GUW21SKIY, Boris Mikhuylivich. professor, doktor goologo-mineralogiche- kundidat tekhnicheakikh nauk, reduktor; KHITROV,P.A., tekhnicheukiy redaktor [Principles of geology, for railroad builders] Oanovy goolcq,,ii dlia stroitelai zhelezn;vkh dorog. Houkva, Gos.trausp. zhel- dor. ird-vo. 1955. 260 p (KLRA 9:3) (Geologyj (Railroads-Construction)  15-57-10-13471 Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 10~_' p 1 (U53R) AUTHORS: G-umenskiv. B. M., Komarov, N. S., Voronin, TITLE: History of Geological Investigations Related to th~, Construction of Roads in Russia from 1817 to 1870. (K istorii geologicheskikh issledovani d1ya stroi- tellstva dorog v Rossii v 1817-1870 gg~ PERIODICAL: Tr. In-ta istorii yestestvozn. i tekhn. AN SSSR, 1956, Nr 7) Pp 3-22 ABSTRACT: The origin of that branch of' Russian engineering geol- ogy which serves in the construction of roads can be traced to the very beginning of the nineteenth century. First efforts of the engineering-geological nature in this realm were made by the builders of highways and railroads -- the students and professors of the St. Card l/ e3 Petersburg Institute of Means of Communication of the  15-57-10-13471 History of Geological Investigations (Cont.) Corps of Engineers, established in 1810. Even before that time a large amount of experience had been collected in dealing with tile soils in various phases of construction work. Earliest theoretical engineering-geological works of a general nature and pertaining to road construction were presented in the textbooks of this Institute (starting with 1818). Intensification of this activity can be ob- served between 1817 and 1834 and was related to the construction of the St. Petersburg-Moscow highway. Such intensification recurred at the end of the 1820's in relation to the construction of other Russian highways. The author notes the part played in these inves- tigation by M. S. Volkov, professor of the Institute of Means of Communicdtion at the Corps of Engineers, the author of "A Course of Constructions" and of "Notes on Soils Investigations to be Conducted in Structural Work" (1836). During the surveys along the course of the St. Petersburg-Moscow highway, excavation, drilling and con- struction of engineering-geologicalcross sections were broadly applie With the acceleration of high%,iay building in Russia, more Card 2~3- b  History of Geological Investigations (Cont-) 15-57-10-13471 and more attention was being paid to ~-eology and mineralogy in the curriculum of the Institute within 01c, yrorgJ'am of its "Construction Course" (particularly after the 1830's), Theoretical knowledge of construction and engineering geology was further developed during the building of the first main railroadr, in Ruqsia. Construction of the St. Petersburg-Moscow railroad (1842-1851) represented a fine source of learning for the Russian erigineers of' Means of Communica- tion. During the explorations along this right-of-way a contract was established between the engineers of' 1,10ans of Communi cations and the geologists and mining engineers (Millev, Pander, "Jarnoylov). In 1843 a field course in geology was introduced at the Institute for the engineers of Means of Communications. In 1,81c'-)2 11, 1, Koksharov was invited to lecture in mineralogy and geology at this Institute; starting with 1884, the course of geology was Laught by 1. V. Mush- ketov. Toward the end of the nineteenth century engineering geology became recognized as an altogether necessary Faft o~ the qualifica- tions for construction engineering. Card 3/3 D,, 1. Gordeyev  T GUMSKIYe' B.M., doktor geol.-mineral. nauk, T)rof, "Deformations of clayey soils in antilandslide workings."'B.I. Nechaev. Revieved by B.M. Mumnskii. Test. TSKII MPS 16 no.7., 62-63 0 '57. (MIRA 10:11) 1. Laningradakiy inatitut inzhenerov zhelesnodorozhnogo transport& imeni akademika V.N. Obralteova. (Soil mechanics) (Nechaev, R.I. )  .22~~XSKIT-Roria Iliklulylovich, prof., doktor geol-ogo-nineral.nauk; IKOWIROV, =ikolay Stepanovich, dotsent, kand.-Ieolol~o-mineral. nauk; POPOV, V.V., prof., doktor geologo-mineralo-g.nauk, red.; SHNNY-AROV, S.A., red.izd-va; SIMIKHT, A.A., telchn.red. (Vibrational drilling of soils] Vibroburenia gruntov. Moskva. 12d-vo M-va kommun.khoz.RSFSR, 1959. 129 P- (MIRA 12:12) (Boring)  GUMMNSKIY, B.M. Geolog7 at leningrad Institute of Railroad Engineering. IZVO VYS, ucheb. xav.; geol. i rsov. 2 no.1:116-121 A '59- (MIRA 12i10) (Geology) (Railroad engineering)  GUMENSKIT. B.M. (g.Leningrad) Taking Into account organic materials In fills in calculat- Ing the settlement of atructures. 09n.. fundA mokh.grun. no.,5:23-25 '59. (MIRA 12:12) (Foundations) (Soil mechanics) 11~1 ~~:- A - w . .:I I I , . ;z  GUMENSKIT, B.M..prof.,doktor geol.mineral-nauk Further trends in the investigation of clay soil compaction. Transp.strot. 9 no-3:47-4 Mr '59. (NM 12:4) (Railroads-3arthwork) (Soil stabilization) (ClaY)   (Gool  GUI-~~IIZ;Krf, Borio 1,11khaylovich, prof.; NOVOWILOV, Gonnadly Fedorovich, adsistent; KOVRIZENYKH, L.P., red.; DONSKAYA, G.D., tekhn. red. [Thi.xotropy of soil and its calculation in the construction of roads and road bridges] Tiksotropiia gruntov i ee uchet pri stroitellstTe avtomobjllnykh dorog i mostov. Moskva, Nauchno- tekhn.izd-vo M-va avtomobillnogo transp. i shosseinykh doro RSFSR~ 1961. 106 p. (MIRA 15:25 (Soil Diechanics~ftesearch) (Road construction) (Bridge construction)  GUMENSKIY, B.M. Ueningrad); NOVOZHILOV, G.F. (Leningrad) Increase in the bearing capacity of pileB during the "resting" process. Osn., fund. i mekh. grun. 3 n3.4:1-6-17 '61, (MIM 14:8) (Piling (Civil engineering))  GUFFNSKIY B.M., ciolctov gk, o log O-iilntl.