SCIENTIFIC ABSTRACT USOV, YU.P. - USOVA, V.V.

VOROBIYEV, Grigoriy Abramovich, doktor fiz.-matem. nauk prof.; MESYATS, Gennadiy Andr(rfevieb. Prinimali uchastiye. USPVjJU.-P.; KREIINEV~ V.V.; MELESHKO, V.X..,-red.; MUM, Ye.l... tekhn. red. (Technique for gonorating high-volinge pulses] Tekhnika formirovaniia vysokovol'trykh impullsov. llosWa., Gos- atomizdat, 1963. 166 p. (MIRA 17:1) (Pulse techniques (Electronics))  MESYATS, G.A.; USOV, Yu.P.; GOLYNSKIY, A.I. Some data concerning the affect of electrode shapes and breakdown voltage on the commutation Uie of a spark gap. Izv.vya.ucheb.zav.;fiz. no.~:38-41 163. (MMA 160) 1. Tomskiy politakhnicheskiy institut imeni S.M.Kirova. (Electric switchgear) (Breakdown,Electric)  L 3,1395-6 E1dP(q)/EdT(m)/BDS AFF'1'01.ASD Pq -L WH S/120/63/000/002/039/041 AUTHOR: Usov, Yu. P. and Voroblev, G. A. TITLE- Selection of material for windows in chambers used for investiga- tion of discharges in gases under pressure PERIODICAL: Pribory i tekhnika eksperimenta, March-April 1963, v. 8, no. 2, 177-178. TEXT; The article describes tests performed on various ultraviolet-trans- mitting materials in order to find out whether they could be used as windows Ln apparatus for investigation of discharges in gases tinder pressure. rest results show that ~he heat material for 0-50 atm pressure is crystalline LiF, while qu&rjz_Z_1AgV is best at higher pressures. Quartz glass is bast under all conditions when maximum ultraviolet-transmission is not necessary. There are four figures. AS,410CIATION: Nijuchno-issledovatellskiy institut yadernykh isaledovaniy elektroniki i avtomatiki pri TPI (Sclentific-Research Institute for Nuclear Research, Electronics and Automation at the Tomsk Polyte'qhnx.c___.' t -itute) January 16, 1962 Card 1/1 JakE  L 22277-66 EWT(l) ';7ACC NR: AR6005194 SOURCE CODE: UR/0058/65/ooo/oo9/dol9/oo19 AUTHOR: Usov, Yu.,.P. !TITLE: Spark-light triggering of discharge gaps in gases at ;different pressures !SOURCE: Ref. zh. Fizika, Abs. 9G153 !REF. SOURCE: Sb. Proboy dielektrikov i poluprovodnikov. M.-L., iEnergiya, 1964, 79-82 TOPIC TAGS: spark gap, gas discharge, pressure effect, ignition., '~dielectric breakdown, cascade TRANSLATION: Data are presented on the investigation of spark-light ignition of a discharge gap in air.. N Ar, H . and He for d1j.- 2$ 02-P 2 ferent pressVes and different parameters of the igniting flash. The delay of the triggering was recorded with accuracy + 1.5 nsec. The ~results show that in order of magnitude the delay of the triggering iis equal to the time of flight of the electron through the gap, and Card 1/2  L 22277-66 ACC NR; AR6005194 Jno noticeable ion current Is necessary to complete the breakdown. :.The difference between the delay and the travel time of the electrons'! iincreases with'increasing as pressure. The character of the de- ipendence of the delay on EX is the safne for all gases. The range I of delay with respect to 9/p becomes smaller with increasing gas !pressure. 1. Popov ISUB COM 20 -A. Card 2/2 -nat  USOVP ru.P. Delayed breakdown of a nonirradiated spark gap at large overvoltages. Izv. vys. ucheb. zav.; fiz. no.l:'81-83 164. (MIRA 170) 1. Tomskiy politekhnicheskiy institut imeni Kirova.  Tq. T T 11 7t~ OS -, ,jptjr~-, -; i =-*-A - i r- i t~~-A , -4-Jsf~h a rcie t iT.~-, za- I- - -~i ~ t- 1, ,~ ; 4 1 f7 t r ~ I . -. :; I. . , I-- I ~, -I ~ " , " - ~ a I, "'. , I . - - 11 ~-. " & -, - I lal~ - -f, - - - - ; - 4 1 & i , A-4 ~ , I -. ,-11 Q , - -:., - .-I - - - ~ , , -,, -, 7- ~ a - " C, L.7 . e, r-  ACCESSION NP: AP,1047~67 mined frori this plot- makes ~L ~i) deteriu.-,e the phot-Dcirre-ft cL I: r- rlaZ3 4 L .1yu L U5 1:57. Dr-,v PYT W v p !VI -Ord 2/2  ACCESSIal NR: AP40.38~649 S/0109/64/OD9/005/OW2/0887 AMUR: mesyatsp Go Ao; Usovp Yu, P.; Korshunov,, Go So TITIE: investigation of the spark lag in irradiated gays for use in nanosecond pulse work SaMCE: Radiotekhnika i 61ektronika, v. 9,, no- 5; 1A,, 882-887 TOPIC TAGS: spark gap, spark lag, irradiated spark gapp iulse work, nanosecond pulse work ABSTRACT: Re C, Fletcher's investigations (Phyao Hey-# 1949.,,76, lo, 1501) were continued with a view toward using the results in nanosecond pulse work& Fran a surge generator with a sealed'gap K (see Fig I of the Enclosure), pulses were applied to an auxiliary 0.5-m gap G whose spark irradiated the main gap 0. *The latter was either of an open-type or a quartz-window sealed type (at 360 tW4 A positive 15-kv peak was used in all the experiments. The irradiation time was varied by altering the length of the Ga SuPply cableo The effect of.the inten- sity and time of irradiation on the.10-9-oec-front-pWse lag was studied* Also,, Card -1/3  Acassiw NR: AP038ag the effect of the electrode shape and preasuke on the spark-formation time was investigated. A multigap delay system Is suggested for h-v pulse work. Tests with a 5-gap., 15-kv system showed that, with 2-m-diamdter electrodes And 166-pf cawitors., the tim lag could be continuously adjusted within 6o-lpoo Orig, art, bas: ft a foruu3m., and 2 tables nanosece gure ASSOCIMCM none suuc=.- 14mar63 MWL: 01 SUB CCM I EG no FzF sovi oo6 3 003 Card 2h  I ACCEMICH NRI AP403W*9 ENCLOSURM 01 Starting cathf-ray 0900 lei 4 A Figo 10 Experimental hookup f .studying the effects of irraftated-gap spark ]Ag D D - capacitive divIders; K - coaxial chmber; A osdillograph CWA3/3  ~~L,49~,,!66 EWT%f1)/EWA(h) ACC NRs AP50206493 SOURCE CODE: UR/0286/65/000/019/0026/o ITWEVITOR: _Usov, Yu. P. TITL---: Device for triggering discharge tubes in a high-voltaEe Pulse generator. Class 21, No. 175085 (Announced by the !Z-ntif I t1lut'! of fi=lear P1=3 Qaa"o - n at Tcjm Lv:LELChnic institute im. S ji-_EU_QL_- -Cilauchno-issledovatelIskiy institu yadernoy fiziki, 61-ektroniki i av-tomatiki pri Tomskom politekhnicheskom institu SOURCE.- Byullaten' izobreteiiiy I tovarny1di znakov, no. 19, 1965, 26 TOPIC TAGS: pulse generator, d1scharge Woe ABSTRACT: The proposed device (see figure) Is designed to trigger discharge tubes Fig. 1. TriggAring device Trigger-pulse generator; 2 - elec- trodes of the firing discharge tube; r-El 3 - section of coaxial cable; 4 - load resistance; 5 - ferromagnetic core. Lin a high-voltage pulse generator. To avoid shunting of the load resistance of the generator by the firing circuit and to protect the trigger-pulse generator against C.r'j C arcl 1/2 uDc: 621.373.43  L 64c'-3-66 ACC I101- AP5026493 high.