SCIENTIFIC ABSTRACT NILENDER, R. A. - NILOV, YE. V.

AIJ~~VDROV.'A.G.. &ota; AROXTICH. I.S.. ingh.; BABIXOTe X-L., dalctor takhnovenk; UTUSOV, Sol., kand.tokha.cauk: BALIK10. L.D., doktor tokhaomuk; VULLOV. V.A.. doktor tekbu,msuk; INUUPWSKff, 0.1r., kendetekha.mak; GOWAN. A-to, daktor takhnmuk; GOLMSMA, V.A., daktor tskbuenauk; QWM. L.K.. tagh.; GRUDIXKIT* PeG., prof,; WUV, S.A.. lath.; MI(MOVUATA. L.7.. kand.tekboensuk; DRQZD"o N.G.. daktor takhn.usuk; ITANOT. A.F.. doktor tekba.vAuk [decessed]; a"NOT. 1.L., daktor tokhooosuk; EMMKO L.L.. insh.; KOCONVA. A.L. kaudetekhmessi4ke; ZMGM., A.Y.; KIWW. D.C. doktor takka.usukof WTUSHIL, A.T., daktor toMm.nauk: N=IX. N.L. kmuCtakhm.nsuk; v N.A., prof.; PANTYWHIN. V.8.. prof,; IFAST)KOV, I.T.. '&oRrr'*%'e=.nukg FMOV. G.N.. doktor tokha.mauk; KLIVANOV, K.K., daktor takha,muk; PRIU=WSXV9 I.A., doktor tekhn.vauk; RAPUNSKIT, Lou.. loxhog Allis T.T.. doktor tokho.nauk-, 5MCHAMIT. A.0., daktor tokka.muk: $01OVITIVe I.I., daktor tekta.asuk: STU L' lf.A. kavAotakhaommic; TALXTSKIY. A.W.. prof.; TMNIKQV, JP.Te.. kendateftn' nauk: nDMV. Lot.. LvAh.; FIDOGMT. A.K.. doktor tliftu.mmuk; KHOLrAlKlY. G.2.. insh.; CMIM. Tu.g.. doktor takhn.nauk; SHKKT- MG. To.&,,. inn4otekbameak; 8MLWT3XlT. 1i.2.. doktor tekhn.usuk; AlITIN, I.B.. rod.; Immal. L.Ta.. tokhn.red. (The history of pow*r sqgtwertvC im the U.S.S.R. to three volumes] IstarliA eaergettchaskot t ekhnikt SSA v trelch. totwkh. Mosirve, Gas, enerC. Ixt-ve. (Cauttme4 an m*xt card)  AIMMUDRGY. A.Gs--(corMftu*0 Card 2. Tol.2. ESUmtric aggtacering) Alektrotokhmike. Avtorskti lcollektiv tomi AlsksorAftv I dro 1957. 727 po (KIRA 11:2) 1. Noscow. gookovekty euer eticheekty tastitut. 2. Chlon-korroopon- dent AN SSU (for lortoma3 (Alectric ovctusertrc)  VuLonow, K.S.'o v"f.; GUINVICK, X.M., P"e.; numor, T.T.. pref.t 11 JAft Prof. TUW, SA., icavA. tokhn. souk.- ICKMOT, K.To. sum", Z's., bwW4 todm. mak; SMTWA* F.A.. bmd. todo. mink; IYANOTA. R.8., bLud. tokka. emk; WOKIN, N.G., kamA. tekft. smak. Valentin Alsksandrovich FabrtkRnt; on his 50th birth&y, Swetotekh- nfl= 3 no.12c24-25 D 157. (KM lilt) (ftbrtimmt. Valentin Aloksanftovich. 1907-)  ULEXI rm ebmirto lamp IwAustrT t2 tb4 U-S-S,R- dartvg the P&st 40 Y*&rs' j"to%jdmjim 3 se.11tIO-14 N '57- (WA lat12) 1. Vadmv Y OlGk%"I&dF'O--F-v s4L'wod- (Electric IANPO  I.Ao. Prof. 16da problem In the development and lmprmwat of light sources and their solution M the Moscow Uurp ractory. SwatotokhnibL 4 n0.3910-22 Nr 158. (NLVA 11:Z) 1, Kdabmskly elaktrolampo"y xawode (1160tria laxpel  TYAWWp G.A., prof.1 AMITAllo, A.D.; AIMFISAMMYl, LGt AIMv lefs; TOMIUVO Eg.; WITANNNo Wo lasou4mle vasum dlowlsoms opwaum ofaditlowe paromotarst ad datostowlatlein) MAktrankumm" pribory; rothimy~ pwomiatxy I WmvktwUtW. Kookva, 1960. 20 pe (lboraW likamandamakh toraftow AN 5=9 IC=.tekbn.ta%ftol it IM0.541 lal U1,41 1, MwWWalya awk UM Kadtot Ukhatobeekay tominoloCIL Wtotm tubes)  SIMMO RA.v rrafe Stat* of the Frewh lightir.C apWstus Wastryo IvetotoktzlkA 6 no.013-14 Ap 160. (KMA 13:6) 1. Moskowakty oloktrolampovyy cavod. (hawo-Slactric I*hting-Spirmat and suntlev)  2065T /61/025/-n!/t~A7, fj.-, 7 s/o4s 11YO) 8-04/B203 AUTHORSs Mender, R. A. and Troshenskiy, D, P. TITLEs Adaptation of luminophores as light soirces PERIODICALt Izvostiya Akademii nauk SSSR. Seriya fizicheakays, v. 25, no. 3t 19619 435-439 TEXT% This paper was read at the 9th Conference on Lumineseenc" (Cryntml Phosphors) in Klyev, June 20-25. 1960. The develop=ent of tub* lumino- phores was started in the Soviel Union 20 years ago. Under the direction of S. 1. Vavilov, work was carried out at the laboratories of the Mookovskly elaktrolampavyy zavod (Moscow Plant of Electric Tubes) iogethor with the lizict ski* i stitut kkademii nauk (Institute of Physics of the ,,e Academy of So noes~ and the laboratorlea of tLe VEI. Thc,, flrst lumln-.