SCIENTIFIC ABSTRACT ZORIN, V.S. - ZORIN, A.D.

ZCM, Vladimir Sapsonovich: F=ROTA, T.T., red.; RbIrANovA, Z.A., takhn.red. [Learn how to work] Uchis' rabotat'. KoskvnO Gosjmd-vo md.lit-ry Kedgiz. 1960. 38 -p. (1411?A 14:4) (Rom accidenta-Prevention)  110SHCHaKIN. Alakeand-r Alakmandrovich-.. ZORIX. Vladialll. sapfil=640h; XU=- SOV, G.A.. red.; UY"N96, L.Avo (Now developmento in tho norwice inihistrioal 1;*vo,b v bytovon obsluzhivanti raaelenI16. Moskva, Vs9s.koapJzd--vo. 1960. 101 P. (10MRA 14:4). (Service industries)  --- - - -- I '' .. , , " .. -, .., . 11-1 .1 11 ~ 1 I., red.; YAKOVIjIYA, To.$ tekhn.red. [Traffic safety manual for the automobile driver) Shoferu- llubiteliu o mankh becopannosti. Ravkva, HooksrsboaMlg 196o. 117 P. (WIRA 14:2) (Traffic safety) (Automobile drivers)  ZCR1K, Vladimir Samsonovich; TRAERTM, Ta.N.. red.; MICMXOVA. Tu.S.. - - _.- ERemember: gas Is dangercras!] Pomita: gas noibazopaoan! Hookva. Kadgizq 1958. 7 P. (KM 1~:5) (Gas--Safety measures .)  ZORM, V.S. Dpnger electricity! Zdo:rov'e 4 no.5:12 HY '58. (14 MA 11:4) (BUICTRIC APPARATUS AND APPLIMCF-S-SAMY IOIA$UV*S)  ZORIN, V.S (14osky.n) 16.1& W.&C-malm- _ - . i-1- Know how to handle electricity; iantarisl for talks. Ifeilld. i akish., 23 no.4:50-54 Ao 158. (MIRA 11:4) (RIACTRIC APPARATUS AND APPLIANGICS-SAIF M IDUSURES)   Ld!a L tA 11 11 ]1 Ii,  -HIP. Voltage ruLmlator for low-voltage networks. Inerg. i elektrotekh. prom. no.2:11,15 Ap-Je 162. (I-LOIA 15:n') 1. Kiyov.,11"'I p,)2-It,4cbIAchOSkiy institut. pmer diz!tribution) (Voi t--aL:-,e regulators)  ZORIN, V.V. Voltage control on plant substation bus bars, feeding, the weldir, .9 current. Avtom. sver. 1.5 no.202-)8 F '611,1. (241RA 1, 5: 1 1. Ordena Lenina Kiyevskiy politokhnicheskiy institut. (Electric welding-Equipment and supplkes)  .~.V. inzh. NJ Study of voltage conditions 5,n the eloctric.al 11jetworks oi, weldtrl~- . I machines. Enarg. I elektrotakh. prom. no.2-.24,.27 Ap-Ja 16,1 ~ (KIRA 17.10)  ZORIN, T.Y. Compensation of the reactive power of contact machl.nies b7 consecutive condennere* Avtomeavar. 13 W.6:28i-36 Je 160. (HIRA 1317) 1. Kiyevskiy ordena Leninapolitekhnicheskiy Institut. (Electric welding-Equi: ment and eupplies) (Blectric capacitore'S  69429 3/125 60/000/006/008/009/~X A16 YA030 AUTHORt Zorin, V.V. TITLEt Compensating the Reluctance of Resistance Welders by Series Capacitors PERIODICALs Avtomaticheakaya evarka, 1960y No. 6f pp. 28-36 TEXTs Compensation of the reluctance power of resistance volding suhinos by static capacitors connected in series with the welding transformer isidis- cussed. The experimental part of the work had been oarried out at Itatitut elektrosvarki im. Ye.O. Patona AN USSR (Electric Welding Inistitute imeni Ye.0. Paton of the Academy of Sciences of the UkrSSR) in Tiew of ine'ufficient data on nome compensation aspects available in Soviet and foreign li'.erature (Ref4 5, 7, 8). The effect of parallel and series capacitors is compaxed, and the effect of the ignition angle of ignitrons an oeries compensation is discussed. It is pointed out that ignition angle change trom 0 to 900 re- sults in a cos(p drop of 70-75%, and it is advisable to limit theamooth Card 1/,,  89429 S/125/60/000/006/008/009/~X A161/io3o Compensating the Reluctance of Resistance Welders by Series Capacitors 0 power regulation range by 20-25 , The short-time power of HTIT (IdTP) and MUITT (MShP) welders may be raised by using series capacitors, and those welders may be then used for welding metal of greater thicknessp or for weld- ing light metals. The short-time power may be raised b raising the voltage P "~, i.e,, by reducing er one turn of the primary transformer winding (Ref. 5 the number of turns of primary win&ing by 20%, or by raising the voltage on the welder terminals by 16-18% by ateana of a booster transformer. The ar- ticle includes a circuit diagram showing the capacitors connection principle (Fig. 6) and calculation formulae for the capacitors paramators. Automatic discharge of capacitors is provided for in the circuit for safety purposeo when the welder is disconnected from the network. It is advised to oonnent the ignitron discharger control circuits directly to the network. The example calculation is made for a IITP-300 welder (300 kva). It is stated in conclusions thatt 1. Compensation by series capacitors reduces 1.5 2.5 times current consumption from network, improves voltage regulation, eliminates blinking in lighting network and relieves the sapply lines; aeries Card 2A  89429 S/125/ 60/00(J/006/008/009/ja A161A(330 Compensating the Reluctance of Resistance Welders by Spries Capacitors capacitors required for full compensation have a lower capaoity than parallel capacitors. 2. Smooth control by changing the ignition angle drastically reduces cos cp of the welderl and it is advisable to re(,,-ulat o or mainly by (3., -P T7 switching over the welding transformer stages; it is better to limit smooth regulation by ignition angle change by 20-250- 3- CaPacitars connected Ln series with the primary winding of the welding transformer veduce the re- sistance of the welding machine and hence make the quality oil welded jointo more stable. Using series capacitors thicker metal mAy be wolded than sti- pulated in the machine data certificate. There are 6 figures and 7 re- ferences of which 5 are Soviet and 2 English. ASSOCIATION., Kiyevskiy ordena Lenina politekhnicheskiy institut (Kiyev "Lenin Order" Polytechnical Institute) SUBMITTED: January 12, 1960 Card 3/4-  L 46~7o-(-06 ACC NR, A%020706 m) /MT (w) /T/1.i,4P t) /1,11 J D `0 i 3 IV 3 ma CODE: ui?/oooo/65/ooq/ooo/oo84/( AUTHOR: -Zharikov, G. P.; ZoAh", V. V.; Litvishko., Z. V. ORG* Institute of Cybernetics, AN UlaS (Institut kiberneLiki AN UkrZSR) opertle36 f perwllt)y TITLE: Effect of technological parameters on tbe Tyne-tic Iill-..-..-- 0 films obtained by condensation of the vapor of an alloy fit-wacuum SOURCE: M1 UkrSSR. Fizika metallichetikikh plenok (Flaysiec of motal filmi). Kiev) Naukova dumka, 1965, 84-90 - 71- TOPIC TAGG: magnr~tic jbin f Izall J341_permalloy, magnetic property, cryistall , on )hase transition, temperature dependence, magnetic domain boundary, magnetic coercive force, magnetic anisotropy ABSTRACT: The purpose of the investigation was to determloo the optimal condensation conditions under which the uncontrolled substrate heating nnd hewt release of the va-por-crystal pha3e transition are reduced to a minimum. qbr. teit;s were made with a specially developed evaporator and the substrate temperature was measured with a Cu-Ni thermocouple in the form of a film deposited directly, on the substrate. 