- ~ ;, ik, h nauk, Prof. Y History of the geologiral edliration of r,,tilway engineers. Sbor. trud. LIIZHT no.196:3-20 162. (WRA 16:9)  GUMENSK .. doktor geologo-aineralogicheskikh nauk.prof. AITY-3-A.-m- Coating piles with tbixotropic pastes as a method of lowering the cost and Increasing the rate of pile sinldng. Gidr.stroi. 32 no.9221-23 S 162. (MMA 16%2) (Piling (Civil engineering))  GUMENSK,IY ?,- B.M.; KWAROV, N.S. Training students of construction speciallAIHni in rai.Ir-Oad institutes from the viewpoint of engincerin ongineering geology. Izv.vys.ucheb.zav.; geol. i razv, ~ no.10%W-148 0 163. (MIRA 18:4) 1. IRningradskiy institut inzhenerov zboIv.-,r-,nd,~roz)inc)go transporta.  GUI,L,,I!SKIYJ, B.M... prof . Accotinting for the thixotrnpic i tall! I )~ ciaycy soils. Avt.dor. 26 no.10:20., 24,. 30 0 '(13. (,~M 16:11.)  GUMENSHY, Boris -1,11khaylovich, dijktor geol.-miner. nalik, prof.; -Vand-. geol.-miner. nauks dota., nauchn. re~ (Principles of the physical chendstry of clay soils and their utilization in construction] Osnovy fizilto-khimii glinistykh gruntov i ikh ispollzovanie v stroitellstve, Leningrad, Stroilzdat, 1965. 254 P~ (MIRA 18:7)  3- , III 1=7171!5i-ll~14m!;,I;Y,!4.~l'!~,~ , I_7 -- -- .-  MMMK, A. Saving in large and small mattero. Mashinostroitell Do.12:32 I t6o. (MIRA 13:12) (Nonferrous metals)  GUI,ENYUK~p As - Hydraulic milling cutter for removing scale from pipes. MaBhinostroitell no. 4;34 AP 161. OAIRA lz,:4)- (Boilers-Maintance and repair)  GUI-MIM, A. D. Selection of early r-ipeninC sunflower. Maal.-zhir.prom. 26 no.7: 10-12 Jl '60. (MIU 13:7) 1. Ukrainskiy nauchno-isslodovatellskiy institut rasteniyevodstva, selektdii i gemtiki. (Swlover)  'rVANCHENKO O.N., P JMEN- I n z'- P inzh.; PETRMOSKAYA, M.I., ftrzh. Gib NK, A.D., I L- Heat treatment of fastenings. Maehino5troenie no.4a?2- 73 Jl-Ag 164. (MIRA  ACC NRt A16037013 (A,W) SOURCE CODE: up/oil; 11/31124/~426, AUTHOR: Gorbant, I. S.; Gumenyuk, A. F.;Suleymanov, Yu. 14. i ORG: Kiev State University im. T. G. Shevchenko (kiyevskly gosudarrtvennyij universi- tet) TITLE: Energy and kinetic parameters of impurity nitrogen in silicon CUrbide crys- tals SOURCE: Fizika tverdogo tela, V. 8, no. 11, 1966, 31124-3426 TOPIC TAGS: silicon carbide, crystal impurity, nitrogen, impurity lerel, electron capture, capture cross section, thermoluminescence, luminescence &pectnim, semicon- ductor band structure ABSTRACT: This is a continuation of earlier investigations of the line spectrum of luminescent crystals cr,-SiC (6N) (FTT v. 7, 3694, 1965) where it was established that nitrogen forms three donor levels corresponding to three nonequivalenz Dositions of the nitrogen atoms in the lattice. The present paper is devoted to an investigation of the energy and kinetic parameters of these levels, and to kinetic pal-ameters such as cross sections for the capture of electrons by these levels. The required rela- tions are determined from the variation of the tbefmoluminescence of these crystals 0 as the nitrogen content is varied, and comparison 'f the changes in the thermo- luminescence with the changes in the luminescence spectrum, which was shown in the earlier investigation to change from a band spectrum into a line spectrum with de- Card 1/2  ACC NRs AP6037013 creasing nitrogen concentration. Low temperature thermoluminescence was investigeed; for three crystals, one containing nitrogen with a concentration (1016 CM-3) for which the luminescence has a band spectrum, and two containing a lower concentration (1017 CM-3), with a line spectrum. At low nitrog,!n concentration., the low-temperature thern,oluminescence curves consisted of three bands, which can be related to thermal release of electrons from the different types of centers. 'The individual elementarj thermoluminescence bands were spearated by special heat treatment. This has made it possible to have the thermoluminescence intensity variation governed by only one of the elementary bands. This yielled for the distances of the three types of nitrogen levels to the bottom of the conduction band values 0.18, 0.21, and 0.24 ev, which coincided with those obtained earlier for the energy distances between the exciton width of the forbidden band and the spectrall positions of the front lines of the spectrum. The corresponding values obtained for the cross section for the capture of! electrons from the conduction band by the nitrogen centers are 5 x 10-19, 2 x 10-19, and 2 x 10-19 cm2. Orig. art. has: 1 figure. SUB CODE: 2o/ suBm DATE: o4jun66/ OIRIG IREF: '003/ OM REF: 004  GUMENYUK, A.I. SOil tyPes in the Western Ukrainian Opolye. Pochvovedienie no.-I: 35-45 ja 165. OEM 18.7) 1. Institut zemledeliya i zhivotnovodstva zapadnykh rayonov UkrSSR, Llvov.  GUMEMM, A, G, C/1961~ 15901 PI-MOMOTICAL DECEASED  -I ~ 1, -1 - -- I t I : ~A V F . ~: , . ) .~ /1. .1 1.;" 11rcV "Inve-stiplation therv,al expansif-)n of tungsten, and zirconiumi at high temperatures" Seminar on production methods, physical properties, and electron structure of re- fractory vietals, compounds, and alloys, organized by the Institute of Powder Me t a,-lurgy and Special Alloys AS LJIrr SSR, Kiev, 25-2,,) Api-L.' k"A_- 1 L)v i Z;a vysr)i--.il,,,h temperatur, No. 1, 1963, P. 156) 0  SHALAY, K.M., podpolkovnik meditai-askov aluzhbv; GUMENTUK, A.S., podpolkov-nik meditsinskoy Bluzhby; SPWOR, M.N.. podpoTVaVhtW1d4diioWinskoy sluzhb.V Remarks on Professor D.A.Rozenblium's article on the 'Kain problems in the field of acceleration physiology.0 Voen.-med. thur. no.5: 91 My 156. (MIRA 9:9) (AVIATION MWICINN)  NOVIKOV, I.T.; PAVLENKO, A.S.; SMIIUIOV, M.S.; CHIZHOV, D.G.; LAYBENEIIKO, X.D.; IMMSOV, A.M.; NOSOV, R.P.; TARASOV, N.Ta.; ZHIMnIN, D.G. UGORETS, I.I.; DMITRIYIV, I.I.; DROBYSHZV, A.I.; YJ2XMV. V:S.; SAFOZHNIKOV, F.T.; BOROVOT, A.A.; WINIK, V.P.; DASKOVSKIY, U.K.; RMVIN, N.A.; MMOV. A.N.; MILINIKOV, B.V.; LATTSH, -D.I.; XONIN, F.P.; DYDYKIN. P.Ye.