SCIENTIFIC ABSTRACT NIKOLAYEV, I.N. - NIKOLAYEV, L.A.

jigg 1~.N. lbree ea"s of cbjrieuotbell~ of tho stwm. tan.sed.shur. 40 se.418446 J146 99. (KIIA 1312) 1. to gt%ekslWtcbe~kqp otdolealya (savedvrwbebiy - A.Do Daftws) Wheb*ssrskWa radam tgUvvmb - I.S. flimlayev). (UTMWS--CANCIR)  UUMAUT I.N. (Stantaiya GatC-hir-, Cktyabrvakay da-mil); LIUDWiLly V.*fu.; 9 0 (SUatelya GatcMm, Cktwbr Iskoy domgt) WNW ~ It trsO -~W aLlpm" ammU~ Ow intarlsed? NO I pstJdws. 5 wo.7s23 A 061. (XLHA ljtlO) Is S~UWI modMI'sibe CaUblookey dbtmtall Gktyatrldkoy dw"l Ow K~Dlqw)- OkAboaft vqulp~% ad surplles)  0/d 0 AUTHORS: Kikoin, I. K., Nikolayev, I. ff. 26722 3/056J61/041/005/037/038 B10913102 TITLB: The pbotomagnotic effect in a p-a junction PBRIODICAL: Zhurnal sksportmentallnoy I toorttlaheekol figlki, v. 41, no. 501), 1961, 1692-1694 TEXT: Studies of the photomagnstic effect in semiconductor@ suggested a photomagu*tIo effect In the blocking layer between semiconductor and metal contact when the contacts are Illuminated. In order to elucidate this, the following experiment has been made: A piece of a-type germanium (10 by 4 by 4 mm) had a diffusional p-n junction(dus to diffusion of indium) an the one front fee* (4 by 4), and an ohmic contact (tin) on the other. The photomagnotic o.n.f. see measured botaten these contact@ while the sample was Illuminated and exposed to a magnetic field. This *.m.f. consists of the voltage along the homogeneous part of the sample and of the potential difference at the p-n juncti4n. Those too portions can be distinguished because the voltage along the homogeneous part depends on the area of the illuminat*4 surface, which, e.g., may nor* or lose be Card 1/3  11 Lj~,17, ft M 4 3/191/61/000/ W110041007 1 15 Ig tj 6 o2 2. 0 ci B11O/B218 Aola AUTHORSt Popov, I yov, 6mirnov, R. N.v Kondr v V. A. TITLEs Production of heat-resistant polymers by pyrolysis. Foaz cokes PERIODICALs Plasticheskiye massy, no. 9, 1961, 26-28 TEM The authors produced heat-resistant foamed materials by coking various gas-filled plastics. Initial foamod-matorial specimens were placed in a special mixture, [Abstracter's notes not indontified] and uniformly heated to a temperature exceeding that of their pyrolysis; then they were again uniformly cooled to room temperature. The material did not come in contact with air, and the volatile products were removed. The authors found that the original configuration of the initial specimen say be preserved with uniform reduction of all dimensions in an oriented position with respect to the thermal field. The relations between chemical structure, behavior in pyrolysing ind properties of foam cokes were determined. Foamed materials of linear thermoplastic (polystyrene, polyvinyl chloride) and linear, weakly thermosetting polymers (polyurethan*, epoxy r*sins) were Card 1/5  16"4 S/1?1/(1/G30/G0'I4/004/007 Production of heat-resistant ... BIIOIB218 latter (particularly C-containing fillers, such as gra-hite, carbon black, coke) change the yield in volatile pyrolysis products ~onsi4erably. They improve the stability of geometric dimensions, mechanical strength, and electrodynamic parameters of foam cokes but reduce their compressive strength at high temperatures.) Finely diaperse Al powder added in supposed to react with radicals f.)rmqd In tqrolyDis. Al, Al 0 11 SIO do not affect the yield in volatile products, tut c~,juce the compriab IV e airength at high tempera- tures. Carbon-containing fillers increase the yield in foam c,)kes, qnd reduce the heat r*sistance to deformation. Metal salts of orthosilicic acid (ZrSiO 4# C95io4) incre-,se the strength at high te=peratures. FK-20 foam cokes with and without fillers preserve, during pyrolysis, their original structure. Microphotographic studies have shown that the characteristic features of the foam structure ouch an distribution of unit cells, presence or absence of cavities and cracks, etc., remaln practicall unchanged in pyrolysis. The authors suggest the use of foam cokes no light, highly heat-resistant, hef,t-insulating materials chemically resistant and heat-resistant sorbentn, electrical engineering materials and catalyst supporters, There are 5 fipures, 4 tables, and 8 reforence3i 7 Soviet and I non-Soviet. Cprd 3/5  26994 S/191/(1/000/J09/COA/'G07 Production of heat-resistant ... BIIO/B2,fJ Table 4. Physicomechanical properties of FK-20 foamed rlaz~ticn contRininp different fillers, before and afte coking. Lefenit (1) filler, (2) filler amount, ~, (3) volume weight, e/cmS, (4) specimen weight. gt (5) loss in weight, (6) yield in foam coke, % by weight. (7) specimen dimensionj after cokingr, mm, (8) compressive at-ength limit after 1 hr heating to ;1009C. kg/cm2t (9) before coking, (10) after coking, (11) without filler, (12) without filler, (15) Al powder, (14) industrial Al,o 3' (15) A1120 3' SiO29 (16) chemically pure S102 (no.171), (1'1) ZrSIO, mineral, (16) ditto, (19) Casio4 minersl, (20) industrial graphite. (21) acetylene black, (22) carbon black no. 157, (2,11) coke of foamed plastic FK-20.  