SCIENTIFIC ABSTRACT OSTRANITSA, A.P. - OSTREYKO, G.N.

PDXROVSXIY. II.N.; KISHED. Te.G.; 937UNITFA, A.P. Attachment to W.A.Irrotov's SDDarstus for making a bacS~riological analysis of air in the field. lab.delo 4 no-2:45-46 Mr-Ap 158. (MIRA 11:4) 1. Iz Llvovskogo instituta epidemiologil, mikrobiologit I giglyeuy Wir. - kandidat maditsinskikh nauk S-I).Klyuzko, nauchnyy rukovoditell prof . L.A.Cherneya) (AIR-BACTURIOIA)GY)  MOZ t WOK 92TWITATZON SOV, 3624 "&4s Li ya ns" ukrainaiwy SSR. rnatit4t wetalla4evua~d_ L ap-total ny,%Lr,l opla... satoriaiy I ast.dy Lan t.r- to to rxn" matortaly (Corset Pat-ort6le " Meth~da or~zoelr anslyels; rnf-reatt"INsterial) Kly.,, jzj- JL4 Ukr_'ViR, 1)59. 0. 1.5W copies pr t*J. rA. offtbitah1nd ft-s.. 11.V. cot.,&. Teen. U.: A.K Llso-ts &= .3riza Be&". I.M. Franta.'Ich. L.A. a 3. F%S&rw.~h~. O.Y. Asm-anow (Keep. r_1 ), V.A! rqrvmenk~. enj V.M PVRPOSE: -his Collection 3f artLeles Is t~.t*,Ul f- :--,t%fIc 'e0rus". jedigne". anj t.lhn.. 11 1 tn. uwt&.I~Klcal. ant of tal"try COVXRAJXj In this aollectl- or articles tno sitnors loscrl~ tne plo,,~ttjn of C&rbI.1eS, ftItrI,1*a &-I 3trer neat c- v- I pertl,v P. -1 X3 1~4 t~ Ir p ys1c-r-Iz,l &,J pr~, Thlroinrual p-..*2N=_- P- ... I" - natallatl.~ a %r, 4,16- A ... rlbw.!~ A -.' t~ Is pr~pjzel f- t~v - F -1-jr- refractory -=p-i. a- . ..1, 1. Od', n. *nar~y 41 1 In 3-4 Mjg~, f--- tt,h~llcal Ibr:tI-,L- re T ._~matl. 16 2f hj~n a- ing the XI-ti. .E%-Xr-LI4P 4:11 t~- Vapor or Rote., K~x'-Aa.,V.A. Metr-1 of Dot Irmln_-~, tr,* Ft.&I Cn~rzcter-.t--g Or'X~r& teal til- 1, Materials D,4rlr,, VIbrAtla" 17 ') Ps &,_1 T.10. Lnstail.tt.- f- Be.. T.-at. oclon. at HI&ft 22 Y. rw__ -* " A - , "T.Ta. V.11-- Pr.P.r!.g Alloy. of -4-ani,ee C.ftilf Wit. wlly:~1-11 25 Kit Lhj. Dt*rm1nation of Small ;uantitles of Nltr~gr- In 27 O&,vIc;.!ar -L r-rI.I. at P-. 30 1~2.2v_ I_A_ fjttiitatio~ of :Acq- c,stir,4s to rnvoz-i.;at* t~.. State of DI-es 32 3ammomo:. G.V. and ~f Boron &r.1 S11tczn 36 _, v ~r >,t F- " DI Is'. rat tian In a otai:r-I-aD~1 R~g -P V,:f:, or . Tpre,-~ogly.2-, T.S. P~V-atton of' rttan-- n1tril. F- Tlt~l~ 4 5 3 r3-ray. P". v~tanl ~.-- Z_3zn,~ C-Po-'j. VT3V.~gy" ?u,n o. Zb  5(2.4) AUTHORS: Dudkin, TITLE: Ternary Formula IBVBVI 2 PERIODICAL: Doklady PP 94 - L. D. , OE7_t.-_aL1_taa". so '01/2 0 - ' 2,, - 1 - Semicondocting Compoundri Coming Under th(, Ge! ' er,11 AIBVBVI (Troynyye poluprovodnil:ovyye soyedineniya 2 kkademii nauk SS-,R, 1959, Vol 124, Nr 1, 97 (USSR) ABSTRACT: The compounds mentioned in tlie title are forned on t,ie ~~qis of binary co,:ipounds fron -.-,,,.irh one at leart mu.-t hr? a se-na- conductor. Tlio r '.ios of 11~,e 1(_-trcen the- initi 1 -o t~,, c, interrr- The prc::erit -aper deal:; wlt~, L~.e ciiiciliti,)n of t:,e exi.,3tenre and of the physical ci,e-nical natire )f t~,e h-,,-),-)t,etic com,ounds V - , r under review where A, i*u, Ag, B ;I.BimdBVI - Se, Te (Ref 1). Their formation is assumed fro,!~ nnal.)Cies with the chalcopyrite-like group of semiconducting compounin AIAIIIBVI in ternary systems A I - BV - BVI on quasibinary 2. 1 VI V VI Card 1/3 cross sections A 2B -B 2B 3 at a ratio of the components of  Ternary -tin,,, Co7ir,: Urder the SOV/2a-124-1-2~1 9'r~ General For,r%lan 'k I D7R71 2 1:1, A III ")ein,. Al, ~;a, In, TI. In npite of the reli..ted chp- ~~Ii c' al c 1'7 "08 1 t I on of AIBV BV I and A I AI I I BV1 It maly eanily be stated thfit ti)ey are 2 2 not iqnntructural . ~n the baf)is of corresponoing birEir-.-7 -D7,- pourdn 9 tornitry alloyr werf, pr-)fiur(,d . Their connnsition ~s given in t:.,1vlo 1. The invcstig- tion trnn )-rfr)r-,eJ t,) method simil-~r to th;it descri~,e,l in rolt~rw re 2. It V~ 9 f-und that A co-7iVour,3'r only: CuSbSe,), Ag3115e,, A,-SbTe, 1 1 4 2 do reilly exirt. Ti.ey cryst~illi~,,e dl4rect fro-, t, p T,,(' mdcrostruct,ire of tho alloya CuSbTc 2 a-A CuBiTe, if; of eute--r nrit'Irp; cupi:je ind AgBiTe h-, -'rove(l to be tw'-i)h:is~c III)yc. 2 2 The neatinc:- and c~lolinr rurves were ror tructc.6 on allDvs ar.d the cryst%.I~;ation te-iperaturer: nf tl,e lter~ conpour~q were from thnne cu.,vns (Tal-le 2). The coni,ruent char%ctcr of thu -neltin~- w-an confirmed. Tat,!~, 2 -shDu, the esti7,ated coefficients of ther-itil conduntivity. The leter- mi r,.,,t ion rnrul tq of the (.-I ect ric cond u(A ivi ty of t --~. ~,i! !~' Card 2, '3 un -! or rev I ew as a *unr t i on of t empe ra t u re -i re gi v en i r f.i -u r e  Ternary Seniconductini, Co7i)ourds Co-iint.- U,),i(,r the General Fornula. AIB vBvi 2 CuSb3c A~-,.')!)Se, iand A,71'iSe, nhor dependences (3(T) whl,n ;~r- charicCrintic ,of nemic~)!~,Iu'ctorn. By menns of o(T) t activrition erf-r,.-ies of tho curient carriern in t.-r-:iry were cnIcitlated (Triblp 2~. Cov7der-rridioFrnphs were ta~-r- Fr(,-i the arsumption th.,t the sc!4e!ir, of the bindini-n (FIF "', in chararter i tit ic cf Al conpounis me7it~onvd in tnc title, it he wit hnr i col t ho om I i t ii f i vo r )n'1 I t I on n Whi (~h 'i0t t. I '~ It ntability. Th~r, fi,7iiron, 2 t7AIvn. %n,', 5 rof~,ro- of which are !7av~.-t ASSOCIATIOU: Inutitut met%llurt-,il i~-i. Bay'%-ova 3!7sli (Irintitute of ~Ivtiillijrry imonj A. A. Ba.0,ov of th- AcVe-y f scle-cel ussli ) PRES E T;-IFD Augiist 0, "~5r,, 1). 1. 1. Bar,lin, SITBIT ITT j u I y9 1,113 Card 3,'3  OSTRASZ, L. Electrostatic filters. ?. Ql (hrIADOMOSCI ELEKTROr~,'SNICZNE) ~-,arsaw, Poland) Vol. I-, r,,.4, Apr. 1957 SO: Monthly Index of East Wropean Accessions (EEAI) LC Vol. 7, No. 5. 1q54.  OSTIIAUSKAS, V. V., Cand I-led Sel -- (diss) "Uncon~lltioned Sallvur-j Reflox in Disorders of Cerebral Circulation." Lon, 10157. 16 PP (1st Len Mod Inst im Academician I. P. Pavlov, Ghair of 1,ervous Disonses), 200 copies (FJ,, 50-57, 120) - 39 -  I I , , * I I - I- I - I .. . . I I , -- , f" . - . I . X. . I I - I . . ..1, 0 : Z/ C-  HAVLIN, I.: 0,';TRCIL, F. ~ Fractul-tr of the radlits with volar dislocations. Acta chir.orthop. traum.cech. 28 no.5:416-418 0 161. 1. Vyzkumy ustav trauvztologic~y v Brn6, redital prof. MUDr. V. Novak, Dr.Sc. (R&DIUS fract & disloc) (WRIST fract & dialoc)  at IN Jill J,q " ; *11. I WS 3 Eli f j ~ ~~  KROIIPA, J.; 5POlIAR, J.; OSTRCIL, F. Importanoe of sulpho-phosphoro-vanillin reaction in dingnonla of fat embolism. Rozhl. chir. 37 no.1:28-33 Inn 58* 1. VyshuW untav traumtoloeickl v Hrrw. reditel prof. Dr. V1. Novak. J. K., Brno 12, Ant. Macka 7. (3MBOLM, diag. oulpho-phosphoro-vanillin reaction in fat emboliam (Gz))  IMTTPA, J: SPO?IA'q. J. , technicka spoluprace; OSTRCIL, F. -I.- Chnnges in blood -)roteins nfter fr---Ct-ux--7.-Acta chir. orthon. traum. (-ech. 25 no.6:1421-432 Nov 58. 1. Vyzk~ ustev traumatoloeicky v Brne. reditel prof. dr. VIadimIr N-lvnt-. J. K., Vyzk. uat. trawn.. Brno. Ponavka 6. (TIACTURES. blood in Droteina (Cs)) (BLOOD P'?073IIIS, in v,r. dia. fmct. (Cz))  KRUJPA, /J. ; SPONkR, J. , OSTRCIL# F. Relation of blood tributyrinase to traumatic fat e~bollsz. :-Ozhl. chir. 37 no. 1134-39 Jan 58- 1, Vyzkiimny uRtav traumatolorickv v Brne, reditel prof. MUDr Vladimir Novak. J. K., Brno 12, Ant. Hncka 7. (EMBOLISM, blood in tributyrin.see in poottraum. fat embolism (Cz)) (LIPASSS, in blood same)  OSTRCIL. FrantizakL STRMISKA. Jaronlav Effect of hydrocortimme on the stiffness of joints after Injury. Acta chir. orthop. tmum. cech. 26 no.2:119-122 Mr 59. 