-voltage effects, the coaxial cable section along which the trigger pulse is transmitted to the firing discharSe tube is wound around a ferromagnetic core; the sheath of the cable is grounded on the side of the trigger-pulse generator. Orig. art.,has: I figure. [DWI SU B CODE: EC/ SUBM DATE- 24Feb64/ ATD PRESS: nw Card - 2/2  MALINSKIY, Vladimir Davidovich; VEREVKIN, Yu.Ye., prepodavatell, retsenzent;_W Ye.p prepodavatell, retsenzent; --- Y,J_p~_- BASAVINA, Ye.V.,, red. [Collection of laboratory papers on amplifying and ra-Ro receiving systems] Sbornik laboratornykh rabot po usili- tellnym i radiopriemnym, ustroistvam. Moskva, Vysshaia shkola, 1964. 176 p. (MIRA 17:12)  0 o 0 0 0 0 0 ~ a 0 0 0 0 C 0 W 6 N AR L 6 It 0 Pu I S T W ini U, . x x v a 31 32 a 30 V a. a. ~ ! k L L T O o :: ~ Ist .-0 SIC, tiffew 110L91112 - - M ..0 41. "DENS F. Gacurs o o ' so uf"m ..oil I MAL s 1.012 n 00 r i c. 00= f ' 1 1 00 9 000 ;f 11, 9. 1 1 lok~.-j -!.dUiI0Oj 00 00- 0 'Al'l 51 Pum njwnb OU -apvW Al"q "IMMI Dt" in .0008 9v 1:: 00 100 0- '"j(IwuV 'majdIs-spea #I a 00. JQvtm &- som )w JP 91 Pow M" 10 w"Jo(I 'NO go aliptivillu 9= P" If" 00 Wo o = " *Av"vv'af,n-s)r tit "15= lime, 'va-a 'y *v - 00 Ii 00 of-; O"Psm rm"- j0 9 pen nmb "MA 03mqwm io gap" sip p WWPWDF V 0 Too L 0o- 41 -0 's 0'0 ;1 --1 - -r-- , - , . 'I J-1- - - 13' -1- li V Y-,r,f OR tv it is & of r, a it 11 PF n rf it 11 10 05 M M 1 t I I T at N a It 0 11 r, (1 11 11 at I 1 4 1 1 t I Ice 64 o0 0 0 0 I '-s-016 000 0 0 0 0 0 0 0 l: 0 0 0 0 0 0 ig0 go 000 0 9 00 0 al _  USOVAY A#B, (CheliabinBk); LITINSKIY, D.Ye. (CholiabinBk) The experiment of the teachers of Lipetsk and teachir,,-, pb~rsics. Hat i fiz Bulg 5 no.6:39-44 N-D 162.  TO 0 -0- 0- 0- 0 0 0 0 0 0 0 UAL it T `6 A- I I L MAP (A 4, 00 O's '-so AdC 00, 42- 00 *0 00 Jrwr&WA-K.V~ s (Coop. wed-4c&wl. Sri. U.N.S.S.. 1N4. U-12s)-umm'6010 dVm14 1-nd sear Kohand in, 00 UebieWstan gi" the X-ray diagram wW tbwmagrapb for viont. 00 moirtuouite. a" their "Nuing capad 400 0.3 castial seads Made vvil= ifaew. =,,rtjyc."d. v =nderjao 00 mm"Mg MIM equal to that of bentoolte from 1) at present the osly MGM in on V'S'S.R. H. CV. too 00 v0 400 ago too a . iAACIALLUITCKIK LINSOWN CLASSIFOCAflO el- clef via 43"n Mi7 I.All d4 I 3 V 'ZA u 5 AV 10 is u 991 %41 Iwo 14.1woo Oita i0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 * 0 0 * 0 0 0 0 0 0 * 0 0 0 0 0 0 *Td:4 :10 * o o * 09 00 0 0 00 0 go 00 00 0 0 * 0 0 0 0 so 0 0 * a 0 0 OA  t4eit'a Some ritalaIns OIINI~aAb.'Pj'~~lcf llwiuk 91k Z-!P. C'.L Rde-C-1. Zhu,. K4fqs.' X01. Khim' -A study ~4' Olt CtTcct cl rlicntffjf'~ acid, vilaniiii It, (1), P-.l fuhlotic n vile Aejd (it) afld of NEC (111) gild nsvorhj~ (IV, af'H3 on th'! 4'ak Ivolm ~.,i 111141n. alld It iwul'llt!~ t!-,r dcvcloj i! silk ivcmu catc;-pillan. hastc:l LIIC elwIMI-1 .1:11 (11-2 -'w'disig "f tht- bilk thr'ad'j' in'lc.ne the tvt. of OIQ '-;acrpi!1 tt~, and =1m.,:t th.ir r,;.- sistance to tile fillindic filf,:etbil. S.- fc-v in WWI-  IVANOVA, A.S.; SHAR IN, S.D.1 KICHURINA, I.A.; Uff, IDIK, T.Te.; F3CMW1. N.G.; TATSMO. V.A.;, 1,A.P.- 7RMVA, P.A., otir.red.; ROGOVSKAYA, Te.G., red.; VCMOV, N.V.. takhn.red. (Agroclimatic reference book on Awar Province] Agroklimatichookii spravochnik po Amurskoi oblasti. Leningrad, Gidrometeor.izd-vo, ig6o. 134 p. (MIRA 13:11) 1. KhBbarovek. Gidromsteorologicheakeya observatoriya. 2. Khaba- rovskaya gidromBtaorologicheakaya observatoriya (for Ivanovs, Shabalin, Hichurina, Shlendik, Pechent. Tataenko, Uaovs). 3. Na- ch.allnik Otdela agrometeorologii M3Bbarovskoy gidrometeorologicheakoy observatorii (for Ivanova). (Amar Province--Crops and climate)  ACC NR. AP6032592 AUTHOR: Androyev, V. M.Lis~~ ~OUR(:k--CODI~~UR/6662/66/,-,10/008/1410/14i6 ORG; Institute of Organic Chemistry im. N. D. Zolinskiy, Acadon7 of Sciences, SSSR (Institut organichoskoy khizii Akadomii nauk SSSR) TITIB: Diono condensation of ethyl y-ostor of 0-formylacrylic acid with 2,3-dimothyl-' butadiono and bivinyl, and reaction of the adducts with hydrazino hydrate SOURCE: AN SSSR. Izvestiya. Soriya khimichaskaya, no. 8, 1~66, 1410-1416 TOPIC TAGS: dieno synthesist butadiene, hydrazine-compoundg acz7lio acid) virql Com- pound ABSTRACT: Diene condensation of ethyl y-ester (I) with 2.3-dimethylbut-adiene produced "ster (11)9 which was reacted as shown bolowl 4 UDCS  CH C**~, ~O CH~( C211$ (11) octi, A CH CH CH + 0 CH CH3 HO Ovil) CH& (jVl,) Or-,H, Condensation of (I) with bivinyl produced y-ester (V)g whose further reactions are included belcu: 00 + 0. ~10 0~0 CHS C21 H C110] M WO COOH 001i 0 ocif, actio 'VII) (Vill) fix) Card 2/4  ACC NR, Ap6o32592 ltrdrogonation of (VI) in mothanol involvod tho following roactional (pd) OOH r-'~O,,, (VI) ", 0 + H ClIjOH /OH CH, 000 "'Cooll + -.0 0 ' (::~:Il * ~X~Ha Hmmhydrophthalazones (XII) and (XIII) wars obtainod as follows; 0 0 CH (VI) H (U) 0:~, CH (XII) Chlorotetrahydrophthalazine (XVII) was sy'nthesivid as followss _.~qrd--3hk-  ACC NR, AP6032592 0 (Y 0) -"A In. H+ AM (XVI) 0 ANH 1 CC N (XVIII) (XVIO The synthesized hydrophthalazones can serve as the starting.matorials in the synthesial 0 1 .of Aprossin analogs. Authors express their thanks to S. S. Yufit for assistance in I evaluating the results and to M. B. Shadurovaq who participated in the experimental part of this work. SUB CODEs o7/ SUBM DATEI 13HU-64/. ORIG RWS 003/ OM W9 010  USOVA, A.V. (g. Chelyabizwk). Blements of agricultural mechanization and electrification In a school course on physics. Fiz. v shkole 13 no.4,.18-24 Jl-Ag '53. (WU 6:6) (Agricultural engineering-Study and teaching)  USOVA, A.V. ~~FA,I,Awnwywr - Demonstration of uniform straight-line motion# Fiz. v shkole 16 no.6:50-51 N-D 156. (MLRA 9:12) 1. Pedagogicheskiy Institut, Chelyabinsk. (Motion--Study and teaching)  USOVA, Antonina Vasillyevna,;DROZHZHIN, Yu.N., red.; VOLCHM. V.L.,takhn. red. [StudYing tba motion of liquids and gases in secondary schools] Isuchmpie dvizhaniis zhidkostei i gazov v arednei shkole. Moskva, Gou. u6habno-podagog. i~d-vo H-va proav. RSFSR, 1958. 