- phore for tubes was cadmiuz sillcnte activated with =amganese and cao~rpsluz tungstate. The Goeudarstvennyy optichoskiy institut (State Ortl~;al Institute) was also engaged in further investigations. Tlre Inlustrial production of a calcium halogen phosphate activated w4th anticcny and manganese was started at tho "Krannyy khimik" ("Rol Chemist") Plant. Card 1/3  2065T S/04 61/025/003/047/047 Adaptation of luminophores as ... B!04YB205 Further improvement of thin luminophore in 1955-60 is descritei, and 'Its properties are pointed out. Thus, it is stated thnt antimcny aj a sensitizer acts in the trivalent stato only. Uo lof%of halogrr. Fr,0xpL;it0 luminophorca are, in their structure, similar to %prttito ir. w~.I,-h thf. calcium is replaced by antimony or mangan"se. Boulde!;3, thp re-,AacPmqnt of fluorine In this compouni ty chlorine pr~tducea ;t 5hift cf 'k.c'. wavelengths emitted. Antimony formr li;mineacent centf_-r3 ;n tto apalit" lattice. To prevent the occurrence of hydrosilicate. it is necessary to observe certain conditions in the aratIte precipitati~)n and temperatures in thp heat tre%%1-,-in0. 7h-? op t 'A =,= zont -~n t ') f tint 1 :,-~ ny ar! at 0.7 - 0.6 Tf mangan,~se tz introd,iced and 'he ratio is changed, the srectrfil co,-_ponitAnn nf erinsin.;. 'he stability of the luminopi-ore in not affe,:tei, F,,;rt~.Pr, it wi_n found ~'.nat 4-9 metal atons should cona to 5 1-hosphorus Pt~~=,7 *M `Ltalr. brightness ana stRbilllty. On the lrioiq of lhs? 'ilnv- halogen phosphate has Leon do!Yclore 1 14 'o s if) laors light (with 40-v tib"a, thi liCht yioil is ,.P -cc WittN Aging of tiiLaa is connected ~rith tiv! de0riiction of antizony ,;onle-3, Thus, reducing compounds ca,;:~P , In thok gRs zo!d tuz, R ~P,~:,Pno r I r. I -m I ne z; - Card 2/5  2085T 5/14 r- '10 25 !nl '/'),7/' Adaptation of luminophore,; as... B104YB202 I - I c*noe of the luminophore by roluction of antimony whiczA z%n tp awoulei tr; oxidation of the reduced Thi!) Circuzalmr-ce is con:)110~re! 'r. tne production of tubes. Due to the produLti:.n process, the brightriesi ~,f the luminophore drops by 20-24 $ in the finished lube as coz.-ir-3i with 141 oaxicum brightness. Prod-Action raeti.ods have been developc-l with further treRtment by weak hydrochloric acid solution after the heat trent.ment ~tt 11000C4 (15-30 mIn). Such treatment removes zangane3q ~:xilea 'Prom tLe! surface and produces a light yield cf 95-97 ~ of the taximum pustitlo yield. By a reduction of temperature and the uae of protective layers it was possible to reduce the liberation of impuritiis introl-azed. By an improved vacuum treatment of the tubes and subsequent training of the cathodes with high-voltage discharges in Hg vapor, it was ;orsible to re- duce the drop in luminous Intensity from 20-30 % to 10-14 ~ within 1,110 hr. The 40-w tubes thus praduced had a light yie'.4 of 60-62 lummen per watt. V. Id. Skobelev, Ch. B. Lushchik, D. P. Tro--~Pklv. and T. A. K.,asrc-.a took part In the subsequent, extensive discussion tmking reference t'! papers by V. L. Levshin, B. D. Ryzhikov, ani 7. 1. Dolgnrol,)v of the VNISI. There are 6 referencess I Soviet t1oc ani 4 non-Soviet-tIcz. Card 3/3  S/048/62/026/004/013/014 B159/BI04 AUTEORs Nilender, R. A. TITLEs Work on luminescent tubcs in the Moscow Electric Lamp Factory PERIODICAbi Akadf-mi7a rauk 555H. Izventiya. Serlya fizicheakays, Y. 26, no- 4# 1962, 53)-538 TEXT: The Moskoyakiy elektrolampovyy zavod (Moscow Electric Lamp Factory) is collaborating with S. I. Vsvilov on luminescent tubes. A change was made to using calcium halo phosphate with trivalent antimony as sensitizer. The beat methods of production were tried out and Improved luminophores developed for the tubes TUC (TBS), /EC (KhBS), SC (RS) and ZC (DS) thus increising the luminous power by 15-20% and the quantum yield to 0.9. This increase is achieved by removing the harcful products of reduction and by better granulation. As the emission of calcium halo phosphate at the red end of the spectrum is Insufficient, such compounds as calcium silicate, magnesium arsenste, calcium phosphate and also Card 1/3  5104 62/026/004/013/014 Work on luminescent tubes in ... B139YB104 strontium phosphate were admixed with it view to better color transfer in the case of hot and cold white light ani daylight. The technique for producing magnesium arsenate, activated by manganese, had been worked out as early as 1955, and until now this has been the luminescent material used; but in a neutral medium It to not stable enough. The behavior of calcium halo