GRBMGO &.U; NumumI, I.N. a ew - bompous strost an a ps jumUm. ftid. M ~ U7 0%5620W-2060 9 #62. (KFM 2682) I* Mmkontly miversit*t in. ILL I ~I ftsfto-UMmlWmMy ImUtut In. A.?. bM M MML ftoftt&Vl~ abododkm I.E. nkel"s. (Imtompotle off"t) (awnum t~lstsm)  RKOIAMO I.M. PhotomWetic effects In gerownium In high mVwtlc fields. Zhur. okap, I tooro fix. 45 no.5sl67&1680 X 16). (KIRA 1711)  IN go low "aftlimmimt % 6 0. 0 ON v ma r. 4b . A! 441101011)a Coole and chm. rr. NL 'I W , gI,,g, sow 44u- 4 vs".~ roe low WAS Om ON dome"- IteAmolve o r go 44 ON %W&m 0~1 . Is ORA. 4WHO 6041 40a 444"m a da*L 6, 41 W two no low O d @ o w doe OM lIgId 46ameamw do Obw am$ Ike 4rv.e A o o 4m t l vlak% dt4s. Ito Iramwelcm Imied awk t A Joe q so o Ir a" wMaIrli to 'A414my 4 I W, do 16*0 too ~0,111 Nvfttogwn 1.11940061100 tt"$"Olwa -s ~411 goo a -,S- T i-9 i �r. 6 0 t 4 al 0 a a i a q 00000 0 0*1000-0090 000 4 0 0 **:ogle* M oi  0 W- 'North Caucasian Coal arA the Production of Coket fna Ito' T. it. Ifikolaer, 6 pp *Ikzvodka Node No 3 tzp&rlmnt-9 vere conduct94 on coals of the Bol-ehe- Lembin, Tolato-Dugar, ani rruw&rlr bods to detaz in* their pr~Tartles. "Ale of the Toloto-BAgar be4 appeam& to be the- boot. f cr produc ing c eke . Coal how th,99o beds must be ccmderzed for use in a-fur-  CA" p4NW"N 40 mob so now. 1. 406mv. lpVto Olin" IW rAlrvmwlwspp-rm I , , r.".6 I ~ . - 4- A q 51, of CTW bwb TWO& WANOW. ondo" ban -- POW* of ISO cmw Immma am ewdftmw %W 66. on" am hy #46M wd4bdnmw mob is aw 1-" in tow r44 ~ Of 6M*p brs, tow 40sky d rwk so "Grow "awn p6wp *eprwwa4 bw a comon %pow pappawKslive 40 Ift ON po =4060m, -4 thr man of ~46R to at 40 ml W, moqq hT iqs ftmbdow I* S. Um"M = em bw n". do go. of fm~ a- ~ ---- I loom ~l !. fli; low. -an b-" of -66. flow beime I%w o4%" Moo. -be W4 a MAW. "MV, b*- It"al of ~iwlw am do lima "mo. wwwwal Im I%r owmation Go a am D%mk pkmw faw "04 "*r few in bm" Wed In 6~. ho. ~C--Mll" Inst. Combustlble F~Wls, Aced. Scl/ usm f,  r E 'r f r F r _ww 14"A. *4 a a"). two iaw-vw- .T~rr~x.. to". rd6. Ms" ~ i- - -aimed by me. Go ovabeam" i mopmimo am a Own. 6PMO 6 6=P Of 001110 im mwmfdmg W" IOM A 9 1 .0.6. AN) obwe & - (9 + HMvWv + MMv and 0 a im, (T + ONOWST Par a fear ed quan, pkm ouladows I be. 0 Is 00 meam 40 oft plow" Mae v is Iler V84 a# Ibw ft" own f710 A OW 0 ~ be wll~ #I" co" "tow a"**, Tlopopwiliftfoo f~wk6m" to VIN"Or _96i7hporth ad AV 60" Iw__ -i"," aimma. - fts Gove, W f p 0. 6 IbmwIwM d"0, wwom onalwoub in a quo to law 40 map "noted Amoso 0o lopervie onemob spd*w of *a 446F Ato *a wom b do Ammo- amr- so fowwqoqw. a" Quilr6w amwerv. I#w "Mob od 40 febr, w4eirb on" he ewkd boom 6" a ftf f6ems" in arl"a sonip 4 1 Rmoiro Vol 36, 1949  M&I Tdlb ft** Me 3 sowlb" moth" luck mosaw provid" ror softuffs #AdW4rW PFOCOW = Ubwstwl SO*"- MAbd Oftis- as= wame sepwity at Os" disletly w Imutr dr oft *"do& r"m 61"m coat I.e. 0 IW qmufAr of fftl NOMMS dt OdUft pmm. WM PMIbLUUU go rod"Ift thmml cool"" 4c rwome a" ~ Mill fri  '7 7.: 1~7 Zir  New teebmiqu4s for cleaning parabolic bunkers v grew. 3 20.5132 It 159. WU 1218) ftawary maktanik %vo-(~rjshwws" obootttellmoy fabrM. (coal stereo)  BWW, L.re.. Laiscumed); L&MU. T.E.; NIMILLIXT. L.K. Prospects for Ow atilimation of'k-mlmk ftels coals for the preparation of welallurgical fuel. TrWW IN 10:66-73 1". OUM 12:12) Mmiwk N"Ivp--Cwd) te4m)  K"URIAM. V.&. (n"kwa), KUSUMA, m-1- (K"kva)o ZINGIAUT, I.N. (Moskva). SUFANaUMM, A-A- (Moskva) Imestioting the therad 40960mottlem of coals &@A their Ist 0 I�Ve M SOM *Me t4kbe Blake Ilet. I jimple WAIW-160 V-D 160. (=A INV) (0862-cknealoatlem)  4 I-K-; STIFAACHIKOTs A A.; DATTDOTA. X.I.; XOZW-YA, iF.I.; KAWAW A* Zvowg" V.A.; SNEUMA. &I. lb"M rw tkw dire" dese"Imsies at *be aktag depwity of co"s md chwome Kdm I kkift no*U19~43 06& (MINA U Ill) ~o le hwtltut go y bikb lakqpmymrft AN UM (CMI-TwIS4 (cae)  NIKOL4M- Tal-, KMWVA, U.I.; KALINTURAO V.A.1 SMAINUMKOVO A.A, Bmt eap"Ity of cools and cml aLatt"a s6 dotavmlmwd bF the tompentwo of their Matins Koko. I Wao as, 3sl2-15 IQ, (WA U0.0 le ImUtut gw7u4bikh LskapsyomWM AN SM. (Cml-Tborml properties)  DAVMVAO K.I.; HIKOUYLV. I -L. & Chmalma wd tesbaleal properties of Oni frow the TunCjy Depression. InvAlb.otd.ANXU moWS-37 061. (KIRA Us 6) I* Inetitut garnykb Iskopaymykb AN S&UP Neskvu. (Tunguy Te iley-Scal)  NIKOLLYEV, I.M. Ibehudzing the samplift and preparation of solid fuel apecimuse StandarUnstalla 25 nos 501 Mr 161. (KU 14:5) (Coma T"ting--S tambrds)  MINOIARY, I.H. --- - - -- ----- Taking fuel sampl" from cow--.vers. 44-45 N 161. (ccol-Testift-atandanu) Stsmartintelis 25 no.11, (KMA 14 s U)  Nix --- #. J.P.; KOZLOVAV It. 1. Irfoot of the Morsel prwtrest~t at emls an their ea" wrAcitr. TrW IGI l7sU6-VO '62. (NM 25,10) (Cv&l-4Lrb=dsatl=)  COUSATTISp B. Aq NIUL&Ud,-I. V.1 DATWiA, KI I.; KULIMSKATA, A. T.j PBTROVICHg A. r. Manoterlstlas or omme &stern Siberian omle. Wuft 101 17& 221-128 962. (Nm 15 s 20) (Siberlap ftetors-Cftl)  NNOLAMO I.N. - ... - - __ Fachantsed 062. tooting of coal. Stodartlastaila 26 no.4i 34-36 Ap (KM 1513) (Goal--Testing)  NIKOLAYEV, I.M. -- Peat matibriqimets. Stomdartizatolia 26 mo.6144-46 Jo 162. (Briquets (FM 1) -Standards) (KRA 150)  141KOlAYE;V lvan.hikitich; ~,ANZF,111KOV, LAM.