73 P. (MIRA 11:12) (Fluid dynamics--Study and teaching)  V. AUTHORs Usova, A.V. 47-58-1-19/35 - TITLE: --------- Aemonstration of a Computer of Charged Particles (Demon- stratsiya sch4tohika zaryazhennykh chaatita) PERIODICALt Fizika v Shkole, 1958, # 1, PP 55-56 (USSR) ABSTRACT: Computers of oharged partiol&s are now available in the stores of "Glavsnabpros". They will prove useful for demon- etrations in the schools. The author suggeste a airouit necessary for the installation of such counter and gives a detailed description. In this installation the counter IISTS-5" is used. It can work with a potencial of 250-300 v that could be eupplied by an anode battery, Thero is 1 diagram and 1 figure. ASSOCIATION: Pedagogicheskiy ins titut, Chelyabinsk (Pedagogic Institute, Chelyabinsi) AVAILABLEs Library of Congress Card 1/1  USOVA, A.Y. (Chelyabinsk) Connection between the physics curriculum of rural schools and agri- cultural machinery. Piz. v shkole-19 no.1:70-82 Ja-Y 159. (MIRA 12:3) 1. Podagogicbeekiy institut. (Agricultural machinery) (Physics--Study and teaching)  USOVA A yt(delyabinsk); TUSHEV, M.N.(dhelyabinsk); VOROBIXEV, S.A. Organizing independent work of studente in pbysics lesnons. -71z. v shkole 20 no.2s25-30 Mr-AP 160. (MIRA 24:5) Mysica-Study and teacbing)  USOVA, A.V. (Chelyabirsk) Organizing independent work of students in physics lessons. Fiz. v shkole 21 no.2:92-94 Mr-Ap '61. (MIRA 14:8) (Physics--Study and teaching)  RUCHFHOV, V.F.; SEREBRYAEOV, E.F.; USOVA,_AL. Stereochemistry of cyclic compounds. Report No.49: Oxidation of cis-syn-.87-hydrindene-4,5-dicarboxylic acid and the synthesis of isomeric trans-hydrindane-4,5-dicarboxylic acids. Izv. AN SSSR Otd.khim.nauk no.1:106-112 ja 162. (14IRA 1-1:1) 1. Institut oreanicheskoy khimii im. N.D.Zelinskoeo AN SSSH- (Cyclic compounds) (Acids, Organic) (Stereochemistry)  USOVA, A. V. (Chelyabinek); LITINSMO B. Yo. (Chelyabinek) Practices of the Lipetisk Province teachere and the teaching of plWeics. Fiz. v shkole 22 no.4:30-31+ JI-Ag 162* (MIRA 15:10) (Physics-Study and teaching)  USovA,-A.-V.-Uhoayabinsk); KREmLLrVA, M. A. (Chelyabinsk) Students' work with material distributed to them in pbyBIco lagoons. Pis. v shkole 22 no.4t85-87 Jl-49 '62- (MMA 15: 10) (pbysios Study and teaching)  KCTOMINAS M.G. (Cfi6lyabinak).,;,,,USOVA,_.4tyl,_,(Chblyabinek) , - PractiQal work in phpics in industrihl laborktorlope ?iz. v shkole 23 no.3t43-44 MY-Je 1639 (KIRA 16:12)  USOVAS A.V. Developm6nt of students' interest In research work during the process of teaching physics. Fiz. v shkole 23 no.4t45-49 J1--Ag 163. (MIRA 17:1) 1. Pedagogicheskiy institut, Chelyabinsk.  U-SiDVAI F,. P.~ GOL-l-, 11. G.., ar.1-1 MIMSARTV) K. A. .LL110 I If Application of the analytical computation method to evaluation of errors in paper chromatography and to refining of the measurement of crystallization terrmp-rature" Report presented at a symposium on the mathematical processing of analytical data vas held on 3 March 1964 at the Institute of Geochemistry and Analytical Chemistry, Acad. Sci. USSR ( State Design and Planning Scientific Research Institute of the Nitrogen Industry)  USOVA, E.P.; SHESAREV, K.A. Quantitative determination of amino acids with the aid of quinhydrons. Report No.ls Determination of -aminoenanthic acid. Zhur. anal. khim. 19 no.2:243-247 164. (HIRA l7s9) 1. Gosudarstvennyy nauchno-issledovatellskly Iproyektnyy institut azotnoy promyshlennosti i produktov organicheskogo sinteza, Moskva.  U-SOVA, E.P.; SNESAREV, K.A. Quantitative determination of amino acids with the aid of quinhydrone. Report No.2: Quantitative raper chromato- graphy of higher 40-amino acids. Zhur. anal. khix. 19 no.3079-382 164. (MIRA 17:9) 1. Gosudarstvennyy nauchno-Issledovatel'skly i proyektnyy institut azotnoy promyshlennoBti i produktov organicheskogo sinteza, Moskva.  11SOVA, E . 1'. ; SNESAM,,"], K. 'AO . - - -- I I -.. - - - . . Qua n, 1. -1 ta t J e d e te r,-.-' t, a t, a n c fn o a c _4 d s b7 me a r, a o 0 :, V. -,-~ r:, r e . ReporL Na.3: Re-action betweer,60-amino acids and L-benzo-,-.' n3rz- . Zhilr.anal.lchim. 19 na.9~1147-1154 164. ~~i'TPUI 17:30) I.. Stata Scientific-Pesearch and Dosign InstItuto of the Nil~rogan Indu5try and the Froducts of Organic Syntheals, Monc-rj.  USOVA, G.V. (Orsk) ~ Use of small series conveyors in multiple-Btyle section assembly lines. Shvein. prom. no.2:28-31 Mr-Ap 163o (MTRA 16:8) Clothing industr7) Osemb3y-Iine methods) ~  USOTA. I.S. Determination of the center of narrow axisymmetric beams of quanta by means of sectional ionisation chambers. Dekl. AN SSSR 104 no-3:391-392 3 155. (KIU 9:2) 1.Flslcheekly Inatitut Imeni PoWelobodeve, Akademli anuk SSSR Pr*dstavloao akadealken I.To. Tammom. (Ionization chambers) (Go=& rays)  66379 AUTHORS: Piskov, M.P. and Usova, I.N. SOV/120-59-5-32/46 nisa TITLE: A Differential Chamber as a Monitor for the Bremsstrahlung from a Synchrotron PERIODICAL: Pribory i tekhnika eksperimenta, 1959, Nr 5, pp 127 - 128 (USSR) ABSTRACT: The Bremsstrahlung of a synchrotron is conveniently monitored using a thin-walled lon1sation chamber placed in the photon beam in front of experimental apparatus. However, experience with the synchrotron at the Physics Institute of the Ac.Sc., USSR has shOWIL that because of the presence of a considerable electron background which accompanies the photon beam, the monitor readings depend on the maximum energy in the spectrum of the Brems- strahlung (Figure 1, 1). This fact, together with some instability in the maximum energy, leads to a reduction in the accuracy of such a monitor. In order to improve the accuracy of thin-walled ionisation chambers used as monitors, Veksler has suggested that a differential thin- walled chamber may be used since the sensitivity of such Cardl/3 a chamber to the electron background can be made VK  66379 SOV/120-59-5-32/46 A Differential Ignisation Chamber as a Monitor for the Bremsstrahlung from a Synchrotron sufficiently low. The differential monitor chamber is in the form of two ionisation chambers placed directly one after another and connected so that the currents subtract. The froitwall of the first chamber is a copper foil, 12 IL thick. It also serves as the high-voltage electrode. The rear wall of the first chamber is a thick collecting electrode made of aluminium, which is also the collecting electrode and the front wall of the second chamber. The rear wall of the second chamber is also made of copper foil, 12 p thick. A voltage of -1 kV is applied to the first chamber and +1 kV to the second. In this way, the charge received by the common collecting electrode is proportional to the difference in the currents through the two chambers. As a result of the fact that the front wall of the first chamber is very thin, the current in the first chamber is mainly due to the electron background. Conversely, the current through the second chamber is card 2/3 mainly due to secondary