-, BONDARU, I.I.1 GUMM, D.L.-, POEBGAYW. K.M. Ollga Sergeevna Kalashnikova; obituary. llek.ata. 30 no.2:95 IP '59. (141RA - 12:3) (Kalashnlkova, Ollga Sergeevnx, 1914)  GTJI,E1f,;IJK, G,.N.; NALDVIAN, V.V.; NC;,;KGV, N.I.; 1I.A., Determining the strength of rocks usin~g irregu.LiLrl,,( shaped samples. Nauch. trudy KNIIII no,14:165-168 164. Properties of coRl and enclosing rock of som Karaganda Basin seams. Ibid.:176-183 (MIRIA 18:4) ~,, ", -, II 1";:;,1! - 'A  STELIMM N.I. gornyy tekhnik- GUMERUK G Ye gornyy tekhaik; NkF~kKO' L.Ky gornyy in'zu. 0 Rapid development of blocka. Met. i gornorud. Om no.l., 75-77 --A-F 162. FNM 16: 6) (Mining engineering)  Ch G-O/\1F-NY(4N-, Effect of vegetative nervous system on the recoil reflex SAste Viliv.). Y111,q. lhip~4. w"Wr%k &W1-7(ItW).- Depr~itim% of sk NaCt VfVStAI 00 the AhAtAMiC rrgiun of the brain causes the dl~t. v jwa'ance of the recoil fcfkx. csitmA by Faradic stimulation of the centrul end of "lie netve. The plitnomesou is re- Vergible. Urgatoxin In I: IMO covert. does not after the rellez but it renjoves the blocking effect of the lbalansic ir- lion on ibis rellex. The NaCl tffect is m;sniffttvd throuxh the -tympathetic nervous system. G. M. KD%012poff  USSR / Farm Animals. Cattle. Abs Jour: Ref Zhur-D'Lol., 1~jo 9, 1956, 404'.-7)Z. Author : Gumenyuk 1. G., Sirotkina A., Vybornov IM. Inst :-N-5T-_g'1_v-en-- Title The Effect of the Vlarming of the Udders of Cows Upon the Fat Content in the Milk. Orig Pub: Sb. tr. Penzensk. s.-kh. in-ta, 1956, vyp. 1, 237-247. Abstract: Experiments were conducted on 4 cows of the Simmenthal breed at the Experiinental Training Farm of the Penza Agricultural Institute. Viater baths (5-6 liters) at a tef-i'iperature of 350, 450, and 500C for 4-5 min. before the lst and 3rd milking were administered. The av- erage amount of fat in the milk yield of three cows during initial milking increased by 0.1%- Card 1/2 Abs Jour: Ref -IJhur-Biol., NO 9, 1.956, 40,162, Abstract: :-O:.28%,_and in complementary mil~Jng out, by 0.51%-4.25%. one cow exhibited a negative re- action to warming. The administration of the warm bath before the 3rd milking also produced a negative effect. The warming of the udder ex- erted a positive reflex influence on Gows of the mobile type of higher nervous activity. Card 2/2 GUKRUM, I.G. Subordinatory changes in this accommodation of peripheral motoneurons following proprloceptive Impulses [with su ary in Anglish]. Biul. eksp.biol. i med. 43 no-5:25-27 MY '57. (KIRA 10:10) 1. Iz kBfedry anatomii I fiziologii zhivotnykh (zav. - prof. Aleksan- drovskiy) Sell skokho2yaystvannogo institute, Penza, Fredstavlens deystvitellnym chlenom AMN SSSR Y.N.Chernigovskim. (NMONS, physiol. subordinatory alteration of accomociation of peripheral motoneuronB following prop;ioceptive impulses. in frogs (Rua))  Arin Animals. Cat t1q. A 3 TQU~~. V :?dnBiol., No. t 1059, ,4o. 25829 I AUTHOF :rXIMenyuk, I. G,,i Naumova, Ye. IM. 3T P-enza Agriculture. T IT L The Influence of Milking and Feeding Frequen- cies upon the Cows' Milk Production mid Physio- logicai Condition. ORIG. -PUB. :Sb. tr. Penzensk. s.-Ikh. in-ta, 1958, 'v-j-_o, 2, 318-324 AB!3TRACT :One gri~up of cows was kept on a 4-interval daily regimen (control), and the other on a 2-interval feeding and milking regimen (A-xpe- rim-antal.). Within the t~jue s pan Qf the experi- ment (fTom 10 May to 5 Augus t), the milk yields increased in 6o percent of the cows of the experimental group and decreased in 7 per- ceat. There was no differenee in pulse a-rid respiration rates,, Rb and erythrocyte, contents. T'he bibliography consists of 11 titles. -- F. M. Kazantsev (M ID - 31 "14, '-':-irm Anbrals. Ca. t t I A BS J 0!1-, RZhBiol., lio. 6~ 1959, i1o. 25834 A U T i 10-:1, Gumanyuk, I. G.; Vasina, S. P, -Penza InstiUute' of Agriculture. T K7 L The Effect of the Milking Machine's Working Rhythm upon Milk Ilow. 0 R 1,,", PUB. : Sb. tr. Penzensk. s.-kh. in-ta, 1958, vyp. 2. 312 5-339 AB3TR.~%GT : Cows with characteristic e_xternal sympt-oms of an excitable unbalanced higher nervous acti- vity type decreased their yields by 23 percent as comDared to controls when the milking ma- chine had a rhythm of 35 compressions per mi- nute, by 27 percent when there were 110 com- Dressions, but when 75 COMDreasions were anDlied, the cows maintained high l-evel yields. cow-s-of a well balanced type reacted analogously to the various rhythms, but adapted themselves to them ~Q'! (D 1/3 Cou'.4-i'li CATEGORY ABS. JOUR. Ip~ZhBio,,, No. 1-959, 110, AUTHOR 111-0T - I T ME ORLIG . PUB. ABSTRACT more. ,~,apj(12 y, At a rhytku of ',5 oorapTc,,-!jjc;.R, the ruilk yields, o--(* cows ~,hich ntpproaoh~-id the iahibited, poorly bslanced t-ypc increased by 8 percen.111-; at 110 (;ompressi.).as thcy dsove-ased by 10 perce&., a-rid at. 75: thcy in- creased by 11 percent, coars of tile Control group (oxcitable and inh.1bitod. typ,~,) decrea- sed their yields b7 6.2 percont. at t'v,(- -4 - erld of tho i-.4-Meriment, but cows of t1v:- well b,_~,)_ancad. tvDe did not changU- t ~qqjjj, Wj:Lh a higher rhythm di-0 the t-We 1~fxp(3nded for mIL11- Card: 2/3 rIBS. jou_-e. TTTL~ ORIG. 'PUB. AD3TTuwT jaig inert,,ased Sharply irl a0lls &Pf1*r0a.QM.1-r,9 c!;r- " 'k, ~11 y citable and ivihibited types utvi I- 4n cows of a viell balanct--d, '1'vp,!:, A. D. VaisLn L CA,:M: 3/3 CATEGORY FariA ADAM-Zas  GUMMMJK. L. 1. Arterial changes of the type of periarteritis nodosa, in rats. Arkh.pat. 21 no.11&78-82 159- (MIRA 13812) (MMTENSION) (AMERILS.