# otv. rel. (Using co&l from regions of the U.S.S.R. ns ^ porsible raw icaterial for the production of :zat&llurgical coke] Ugll vostochMkh ralonov SSI( kak voz=ozhnoa i7rle dha proizvodigtva retallurglehaskogo kokan. I-'cr;kva# ll';auknv 19 64. 8 6 p. 1,7:9) 1, Chlen-korre3pondent M S351 (for fArozhnikov).  i , 1. h - .1, 0 :A O1.# .11, ~,frc.t if ci-A"n met~rA3 of Frejix~rtrir7 ofal ";arat,A o,,n on t~W r0tirg pl-jrs~38. "t"udy lrI 20.,17&.1E9 16). (KIFA 1718)  alroLATZT I.P. cowelstom am structure of Ww ftVOGIM ftehirs, beds Is Us TurwY oil fields- Uch-SOP-LIG-90- 115 so-160-11 '56~ wa& io: i) 1. free$ %romseseft'. (I*mar--Qeeloff. Stratigmphic)  AMEM: Zbelculda, A. I., and Molayev, 1. P. 93-58-3-10/17 2mw: QLL4f ftysidal PropertUs of lbservair Cvu& med V&Ur amd their V&AaUom to tJw D1 lbrom lam of Uw TW=W CLIfteJA (Ommommyys flzlckw- dd3m PwuwtrY PlmftwmY VISM 1 W047 1 IM lmbmdY* PO Pbwtu D1 vattlemV watorosbimulya) MUCOM: lbftymop khozymystvo,, 1958,, Rr 3. pp 42-45 (=ON) AMOMM: So irticIs describes a stv4y of us OL fo~%Icm at the TqmuW oIU1*2A. Mw &tW vMch wea carried out by thm Vft Selmtlflo ftmeareh &AUtvW labftlfto" (Labormtorlya, V=) uWWr t1w urecuom or is. A. adammA mA by the Ontral Scientific Nesserth laboratory (To=) of Mw TqpmM fttrol~ AMW~tr*Um (MV TnUMMft#), GOAMILMS that tAW mmervaIr metwatlow proem a vIth the dtat*Aw. rnm the couter as sbown on tjw Isobar mV. TWA 1 idmm that the eentr*W loeatowd v*IU bave a kt& saturattom pressure weaqpmded by a blot Ww factor, a blo reserivir vol., a bl& ebrUMV,, and a bl& theiml e3weastow. fte vwUs loeet*4 an tAw perlowry of the ronotIon have & asturatiom pmovin ftleh deemems w1th the d1stam" fram the eemUr sad the Aecromm aut 1/2  ChIst ftysIcal Properties of beer"Ar Cmit (Coat.) 93-5&3-10/17 In the "LuraLlom pivasuiv Is vocrwanled by a decrasm in the S" factor, reservoir valumv,, abrinkm4p and thenial expezision. Table 2 obwa tho depe e of this eampositIon ead quentity vZ the Via diluted In the zweervxdr oU an the OU vall, distaxwe from tha eenter of the fonatim. Itim wAthor states UA D1 ftmwUon of the Tvqsnzy c&lfteld has been InsdaTiately studied wA thot tkw pressat study will aid In the further explcdtat4on or this oilfield. Them are 2 taUes and I inotar amr. AVAUAXA: Ltlwmny o." Congress Card 2/2  Nuaums I.&. U~ cc the fo~ In taborw4ow 8~1tif by the tr~- = appromb, Qr%optmmml pmw& see6ed-12 0619 (I= 2418) 2. is owoww"" ou"Um" --IA4 _iNftoklon"o &SIM - (gUvW vim* - A.Zao lbon4dravadep rWwwodi#AdO - wA. p dsplkdt muld Prot* BOA. twdw). 1--"=CUUNU)  NIKOLAIVro I.$. laahmer-polkovulk; KUrM.19=0 D.1o, lasherm- --c.- .1 PIMIPS-1151aft Me am be dome at every flem motoorele4ad statlaso Vest. Tooden* we6s" Je 161. (Him 1418) (Owtowslow in ow~uoo)  14MKNDvp L. G* 40 gmde ArMitiskUryp IVAPOT,, To T,,,, AM&,g BEM.Y.U.- 11 9 Mo. Kom* Akaftwl &Mdtdftry Son DA Arkhtdditwy Fftr", WAMWO V, W."rofft" Nwdm-ls&lsdmt*lldd,y Tn*Utu ArkhiukUry Id. I PrmWshlamW 600"absuly Abodudl AMItdMary SM of Scientific RAinearch '4ork on Conn ftgo 62 cow, 1951  vrx~'I,r FVr r r . 1, 4WY-z.T %Zo arkh. I 5"ray, L..S. - Wa. - karr. AkbdMU arthisomwT proto ImMAtat ArkwakuLry i lprw4oblewjkk sowushmiy olmolwas poloubmir pe romwe"hadys klao"auw v owaft"aftyuk odlymk dMEM O"kvyo 904 9damum 21 &Mlabtf~ at bkdjzu bamuk mot m Amb- dk" is 1=9 %~v 19%  STFXLCTSXIY. M.5.. prof., daktor tokhn.rtauk; GRISHIS. K.K.. prof*, doktor tektineasuk; VIKOLATIV, I.S., prof., doktor arkbitektury Development of comtrwtloa erWineering to the ftelA.af lattilding and strwture dosign (1917-1957). strOls .(NM 1211) 2. Chlea-knrras"Ment AX SSSR (for ft"Istakir)o 2o fty9tvlt*l'Vy eblen kkadmall strettol f6tTa I AIMIkeftlerr ftor all). (Outialr4g)  Tladialrowtchg SAYMOM, A.A.& KAPIVY. I.T.: WTUTO 1.7.1 INTUN. I.N.g P~~ I-Ir-I YWICIR, VA., SMMAKOV, V.A.j I , O.A.; G~ICW. IN.C. redektorl CRIMMUT. Veto* rodafter: EXXIMO V.A., teMalchooktr rodaktor Eftwmi sewm* sa-mormdal obehoul kore sholoww" daTep I". 2-eq peftro fteftes ftse tromports" shol-der. tod-wo, 1"k, 316 pe (ftilroAs) (WM 813)  NOMLSTAIT. Igorl fladialrovIch. lash.; BARSEM. A.A.; KAMM# I.T.; KAMM. I.?.; KWTWV. N.M.; NIKOZAM. I.T., WFICS, V.I.; 8WTAKQW. V.A.; 81MM. O.Jr.--.-CXMF9' A.L: OUSAINVA. N.7.. rod.; BOMMA. U.N.. tekbo.re4. [General course In railroad engineering] ObshchIl kare shelesnykh dorog, Isd,3.9 parer, Fad obahchal red. I.T.Modsolovskoge, Moskva. Tees. lade tol I sko-poligr.obaodismale N-va petal soobahchmalls, 1960. 