electrons produced by the photo  6F,379 SOV/120-59-5-32/46 A Differential Ionisation Chamber as a Monitor for the Bremsstrahlung from a Synchrotron in aluminium. The contribtition of the electron background to the ionisation in this chamber was determined by studying the change in the lonisation current of an identical subsidiary chamber by varying the thickness of its front wall between 1.51; and 1 mm of aluminium. The contribution turns out to be about 30% of the total ionisation produced in the second chamber. The dependence of the readings of the relative monitor with the thin- walled differential chamber on the maximum energy of the Bremsstrahlung spectrum of the synchrotron mentioned above is shown by Curve 2 in Figure 1. As can be seen, the effect of the electron background is reduced. There is 1 figure. ASSOCIATION% Fizicheskiy institut AN SSSR (Physics Institute of the Ac.Sc., USSR) SUBMITTED: August 21, 1958 Card 3/3  USOVA, I-N. Absolute measurement of the intensity of high-energy gazma radia- tion by the methocl of pair difference. Zhur. tekhn- fiz- 30 no.6:665-671 Je 16o. (MIRA 13:8) 1. Fizicheakiy Wtitut im. P.N. Lebedeva, AN SSSR, Moskva. (Gamma rays) '  usOVA, 1. N. Cand Phys-Math Sai -_ "Ionization methods of absolute measurements of the intensity of high-energy ga=&,-radiation." Moo, 1961 (Min of Higher and Secondary Specialized Education RSFSR* Moo Phyn-EMineering Inst ). M, 4-61, 185) -47-  20631 S/12o/6i/000/001/015/062 E032/E114 AUTHOR: TITLE: Application of Sector Ionization Chambers to the Absolute Me3surement of the Intensity of High-Energy Gamma-Rays PERIODICAL: Pribory i 4.-ekhnika eksperimenta, 1961# No.1, PP-53-55 TEXT: In a previous paper (Ref.1) the author described a sector ionization chamber designed for the location of the axis of the y-ray beam of an electron accelerator to an accuracy of 1 0~1 mm. The design of the chamber is illustrated in Fig.l. Owing to the fact that the two sector-shaped cavities 1, 2, have a common collecting electrode and the high-voltage electrodes 3, 4, have opposite polarities (� 1500 V), the charge flowing to the collecting electrode 5 4B proportional to the difference between the currents through the sectors I and 2. When this difference is zero the beam axis coincides with the axis of the chamber and the energy fluxes Ul and U2 passing through the transverse cross-sections of the sectors I and 2 are equal. This fact can be used in the determination of the energy flux due Card l/ 5  20681 S/120/61/000/001/015/o62 E032/E114 Application ol: Sector Ionization Chambers to the Absolute Measurement of the Intensity of High-Energy Gamma-Rays to high-energy y-rays by measuring the difference in the number of electron-positron pairs from thin converters 3, 4. As shown by Blocker et al. (Ref.2) this method consists in the calculation of the energy flux from the current difference I(Zl) - I(Z2) for converters with different atomic numbers ZI and Z2 but equal numbers of electrons per cm2 of surface. Normally, plane parallel Ionization chambers are employed in this method. However, sector chamberb have the advantage that the current difference can be measured directly to within 1-2%. The intensity is measured as follows* The axis of thG chamber is brought into coincidence (by remote control) with the beam axis. The front walls of the sectors are replaced by the converters, in which case the current difference is related to the energy flux by U = AI/e g (ZI ) R1-2 W where e is the electronic charge, g(ZjL) is the effective Card 2/5  20681 S/12o/ft/ooo/oot/015/062 E032/E.114 Application of Sector Ionization Chambers to the Absolute Measurement of the Intensity of High-Energy Gamma-Rays depth of the chamber for atomic number Zl, and Wmax cr R n(W,Zi) - 1-2 W max S 0 electrons leaving the cosiverter with RI-2 is given by , Z f (W) 17W7 dW a~(W 2 W f (W) dW In this expression (1n(W, ZI) is the number of pairs produced in the converter with atomic number Z1, f(W) is the number of photons of energy W, IN is the mean number ef pairs of ions produced by the electron positron pairs per unit path length and Al is the current difference between the two sectors which Is measured directly. The ratio g(Z,)/g(Z2) was calculated by the present author to an accuracy of 1.5-2% in Bef-3. The absolute accuracy of the intensity measurement is said to be 7%, while in Card 3/5  W68i S/120/611000/001/015/o62 E032/E1111 Application of Sector Ionization Chambers to the Absolute Measurement of the Intensity of High.-Energy Gamma-Rays the case of the plane parallel ionization chamber the accuracy is 10-15%. The device has been used on the synchrotron of the Fizicheskiy institut AN SSSR (Physics Institute, AS USSR) (Wmax = 260 MeV). The results obtained were foutid, to be in good U agreement with determinations by other metho pq ma,le later by a group of physicists under the direction of k GuIldanskiy. Acknowledgements are made to V.I. Veksler A, Cherenkov for interest, and to A.I. Yudin and P.A. Zayt5d,, o built the chamber. e ViT4 There are 1 figure, I table and 4 referencqAo 2 Soviet and 2 non-Soviet. ASSOCIATION: Fizicheskiy institut AN SSS41 (Physics Institute, AS USSR) SUBMIT'PED: February 16, 1960 Card 4/5  200,81 S/120/61/000/001/015/062 Application of Sector. lonization..EO32/Ell4 Fig. 1 Card 5/5  USOVA, I. M. Determining eAergy flux in a high-energy photon bean by the area bela- the cascade curve. Prib. i tekh.eksp. 6 no./+:27-30 n-Ag 161., (MIRIA 14:9) 1. Fizichoskiy inatitut AN SSSR. (Photons)  3?785 S/120/62/000/002/Oo8/o47 E039/E520 AUTHOR: TITLB: The absolute sensitivity of a thick-walled graphite ionisation chamber for photons with energies up to 26o MeV PERIODICAL: Pribory i tekhnika eksperii-tienta, no.2, 1962, 36-42 TEXT: The method of calculating the absolute sensitivity of a thick-walled graphite chamber described in this paper is more accurate than previous calculations by other workers. The effects of density, multiple Compton scattering, radiation loss, annihilation positrons in the chamber wall, ionisation losses, the nonlinear relation between path length and energy etc. are taken into account. The expression derived for the sensitivity of the chamber is: W iax Wf (W) ~ Cf 1 (W) / f Ml -, 0q) s1(11) +Cf2('V)/f(")]_r(")s2("4)dW S(W max WInax - Wf(W)dW (16) Card 1/3 b  The absolute sensitivity ... S/120/62/000/002/008/047 E039/E520 where s I(W) and s2(W) are the fractions of the energy of photons of energy W