1-1ea- surements were made of the substrate beat rine and phase transittaxi beat release against the time, of the coercive force and the displacement of th,e don-nin boundaries against the film thickness, and of the relative change In the cot.,roive force as EL function of the uniaxial anisotropy of' the films. The teal. con3i.sted of cbeeking the influence o:V different condensation parameters an the magnctic pror erties of the P 1/2  ACC NRs AT6020706 films. The results show that the substrate temperature is noticr3ably Increased by the thermal radiation of the evaporator and by the heat relimined in the phase transi- tion. This temperature rise can be reduced by increasing the condensation rate or by using an evaporator,with smaller heating area. Comparison ext data obtained for dif- ferent condensation rates, residual gas pressures, and substrate temperatures shows that the magnetic properties are most influenced by the nubwtratu tenperatu):e. With increasing temperature, the coercive force of filins of thiclaiesm XJO - 900 it increanes, and since this in the thickness range In which the anisotroly enerily constitutes a major fraction of the domain-boundary enerrf, it in concludeet that ji'a't least one of the causes of this increase is the InhomoSenelty of the uniaxial--aninolropy tliiiil, Drig. art. bas; 5 figures, SUB CODE: 20/ SUBM DATE: 16Dec64/ OTH REP: 003 I Card 2 2V L 467!C;%66 fill. 10  g 7 1' Ij ZRARIFW17, G.P. llllfl:'_H~ [Allpila'm A. IA. -(MEL,: Magnetic ilropcrtip- of suj-c-rthlr~ fiz. ZhIll. 9 no.8:911-912 Ag Ite 4. (1 MIRA 17: 1, 1. ins T,.*,",-,t kih;-rjc rill; Uk- SSIJ i-y  ORNATSKIY, P.P.; WZULYA, V.I.; ZCIRIN, V.V. integrating voltmeters and their une in municipal electric power distribution networks. Energ. i elektrotekh. prom no.3slO-14 J1-S 162. (MRA i8,-11) 1. Klyevskly politekhnicheakiy institut.  .~PRIN, V.V., kand. tekhn. nauk; KOMLACH, V.I., I.nzh. Technical and economic calculation of nev municipal 6-10-20 kv. power distribution networks using the "Ural-211 digit&l computer. Energ. I eleRtrntekh. prom. no.301-12 31-S 165. (MIRA 18:9)  ~ Vasillyevich; SELPTERSTOVA, A,I., red. [Mathematical textbook for persons entering sc.-hool-i of higher education] Ponobie po materat1ke d1la poqtu- palushchikh v vuzy. Mosk-vap Vysshaia shkola, 3.965. 177 p. (MIRA 18:9)  S/270/6VOGO/C01/013/024 A001AL10). AUTHORS: Yesipenko, A. Ye., Zorirl.- TITLE: An investigation of the T13-1 (TB--I) optical theodolite PERIODICAL: Referativnyy 2hurnal, Oeodeziya, no. 1, 1963, 33, abstract 1.52.217 (118b. nauchn. tr. Krivorozhsk. gornorudn. in-t", 1962, no. 12, 221 - 227) TEXT: The authors present the principal. technical characteristics of the TB-1 theodolite and report on the results of investigixting the value of di- vision of its cylindrical level on the horizontal circle, micrometer scale, pre- cision of sighting and superposition of images of the limb lines, as well as ac- curacy of measuring horizontal and vertical angles. The following values of rms error have been obtained; superposition of limb linesio'153, sighting �11.'2, measuring a horizontal direction by one observation +2.16, measuring a vertical. angle by one observation +418. In oi:,der to teat thf~_Possibility of using the TB-1 theodolite for the iRree-stand observational method, thre,'! polygons were run with the same number of vertices but different length;s of sides (_3, 10 and Card 1/2  5/270/153/000/00 1/0 1 -VG~4 An investigation of the... AQ01/A1Ol 20 m). In the first polygon the misclosure turned out to be 20'.1"e, in the second - 417 and in the third one - 416. The conclusion has beeft dramn that the TB-1, theodolite: can be used in running polygonometrio travernea, of all classes, forai- ing triangulation networks of the 3rd and 4th alasses and survaya in underground conditiom. V. Sinyaj~ina [Abstracterts note: Complete translation] Card Z/2  3/194 /6 1/000 /012/07 2/0~j- D2737D301 AUTHORS: Grishin, A. P. and Zorin, V. Yu. TITLE: Ultrasonic apparatus for extritctinL~, atances PERIODICAL: Referativnyy zhurnal, Avtomatika I radioelektronika, no. 12, 1961, 17, abstract 12E93, ('IT-V, Grozziezvik,~ neft. in-t", 1961, 3, no. 25, 59-62) TEXT: It is shown that the procest; of extracting reoinous stances from mixtures of borehole coal and alkiiiline b~ath is :-,10 timesmare rapid when using an ultrasonic set-up. An ultrascntc paratus was used with a power of 600 volto- with a magnetostr---ti,:- 11 transmitter at a frequency of 14 - 26 Kc/o. Coiuitr,ction of -.he ultrasonic apparatus of an indut3trial type ic5 (Icc;cvibed for (, L t,'iL I ing resinous reagents. From the capacitance of the miyturo in-r brown coal in a fragmented state, alkali and water; the ture is extracted by a pump B.A(VD) typej-pP (9-G10 w-_~t~h a f i 1", circuit for suppressing the bydrodynamic vibrator jj!!_ i-~ io mc~-~ Card 1/2  S/1 94A., 1/000/012107, ~'~/09 -' Ultrasonic appuratus for ... D427-I',/D'.,'I101 I economical, and is then applied, in an operative cap,a,":ity,. where suppression is continued, circuiting in the of 20 - 36 ml- nutes along a circulation line until complete ex:tractior of -11111"e re- sinous substances is obtained. /-Abatractorls note: Completi, - / lation.-7 Card 2/2  ZORIII, Ta.A., inzht Review of "Mechanization Und automation of the mudito ture of r441o parts" by YeT.1ashine Roklul, avtom.prolav. 14 lo.13A461 11 160. 'Iglu (Radio-Appaxatue amd supplim) (AutovOlogi)  UZDENI:KOV, A.; ALYUSHIN, M.T.; ZAYTSIV, V.; IVANOVA, V.M.; 4D,7W.', re. Rasumes. Apt. delo 11 no.203-85 Mr-Ap 162. (141 RA 15.1.5) (PHARMACY-ABSTRACTS)  Ul"DEIIIKOV, A.; MTSEV, V., GII-SEVA, L.; ZORIN', Ye, I Abslract2. Apt. delo 11 no-4:72-73 ii-Ag 1~2. (MR-4. 17:11)  GRINKEVICHj N.I.; IGIIATOYEVAp N.S.; L'VOVA, I.L.; ZORIN, Te.A. .... .. Examination of some vitamin-containing plants for the r manganese content, Apt, delo. 1-1 no.5:4-43 B-0 162, (MIRA .17:5) 1, Farmatsevtiaheskiy fak-Uttot I Moskovskogo ordena Lenina meditsinskogo instituta imeni Sechenova. . - - - - L--  ZORIN# Ye.B..,. mladshiy nauchnTf sotrudnik Identific.ation of pIntyphylline tart,rato in lr4tKt"l,voq* Sbor. nauch. trud. TSANII 3il2,-?--Il2 '62. (MIM 16: -11 ) 1. Laboratoriya faririat~evtdcheskogo analiza (ruk(yvc,litoll labors- torii - dotsent, kand.k:hitl.riauk iM.I.Tarasenlco) TSaentral'nogo apteoh- nogo nauchno-issledovatel'.,kogo Ingtitute,  ZAYTI-~FV, Moth odol -)py lr-(,i, -)~jn,qtj. tji L 11-0 fir,, 1 vs.1-s of' [)h,rr if t 'T` contalning, ti~rrtl.jHry niln-g-fin. Report No.2t Apt. delo I', no.301-35 My-fi- 164.  7-- ZORINS YelBs Identification of proserine in madicirAl mlxturem, lipt, delo 10 no. 2:54-56 Mr-Ap 161, (PPMTIGMINE), (MIRIA 14:4)  MORIN W , I.K.; ZORIN. Te,I, - .e Radlemetric determination of potassium* Zavilab.21 no..12,.1419-1421 '55. (KM go'o) 1.1natitut Waii pri. Gorlkovsksm gosudarstyannow unWeraltete, (Poteasium-Analysia)  . I . ~ - -- 4-  I . -- - .1-1 -.1-1-10- ", ",-, , .... 'p-r- I , --i -1 !