290 p. (KLU 13:12) (Railroad onglamering)  3/135/63/000/OW/009/015 AOO&/AIOI AMOMS Shapiroo 1. S., Antokhina, R. L, -01kolayew, 1. Ve# 1Wneers TITIZt Underwater gas aro cutting of metaIs PMUODICALs Svarocbmy* proizvodstvo, no. 2o 1963,, 27 - 28 TEXT: Spealal tests have been carried out at VNIXAV70GEN in ig6i. to tudy the possibility of uning gas are cutting for underwater metal cutting. ;: YAP -2M (UM-2N) cutting device was used in a 140-11ter water container. ; The auallimV are was excited. after immersing tne cutter into the water, or In the air. The second method proved more satisfactory, since the service life of insulation bushings was increased. Visual observation* showed that the burning of the are was sufficiently stable. However, the cutting ability of the we was less efficient In water than in air. The velocity of the process was reduced by 40 - WO when cutting up to 30 ma steels in water. The effect of the S" upon the cut surface was studied with several gas** --sn4 mixtures. The cutting speed was 57 smAin for argm; 295 for argon with lWdrogon; 255 for argon with nitrogen; 275 for nitrogen mid 255 mm/nin for nitrogen with hydrogen. Alt1wrigh hI*wst cutting offlelancy is obtained with an argon-fWdrogen mixture, Uw qual- Card 1/2  NIXOLAIZ In.-,:. Uehnolngical nr: i , r - .. -.r,,~&jurations in trae ofArati-m, off converter sysum-. i j -o. , wirg .V, no.'h;1-4 3 16). (KIRA  GO -0/ 0 2 3 FI-0-0 STTO-0-5 ACC Hki AI'TQQ2566 1,V*j Firshisp Z*Ve Opal sees TITUt Light modulator, Class 219 Wes 1690,65 SOUNCEs Isobratenlya, promyebloselye obrasioy, towarsyys easki. no. 239 1966, 54 TOPIC TAM light modulator, light communication, interference light modulator, %odulater, 00ne CA1'1VM't- ANSTRACTsAn Author Cawtiftcat* has been issv*4 for an istowfacence-type light 'mod"Istor costalsim a V*14rlsero reflecting mirrors. sad tratevorsely- Icut olectro-eptical crystals stick are plwod Is the At resonator. To .ompamoste for temperature OW webasical effects, the crystals are ,placed along a closed curvel the Astasce bel- crystal cestato to equal to A(20-012 * A128, Wwre A to the At Wavelength in &lei at the positive late"" 10 2, 3 ... 1 10 cryetal leasthl and 80 werfactive 126M. Afteff paf!lft I" light "Wider the 1140t bepme an req at" to on"Age      a In r +he We fe rupf rodu ion o 0 p cl f fk Is fillmq 0-04 fkls ft point Oc tAn aU4 of caftftp,~h  INTERM15SION OOM%%Wmw oom~~~ owm%wamww oomft%w*,wp S 6tktAfa 1 f4 4OTtAr= twwoujq4qe Ot4LY qft~ T" ft S&K *A( 0 ul~%  0 "H 1> I T Mo\l I E OP H A'S  op h, 6(st r&t i 14E%6 0 d A.&A sr " Chg. f.0 ~P,*n t4w,, 0 &1A cteoA W"%" no a  ii I as N "a w IA WS is*atA :AQ v A 10 a 9 N $%IV ~414~L QNv  6 1*., 14qxor loom k* L43 I L 16 S is6 tA IN in ft fj b lZi T T L4" K VOt IT AT YO Oft FA(Oltl 1MEJMK VmQtAos a  -i. - -- .. ., .. rm"'KMIM - - T, - ~ ~ -,~ ~! -.- .. -, . T - . , r--L , - r - , . z - - - z ! -  307/84-58-1C-7/54 A = ON: Nikolayev, K., Nikitin, Yu. %UMMOO~- NW_ TITIA: On Min Air Routes (Na magistralinykh vozdushnykh trassakh) FMODICAL: Grazhdanskaya avlatelya. 1958, Nr 10, p 5 (USSR) ABSTPACT: The authors review the progress made by jet paesenger air- craft since 15 September 1956, when a Tu-104 left Vnukovo aIrfield on Its first transiontinental flight. 'Today the Tu-104 exclusively ~*rvlces passenger transportation on the Moscow-Khabarovsk and Moscow - Tashkent routes and will soon begin making rogular flights to Vladivostok. Jot passenger airciaft also maintain regular schedules, on several international air routes - (Moscow - PokIng, Moscow - Prague), andbeginning 191,*8vhave included fUghts to Albania, Dermark, Belgium, France, HollanA, and India. A W shown the cities visited by Tu-.104 since It went Into operation two Card 1/1  f. Nib. OL 9 9 0 W or 0- 0 0- f o- 3 f so 1 1-1 1- or t - , c - imp ~91, 4 lbr me c of, Tj 11 l6.. an, 1 IVIT's 7S a Mumma. he ap IL 40I.-ABOOM"ary we 006104 of mob 6 . OW ead ~WWA C low 1.04& 17-21. pH W7. At dni- A - orwd woe A, IN U."s, =1 ",go. Xi 4-0, Ct W 10 a" "646"Oub OW 006 op 40 a 4"t, ~ d i v 4k vmrW 4. IWO"Iftshm I ISW IS. in"NOMIN A. 004 a" low 14WA 40 Woor 400* 4 , ade.0 As. UP Awl aAg OW14, f Ou"W" Is', 40 OPOW Tow b br a toomb alfwk of 41 Mo. Oak M N&AWsks W ZI 340-. ons a i WA go JW Am. 14. (a. Memo, do* 80* coo was Joe 0 a ibs 4,  p,-Lb r Fee f!'06 A a 40 Aba so OF e# Im e* 41 AL b"ASIA. wA "WC1 (to 00 a '. 00 8" I a o do *sees 00 0 0 0s0 ;0*26.:GOO sees* 11-00 ~.40 ail it A 0 see "60 40 doe .00 00 - Ao ada 01 g see 9 0 so sees** a m G 0 0_0-A  MICM* *A.* kwAl"t takhatchookUft 71KOLURT, K.G.. kazAt4at tabbse MO&O mteemsest: 8AGAMICN, V-5.0' we FASO te"alchookir so" or Eftu" ~ mA istme ta ship buttal amme dwy i ss"i~jja ke"am 40MM6 NOWM4 6"o sandme-tafts. to&-" o"him"Mu. I smied"Iss 11"y 19". 12) P. (UM all) impbalutmal ivoul")  Subject MR/Ingineering Card 1/1 Pub. 107-a - 3/18 A ID P - 5267 Authors t K. 0., Kand. of Tech. Scl. and B. A. Gololobov, J4218 Title Detection of possible cracks In welded joints of vessels Periodical 3var. proizv., 9. 9-120 3 1956 Abstract t The authors describe the methods and tests developed by the Central Scientific Research Institute of Ship- building Technique for detormInAtIon of thickness of welded steel, number of welding travels,, rigidity of welded shoots, thermal processes, Initial temperature in base metal, etc. Pony of those methods now are adapted In the shipbuilding Industry, Two tables, 2 photos, 2 drawings, 2 graphs. 