .- -. I y T_ 7" 1, P, on- a,.- In IAr eq ILI -&-lk-RAIZA g: _!i-- . . 2; JE, Li~` rLS VI M_! - "a IfacwCams Oarv lot fit, - A. D. wet 60 e .3 mumcb. 040 htbibiw - a 6,21OX 06 of We 4bow sell P. T. Alm coo 3 clot Amw wlvF#bjw* . ..... -was* 111d" *it low To r~7 sulin", V Eq in 4 1 a ms a II a IIff of 92 9 T it it a x a 01 1 *_0 wa 4-46, 6 WAAL40 -0 0 W-0-6 060060004,4000660 a 0 we-0 ADA q 0 0 0 0 0 -0-46 0o- & 0411-0-0-0-0-e  - a- tt 'to v t$ is T Is at I D a 9 L AL -WW 40 eccolifics Wtv oof PtQPUW" d,-=J6*fQ4ft-i&(Wll6 sea ! . 00 a for thapepidw CO.&M Pb 004 Got 00 000 006 GOO too o see. 4 r too so a 00 It*" JAW *0 114 wi W4 0 dog 4XI -,-- #A A t 0 a 4 1 1 1 40 Ox ,*, It mlse me - - 'd, ~iru , ~,Oeao OALO-9-41 0 0 o 0 0 0 41,41 MM  WITTER. K., doteent, kandidat takhnichaskikh nauk Cylinder group of the piston engine. Kz7l.rod. 3 no.12:13-U; D 152. (Airplanes-Engines) (KUA 8:8)  ZAKITM.M.N. I dotsimt, kandidat tokhnichookM nauk Airplane pisilon engines. Kryl.rod. 3 no.4:15-22 Ap 152. (Airplanes-Rngines) (UM 8:8)  z AO "Ilov , t.1 t . 113clf-propoll,~d Vehicles," Rcvlle~;:3 7evelor:'ont, of velocipedco~ Zan Oboronu, 14, N-0. 3, 19-",8-,  14-57-6-11682 Translation from: Referativnyy zhurnal, Geografiya, 1957, Nr 6, p 9 (USSR) AUTHOR: -,Zamkov, A. K. TITLE: Field Experience and Industrial Trips for Geography Students in Pedagogical Institutes (Polevaya proktika i proizvodstvennyye ekskursii studentov geografiches- kikh fakul'tetov pedagogicheskikh institutov) PERIODICAL: Izv. Akad. ped. nauk RSFSR, 1955, Nr 74, pp 213-231 ABSTRACT: This is a study of the experience gained by geography students in Moscow and Leningrad during the summer of 1953. Since the state had failed to do so, it.was necessary for each institute to devise independently a summer program of practical experiences. The Leningrad Pedagogical Institute imeni Gertsen devised the best program for the first course; it was dis- Card 1/2 tinguished by the breadth of its scope and its  14-57-6-11682 Field Experience and Industrial Trips (Cont.) instructional content A particularly good example of this instt- tute's positive practical approach is the following: the students of the second course in the extraourricular -work, set. uAAn a regional room in one of the district schools, plannea scientific and instructional field trips in the area, and drew up a soil map for one of the area's collective farms. The absence of a unified prograit for all insti- tutions of higher learning left room for considerable variation in field experiences. In 1954 the Ministry of Education of the RSFSR introduced a new program which definitely had polytechnic studies in view. It undoubtedly clarified and made uniform the field experi- ence of every course.,- Howeverthe new program does not have suf- ficient explanatory material and lacks methodical instruction, both of which. are essential for group f ield- work. Card 2/2 L. 3h.  Z4.-1 !I"',. Ian at,:~ st. i-ne- if. 1. Er-nin, 2~' jun 47. Re~-ions. .,C:3cow St, SO: Vechern- 94.7 (Froao~ -717~36) ya-fa Xim; 1 .11 W  ZAKKOV, 1D.G., insh. Investig!tting heat transmission and hydraulic resistance of ma ine circular-pipe coolers for viscous liquids. Sudostroenie 25 no-5:21-27 MY 159. (MIRA 12:8) (Marine engineering)  PROSHKINp Ye*G.j KHOROSHAYIDp Ye.S.; GRISHA, G.V.;,,,-Z Study of ultrashort radio wave propagation under corditions of a coke plant. Koks i kbim. no. 5:29-31 161. (M:MA 14:41 1. KharlkovsUy politekhnicheskiy institut. (Coke irdustry-Equipment and supplies) (Remote control) (Radio waves)  ZJV4XOV.-N-.S. and F. L. OELIBMiT Stakhanovskie metody v armaturnykh rabotakh. lbskva.? Stoivoernorizdat, 1948- 32 p. illus. Stakhanov methods in armature work. DLC: TJ1167-G4 SO: Manufacturin.rr ai id Meclianical Engineering in the Soviet Union, Library of Congress, 19~53.  AKPAMVp Z. M. , kand. geogr. nauk; RAKITNIKOV, A#N.p kande geograf. nauk; YNMY,-Q.L kand. geograf. nauk; SHERCKWEDUP'A.M. [deceaBledl,- SAUSHKIN.. Yu.G., doktor geograf. n!Luk, prof, otv. red.; DEGTYARI, V.I., red.; KRISAMOV, A V., kand. geograf. nauk, red.; ASTAXHOV, A:, red.; GORIKOVAYA, Z,P.~ takhn. red. (Agricultural geography of Samarkand and Wdhara Provinces] Geograftiet sel'skogo khoziaistva Samarkandskoi i Bukharskoi oblasti. 1*13y]Z.M.Akramov i dr. Tashkent, Izd-vo Akad. nauk UzSSR. Pt,:2. 1961. 323 p. (Materialy Uravshanskoi ekspedi- tRii SOPS AN UzOSR, no.1) (MIRA 16:4) 1. AkaderwLya nauk Uzbekskoy SSR. Tashkent. Otdel geografti. 2. Nachallnik Otdela sellskogo khozyaystva Gooplana U2;bek- skoy SSR (for Degtyar'). (BUkhara Province-Agricultural geography) (Sazarkand Province-Agricultral geography)  Agriculture of the Izhervsk flood la-ad of the Ika Valley. Top. geog. nci.49:95-117 160. (KERA 13:8) (Ryazan Province--Agriculture)  ZAMKOVI 0. K., Cand Geog Sci (diss) "Geography of the agriculture of the rayon of the I:zhevskiy bottom-land mass of the Oka River." Moscow, 1960. 18 pp; (Moscow State Univ im M. V. Lomonosov); 225 cop- ies; price not given; (KL, 17-60, 143)   ZM KOV, V.A. . - I..