-DISLUES)  GUMENYUK9 L. Comparative studies on changes in the small arteries during various forms of experimental hypertension. Arkh. pat. 22 no, 32:68-72 160. (MIRA 14:1) (HYPERTENSION)  GUUL~i'YuK, L. I., Gand. Med. 5ci., - (di,-;F) "P-()mr~iriti-ve-mc)rphologicE,.l qtuc~i of arteries duringvarious forms of experimental hypertonia," Leningrad, 1961, 1.7 pp (Leningrad Scardtary Hygiene isedical Institute), 300 copies (M-Supp 9-61, 189) -rl~s~[-'T~vi~-lr w; '; I" i, ~. .1 I ~. ~ ;- : , ; 1-1:~ : ;: '~A'  GUMENYUK, M.P. [HumenIvk, H.P.] Bibliography of Academician F.A. Tutkovsklllo ani. geographical investigations. Geol. zhur. 24 no.2,-98-1,00 16L U1111A I&-")  BORULINIK, A.K.; 4LL?1~11YUK , N.&. Special cutting-tool holders for lathes. Stan.1 instr. 29 n0-12: 36 D 158. (MIRA 11:12) (Lathes--Attachments)  GUW,NYUK, N.A.; SMIRNOV, N.I. Use of G.K. Dtlakonov's equation for the extraction from single drops. Zhur. prikl. khim. 38 no.4:890-895 Ap 165. (MIRA 18:6) 1. Leningradskiy tekhnologicheskiy institut imeni Lensoveta.  fTuf-lr.Ny,;.;K, N,,I.,; tiele F ztvinll~:atir,n nf G.K. Djakt-mvIs equatIcn to the ext.rr;vlti~;r rl-ca drop group. Zhur. p.-ikl. khir.. 38 mo.5.-I05E-1063 RY '~5, ) 1. Lenj-Wadskiy tekhnologiahaskiy institut imeni Lenf;rv,:t-n,,  GUMENYUK, Nikpkay PenispVich; ZOSIYOV, Ye.A., retsenzent; ORLOV , V.M. inzh., retsenzent; TSARMO, A.P., inzh., red.; MTROVA, N.A., tekhn. red. [Work organization in ticket offices] Organizatsiia raboty bilet- nykh kass. Moskvao Vees. izdatellsko-poligr. ob"edinenie M-va putei soobshcheniiap 1961. 67 p. (MIU 14:10) 1. Zaveduyushchiy Byaro zakazov na vokzale stantsii Moskva-Pass.- Xurskaya (for Gumenyuk). (Railroads-Tickets)  PAMFIWV. A.V.; GUMENYUK, N.N. Chronium chloride hydrates. Zhur.ob.khim. 23 n0-7:1065-1068 Jl 153. (KLRA 6:7) (Chronium chloride)  ABRAMOV, B.A.; GIR4ENM, N.U., inzh.; HALTER, A.L., kand.tekhn.nauk. n1lap raising on woolen fabrican by S. B. Sallidiova. Reviewed by B.A. Abramov, N.U. Gumeniuk, A.L. Balter. Tekst.prom. 17 no.12:64-66 D '57. (MIRA 11:1) l.Glavny7 inzhener Kupavinskoy fabriki (for Abramov) (Woolen and worsted manufacture) (Salikova, S.B.)  Soma -wcrk prdc. c-nn ne T,) k. prom. 25 no.318l-8.2: M.: 1615 M, RIA 8 y 5 1' 1. lfauhalln~k Kuparinakoy tonkosukommy  GUMENnKi P.P. (Humeniuk, P.P.], kand.istor.nauk, dottsent Great power of the Soviet society. Nauka i zhyttia 10 no. 10:1-4 o l6o. (MIRA 14:4) (Russia)  USSR/ Chemistry -Ahemicaf technology Card 1/1 Pub. 116 - 26/30 Authors I Karavayev, N. M.; Zykov, D. D.; Garber, Yu. N.; Gumenyuk, T. D.; and Sandul, T. V. Title I Phase equilibriums of naphthalin with coal tar fractions Periodical t Ukr. khim. zhur. 21/3,, 410-415, June 1955 Abstract t The phase conversions of naphthalin with various coal:tar fractions was investigated on a laboratory rectification column to determine the effect of low boiling components (heavy fractions) on the phase equilibrium curve. The fact that coal tar and oil form a polyazeotropic mixture was taleen into consideration and the results are evaluated. One USUt reference (1955). Tables; graphs. Institution : The 1. V. Stalin Metallurgical Inst., Dnepropetrovsk 2%nd the InSt. of Chem. Machine Constr., Moscow Submitted : December 24, 1953 and January 14,, 1955 t;.J 7,  GUIENYUK, T. G. K. Izueheniyu Gel'mintofaurwy Koahek, Sobak, Domovykh Krys i Myshey G. Chemovitsy, "Works on Helminthology," on the 75th Birthday of K. I. Shryabin, Izdat. Akad. Nauk. SSSR, hoskva. 1953. p. 184 Chair General Biology, Chernovits Medical Inst. J, 11t. I. - :I ; ~~ I r :4, : j  GUM~=, T. 1. Efficiency promoters of the "Rabochii metallist" Plant. Stroi. i dor. mashinostr 2 no.12:29 D 157. (MIRA 11:2) (Excavating machinery)  !1z 24(o), 5(4), 6(2) PHASE I BOOK EXPLOITATION SCV~12215 Veasoyu=yy nauchno-lasladovAtel-skly institut metrologil imeni D.Z. Mendeleyeva Reraraty nauchno-la3ledavatellskikh rabot; sbornik No.2 (Scientiric ReStArCh Abstracts; Collection of Articles, Nr 2) Moscow. Standartgiz, 1958. 139 p. 1.000 copies printud. Additional Sponsoring Agency. USSR. Kozitet standarzov, mar I lzmefttol-nykh priborov. Ed.% S. V. RashetinL; Tech, Ed.-. K. A. Kondratlyeva. PURPOSE2 These reports are Intended for scientists, researchers, and engineers engaged In developing atandard3p meas~rvs, and gages for the various Industries. COVERAOZ: The volume contains 128 reports on standards of' measure- ment and control. The reports were prepared by scier-.13ts or Institutes of the Xomitet standartov, mer I I=eri'el,nYkh priborov prI Sovate Kinlacro v SSSR (Commission on Standards, Measurtts, aild Measuring Instrumenta under the USSR C_-ancil of Ministers). The Participating Institutes a": VNIIX - Vaeacyurnyy nauchno-In3ledovatellakly metrologli imeni. D.I. MendolaYeva (All-Umlon Scientific RenearCh Institute Of Met- rolog3, imehl D.I..9end-leym) In Leningrad; Sverdlovsk branch of this Institute; VNlr1X - Vae3oyuznyy naucftnO-135.4~~OVAtOl'bkly Instit~t Kondtata 3tandarzov, mer I _3=er'tel'nykh pr_10orov (L21-Union Scientific Research Institute Of the Cc==!.Z=4-cn on Standards, Measures, and Measuring Instr=ents), created from KQTKIP - Koakovskly gosudarstvennyy Inatitut =er 4. Izmerizel-nylch priborov (Hoscow State Institute of Xes.sums and Measuring Instruments) October 1. 1955; V.411PTR.: - Tatzoyuznyy nauchno-lealtdovat.11skiy ir.3"Itut aheak~lkh I radio t ekhnlchvaklkh I=ereniy (All-Union SOlentific Research Institute or Physic otechni c &I and Radjo-nFlneoring Naasure,ments) in Xoscow; KhalKIP - Khar-kovskly gabudarstvennyy lnstltut mer I I=erit*lInykh priborov (Marlkov State Institute or M4&aurea and Measuring in3truments); and NOIXI? - Xavosl- birskly gosudarstvenYy lnslltut =er I I==eritel'nykh priborov (Novosibirsk Statp. Inatitut. or Pcasure3 and Measuring Inatru- No personalities are.mentioned. "here are.no referen4ea. Tavchismanko, 3.s. (VNITM). 