1. Vyalaimny ustav traumatologicky V Brne, reditel. prof. HUDr. Vladimir Novak. F. 0. Brno. Ponnvka 6.. (JOINTS. wda. & W. kydrocortinone for control of post-traum. ntiffneno (Cz)) (HYD110CORTMON1. ther. nme nost-traum. stiffness In jointing (Ca))  OSTFEU. MARIAN H. Geography & Geology Try,t=fu dzien; montaz widowiskovy na swieto denokracji. Drakow, Wydawn. Dom Kultury, 1945. 23 P. NN Not in Mx Monthly List of East European Accessions (SUI), LC, Vol. 8, No. 2, February 1959, Unclass.  Heaf-prWOCIDS qent for bail tro-Atment I ).Isgkba 111ma Int, 1~%, .,mmio %4" .. ....... 31 00 l 0 o 0 0 0 0 0 0 I TOG 0 0 0 01 0 0 0 0 0*000000000090 6000 **g O l o0 00 0 09 0 00 0- 9o000-- 00 --  0 0 0 a' 0 0 I 1 1 ," 'a .. 6)), L L a P F I il I I I I A As a a is a to I Ndk N ...... 10 Ih. J.-I. too 10 0 : see 0 M :90 f U00 I a the0 6 1 Is 0 0 0 0 0 0 0-0 9 0  *44-' axis j6paj 0u" vu U* kv nor 11 is 0 Symerglam *I COWI #&Itii god o4ttitts in the elpeft mental tberepy of cyaside Istallicstiov 1, 1, A KI-u." 1 P*-.4 It, " S If , 11, -~g I N LtA Apm If%ft 19M. It. 14C- Itu - -4 ' 41 IUM lhATl,,lh,l 4 It,, A1,10,4- .I ce* 00 r.00 00 too fe 09 see too *itw 4.1 0 0 a q gie 0 a * * * 9 09090 go*  OO-j-M.v.C P n. "ki. Eczema Eezow therapy. Vest. ven i dem. no. 5, 1952. 9. Monthly List of Russian Accessions, Library of Congress, December 195P. Unclassified.  CISTRENKO SIG. Important imeasure for increasing meat production. Veterinarlia 37 no.7&25 JI 160. (MIM 1682) 1. Glavnyy veterinarnyy vrach Novo-Senzharskogo rayons, Pbltavskoy oblasti. (Novyye Senzhary District-Beef cattle-Feeding and feeds)  O.e,-TMnM.L S. G. "The important arrangement on the increase of mest i%!ocrvcr,." Veterinariya, Vol. 37, No. 7, 1960, p. 25 , I ck, I P'(f 1) r, - Ilpt N r- I - e , -~, I 11, ,~ , - ~,k . i . "I ,, 1141 /&A , t, b ~, ~, r  .), G. and GOI. POAII~Ieup V. ,. (Ghief' Veterinitry Sui-Leon and Epizootoloi.-ijt) (bovoaer21w-nt3k 11hion, loltava Ofiln."t') "Prophylaxis and treatrnent of' calven Itifected -.1th coccidica.L.-i" Veterititirlya, Vol. 38, no. IC~ October 101A, I . 50,  S/137/61/000/00 )12,~-;o A006/A106 AUTHORS: Ostrenko, V.Ya., B3LraxLv. L.D. 717-U: Compretensive r~-!:ng :f j 1pes -,n ~Ilger a:-.I aj* -rnal.l ~'~E PERIODI~AL: Refera,.'vny~ z~-,.~--ia_ nc . ~,, 1961, 26, aL.s,..rj (11 --; I . -1. %rutn, in-"' , 1~~ InfcrTr. Ukr. n, b 2t 33) MT. A new p1p, r-,Ang met)-.c! was In the rciling tnick-walleJ pipes from an on a piiger mill, and subseq~ient rc,.'Lll.-.g or. autorr,sti, mill. ;rsde (-' .22C ) ceei plp,-,e of 32:5 x 1j rnm werc. rolled. A blank of 2~C x wa;, -nn *)-~e pilger ml,-! and a 32" X C' rTT. IPA on a "400" aulcma"2 *~ ox'erna, , ml... :,rprcv,I qualt-y of ~Ipe6 as - P and internal was ta*-,, -.f t1anys tc, repair. Comrrehens'-p --..''ng ir'aln may ment of the pipe q~a~', [Abstra-ter' -~- nc*e- CarJ 1/',  A,,~~- /A 1 :)O~' TIT LE Energy Dms,-impt',or, FERICDICAL: R o " , ~ r aI vnyy C Z t 5Dc'414 il~ n TEXT Ar. lnves-ga* wa- rr.ad-~ differen* types of ~ier:ir,g .'s 111,: barrel-shaped. dllsk-sha;~ed and :r, all casees Tf7 ~Ham,-r blanks w,~re pler,~e~l int.,- Jimpristo!"2 r:,r- 69 x 7",r FIP,F. a' ar, eaual nuj-..,~Pr -,f revol,t.,~r.s -!, *~no T-)::E Fin! :--e val-e, Dr, *.ne I.-- angles (',-. J!sk mllis - a Ma x I m,-;7 -a i I _; - - r )r. .~r. '.hf. mill' and the rclis; least loads -,n rnlil~i wl'..~. fL;rgifr7,, r(-44's. als,7 production of pipes wI*t.1---j* and Irt-?rnal wl-,Iot IIE tage an :,ompared M. [Abstracter's -~- oE :CcmT : e I ri:-, Card 1/1  BOV/123-5(0-15-59344 Translation from: Referativnyy zhurnal. Mashinostroyeniye, 195~4, Nr 15, p 71 (USSR) AUTHORS: 0strenko, V.Ya., Bobrakov, L.D. TMX,! Taking up the Manufacture of Thin-Walled Tubes of Large Diameter by a big Automatic Mill at the Iranr,-Caucasian Metallurvicnl 11,ant PERIODICAL: Byul. nauohno-tf-khn Inform. Vses, n.-I. trubnyy In-t, Nr 4 - pp 17 - 23 ABSTRACT: The manufacture of tubes of the grades 168 x 5, 168 x 0, 219 , 6, 273 x 7 and -425 A 8 mm with a minimum thickness of walls eorresponulnF to the GOST 301-50 wa-- taken up by the "400" mill of the ZKZ. Zh V.T. Card I/I  02CLI, Vladimir Lyudvigovich; OSTROKO, Y.Ta.. Imnd.tskhn.naUk, oty.red.; LIBKRXU, S.S.. red.izd-va; ANDRKM. S.F., tekhn.red. [Practices in the automatization of pipe-rolling plants) Opyt aytonatizat~Li truboprokstnoi ustanovki. KharIkov. Goe.nauchno-tekhn.Isd-vo lit-ry po chernot I tsvetnoi metallurgii. 1959. 79 p. (KIRA 12:6) (Automatic control) (Rolling mills) (Pipe)  1 37- 58- 4- '7208 rranslation from: Referativriyy zhurnal Metialltirgiva IQ'~8 Nr 4 p AUTHORS: Fomichc%. 1. A. 09trenko R. Ya . Rozenfet'd. I B. L. D. TITLE: The Technical Foundations of the Production of ',20 mm Ti,bc ()v the 400 Mill of the Transc,sucasiin Plant (Tekhnologi(hc,,ki,,c osno%y proizvodst,.-d trub diam. ~211) nim na stanc , -400 7-1ka.' - kazskogo Za".od,j) PERIODICAL: Bvul. nalichno-tekhri. inform. Vses. trubnvy in-t 1'~ N r 3, pp 17--") ABS'rRACT: The possibility of prudu( ing 5.9 mTyi diameter tubing 1") nec(lcd for gas and oil pipelines, on a 400 mill is established. Pr( lim - nary experiments with T ot smaller size ( i2~ and 273 nini diimctc- i showed that the amount of in,, rease in diameter in '-he cxp'-AT15't"1 of slec%es in two pier( ing mills rna~ be as much as -10 p(,r( cii, "'~O made it possible to carry out the necessarv reconstru(. t~c-r. (A -,." plant equipment in order to develop a plan for i rolling s( hc-d . v for making T of 911) mm diameter from 350 mm blank,; Thc -0:"- ing tible envisages the production of 420 mmi slce%es from ilic Card 1 2 Nr I pier( ing mill and ',-'0 mr-n diameter rlcc%es frorn the N't  "'8_11 - 71108 Tile 'Technical Fuut-dations ut the Product:on of ~,29 mm Tubc orit The follovving changes were mAde in tile groc)-ving of the pter( tr,,g mill r(;:[". the entry taper was ino: rva~.vd from 1()10, to .1", and tilt exit t.1per fl I'm I" TI, ") 0. Rolls of mimmum di.micter used to re(Im v loading. Thc d amt-tv, of the pa s s whe n T ( III In p . 11 3') a tit 0111 at I( I I I I I I wa ST h e(I I L, I n c I c r T past the reeling n-iill %%,~,s ~40- mm and th.!~ Issurcd t he r eq,j, I c (I I c (I I tion in didmeter m the si/.mp imli Thi. protile of tile rolls ( Ithc rvvlmj~ \vas changed so that tilt- untrv t,,pcr ""io' "I lit, 'lzillg tiltH wa~' '' T Ill~~R d for work with ~ar icu,, st.irid,. The di.imcfet, I Oic p'jss In tile tourth "t.lrld %x ", A mm Technit. i ~ ind powe r (. ilc ul,,t ions ire presented, and thct'v ,r(- to ~,c used in organizalion of mar.ufao.tuTv. ;-7e Card Z 2  - OSTREENYO, V.Y., kand.tekhn.nauk; UOBRAh~)V, L.D., inzh.; PrinLmali ucha~tiye: ROZENFEL'b, N.B.; OSLAMXNY.O, L.S.; TSERETELI, P.A.; MINDLIJI, I.L,.; KUPERSHTEYIJ, Ye.A., TOPAL, V.A. Organizinr thr rolling of large-diameter ttin-walled pipes on the heavy-duty automatic unit at the Z avkazskiy Metallurgical Plant. Biul.nauch.-tekh.inform.VNITI lo-4~5:17-23 (MiFLA 1_~:I) (Tiflis--Pipe mills)  3/137/6 ! /00u/0(,) '/() 4 8/u A060/A 10 1 AUTHORS: Foml~:lnev, 1. A.; 0strenkc, V. Ya. TITLE. Pressure of metal on rollA and mandrel during piercing of blanks in mills with barrel-shaped, mu8hroom-shaped, rind d1sk-type rolls PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 7, 1961, 37, abstract DdqQ ("Tr. Ukr, n.