-- - t I., Y--j -- L . -f-- 1. - J~ "I I ~ I :- 1 .1 . I I I j,ji 1~. i  HUM  i I I I ! : a I ~ lw~ ;I I. III I I 1 11.11 .... 111.111. .., I  -p==T-:1--- 1 7r- :77. L 2662,o-6E~ tnu,~W/E;wrl(m) rJP(c R1011 ACC NR: AP50Z1369 SOCIRCE CODE: UR/Ot8t/G!1(0071'1'it01 Z94012IV46 AlllliOR: Pa,,, I Z,,-) 111 Y I. TO 1. It Iaum, D X r v 11 1~ 717LE; Investigat',cn colidm(ItAvi.ty oil q An SOIACE: F I z ika t v r= r dogo I: ea v 7 m-, 1.0, 1965, 29411 'OP-C TAGS: c - ec 1, t c I ): 1 (1,tv I Ac nt ABST11ACT. TZ e s u 1 :1 r,?sn ed IT] fl. If-, 1 c 11 i: ac A Aj-t . ..... A  i nr -mrum, rwr,  1 15 -7, - CYME A S.:; A rC;21)!7(,, r,, V ;t- r [n Yt, I Ti) t(!l bwxn -,crki FVgicotmch-nical Rome-a-rch lnstltxjtrs 6~, the Coltift.'r -T -gos-udarst-m"fily un I.r: TI TLE: ibnor pmpartlea of' riftrofismi injantad into ai-M.cix imd priamat Lm- b.11, ; bombardment SOURGS: 0 S=- Wkl.947t T- 163t, nt.-l- !;p 1965, 11281-11.30, TOFIG UGSt iouldmg midlantion, ultrk-pni firl rip 'em cnitell-ant, iflim lansitre sillat~ aryatal A.BSTRAC'ri Tho aillea pliltm a I'mVistivil;:1, of :1 OllwAVROO, '410VO CjX* 1/3  L 15977W)6 perpendicular to thq crynta,11a grim ptlit-, dil!qation Maahwi.1011117 ch-m-1cally to nil cr-,-)..qcoV1 mfwoth surf,mej, rixel atitojecrimol to bombqrd- 117-1 tv r ~na 11 ;,.r, f, 1,11 -Z t a"11 OvInFIL. :I: In ii H., 1111.11 MID 1' 1111 i i F,  15977-66 -A.orl SUB COO&I SUBM DURS 05,Tvn6,,',/ Our, Rra 001/ ('1TE REIF IGC6 ,-r-.rd 3/3 .... . .. In.  F-I 14) lj~    13OLWA CIME1 AUTHOR: PavII-Ov, P. V.; Zarin, Ye. 1.1, Totellbaum) D. 1. z- - Wj1to"- ORG: -Gorlik State University im. N. 1. tobachevskiy (Gorlkovskiy gosudarstvenMy universitet) -- 0 t~ V1 TITLE: Inversion layers produced on n-type germanium bcdbwded v1th boron 'and alumi- num ions SOURCE: FizJ-Aa tyerdogo telaj, v. 8Lp no* 6. 1966p IT91-1795 TOPIC TAGS: germanium semiconductor, surface property;, ion bombardment, borqp, alu- minum, impurity conductivity ABSTRACT: To check whether the inversion layer produced on the surface of germanium '. by Ion bombea-dment depends on the type of ion used, the autbors bombarded germanium with 50-kev J.ons of several elements (B., Al., We) Ar, C). The I=adlation procedure was described before (m v. 6.. 3222, 1964). The ion current was -5 jia/=2 and the dose ranged from 0.01 to 1000 Coullcm2. The presence of the-inverision UWer was de- foermined by a procedure described in the earlier paperp and the reflistivity of the inversion layer was measured both directly after irradiation and after annealing; ip the latter ewe the dependence on the arawtling temperatvre wma also mmuireds 31~ additionp a study was made of the depth distribution of the acceptors (Al. and B) iptroduced by ion bombardment. 1he results show clearly Omit the surface resistance 40ends in a comlicated mnner on the type of bombarding Lon,, the irradiation dose,, .Card 3/2  41589-66 .ACC NR, AF6o18541 apd the annealing temperature., and that In the case of bodwrdment with boron and &~u~num ions.. the latter behave like ordinary acceptors, O.-wequentlyp the intro- ftetion of active impurities by, ion bombardment is applicable not otay to silicon V7 bit also to germanium. The effect of other elements on the Inveraion laye-ro-F-Cea-: m#nium calU for additional study. Zh. Verevkina participated in the work. Orig# art. has: 4 figures and 1 table,' SUB CODE: 2D/ SM DATE: 03NOvO/ OUG WW: 004/-,- OTR RHF: OUT Card 2/2 11111 =F1,j11F- MI, 7711, 1111 F  t' m49-67 M'(d)hWTW/9V(0 IPITT VPW JD/00 -Acc--NR . ..... AP6030968 SOURCE CODE! UR/0181/66/0081009/2679/2687 AUTHOR- Pavlov, P. V,; Temellbaum, D. I.; Zorin, Ye. I.; Alekseyev, V. 1. ORG: Gorkiy State University im. N. 1. Lobachevskiy (Gorlkovkjkly gasudarstvennyy universitet) TITLE: Distribution of atoms and radiation defects introduced in Lon bombardment of silicon (Calculation by the Monte-Carlo method) SOURCE~,Jizika tverdogo tela, v. 8, no. 9, 1966, 2679-2687 TOPIC TAGS: silicon, ion bombardment, ion energy, - Monte Carlo methodj atom, impurity atom, atom distribution, radiation defect ABSTRACT: - The results are presented of calculation (by the Monte-Carlo method) of the distribution of the impurity atoms introduced during silicon bombardment by boron ions with energies of 20-60 kev and by aluminum, phosphorus and arsenic ions with the energies of 25-150 kev. In addition, the distribution of radiation defects in the bombardment by boron and aluminum ions is computed,, The results obtained are analyzed from the viewpoint of dependence on the energy and mass of Card 1 / 2  L 010 9-67 IXC NR- AP6030968 :)ombarding ions. Possible results are discusBed for silicon alloyifig by the ion-. :)eam method. Orig. art. has: 4 figures, 4 formulas, and .1 table. [Based on 3.uthors' abstract] [NTI SUB CODE: 20/ SUBM DATE: 03Feb66/ ORIG REF: 0041 OTH REF: 023/  ACC NR- AP7007i63 AUTHOR: Pavlov, R. V. CODE: 'UR/00'tO/0'1/012/1301/01-55/0157 Kudryavtseva, P. V.; Tetellbaum, D. I.; ORG. Gor! kiy Physicotechnical Re3earch Institute (Gorf kovelkiy issledovatellskiy fizilco-te1chnicheskiy institut') TITLE: The amorphism In polyeryatalline germanium fiUm reaultingfrom irradiation with argon ions !SOURCE; Kristallografiya, v. 12, no. 1. 1967j 155-157 ,TOPIC TAGS: amorphous polymer, semiconduating, filia, polyorystalline film , germanium semiconductor, thin film semiconductor, irradiation effect .argon, ion ,ABSTRACT: An investigation was made of the transition of crystalline germanium. into the amorphous state as the result of irradiation, The experiment. was performed with thin polycrystalline germaniuin films, The films were obtained by the vacuum coatinto of an Naol backin- heated to %:) 4-3 4000C. The film thicImess varied froil 200 to 500 A, i-,,hich meant. that J'-' was smaller than the nican free path of the ions. Bombardment wit?~ kev arcron ions 'was performed in an accelerator width a rmaZriet-ic al,,Liyzer. The density of the ion current vras 2 to 4 11 a7 m4, The irradiation doses were 1, 10, 100, 1000, and 5000 paurie 0m The vacuum in the -Card-1/12 UDC: 54qItZ4--  _ACC vicinity of the target was 2 x U 10 mm Hg. Durinr,, bombareliment., the specimens were heated to 900C in order to reduce organic vapors. At a does of 1 -4urie/cm no changes were observed in the specimens. How- ever, et ilo-zeo of 10 Pcurie/c-m2 and larger, the electrGnogra-ais clearly indicated the transformation of the germanium into the anorphous state; the sharp lines disappeared and viere replaced by two or three diffuBion ring I I ,s. The location of the intensity maxima did not coincide with the location o.'L' the interference rings of the crystalline g*er-,,anium,(e_C0e0t for the first maximum, which was located at the position oe the 111.) line. This showed that the structure obtained vras not microcryst'alline.. but amorphous. Two basic mechanisms of amorphisru are proposed. First,a gradual accumulation of Frenicel. defects during irradiatioa can lead to the dispacement of atoms -'V'-o new positions and., C=SeqUent-ly, to the disruption of proper order. The second mechanism consists in the gener- ation of regions of local fusion (thermal peaks) inside the germanium by means of retarded ions. These peaks harden in a short time -11 -12 (10 - 10 see). Crystallization cannot occur in such a short time. As a result, a liquid structure or some intermediate state (partial crystallization) appears. The first mechanism is tonsidered more probable. Orig. art. has: I table. SUB CODE: 20/ SUBM DATE:' none/ ORIG REF*: 004/ OTH REP: 011 Card 2/2 [VIA-95 EJAI  ;'. i i ,I "I'' q;, ! !:;;i: i I 1;i . 