3tudylrlg Recurrvnz Error, or MIcromauric Screw& of !~,.l Tners 45 Study-,ng the Curvature or th- -.be 4'r-a-Veli UX~Ann- j,V., V~F. Wbnt~~.y, 3-X- OkhOtInA, And P.A. -np.n, (KhGIKIP). - d.dcnj`n,-;-iT~-e-S`pcc_ F J_ ----------- -- on ~an U.,trequenj.-es pProduced ty th' KhGI~UP StOndArd Frequency to 10 ' cyclea *r Second -Satan, -~uartx Resonator w or a Q!ja2.*-y Factor ,arIncnkQ, 1-V., Yw.D. Novgorodov, x M Be Arlda., T.S, _,,4m yjL_x_ -d- Div ll-~~14me quo cu. 49 Bryzxhevt L.D.. V-D. 3%DC_"n1kov, %, X Tito, p.p. y..t.flyev, I C - and V~X. _Tuj~nko ~Plng And S t -I DvvelO 3~1 abl. Coe _11azars and Convertors of Big), Stt~dY!mg anJ Card lo/W abil-tY for Time and ---------- -  GUMRMM, T. Ye.: Master Tech Sci (diss) -- "InvestIF . _nation of ventilation by means of underground auxiliary section fans-vfthout bracing". Leningrad, 1958. 21 pp (Min Higher Educ USFR, Leningrad order of Lenin enal Order of Labor Red Banner Mining Inst im G. V. Plekhanov, Chair of Mine Ventilation and Pafety Engineering), 120 copies (KL, No 14, 1959, 120) 12  KREMENCRTSHrf, il.F., kand. telchn. riawk; QUIENOK, T.Ye., Y-9,nd. t khn. W nauk; IVANOV, II.A., Inzh.; YATSMIKO, I.S... inzh. Preventing spontaneous fires in mines of the Promyshlennyy Section of the Karaganda Basin. Izv. vye. ucheb. zav.; gar. zhur. no.12:61-67 961. (MIRA 16:7) 1. Karagandinskiy politekhnicheskiy institut (for Kremenchutskiy, Gumenyuk). 2. Karagandinskiy sovet narodnogo khozyaystva, (for Ivanov). 3. Kombinat "Karagandaugoll" (for Yatsenko). Reko- mendovana kafedroy rudnichnoy ventilyatsii i tekhniki beze- pasnosti Karagandinskogo politekhnicheskogo instituta. (Karaganda Basin--Coal mines and mining-Fires and fire prevention)  GUMENYUK, T,Ye. p kand. tek-ftn. neLuk Design and selection of an underground auxiliary fan for operation without a jimper. Izv. vys. ucheb. zav.; pr. jhur. ne.12ilOS-111 161. (MIRA 16171 1. Karagandinskiy politakhnichoskiy Imstitut. Rokomendavema kafedrey rudnichnoy ventiXvataii I takhniki bezopasnouti. (Zmna, Mechanical)  OIUIATSKIY, Ni-kolay Vasillyevich, prof., doktor tekhn. nauk; FOPOV, I.V., prof. , dok-tor geologo-miner. nauk, retsenzent; GUMEIT* prof., doktor geol.-miner. nauk) retsenzent; MSII-Iov, S.11.0 red.; GEORGIYEXA, G.I., tekhn. red. [Soil mochanieslMokhanika gruntov. Voskvaj Izd-vo Moolf, univ., 1962. 446 p. 04IRA 1519) (Soil mechanics)  BIJTENKO, A.N.; GUWNUYK, V.S. Acoustical device for ultrasonic testing of wirea. Zav. lab. 31 no.11-14(Y7-1408 165. (MIRA 19-1) 1. Fiziko-tekhnicheakiy institut AN UkrSSR.  Threshold value 'of 'the - _hn ....... WI-P, Ifu IM, 1 0 _11! eryl m. K. 11. Sii 121,11.1 b Guill Ilk and A. V- rips ) 8, 1224i U. 'R S. 5,. Closse sci, nialh. wil., Mr. phyt. 1938, 11'31;t clectrons obtained by At"Celeration in a discharge. lubc fell by an clectrostalic Relierator were used to pro- (Itice X-rays with which tile 1111111. M tile mtelear photocffmt W.Lq detd. 'Cite lifulti " miergy w:t% found to lie 1.7(1(1 ~t~ 0.015 lit. (!. V. The autrioc, believe that tile lictile-I'vielk (Itcory for flit! deuterium phat.cleflect is tint applicable, to the ofintort (1Htilvzration of Be. F. H. Hathmilm 4- I~d P11,41 TL  AUTFCR- Gumenyuk, V.S. 32-12-Q/71 TITLE: Short Report3 (6) (Korotkiye soobshcheniya). PERIODICAL: Zavodskaya Laboratoriya, 1957, Vol. 23, Ur 12, pp. 1520-1522-0 (USSR) ABSTRACT: For the purpose of eliminating the disturbing phenomena of the occurrence of high frequency in the network circuit of ionization manometers of the types "B"1 -Y and 934T" which, when measuring the vacuum, consist in continuous deviations of the pointer of these apparatus to7mrds the left from zero, it is recommended here that a special resistance 'IBC-0.5" for 100-500 ohms be switched into the network. This resistance is introduced in the outlet of the collec- tor of the tube 'ILM-211 before the lid which protects this outlet. This modification of the scheme of the ionization manometer is said to exercise no influence whatever on the normal operation of vacuum measuring. ASSOCIATION: Khar1kov Physical-Technical Institute (Kharlkovskiy fiziko- tekhnicheskiy institut). AVAILABLE: Library of Congress Card 1/1 1. Manometers-Operetion 2. Vacuum-Measurements  &I L AUTHOR Mill ONAN,Ld., and GU1MN'YUK,V.S.__ PA - 2663 TITLE Emission of liegativ-e-T-ons from Metallic Surfaces Bombarded with Positive Hydrogen Ions. (Emissiya otriteatellnykh ionov a poverkhnosti metallov pri bombardirovke polozhitell nymi ionami vodoroda, Russian) PERIODICAL Zhurnal Eksperim. i Teoret. Fiziki, 1957, Vol 32, 1Tr 2, pp 214 - 222 (U.S.S.R.) Received: 5/ 1957 Reviewed- 6 / 1957 ABSTRACT It is the aim of the present work to determine the coefficient of the knocking out of secondary negative ions and its dependence of the energy of primary hydrogen ions. The authors determine this coefficient on those metals which are used for the construction of high voltage accelerator tubes in laboratory practice. Besides, the authors carried out a mass spectroscopic analysis of the negative ions formed. First the apparatus and the measuring method are discussed. The hydrogen ions were accelerated by means of an electro- static generator fitted with a mass analyzer at its output. Summary of results. The coefficient of the knocking-out of negative iops decreases monotonously with the increase of the energy of the primary hyarogen ions. The probability Card 1/2 of the production of negative ions on the occasion of the  PA - 2663 bombarding of metal surfaces depends on the velocity of the primary ions, but obviously not on its mass. Secondary negative ion emission depends on the type of the target. The degassing of the target decreases the "emitting co- efficient" K , and the number of emitted negative ions can become lower