-. - .. -- .1 P~Sztcwevolcigical theory of electrooptical phenomena, FiLrt 1. Opt. i spektr. 15 no.5s654-658 N 163. . (MM 16:12)  120-3-20/40 AUTHOR: Zam_kov, V.A. TITLE: A Generatil, of High-Voltar-ol Rcct;angular Pui&:,~,, (knerator .C~ .1. U. C~ '%.,) vJ-OO"-Ovo- 'try-1ch PrY-u-,ourU*ol1ny1,-_h impul,sov) RORIODICAL: Pribory i Teldmi,za Eksperimenta, 1957, Ur 31 PP.?3-75 US'S R iUSTIMICT: A cenerator, which produces rectaner,.ular j)ulses smoothly variable in duration from 0.3 to 25 000 iisec ;md with amplitudes up -to z~ kV, is described. The slo-je of the lead- inc,, edGe of the -Dulses is of the order of 0.0' jLsec. The circuit ~ W) is based on the principle proposed by A c,-,,akh~nyj)jj ef.1). Mien a tri-rorip- -pulse is applied to 00 - Z) - -'U-'he ,)-tid of the hYdrorq,--)en thyratron Jql the canacitor Cl charged "Go a voltage ri commences to discha throu-h Im.) U ~, 0 1 rge C3 R and. R char-in- up the capacitor 1 2 1 U L, - C^ . This pro- cOss c0n-~Inues until all the circuit is at the same U.- U _U poten- tial B =.DOCl/(Ol +_02) relative to earth. If the time constants R 1C 1 and R2C2 Card 1/3 are equall, then the ii-id-point of the divider R, and R2  120-3-20/40 A Generator of I!i,,.;h-VoltaSe, Rectan.-ular Falsos. will bo E' at the instzu)t when A 1 is cut-off, and will remain at this potential until a pulse is app-Lied to the g which produces a rapid dischar-e of the capa- grid of JI;2 citors. The circuit is triso-ored from a -encrator MC-1 UP which pro6.uces, LroT. different outputs, two 10 V pulses, the delay between therin being variable from 10-7 to 2.5 x 10-2 sec. These Dulses are too small to trig-er the thyra- trons TTIM-90/3 directly, ana therefore they first trir---or the thyratrons J1 3 and J14 from the cathodes of which are taken pulses of apPro;cimatelY 350 V amplitude to trigger the basic circuit. The damping diode JI 51 LG-4 (or its Russian equivalent 6L~031) protects JI 3 and J'4 from high voltage pulses which appear on the grid of JI at the C.~ I instant it is switched off. To rednce the capacity between the cathode, heaters and earth of J11, a special low capacit~j (2 pF) heater transformer was designed. To with- CD Card 2/3  120-3-20/40 A Generator of High-Voltage Rectang 0 ,ular 11ulses. stand heatin.-, R and R2 were low-inductance, wire wound, nichcome risistors wound on a special mica former. It was necessary to arrange screening to prevent pre-ignit- ion of J12 when J1, fired. By =necting cathode follow- ers in the -trigger circuits of J11 and J12 and replacing Tr~41-90/8 by TrL42-32q/6 it was Possible to increase the pulse amplitude to 10 kV. For a low output impedance, a cathode follower (PO-17) is added to the circuit. K. N. Baranskiy assisted in this viork. There are 3 figures and 1 Russian reference. J. -1 f ASSOCIAT Toll Depa!rtmento PhYBIP-13JA M.V.Lomonosov (Fizicheskiy fakull- tet im. r-A.V.Lomonosova) SUBMITTED: January 29, 1957. AVAILABLE: Library of Congress. Card 3/3 1, Pulse generatw~s-Application 2. Pulse generatorts-Operation  I...-~l%'P"2mlfw6y- ~-,Twgglfggm- z AMY 0 V., V. A. Gorral-aticm-, In 2ir,-alqcl. 9 n~:,Jj~A-379 A,p 164. (MIRA 17:8) 1. Moslov.,;Uy gomidartAvonnyy univeroitot.  C-~ ZAMKOV, V.AO--, ElectrooptLeal phenomna in sOlatiOr-s of macromolacul6m. zhur, fiz, khim. 37 no,,4001,-903 Ap 163,, (MBA 17:7) 1 1: 1. Moskava!dy gosudarstvannYY universiteto .i.  43925 S/188/62/000/006JO07/016. B187/BI02 AUTHOR: 2am:120-v, V. Aa TITLE; Thermodynamics of the critical'effects in an electric field PERIODICAL: Moscow# Universitet. Vestnik. Veriya III. Fizikap astronomiya,,no. 6, 1962, 32-36 .2nNg m 2 B TEXT: The formula i~- n is derived for sufficiently VMT V-1) B+1 c c small T T and large L on the basis of the,general Frdhlich relation c 2) A -n (2&+n2) . jnNM M Here G .is the dielectric constant, n is the 3t 3VkT r6fractive index,.N is the number of cells in the volume V of molecules or molecule groups.with equal mean polarizability in an-external field', m is the moment.of the-cell-in the 6ilbstance which is det.ermined. by the configuration -of more closely interacting molecules, m is.the'moment of an arbitrary sphere polarized by a cell m in it. The subscrip.ts.c indicate.the critical values, -r.- T/T. is the reduced temperature, B is A constant depending on c Card 1/4  3/188/62/000/006/007/016 The.rmodynamics of'the" critical... the equation of state (B - 0 for van der Waals~.. It can be seen that f-passes a maximum for V - V "and T = T Scaifo (Proc. Ph~s..Soc., 69B,- C, :--,-153, 1956) has given a formula for the pressure in a uniforti electric -field E. This formula is used to derive an expr9ssion for the modulus of compression llx, which contains a factor of 1). squared and which .,therefore has to vanish when the critical value.s.'for two values of -r1 and -z 2 "1ave beed reached. 