1 Russian reference. Institution t TWITS (Central Scientific Research Institute of Ship- building Technology probable expanded translation). Submitted No date  Golkl.~Iii)7, ~I'o,-13 hry4-eyeii':h; hnstantiti rpiarFlyevich-, bELICKUK, G.A., kand. tekhri. nauk,, n3tsenzont; 621"TIOY!"o', A.A., karA. tekhn. mi riftuchn. red.; red . (Proroirtles 'it' wnl~lu-l JUIT,tfl In hu'll rteels", Ivar- rWkh voredinrmil k~~rpusriykh stalol. Lenir4,-rrA,, 1W, untrcenAe, 11)(4. 239 T,. (I jjl,~ 17:0,  T Li gm pim-',~f)46z5l L r I b II tab I I d e a* a 4 bob -*No f wu I (41A en to-f - carb ola a~d low 1-tilar hulT. zuw-~~14 -a tanprrmturm, anrl the thickness of the bass n ri u a a q TA BIJ; OF CONTENTS Cabridgadli ',-rd 1/2.  I Moth ad ~-% of d a tarmi ni it; t he proper t -~,f v4 1 dnt~n t a 10 1 Pr up art i -Ito 0 f arcanary cArbrn stooi and low alloy we i dn PTOT,-ertlar, of dmnntv ~)f new '-,j3 1 nt9w II& Properties of waldmentm mi-Ae by now vejd.-n;7 methodm -- 10 V Ajj:pIng of weldment zetril -- W V I Well3ent strength in dynRroic load-'ng -- Q0 II: Fatlg~je atrength of weldmvntr -- 124 VI I Corroalon resiatance of weldmente in arn water -131 I IIJ rer t of a I I Ov Ing 1 on t hq ve~-hant cn 1 vroper v i o f the 1- r-Ittal -- 156 T gffeot of w4lding regim~-ms qrpj faLlt-ore on tht t-ech*nical pro-pnriiiiDn of tho waldment -- 17,~ a TI. RIfect of temperstu-r,% of tte me' dnztnjk i~~Ieling on e propirties JI' ihe w4ldment -- IA6 SUDY11"Mi Oz)Ap,-64 NP REF P)VI 087 2,(;!  f,&., y ?aKOIATEWv K.19 Cud Tech Sci (dtaa) 14AW660-46 &MAORLUC WKA aftoll woLve structures ftip-the a6fisaft of 90i=dc fOm ft Ash)diabadq 1956 13 pp 22 cm. ~- Last I Indust NIP,), 100 conies M6 11-57, 98) 25  , Z , i - -IVor-- \ - , 4 f ~4. I - ~r,-1 ~/. - "- - ; 4v n 4 'f- . I x1sawsys Cole - of smisave strueswes with reford to Moir "lots swility. low. 0 %wk. M 86,6116-22 157. (an lift) 1, Imtlfmt antlear"abo"s, strolseleseve a fwtmmaop oft (2w%%qmMw~ &o& 'buIMIrg)  XW/269-W-3-V24 TrmolaUso, f~s PAf*mt1vOvv durual. Geoftalka, 1%9, Wr 3, p 23 (us=) AVMs 1. 2TRJ9# Ow AMIlostion of N.D. Golltsyn's Froblow to Ow Calculation of Solid ftrmtores for Ow Action of Salsolo Pam MTCMC&t Tv. In-ta antlogroislah. sU-va AS %r%mM IM. Val 2, pp, 344 ANOWMts Solid strustares owslat of a tOwdstlan and an Met structure. Aeow0w to B.S. Golltan's wthod,, the oqpdllbrlm of the upper structure to examIned In respect to the fowidation at th* wasmt idion the tilting beglim. The mviltims am established widev oftlah a tilting cannot begin. 71w problem Is solved watimatloolly In a g4moral, form for a solid structure of &Mtra? sontlewstlon havlog an arbitrary type of elastic be", pwided the wtion of Ww base am be expressed In Uw form of a theoratteal rolatlow6lp. AsvAMM a bwe wadel according to " brpot1wels of Uw bed ecieffleloRt wid t1w grmcA notion as a dwpond slas cove, the author gives numerical exmolcts, showing Card 1/2 t"t solid structures am no" earthQuakeproof an pliable ground  Fq!KC,!A:T:E'Vt t-on-stawntin G-UUNIO B.S.8 red.; SALGCOVA, i.Vef KOSHUYEV, G., tekba. rode [Sams principles of construction In oartbquake districts] go- keterye poloWwalia straltalletva v salmicheALM relonakh, AaMdabad, ledeve Ahad. amuk TuHmmdat Mg 1959. 49 p. (KIRA 1515) (9&Abquakes and baUdIM)  NIKOUYEWt K.I. . . . .............. --- Problem in estimating massive structures for the action of 9*10de forces. Trudy last. antissism. stroi. AN Turk, SSR aodt)-" 158. (KM 17t6)  LITTIMMI, V.M.; MMKHIKOVICH~ L.R.j NIKOLAMi, K. I. I -- -~ -------- -- - Beack for testing t1w parts of dri.Ulng pumps. Mssh* L c*','t. obar. na.&21-23 164.. (ICRA 17ill) 1e Grommebtly neftyanoy asubmw-isslodoyawl'ohy tastituto  -- NIKO&AUT, K. 1.. -a""F44MM Swooft" - .1 leporlmiental , atlow of the effect, of short cylindrical r*Woreo&cq=,t4n #A -bell a on an evenly distrijal" lea. Sber. trud. LIIW ne.192&253-266 162. (KIRA 16:9) -P of, i~  NIKO1AYFVP V.I. 4perimiental InvesUgation cr prestressed ro!nllorced co-crets shells in the form of hyperbolic parabolc!ds, Sbor. tr-id. LI17JfT no.229il3l-137 164. (PIRA 18ig)  NMOIATSTO 9.K..[dscamsQ41,-UTKN, A.T., TURCKUKO. I.T*61nzhor*4*; OmmmuRTO - -- Eel saw&. Tejo t9khaorode [VM~o of workers molayed an rallropd epra) OpIpitst truda robotnikow vaVanot slushbr; surwwochnik. Pod obahchel red. 1-1r. Turchenko~ Novokwas Gov. trnnep. shol-dor, lad-vo, 1958e 121 P, (MIRA 1119) wages) 611roptd) 8  VOL 44 1b. 4 hb. -250 19% mm!~ ANAMIF d". by two sm" ~ Ow. WWm% O&M Wk. soA wow 6~d w ON& xr! (M AM sm dw am saw Or AXOON% NO. Rwe I le f~ Akq a6= a vedo am vm hen& bdm 14mv ~V%= eobmm it .T funow 6 do two@" d 6  AUTHORSt Nikolayev, ~ U., Dubinin, U. U. sov/62-r(3-10-2 '25 j TITLEs The Adsorption Properties of the Carbon A4sorbents (Ob admorbtsionnykh evoyetyakh uglerodnykh adsorbentov) Infornation 3.