'j; ~ , N~ il i ~ 11 ii, ; I I ~~ : I ~~ 1.1 i.1;I :: i1 i~ :; , i ..~, II j h 1., 1 ; I!.1 .: . 1i :i1 i I;o I ii ,1:I   ASZT17, D.D., professor; BRUIR, LL, professor; YOUMNISKIT, A.U., professor; SOROKM, I.E., professor; UGRTUMOV, O.P., prvfessor; TOPCHAN, A.B., professor; AGAPKIN, I.N., kanliditt meditsinalclkh nauk; AGRACHV, G.I., kandidat maditsinskikh amik; ALITSMIR, N.S.. kandidat meditsiankikh nauk-, 13UMIZCK, Ya.'Ya., Icandidat meditsinakikh nauk; g9gg .., t, Ye.N., Icandidat ated1l,,ninskikh nauk; KOROTINA, Tu.P.. kandidat x"'e'dTisinskikh nauk, K(.'GITSKIY, G.I.. kandidat meditainskikh nauk; MANDILISHTAX, kandIdat medi- tainakikh nauk; MOCHAIA)VA, T.P.. kandidat moditninokikh naulc: OBLOGINA, Ye.Ta., kandidat maditsinakikh nauk; PATSKITIAROVA, A.G., kandidat meditainskIlkh nauk, FOKCTILOV, K.Ye., Irandidat moditsiaskikh nauk; ROZANOVA. N.D., karLdIdat mrditainskikh aaak; SAKITAROV, A.S., kandidat meditainskikh nauk, YASHCM4KO, T.H., lrandidbA meditain- skikh nauk OTuberculoBis" ; h-andbook for physicians edited by Z.A.103bedeva and N.A.Shmelev. Reviewed bjv D.D.Azeev and others. Elrobl.tub- 34 no.2: 76-80 Mr-Ap '56. (mia 91-8) (TUBERCULOSIS) (LIBEDIVA, Z.A.) (54EXLEY, II.A.) I I ~Al  ~,ORIN, YE. N. USSR/Medicine - Tuberculosis Silicosis Ajjj 119 "Role of Antituberculosis Organizations in the Control of Silicosin and 5iliqotub*rculosisIj M. S. Plavnik, Third Ti-terapeutic Dept, Hascow Oblast Sci Has lns~ of Tuberculosis, 1 1/4 PP 11~,ov Med" No 8 Silicosis has been classified as: "suspected silicosisj," priinnry stage (compfnsation process A), secondary stage, and tertiary stage (aubcompensation-B and decompensation C process), with the proper differential diagnosis for 8ilicosis and tuberculosis, To control these diseasesj Min of Pub Health requires preliminary emainstion (~f ne-it underground miners and regular examinations, including X-rayap thereafter, with provisions for care and transfer of those affected to surface jobs. These measures must be supplemented by participation of phthisiologists in examinatI.ons of workers; isolation, greater attention to transfer, care, etc., of sick ; imroveil.~,nt In laboratory methods of dust elimination; organization of antisilicotubercul~sls 11easures and seminars for doctors in medical and sanitation departmonts by expert phthi.slologists; arrangements in institutions to allow doctors tot ake such courses. Ch~iofj Thl.rd Therapeutic Dept: Ye. N. Zorin. Dir) Y10NITI: Prof N. N. Grinchar (deaccased). FDD PA 152T6`3  ZIIUKOV, Pavol Kona tantinovich; KAM11111, Yiirly Ivnmovich; YIffUF()Vj Arylxtay Yayupovich; NUISALE-M, Khakim Ibragiroviclij FIGMINSKIY, Ilikolay Arsenlye-vich; .131111GIN, Artem Yovgenlyevic'F. PrbAmAi uchaotlye: IMIk,'ENEV, Oh.A.j BAINUktOVA, ITII,.Xq.S.4-IRIKI?',OVA, II.P.; SHUIMOV) II.N.; BOK, I.I., akndemik-, otv. red.; IUSTEROVA, red.; ALYEPOVA, P.F., tek~m. red. [Basic features of the geology and metallogevy of the Koksu- Tekeli area of the Dzungarian Ala-TaujOsnovnTe eberty geolo- gii I retallogenii Koksu-Tekeliiskogo raionn Dzhung-larzkogo Alatau. Alna-Ataj Izd-vo Akad. naul< Kazndch:331.01 SsItr 1962. 123 P. ('1IR." 1.511-1) 1. Institut geologicheskikh nauk (for 7,bikovo KazanLn, Kapipov, Figrulovskiy, Shlyginin). 2. " g1ch geo.Lo mokove upravleniye, (for Vursalivov~. 3. Pflidil: iya nauk Eazakhsk~y SSH (for 111o1.). (Dzimg~~riam Ala-Tau-Geology, Ecanori,~)  ZORIII, Yevgeniy Timofeyevich; TIN"TAKOV, Yurly MkIwylovich; ROMADIR, A.G., red.; LIFER.OVA, A.I., red.IM-mi; M-11CPIEV, P.M.p tekhn. red. [Assembly, operation and repair of bakery equipment] Ifjontazh, ekspluatatsiia i remont k1debopekarnogo oborudovaniia Mo- skva,, Izd-vo TSentrosoiuza, 1963. 2 (14DA 1 51 P. 16:12) (Bake ria s-Equipment and supplies)  I ACC 4k._4TGO~i75 2 URCE CODE ~~_6/_O /000/0244 0250 ;AUTHOR: Morachevsk' V. L.; Zorin, Ye. V. ly ORG: none TITLE, Power parameters and dynamic behavior of a multiple stage pneumatic drive fbr automatic systems a ~ SOURCE: AN SSSR. Institut avtomatiki i telemekhaniki. Pnev--noa.vtomwtika (Pneumatic iautomation). Moscow,' Izd-vo Nauka, 1966, 244-250 TOPIC TAGS: pneumatic device, pneumatic control system, gas t~ompressor, air t6mpeta- Iture, heat exchanger, expanding gas ABSTRACT: The efficiency.and response of pneumatic drives can be improved through the use of multiple stage devices. The author describes one such system, and compares its efficiency and performance with ordinary single stage drives. The pneumatic drives are frequently incorporated in automatic control system as prime movers., In this application, the piston must be capable of stopping in any position upon receiving an appropriate coTfimand. The magnitude and the direction of -the displacement are deter- mined by the magnitude and the sign of this conwund. Compai,,ed to ardinary reciprocating intermal combustion and steam engines, this operation is quite inefficient. For iso- thermal expansion, the efficiency of a commonIsingle stage pneumatic drive is given by T~T ec Card _I 4 In e.  AtC--N'-'R- AT6021752 where ec= P%IPI are the absolute pressure of the intake and tile compressed air respective' . The closer the actual operation of the drive can approximate the iso- thermic conditions, the better the efficiency.. Fig. 1. shows a diaXram of a multiple stage pneumatic drive. The air is fed through a supply line from a:compressor. The multiple stage drive consists of a number of single -.tage piston drIvies (C1,C2,Ca)% serially connected through expanders (P2 23,pa)'- Each stage operatts at a constant pressure difference 'and is supplied by compressed a1r, which passed through tile pre- ceding'stage and expanded to a predetennined pressure in the qixpandiir. The air from .the compressor enters air distributor (BPI) of the First stag-qi. Rotating distribution valve 00'0~admits the air to cylinder (CI). The passive cylinder volume is connected to expander (P2) such 'that the same pressure,'as in the expander is maintained in this portion of the cylinder. pressure reduction valve (PK2) maintains -the air pressure in the expander (P2) constant. The compressed air from (P2) fee(js through distributor (BPZY to the-next cylinder (C?), etc. Each consecutive cylinder has a larger diam(tter and greater piston area to generate identical force at reduced air pressure. All piston rods are connected to the same load and mov& synchronotasly. The air distributoi .drive operates all distributor rotati.ng.valves in synchronously, thus providing control over the dir'ection and the magnitude of the out'ut displacem%at. The efficiency of p the multiple st.age drive is'given by P n z. a0 Car,!  