-1. trubn. in-ta", 1959, no. 2. 5i-69) TEXT: Formalae are derived for the determination of the pressure of metal on the rolls and the axial. pressure on mandrels. Experimental studies of the metal pressure on rolls and mandrels were carried out In the course of piercing blanks on mills "'40" of 073 (YuTZ) and on the piercing mill with mushroom- shaped rolls of 4Tn3(ChT?Z', . Data were obtained indicating the dependence of metal pressure on rolls upon the reduction, temperature, grade of steel, and the speed of the rolls. The pressure is lowest In the piercing mill with mushroom- shaped roils, The values of mean specific pressure are approximately equa, for all mills. The ratio of qx1al pressure (Q)' to metal pressure on the roils (F) In a mill with barrel-shaped rolls Is eqlua~' to C.P - 0.35, In a mill with mushroom- shaped rolls - 0.35 - 0.40, In a m1li with disk-type rolls - C,1.45 - 0.5. Pne Card 112  Pressure of metal on ro.-s and mandrel ... A060/AlGi experimental data obtained and the analysis of the stress pattern In Ithe strain seat yield the conclusion *.hat the formation of the primary cavity in pier-trig of blanks on mills with mushroom-shaped and disk rolls Is difficult. This frict. is very important in the pler:lng of high-alloy s~.eels and al oys. Thun, piercing mills with mushroom- shaped rolls In which '~.ne plercing pre;sure Is lowest and the Q/P ratio is sufficient.y nigh, possee~, an adva:~-Age as ompared with -~her types of mills. Y_ Manegin FAbstracterts note -omple~e lrans.a*fon, Card 212  proc'? -13 cl, Lt,~ %i-- t ri~ K, ;h-sov,i Card  r 0 f C F. I* ra i o ",-,e te t!3 t"'! t 1 s ~:-.o~iernizzed ~chem~,tic J.'agrani ~,' il-tO:7!;lt-'C ml--- ar.,i a o: the new autDmatic m~~116 beine arc- i;-,Ivfm, Abstracter' 5 notu : Complete card 1/1  OSTRF.NXO,,Iiktor.,.TakovleviCho VATUTIN, Petr lynnovich, PLYATSKOVSKIY, O.A., ............... otr.rad.; SWAVSDYA'# Te.K. red.; ANW.Y3W, S.P., tokhn.red. [NFinufneture Of DiPf~ with nutoinntic equipmpnt) Prott-iodstro trub nn A-tornticheskikh ustAnOVkAkh. Khar1kov, Goo. nAuchno-te)rhn. izd-ro lit-ry vo chnrnoi i tovetnot metAllurpil, 1QS8. 11, P. (MIRA 11:9) Steel) (Rolling mills)  r ansl at ion f rom: R c f c r a z. h t, r , a A u'r Fi oii s - Osir(,Y-k(, % N',, B oh r,-i k' ;t I D TITLE: Adt pt,~- kA t I c( 1- t' c (d I 't 11) .1 1 '11-p, Pipe T-( '11n~" N1 :1 1 thc f luri"it. i1 u~(-Tlk~v pt-m/~t'd,r'n di,tmc~r.i -ho% hc~k( (ist,ir, ~c /,ti, 1- PERIODICAL 11~ u' (4hr 17) N 1- -1 .' ~ A Bs'r 11 A C F p k, d -t pr, vd~.-c- d If t r ,,I r'0cd lilt, , % -)I r " $" ( t pIT c - P) ' 19xt, -' 7 i-';xR mm t, a ( ( I, r (I it I-,, -, \k , -o~ t It k- G CIS F 0 1 it nda r d I ht, TIC A " k h", .,-, pr(,(Ikl( (.(I p of f1j'j, order to I,- rca-e i-,. prmf i~ ct Olt, ' 40C pipc ii. t'I'llpim-cd t' thc ZNI/ hlcta'l P! Card 1 2 of thir-, ~.t.,ikcd P',, and - (,rovr to re(iti(v ~k,t,lc , iiit-  Adopt ion of , Ic( I ar,~, T, p turiner I,- I rc ,c ilit (~kl' 1) ('W)d J)' L,dkl( 1 1 , Illipt. r .1t1~ 11 impro - enicn, iv, ' he dc., rc ,,q)jw rt lic %% ur~- i.o r0l i In 111 - old adj~l III cuf pc (A - i,v tl-A, arrit d mo i,i coordmafi~)t 'h(. F) I,,* Ill ll't1l'it 'U, r. p1l'. c s s v T1 i I a Ih I IOw (If. ( c , c Ill 1) 1 1 , . 4-d Ill i I , I I rn p r c, ed ind I ha ti Ic c x pc r- , cr. c d g 0 w h c rv I , c ,f o r ;I u I ( mii p, o. : ~ iI n , r %k , - i,i( Ii it j - cl I lic Y i zh r iS (, k i, k I, r,PP'. C a r d  OSTHTFC, V.Ya.; YI'F- 57'Y Y( , 'J.; TYR , V.!-.; N. A. P i i e produc *, i on from new hf!at-rOsif-t,an', ferr~tic-martens!tic otecl s. Sta 1 1 23 no. 3:2'~F-1'63 Mr '61.. (m I 1. Ulcrainskiy nauchno-lssledovatel'skiy trubny~, Institut, Pervourall5k!,, novutnibnyy zavud I Nikopollskly yLzhnotrubnyy zavod.  ACOMUN NAI Apj;u5y4 S/0137/63/000/oll/DO43/DO43 SOURM BZh. Metallurglyas Abs. UD260 AUTHOM 0strankop V, Yaol Hironov, Yus M.1 Geyko, LK* TITLEt A now method of producing large-diameter seamless pipes CITED SOURCEt Sb. Trubn. proiz-vo Ukrainy*, Kiyev, 1963, U-66 TOPIC TAGSt pipe. seamless pipe, large-diametar pipe TRANSIATIOM The authors present an analysis of existing methods of slanted-roll expansion. The result--i of the analysis made possible the development of a new method of expansion which allows the production of large-diamoter thin- and especially thick-walled pipes, as well as pipes with external longitudinal ribs. The basic advantage of this method is the application of compressive forces on a.U sides without the involv=ent of any expansive stresses on sections lying outside the deformation focus formod by the closed contour of the outor shaping surface and the inner working rollers. This special feature makes possible the rolling of thin-walled pipes even from low-plasticity materials, which is very Card 1/2  ACCESSION NRz AR4013542 difficult vith existing methods. In additionp in products made by the now method, the outer surface will be of relatively high quality; this is assurod by the ccrAitions of defornation on a smooth surface with considerable food force. An important feature of the now method of expansion is the absence of ovalization of the product during the deformation process. The authors give a description of the prOO033 and a pipe solling machine for carrying it out. K. Ursova. IATE ACQ: OqDoc63 SUB CODEj ML ENCL: 00 Cord 2/2  OSTRENKO, V. Ta., kand. tokhn. natik: VATUTIN. P.L. Insh. Improving the quality of seamless Pipes. Bitil. TSN11CHN no. R:32- 35 '58. (MIRA 11:") (pip 6) (Ro 111 iv, (Meta lwork))  2r)( 1) PHASE I BOOK EXPLCj-7TA'T10N -3 () -v, /17 -Ostrenco, Viktor Yakovlevich,and Petr Ivanovinh Vatutin Prcizvodstvo trub na awtomaticheskilch us~anovkakh ~'11'ube in Automated Mills) Kharkov, Metallurgizdst, 114nr. 1~4 17. 3,100 coDies printed. Resp. Ed.: Plyatakovskiy, O.A.; Ed. of Publiohing House: Sinyovskaya, Ye. K.; Tech. Ed.: Andreyev, S.P. PURPOSE: This book Is intecded for englneers and techni,~tarts w~)rrklr- in the tube -manuf ac tur ing industry arid may be useful t0 at metallurgical vuzes. ("OVERAGE: The problems of seamless steel tube production in alltorrate,~ mills are analyzed. The principles of roll and equipment deiign for all the mill stands are explained In detail. An analysli -,f the influence of the design elements un the rolling prooess I.:-, Card 1/5  Tube P-oduction In Automated Mills :7, 0 V, ' 1 J ~! 7 pre8ented, and a comparison of varlou8 typos of pierclng mills ir~ given. Methods of oetting un tuIle millAs described in detaftl and all poss-fble troljb~es Prn,;untcred proftction are eiscussed. All operat4.onp of '.