- Investigation of the Adsorption Isothermal Lines of Games and Vapours on Activated Charcoal Within a Wide Temperature Range Including the Critical Range (Socbshcheniye 3. Issledovaniya izoterm adsorbtaii gazov i parov n& aktivnykh uglyakh v shirokom intervale temperatur, vkly,uchayushchom kriticheakuyu oblast') PF-1qIODICALs Izveatiya Akademii natik SSSR. Otdeleniye khimicheakikh nauk, 1958, Hr 10, pp 116r-1174 (USSR) ABSTRAM As only ooze of the data worked out in this field contributed to the solution of the problem of the physical adsorption of substances in gas or vapor phase on adsorbenti; of diverse porous structuret the authors of this japer investigated the wide temperature range including the critical range with respect to the adsorption isothermal lines of nitrogen, krypton, xenont tetrafliorethylenet and hexafluoropropylene on two types of activated charcoal that belong to the outer Card 1/3 members of the series) of acti-iated charcoal of the first  ,rhe Adsorption kroportion of the 'Carbon Adsorbents. SOIV/62-cl-10-2/21: Information 3, Investigation of the Adsorption Isotherzal Lines of Cases and Vapours on Activated Charcoal Within a Wide Temperature Range Including the Critical Range structural typo. As a result of the analysis of the experimental data and the investigation of the properties of the state of the adsorbed substances within the range of critical temperaturon the authors proposed rational methods of determining the characteristic adsorption isothermal lines of substances in vapor or gas phase. In agreement with the potential theory of adsorption the coefficients of the affinity of the characteristic curves do not depend on the carbon structurel the volunes of the adsorptivn space have to be regarded as constant quantities for each activated charcoal if no ultra-porosity effect is present. Equations for the adsorption isother=al lines for the vapor and gag state of the substance to be adsorbed in the phase of equilibrium volumes were proposed for the activated charcoal of the first structural typel these equations correspond to one and the came equation of the characteristic curve. These equations of the adsorption isothermal lines are Card 2/3 experimentally founded. There are 9 figures, 2 tables, and  The Adsorption Properties of the Carbon Adsorbents. SOY/62-56-10-2/25 Inforsation 39- Investigation of the Adsorption Isothermal Lines of Gazoes and Upoure on Activated Charcoal Within a Wide Temperature Range Including the Critical Range 23 ref*renosso 8 of which are Soviet. ASSOCIATION9 Institut fizicheskoy khimit Akademii nauk SSSR (Institute of Physical Chemistry of the Academy of Sciences, USSR) SUBVITTEDs May 17, 1957 Card 3/3  76-32-5-33/47 AVTWORS: Publain, X. N., likolay*vt X. X. .1 Barakhove As 1. TITU: Using the a.-Ionization Xanonoter in Sorption Investigations (Primen:nlye 6--ionizatsionnogo manosetra v sorbtsionnykh issl*do aniyakh) MIODICAL: Zhurnal fitichoskoy khImit, 1958, Vol. 32, Nr 5, PP-1155-1159 (USSR) ABSTRACT: In order to avoid the =a" disadvantages of corcury manometers in measurements of sorption investigations a variant of the &-ionization mmomoter was developed under collaboration of the R&Aiua Institute of the AS USS11 this manometer was pro- ducod and used in the present investigations. From the dis- grams and the description can be soon that radius was used as radioactive souroot which was laid in a thin layer on a plate-shapod bass of gold# this production having been sad* by the RIAX of the USSIs The dimensions of the ionisation chamber depended on the field of the pressure moasuresentog 'With tjo chambers present for a wide field of pressure Card 1/2 (1.10- to 1000 torr), ons, for high and another for low  Using the a-Ionization Manometer in Sorption Investigations 76-32-5-53/47 pressures. A @chose of the amplifior plant which is an altera- tion of that described by Downing and Mellon (Rof 7) to also given. Th:Picribed, manometer has a measuring sensitivity of 2.o . A/ torr in the Interval from 1.10-2 to 150 torr and is calibrated according to an BC-manometor, with a measuring accuracy of a mean value of I - 2 ~ being achieved. The measurements carried out with nitrogen, krypton xenon and totrafluorethylons on coal showed, compared with measurements by means of Hg-mano2oterag a good applicability of the a-ionia&tion manometer for investigations of adsorp- tion phenomena. The described manometer is an *xperisental apparatus and still has to be further developed. Finally the authors thank Professor V. X. Vdovenko and D. V. Ziv, an well as Ta. Tu. Rib. Thor@ ars,6 figures and 11 references, 8 of which are Soviet. ,LSSOCIATION: Akademiya nauk sssmnntitut fizichookoy khinli Moskva (MoscoW.Institute of Physics wd Chemistry,, AS i-Z_S'R) SUBMITM: July,17. 1957 Card 2/2 1. MRnoix-tera--Deolgn 2. Alphaparticlea--lonization effects 3. Tonization cha-mbers--Performnee  , mf .. .. - . , , - i6. " , " . - "Inv,-stlt:ation or hy-Jrstes by the hy-Jrl--'e m#-~thcy;." Artak!iov, K. 7., A. ~., N,ikgl4ev.-K,_N. (P. 1754) d I 'Is. 21, ;--. ll~. SO: glirg&I of jeneral ~htmint (Zhurnal CbshcYPI Kh4;!!l  ,JIMOLATIV, K.B.'148h. Automatic 1productlom Ilan for muldry Golding of sebostoo COUNDS Men. Stral, I dor.mebtaostr. 