ACCM,-~f Oiif~2 where a is the number of 6t ages and P.+I ap The computations show that a greater efficiency, economy and faster response are possible with the new drive.' Performance graphs are included. Orig, art. has: 20 formulas, 5 figures. Card  ACC NRI AT6021752 aw*~z Mom A 0 0 -- I C Sul V --- se q r0 Soo Fig. 1. .ao SUB CODE: 13,1"4/ SUBM DAM? 03Feb661 ORIG REF: 004/ OTH REF: 000 Card iL if ULM HIT  BMZHNOY. Tu.; ZORIN. Tu. ifelding with electron bms. Wn, tekh, 3 to,6:24-.26 Je 159, (MIIU IW) Ociectronic appavatus and appliances) (Welding) ; ! i ~, 1 1 ~ i i :1 4 , 11 * 111F il 1,11 IF!, III 111-111~t; IMP 1411 11 1111111PI1 ffli~-!Illfll ,;  SOMDVIIV K.T_.; ZORIN, Yu.A, l,yi,r,pl-..G'-d var iety o Z" th(-, Mr- 1, k I, r Ej j c n. ~ J! r, v 'Ve derm. i ven. "'S D I-,I+k ( 1? 14 *11 8 Iq 1. Kafedra terapevtichonkcy :~tc7mato'~-,p"- Dekker' i kafedra :1okto- red. nauk S.N. Pravedr'~k7-v!  ZORIN, Yu. A., aspirant Clinical morphological characteristics and troatment, ),t aftzq tinomas of the lc~mr jaw.-Trud~v *XGMI no.2:94-106 160. (HIRA. 15:7) 1. Is kafedry khirurgicheskoy stomatologli - oav. karedroy dotsent P. V. Nau3nov. (JAWS.-TUMORS)  - - Z-O,Rril, Yu,A, . -,. Structure of the Aginskoyn Paleozoic field (ibmi3tam rransbaikalla). Sov. geol. 7 no.602-43 A 164 (IMA. 18 ti) 1. Chitinskoye geologichenkoye upravleiiiye.  ACC NR, AR6024838 SOURCE COD~,' UR/01169/66/000/004/005/G005 AUTHOR: Zor,in,.._Yu...'A. ITITLE: Geophysical data from tectonics of.certain lower chalk Transbailkal depressionsi SOURCE: Ref. zh. Geofizika, Abs. 4G23 REF SOURCE: Izv. Zabaykal'skogo otd. Geogr. o-va SSSR, v. 1, no. 1, 1965, 25-36 TOPIC TAGS: geologic survey, ground survey, tectonics ABSTRACT: The depressions are tectonic hollows having a lower chalk base which is covered by chalk deposits. The density of the base materIal in 2.90-.-2.60 g/cHi3; its specific electrical resistivity varies from 400 to a few thousand ohms, the velocity of propagation of elastic vibrations in it is 4,500--6,500 m/ser-. The same figures for the lower chalk layer are 1.95--2.40 g/cm3; 20-25 ohms, and '2,400-3 1600 m/sec, and for the effusive and effusive-sedimentary Jurassic deposits which are found in places below the 'lower chalk layer are 2.55--2.67 g/qm3; 250--1,000 ohms, and 3,500- 4,700 m/sec. 0d the basis of the analysis of geophysical data (gravinetry, electro- profiling, vertical electrical sounding, tonal telegraphy, seisnic survey using the method of correlating discontinuous and reflected waves) tectonics of tile Turgino- Kharanovskaya, Ononskaya, and Toreyskaya depressions are presented. It is indicated that the first of these is bounded from the West and East by fault zones in which the bed is displaced by 300 to 500 m, respectively. It has three internal basins. The Card 1/2 UDC: 550.311 Ut HMI i I L11-11 M;if 11.11 Wl 1111 1~  NKI "OV440JO southern basin contains a lower chalk base 1,700 m deep, and the central and the northern are about 1,400 m deep. The Ononskaya depression is also bounded from the West and Eitst by fault zones and contains three basins: ManguAskaya, Kharalginskaya, and Narasunskaya. The extent of the lower chalk deposits,ln the first two are.1,300 and 1,500 ta, respectively. Opposed to the described deprfmisions extending Iin the sub- Imeridial direction the Toreyskaya depression is isometric In the plane and contains three shallower basins. The maximum thickness of the lowor chalk deposits in the two northern basins is 1,000 m, and it is 250 m between these. It isi 800 m in. the more southern basin. In the more southern region of the depression there are two additiona shallow basins with loose soil. deposits whose thickness ia a few hundred m4itera* betwee, ...Jthe basins. The thickness decreases to 50 m in spots. (Translation of ab6tractl :-'tG. Reysner SUB CODE: 08  ACC NR. AP7005426 SOURCE CODEi UR/0011/66/000/007/0075/0085 AUTHOR; Zorinj Yu. A. Oaa; 6~ Earth's cru,..t;t, SO, AN SSSR# IrPul:sk (Inatitut zoirdwy korl SO AN SSSR) TITLE: Da-ep structure of the depression of Lake Baykal on the Basis of geophysical data SOUIXE: AN SSSR. Izvostiya. Serlya geo log I cheskaya, no., 7, 1966# 75-85 TOVIIC TAGS: earth crust, upper mantle / Laka BayRal ABSTRACT: DespIte-the many published studion on struoturo of -the lake Baykal depression, It has been necessary to review the conclusions drawn on the basis of the most recent geophysical data, especially gravimotrlo Wormation. In the gravity field over the depression of Lake Baykal there are Lito mjor linear ninima -- Northern and Southern, which are saparatbd by a zope of maxina; linearly elongated maxima of different Intensity are observed along the shores of the lakat.. 7hase anomalies form almost continuous zones of a xvlatively high gravity field frxming the lake. These anomalies are observed againot: a backj;round of a smooth decrease of the vdlues of the gravity field in a west to east direction, The nature of the Baykal gravity minima has been interproVid dMerently by a number of authors and this article re-exomines the old and neir evidiance to determine which, if any, of the theories is valid. In particular an oteort is made to evaluate the depth of the Moho and the thickness of tho crust. Evidence is presented that in the region of Lake Baykal the earth'a cruat Is frir closer to a state of isostatic equilibrium than was assumed earlter. Review of the data Indicates that the gravity minima are caused by a great thickness of Cenozoic  1-4tC NR. deposits filling the depression. Howeverg density of the crust and runtle In this region are not knm,4n precisely. Assuming a mantle dtirialty of 301 g/,=33,, the amplitude of uplift of the Pbho In about 15-16 Icn (undor the dapression tho crustal thickness is 30 kmp in the surrounding regions -- 45-46 hm). If the density of the upper mantle Is 3.3 S/cm3 the crustal thickness under tb4 depression would be 34 km. Orig. art. has$ 3 figures* PrSs 3604~y SUB CODEs 08 SUBM DATEs 17Dec6S OFLIG RM 026 Card' X2  ;k31D 27804 S/549/61/060/101/001/015, D2$6/D3O4 AUTHORS:t 01'shanskiyq N#A.0 Candidate of Technical Sciencesp Docentp and Zorinp Yu.N.t Engineer TITLE: Electron-beam welding of inetals in vactum~ PERIODICAL: Vysahiye tekhnioheskoye uohiliebehe. Trudy. Svaxka tavetnykh splavovq redkikh metallov i