used in ionisation, forming secondary electrons with path lengths R T respectively, where T is the thickness of the front wall of the chamber, -r(W) is the photon absorption coefficient, f(W) gives the spectrum of the synchrotron. The calculations are carried out for a chamber with a front wall thickness of 4.5 cm and depth of working volume 1.04 cm for a 5 maximum energy of 260 'MeV. This gives a value of -(0-83+O-o6)-1d- whereas the value obtained in the previous calculations :;as -1.02*10-5. The more accurate treatment giving a value -20% lower than be-lore. The accuracy of the formula obtained is about _+77~. This error is made up of inaccuracies in the values for the spectrum of the synchrotron, ionisation loss, the cross-section- for Compton scattering and formation of paits, the absorption coefficient for photons etc. and also by neglecting the develop- ment of cascade processes. It is noted that if the development of cascade processes is taken into account that the formula for the absolute sensitivity of the chamber remains practically unchanged for photon energies up to Wmax --- 1 BeV. There are 5 figures and 4 tables. Card 2/1  The absolute sensitivity ... S/12o/62/000/002/008/047 B039/B520 ASSOCIATION: Fizicheskiy institut AN SSSR (Physics Institute AS USSR) SUBMITTED: June 20, 1961 Card 3/3  TSNLIN, A.L.; USOVA, K.I. Periodicity In the excretion of Intestinal protozoa. DDkl. AN Tadsh.SSR no.5:31-34 152. (MLRA 9:10) 1 1. Tadzhikskiy Institut malyarit I seditsinskoy parazitologii. Predstavleno cbelnom-korrespondentom AN Tafthikskoy SSR W.F. Berezkirqm. (Protozoa)  USOVA, K. K - 28009. USOVA, K. K. -- Blizhayshiye klinichaskis rezulltaty lochenlyn khronicheakikh. ognestrelinykh. Osteomielitov po materialam respublikanskogo gospitalya. (tashkent). Trudy per-roy nauch. Mezhreop. Konf-teii po lecheniyu invalidoy otechestv. Vo7V v trod. Atli. Tashkent, 1949, S. 117-23- SO: Letopis' Zhurnalinykh Statey. V61: 37, 1949.  USSOVA, K. M. V. U. ROSHKOV, ZhPhysiols 1935, 12, 582-584  USOVA, K.M. V.M. ROZHKOV, J. Physial. USSR, 19, 1936, 582-4  U1,0711) L. F. USOVA, L. F.: "Invos',4,raticr. Of the apinf, of tp-chnic,!-i 1ron". 1~-Toscow, 19.---'- Min Figher Educaticn USSR. Moscow Ordor of Labor ii~ed Fanner Inst of Steel imen7. 1. V. ~-talin. (Dissertati. ns for the d Pgree of Candi d,-te of Technical Science.) ~0: Knimaya Letopis' No. ")'0 10 D~-cnviber 19,1-5. Moscow.  USOVA L Fq,FIffM,,'SJITnll, B.11" Determining, the activntion mnergy in the Ming of comm-rcial iron. 14tuch. dokl. vym. shkoly; mot. no.l-.163-168 159. (WRA ID9) 1. Monkovskly inntitut stali. Oron--ffardmning) (Activity coefficients)  137-58-4-8150 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 4, p 255 (USSR) AUTHORS: Finkel'shtcyn, B.N., Usova, L. F. TITLE: The Aging of Technical Iron Investigated by the Internal- friction Method (Issledovaniye 5tareniya tekhnicheskogo zheleza metodom vnutrennego treniya) PERIODICAL: Sb. Mosk, in-t stali, 1957, Vol 36, pp 176-190 ABSTRACT: Three grades of technical iron from different melts were in- vestigated by measuring the extinction rate of low-amplitude torsional oscillations of wire specimens 315 mm long and 0.7 MM in diameter, and also by measurement of the shear modulus and Young's modulus of elasticity during the aging process, and microstructure investigation by optical and electron microscopy. The moduli were determined by the natural frequency of the long- itudinal and torsional oscillations of specimens 250 mrn long and 4 mrn in diameter. The single-stage quartz method was used in making copies. Stress relief was performed by annealing for 2 hours in vacuum at 7001C and cooling in the oven. Quenching was from *1000 in 10% NaCl. A study was made of the change in Ca rd 1/2 the low-temperature peak of internal friction during the aging  137-58-4-8150 The Aging of Technical Iron Investigated by the Interna I- friction Nlethod process at 60, 80, 90; 100, and 1200. The number of C and N atoms in the solid solution was calculated by the magnitude of the change in the peak. It Was established that the solubility of C and N in C( Fe at room temperature is lower than the values quoted in the literature. The solid solution remains oversaturated both after quenching and after annealing at 7000 and cooling for 10 hours. The rate of decomposition (RD) of the solid solution increases with a rise in aging temperature and degree of oversaturation. The aging pro- cess clearly divides into three periods: 1) the RD of the solid solution is low; 2) a rapid rise in RD, attaining a maximum, followed by a rapid drop there- after; 3) a slow decline in RD. The quantity of the precipitated phase at '-ar- ious moments of aging is determined. It is found that the moduli of elasticity do not change in the course of the aging process. A.F. 1, Iron--Aging--Ana1_ysis 2, iron--Mechanical properties--liging effects Card 2/2  AUTHORS: UBova, L. F., Finkel'shteyn, B. 11. SOV/163-58-1-30/53 TITLE: The Determination of the Activation Energy of the Aging -~f Technical Iron (Opredeleniye energii aktivatsi2-4 ataTeniya tekhniche-kogo zheleza) PERIODICAL: Nauchnyye doklady irysshey shkoly. Metallurgiya, lqf~~S, Nr 1, pp 163-168 (USSR) ABSTRACT: The activation energy in the aging after the hardening of the technical iron alloys Nr 5 and 6 was investigated. The course of the kineti3 curves of deformed samples, which depends on 'the various temperatures of aging, is analogous to the course of the aging curves after hard3ning. The activation energy was determined from the kinetic curves by two methods: 1) For every temperature the time is determined within which part of the C and 11 deposited in the iron are separated from the solid solutions. In the caoe of iron sample Nr 6 (in hardened state) the activation energy amounts to 13500.t.500 Gal/mole, and for sample Nr 5 ~'in hardened state) to 20000+500 cal/mole. The activation energy of deformed sampleS of th"~ iron alloy Nr 6 amounts to 8600 cal/mole. gard 1/3 2) The activatlon energy was calculated by means of the formuls,  SOV/163-58-1--30/53 The Determination of the Activation Energy of the Aging of Technical Iron 4,6 T2 Ti 16C, TT-I -T i g C (2) The activation energy calculated -'n this 'Nay for iro,- alloy Nr 6 amounts to 13000 - 16000 cal/mcle, for iron alloy NT 5: 18000 - 20000 cal/mole (both in hardened state). The actuivati-= energy may also be determined by its dependence on the internal friction as well as the frequency and the temperature o-.zlirr~ng on that occasion. Taking into account this dependence zhe following formula was derived: R T 1,T2 1n f2 T2 - T I f 1 where H denotes the acti-rat-Lon energy, R the gas conEtant, T1 and T 2 the absolute temperatures at the maximum, f I and f2 the frequency. In using this formula for iron alloy Nr 6 15c:00�500 ca"/'mci-l- were found for the activation energy at different frequencies. As may be seen from the result obtained the activation energy for iron alloy Nr 5 differs considerably from that of Nr 6. The Card 2/3 lattice state in the alloys influences the activaticn. erergy.  