2 2 1 = AE 2. E A (n -1)(n,+~~ B -Nm m 1,2 + B 72np' 6pcVckT6, c 2 For nonpolar substances a slight variation ensue.s.in propoition'to E For. 2 highly polar substances (BIPA.) the displacement of the critical temperature goes linearly with the jieid strength. For molecales with a strong dipole an estimation gives BE"--- p-E Iand AE 2 aE2 wheret& is the dipole 3-kT. IkT ~1082 ~2 c 2 c Card 2/4  6/188 62/000/006/007/016 Thermodynamics of the critical... B187)B102 moment of the free molecule, a is the polarizability. The increase of T 0 in an electric field is proportional to the ratio of the.energy of the molecular dipole to the energy of the rotational.degrees of freedom. The above estimates yield RT /V P - 0.293. This value agrees to three c 0 C qacimal~places with the empirical results ior noble gases aa obtained by- Guggenhedm (Thermodynamics North Holl. publ. Co., 1957)- 'An estimate gives A,-'vO.0001 deg/v and Bcd 10-4 CGGSE 2T It is supposed that condensation in the presence of an electric field along and across the field takes place at different temperatures. -C is reached first which corresponds to a two-dimensional condensation in a to the field. A meniscus does not appear when the plane perpendiculai electric field and the gravitational field have the same dixection. When the fields are crossed condensation occurs imme'diately. This state is described exactly by the Onsager theory (Phys. Rev., 65, 1.17, 1944). Card 3/4  S/18 62/000/1)06/007/016 Thermodynamics of the critica'l'... B167YB102 ASSOCIATION: Kafedra molekulyarnoy fiziki (Department of molecular Physics) SUBMITTED-.------- Marcb:-N, 1962 Card 4/4  ZWOTI V.A* Thermodymias of critima phenmena in an electric field, Test.Koskeuna Serv3:Fiv.,astrou,, 17 no*6:32-36 N-D t62,, (KM 15112) 1. Wedra imolekulya=oy fi2dki Moskovskogo universiteta. (Electric fields.-Themodynamic properties)  7"Ov V. A. ---4:~~ Measuremint of dielectric constants in the neighborbacd of the critical point. Zhur.fiz.khim. 36 no.5sIO60-1061 My '62. ()GRA 15:8) 1. Moskovskiy gosudarstvennyy universitet imeni Lomonosova. (Dielectric constants) (Critical point)  ZAMKOVp V~A* TheOry Of OlectrOOPtical Phenomena in the critical reg~j(m* Ukr# fizethure 7 noo7t720-723 Jl 162. (MIRA 15t12) le Moskovokiy gosudantvennyy universitet, (Photoolectricity)- (Light-Scattering)  -S/-185/62/007/007/002/010 1048/1248 AUTHOR: Zavtkov, V.A. TITLE-. The theory of electroopticnl -phenomena in the critical rc~nge PERIODICA.L: Ukrainskyy fjzychnyy %hurnrd, V-7, no.7, 19629 720-723 TEXT: The intens. -ty of polarization of li!-,ht passing through ;7t of critical concentration subjected to a strong electrical field increa~-.es sharply with decreasing -r xs(T/Tc)--I) where T i!,, the temperature o.-'L-' the mixt=e and To the critical temperature. The experiment:-.1 results conformed best when the mixture.was entirely inside a uniform electrical field. These C;i,rd l/ 3  S/185/6iVO07/007/002/010 1048/1248 The theory of... phenomena ars- due -to the superposition of the light scattering on the aniscIr opic fluctm-tions in density and the Yerr effect, The Kerr constant (Kf) incre-sed sharply near the critical temperature, Equations are derived for the index of refraction, the Kerr cone- tant, the coefficivnt of extinction of critical opalescence, and for the depolari"ation of the li,~ht passing through the mixture. Kf in the vicinity of the critical temperature is a function of 3 ~4,,whereit,.is the compressibility in the absence of a field. Coordination of the mathem-tical expressions with the experimental data is difficult, as the equations narrowly assumed. that the die- lectric constant is independent of electric eveh i'n the criti- cal range. The scalar sc,-ttterIn- of light by a substance placed in a utrong electric -L'3-eld is anisotropic by compressibility in Card 2/3  "iii"Wim 3/185/62/007/007/002/010 1048/1248 Tho theory of.., the vicinity of the critical point. ' A verification of the Onsager theory (Phys.Rev., 65, 117, 1944) can be attempted at the tempera- ture at which 0 (where A,. is the compressibility across the electric field), but strongly polar m6dia must be used. ASSOCIATION: Moslcovskiy Gosuniversitet (The Moscow State University) Card 3/3  ZAMXCVo V.A. Forced anisotropy. Vest. Mosk. un. Ser. 3: Fiz., astron. 16 no.3:119-23 My-Je 161. (MIRA 14:7) 1. Kafedra m,)lekulyarnoy fiziki Moskovskogo gosudarstvennogo universiteta. , (Anisotropy) (Molecular dynamics) (Calculus of tensors)  SOV-120-58-1-35/43 AUTHOR: TITLE: A Resistance Thermometer with Small Inertia (MaloinertsionWiry termometr soprotivleniya) PIMIODICAL: Pribory i Tekhnika Eksperimenta, 1958, Nr 1t pp 134-136 (USSR) ABSTRACT. The thermometer k"Fig.1) is in the form of a U-tube made of pyrex md having a diameter of 1. 