plastmasal no. 101P 1961, 5 - 28 TEXT: Work on electron beam welding oommenced at the XVTU in 1958 under Professor G.A. Nikolayevq Doctor of Technical Sciences. The basis of this welding method was the convorsion of the kine- tic energy of a focussed beam of rapidly moving electrons into heat when they bombarded the site of welding in a ohamber under high vacuum. On heating the tungsten cathode 7 to 2300-26000C thermionic emission of electrons occurred which were accelerated towards the anode (the work) by a high-voltago fieldp the aecele- rating force being -eE = e grad Vo where e - electron *barge, R - electrical field intensity, V - field potential. The energy of the Card 1/8  27M14 8/54 61/000/101/001/015 Electron-beam welding of ... D2�GYD304 electrons depended on their speed and increased with increasitg potential difference between cathode and anodep Speed = 2eV/mo where e = 1.6-10-19 coulomb; m = 9ol-10-31 k$ V - potential diffe,- rence in volts* Electron focussing to concentrate tho released energy could be effected byt 1) Imparting a certain shape to the focuasing headq giving such a formation to the electric field that the electrons became focussed in the region near the cathode; 2) -Entablish#Wan electrostatic focussing lenst in the field of Mich the electrons were simultaneously concentrated and accelera- ted; 3) Creating a magnetic field which could constriot the elec- trons into a beam by means of a coil set in a maosive iron casIng. The prototype machine ELV-1 is then described,, T~ie electron gun and welding chamber are evacuated separately. For welding the pressure in each chamber could not fall below 5.10-4 mm Rg. At 10-3 mm Hg arl discharges occur. Shortcomminge in 'the design of ELV-1 became apparent on uses the location of the motor and reduc- ing gear and also the focussing.and inclining systems inside'tho Card 2/8 4  27 804 S/54YOV/00 61/101/001/0-19, Blectron-beas welding of ... D256 303 04 chamber could impair the vacuum. The ELV-2 was therofore construe- tedo The welding chamber was 500 mm in diametsr and-1000 mm longo *ded in stainless steel. To improve the vacppa the focussing and beram-deflecting systemag electric motorp and loduction gearing were removed from the chamber. The mechanical onergy required for moving the welded component was transmitted by a shaft passing through the vacuum seal. The"focussing and deflectijagi isystems were located on a stainless steel sleeve surrounding the oloctron gun chamber 0 8). The vacuum system was the swaso Pigs 9 shows the elecM., o gung now of smaller dimensionsp which,could be used for welding at up%to 50 kV and 3-5A,, 2 and 3 wilire insulatorat 4 the cathode holderp and 5 the fteueeing head* 6 was the filqjb~ ano7 de. With this arrangement a vacuum of 1010-4mm: Hg could be attain- ed. This provides a much putet atmosphere in terms oT content of reaptive gases than would be obtained in a cha),mber filled with the purest argon obtainable. Those impurities which did remain wore mostly ionized positively and thertforep tended to collect around the cathode away from the welding zone. The power aources Wwel- Card 3/8 1  417604 S/549/61/000/101/001/015 Electron-beam welding of ... D256/D304 ding could be single or 3-phase high-voltage rebtifters or high- voltage D.C. generators. The electrical scheme is shown for supplying the'electron gun from a high-voltage 3-phase rectifiera The latter is a high-voltage 3-phase transformer with delta prima- ry connection and secondary star connection. The secondary voltage could be 0-609000 V, and connection to six kenotrone provides current'rectificationo For welding metals like aluminum it in de- Birable to include a contact breaker in the primary circuit to give the electron beam a pulsing effect. Up to 5A current could be obtained in the secondary circuit, and thus In the anode upot on the article being welded up to 50 kW could b4i cotioen'trated4 At voltages above 17,000 X-rays were produ-.ed which could penetrate the chamber walls if insufficiently thick. In the ELV...! a lead lining and leaded glass were used. ?or supply of power to the-ELV- 2 a type V-10-100 rectifier was used, working ain a full-wave recti- fier with four type VM-236 rec-tifiers. Voltage smoothing was effec- ted with a n -shaped filter. The effect of the inain welding para- meters (anode voltageg beam currento powerg displacementp and Card 4/8  276014 S/549/-61/000/101/001/015 Electron~-beam welding of ... D256/D~04' - welding speed) on fusion width and depth were investigated on 5 mm thick stainless steel-I Khl8N9T. Details of thm sueneseful.'welding of A number of metals in the ELY.-I apparatus nale tahu~lated. The vacuum was 1o-4 mm HG. For welding 0.75-2 mm thick isirconium. or zirconium alloy without edge flanging or filler matiirial the fol- .lowing conditions were usedg Beam current 10-35 mAj voltage 26-38 kVp -power in beam 550-900 W9 410ding speed 8;-9 m/hr4 Bead width was 3-6 mm. The current pulsing technique was nboessary for Al, Mgp and their alloys (owing to the surface oxide film) and was useful for wplding extremely thin metals. Welds were found to be defect-free and to.possess high ductility. Weld hardness of zir- conium was only half that found in 4 similar weld mafj in anar_ go'n-filled chamber and was nearly the same als that o the heat-af- footed parent metal. Thereare 23 figures, 1 table and 5 referen- ces: 2 Soviet-bloc and 3 non-Soviet-bloo. The roferenceo to -the English-tgnguage publications read as follows: J.A. Stohr and Briola, Vacuum wol ' ding of metals, Welding and Metal Pabricationp 1958, No..109 336-3M W.L,, Wymano High-vacuum electron-beam fu- sion welding, Welding Journal-9 1956o V37, No. 2, 49-53; G. Burton, Card 5/8  27804 8/54Y61/000/101/001/015 Electron-beam welding of ... D256 D304 R.L. Matchett? Electron-beams new technique for weldingg Metal working Productiong May 1959. ASSOCIATIONx Mo8kovskoye visa eye tekhnichookoye uchilishche ima, . I Baumana (Bauman loscow Higher Tech3ileal College)i Card 6/8  A -11 3~ T D-F - -1641)5/0007! 11 R GO a f f-, Tic TTT-. De te mi nat or, c, t in; jx,~ v:! ::maractertitlas cif ll. Veiling, arc S C) U RC E Awtomaticiles,--a-a svan~i, lo, -!A GS v 0 t wrPe re :Lh a ra c tr~ 4; 1- - TO p I C lie Cqrd__ ..U4-; 64! 7911 85o I.M.T"Fril TIF lk !1111illillill'[1411i. -II] I ihilk-Illilk"1111 N11''  ACC NRi AP502-)CFT7 1. 1,2tt_ L meneur,--ment (-rrors, due t~~ sin!~J.r:; Crf- tj~: rC In bn~S,2 1 0 cgl(l t': o'ctaill a molten 'L:""I 11 -1 1!- f: 4j! 7-111A r. SU3 Cf.)DF 13")q 314V DATE t OR11 'REP: -1,Yi. card 1-41  OLISHANSKIYJ N.A. kand.tekhn`aaukp dotsent; 14ORDVIOUVA., A.V-p kaM,, tekhn.