pho5phate in mercury discharge at low pressure is now being examined. Losses of brightness in tubes filled with this phosphate are attributable to the presence of reducing media such as carbon t1noxide and hydrogen which enter into the productive process. It is aimed, by 1963, to bring the lu=inoua power of the HL-40 (B5-40) tubes up to the level reached in foreign =anufactureg. At present, these works have the following in productions a standard neries of tubes rated at 15 to 80 w; a series of small lb'-== diameter tubes at 3 to 13 w; twelve types of annular and U-shaped tubes. The series which are in preparation include one made up of continuous current tubes (whoreof two types, 10 and 15 w, are in existence). a series of quick-actine tubea, and a 125-w tube with Intensified loading per unit of length yielding 45 la v- and having an operational life of 2000 hours. Besides tubes for the four standard Card 2/3  S/040/62/026/004/013/014 Work on luminescent tubes in ... B139/B104 colors, d-lux tubes and others with a color temperature of 44000K for operating theaters are being mside. In 1962 a series of scall glow- discharee tubes givine four colors with a power consumption of about 1 W, using either direct or alternating current, han been developed. Long tubes with separate flattened sectiona for high outputs, as manu- facturad in the USA, are riot yet boint-, produced in the Uoscow factory as the necessary techrolol-y for shavinr the glasa is not yet available. There are 5 figures. The Fnglish-languago references ares V. L. TanmaVer, A. H. Hookstra, 2. G. A. Tak, Philips Rea. Repts.# 10, 11 (1955)1 M. Doherty. N. Parrison, Brit. J. Appl. Phys.,.ko Suppl. N.). 4, 511 (1955); K. H. Butler, H. H. Homer, Illum. Engng.9 No. 7, 396 (1960). ASSOOIATIONs RoakovGkty elektrolampovyy tavod (Moscow Electric Lamp Factory) Card 3/5  ILYUS11111, 'fe So;'9-';'Gjfjv, I.I. r YAANI SCV' S'r III V. F. Viktor Ilikolaev Icl, Formin, 1904- on his Wth birthdy. Svetotekhnika 10 no.1100 11 164. (HIPa, 17-12) tliQ;04;t  ,cc f4to SOURCE CODFc 0/01091661M1/005/096610967 AE6029724 AUTHOR: JLA.&I aw"W's- CLAP ORG: none TITIZI lNikolar Alvksandrovi~~ SOURM RadlatskhnUm I slektrmika, vt lif no* 5# 1966p 9"-967 TOPIC T&GSe elactrft er4tcmrine perac=o1p magnetrons klystran, carana difebanpat gas conduotion, gas 4tacharge plawn ABSTRACTt No As Sm"mew passed ow 20 Fdrw7 1069 So mw a sUdmt of this faww F. No labodews ad perfftwd mW fuWamw*od lavv~Uptl~ 1A Um 6mlopmat of - 4 ~ , o2satrwA4so So uw Uw maW ad U44W 4C the dLaLr at eleettqid" of Ykeem so Uw oft- devel"" Copt of ph"* I of Qi44trftwv--- amft Uw ba"s he UW tont of un no deftlew Um Gone" qp2dAft pbalowum pow~ go &I" ft"asw Ida" 0"Dwad Idth -ormtsom of so emwouss ad pbnmwu to a g--- - m 02~0 Upuaw owmW f4w y~ w go bmd at fAw Pplma labw*Wy ad oubw vatmt t* go Npow Morwa Ide 12M& so wo a* mum at ~~ bwbdft -. -"@a% ft~~ in van= ad JA am" wa tnwiai~d- saw f4mQp Im"puems be Alm al" ad electranide Go= SUB COMs 050 09 3UM DAM now  _,"6 I;NA(d)/T-2 I Jc AT AU HP, AP3(025605 1ouRcF. cODE., llo/'0095/65iyOl3/"005/t)277/0283 ATFHOR: Nilewakli J.; Szei4q1ski,_ R._ 0 P, .0 !no of Fluid F.Low Maq_tvttj!Zs demy or scieqcea., ___~,Itute 'Jolish Aca Gdansk (Inatytut manzyn przeply-wowych, PAiii-, TITLE: Modulated conductivity Induction SOURCE.- Polska akademia nauk. Bulletin, V. 13, no. 5, 1965, 277-28.3 cynchronous magnetoBasdZpamic Serie des sciences technlqueo~ TOPIC TAGS: 14HD generator, synchronous generator, asynchronous gencra-i tor, magnetic induction, traveling wave, magnetic field, conductivity CISTRACIT: The author disc-,issea the results of an earlier study (Fp.-odulated conductivity inluction of synehro, ous magnetogasdynamic Le.nerator, IFFM Int. Report 110. 318, (19611) No be published In Tran3. 