-bc- process are de6cribad in succession Lnd rietho,-Iti of flow design for tube manufacture are cxI)Iiiii.,F~d. TuLe T-t,~,Jec.'Al, caiises and methods for their prevent'Lo-,i ellm-'rattinn tire cussed. Information on modern tube productlon Included. The authors state that' (-,I- r,-v?,cPj-.t of 117- tijl)e~q manufacutred by the seariless procecs. Thf. 11CMeS r" M-)Ct-~,P Tcchnical Sclencea I.A. Fonischev, of P.K. Teteriti, '..A. sovokly, P.T. Yemell.venenko and L.E. A113hovskly art- meritlon,,(! the text as having contributed to this fielO. There ,ire 1- refe,-ances. TABLE OF COII.ENTS: Forewcrd r, Card 21~  Tube Production in Automated Mille SOV/1327 Ch. I. Design of Rolle and Equipment 5 1. The purpose of the design 5 2. Demign of rolls, mandrels and guide# of a pleraing roll mill 6 3. Design of rolls andmandrole of plug mill 30 4. Design of rolls, mandrels and guldem of a rotary rolling mill 33 5. Design of rolls of a sizing mill 37 Ch. II. Setup of Mille 38 1. Importance of a correct astup 38 2. Setup of the piercing mill ~8 Setup of the plug mill 2 48 Setup of the rotary mill 5. Setup of the sizing mill 51 Ch. III. Tube-manufaoturing Process 53 1. Schematic diagram of the process 53 Card 3/5  Tube Froduotion In Automated Mills SOV/1327 P. Brief description of billets for tubes 55 Preparing the metal stock for rolling 59 Heating the tube billet 62 5. Rolling operation shoot 65 6. Piercing the billet [making a shell) N . i Rolling tubes on a plug mill s Rolling out tubes on a rotary mill 93 9. Sizing tubes on a siting mill 96 10. Trimming of tubes 96 11, Inspection and acceptance of finished tubes 97 Ch. W. Types of Tube Rejects,, Their Causes and Remedios 99 I. Rejeate from piercing mill 100 2. Rejects from plug mill ill Rejects from rotar7 mill 120 Rejects from sizing mill 122 Ch. V. Modern Technique In Tube Manufaoture 127 Card 4/5  Tube Production In Automated Mille SCYV/1327 1. Rapid heating of work 127 2. Mechanization of hand operations 129 Automation of tube-manufacturlng process 132 ~-. Increase of service life of tube-manufacturing equipment 133 Blbliagraphy AVAILABLEs Library of Congress OO/k8v 4-29-59 135 Card 5/5  SOV/122-59-6-8/27 AUTHORS: Foi-.Achev, I.A. Doctor of Technical Sciences and Qatrenk Candidat e of Technical Sc I enc C'!; TITLE: Investigation of the Operation of Piercing Mills With Barrel-, Mushroom- and Diac-type Rolls PERIODICAL: Vestnik mashinostroyeniya, 1959, Nr 6, pp 28-31 (USSR) ABSTRACT: Mushroom- and disc-type rolls in piercing mills have overhung roll mountings., Barrel-type rolls have gained favour in Russian tube imills for larger sizes and alloy- steel tubes. It is stated that each of the three types of roll has its appropriate field and none should be excluded in now mills. Analytical and experimental investigations are described, performed on barrel-type and disc rolls at the Y-azhnotrubnyy zavod (Yuzhotrubnyy Works) and on mushroom-type rolls at the Chelyabinskiy truboperolcatnyy zavod (Chelyabinalf Tube-rolling Works) stated that all three types of rolls produce the saine initial deformation and, in all cases, the piercing process requires a helicoidal motion of the billet. Analysis shows how to determine the piercing axis of each type Cardi/4 of mill and its position is found for each of the three  SOV/122-59-6-8/27 Investigation of the Operation of Piercing Mills With Barrel-, Mushroom- and D1sc-type Rolls cases. On the basis of theoretical analysis, a number of curves are derived (Figure 2), which illustrate the variation of the resultant velocity, the rate of feed and the velocity of rotation along the initial deformation zone for all three types of piercing mill. The distribution of velocities is examined for each type of roll and it is found that the substantial drawback of the disc-type rolls is the change of relative velocity between the two discs across their face. However, the benefit lies in an improved tube surface. The best velocity distribution is that of the mushroom rolls where a progressive increase of the total velocity and its components occurs from the entry to the outlet. The study of the process of twLsting the billet and experiments carried out have established that, in the process of traversing the initial deformation zone, the billet, in a barrel-type roll mill is subject to alternating twisting in two opposed directionn, A takes place in the entry cone in the direction of rot -it ion Card2/4  -SOVY., 2 8 j 2,k-ftj~ 14.~27 Investigation of the Operation of Piercing Mi Is %-a el_, Mushroom- and Disc-type Rolls followed by untwisting completed at the throat and by twisting in the opposite direction. In the mubliroom-type raill, the twist usually occurs in the direction of rotati(,,n, both in the entry and the outlet cozies. This produces t~ie least stressed metal in the finished product. Measured output rates at the two tube works mentioned above are summarized in Table 1. A 90 mm diameter billet was pierced to produce finished tube of 89 mm outside diameter and 3#5 mm wall thickness. The lower output of the mushroom- type mill as measured was due to obsolete design. Assuming equal rate of feed (0.9 m/sec) it is concluded that barrel-type rolls will have a piercing cycle of 6.5 sec, disc-type rolls of 5.5 see and mushroom-type rolls of 5.2 sec. Table 2 summarizes the scrap percentages in Card 3/4  SOV/122-59-6-8/27 Investigation of the operation of Piercing Mills With Barrel-, Mushroom- and Disc-type Rolls different tube mills. Mushroom-type roll mills have the least scrap due to external or internal folds, presumably a3 a result of the more favourable distribution of velocities. There are 4 figures and 2 tables. Card 4/4  FOMICii1W, I.A. . 1-anc1.tn1-hn.mm1:: OSTREU10, V.Ya.. Ninrl.tp;~hn.riilil: I I mAtal prenqijrA on rolls In large dianeter pipo rolllir*-, nn --atic nills. Obroint.davl. nn.2:154-170 151. (MIrL,, 12:10) 1. tnl'nt*-Y insfitut. (Ralline U1119)  OS777711), V.IA. Skilled w)rker In the Irl' ' w. 1 casine p1pe soctl n, taTtbo,lk f-ir t)rnottrol -,nd tecYm!cpl coursps an,, scho,19 for vkIlled %-,orkers Tpr1kov, G,)r. 17-vo lit-r7 r,,-) c~ernol 1 ( r~ 10?08) 7?.'8 ?1 . 5. " ~ Master otipls...19:~ (Cnrd 11, 54-3,298  YCHICHIV. OSTRUKO, V.Ta.; BORRIKOV, L.D.; HINDLIN. I.G. Hollow mandrels with inside cooling for piercing mills. Blul. TSIIIICFW no.23:42-44 157. (MIRA 11:2) l.V];ITI (for Pomichev, Ostrenko, Bobrikov). 2.Zakavkazakiy motallurpicheakly zavod (for Mindlin). (Rolling mills)   OSTREh, G.D., ~3Et%EZOWAAYA, F.I., ber Inst. r,:-ivslk. Chmn., Aksri. '61,99. `kr. 9, 3-16.  AID P - 2109 Subject USSR/Chemistry Card 1/1 Pub. 78 - 22/24 Author Ostretsova, V. Title Parkhomenko, V. Ye. Teklinologiya Rel!el botki npfJJ_L_Eaza (Tuchnology of Oil and Gas Processing) Gostoptekhlzdat. 1953 (Book Review) Periodical: Neft. khoz., v-33, no.4, 93, Ap 1955 Abstract This textbook for students of technical colleges in petroleum engineering is critically reviewed. In general, the review is favorable. However, some of the shortcomings are indicated. Institution: None Submitted : No date  0 0 0 0 0 0 0 04 At It A JLJ Jk-.A- A 4 a P f Si A T 1, v V-1 I A All :0 0 (A 0 U4d I % d 6 1 1 '00 Th. cd -lumirisubeir im --fil"Itatilis I frv.ik.)v st-J A. Ostretyy.. J Nolt-b- /ad. I L .1, 6 k 1%a4) -:~~-Mxxulllxvlr - clows nut f-'quill, I'll It to camly nux"I votill fillff. -LA c 14"k. The io4hrw,lvlW~s dmiraws with M l.W,iw to the Pft"XtkUl Of Tb"WU6WW9 lllr 111111k IN 0: jum,"s dut%txg vuk-anizaikm rhmAiA sn,l Till,-- i vultanis" &YO unvuk-am" fr~u at 1.41 alk,j 1--t- Willie. but r-%etr un rtw (of ittrilt I he uw J h.nW, 1h, -to see too lk' 4 11"114111 two .911110. 