5 mm and viall thielmess of 0.1 mm,, The U-tube is filled with helium and contains a platinum spiral, having a resistance of 25 ohms, the dia- meter of the platinum wire being 0.05 mm. The ends of this spiral are gold soldered to the current leads, having a diameter of 0.21 mm and are hermetically sealed. to the ends of the pyrex tube The total dimensions of the thermometer are 35 x 5 x 2 mO excluding the leads and its weight is 1 0 4D 0.5 9. Its inertia is about 0.5 see. A detailed descrip- tion is given of the method by which this thermometer can be COnStr=ted in accordance with -the specification of the International Temperature Scale. The thermometer can be used in the range -182-970C to +444.60C. Card 1/2  SOV-120-58-1-35/43 A Resistance Thermometer with Small Inertia. There is I fiGure, 3 references, 2 of which are English and 0 1 Soviet. ASSOCIATION: Fiz:Lcheskiy fak-ul'tet blIGU (Department o1 Physics of I'Aloscow State University) SUBMITTED: January 29, 195?. 1. Resistance thermometers--Design 2. Resistance thermometers --Perfor.mance 3. Resistance thermomters--Materials Card 2/2  Il 1; T TI "I ZAMKOV, U.S., laureat Stalinskoy premii. [My prodaction methods in reinforcement work] Xbi metody proizvodstva arma- titrnykh rabot. Moskva, Gos.izd-vo lit-ry po stroltalletva i arkhitekture, 1953. 44 p. (KLRA 6:8) (Reinforced concrete construction)  ZAMMV, 0. K. Flood lawls as element of agricultural expansion. Hauch.dokl.vys. shkoly; gi3ol.-geog. nauki no.2:213-222 158, (MIRA 12:2) 1. Moskovskly universitet, geograficheakly fakalitet, kafedra eko- nomicheskoy geofrafii SSSR. (Alluvial lands) (Agriculture)  ip a a KIM 4a twivue fw V. As 17 A too 00 Me *0 law 2 rlvoe . off a. 616 imunicAt %smailm CLA"WICAT" to 0 1 . .......... 94W oo 6 L, -I.A44t E !LT .40 Gov Git -91 -AT DTIzi-OW-F, i-_- , - - 1 0 _ If L u 1 'r - 1 r w IN 0 a 4 2 a v i a a, 0 a A a Is it ;&I fit; 0 ~ ~ : 7 _ 0 1 0 0 e 0 a 0 4, 0 0 ***-*G,* 00.4 '0000*0 0 00000 see a OA - Is , L we 0 0 0 0 .0 ft a 0 0 WO 0 0 40 0 0 00 40  23283 S/135/61/C,00/007/006/012 A006IA106 AUTHORS: Asnis, Ye,, A., Zamkov V N Engineers TITLE; Peculiarities of welding copper on chrome-niokel steels PERIODICAL: Svarochnoye proizvodstvo, no. 7, 1961, 20-22 TE(T -. To replaoet brass employed for devices, operating at low temperatures, by 18-8 type steel, the, authors Investigated welding and soldering of copper parts on stainless steel components. The study was carried out at the welding laboratory of the Kiyev "Bol'shevik" Plant with the participation of engineer 0. K. Gayduaheriko. Grade M2 copper was welded on iXA~qT (iniffiqr) austenite steel, WT. 3 (MSt. 3) fetrite-perlite steel and double-phase high-alloy chrome- nickel steel containing over 30% ferrite. Building up was performed with the use of a 50 mm wide and 0.8 ft- thick strip under AH-60 (AN-60) flux. The bi-metal' specimens (copper+ 1Kh1W9I! steel) were sub.ected to bending tests ett +20 to -70 Oa. Preliminary test# showed that copper in molten state can penetrate in the adjacent metal. The degree of penetration depends on the Metal Structure and stresses arising duping the bruilding-up process. The effect of these factors was investigated on microseotions of specimens, built-up with cooling, pre-heating, Card 1/3  232133 012 5/135/61/000/ID07/006/, Peculiarities of welding copper ... A006IA106 different linear energy and different thickness. The effect of cooling and pre- heating on the proneness of austenite steel built-up with copper to hot crack formation was studied on 10 mm thick'specimens. In the former case the specimens wervooled with runnin4g water at 12 0C; in the latter case they were heated to 800 . In both cases microcracks were not revealed In the built-up metal. The effect of linear enerjW was Investigated with the use of 4 mm diameter M2 wire and a 16 mm thick 1Kh1ENqT steel plate. Building up was performed at 12,350, 10,550, 8,45o, 8,000 and 6,920 cal/cm. It was found that with reduced linear energy the proneness ot the built-up metal to hot crack formation decreased. To determine the effect of the base metal structure on the penetration of copper, 10 mm thick MSt.3 steel and high-alloy chrome-nickel steel specimens were built- up. Macrocracks were not revealed-. The effect of thickness was studied on 300 x 100 1Kh18NqT_ specimens built up with a copper strip under A14-60 flux, at 40-45 v are voltage, 475-550 amps current and 12 m1h welding speed. In all specimens, up to 12 rmn thick, microcracks were revealed, filled with copper, which run from the fusion z=e of copper with steel over the whole section of the specimen. Mechanical tests were performed to determine the cohesion strength of the built up copper layer with the base metal. Sections of platen of different thickness and steel grades, built-up under various conditions, we::,e microinvesti- Card 2/3  23283 S/135/61/000/007/006/012 Peculiarities of welding copper ... A0061AI06 gated in reagents of 4 9 C"S04, 20 ml HC1 and 20 ml water. The tests yielded the following results: The penetration of copper into the steel when welding copper on austenite lKhl8N9T steel decreased with lower linear energy and greater t1iick- ness of the metal. The presence of a second phase In the steel reduces copper penetration;at a ferrite content of over 30% in austenite-ferrite sta8l, copper penetration is fully eliminated. Preheating of 1Kh18U9T steel to 800 C and continuous water cooling during buildIng-up process considerably reduces penetra- tion of copper into steel, due to the formation of a second phase. Bimetal ob- tained by building up copper on 1Kh18NqT steel of 32 mm thickness, shows satis- factory mechanical properties and deformation capacities. There are 4 figures and 5 8~viet-bloc references. ASSOCIATION% Kiyevskiy zavod "Bollshevik!' (KivAv "Bol'shevik" Plant) Card 3/3  ASNIS~ Ye.A.p- WO.'OV, V.N,- Welding thizi-shect stairdeso ateel in an atmoophare of arbon dix~kicl;, Avtom. avar. 14 no.10:49-51.0 161. (MIRA 14: 9) 1, Flyevokiy zavod "Boklahevik". (Steel, Stainlaaa-Welding) (Shoot steel-Welding)  GUREVICH, S.14.; ZAMXO7 V.N. Welding titanium with steel. Avtom. avar. 15 no.8:21-26 A9 162. OUR& J-5:7) 1. Ordena Trudovogo Krasnogo Znameni institut elektrosvarki imeni 16.0, Fatona AV USSR. (Titanium.