than the number of the fast primary positive ions scattered in the Coulomb field. The coefficient of the knocked out negative ions, the energy of which does not ex- ceed 10 eV, is of the same order of magnitude as in the case of slow positive ions. (10 illustrations) ASSOCIATION PSysidal-Technical Institute of the Academy of Science of the Ukrainian U.S.S.R. PRESENTED BY SUBMITTED 23.7-1956 AVAILABLE: Library of Congress. Card 2/2  AUTHORS: Mitropan, I. M., Grumenyuk, V. S. 56-1-39/56 TITLE: On the Dependence of the Secondary Emission of Negative Ions From the AMU of Glide of Primary Protons on Collision With a Metallic Target (0 zavisimosti vtorichnoy emissii otritsatellnyl:h ionov ot ugla skollzheniya pervichnykh protonov pri vstreche a motallicheakoy mishen'ju) PERIODICAL: Zhurnal Eksperimentallnoy i Teoreticheolko, Fiziki, 1958, Vol. 34, Nr 1, pp. 235-236 (USSR) ABSTRACT: The present paper attempts the estimation of the modification of the coefficient X of the secondary emission of negative ions in dependence on the angle of glide of the proton beam on collision with a target. For their tests the authors used a beam of 5o keV-protone and a method already earlier described by them (referencel). The modifications made in this method are shortly described. The dependence obtained here for the coefficient of the secondary negative ion emission on the an,,;Ie of Slide of th;~ beam are illustrated in a diaa-ram. For copper and stinless steal -)~i- 1 this coefficient in the entire -.!oma-in of the angles Card 1/3 of glide investigated ha., a pouitive aign. In the case of C,  On the Dependence of the Secondary J~M188i0n, Of NegiLtiVe 56-1-39/56 Ions Prom the Angle of Glide of Primary Protons on Collision With a 71etallic Target a tar8et of aluminum and beryllium the coefficient of secondary ion emission at large an6les of glide is negative, but at angles of glide below 30 - 4o it passes through the value zero and 0beco~,ies positive. Previous heating of the targets to 900 C (for 2o minutes) made possible a reduction of tile coefficient K- for beryllium tar,olets and an increase in the coefficient K+ for copper. The results obtained here may be understood by the followint,,- considerations: The secondary ion emission containn real secondary negative iona as well as prot 8ns of the primary beam which are scattered by more than go by the Coulomb field of the nuclei of the targets. The sign of the observed coefficient of secondary emission is t',len dependent on tile relative portion of these two com,~onents. At an energy of the protone of 5o keV in the cane of a target of copper and stainless steel the number of scattered protons is at all an-les of plide hieher than the number of the secondary negative ions. Por tar.-ets of aluminum and beryllium in tha case of angleF smaller than 40 - 300 the number of secondary neg-,tive ions is hi her Card 2/3 than the number of scattere,! protons. The arithmetical errorS  OA the Depencence of the Secondary Emission of begative 506-1-39/56 Ions From the Angle of Glide of Primary Protons on Collision With a Metallic Target tire not fewer than the experimental errors and therefore the authors did not succeed in exactly determining the coefficients of the knocking out of negative ions from the difference of current intensities. There are I figure and 2 references, I of which is Slavic. ASSOCIATION: Physical-Technical Institute AN Ukrainian SSR (Fiziko-tekhnicheskiy institut Akademii nauk Ukrainskoy SSR) SUBMITTED: October 5, 1957 AVAUABLE: Library of Congress Card 3/3  0 67660 ,sov/l 26 - 6-6 -7/211 AUTHORS: -Gumenyuk, V.S. and Lebedev? V.V. _ TITLE ;0 ~l El t i l i i : ec r ca Conduct v of Iron at Temperatures ty PERIODICAL: Fizika metallov i metallovedeniye, 1M, Vol 8, Nr 6, pp 847-850 (USSR) ABSTRACT: The object of this work was to measure tile resistivity of high-purity iron in tile range 20 -to 1450'C. A compensating method with a PPTV-l potentiometer arid M-21 galvanometer was used, current stabilization being secured at 1A with the aid of a barretter. Tile test pieces (Fig 1) of the type proposed by Kan and Lazarev (Ref 4),trere in the form of 3 to 6 mm diameter and 50 to 100 mm long cylinders with slivers bent back at either end (for voltage tappings). The test-pieces were suspended in the hot zone of a special ceramic-less resistance furnace (Ref 5). This (Fig 2) had a system of horizontal spiral heaters supported by tungsten rods enclosed in a system of molybdenum-sheet cylinders. Its working space was 200 mm high by 35 mm in diameter, giving a temperature up to 2500.C at 6 W. Temperature was measured with platinum/ Card 1/2 platinum-rhodium and chromel-alumel thermocouples and a  C, 7 t,60 SOV/126-6-6-7/24 Electrical Conductivity of Iron at High Temperatures type PP instrument. The furnace with the test piece was placed in a vacuum chamber at io-5 to 10-6 mm Hg. The results for distilled iron (Ref 6) are shown in Table 2 and in Fig 3 (curve 5). For comparison Fig 3 also shows the resistivity vs temperature curves for armco iron (curve 2), the corresponding curve (3) obtained by Mokrovskiy and Regell (Ref 3) and by Salldau (Ref 1). In contrast to the results of Molcrovskiy and Regell the present investigation showed that the resistivity of iron in the delta-range rose with temperature and more rapidly than in the gamma-range. There are 3 figures, 2 tables and 6 references, 5 of which are Soviet and 1 German. ASSOCIATION;Fiziko-tekhnicheskiy institut AN USSR (PhySiCo-Technical Institute,AS UkrSSR SUBMITTED: June 26, 1959 Card 2/2 j;tj HIP 'N' fl, '3 , '11P ifilfll' 111PIRM111,1111.  