5 At .3 too IT d^4 0 0  OSTRICTSOV. A.Ta., Ir--h.. SHENKW. Yu.B.. Inzh. SconotW of electric power congu,~,ptlon In shipbuilding. Sndostro-n~e no.7:~8-59 JI '60. (MIRA 13:7) (Shipbuilding) (Electric power)  IVAHOV. A.M.-, OSTRITSOT.B.S.. redaktor; VOLCHOK. K.M.. tekhnicheekly r*daktor --- - - (Rapid methods of handling lumber cargoes; practice of Leningrad dockers] Skorostnye metody pererabotkl lesnykh gruzov. Oprt lentngradsklkh portovikov. Koskva, Goo. Isd-vo Yodnogo transporta. 1954. 62 p. (MW 7!8) (lawber-Transportation) (loading wid unloading)  OSTRETSOV, G,.V.; MANUYLOV, L.K., DRON, A.M.; CFEILMOV, S.S. Errors of the profile in rollinF gears and methods for thpir cor- rection. Stgn.i inrtr. 32 no.10:3-6 0 '61. (KIRA 14:9) (Gear shaving machines)  ATRUTIN, S.T., lnzh.; BAMUNOV, Te.D., kAnd.toklin.nauk; GUMER, L.A., kand.takhn.nauk; MINOT, T.P., knnd.tekhn.nqnk; KARTS3T, S.P., lnzh.; KEDUMSKIT, T.H., inzh.. loureat Lentneircoy premli: KORZINKIN. V.I.. Inih.; KOSILOTA, A.G.. knnd.tok-hn.nauk-; KALOV. A.N.. kand.tekhn.nouk; KATYUSHIN, T.H., doktor tekhn.nauk; 94M!M---g.,I,.__kand.tekhn.nauk: PANCRINK0. K.P., knnd.tel-hn. nauk: PARFENOT, O.D.. knnd.takhn.nnuk: ROZIMESTYRUSKIT, L.A.. icnnd. tekhn.nauk-, ROMAIJOY, T.F., kand.takhn.nnuk; SAMIN, N.M., doktor takhn. nauk; SAKHAROV, G.N., knad.tekhn.nnuk; SMOLOVSKIT, I.A., inzh.1 FRUMIN, Tu.L., inzh.: &IISHKOV, T.A.. doktor tekhn.nmik; ACHEMIN, N.S.. prof.. doktor tekJul.nauk. C-lsvnyy red.; TWISLATLEY, V.S., red. (deceasedj; POZDNTAXOT, S.H., red.; ROSTOYM , A.Ta.. red.; STOLBIN. G.B., red.; CHBUINATSKIT, S.A., red.; KARGANOT, Y.G., inzh., red. grafichaskikh robot; GILIMMERG, H.I., red.izd-vn; SOYOLOVA. T.F., tekhn.red. [Metalworking tuindbook; in five volumasJ Sprnvoclinik matnlliotn v plati tomokh. Chlany red.soveta: V.S.TIndialtivIev i dr. Monk-vn, Gos.nauchno-tekhn.lzd-vo mnshinostroit.lit-ry. Vol.5. 1960. ii8is p. (HIRA 1): 5) (Hatn1work)  ,Vl2V6o/ooo/o3/O5/OO6 A U T-i I CDR: 0stretsov. G.V. T:TLE. conference on the Reduction In Overall Dimensions and Weights of Gears PERIODICAL: Stanki I Instrument, 1960, No 3, pp 42 - 43 TEKT; in December 1959 a scientific and technical conference was con- vened in Leningrad dealing with the subject "Ways and Means to Reduce the Overall Dimensions and Weights of Gears". More than 400 delegates of 123 organizations participated in this conference, where approximately 30 reports on problems of design, calculation, testing and operation of gear drives were read. As.the result of the discussions, the conference set the 'following four V/ basic trends which are aimed at a reduction In overall dimensions and weight of Sears: 1) improving and making more precise the methods of calculating the ,strength of gears; 2) increasing the load capacity of gears by applying new types of gearings and more advanced varieties of already used gearing systems; 3) Increasing the load capacity by producing gears of materials, which possess or -T, 1, eiven optimum mechanical properties; 4) applying more expedient kinematic and constructive reducer layouts. A great part of the conference Card 1/ 3  3/121/6C)/000/03/05/006 Conference on the Reduction In Overall Dimensions and Weights of Gears was devoted to the following problems: determining the criterion of surface strength of teeth, methods of calculating the bending and contact strengt1i, spiral evolute gears and planetary gears, designing and testing problems of the Novikov gear drive and modification of initial contours and correction methods. Also the problem of pemissible stress was treited by the conference and the 3uthor states some pertinent data on this subject. The conference heard re- ports on test results which were obtained by comparing the Novikov gear drive with other ge&rings. Further reports were heard on the problems of increasing the fatigue ttrength of gears by nitridlng, of employing plastics in gear manufacture - the DSP-G grade plastJc was mentioned as particularly sultabie and of Increasing the bending strength of,gears by shot-blast treatment. The --onferen'ce laid the following claims to machine construction: 1) increasing the quality and precision of gear-cutting machine tools and raising the output of t;-,ear-finishing machines, In particular of gear-grinders; 2) making it possibi- to grind wears of t-he Novikov desivni 3) ensuring precision cutti and finlshinj~ of gears witn intern&A SU'algfiL WiLl beew teeth. The Novikov ge as con- ;idE_:ed 1,y the conference as particularly important and a resolution drawn up Card 2/3  S/121/60/000/03/05/006 Conference on the Reduction in Overall Dimensions and Weights of Gears confirmed the high load capacity of this type of gearing. Moreover, the con- ference recommended an extensive application of planetary gears as a means of reducing the overall dimensions and weight of reducers. Further resolutions were made concerning evolute gearings. The conference considers it necesnany to publish a special periodical dealing with the design and manufacture of gears, which would facilitate an exchange of experience in this field. Card V.3  OMMOV. B.N. X-ray anatomy of the temporal bone In tonographic representation. Hed.2hur.Usb. no.7:41-.44 J1 158. (MIRA 13:6) 1. Is kafedry rentgenologit I wediteltzkoy radiologil (sav. - prof. D.K. Abdurasulov) Tashkentakogo Institute usovershoust- vovanlya vrachey. (TWOM BONS-RADIDGRAPHT)  C ST V , i~ . ~- . , G, ~ I ~ I '-' t (I L;c i -- ( -~ i -,;-, ) " K- r!i -; ~1-, -,, to- - ti-~t- * " , : , :-I , bone a:~ ~ ~ vur. bly ! ~ - ~ ,,,i t -,-, . " - i L ~ r I I , I , I -, . , - ; : . . : ~ ~ J- u r 1 i c ~:;,: ri ~ '. 1; " ;l, ~ ~-* 6, ". " , ~ a , " , 1, . - I . I '' : I_. " . - ~: , * ! . I; - . I - . . I - -. .- I ,, , , I,'' rl C) t C- i V,- r; . ~ I )  oszwlsov, G.V. Conference nn roducine size arni we!6ht -1 Stun.1 Instr. 31 no-3:42-43 Mr I . 0,111LA 1 ': ") (Gear i ng-C o rgr o a 8 e a )    2 (1* AUTHORS Ostretsov, L.K. , _Dron, A.W. and ChernlK(1, S.S. TITLE, Profile qrrcra -f r,-- wears, and a mett~A f ~ r r re.-ticr PERICI)ICAL& Stanki ! ins~r---nent, no. 10, 19bi, 3-6 TEX-T j Thread r-!-;.n,,7 Is being st~;dled and introduced into practica-' 'Be a number of Soviet organizat,!ons. ENIMS has conducted studies of tne n:~*, rclling process with subseqlien*. ccld sizing, and cold sizing of milled gear-~ (Instead if shaving). Tne article presents some results of tne ENIMS work and detailed informat.t^r, or. a method developed for determln;%F F-:*:f_''_e err,jrs cr. involute straigi.t tooth rolled gears, and for correrting tn? rc- ling gear to produce gears wi-h ac,urate involute tooth profile. The rc'- :ing gear is correited by cnrre~~tions made on the grinding wheel. A9 etatei iF_ ENIMS experiments, profile errors on gears produced with rolling weara with nominal profile, i.e. r.~t modified, amount to 0.06-0.08 mm, and -he Card  26 8,", 8 S/ 12 1/ 61,'C~001 0 1 0 PrL;fi--e errors of r-~Ileci gears .... D040/DI13 err--:-s are reg-!Aar. Thft pr:)flie corrention method is explained with tru a'.I ,:,f diagrame. The method of correcting the rclling gear depend6 on te ie- sign of the available gear grindera and the wheel dressing attachment. A~ ENIMS, "58411 gear gr:LndPrq have a dressing device with setting -,&me -.he-*; permit the wheel pr-)fi-'e I.: be 8-';.gnt--y modified. A calculatio.,+1 diagram il!