3 so. 7:23-26 A 150. (OLZA 11:6) (Tiles)  GALYSHEV, Jkpvrimnt&2 otudy of the effectiveness of sessur" under- taken in increasing the life of a crawler treek, Trudy LPI no.228tU5-151 163. (MM 2712)  Ni Un I rg Tnlypt'r In '~rf, pr 1r, of ra --F - prmunta. . rpt. 1', I. N (tch a I In I kII o rm*.;c~.r. -,-I r !n,qt1tu1,n r,2~ M.Aq~.!rtn 11pt (for 11,tk -F-i ine, t! r,.In troi rykh nn Ite r! 14 ( 0 ~,aya  'Wot-kyfT gorW lnzh.; KUL)RYAVrJFV, M.V., gornyy Inth.; KlKfJVKA, f0-.1,,,,gornyy Insh. Simultaneous permanent and cross trenching. Gor. shur. no.2s 21-24 F162. (MIRA 170) 1. Movo-Krivorosbakly gorno-obogatltellnyy kombinat.  fnzh,l KIKOVKA, Te.'., g~-Ir,y M&M;7~. q,,rfW ingh.1 CHUM, SpoodIng up strippirg or..i dqveir,~~nz t,*.) 9.015se level cf the otrip mdn*- at tne Vl!tlifig C-re D.-c-sirg C.-Abino. Sbor. nau-~h. f.-Ael. KGRI no.1`0 I-,'- e 1~3. ~M:RA 1700t)  *-~, KWMIN, K.I., kwA. tAdm. sauk, rod.; DOM rXM,. T-Lv, town, 14WLO tg&%-qp"A avtow"O. Hodma. Gemorgelsdat. 1951. 225 p. 1119) Obtda cutuve)  IIKGFArrv"r.r*. CuttlWaff tools dselgwd for rapid automatic mwblaiwg. St&m. Isstr. 26 no.BtIS-17 Ag,55. (emu a.- 12) (Outtles tools)  AUTHOR: TITUS: Nikolayev, K.Ye. and Lukin, M.R. 94-3-5/26 An Apparatus for "Burning-out'* HiE;h-voltage Power Cables (Apparat dlya prozhiga kabeley vysokogo rapryazreniya) PERIODICAL: Promyshlennaya 9norgetika, 1958 0l 13 ho , pp. io'- H ?USSi3' ABSTRACT: This device is used in faultlocation to develop a partial fault by applying a steadily rising d.c. voltage to a cable until metallic short-circuit occurs between the cable core and sheath. In the half-wave rectifier form, the apparatus can be used to test 3 - 6 kV cables at high voltage; a micro- ammeter measures the leakaEe current. The circuit of the equipment, given In Fig.1, lnclu~es a power transformer, voltage regulator, valve filament transformer, rectifying valves and measuring equipment. The high-voltage winding of the transformer is illustrated diagram-natically in Fig.2 and the construction is described. The half-wave rectifier circuit shown in Fig.1 has two paralleled valves, type KPM-110, in series with a limiting resistance of 30 to 40 Q and gives up to 40 kV. With the full-wave rectifier circuit of Fig-3, the apparatus can give 3-5 A at 15 kv. These values are always Cardl/I sufficient for cables of 3 - 10 kv. There are 3 figures. AVAILABIR: Library of uongress  86770 S/094/CO/000/005/002/003 E073/E535 Mobile Apparatus for Cable Testing ,h the insulation of the cable armour provide a leakage circuit throue of the cable being tested. Before starting the testa, the lover of the switch is turned into tho' onitio- "hertlng" (contact 1-1 closed, contacts 2-2 and 3-3 oPen3 and tile reg-lulator hend Is turned anticlockwise up to the stop position (corrrosponding to the extreme left position in the diagram). On turning the Lead clockwise, the filament voltage increases. Tl-.e filament is Eolatf~d for I min. By turning the head into the "working" position, the heni is disconnected from the filament circuit and connected to the primary circuit of the step-up transformer (without breaking the. filament circuit: contacts 1-1 open, contacts 2-2 an'l 3-3 closed). By turning the head anticlockwise, the voltnt7e In the tect ctible Is increased. The sketch, Fig-3, allows the layout of the components of the test apparatus. The step-up transformer 1 13 placed into a bakelite cylinder 2 which.togother with itj lid,i6 embedled into paraffin, heating at 150 to 1700C. During this op-3ration, humidity is elWnated from the transformer winding anl f1ro:a the bakelite. The magnetic core Is of the rod typt, 1~nrl rAnde lip of 50 x 30 x 0.5 mm sheets. The high voltage winding is sub-divided Into sections of Card 2/5  kW7UI S/094/60/000/005/002/003 3073/3535 Mobile Apparatus for Cable Testing 30 000 turns each (0.18 mm enamelled wire) with an interlayer insulation consisting of impregnated fabric. The low voltage windings have 525 turns of 1 mm diameter enamelled wire. The main insulation of the core in formed by a double bakelite cylinder. The two-stage filament transformer has the transformer ration 250/12 and 12/12 V. c ~he 250/12 V transformer is a dry one and has a rod core of 8 m cross-section. The primary windings consist of 1000 turns of enamel wire of 0.25mm, the secondary windings consist of 50 turns of 1.5 mm enamel wire. The second transformer is a voltage dividing transformer and is designed to withstand the full kenotron voltage, i.e. 50 kV. Here again the insulation consists of a paraffin and bakelite tube; the core is cylindrical, has a cross-section of 7.5 cm and is made of 0.5 mm thick sheets, The step-up transformer, the filament transformer nd the kenotron are inside a bakelite cylinder with a wall ekness of 5 mm.. A bushing passes through this cylinder to which thv cable lmder test is connected. The tilament current arA the high voltage are regulated by an autotransformer with tap-changing Card 3/5  867 S/0 60/00Q/C05/002,/0C3 B073/E535 Mobile Apparatus for Cable Testing gear housed in a separate bakelite housjn~. The test instrument can be operated with supply voltages of 1 7-220 V. Terminals are provided-for arounding, for connecting the electrostatic voltmeter and for connecting the regulator with the other parts of the instrument. There are 3 figures. Card 4/5 Fac. .1 Q110-nope"04 Oro 411"Poll A" mcnidjamme :&&mL  Mobile Apparatus for Cable Testing Card 5/5 667 710 8/094/60/000/005/002/003 E073rz535  HIRDLAYEV, Y.Ye. Weter-coolinp flexible c.,blps of an electric-arc furn;ce. kra!,. onerp. 