AZHLZHA, Y.M.; GUMANTUK, V.S.; POPOV, B.Te. Ibrpanding the use of the 102-10 high frequency oscillators Prib.i. takh.ekep. no.12102-103 A-1 '60. (MIBA 13:6) 1. Finiko-takhnichaskiy institut AN USSR. (Oscillators, Iloctric)  WHOM, Y. (Kharlkov) Increasing the operating reliability of stabilitron circuits. Radio no.6:44 Je 160. (MIRA 13:7) (Voltage regulators)  S/120/61/000/004/013/034 E111/E58O AUTHORa Gumenyuk S. '5~~ TITLE., Vacuum contact dilatometer PERIODICAL, Pribory i tekhnika eksperimenta,I no.4, 1961, 101-103 ABSTRACT: The author describes a vacuum dilatometer for tempera- tures up to 15000C (mainly 500-15000C). The electric contact arrangement in linked with the adjustable table of a comparator. The layout is shown in Fig.l. The slides 4, 9, 14, 20 are connected in pairs to pull-rods 7 and 18 and the strip 10, and they move as an assembly along guides 6 And 13. The strip 10 is rigidly connected to the moving part of the length- measuring comparator 12. A metal thread (indicated by a dotted line) is stretched between the slides with the aid of a weight 19. When the carriage moves, the thread touches contact rods 15 or 17 attached to the specimen 16. The furnace 3 bonsists of two identical halves (only one shown) separated slightly by distance pieces 2 so that the thread moves freely. The thread and specimen, electrically connected to the furnace casing, are connected to a contact indicator I (Ref.6: B. Mills, Rev.Scient. Card 1/1 "'t,  Vacuum contact dilatometer S/120/61/000/004/013/034 Elll/R580 Instrum., 1941, 12, 105)~ To find the length of the specimen at a given temperature the carriage is moved until contact is indicated between the thread and contact-rods 15 and 17 in turn, the corresponding readings of the comparator being noted. The diameter of the thread is added to the difference in readings (in very accurate work the changes in thread diameter due to expansion are allowed for). The general accuracy is higher than that obtainable with a dilatometer based on optical length measurement. Vertical construction is preferable and this was used for a vacuum installation in which the dilatometer was located in a vacuum chamber 800 mm diamiter and 850 mm long. An absolute pressure of 2 x 10-6 to I x 10- mm Hg was maintained during operation, temperature was measured by a thermocouple or by an optical pyro- meter through special windows. Coarse and fine movement of the carriage was provided for. The comparator was held in a vertical position, a counter-weight taking most of the weight of its table. The furnace has already been described by the author and V.V.Lebedev (Ref.7% Fiz.metallov i metallovedeniye, 1959, 8, No.6, 847). Sonic an well an visual contact indication was provided, The error due to deflec 'tion of the thread was found to be under 5 microns and can Card 2A W OT  t Vacuum contact dilatometer S/120/61/000/004/013/034 Elll/E58O - be neglected in practice. The coefficient of expansion for tungsten did not differ by more than 1!10 from published values (Ref.8: A. G. Worthing, Phys.Rev.. 1917, io, 638; Ref.9:K.D.Smittel's, Vol'fram, 1958. Metallurgizdat). When working with ceramic materials, a tubular test piece is held between two molybdenum holders with contact rods. The maximum working temperature of the apparatus depends on the thread material and could, the author considers. be raised to 2000-21000C. There are 2 figures and 9 references, 6 Soviet and 3 non-Soviet. The English references have been quoted in the text. ASSOCIATION: Fiziko-teklinicheakiy institut AN UkrSSR (Physico-Technical Institute AS UkrSSR) SUBMITTED: juiy 14, iL96o Card 3/4  kV/ S/19 6!/007/001/007/'C-08 D205YD305 AUTHOR: Humenyuk, V.S. TITLE: The resolutions of the coordinating conference on the question: "The strength of thin-walled constructions" PERIODICAL; Prykladna mekhanika, v. 7, no. 1, 1961, 110 - 113 TEXT: The article is a report of the proceedings of the coordinat- ing conference, summoned by the coordinating council, in Dnipro- petrovelk on May 23-24P 1960. 75 leading scientists from various parts of the Ukrainian SSR took part. H.M. Savin, (Academician of the AS TTkrSSR)made the opening speech dealing with basic trends of resea,,_ii in mechanics in Ukraine over the next 15 years. He then spoke on current research into stress concentration around holes in shells. This problem was also considered in the speech of Doc- tor Yu.A. Shevlyakov (Doctor of Technical Sciences). In the spee- ches of V.I. Mossakovs1kyy (Doctor of Physical and Mathematical Sciences), Aspirants Petelin and L,I. Manyevych, V~I~ Merkulov Card 1/3  S/19 61/007/001/007/008 The resolutions of the ... D205%305 (Docent), B.N. Bublyk (Aspirant),and S*D. Leytesq research into the stability of shells was discussed, both from the rigidity of "ribs" and in the plane case. Ya.S. Podstryhach spoke on the state of elastic deformation in shells arising from the action of internal forces and unequal heating M.Ya. Leonov (Doctor of Technical Scien- ces) spoke on the approximation theory of torsion in thin-walled stems with closed-and open profiles. V.A. Lazaryan (Doctor of Tech- nical Sciences) spoke on various dynamical problems of systems of stems. P,M. Kychayev (Candidate of Technical Sciences) spoke on the stressed state in an elliptical disc under the action of central forces. There were speeches on problems of rigid bodies by M.Ya. Leonov (Candidate of Physico-Mathematical Sciences), V.V. Panasyuk Candidate of Physico-Mathmatical Sciences) and P.M. Vitvytslkyy Nspirant). The conference recognized that basic research on the strength of thin-walled constructions over the next 15 years must follow the resolutions of the Scientific Council, AS UkrSSR, en- titled "Scientific Bnquiry into Strength and Plasticity". To faci- litate the successful caxrying out of these plans, the coordinating Card 2/3  S./I 98/61 /007/001/007/008 The resolutions of the ... D205/D305 conference made various recommendatlons, the most noteworthy being the establishment of scientific research institutes based on the present departments of mechanics In the univeraities of Kyyiv, L'viv, and Ihiipropetrovs;k. Card 3/3  104r, It-Iii, '.'