-,~strates the sett'~ng of the diamond dressing device of the "584" gz,-'nac---;;. A example is inci-ided for a case where a gear with 3 mm molula a-,d 45 teetb is r).'.'ed using a r-1.1ing gear with 94 teeth. Involotogra-mG made by ar, ir6o.,,ite meter show the error produced in rolling with a re-Rd and witq a corrected whoe'-. Errors after correction do nct exceel 5/-Cm. Cold --zing redir--s qrr3rq to 20-25,~kft over the workAn.g e9,.I!Dn --.f the t,)oth profile. The metho6 of determining the rolling gear modifi:at:.-)n. for the rear tooth flank is ar.alogoua with the modification for trie fi-)n! 11,w,k and thereforsi ic r) ' tiut it io pointed out thut the ;~ijvfl sha.pe and the angle f--r tree fr)r, and rear flanks are not, alike, ar,d r3,.;,~mmended not t~ r:)-'-.ing. There are 9 figures. z, - 1 2 '-  OSTREMV, L.A.; KOVRIGIII, O.D.; IATTSUV, G.D.; IMNOV. V.D., 7.D.; SHIP-,qw, N.M. -- Measuring the lifetime of the 279 Kev level of T1203 by the delayed coincidence method. Vest. AD Kazakh. SSR 16 no.9:?2-78 S 160. (MIRA 13:9) (Thallium-Isotopes) (Scintillation counters)  '2AC 11 , 1 L S/031/61/000/001/002/oc 5 A 161/A1 29 AUTHORSj Ostretsov, L.A., Kovrigin, O.D., Latyshev, G.D., Acaoemician of the Aca-demy of Sciences KazSSR; Leoncv, V.D.,Shir3hQV,N.M. TITM Pr~totioal measurements of del~iy line paramoters PERIODICAL: Vestnik Akademii nauk Kazakhakoy SSR, no. 1, 1961, /9-55 TEXT: Delay lines 4re coming into extensive use in modern ridio engineering. The authors used an alternating delay line for operation in a juick-slow coincidence circuit thajo:as employed for measurement of time intervals in the range of 10- 10 ec. A brief description cf the design and m4thods of measuring the wave resistance, delay and attenuaticn in the line is presented in this article. The design is illustrc.ted (Fig. 1). Its main element is a hollow mobile brass drum with a surface in the form of a s4uare-section spiral of the type suggested by bell (Ref.1), The square is 16 x 16 mm. A copper conductor 4 mm in diameter in laii along this spiral axis on rings from fluoroplastic This conduc-.or Is the inner conductor of a high-frequency cable. The spiral diimeter is 22C mm, the turns number 22. The Irum rotates on plain 1~ournal be tringg on posts. Card 1/ 11  2 2~'5 2 S/031/ 61/000/'DG1//0C,2, O~- Practical measurements of A16l/A129 Minimum and constant contact resi9tance of the mobile part with tKe station- ary part is important. In this case it was (~.05 ohm. The transition from the mobile part to the immobile part is also d coaxial line with the same ave resistance. A slip collector takes the 3ignal from the open cylinder urfaco. Tho collector is a cathode follower circuit with a diodo. The : drum may be rotated by hand or by triotor (a drive pul ley lo providod) . The wave resistance was determined in two ways (Fig. 2). Voltage from the out- put of a 102 -0(102-1) sweep generator is transmitted to the delay line, the other end of which 13 loaded with alternating resistance (R). A reverse reflected wave which can occur in the case of load mismatch is trinsmitted to the generator input. As seen in the diagram, the direct wave from the output arrives simultaneously. The carrier frequency is to be selected on the most even portion of the frequency characteristic of the generator. A maximum approach of the frequency characteristic watched on the screen to the natural frequency of the generator is to bg achieved gradually by ah,inging the resistance. The absence of reflections from the line end shcws that the line is leaded with wave resistance that can be determined by measuring the resistance R. In our case it was 95:tlO ohms. Wave resistance Card 2111  ,-~ `52 S/031/61/006/001/062/005 Practical measurements of A161/A129 can be measured in the same way with the use of an on x-1 (IPKh-1) transi- tion characteristic meter. The front of the H- pulse will be seen on the screen. It grows in (1.~t 0.2)-',0-63ec (Fig. 5,a). Thin oncillogram appears at full match of the lo-id ind wave rosi~itanco. In the case of disconnected line, the oscillegrim will be as ir, Fig. 5 b , unJ in the c ~je of short-circuit as in Fig. 5c. Th,.- 3-~ccnd m,!thod 13 mor'3 tic-urute, the measured resistance was 100'� 5 ohms. The iounle delay time may be deter- mined by oscillograms (Fig. ~) u~jing the time division marks on the IPKh-1. In Fig. 3 it is Indicated by 2,r , inJ it is in our case (1012)-10-6 sec. More accur~Ate meisurement is t,os3ible with the circuit in Fig. 4. A signal from a ra-i (GSS-1) sinusoidal oscillator 13 medulAted in amplitude with 400 cycles frejuency ind fed to the line The line is ,onnEcted to a high-ohmic me-isurement circuit Anl works ne,irly is in the cige of' ~A line olened at the end. An. 30-7 (EO-7) osciliogr~i,.h is used as an incic,,tur. The work frequencie3 are reAching far boyond tne 1-i!jj brAnd of tho EO-7 ~nl a crystal diode am~iitule d.!tector mu3t be u3~,-d, then the senuso:.dal L~3ciliatiozis of 10~., cycles frequency Nii, t)e z3k,-en cn the FO-7 .3--reqn. Measurements consist in the smuoth v,.tritticri ~1 the ,-ent-r'Ator ca-rier frequency. When the generator frejuency 13 such thit -in uneven number of Card 3/11  Practical measurements of ... A161/Al;,() ave iuarters can be ~!A~ed cr, t~~q line len,-,th, the volt,ge on the .'Me, nd will bulge Obviouily, there will be I m~,Iximum ainuicid imj~.tukii : on the screen Thij case is lescribed by the formula ri or. v ~ 4 ~ f 4 2n - I where v is the wuve propa6ation velocity in the line;l- the lin,3 length; ?,- the generator wave length; f - generator frequency. Substituting n 23.1 megacycle fre4uency, and 14 2 m line lengtht v - 2.63- 10- 10 m/3 ec. Knom ing the line length and the signal prop.igation velocity the delay time is found: T (5-40+ - l - d -8 0,15)-10 sec. e V Meas urement can also be carriel out when the line is short-circuited at the end. The oscillograph must then be connected through the detector tc the line input. Attenuation was determined by the following procedure: Card 4/11  S/G51/61/000/OG1/002/00'~ Practical measurements of ... A161/AI29 The Q-factor of the circuit with the line 13 mououred by a Q-met,3r at parallel and series resonance. The calculation formula io (Ref. 2) IQ 1 0 2 0 where A is the attenuation f4ctorl Q I - the cirouit iuality at parallel resonance, Q2 - at series resonance Q - of circuit proper, line length. Th measured attenuation w' Q+- e Is 0.004 decibel. A different methcd can also be used- First, the resonance frejuency in the line i!i ~:alculAtei using the formula (Ref. 3) f (megacycle) 1441 here v - relative signal velocity in the lizie; line length in W 7 ft. Then the ~-factor and capacitance are determined with the Q-meter The value is determined by the formula 7 - 10 M f(megacycle) C (Pf) J"(Uhm) Card 5/11  ~52 S103116110001001100211003 Practical me-Asurements of A161/AJ29 The 3 value is found from the 7raph in Ref. 5 und the line ~ittenuatiun will be found by the formula N - St decibel/100 ft. In