-Volding) .. (Steel-Welding)  ACCESSION NR: AF40i.19260 S/0125/64/000/004/00931'0094 AUTHOR: Gurevich, S. M, (Doctor of technical sciences); Zarnkov, V. x. (Engineer); Zagrebenyaks S. D. (Engineer); Kushairankas N Engineor) TITLE: Effect of rare -earth-bearing fluxes on the structus and characteristics of VT15 -alloy welds SOURCE: Avto matiche okaya avarka, no. 4, 1964, 93-94 TOPIC TAGS: welding, titanium alloy, titanium alloy welding, welding flux, lanthanum fluoride flux, AN-T7 flux, VT17 welding wire, YTIS titanium alloy ABSTRACT: It was found that lanthanum fluoride, as a part of the welding flux, is conducive to good weld formation, welding-pr~cess stability, slag-crust separation, etc. in delding important constructions made from titanium alloys, Lqperiments-were conducted with fluxes that contained various proportions of LaF.; AN-TT reft~dctory fused flux was 'talon. as a baois. Z3 aqgm omftat :h a vall mada by. Card 1/2  ACCESSION NR: AP4029260 VT17 wire (VT15 base metal) was 0. 17% and 0. 10fo with 0 am d 40% LaF. in the nux, respectively. A weld obtained with an optinum content of W', also showed superior mechanical cliaracteriatics (ta~ble given), Orig. art. has;: I figure and 2 tables. ASSOCI4TION., none SUBMITTED; 00 DATE ACQ: ZTApr64 EXCLe. 00 -SUB CODE; ML NO REF SOY: 000 OTHM. 000 Card  MKOV) V. 11. (Engineer) and GURM-Clf, S. M. (I)r. llboh) (Ins ti tu-t0__O_j5e-1-&,--fYrZ--we-r "Welding of titanium -with steel, bronze and aluminum." Concerning questions of direct welding of alloys of titanium with copper and also technology of welding of titanium alloys with alum!Lnum. The possibility of -welding of titanium with steel through a copper layer was demonstrated. Report presented at the lst All-Union Conference on welding of heterogeneous metala, at the Institute of Electric Welding im. Ye. 0. Paton, 14-15 June 1963. (Reported in Avtomat.tcheaRaya 9varka, Kiev, No. 9, Sept 1963, PP 95-96 author, V. R. Ryabov) im 24,651 i9 may 64  ;WA h) L 14 94T vi v) WP-(k)l i&MA h) 264-66 &100(01 ACC NRi AP6002587 SOURCE 'C"ODE! UR/0296/65t9001023/0081/0081 INVEMR: Gurevich, S. :11 Zamkorv, V. N.- Z grebenyuk, S. D.; KusitnLi- nko, 1. A. ORG: none TITLE: F for weldtnf;..Iight alloys such as titanium-Vvd its alloys. Class 49, NO. 176789knaounced b3r:the Electrical- VeldigS Institute 1m.Yd. 0. Paton M MrSSR (Institut electrosvarki AN UkrSSR)j SOURCE: Byulleten' izol.7reteniy i tovarnykh znakov, no. 23, 1965, 81 TOPIC TAGS: welding, submerged arc welding, light alloy welding, titanium welding, titanium alloy welding,.~weldihg flux ABSTRACT: This Author~C.P-rtifieate introduces 4 flux for welding light alloys such as titanium and'its alloys. To improve mechanical propertids and reduce the oxygen content of weld metal,:the fluxis composed of 83-91% calcium fluor~tde, 1.5-2.5% sodium chloride, and 71~-15% lithium fluoride. [ND) SUB CODE: 13/ SUBM DAM 25jul64/ ATD PRESS: C/ Card 1/1  I- oV)60_67 ru.~'L- rv..,.rrktm"P /'MT t t' "Ac, ACC NRt AP601"39 SOURCE CODE: UR/0125/65/000/012/0040/0045 MHORS: Grabin V. F.; D~yiovich, 1. Ya.; Kushnirenka Id. A.; Zamkov, V. J ORG: Institute for Elactro-Welding imeni_Ye. 0. Paton, AN UkrSSR (Institut alektrosvarki All UkrSSR) TITLE: The formation of TiCr2 in welded oints of titanium alloy containing the unstable (3-phase SOURCE: Avtomaticheskaya svarka, no. 12, 1965) 40-45 i TOPIC TAGS: titanium-a1loy, chromi'um ~con=ing alloy, molybdenum containing al-loyo aluminum containing alloy, welding technology, welding inspection, seam welding V-115 titanium alloy AM-TRAM The formation, distributi~ n, and effect on the weld properties of TiCr2 formed during welding of alloy VT151was investigated. The investigation was carried out by metallographic and electron microscope techniques. The distribution of and ~3-phase stabiliz.'Lng a1loying elements was also studied. This study was carried out with the ald of microsonde t'Kamakalt as described by R. Castaing (Appli- cation des sondes e'lectroniques "a une methode d'analyse ponctuelle chimique et cristallographique, Thasis, Univ. Paris, ONERA, Publ. N. 55, 1951). The experi- mental results axe sumnarized in graphs and tables (see Fig. 1). It was established UDC: 621.791.7:546.821  NRi A.P6011,439 Fig. 1. Metal structure in the seam after isothermal annealing up to 670G for different time periods (x 250). a - 24 hours; b - 1500 hours, electropolishadi; c - 1500 hours, etched, that TiCr. is indeed present in welding seams of alloy VT15. To insure high impact 4 strength of the seam, the latter must be quenched from a higher temperature than the base metal. The separation of TiCr2 along grain boundaries is accompanied by a I  ACC NRt AP6014-439 redistribution of the-alloying elements--chromium, mEjyj?jentzmp and alum-intma Orig, L art. has;- 3 tables and 6 graphs. -;-I -t- 7 V SUB CODE: Il/ SUB14 DArEt 0914ar65/ ORIG RET; 004/ OTH REFj W.)  (W)/ET L 40796-66 ~(Uj)/T/grp p(t)/ETI Tjp(e) JD ACC NRs AP6021000 SOURCE CODE: UR/0126/66/000/006/0010/0015 //7 AUTHOR: QxAbjqV V. G.; Kushnirenko, A.; Zamkov, V. N.; Gordonnaya, A A ORG: Institute of Electric Welding im. Ye. 0. Paton, AN UkrSSR (Institut elektrosvarld im. Ye. 0. Patona AN UkrSSR) TITLE: Kinetics of phasq. transformatio welded ioints of VT15 titanium alloy SOURCE: Avtomaticheskaya avarka, no. 6, 1966, 10-16 TOPIC TAGS: titardum alloy, phase composition, metal Joining,, weld evaluation VT15 atanium alloy, EG-100A 6tectron diffractior, camera -1 A33STRACT: Ae me"chanical properties of the welded joints of this alloy are largely deter- mjped by the decomposition of P -phase and the properties of the products of its transform- qtjqn. Ilenco, the detorm1natIon of die tornporattire Intervals of formation of these products effect on weld properties to highly Important, since it makes poss%te not only the 4 s o inent of the role plj~ycd by Intermedlate phases In the embrittlemene 6f weld metal but the determination of the ways and means of perfecting the welding techniques so as to 1/2 UDC: 6ZL 791-.620.181:669.295  ACC NRt "6021000 assure welds of improved quality. Accordingly, the authors Westigated the kinetics of the P-phase in welded joints (obtained by submerged are welding 1-6f VT15 alloy under continuous heating. To this end the welded joints were subjected to dilatometric studies (with the aid of a vacuum differential dilatometer); the phase composition was investigated with the aid of an EG-IOOA electron diffract1on camera; and the microstructure, with the aid of optical and electron microscopes. Fbidings: the presence of the martensite transformation~-,ca at 45OoC and the possibility of the formation of TiCr2 during continuous heating are established. It is further shown that the impact strength and plasticity of these welded joints may be optimized by quenching from 900*C since then the temperature interval of P*a transformation Is lower (r- 200-35OoC) while the temperature interval: of,4-4,0 tr aniformation "is-high art. has: 7 figures, I table. SUB CODE: 1*6,111?,0/ SUBM DATE: 19Nov65/ ORIG REF: 007/ OTH RH W: 003 L~and 212  AP6030268 SOURCE CODE: UR/0125/66/600100 AUT11OR; Gutevich. S. H.; Grabln, Vo F.1 Zamkov, V. N,j Kunh n1rdnko 11, A, ORG: Electric Welding Institute im. Ye. 0. Paton, AN UkrSSR (Institut elek AN UkrSSR) TITLE: Some causes of the.low duct:tlity in heat-treated VT-15 alloy velds I 1b /'t(. SOURCE: Avtomaticheskaya evarka, no. 8, 1966, 18-21 /0021 0 varki.15 TOPIC TAGS: titanium alloy, titanium alloy welding, titanium alloy weld, weld ductility, alloy weld heat: treatment, TiC, welding, electron beam welding, submerged ate welding/VT15 titanium alloy ABISTRACT: The causes of low ductility In VT15 tjjaniun~lloy welds annea4ed and quenched after welding at 800-900C have been investigated. Alloy Iheetg'3 5 nn thiq~ were joined either by subaerged arc welding with ANT-7 flux,-_ZIG weldin wi;h or with, out ANT-15A flux (in both cases without filler wire), or by electron bewrNelding. It'd was found that only in welds made with submerged arc did water quenching from 800-900C increase the weld impact toughness and bend angle from 1.1 mltg/cm2 and 7* in the as-welded condition to l.5-3.3`takVcm2 and 40-73* after annealing$ In all,, the other welds (which in general had better duct'ility than submerged-irc welds), annealing and quenchini larered both the notch toughness and bend angle: in T16 welds from 3.85 mkg/cm and 160* to 2.8-3.0 mkg/dm2 and 135-1450; TIG flux welds Card 1/2 621-791-mitfifiq-2gs 1  ACC NRt AP6035755 SOURCE CODE: UR/0413/66/000/019/0125/0125 INVENTOR: Gurevich, S. M.; Zamkov, V. N.; Sabokar', V. K. ORG: none TITLE: Flux for welding austenitic steels. Class 49, No. 186842 [announced by the Electric Welding Institute im. Ye. 0. Paton (Institut electrosvarkig SOURCE: Izobreteniya, pr.:)ciyshlennyye obraztsy, tovarnyye znaki, no. 19, 1966. 