~~; Privlmli"uchastiyet- ZORINO Y4.2fsy intsh.; KACHALOV,, V.H.,I inzh. Fusion welding of co=ercial-grade molybdenm+ [T:mid;y] I,%TU no.101:29-48 1614 (KMA :438) (.4o1ybdo=n,--Welding) i z  A UT YO RS - Ol'shanskiy, N.A., Mord-tintseva, A.V., Yu.'N. and Kachalov, V.M. ,TITLE: Chambers with Controlled Atmosphere for "Ielding Active Metals (Kamery s kontroliruyemoy atmosferoy dlya svarki aktivnykh metallov) PERIODICAL: Avtomaticheskaye. sverka, 195q, Nr ll'i PP 32-36 (USSR) ABSTRACT: The MWTU and IMEI welding laboratories, ~Jnder the supervision of Professor G.A. Nikolayev, designed hermetic chambers filled with inert gas for the fully mechanized welding of zirconium, molybdenum, titanium, etc. The use of i~utomhtic welding heads inside the chambers ensures a most accurate control of the arc voltage, and the welding process .1c controlled from a special desk. The following aevices are denoribed in detailt 1) an installation for welding in controlled~attraqphore con- sisting of n chamber, n previicuum pump,.a control desk- lint! a vacuummeter (Fig. 1) for welding specimit!ns up to 300 mtn'length; 2) an installation for the welding, in t~antrolLed atmo.5phere, of large-size specimens with thp use of n mo,la'ble weldiliF Card 1,12 hand and a vacuum 1-inn with a pump syntuti. (.'ontrary to for-gign  ZOV/J.25-58-11-4/16 Chambers with Controlled Atmosphere for iYelding tActive fletals models, the electric motors are rlact'.!d inTtide the chmber, thus simplifying the welding proce8s and parmilting the design of large-size chambers. Zirconium and calybdenum specimens were successfully welded in the descTibed Instnilations, There are 3 photos and I circuit diagram. ASSOCIATION: MVTU imeni Baumana i MEt (IAVTTJ imeni ~auman and NTEI) Card 212  L-099' ! -67 ') JDA14/m r %IA'T.1 ACC NRz AI?6035709 SOURCE COVE.: Ull/0413/6b/000/019/0057/CI057 Ol'shansViy, N. A. Mordvintseva, A. V. ; Zorin42u'L A. ORG: no-ne V TITLE: %~2chod of welding ~op r to graphite with metal inserts. Mass 21, No. 186560 S OU RCZ ,Izobroteniya, proinyshlennyye obraztsy, tovarnyye naki., np. 19, 1966, 57 :TOPIC TAGS. matal welding,'graphite velding,copper, graphite-veldin W 0- ABSTiUCT: This Author Certificate introduces a method for welding copper to graphite 7using metal inserts. To iuprove the weld quality, insert mii-FFfa-1s, such as titanium, stainless steel, zirconium or nickel, are used as filler metals. ,SUB CODE: 13/ SUBM DATE: 20Apr621 ATD PRESS: 5105 Card 1/1 UDC: 621.791.7  ~-_ACC NR. AP7001837 SQURCE CODE: Ur4/0135/66/000/012/0009/0011 Zori AUTHOR: Alekin, L. Ye. (Candidate of technical sciences), N. (Candidate of T Ongmel"' V. S# technical sciences)- Razzhivin, V. N. (Engineer); Guma, V. ir~;"'Mpcnko, (Engineer) ORG: none TITLE: Methods of determining the regulation characteristics of a low-t).mperage arc In argon SOURCE: Svarochnoye proizvodstvo, no, 12, 1966, 9-11 TOPIC TAGS: motion picture camera, current source, welding inspoctioil, arc welding',, welding technology / Kiev 16S-2 motion picture camera, IP-50 curre-zat sotirce ABSTRACT: At present argon-are welding by means of autoniatle welding amchines (AWM), with a nonconsumable electrode is widely employed to weld parts of stainiei3s stecl 0.2-1. 0 rnm~ thick in argon with the aid of positive-polarity direct current N~dth an 0. 2 5-14% -0 inni lang arc. The intensity of the welding current ranges from 1. 0 to 70 a. The ultirnate pu:rposo of repla- tion is to produce a welded joint of high quality. But since the AMA affects directly not the Card 1/4 UDC: 62~1_7AI..trI5,JIL  -.kc 40:- -A'P-7-'0-0l8-3--7---- weld but the are, this regulation can be accomplished only if the rt!tgulation characteristici i.e. the dependence of voltage on are length, is known, since the AV MI reacts directly not to the length but to the voltage of the are. Normally the regulation charaoteristic is determiiied by static tests or from a recalculation of volt-ampere characteristics of tho are, but thAs does not reveal all the features of the regulation characteristic, particuLarly 6~r the weldln'6r of parts 0. 2-0. 5 mm thick with the aid of a. short are with currents of. less th= 30 a. Of special practical interest in this connect-ion is the part of the regulation characterfi~tic corresponding to arcs of less than 0. 5 mm in length; if in this case the voltage is either virtually indeper4dent of the are length or increases with decreasing are length, then even a highly sensitive feed"back, type AWM cannot assure the regulation of arc length with respect to voltage. To eliminate this difficulty, the authors developed a new method of determiningw the regulation characteristic , I based on the following considerations: Since the regulation characteristic represents the de- pendence of U a on L a, a continuous curve can be plotted during contlinuous movement of the electrode. At the sarne time, in order to gain the correct idea of ffie~ are Wngth, the position of the arc column must be checked in two mutually perpendicular planes and the plunge of the are into the metal prevented. This new method provides for the simultaneous examination. of the arc from both sides by means of two Kiev 16S-2 motion picturtu camerits (16 frames por second) positioned at right angles to each other so that the position of the are column and the length of the are can be accurately determined. A corresponding vqiarimental setup was cm- 2A  ACC NRt AP7001637 structed (Fig. 1): its principal components are; welding torch 1, imachaiiism 2 for vertical movement of welding torch, at the rate of 0. 2-2. 0 mm/sec, routor 3, chuck 4 for atlac6ent of welding heat, and table 5. Fig. 1. 'Rxrerirnentzt setup The double filming of the welding operation is synchronized with oscillogrIphic recording of current and voltage by means of a time mark whose design and swile'rimr. cLrcuit are shown in Fi-. 2: the connection and disconnection of the electrical circuit ii.re asnured by the closing of 0 j contacts 2 by shutter 1. of the motion,picture camera, represented by a metal disk with a flare Card 3/4  ACC NR. AP7001837 0scillograph loop Fig. 2. Desip tuid switching circuit of time mark angle of I'10% Argon consumption was 140-160 liters/hr. Regulation charae1kristics were plot- ted for currents of from 0. 7 to 50 a. Findings: processing of the Idnograxas showed that in the presence of short arcs the arc column is rarely displaced from Its axis and the resulting -ed by means of the kinogram. In subse- deviation is sufficiently stable in time and readily fix quent experiments an IP-50 current source was employed to reduce, to -3% the current devi- ation accompanying the change in are length from 0. 1 to 5. 0 xnm. 13. %,as fowd that Vaen the arc length is sufficiently short the linear relationship betweea volt*ge antl arc length no longer applies and the regulation characteristic becomes nonlinear. This monlinearity clearly mard- fests itself when the are length is 0. 