our case it was 0.0574 0.004 d(!cibel The design of the qeluy line proved convenient in use, ~irid the iccuricy of measurements proved cient,for the error in the determination of the excitation life time wai not exceeded. There -ire 4 figures ;ind 5 ref~?rences (2 in Eagl2sh lang-ua- ge and I a translation into Russian). The references are readingi (Bef.1) Bell, Graham, Petch Canadiin J. of Physics, 1952, 30, 35; (Ref. 2) Termen and Pettit (Rusaian spelling); "Measurement in electronics". Izdatal'stvc, inostrannoy literatury, Moscow, 19551 (Ref. 5) Stewart, C.Z., Trans. AIEE, 1945, 64, 61b, 95f3. Card 6/11   11271-67 "47 Orlc ;IW de Lec t ioll tF, Spec e ~.,k2 u- i, .. , 1-,- ,: -m't s for 'Ligures, 4 G~jb COD-7: D", Cord  OSTEZTSOV. N.I.. starshty nouchnyy sotrudnik Hoderniging W-4 and TNM-200-K scutchIng machines. Tekst. proo. 18 no.11:53-55 3 '58. (HIRA 11:12) TSentrallnyy nauchno-issledovatel'skly Inatitut lubyan7kh volokon. (Textile machinery) (Hemp)  I " T f- - T , r i. 1:I ARNO, A.A.. starshly nauchnyy sotrudnik; OMSTSOV, N-I-, atarshiy nauchn" notrudolk; KLITW. U.3. Redesign of the feed unit on a THM-200-K mchins. Tekst. prom. 17 no.7:53-54 JI 157. (Huth 100) 1. Glaynyy Inthener Usglavluba (for Kleymn). (Ratting) (Textile machinery)  USTRITSOV. N.I. Wars water.rotting of suspended bast fiber of hemp. Tekst.pron. 16 to.6:22-24 Je '56. (MA 9:8) 1. Starshiy nauchayy sotrudalk TSentralloogo nauchno-looledovatell- skogo Institute, 1'nyanogo volokna. (Rotting) (Hemp)  SIAVUTSKIY. Ta., in2h.; OSTRIVSOV, V., inzh.; IRSHAKOV, V., lnzh. D-esigns of larg&-panel apartment houses of the 1-48 and 1-4E2 series. Zhil.strot. n0-5:13-16 My 160. (MIRA 13-7) (Apartment houses) i  OSTUTSOV, Valeriy Mitrofanovich; R(ILILG, Yevgoniy Romanovich; LEVOI:T111, N.B., inzh., nauch~-. red. ; ZUBEVA, 1~ S. , red.; 2,CLO-Il!:A, A.V., red. (Examples of c(ilculationn of cle::entr ~or large-panel apart- ment houses] Prir.ery rascl,.eta on.,.truktsii sovreverinykh krupnopanollrVkh zhilykh zdani~. Moskva, Stroiizdat, Incii.. 191 i . (KIRA 17:7)  IST'---;'V, ]-~. Sanitary rep.,ulatil-n.9 f-)r hQating and veritistl-n nf 9partrent and ")Ubic buildings. p. 3,- . Tr2fli' KA, Sofiya, V-) i. ,, nn. 6, Auv. /Sept. I )' I,. 6 1: Plonthly Ast. of Euroyv~wi Acce:;si mi, (-Iledtil), J-1, VI)I. r , , I Jncl. 9 ~ in. 6 , unt, 4 1 (-,  OSTIRFFV, P., MARKOV, H. !~F I E V . , .1 1, "Pr-~jFaring kfinual Prcdu~-tion PI, nn. p. I" (YOOPrRATIVII10 ZF D- -1 ) 01 ' 0 "to. - . 1952, Sofiya, BuIgurin. SO, Month-y LI--t of East Euro-ean Accessions, L.C. Vol. 2, No. 11, Nov. 1953, Uncl.  CAT33MY ABS. JOUR. i RZKhlmos No* 5 19608 No, 19831 1,71 g *~To! CMG. PUB, ( InSTACT rhq rer-ultr of' 3, tnct.rical iintilysiz, aril a charac- of *rk- TA41int, nrtt tmktnp~ v,,r ie'is~f, nrr- irlve-~.  OST;d'YKO, Aleksandr Ada=ovich (Sentine13 of the peoplel Dozc)rnye naroda. Sijrf erc)ycl' Krymizdat, 1963. 33 P. (VIAA 17:E)  DORISOVO V.A.; OSTRETYO, G.N.; '~.Z-j Y,TIN, L.1. Powerful pulse modulhtorB of hig~-frequency anplifiers and self- oacIllatorB without pulse ahapIng long l1nes. PrIb. I tekh. ekap. 8 no.4:83-85 J1-Ag 163. (MIRA 161l2)  EUT (MVEPA(w) -2/tWA (in) -2 LF(c) 03 6/0000/6%/000/000/1065/1072 17 ACCESSION NRI ATS007979 AUTHORI _4r&myan. Ye. A. - Bander, 1. Yo.1 Rondaranko, 1,. N.i budki"A-la-L N. I A. A. I Pal't _V~ a ym JJ142111L A. Kh. I Hashko!jL 11 ELL, K _ - - - Ye- Swo n .1lov. 1. K-.; Skri skiv, A. P.1 Ym4JD_ L. 1 1 Konlkov N. G.; "9.qt - - ; ; A. A.J TL%0Ajk'_1L_1�1 Heahavernko, 0. A. Ostreyka, G. N. I PqE2yz_VL_V..j Si?kolo , __ __ __ 1 " - TITLEj Work on the strong-current &ccele!A&qrgLqf the Nuclear Physics Institute i m 19 SO AN SSSR. (11 Strong-currant pulse accelerators with spiral storage oF Itrons. (11) Stmng-current accolerators with on*-revolution capture of the in- jected electrons SOURCEt International Conference an High_EneriLy Accelerstoo. Dubna. 1963. Trudy. '"oscow, At-misda-t-, 1964. 1065-1072 TOPIC TAGSt high energy accelerator. electron accelerator. electron be=, betatron@ Plasma :ABSTRACT# The work an developing atrong-current electron ring accalareta" iwas begun in 1965 by the authors at the Nuclear Physics institute. Siberian Depart- 1 of Scianc" SSSR. with the bblect of studylr4 the possibility of vent, Acadew LC" L/3  I. 14"37-M ACCESSION NR; ATS007979 0 forming relativiotic stabilized beams. In the laboratories of the Institute ex- perimental studies were carried out on the four methods for obtaining large ring currents of relativistic electrons: (1) spiral method of storing the electrons in installations of the betatron type with subsequent betatron synchrotron accelera- tion (Budker G. I. CEM4 Symposium 1. 68 (1956); (2) obtaining of limiting electron currents by means of the injection of electrons from a strong-current linear ac- celerator into a ring chamber of large aperture with subsequent synchrotron accele- ration; (3) storage of electrons in tracks (parking orbits) with constant magnetic field by means of the multiple Injection of electrons from another less strong- cumnt accelerator; this method is utilized for the storage of electrons and posi- trons in experiments with colliding beams (expounded in detail by G. I. Budker In the present collection. p. 274); (4) obtaining of large electron currents by means of the acceleration of electrons by a ring plasma. The present report dis- cusses the first two methods under the following topicat (1) pulsed Iron-less betatron with preliminary charge storage (B-2 device); strong-current pulsed syn- chrotron B-2S; pulsed strong-current betatron with spiral storage (9-3 device). (II) Iron-less orps-turm strong-current synchrotron (ISO)i stronS-cumnt pulsed synchrotr4m B-3M. Orig. art. hast 7 figures. Cart 2/3  L 42)7-66 ACCESSIOP Pitt ATS007970 ASSOCIATIONt Inatita pdarnoy filiki 60 AN SSSIt (NUCIS&r P"ICS Institu"I so AN 6SSR) SWMITTICOt 2&May$5 EXCLe OD RD CODE t MY Yo REr sov, ooi OTHrItl 001 3/3  ACCESSIO)l NXI AT5007990 S/0000/64 /000/000/ 106 0/1 of's AUTHOR- Grits Yu A.; tremashvili, D. V.; Haumovt A. A,; Pystnitskiyo A. Pol Ponisyuk,_ V. S. i TITLE: Str*ng-current high-frequency pulse accelerator& for one-revolution Injec- tion Into a synchrotron SOURCE,. International Conference on- High Cnarly Accelerators. Dubna, 1953. Trudy. Moscow, At-c- W- iililyat. 