SOV/163-58-1-30/513 The Determination of the Activation Energy of the Aging of ?echnicai- lror The state of the crystal lattices is influenced by various impurities. There are 4 figures, 1 table, and 7 references, 3 of which are Soviet. ASSOCIATION: Moskovskiy institut stali (Moscovi Steel Institute) SUBMITTED: October 1, 1957 Card 3/3  PHA-2 DOCK F ~~LC.*%,'.ch N,~ 61) -11Y. -.~. 10) K".to 0,'1;1 1.4.rtd. 6,-X,) rlrtd. A~-J: A)ml-yi caak =!. :ftstltut C-khlw! I p0 U.P. Ll.. Aa. Lt. of F-w L.L. T.T. B.-Scull. MV~13Z t !I'm bot,k is lzt-ded for labors'Wry perm-o4l cancer.,xi with CIS to b.8.4 . eat.'.."m if tt. C-'..a"Ico cheal.try A; Z--jt zu dt.ling with Os , Mlems pr-t dete, - The es't:~d, 4 ... I,v,4 I., NZI&O-LAtS MA41 '.kA 54~tSt ftl*A'ISt9 X.P. -4 N.A. for -he ~lr*ls ~f V~c4 In Steel ".4 slumlo~. "d - s;pl!esh,'* to zl Cases in other 2) -he rvva~h or Z..R. %.~ts- ~d -crk.rv et -tsw fii;t~t;t; of r. --hemd.-r7 atel L-Irtloal Chesul.try Im-A 7.r. 7-43kir AS ma, *~-$ emkAmg -t posallol'a to ev*luto ns sz.1 fIC4s -1 -nlicIt'= of t" d'Iff'"At 3) Th. a-tr-b.ll-o of T~.I. rrso~ai %ad t-~irk~rs ia their *tAAy of ther=dymwelz f~r ~11-t!.. cf cWtebl. cl-litt.o. fir WIILK -t eral"l- ~~ :1-.. mf tn..$ iz utn. by '.!!, eulr~-us gmthA as -1 A-K. BAb- k~. !) 7be &;~trm is3t- mth-4 for the -n hrl~"ft me &T.I~Vsd by A.S. "d :be R.ttors if th'.0 rtlal- I- tomat-'s. w4 mriew crA.%I--ml!j the raricus anal)-ical m-.ftcd3, de"ribe thA -4 In soalysla. ezd Itaoste t~a buAic treads z., "A"mh. R.11- .-m- ~-xqp-j w1vt of -be artlel... st.11 laval 1.1 st:111fts - 3.:.l Instit t..imot Im r.l. IS bjr t--* t-- .er-ml 219 Ve~~- a.-. Invsst-.0ti- of the Us Kl.".U421% Yathod ulcdj~c It-dift, A.1- St~4 0: tht *ZleCtrIC Ab*O-Pt'Mw e Fjdr~Cvn t7 3~- MA-24w r;-%,*.,k.,,, .11--lie. r-;m,-qfto=w0A - Irkuto t a 'A' 3,.%. :i. ts ft %!~. Desip sod pl ~,J.g of Ytechl-rj, Azg%" j. r,%jas ~r t~. Str.Lmd Metal "5 111. AP?A.U=S FCFI GAS AXLLTZ3 Dr Yr7LL5 Z.N. [Iss-Itut. of on4 I " bealltrT 1--i L3 ZS~n, )t~ftw). Aparstus for Oos Aralyals is yete,19 bT nd 111~11 v I w [C-tra.1 S.-Il.atifliz of F. )Set.ll~rcr, M~scowj. C-'ml --, the C"r.tl-i if 1;T-IN. -or G.. "17310 in Motels P'r I. Y.A. end (LOn!mc.dAklj, vvdrStI.-ry U.I. far -he 3p-trza-l-I.P. Ze -.~f Rri"Con LZ 270 W-tt Zlectrod. HoLlerv fcr -be ;*tGmLna*l= of Sktt~lk , S.A. f MzteU~a last L.A. "" AS -,SSR, Dteraiw~ or witroCom In XWtalm bf the &Ussj~. Zq~trux Mth3d Zc4wr the Cmeltiom of a amroflod LOW ToltAC- SWt 231 _PZW_T,Aj.. [Cmtrul Scientific Rse.r*h Itistitule of Ferrous met.11,,rJ7, Homc~j. Chamber for Spoctral AnaVels or Cease in Metalj and LnOYs 2" T Uzi Weal unit f" saturstion of )%t-&" Uith Goves =d for T 2w AWAMASU, LlbnLr7 of C=Crass Card V9 J4A*-/Ofa  V f-1, .3 IVH du ilgi v"Vil, if 31 iv -P j 3 val v Id s -3ig T4 i I A d. "I :1 3 bj; bw 4d d s 3 t J IM  USOVA, L.F. Determina ion of gases in metals by the internal friction method. Trudy kow,anal.khIm. 10;215T224 '60. (MM 13:8) 1. Institut stali is. I.T.Stalina, MosIrva. (Gases in metals)  -11, V. a-J V. 11X-ray Investigation of Palladium Catalysts or, ")Jlica G.A., DOI-a. Ak. i;auk 65. a67-70, 194-9. in catalyst.-; w, th 1 .113 , 1 .03, Rrjrj 0.4,9,'~' Pd, the lattice const. oc Fd is identical i-rith that of the massive metal. From the hal-f-widths of the linec by Scherrer's forrAtla, the Pd pqrticles are c,ibic, and tile leni7th -~f the side 0 of a particle, ir! the 1.41,"'~' Fd catalyst, is of the order Bf 24,0 A. (Battelle)  SOLNTSEV) N.I~;-q�"v m'_La.____ Separate date tion of copper, chalcocits, and bornite in ores; aome investigations with diganite and betekhtinits. Sbor. nauch. trud. Gintsvetmeta no.19:756-772 162. (MIRA 16:7) (Copper ores-Analysis)  NIKONOVA' O.S., USOVI, M.T. Cerebral melanomas (with summary In French]., Zhur.nevr. I psikh, 58 no.5t526-528 138 (IMIRA 11:7) I* X11nike nervnykh bolesney (zav. kafedroy - prof. N.7. Grashchenkov) TSentrallnogo insitutn usovershonstvovanlyn vrachey i narrnoye otdoleniye bollnisty imeni S.P. Botkina. Moskva. (MBLANOMA. cane reports. brain (Rue)) (BRAIN NEOPLASMS, case reports melanoma (Rua))  -ILI IR&, N.A.; MELINIKOVA, Te.M. Clinical and physiological analysis of the effectiveness Of acuPane- ture In radiculitle; preliminary communication. Zhur.nev. I paikh. 59 no.6$723-728 159. (MMA 13:1) 1. laboratoriya igloterapli (nauchny7 rukoyoditell - prof. N.I. Grashchenkov) Institute. paikhiatrii kdir. - prof. D.D. 7adotov) Ministerstva zdravookhranenlya SSSR, Moskva. (ACUPOCUTICS, invar. dis. radiculitie (Bas)) (IMVES, SPINAL, dis. radiculitis, acupuncture (RUB))  GRASHCHMOV, N.I.; KASSILI, A.M.; ILIIIIA, N.A.; KAMEMSrATA, B.I.; X)ILINIKOVA. Te.M. Application of acupuncture in certain diseases; clinical pbysiological investigations. Zhur.nevr.i paikh. 59 no.10:1159-1166 059. (MIRA 13:3) 1. Laboratoriya reflektornoy terapii Institute. psikhiatrii (direktor - prof. D.D..Pedotov) Ministerstva zdravookhraneniya SSSR, NoskTa. (ACUPUNCTME)  OSIPOVA, N.N.; USOVA, M.K. Changes in vascular reactions during acupuncture in practically healthy people. Sbor. trud. GKI no.9:115-123 162. (MIRA 17:2) 1. Dotsentskiy km sigloukalyvaniya, kafedra klinicheskoy i eksperimentallnoy fiziologii (zav. kafedroy Ye.F. Pblezhayev) TSentrallnogo instituta usovershenstvovaniya v?achey (dir. - M.D. Kovrigina).  USOVA, M.N., Leningrad. 67. ul. luraklnp-. d. 1/3 P&ril'on. kv.25. 69000 Outoosynthesis of fractures with metal and. plastic nails. vest-khIr- ~7* W.St 37-44 Je '55. (KLR& 8:10) 1. Is fakulitstskay )ehirurgicheekay klinlid Leningradekogo saultarno-jigiyoutcheekoge meditsinsIxogo Institute, (saw.- kafe& -prof. P.N. Rapalkiv) OTIRACIUM, surgw7, Intramedullary nalling)  USOVA,j M. 9 Cand Mad Sci -- (diss) "Treatment of closed fractures of tkw PA I r-014' _~~ 4~, ~,4t,1-4 clavicle with4betelplastma" osteosynthesis." Len, 1957. 