16 no.12olli-If D '(1. (ViRA 14:12) (Electric furnaces--Coolinp.,)  HIKOLAYU L. lnzh.; 01EVNIK, G.1 DPJ-S-1, V.; X1111SHEl, P., lnzh.; LUFAZHVv*Z;FJT, i"~~~h. Adopt*dat the Exbibition of the Achlevoments of the National EconwW and introduced into Industrial production. lnform.biul. VDMW no.11ill-12 N 164. (MRA 18t2) 1. TSentrallnoya by-aro takhnic~Askoy informatsil PrIvolihakogo eaveta narodnogo '-hozyayot,.ra (for 01*ynik). 2. 1,at-.r1ysk17 institut nauchno-takhnichaskoy inL^ormatsli (for Drust).  SIMAYST, L., ivah. 0009-M.- -- ~14 for the from for hanging swusaWs. Was, Ind. SM 29 00.31" 159. (mm u,6) I* smalversd*17 sekhmoleglobeskly lwslto wholoullser prewshle*- "oil Omews) Making houses-sqsIpmet MA M&PPHOG)  ImrATIV, L., Lash. beloWng Uw Itfo of f reaw for hsWvg osmsqW, ut". lad* ~ 29 "06149 156. (NIVA Ili 12) lelosisgradiddr tokbool"tabookly Iseliftt kbolodillmy pvwvhlo~ott. (&ddag bouooe-41qulp~% &9d supplios)  LMR11f. A.; roUw.=. T.; 8MV of boat exabomp Is thivilaM tutelar bmt ezcfmmW*ro wIfAb retwy twudest ruw mopiaeount tarn". imee. ina. ~ 30 80*3:22-24 1". (KIM 12t9) lJod"Faukly $dAmelealowskir imetitat kholadillsor weqpwl~qtle (Oil* and fate. adible) Mat-4ruesiestes)  NIKOIATV g L. Device for cantrolaing the stroke of an apportl=lag piston in autassitic cutlet cutters. Mae. ind. SSSR 32 n0.114&47 061, (MINA U:7) 2e ImalngradaMy tekhnologichaskiy institut kbolodiltuay pramysh2ennoetlo (Neat lAftGU76-lqulPmmt, " OuPP1166)  - I r L. lwtlft Uw TiUm fas ovolwo A14wolMd4MU 32 wo2*1243 1". (=A 2487) lo I - imu"t IN-AAqk;lw prmwmum~tlq (aus od fate (serruwaties md rettuamtift =ddm7 too")  MWITSTp A. I.t kwd. tokba. naukll ~QUM~L.~Aj Coroyy inth.1 ~Mwo IL S. 0 a" My Imb. a WI& tram& to m qm pit. 6w. dwr. w, Us "Ir, (=u 151101 I. - -- -- -- immtot Irw Ammtoy"). as watell kmblmt (ter ftlwlf~pv, (Swp slain)  1 17 ";. L. , "j,as Cozrposes Complexes et its IVdcles des Formnts," a pnper presented at the Interratlorial SymV)sium on tl-e Origin of Llfc, Ilkscov, 19-24 Aug 1957.  dhftf so budidat tokbalebookikk mmki GOSCUNIM, A.Do Fm noitle starting dowtoes assiol In SIZP-151 autamobIlms. Avt,l Orekt, PrOG6 00-4-14-16 AP '57. (OMA 10-.5) (Ausombilso-Starting devices)  AUTHORj Nikolayev, L.A., Candilmte of Technical 3ciences TITLEs Semiconductor Resistance Thermometers for Tnvostigating En- gines (Poluprovodnikovyye tersometry soprotivl*niye 41ya Lee- I*dovaniya dvigateley) PEPIODICALt Avtomobillnays promyshlonnost', 1956, Nr 10, p ~l - ABSTRAM Semiconductor resistance thermozeters Are suitable for mose- uring temperatures of combustion engines during tests, since they have an accuracy of !0.5 C. The author briefly describes two aqmi--onductor temperature measuring devices. Figure I shown a temperature megmuring device for temperatures rang- ing from - 4C to + 121 C. It can be used for subsequent texpernture mersur"Monts at 10 different positionn. There are 10 temperrture transducers consisting of the thermometer "MMT-4" of w)-ich the baoic part is the semiconductor thermo- resistor TUT-l". Figure 2 Is a crocs section of the trans- ducer, while Figure 3 shows the circuit arrangement. A micro- ammeter and &nuntnlanced bridge "NU-31" are used as measur- ing Instruments. Figure 4 shows a surfgco tezperature meas- uring device with a range from 0 to 3CO C. it consists also Card 1/2 of the measuring bridge "NY-31" AM a microammetor but has  -117- 11 5-5P-10- 10/1-6 Semiconductor Resistance Thormocetere for Investigating Engines only one rod-shaped transducer. It Is possible to measure with this device, within 3 - 4 minutes, the temperatures at 30 - 40 different spots. The trAnaducor contains A semicon- ductor micro-thermoresistor "UT-54". The disetivantsee of semiconductor temperature transducers is their low mechanical strength which leads to failure of the elements when subject@8 to higher vibrational loads. Therefore it is better to uLi- lize, thermocouples for measuring the temperature of parts sub- jected to impact stresses or vibrational loads. Figure 6 shows the circuit arranrem*nt of such a 2easuring device with automatic compensation. The device may be us 11d0for measuring temperatures in the range from -50 to +150 C- Semiconductor thermoresiators "MUT-4" are used as compon- sators. The device receives power from % "YBS-C.5" battery. There Pre 2 photos And 4 diagrams. .L. Intei-rial CCLM"* tion engiw9-Teqper&ture factora 2. Temperature -Pipasuremen'. '.. R,~,slstance ttermometers- -Per fon"nee 4. Semi- conduc tors--Appllcat Ions Card 212