1964, 1060-106 TOPIC TAGS: high energy accelerator, synchrotron, electron accelerator ABSTRACT; Plans were begun in 1959 for the strong-current synchrotron 8-3M vith external injection of the electrons (Budker, G. I.; Neumov. A. A., at al., present collection, p, 1065). ror this there was required an Injector of electrons at currents of several tens of amperes and energy not less than I Mev. The tion dura- tion of the injected bunch of electrons (current pulse) must be sufficient for fil- ling the chawber of the synchrotron, which amounts to about 20 nonoacconds In the cast of equilibrium orbit length of 700 cm and relativistic electrons. The devia- tion frca the seen energy of the electrons In a bunch must not exceed 80.5%. The beau pulse power of the Injector amounts to ter,% of megawatts. In order to obtain  L h238-66 r I - 'ACCESSZON M AT5007980 such high beam power, the electric field realizes energy that is accumulated over a period of tive much larger than the duration of the electron pulse. G. 1. Bud- ker and A. A. Naumov have proposed reveral types of accelerators which are baned on this principle, which am being developed in part at the Nuclear Physics Ins- titute. SO AN SSSR. The necessity for the rapid construction of an injector of such a type prompted the utilization of the mentioned principle, in which a radio- engineering resonant circuit serves to store the electric field energy. A si'7111ar' accelerator wns proposed and d*scribed by a group of authors (Tolok. V. T., Bolo- tin. A. I., at al. Atcmunja "r9riya 11, 41 (1961)). In order to Increase the ;duration of the pulse of accelerated particle curmnt for arbitrary rigid require- sente on the hoso3ensity of the electrons relative to energy. It was required to greatly lower the frequency of the high-frequency voltage In copparison with the cast discussed In the last mentioned work (Tolok, V. T.. at al.). The development of a 3.5-How Injector and current around 100 anares thu undertaken at the Ptfyslco-~ :technical Institute. Academy of Sciences Georgian SSR, where a group of a3so- ;ciates had proposed the design and consUniction of an injector forminS the basis of the present 6evelopment. Later. because of causes not In the control of the 60- w0opere, the preparation of the Injector began to fall coasi6erably behind that of the accelerator itself. This Morced a search for the possibility of producing ~ CarfO- 2/11  L 4238-66 ACCESSION NR: ATS007960 finjectors of such type simpler to design and construct with the object of ensur- ing the initial cycle of work on the construction of an accelerator. In a short .time the mentioned Nuclear Physics Institute prepared an injector using a long co- axial line as the resonant circuit. With the help of this Injector* work was begun on the investigation of the electron-optical properties of the accelerator and channelizing structure. After about one year this injector was replaced by a more effective one, the so-caUed sisall spiral Injector. which was made In the meiitLon- ad Phyaicot*chnical Institute of the Academy of Sciences GeorglAn SSR. Still un- built Is the ultimate Injector with elect ron energy of 3.S Mov and current around ,100 amperes. The work on the injector described in the present report was carried .out by A. A. Naumov. It is discussed under the topics: block scheme (self-excit- ed generator of aub-excitation, high-frequency generator, resonant Injector cir- cuit, pulse modulator, electron beam modulator, fixation of hIgh-frequency thase, starting accelerator pulses); design and construction; electron gungi radlo-engi- nearing devices; measurevent of the parameters. In the development of the dif- ferent costponents of the injectors mentioned in this report a number of ass->ciates took part In the worki at the Nuclear Physics Institute, $0 AN SSSR (Vt_A,_UrL&Vy,_ V, G. (;Jp4enkob__A. ~?__AfMtq_A. V. Mak~y_!nkos V. . A~eksqM L. Kol'char**) and the Physicotechnicol Iratftvts~, Acader-4 of Sclences Ceo;~ vskiy, Va._!. _Ab"-_0W. V. Yo. Wenlaj H, 1. ftlroaMl. I-Cord 3/4  L b2)0-66 ACCESSIM KRt ATSOM910 Yu. Sh. V*Dodiktov, V._!. ItjSinLG. M. Sigidin orig. art. hast 3 flgur*$. ASSOCIATIONs ID*titut yad~rDoy fLsiki 90 AN SSSR (Nu;Lq~sr x-P- SMIM01 2&NSYP PCLj 00 mo Pxr sovi 003 OTHERi 000 Cara 4/11 SU3 COM my,  ACC NRa AP6034234 SOURCE CODE: UR/0120/66/000/005/0156/0159 AUTHOR: Yegorov. A. A.; Panasyuk, V. S.; Yudin, L. I.; OstreY'kq,..q!_P-, ORG: Institute of Nuclear Physics, SO AN SSSR, Novosibiisk (Institut yadervoy fitiki SO AN SSSR) TITLE: Generator of high power pulses with complex shape SOURCE: Pribory i teklinika eksperimenta, no. 5, 1966. 156-159 TOPIC TAGS: pulse generator, pulse shaper ABSTRACT: A multistage generator of pulses with complex shape is described; the shape and amplitude of each segment of the pulse can be regulated. Each stage of the generator has three thyratrons: basic, extinguishing and correcting; each thyratron has its own power supply. CaLhodes of basic and regulating thyratrons are connected to the load. The extinguishing thyratron shuts off the basic thyratron; tile correct- ing thratron, together with its associated RLC circuit either adds or subtracts from, the current in the basic thyratron and permiLs the shaping of the output pulse. Out- puts of all basic and correcting thyratrons are connected in parallel. Triggering of the basic, the extinguishing and the correcting thyratron controls the duration and amplitude of the output of each stage. In this manner each stage and its triggering control a time segment of the output pulse. The pulse generator is used to generate Card L-621A  ACC NRI U'6034234 excitation currentii for ferrite-wound colls. in one instance, for examp-te, a current pulse with the following characteristic.9 waN generated: from time t - 99 to t - 250 usec the current generated by the first stage varied according to the expression I _ e -13t; from t - 250 to t - 600 psec the current was controlled by the second istage and varied exponentially. Orig. art. hast 3 figuree. 0 SUB CODE: 14~/GUBM DAM G6Nov65/ ORIG REF~ 001/ OTH RM 001  1, Or'079-67 iCC NR, AP6021992-- SOURCE CODE: UR/0120/66/000/003/0023/OC24 AUTHOR: Gol'tsol', M. Yu.; Ostrcyko, G. N.; PanaGyuk, V. S.; Yudin, L.. I. ORG: Institute of Nuclear Physics, SO AN SSSR, Novosibirsk (Inatitut yadornoy fizi- ki SO AN SSSR) TITLE: Modulation of the pulse front of high frequency voltage in a synchrotron reso- nator SOURCE: Pribory i tekhnika eksperimenta, no. 3, 1966, 23-24 TOPIC TAGS: synchrotron, circuit delay line, RC circuit. accelerator ABSTRACT: The complexity of a high frequency gencrator, when a synchrotron j,,encrator must deliver large pulse power (up to I Mw) relative to its pulse width (%100 psec), is discussed. A device which can approximate a prescribed calculated curve can be constructed using a linear modulator of energetic pulses for supplying the anodes of a high frequency amplifier, consisting of passive elements. A schematic of such a de- vice and the curve shape for the variation of high frequency voltage obtained with it is presented. The initial voltage U0 with a front, corresponding to the front of the linear modulator, is formed with the aid of a potentiometer, which consists of load resistance R and resistance R. The entrance of the pulse across the delay line into the choke coil and the load is delayed In a time determined by the parameters of this UDC: 539.1.076 LCc~ctA 2  L Q907_247___.___ XC NRs AP6021 C line. The value of the resistance R is chosen to provide the necessary voltage in the resonator at the mcment of injection, but it must be sufficiently large in order not to shunt the choke coil. The delay line consists of five T-shaped LC-components. The resistance of the delay line must equal that of the load. A compensation RC-cir- cuit is included in the entrance to the delay line to prevent reflections from return- ing to the modulator wbich would result in a malfunction in its operation. Orig. an. bast 3 figures. SUB ODDE: 20/ SUBM DATEs 26Apr$5/ ORIG REFt 002 Card 2/ 2