8 pp (Min of Health RSFSR. Len Sanitary Hygiene Med Inst), 200 copies (KL, 45-57, 99) -30-  USOVA, H. # assistant (laningrad, Kurakins uls, 1/3, 32-Y Pav-, kv,25) 1. Metal-plastic ostoosyntheein for treating closed fractures of the olaricle [with summary in Bngliob]. Ttst.khir. 78 no.4:62-65 AP '57- WAA 10:9) 1. Is fakul'tatskoy khirurgicheskoy kliniki (zov. - prof. P.N. lepalkov) laningradekogo eanitarno-giglyenicheekogo maditainskogo Instituta. (GIAVICLS, fractures, osteosynthesis (Rue))  A[A/ 1Z&AXkr_Y.er_.XJJune 58 3108. (74C) METAL AND PLASTIC os-rEOSYNTHESIS OF CLOSED CLAVICLE FRACTURES (Russian text) - Usova M, M. - VESTN. MIR. 1957, 78/4 (62-65) Blus. 2 Shafts of stainless steel (E Ya I T) covured with a polymethylmethacrylic sheath were uied for osteosynthesis of the clavicle. These shafts are found to be 2 or 3 ,times more reliable than those of organic glass, Fifty patients were operated upon with excellent results in 33, good in 11, fair in 5 and poor in one patient. The outcome in patients non-surgically treated was obviously worse, and the f it- neon for work was sooner regained by the former than by the latteir.  U~OVAP M-M!_, kand.med.nauk Surgery for cancer of the large intestine as revealed bjY data of the Machnikov Hospital from 1946 to 1958. Trudy ISMI 59: 2/d*,250 160. (MIRA 14:9) 1. Fakul'tetskaya khirurgicheakaya klinika Leningradakogo sanitarno- gigiyenichegkogo moditsinskogo instituta (zav. klinikoy - prof. P.N.Napalkov). (INTESTINM-CANCER)  IT folla.,Ilng rcsect~Gn rtn~~ 17: 1U)  USOVA, Mariya Mi.khaylovna; TELIMAN, I.F., red.; ONGSHKO, N.G., red.- [Closed injuries of the clavicle) Zakrytye povreshdeniia kliuchitsy. Leningrad,.Medgis, 1963. 103 p. (MIRA 16:10) (CLAVICL&-FRACTURE)  UsOV,,~, K-67, ul. Kurakim, 1/13, '13) Some problem-E In tne surgeri o*: rec-*al t,;'- -1s. Onk. 10 no.4":111-115 164. 17:7) 1. Iz klinik., khi-.rurgicheskikh bole-mey LenlngraOs--.o;,o s,-..ni-tt.,rno- g1glyenicheskof,,o meditsinskom inst-It.u-, -L (Zav. deyatel' nauld prof. P.N. NLpalkiv)  USOVAI M.M., kand. med. nauk (Leningrad, K-17, Zabaykallskaya ul., 12, kv.33) Simple stand for easy application of a plaster cast to the leg. Vest. khir. 92 no.6:107-108 Je 164. (MI-RA 18:5)' 1. Iz kliniki khirurgicheskikh bolezney (zav. - prof. P.N. Napalkov) Leningradskogo sanitarno-gigiyo-nicheskogo meditsinskogo instituta.  ~ I - I. I I I ~~ . .- - . - . - I I I - . . I ~ . .~, - .1 ''. 1.1 - . I - . I .9 . 'I I U - - -1-- ".. , '... . "'. - - -  USSR/Analyzis of Inorganic .1;ubatancoo 0-2 Abs Jour: Ref Zhur-Khimlya, No 6, 195y, 19598 Author Z. V. Pushkareva, M. zi. Usova, 0. 1. Levchenko Inst PolyteGlinical Inst tute-or-uri--disk Title To The Question of UtilizLiL Or6anic Compounds in Analyoio of Platinum 'Metals and Gold. Report I. Power of Series of Heterocyclic Compounds to Precipitate Platinum Metals frora Solutions. Orig Pub: Tr. Urallskogo Politekhn. In-ta, 1956, sb. 57, 183 - 191. Abstract: The power of 23 heterocyclic compoundo (1IC) - derivative3 of pyridine, quinoline, acridine, phenazine, pyrimid1ne, sulfathiazole and pheno- thiazine containinE- Cl, NH2, 1402, Off, SH and OCH3 Card 1/3 - 74 -  USSR/Analysis of Inor6anic 6ubstances G-2 Abo jour: Ref.Zhur-Kh1imiya, tic 0', 1957, 19598 as substitutes - to precipitate platinum metals (PM) was studied qualitatively,. Some sulfamides containing heterocyclic Evoups and complex dei,lva- tivez of acridine weve studied also. Vie study of PD1 precipitation was carriEid out at OpH 0 and 2 at the indoor temperature and at 100 . It was shown that tile capacity of HC to produce complexes with P14 Increased toLetlier with the molecule pol- arity. Among all tl:e 3tudied 11C, phenothiazine produced the most steirle complexes with PI-Lanill ill; i7as recommended for the quantitative determination of" PM. None of tile studied JIC produced precipi- tations with ilon-precious metals under descrited conditions. .',.monL;; tile otudied HC there was none Card 2/3 - 75 -  U,iSR/Analysis of Iriomanic Substances G - en Abs Jour: Ref Zhur-Khimiya, No %S, 1957, 19590 U that would act sufficiently selectively on any individual Pill. Card 3/3 - 76 -  a Vj, tA,S, Category: USSR/An&lytical Chemistry - General questions. G-1 Abe Jour: Referat Zhur-Khimiya, No 9, 1957, 30932 Author ; II. Usova M. S., Pushkareva Z.V., Levchenko 0. 1. III-~Us-ov&M--S-, Gayeva N. F. Inst :Urals Polytecbnical Institute Title :Use of Organic Compounds in the Analysis of Platinum-Group Metals and Gold. Communication II. Precipitation Capacity of Some Noble Metals in the Urea, Thiourea and Guanidine Series. Com-nication III. Use of Phenothiazine for the Determination of Platiralm in Alloys. Orig Pub: Tr. Ural'skogo politekhn. in-ta, 1956, ab. 57, 192-2DO; wl-2D6. Abstract: II. Report of the results of qualitative tests on the capacity of some substituted urea, thiourea (I) and guanidine (II) comp- ounds, to precipitate platinum metals (PH) from solution. Intro- duction of phenyl- and heterocyclic residues into the molecules of I and II, clearly enhances the capacity of I and II to preci- pitZte noble metals from solution. The introduction into the Card V2 Category: USSR/AnalYtical Chemistry - General Que8tiona. G-1 Abs Jour: Referat Zhur-n'miya, NO 9, 1957, 30932 PhenYl rings Of diphenyl-thiourea of COOH and So motes the secondary process ZNH';.grouPs pro_ The Of Precipitation of common metals. capacity of I and II to Precipitate Rh increases on t- tion f ransi other --om derivatives of II to derivatives of I hand Precipitation of Ir is observed more .1 while on the the II series. frequently in molecule Of II IntrOductiOn of a third substituent into the decreases considerably the solubility of the com Pounds formed with pM. The results thus Obtained permit to se- lect a number of derivatives Of I and II for further study, of their Properties as analytical - III- A study Of the capacity of reagents. specific FM ("t, Pd phenothiazine to precipitate ,Y 1U2 and Ir), for the Purl>osea Of qualitative analysis, Ind also the description of a quantitative method which has been developed for the determination of pt in solutions of pure Pt salts., in artificially produced mixtures and in silver- Platinum alloys, by precipitation with phenothi&Zine, followed by ca-leiratiOn Of the resulting Preci cation I, see RZhnim, 1957, 19598 pitate to metallic pt. C0==,_ Card 2/2 -13-  ULIYAWY, Andrer VladIuIrqyIch;KOL'XVIST, Gerwm Aygustovich; USOVA, I., redaktor; TRUIPINOT, A.V., takhnichosirly redaktor. [Geology of oil and gas deposits] Geologila neftiwWkh i gazovykh mentorozhdonli. Moskva, Goo.nauchno-tekhn.tzd-vo neftianoi i gorno-toplivwi lit-ry, 1955. 