125 TOPIC TAGS: stee-1 welding, welding flux, stainless steel.,TIG welding ABSTRACT: This Author Certificate introduces a flux containing calcium fluoride and intended for use in TIG welding austenitic steels. To improve weld quality, the flux contains 80-90% lithium fluoride and 10-20% calcium fluoride. SUB CODE: 13j// SUBM DATE: 09Aug65/ ill UDC; 621s791.048  ACC NR& -1. All 7 0019 2 6------ sona-con-t- ul~/0'1257667000/01~1/00IS/oOi6--T- AUTHOR: Gurevich, S. M.; Zamkbv, V. N. ORG: Electric Welding Institute im. Ye. 0. Paton,AN UkrSSR (Institut elektrosvarki M UkrSSR) TITLE: The effect of flux on TIC welding of titanium alloys SOURCE: Avtomaticheskaya svarka, no. 12, 1966, 13-16 TOPIC TAGS: titanium alloy welding, flux,shielded are welding, argon shielded arc welding I-nG \Msk~tv~a$ I(Lkkol "%m-A %0-s Va(-AA't%A'A ABSTRACT: Several series of OT4 and VT15 titanium-alloy sheet specimens'2-5 M thick were automatically TIG-welded with the use of fluxes of various composition. It was found that ail the fluxes tested lowered the welding current and increased the arc voltage.,with the arc power re- maining constant. Increased voltage resulted in a deeper penetration and a narrover weld. All these changes are believed to depend on the physicochemical properties of fluxes, especially on.their ability to wet solid titanium at high temperatures. The width of weld is also affected by the boiling temperature of the flux. An increase in voltage was found to depend not only.9n the increased.arc length, but aloo on the increased anode voltage drop*, orig. art. has: 4 figures. SUB CODE: 1'1/ - SUB1fDATE':' 29Dec65/ ORIG REF: 0071 ATD PRESS: 5111 bard 111 UDC: 621.79i.856:669.295  I GUREVICH, S.M.; ZAMKOV, V.N.12AGiMW"-' S.D9,'MSjDjIRSJKO, N.A. ,P ip Effect of flwcea containing rare-earth elements., an the struc- ture and Im-operties of girth joints In the VT15 a-UOY* Avtom- avar. 17 na.4:93-94 Ap 164 (MIRA 18e1)  7AKS, M. G., and._WKWA M. A. - "The Role of the 'Eh:.ToJ.d Gland in the %hryogenesis of Vertebrates.11 Zef. Zhur., Vol 33, No 4, 1947, P W. Mair of J~iysiology of the State lep-in~%rad Pediatric Med Inst. SO: U-4396  'Actuivit-,7 of Carbcn U-tydracne in Pre-ature BabieL-," Vop. Fed. i U_hran. i Det., 16, I'To. 5, 1948. LeninZrad Pediatrics Yed. In2t. (Ybr., Chair Phy_-Iolo~;y, -cl948-; 1"br., Chair Haipital Fediatri, -;-(:1948-).  ZAKS, M. G., ZAMOVA, ',., A. Salmon "Effect of thiourea on oxygen metabolism in salmon and sturgron larvae." Dokl. AN SSSR 84 no. 5j 1952 Monthly List of Russian Accessions, Library of Congress, October 1952. UNCLASSIFIED  WL' , kle ~ i! a 0 v it 111 11 4 1) il 1) ji it al liz? ama j6pa2vius? vu JOB is AY af-W #1 M4, Moro A A It- P Q R IL-.T-- CC UP-% k , , . $v. -a,$$ 4 t I j -eft 04 IJPIpbmqtfal tollm floccuuU24 to two seafil. r. 1. ltA14Yen. /. Alw,AiWi Kjkideft"~ lwvikova wkit L, 1l 00 c jt-4. s, R.) jkk';t5" 61JI" Ptvarb -W) ,. -.14MIC d1phifirrial fossirm fitnvulArt at Lf 411140 AR 111%, 44 3-YAN. The Anstaxins Onmiiftd Moo dmvu- ! ad f t d dOW '0 a xvi ou WU Ntr III tow#. The aue t[w (i j 0 f4s tv the Inkref ofte by stet"mining 11Y "WOU 01 911111ft i I I i d II Is mai strum al. " tot 1043 ilm raw (" wbkh itte Is 111A.- Tu "t'stme 1114Y 1w IlAtell" th4JO411. ill t A . ruilA s 60 1 $00 e . see go-- Alb-11.4 bjIAhLbP.G1C&L LITEAPAILAII CLASWICAMN tz 0 0 %dI1 A& 1810 00 It u T9 At 3 V 'il IN WX4 0 0 t ~;~ e 0 0 0.0 It to It 4; 61 Ox a lot I IIt If I% 00 00 so 0 0 0 0 0 410 0 0 0 0 0 6 0 0 4 n 1 14 0 90 0 0 0 00 6 4k 0 0 0 0 4 got 0 0 *so 0 * a 0 'f , Ano 0 00 0 0  N1. G.&Aks and W &Zamkova. LWkdy Id !lkIjd.XjPdkS.S.S.X 84 thkMrv% to the WM~4 L -bkb the Mt.. stufxrtut (AdPrMso IkUMMI) C" k"K 1107-2- for W-VAI III*. kA41% to dix-feasal consumptloti of 01. Ifoorever, the (!eateil -lk'Ch#Wn% $h" a tauck kow declitif of utifii:44- 16011 d Of Whim (he IkutiAl PIC"We of 01 Lf ar4flually 41C. Creased than Is al"o by normal spcchucus (results given an bar graphs). Addo. of thymLive to the sulas. (l:2,00U,0(jU) along with urvA destrop the effect of thio- urea. G. M. K01106p(Iff  SY----mr- -A-M-RM-AP 502 3016 SbURME URM25165100/00910001/060 UTHOH: Gurevich, S.- M (Doc ee A tor of technical sciences); Zamkov v V. A. (Engin r teer) Kushnirenko, N- A- agi Vi5S ORG: Electric Wilding Ibstitute im. Ye. 0. Paton, All UkrM (Institut electroavark AN UkrSSRY VITLE: Increasing the depth of penetration in argon-shielded arc welding of titan- ium- 912y-s- '4omaticheskW~a~ S 1965, 1-4 SOURCE: A varka, no. 9 TOF,`,-TAGS:, titanium alloy, alloy welding, TIC, welding, inert gas welding, veldin 9 flui,- oxygen.free flux/VT'L5 alloyVoT4-alloy.-M,1TqA -welding flux ABSTRACT- Experiments have been made to determine the effect of oxygen-free fluxes on the penetration characteristics in TIG welding of -titanium alloys.: On the basis of the preliminary resultfi, a complex alka-li naetall< salt base -zi-UX Pff-M was de- veloped for use in ar thielded arc welding of titanium alloys./( With this flux, 6 or 3.5 mm thick VT1 oy plates were welded in one pass with respective currents of 220 and 100 almp.. Frenex,lally, the use of -T9A flux makes it possible to reduce the weldi '-- current for 3 5-MM thick M 5 land 4- and 6-= thick OT4 'Eiva from 240, r'__9 320, and 310 to loo, 14o, And 220 amp, respectively. -The flux also cuts the heat input by about 60% and greatly decreases tile weld width-to-heigirt ratio (from about Card UDC;'621.791.856,546,D21~_  -ACC NR, AP5r,'-'3oT6 5.3 to 1).. The structure of weld mo-tal Produced TIG volding, with All-TgA flux ~5-~ close to that produced by ejectr_on-beam woldin e VT15 alloy weld metal deposited with an AN-TqA flux had a tensile strength of 9;.l kg/=2 and a-notch toughness of 5.8 k!,~7n/=2. The corresponding figures for joints electron-beam welded -and-&rgon--- shielded arc welded without the flux were-93-0 and 92.0-kg/MM2 and 6.3 and 3.7 kglcm2, respectively.