1FF14A concerning tne operation of n synchronous generator fed with a jet of a working meJlxun with different conductivity, The layout and working characteristics of at) asynchronousi, ~-,enerator with a traveling-wave magnetic field are, to a certain ex- 'Cent, similar to those of the synchronous greneratop under consider- ation. There aro two essential points of differtnee: a) in a Card  ACC NPt AP5025665 ,.ynchronous generator, the nodulated-conductivity working-medium flow indlopensable, whereas with an aaynchronous generator, conotant conductivity may be used, and b) an asynchronous generator needs a muchl I higher value of the working medium conductivity than the synchronous generator. The main difference between the asynchronous and the synchronous generator is tnat the asynchronous generator meeto and the synchronous generator does not meet the applicability requirement of magnetIoReynolds numbers for the medium flow in the generator du t. Orig. art, has' 3 figures and 12 formulas. SUB CODE: 13/ SUBM DAM --may65/ OTH REFj,. 004/  Ki Li M, P. 30356 Dyevushki Is lcupevvy. (Zootbay ye tkaehlkhl M. Roshnyewyo I L, konorqonka. octlork)o Save shymnshine, 1949, go. 5, S. 29-30. SOs latoplal No. 34  IWA-57A/Cultivated Plants. Potatoes. VageteLbles. Melons M-5 Abs Jour Hof Zhur - Biol.,, No ll 19,58, mo 1584 Author V. Hilka I- Inst Not Given Title Ze Problem of Stydying Cauliflower Seed Phising Orig Pub Bul. atitnt. Acad. RPR. See. biol. si stlinte agric., 1956, 80 No 2, 4o7-417 Abstract Thin stu4y attempted to establish the most favorable periods for sowing caullflower seeds In T=szylvwda (R=wzla) In order to obtain see(IlIngs for the purpose of seed growing. The sowing took place at various periods from September to February. The best reaults were shown by seedlings sova during the period from January 15th to February 15th. By sovIng in September, the florescent formation phase was accelerated. Card 1/1  Acc=om Na: AiU42" partial phwe diagram was coastructed or the Kg0j-&Pj syatc= (see fig. 2 of the enclaoure)a A metactable region waa found in a a atc= betweca K20 - 21~203 wA Y'.0-hBP3' or'g' art' han. 4 tablea PAd 5 figurea, ASSOCTATION: lastitut Irbimli cilikat-ov izo I, V, Grabonalt0dkoya A44caii nauk SSSR (Inotitute of Silicate Chemistry# Acadazy of ScLeaces VMS) SuBlaTMi O-Voc62 121CL: 02 MM CM.- Ic NO M7 MY: 002 Ordw: 010 Cwd 2/4  'Z?4- MF~ AWSSSICK c POLOSURZ ol $TIC# 'Itth 9 IUWAad 1 16 41W - A% nge Is PW* CqUULbrla La the yttrim QXW49-eluaLMM oxide syst4fte  KLOGOT, 9.4. (Immincrad, 46o ul. Pvtrar6ayL 31, kr.7),; KILMIN, A.&. (ZoalqwMlp 1*6# wl. fttravsk"ar lAw kr.7) Affemt lotavatim of the guWlla of the vegetative narrous ap*wu hfts~tsigUUi wbro " aoel&3-23 Ja 163. WRA 1685) le Ubmtery of Nbrpholosyp r.P* kvlov rhatitute of Pbysiologyp Academy of ffelanceal, Uo$,,S.Re (gums sraTm. AuTswc)  AV!7tlT,v, TU.i,.) J.)ltur.'VA, A.,.* -~m UvIrIg (:tjntrr), of =plex dervolojrw- operfttlf oystem). methad (int'rodun'tion to the "j,&rt--TImOq noolltZ,--54 1(4 c.r' '.1 --1'. PG4-n II. a , 5 f 0 vy- 1 fvm~ 1841)  -7~ 11Rt ATI,4M50 SOVRCZ GOMs VR/OOW/65/OW/CW/OlA1/Ol55 AUTHCFL% Vilolayvft, L. Y.1 1. (Doctor of toebrAcal. ocionaev) CRGs no4,.* TITLYe nimble &Use snamal watinp for chromel =,J &1=01 vireo, . 4. ' SOURM Seminar Vo %hvoeUrk1.x.Vokr7t1ya%. Lenlngrsj,,.~96 21arostolklyre pok-rytiy,4 [Dest-rosiptant cloatinp);trudy aa=1n&ra. Leningrad, Iad-vo Nauka, 1965 TOPIC TAGA% f'coatingg glass productp tbermocouple, ABSIRAM Chrovwl-alumel th-)rvocouplos 0.5-0.1 mm In diameter are often not Into m9tallic blocks heated to 703-80%. Attompta to InnulAte thm by gl&ns enwnl elDn'tings applIed frm aqueoug suspension falled bocau-to of the brittleness of the thick Wer obUdnea. A met:aod vnB propoiM for tbeiyplioation of a 2-3,4 pliattle layer rrova a seciool.Loiaal oolution, while retaining the electrical- qx-Uov at td&t temporatur*p* Tie M02 b.Tdrolyeate W the blibly d persod rol. y solixtAonm vers pr*W*d by Vie jolution cerazio method (S. W,. Brodstrest: solution  L 15747-66 AGO JMs 4T5027950 ceratide for enaxelingl Ceraido Ap 66p 6# 1955# 24). The atlcul&Uon of the re- quirtnd concentrations of ealtv In solutIone vafi made according to the forwilas on hydrolynisp (4urlng coating) IX selected compounds p e.g. p (C2H 0) Sl-* H SJ 0 SiC~s or 2CrQlo3)3' 9H20 -WQr20~ + 02.04 + 1-502 + 18H 0. rho4qUallf; 01 the solution Inixturep and hence 'Ute quiLUty of tho coatinp, ispandod on the sequence of rixing., 7be solutions of various salts should be alzod, by &4ding them into the Si b dralpate In the fonooln a uences (1) H3B(~,. JANC~, NaNC~j, Ga~N(~)2# Za 1 (21 Sr ~31 Zr(b((~ ; (3) FbU,(~)2; and 4) Co 2 :U N% 9 Surface of the wrre should b~) oloansed of oil and gr4likSe. An Immersion 0 wire for 5-6 minutes intoo a baoted (70-90G) mixturm of NaC(~ 25-30 &4 aneT reagent OP-10 3-6 g/1 with subsequent washing In hot vateT and acetoons was mufficl4tti. The coating could be made eltbar by immersion into a solution or by-drawing through a plastio sponge wetted by the solution. After cca,UL~g wires!"wers dried for several minutes at 60-7W and rapidly baked In nn.81;-aa~c, rumace at the malting temperature of the coating (8~0-9500)9 The coatinp obtained souatimes had small defects easily removable by repeated coating, The three ooatiop ontaining (1) 25.0% SIC~p 13.0% CaO, 12.0% B2(~v 5.0% ZA 3-0% )(90, 4.0% MbC~v 2-0% 1110; (2) 33,0% WO,, 0.45% LOP 0-3% U up 5-8% CGO# 6.5% BaO3j 43.0% PbUt 20.0% BsOv 1.0% CoO; and (3) /,2-.0 MC~# X0% 1;200 5.0%B20)0 213  ? 15'74--66 A~ I - I ACC Nas AT504W 43.Cj PbO, 2.0% CoO has uniform oontinuous layers, 3-5A thicki ani sallafaotorily plinbillty and electr1o insulating Ixoportieep Orig, art. bass 3 figures 2 cl~')Tzl ll/ SUDIA DA79i ~oju165/ MIG Wt 0031 OTh Ws 003  KVAIAMI, K.G.1 TUDINg Y.G. Vathode for acceleratod presowtug troatment of wooo plant setdoe rruo Boteinste Sor.4 noe1795-2) t4o (KM Iasi)  NIELLC,io S. Kh. NILOW~,, S. Kh.s "Problens of labor hygienenin processini, ptrolvm cot.tainInF. srual quantlites of milfl-lrv in Uie pl-,nts oi Krasn:)dar Eray." Published by "-L#ov. Kuban'.* --yatan' -Aate Hedical Inst imni Academician 1. P. Pavlov. Kuban' State Redical inst ineni, tied "rv. Krtumadar,, 1956. ('Issertion O'or the De(;ree of Canii&te in Hedical Sciences.) Knlz~naya letopis', ho. 39, 1956. Moscow.  T -t F V kt. H LLOLI BE IY, V.A. ,professor Clinical and dtagaostic aspects of tumors of the frontal lobes, Vap.astrokhtr. 21 no.5:30-18 S-0 157. (MIRA 10ill) 1. glialke norvnykh bolesnoy t neyrokhtrargit lost ovskop-na-Donu neditainskogo institute. (IrIONAL LOBS. neoplasms, clinical & dtag. aspects (Ras))  oily, I- wr 1011. K.K. (Koekva). U~vs problon for a parallelapipod In tho Comeral a"* of gmrfaco IWAS. Mkl. =at. I mkb. 21 RG.4:550-559 n-Ac 157. (Kru 10C12) Wastia plAtes and sholls) (Cs?culus of tensors)  Imn NOGA16 Prof* NMkr. (Irattsl&va. hasevu 8) Iftastlas In ia&wtrial vs4laiss. frw*vnl lek, 9 noo6s477-470 Bee 57. (INWSTRUL minizu in Czech. (CO)  TON 0i AT5006391 ---Q-A.. GvOin, G. Nt I-CIV, -A, A. Tho 41steratnation of con; ri.4,1 z nmif or rh-irst or t st ir a rm tKEP *I actron- I bittmeb of the laNl7G a lti"Ilvw, Tneat:: a I ' 11Y)r my Lichni, - " 0 1 C d-OVII t IM Ik> I 41JA t T' Ut RIPCid'02 L i, ~~el Oll luirtlogrsifli. Trudy. no. 149, 9 S4 po aor,,ifotoRraftl (Re- in neoophotnraphy). 17-V r ijo a , ft p mn A fe t, ch,i?,rtorfr'fr, ri opt I C s j,G Alartal photn raph~. rh , ri: cis aptivAl ria,inh graph obl 1 Niltur a brtel thnoror i tal t,-1,wr in~i, 0,o a~o ~ii-7rii i ~ prol;iow A do - of the sl,,cLrc;) opi ( 41 ',~g~nch ~iz tho TFIKI"'GAI.F In iIIP d0t',I)t_MtMtl0n Of ~hfl L~2'1(r i3r, (if al~rtitl _.i4rlpl. "bJectiv4p having fcwml djv~ tt-v,~c- wi.'hiri th~ o I '- 0 ffr, r Anti 0 , 2 1 ~ ~ '. 1 11-2 tflaVirl Of Q11 th4~ r.A t-par',J~, ii -~f , 4n,d 3) prea'e- r. oll'41LII Ot tile deterimination ~)V rl'i~ ftqi';q(tE chara4~f-rlnf ttl~ of a ~ii_,.mbsqr euf 4toi4t4 pboLtograph ibje-Ct!vi'fl. T+vtte 044-tviH t~:;* thgt -xiirtnx flemb can  !'-!,qTOII NRf AT500091 rimIrsat transfer charactez Ist tcii only for axial ray-q. C4-npm!qu*ntIV. the ~r ottep in the continuing r2pesirch at the Inal, ItLce is to devp ~op uwto"m fcr.- to& Me crntrant transf-tr chartictortat Up. mreT the a-mtirp fiel view; tif-ru"intF. fo-r tho sW-4*u-nm*ftt of ph"6 trarisfer char ltA tima Un Act-811 ttles Itt tQrioIntng the transfer Funct imis )f Orig. art. hao: Tsentral'nyy gttodexii, aerom"yes- ~artasrofll, Moscow (Central Soodeiics, aoroohctogr3phy srt4 cart OFIraphy rmaejccb institute) 1)0 9 WA, F"R DOM! FS Or F7 SPY1 00) OTHY. R V-t j  ACCESSION MR: AT4094401 VIUS/61/000/064/0111/0116 AUTHOR: Zhukow. V. V..