297 P. (KM 8:12) (Pfitrolmm geology)  TOPGHIYBV, A.V., akademik, redal-,tor; TROFIKUK. A.A., redaktor; THEBIN, Y.A., doktor tekhnicheskikh nauk, redaktor; YXDTNSIIY, T.Y., doktor fiziko- matematichaskikh nauk, radakt9r; SUK9AKOVA, T.P., inzhener, redaktor; POSTNIKOV, Y.G,.. redaktor; VOL17SON, S.I., redaktor; BIKHMAN, Yu.K., vedushchiy redaktor; KOVALEVA, A.A., vedushchiy redaktor; PERSHINA. Ye,.G., vedushchiy redakt6r; SAVINA, Z.A.. vedushchiy redaktor: USOVA. N edushchiy redaktor; ZAHARAYEVA, K.M., vedushchiy redaktor~-.' ! ;:~' W".Cv 'NOV A, M.M., vedushchly rodaktor-, LIVOYA, L.A., vedushchiy redaktor; YERSHOV. P.R., vedushchiy redaktor; POLOSINA. A.S., tekhnicheskiy redaktor; TROPIMOV, A.V.. tekhnicheakiy redaktor [4th International Petroleum Congress) IT MazbdunarLAnyi neftianoi kongress. Moskva, Goo. nauchno-tekhn. izd-vo neftianoi i gorno-toplivnoi lit-ry. Vol.l. [Tbe geology of oil and gas dep0bitB] Geologiia neftia- nykh i gazovykh mostaro2hdanii. (Pod red. A.A.Trafimuka). 1956. 534 P. Vol.2. [Geophysical methods in prospecting] Goofizicheskie metody razvedki. (Pod red. VaY.Fedynokogo). 1956. 392 p. Yol.4. [The technology of oil and shale processing) Tekhnologiia pererabotki nefti I slanteev. 1956. 527 P. Vo'l-5- [Chemical processing of oil and gas] Xhimicheakaia pererabotka nefti i gaza. 1956. 302 p- Vol.8. [Equipment, metals and protection from corrosion] Oborudovante, metally I zashchita ot korrozii. 1956. 227 P. (MIRA 9:12) 1. International Petroleum Congress, 4th. Rome, 1955. 2. Chlen- korreapondent AN SSSR (for Trofimuk-) (Prospecting--%ophysical methods) (Petroleum--Refining) (Gas, Natural)  SHCHERBAKOV, B.I.,- USOVA, N.P. ... .... Concentration of cell sap and drought resisfan:~r, of plants. Trudy That. bot. AN Kazakh..M 16:97-117 t6l (MTRA 170)  0 0 0 0 0 P99 0, -o.: 10t, ' .f, - A L., A- 1 2 A. it I: A) 0 a k A. I A AA 01 ro A 4 1 '1 00 Ole 1 00 E., Off 00 gg", of UjOOM ftodft so &CCIAn%gladon and IrAno f*rMdm all pkdk ngWi#b in C11"log of grain undw 00 candido"s of I" tmtwdw". 4. A. KA41MMY.1 4"1l 0* P. 0. V*M. -PoIllady Abad. Sauk S.S.S.R. 60. KRU-70 tbetimeof I'Antingatulthercla- In I -Fthk to aitcr the ripen- t It - 00 *0 - P tire umts. d mirmil ing period of wbftt. so that tipenino 10 title mazy Stott h fl i .00 nAr y sue lNe, in "mrpoW regionj wbm ord w" ripen=. cannot be comm out VAIUMIY. IFILIVAL"t 01' P e0 00 IT "flixer (not stated) gives OUKI raphl develop- It eas n-t rapidly After W. hol ri i h hik = so n s t w e gm p intsting with added P-K (I I days) - u4t of N-K aml X-P-K. 0 09 petting harvested grain (10-111 Rhs") - adens, Pile slower 11 GO 0 Inerewittl K and P leads to iturtristed synthesiq of rarbo- ago w 00 hydratell which an stoml its the veptative witan'l of 410 wheat, but their transfer to the grain 6 hinderril; lying in "0o silicates leadif to ilmdual transfer Into the grain and chinge go* into sturelf; hwmr, mcKt of the mill rr. t WOO nuin in thr malks. As the grain thr letivity li Invertaw and amytasedrol",reinainins at the Witheit levvi in caws wbichtective ailded P and K feciting. coo 4009 go .."t WfCi fit% ItAtt CkA..,PKA io Cleo 'too If I' CW *.V 2--'V'7 - A 00 T te ; r 0 It 01 2 It 1, 0 it 3 n I !% A to 0 0 0 0 0 0 0 0 0 o o o 0 0 0 0 0 0 0 0 0 10 0 Ole 0 0; 041111l*e fo~ 0 0 o0'0 4940400000000 0 Vl~ 0-k 0 0 0 o 0 o Is 41 0 0 11111 * 0 0 01  GRLV2j N#A4 [translator]; TOLSTOVp A.N. [translator]; U~SO~~,. [translator]; . CHKOTIILO, A,M. [translator]; WINDY, , A,I,, rea.; ZRAMOSKATA, T.K., red.; GRIBOVA. M.P.,-tekhn. red. [Prozen ground of Alaska and Canada; a collection of articles] [Translated from the ftlishl Nerzlye gornys porody Allaski i Kanady; ebornik otatei. 3 prediel, AI. Ifimova. Moskva. Izd-vo inostr. lit-ry, 1958. 262 p. (MIRA11t7) (Alaska-Frozen ground) (Canada-frozen ground)  USOVA, Valentina [Usava, Vaiiantsinal Glorious and famoixe daughter of our country. Rab. i sial. 39 no.7:2 of cover JI 1630 (KIRA 16:11) 1. Sekretarl partiynogo .'kombinata "Chyrvony Perakop"O g. Yaroslavl'.  I r_ at ~7~~ nr- l.:  USOVA, V.V.,; 1AYNER, V.I. -... -":1.'----. Copper plating of titanium and its alloys, Izv. vys. ucheb. zav.; tsvet. met. 6 no.4:132-137 163. (MMA 16 -.8) 1. Moskovskiy institut stali i splavov, kafedra korrozii i zashchity metallov. (Titanium-Electric properties) (Copper plating)  L 56025-65 A:w kl?(b) TJP~C) iuvy/JD Apt;,) ~6 AUTIHOR: Usov -V. V., Layner, V. I. TITLE: Effect of heat treatment on the adherlon gtrene~h of ele-!trolytic copper r and rUcke! couting to tit;~.nium SOURCE: DiM Tsvetnaya nete-llurrzi If i n D TOPIC TAGS: titanium, titanium plating, electroplatiag, adhegion, coatfmZ adhesion, adhesion strenq~th, copper coating, ni -!kel co,,ting/T. J qn i ur. ABST R-A C'T -Th e f f'-- ~ie & --m- y Fn T-i 5-1 1 --,7 ri D . r 6 Dr a ~-.ff~jsi~n y 5 figureB and I table. F. M-MM UM- 'WOMMMI  lip: AF5016352 IT _j; :71 lam  L 28067-66 EWr(m)/EWP(t)/ErI IJP(c) JD ?0 AUTHOR: Usova, V. V.; Layner, V. 1. 16 ORG: Moscow Institu f Steel and Alloys (Moskovskiy institut stall, i splavov) TITLE: The activation of titgai surface prior to electroplating SOURCE: Zashchita metallov, v. 2, no. 3, 1966, 331-335 TOPIC TAGS: titanium, titanium electroplating, titanium activation ABSTRACT: The chemical and phase composition-of the surface layer formed on titanium during activation in a mixture of ethylene glycol, 48% hydrofluoric acid, and zinc fluoride has been investigated. The investigation showed that the activated layer consists of titanium hydride and zinc hydride. The weight of the layer de- pends on the duration of activation and the concentration of hydrofluoric acid, and varies from 0.1-0.4 mg/cm2. The hydrogen content of the layer depends on the temperature of activation and the concentration of the hydrofluoric acid. For instance, at a hydrofluoric acid concentration of 90 g/1 and a temperature cf 14 or 30C the respective hydrogen content Is 0.059% or 0.017%. At an acid concentration of 70 g/lj the corresponding figures are 0.027 and 0.0084%. 7he optimum conditions of activetion were found to be: hydrofluoric acid concentration 75-95 g/l, temperature 16-20C, maximum duration of treatment 2 min. The layer formed at 30C is rich in zinc, poor in hydrogen, and is loose to such an extent that: it is washed away during Card 1/2 UDC: 621.357.7