-- A similar-benefidialeffect of the flux onjhe geometr'V' was observed in-weldin--- or,niobium7l;g~,lyhdenu!a,--l~t?nd austektic -steels/Y For- these metals, however$ 4 '.~ tabler.. - speclal-fluxes have to be developed. Orig. art. has: 3 figures.and._ SUB CODE: 181, IE/- SUBMDATE: O8Feb65/ ORIG REEF. 008/ OTH REF: 002/ ATD PRESS- 4,119' '7 \j  . ~ 72f 4 VV t K BARDWI, N.M.; ZAHMDVA, Z. I. "Organization of therapeutics in a consolidated hospital of a city district" by P.P.Obnorakil. Reviewed by M.K.Barkman. Zdrav.Ros. Feder. 2 uc.3:38 Mr '58. (MIRA 11:1) (HOSPITALS) (OBNORSKII, P.P.)  ZAMKOVAI Z.N. [Development of the Soviet medical -literature) Razvitie otechestvennoi meditsinskoi literatury. Yoskva,, TSentr. in-t usovershenstvovaniie vrachei., 1963. 26 p. (MBA 17%:Ll)  ZAIdKOVA, Z,N. (Moskva) ProblGms In the preparation and advancad training of' libTary workora in medical libmr1res. Sov, zdrav. 21 no.2:50-52 162. Ot*7 - 1. ... -- (NULA 15:3) , --. ~ .. - (IUD ICALIIWAR=)'~ (LrmARY scHous An Tumm)  ZANXOVA Z.N. [soviat medi4ua bibliogmphyl Otechestvannaia meditsinskaia bibliograffia. Moskva, TSentr. in-t usovershenstvovaniia vrachei. Lecture No.l(General medical manuals] Obshchemedi- tsinskie bibliografichoskis posobiia. 1962. 22 p. Lecture No.2.[Thiimatic medical bibliography] Tematichaskala meditsin- akaia bilDliograftia. 1962. 21 p. (MIRA 16s6) (BIBLIOGRAPHY--.~NEDICINE) k  .1j&d Hlknlaxamna; LEVIT, M.M red.; KOROLEV, A.V., ZAMKOVA, ZI MiN P ;oUJLMJ* redo (Bibliography in the scientific and practical wo-rk of the physician) Bibliograflia v nauchnoi i prakticheakoi rabote -vracha. Moskva, Medgiz, 1963. 159 p. (MIRA 16:9) (BIBLIOGRAPHY-MEDICINE)  -ZAMXOVAO Z.N. (Mom,kya) Medical literature publAshed by the semstvom and its ropresenta. tion in the bibliographic indexes of the Firogov Sooiety of Physicians. Sov.zdr4Lv. 22 n0-406-59 163. (KIRA 160 (BIBLIOGRAPHY--MICINE)  BARDUNO H.H,; ZAHXOVA. Z.N. uStudying the req!iirements of industrial enterprise workers in therapeutic and prophylactic services" by I.Y.Pustovoi [Abstracted by X.H.Bar~man, Z.11.Zamkoval. Mrav.ks.Yeder. 1 no.4.38 AP '57. (KiMICM, INDUSTRIAL) (HIMA 10:11) (PUSTOVOID I.Ve)  j " 0- a BARMAN, Z.K.. -. ZAHKOVA. Z.N. =mdSmI4P_-- *Organization and metbods of dispensary services for the rural Oopulation" by R.V.Banvikov. Abstract by I.K.Barkman, Z.H.Zamkova. Zdrav.Ros,,Feder.1 no.2:37 If 157. (KISA 10 '. 7) '(WIDICINN, RURAL) (BANNIXOV, R.V.)  Jdecea--d-~- LYUi3.kRSKJ'Y, YaJue; 5UHIRINA., Ye.I.; "&"~KOVA,,~.ot~ [Manual on medical bibliography] Rukovodstvo po maditsit- skoi bibliografli. Moskvap Meditsinal 1965. 191 p, (141RA 18:7) 1e Moscow, Croryudarstvenmya nauclinayu medit.91-nskaya blblir,- teka.  SUTTRINA, T., inzh.; ZAMKO7x5,-L6., inzh. Renderiz4,, a Freon turbocompressur unit airtight* Khol.tekh. 37 no-3:44 My-,Te 160. (Air compressors) (MIM 13:7)  ZAMKOVETS, V.N., I.nzh.; SUTYRINA, T,M., inzh. Jet pump for the recirculation of liquids in an evaporEitor. Khol. tekh. 38 no.4:51-54 Jl-Ag 161. (MIRA 15:1) (Evaporating appliances)  m ZAMKOVSKnl D. What -1=--ro the qua2ity of clothW. Sov.torgo 3,5 na,7.,7-20 r "V4e a 162. (MIRA 15:11) 1, Upraviyaywhohiy moskovskoy torpvoy shveynoy bazwr Rostorgodazhdy. (Clothing industry)  ~ ZAMKOVSKIY D - KIN&YEVA, V. ~Z74N, ~" 4 ,;~! - low methods for helpIng customers in fashion Mellers axad workshops. Sov. torg. no.8:21-24 Ag '56. (MLRA 9:10) i I (Tailoring) 1. --  _,*Ykch- VINOGRADSKIT, Boris Nikolayevich; UMIU5.1c- - ~ ~j�koX-, ~Wxll 1.. 4. lp. ~' GRANOYSIATA, I.N.. rRAffoor. SUDAK. D.K., teklmidmakly redaktor [Cloth3ng; a handbook] Shveinya tovary; spravochnoe posobte. Mo- skva, Goo. iud-vc torgovoi lit-ry. 1956. 206 p. (K[pA 10:4) (Clothing &nd dress--Marketing)  7ANKO.Voy,, I.Xe.. ImprovirM; the performance of heat-exchangers and lowering -the steari consumption in benzene-producing shops. Koko i khim, ho-7:48-49 160.i (HIPA 13:7) 1# Staliviskiy sovnarkhoz. Plenzene) (Coke industry--By-products) (Heat exchangers)  ZAMKOVOYP I.YeO I Effect of coke quality on the operationsof a foundry impola. Lit* proizv. no.5:35-36 Vq 16-2. (MIRA 16:3) (Cupola furnaces)  ZAMVOY V.- TERIKHOVA, Z.F. "Ph"Ical geography.* I.I. Zaslavskii, T.P. Crarasicova. Reviewed by V. 2amkovol, Z.F. Terekhova. Geog.v shkole 19 no.l:?5-7? Ja-F 156. (IffBA 9:5) (Physieal geography) (Zaalavokii. I.1.) (Gerasimova. T.R.)  Z&HKOVOT, V. Now a teacher abould work with geography literature. Gwg.v shkole 23 no,2:72-75 Mr-Ap 160, (HIRL 13:6) (Geograpby-Study and teaching) 0  ZAHMOY, V. OSoviet Ukralue.1 N.I.LWikov. Reviewed by T.Zaakovol, Geog. v shkols 18 no,6:68-70 N-D 155, (Ian q: 1) (Ukraine-Goograp4, Economic) (Lialikov, Hlkolal Ivanovich)