- Nflow, A. A. TITLE: The surface layer radlograpihic Investfgation og some beat-realstant alloys after heat treatment to differstit gaseous wAdia SOURCE: Kazan. Avf&ts(owW4y (natitiAt. Tmdy*,, no. $60 1961. AvIsestonAny0ye dylgatou I Wr~raft engines), 111-116 TOPIC TAGS: heat treatment, heat resistant alloy, nickel alloy, furnace, forging, drop forging. pitting, scale formation, metal lose, forging dieg die, steel toolt maCkLA(Ugg bAr- bine blade, protective mediusn, argov, ammonia, n1monto alloy,, roentganographyg mums furnaco, m1crehardwes, annealing ABSTRACT: For t1w heating preparation of a heat-reatstant nickel-blile alloy, furnace equipment with overhead air is used In production before drop forging and during beat treat- ment. As a resulti during attended heating ot the pieces at sufficiently high 4"upersturev a i scale forms, and a pitting of the alloying atements takes place at dwir outter gurfam. Scale formation causes Irreversible losses to the used scaroe metals, reduces the life of Me forging dies &vA hfok-~sedt steel toots,, ad increases " volume of We required, -sebinfor %glad For example,, the alumm" for flual maefiblLog of a goo taftne Us&,, ~bWA CWd  ACCESSION MR: AT402"01 2-3 mm, is determined mainly by the depth of the defective layer arising as a result of the application of heat trealtneaL Tim volume of the blade machining necessary, because of such allowances, may constitute ZO-30% of We total machining volume required by a gas turbine. Application of a protective gaseous media during heat treatment was suggested as a solution Ito the problem. However, there to lack of sufficient Information on the protective properties of different gases. Fre data presented In earlier publications, it was found that besides argon, obtainable In limited quantities only, dIssoctated ammonia also exhibits satisfactory protecUve properties. No data were available from the literature on the depth of defective, surface-layer build-up when Nimonic-type alloys are heat treated In different gaseous atmod- pheres. Consequently, tests were performed by Yu. M. lApilov (assistant) and several students of the KazbdsMy aviatsionny0y institut (Aviation Institute of Kazan), the results of which am reported by the authors. The tests consisted of roentgenographic Investigation of Itwo heat-restatant, nickel-base mlloy samples: El 437 8 and El 617 (see Table I of the Enclosure) after heat treatment in air, nitrogeNaltrogen + 20% hydrogeN and argon atmog- pheres. Ttie oamp&o blanks were cut from commercial bars and ground to size (40 x 13 x I mm). The beat ftnestaneft was performed In a muffle furnam (mm Table 2 of the Enclosuro). The nftrogw4 aqM ad n1hvWrn-bydroC= mfxWe wers parifiod from oxyges wid dried I with silica geL After bsWk*staass4 the spealmew were Mg I"* W9 parts; gge part Qj  ACCESSION MR: AT4024401 each sample was investigated roentgenographically, vW the other was tested for microhard- nese an the PUT-3 device at a load of 200 & RAdlograpby was performed on the URS TO device, whereby a vacuum-annealed, copper foil 0. 06 mm thick was glued to the test sample with cellulose, nitrate-base lacquer and used se a reference sample. The Wet sample was rotated In the device during roentgenography. Mod on the radlograpbs were (024) Russ of fthe reference foil and of dw test specimen. 1U roentgenograms were evaluated on a recording, microphotometer (modified MF-2). From the obWned photometrio curvest the distance be- tween the o: I - components of Ow (024) - line doublet of the sample and the reference samplo. From this distance the value of the lattloe parameter was determined. 17he error in deter- mining the parameter did not exceed* 0.0006 kX (X - X-unit). Before each succeeding ;roentgenographic messurement, a thin surface layer was removed from the test smaple. The consecutive removal& of the surface layers were performed by 5 HN - 60 HC1 03 - 45 HZO etches, ad the error of thickness m6asurements by the micrometer did not exceed 0. 