5 mm and ehorter. Orig. ait. bas: -it figures. HP. SUB CODE: 13, M/ SUBM DATE: none/ -ORbG R 002 Card 4/4  ACC NRt AR7004312 SOUR 697,'06EP TWOO 1/6616W/ "I A04-6/046' AUTHOR: Volkov, N. P.; Golosovskiyj A, M.; _ZQrA4),..Yu... V.; Karpillskly, 1. P.1 Mukhin, G. 1.1 Rudenkol L. I.; Polosin, A. V. TITLE: Measuring outfit for automatic counting of replahblo specimens with W ormation recorded on punchtape SOURCE: Ref. zh. Avtomat. telemekh. i vychisl. tokhn., Abs. 11A377 REF SOUFCE: Tr. 6-y Nauchno-taklui. konferontaii po yadern. radioelektron. T.3. Ch. 2. M., Atomizdat, 1965, 129-136 TOPIC TAGS. 44 7 - -2 -41 4 R 1!,~ t~ _Te a s ~to the p C 1%_5 h ist gui h' g featt maton is itape recording of information including the ordinal number of the specimen which is retained for further measurements. The number is composed from the disk-position. number ard the reel number. A readout device consists of a few standard pu0buttor. switches controlled by code tracks situated below the disk and the real. The information is taken by a telegraph apparatus. The output parallel code is turned into a series code by a cam-contact mechanism of an ST-2M transmitter. Tho trantimitter contact system and the receiver magnet, in the same apparatus, are conneat.ed in serle'l. a-le of the contact bars of the ST-214 apparatus Is replaced by six ela4:trically innulated contact bars with separate leads. Three figures. Bibliograph;r of 3 titles. B. U. [Translation of abstract] EUR,C9DZ, 09 ro I I- not 69e.q62t533  ITJSIP/-,~ I.,. * r-.1 -  z  T1 '.7 i R, T.-HE. L i It 7, pit I Ll ii TRIP  - -.. - I - .. . I L.- "- .1, 1, I'll, "I ca-1 T, 11  ZORIN, Z. M.~ WRYAGINX B. V.) KARASIYEVI V. V. "Properties of the Polymolecular Boundary Layers of Liquids According to Absorption and Viscosimetric Wasurements," paper to be presented at the 2nd International Congress of Surface Activity, Internotional Union of PAxre wnd Applied Chemistryt London, 12 April 1957 Inst of Physical Chemistry, AS USSR  znvl~ Z. m. ZONIN, Z. M. -- "Irvestigation of Folyrolecular Adsorption V,l Ste-am on Plane Surfaces Near the Saturation Point." Svb 25 Dec !;2, Inlit of Fhys'c Al Chemistryp Acad Sci USSR. (Dissertation for the Do, ree of Gandidiate in Physicomathematical Sciences). SO: VechernaZa Moskya January.-Decenber 1952  Category USSR/Atomic and Molecular Nrsics - Gases Abs Jour Ref Zhur - Fizika, No 1, 1957,No 926 D-7 Author Deryagin, B-V-, Zarin, Z.M. Title Investigation 0'r~a~ceconlensation and Adsorption of Vapors Near Saturation Using the Optical ME-cropolarization Method. I. Orig Pub Zh- fiz. khimii,, 1955, 29, No 6, lolo-loig Abstract Description of a new method for investigating the adsorption on an optically po. lished surface of glass, based on measuring the changes in the pe.~ameters of the elliptic polarization of light reXlected tit an Qblique angle._ The gLiss surface was cleaned by glow discharge prior to the experiment. Card 1/1  Category AR/Atomic and Molecular Fhysics - Liquids Abn Jour i Ref Zhur - Fizika, No 3, 1957, rio 6435 Author Deryagin, B.V., Karesev, V.V., Zorin, Z.M. Title s Boundary Fhases as Sinrulor Airg'~e~fr ~'4 Stotes of Liquids Orig Pub : Sb. posvyashch. pamyati akad. Mr. Lazoreva, H., IN SSSR, 1956, 65-83 Abstract See Referat. Zhur Fizilce, 19m6, 717. Card p 11 iiil'~ :I ~17 III H 41.1111: 11  ZORINy Z.M. Polymorphism of benzene films on mercury. ~Coll.tbar, 25 ho.5v 624-625 3-0 ?63. OCM 16ulO) 1. Institut finichaskoy khimii Ali SSSR, Moalma.  HIKOLATIVSKIT, G.K., kaud.tekhn.nauk; S"SAM, G.Ai, kanA.tekhn.nauk; TIALASHOV, V.P., kand.telchn.nauk; AUMUOV, I.P.. Iranil.takhn.asuk; HUM, A.G., kand.takhn.nauk, SPITSUA, I.G., k=%d.tekhu.nazl6*; ZORIN, Z.H., inzh.; VOROBKOV, G.H., lnzh.; IVASMOT Ilolso )mud* tdkhii.'fia,A';-d~IPOVA, L.A., red.lisd-va; HODUlp B.I., tekln.rad. Desian of crane mechanisms and parts of hainting and conveyizz machinery] Raschaty kranovykh makhaniumov i (istalei pod"emno- transportnykh mashin. Iscd.2., -Derer. i dap. Koskva. Goz.na-achno- tekhn.12d-vo mashinostrolt.lit-ry, 1959. 493 p. (MIRA 1-3:11) 1. Koscow. Vseeoyuznyy nauchno-Iseledovatellokly Institut pod"yemno-transportnago msehinostroyaniya. (Cranes, derricks, etc.) (Hoisting maelkinery) (Conveying machinery)  DEVYATYKR, G.G.1 ZORIN, A.D.; DUDCROV, V.Ya.,- yUMpLEVA, ji.ye.; SMOLyAN, Z.S. Sepwation'of bivinyl from the butane-but~'Iens traction by extractive rectification. Zhur.prikl.khin. 35 no.7tl597-1601 il 162. OCRA 15:8) (Buta,Aiene) (Butane) (Extraction (Chemistry))  1:~ t:,"c n o f~ I -,;III deco my ost ~:,n :". mc, .-K! 's 1 30ine, ;*17 S amd monoailane ,;ith sirilnp admlxtur-c~. 'Zhur. -varg, khim. 1C, nn.7;1.52F-,15113 JI 165. NIRA k  2'3(4) 05764 AUTHORS: Devyatykh, G. G., Zorin, A. D., SOV/32-25-10-53/63 Danov, S. M. TITLE: Automatic Laboratory Rectification Column for Low Temperatures PERIODICAL: Zavodskaya laboratoriya, 1959, Vol 25% 11r 10, pp t27'1-127 2 (USSR) ABSTRACT: An automatic low-temperature rectification column Va4produced for laboratory purposes from molybdenum glaso (Fig). The ~ middle rectification tube (inner diameter 11 mm, length 2 m) is spiral-shaped at its lower end (length 120 mm, inner dia- meter 5 mm) for the purpose of compensating 4he extension*of heat of the glass. The entire rectifioation tube is located in a silver-plated envelope which is evacuated to 2 . 10-6 torr (at 2000). The rectification tube is filled with bodies in form of tetrahedral spirals (2X 2 tim) mado from conetan- tan wire (diameter 0.2 w). The condenser at the upper end of the rectification tube is of brass and contains ethanol, which is cooled down to the desired temperature by means of liquid nitrogen in an ultrathermcatat of t1w type Vobser. The evaporation piston of the column In cylindrical (200 aim) and Card 1/2 is electrically heated. The evaporation rate of the investigated  05T 14 Automatic Laboratory --Rectification Column :for Low SP3.2-25-10-53/63 Temperatures gas is -regulated by means of a contact manometer. The rec- tification column has an automatic sampling device which Is controlled by means of an electromagnetic cock by way of an electronic time relay, which was oonstructed by L. T. -V'yukhin and E. Lt. Yashin. The gas sample taken is frozen in liquid nitrogen in a collecting vessel. The column has a system for stabilizing pressure in the column. The temperature of the vapors in the column cupola is recorded by iseans of a thermo- couple (copper-constantan) on a self-recording device of the type EPP-09-1. The efficiency of the column correspond3 to 35 theoretical plates and was determined in a a-butylene- isobutylene mixture, the separation coefficient (at -7,010) amounting to 1.042. There are I figure and 2 Soviet references. ASSOCIATION: Gorlkovskiy gosudarstvennyy univernitel; im. N. 1. Lobachev- skogo (Gorlkiy State University imeni If. I. Lobachevskiy) Card 2/2