006 mm. Curves wereplotted showing the results of the roentgenographlo measurements (lattice parameter versus layer depth) and of microbardness versus layer depth. Both t3"s of curves showed satisfactory consistency. It woo found that In the surface layer of the sampt" Ahe lattice parameter of the solid solution increased with the depth, indicating a pitting of the allaying eleamto (Aft T1. Cr) In the outer portion of the surfam layer. The depth of the defecUvo layer was assumed to extend to the point frow which a noticeable decrease of the lattice parammeter and of the Edo No could be obosived an the "rimental caves. CW4 3/7  :ACCESSION NR: AT4024401 I 'The results representing the depth of the defective layer determined in the deztrtbed way are :shown inTablo3of tbeEnclasure. Theso resulto (to not differ substantially for both inves- Ugated materials. It must be noted that only the effect of heat treatment was investigated by the tests, while to conditions of priDductton the heat treatment Is preceded by a Rumber of heatings appUed between the press operstlons. Therefore, In pr&cUcal cases, the depth of the defectuous layer can be expected to attain a 40-60% higher value. On the basis of tho performed lavestigation, the use of a nitrogen atmosphere with 8-10% hydrogen addition was; recommended an an Inexpensive and sufficiently available protecUve medlum at heat treU- meat of Mmoalo-",, heat-realstant allaye. Orfg. at. ham: 3 Oguw and 3 tables. ASSOCIATION: Aviataloaqy0y lwtltd,, Kizan (AviaUou Institute) suBmErM : IQK#01 DATE ACQ: MpM EXCL: 03 1SU13COIDEs MM# PR NO REF OM 006 OTHERs M  ACCESSION K& AT402"01 ENCLOSURE: Oi Type Of Chemical composition In per cent auoy C 1 51 1 No Cr I N1 Fo I Cu Tj Al v KO w a EX 437D .05 0.39 0.26 20.30 base 4:3 0. 1 1p E 2.69 0.93 El 617 .07 0.43 0.36 16. 16 b"o 1 4 O 0.08 1.84 1.89 0.24 3.64 ,6.39 ~0.0061 Table 1. The chouLWd oangwaltion of Noted alloys did- Card 6/1  IM AT40"t C&A 6/1 Type of So&kWg ad ung Aging auOy Er 4312 goo 0, 6 bra; cooled wtth the wAM* by 700 CO If bra; shfolding ps - cooled fa air .800 0, 4 hra; 1190 CO Z hra; cooled with Goo CO 16 hts; 91411 an mum* cooled in air 10" CO 4 lkrs,#, cooled wf9k dw muffle T" A., Kest tmtmsd, of tat speowma ZNCtA)BUIAX: Ot  2i43%7 0/137/6 WOM100-t/0541069 A0061A 10 1 AUMMg Ullov, A. S. I Recovery of themo, sof Induced In copper doforited at varlwus rates PMODICALs ftferatlyW shurnal. Hstallurtlya&n0j, 1961, 29. abstract 3 ZhI84 (*V*h, gap. Ch*lyab. gas. ped. in-t , V.S# no.1o, 1958, 41-53) TEMs The author studied the stability of the energy values stared In Cu at various rates of deformation by torsion. The evaluation of the cond1t1on of the defomed.notal was md* with the aid of Inathome of themo-eaf recovery,, obtained aI-Ur annealing of the deforsood specimens at different tesperaturos (160 - 300 0 . One branah of the "clumn was defamed. The length of the seatim defamd was 15 on. Ths, speolviens were twisted by 85 revolutions. Th* dofamadan rate wratmUd to 8,000, 4M, 24 &M 3.1 revolutlono per hour. It was established that the initial theme oaf ftiduaed Increased with a htgkwr defornation rate raising frm 0.0458 at 3.1 rph to 0.0548 /Av/degroe at 8,000 rph.- Th* depwidance between Inittall theme esf, 9, and deformation rate 4r Is expressed by famula E a It, + kin V. Amealing asuies the rodi4tribution of residual theme out values. After a given amealSog tbo residual therno oxf Is the lower the higher Card 1/2  21637 8jlRj61/WO/00-VO5A/069 Recovery of thermo, oaf IMucod In copper AOWA1Ol the deformation rate. At & given deformation rat* the tooperature (T...) of amoolIng, "suMqj owdaus rocavoty of thermo oaf, d 'rope with oxt4ndod time of annealing. At a constant annealing time Tmax Is the higher the lower the deforma- tIon rate. A formula to given for the correlation between inItial-rates of thormo oaf suppression, determined by the graphical x4thod from Isotherms of thermo oaf .ecovery, and the absolute annealing temperature at a given deformation rate: d1C/dT - A sxp (-U/IM) where U Is the effective actIvatIon energy of therwo emf &;eaov*ry. ;t to asrAnd that the *ffect of the rate on the recovery of therso eaf Is *xplaln*d by ahw4en In the conditions of formIng distortions resultiM In the induction of thermo oaf. During the deformation process energy Is absorbed and the specimens are strengthened. On the other hand the normal structure of the crystal lattice Is recovered as a result of relaxation. Due to a reduction of the deformation time, the probability of annihilation of more stable distortions In diminished. Therefore the energy absorbed Increases. There art 8 references. Yu. L. (Abstractor's note: Complete translation.] CaM 2/2  IXN~IWV, A. &S. Cand Pbys-Math Sci - (disa) "Recovery of thermal fcrces of cepper induced in plastic torsion at different rates.' Sverdlovsk, IG61. 13 pp; (Ministry of Higher and Secondary S~ecialielt MucAtIor, RSFSR, Ural State Univ imeni A. V.. Gor'kiy ; 170 copien; price not given; (KL, 10-61 sup, 205)  KUNIV# N.F.1 NlWit A.S. Recovery of induced thermal forces In copper deformed at various sp*Ws. Fix. met. I matallavod. 12 no.6t921-923 D 161. (KERA 16til) 1. Chelyabinakly poUtekhnicheskiy Institut.  MILCVO F., podpolkwnik mglmmring suppwt Ap 961. of the Att"k. Vasm.west. 40 tto.4t)6-41 (Pmu 1417) (Witary ongiraoring)  4 Oals A A a v & 0 0 0 s, 0 v 0 'A 0 K 1 k 41 0. a a '0 fro .. 0--v, ltz- , . q 1 lr M414 1 t V . 9-01"PF 1 144 V& #Opp x _ ~ 1 11cl row 00 to vwd. Pw wat to VA. of ON pqwm k 4L VQ6wlflr, 60A Ia M64t w ed~ golt 2% 1110. TO I(jkw wt, ~ & 114.4d 6% 91 Wk . & of. of 2-W Ito i * () x - v ".V(- s the st go, tot me, 004 to mi. Od 40W Kl & Alow 9 hr. Omr e=m IKI% ra Mro" bmck~ WOOL xaj"~ me ON* ad. d *AV# M KIO* wk. lm OqWW. NO all : -was too jf~ is.iI T I ai 4 'W-V w a 4 4L if in rT 31 4  CATW"Y I plant phystoLogy. ~ospjratlqn and MetAbolism. ABS. JWR, I RMSUa. S, W. 5,1959g ft, IL996't A U TWI, A 5.1 M12ov,_G."ZA - - _ ; T. & "rden Nikitok 9o 4zatc F 'MA Rffe~~t of .'ierceptoptiov not-r-tA,~tofsthy,',.-thlophospbLa.0) on A4cotb;.n,i-.idPr0, ActAvity. MUG, MS. t Byul. na4tchn.inform., Goo.Mikitsk. botart. sai, i I L957, No- 5-6, 75-78 AHSMACT t The spraying oC worcoptophas insecticide ou applog atprtzot, poach, plum, sweet and sour i cherry, perst"on and box loavas in cancontra- tioas of 001 and 0.3Y4 (In A preparation) or Ice addition to cruxhod tiost"o In ft buffer salu_' tinn produced a strong (in proportion to the c*ncontratlon) reduction of amcorbinarydase ncttvtty, Anatins ever 60 days (d*tervvined by the omouat of ascorbic maid tutuKidired by twos howogonatso)s The ascorbic ftold content was 0 ED  NILOV, G. I. Cand Biol Sci - (diss) "Biochemical changes in the tissues of plants under the influence of new phospho-organic insecticides. Moscow, 1961. 19 pp; (Moscow Order of Lenin Agricultural Acad- emy imeni K. A. Timiryazev); 200 copies; price not given; (KL, 6-61 sup, 208)  KILay, G.M. ~ - sxpwmiaa of a couttawas runction into a renemilsed pover g4ries u4b.cap,drab.pd, last. no.e:25-27 155. (KWA 1013) tyunctietts) (Series)  KILOW, G.M. Proof of a basic thears is hidwr alVbre by *can@ of a Osuchr formula. Vch.sapeZabepedelftst. Uo.8:28 0550 (MMA 10:3) (runctione of complex variables)  %'F'/'044/60/000/010/001/02 t C111/C533 AUTHORs n*1 TtTLX# On the bounds of a zero of the polynoalsl 1-2t+t PIRIONCALs Referativayy thurnal, Matemattka, no. 10, 11960, 20, abstract 11285- (Uoh.zsp.Kabardino-Balkarok.un-ta, 1957, VYP429 209-210) J01* TZXTs Improved bounds for the positive zero x di!ferent from i of the polynomial f(t)-1-2t+tn*1 are given. It Is proved that I I # 774- f' tile ayatem, in particular the objective 14 , - did reduce the contrast of tile of tile toat picture in the plano of the photocathode. Several ty,-),,!o of alectron-optical convortarD were atcasured. It was found that tlie centrast transfer Card 2/4  R418olvInG power crieCficinnt or the convertarri did not dopond olt the contrast of. ~he tn~ut picture. The contra.,A of tiia imana on the acreen or tho I r_(;.n-.ror"tar -wen almost indopenderit of the illumination of the photo- c.~4 t'i od o; reduction of the illuritinntion by thrs~o times resulted irl nn increase in the coatra5t by only 101,';. lit tho case of visual oil.-iaerVation or photographic recordin,; of the inng,3 of tho con- vortov, the rosolution. limit for contrast of, the tent picture .15 _ofi'trdno4--vhcn the imAg6-contrast w-Ar-raduc d magnitudo of the lit-At contraat wau proportional to the relative VLuctoatioa of the, light f,.'Lur. produced by the screen of 'L;ie con- v or t a r. There &re 3 figurov. A~'IaCCXATION: Closudarstyonnyy opticboDkiy institut . (State Optical Institute) SUBIKITTW. March 6, 1962 3/4  ,Zo;gol.v:l.n,G powee .... s/12o/63/ooo/ooi/026/072 mc)2/r,381-) ---F, 4/4