~g S/.126/6 I/ol j/00 i/002/019 0 il 3/ 1) 10, n E032/E3 14 AUTHORS.* Gumeny~, _Y.S. -and Lebedev.. V.V. TITLE.- Study of the Thermal and Electrical Conductivity of Tungsten and Graphite at High Temperatures PERIODICAL,, Fizika metallov I metallovedeniye, 1961, Vol~ 11., No. 1, PP. 29 - 33 TEXT., A descript�on is given of an apparatus for the determination of the thermal and electrical conductivity and their ratio for metals and alloys in the temperature region 900-2 200 0C. Data on the temperature dependence of the thermal and elec~trical conductivity of tungsten and graphite are reported as well as the values of the Wiedemann-Franz ratio In a wide temperature interval.. Empirical formulae are put forward to represent the thermal conductivity of tungsten and grnphite as i~ function of temperature. The thermal conductivity was determined by the method described in a previous paper (Ref, 5) and is based on the following considerations, If a short and a long rod of the same diameter and chemi~:al composition Card 1/9 .11111`11NII :1u  89939 S/126/61/oli/ool/00'.1/019 E-032/E314 Study of the Thermal and Electrical Conductivity of Tungsten and Graphite at High Temperatures are heated in a vacuu m by an electric current to the same temperature, then the shorter rod wi.11 require a lixg:fier current owing to addi tional heat losses at the ends. The thermal conductivity of the material can than be -:alculated from the formula Ox 2 (12 _ 12) 2S2 T where X is the is the S is the .,8 T is t1:1e I is the I is the thermal conductivity. resistivityv cross--.sectional area of the sI)ecimen, temperature drop over a Ivng0i x , current necessary to heat the short specimen, current necessary to heat the long specimen, Card 2/9  89939 S/126/61/011/001/002/019 E032/E314 Study of the Thermal and Electrical Conductivity of Tungsten and Graphite at High Temperatures Thus, in order to determine X it is necessary to measure P and I I on the long specimen and 1 and ~_% T on the short specimen. These quantities were measured with the aid of a special device. The specimens were placed in water- cooled holders, one of which was free to move when the specimen expanded so that no stresses were applied to the specimen. The distance between the holders could be varied between 0 and 150 mm and the potential difference across defined sections of the specimen were measured by means of molybdenum or tungsten contacts. The whole system was placed in the vacuum chamber in a vertical position, the vacuum being of the order of 10-5 mm Hg. The potential differences were measured with the AC potentiometer %,_, (R-56), while the temperature was measured by the optical pyrometer (OPPIR-09) which was attached to the telescope of the catfietombcerKM-6. In this way, the temperature and the Card 3/9  89939 S/126/61/011/001/002/019 E032/E314 Study of the Thermal and Electrical Conductivity of Tungsten and Graphite at High Temperatures distance vue measured at the same time. In order to increase the accuracy of temperature measurement, the pyrometer was designed so that the potential difference across the pyrometer lamp was measured by a potentiometer. Careful calibration was also carried out against a p1 tinum-~latinum rhodium thermocouple (up to 1 500 C) and by AVII-It-A-1 (TsNIIChM-l) thermocouple. In the case of the short specimen, the temperature distribution near its centre is given by I 6T - f(X)x 2 Hence, in order to determine the thermal conductivity it is suf f ic ient to plot L\.T vs X;r and hence determi.ne f(%) from the slope of the straight line. Fig. 2 shows such plots at 1 6oo0 C (Curve 1), 1 400 OC (Curve 2) and 1 600 0C (Curve 3) Card 4/9  89939 S/126/61/011/001/002/019 E032/E314 Study of the Thermal and Electrical Conductivity of Tungsten and Graphite at High Temperatures for a tungsten specimen. The experiments were carried out on spectrally pure graphite and tungsten specimens which were heated to 1.700 C for one hour before the measurements. Fig. 3 shows the thermal conductivity (Curve 1) (cal/cm deg see) and the resistivity (Curve 2) (-fLcmxlO6) as functions of the temperature (OC) for tungsten. A similar plot for graphite is shown in Fig. 4. The therma I conductivity of tungsten is in approximate agreement with the date reported by Osborn (Ref. 2). The results are not in agreement with those reported by Filyand and Semenova in Ref. 4g which are said to be incorrect. The Wiedemann-Franz ratio was calculated from these data. It was found that the Lorentz number obtained exceeds the theoretical value and is not very dependent on the temperature. In the case of graphite, the results obtained are in good agreement with published data. The temperature dependence of X for tungsten was found to be Card 5/9  89939 S/126/61/011/001/002/019 E032/E314 Study of the Thermal and Electrical Conductivity of Tungsten and Graphite at High Temperatures X = 0.361 - 1.17- 10- 4 T + 2.32- 10- a T2 and for graphite X = 0.12 - 0.547~ 10-4 T +, 1. 42 - 10-8 T2 where the temperature interval is 900 - 2 200 0C. There are 4 figures, 3 tables and 6 referenceal 3 Soviet and 3 non-Soviet. ASSOCIATIONs Fiziko-tekhnicheskiy inatitut AN UkrSSR (Physicotechnical Institute of the AS Ukrainian SSR) SUBMITTED: July 22, 1960 Card 6/9 FTV 'iM  S/862/62/COI/000/005/012 E202/9492 AUTHORS: -Gumextyuk,_ V_,~_._, Ivanov, V.Ye., Lobedev, V.V. TITLE; Determination of the thermal conductivity of metals at temperatures in excess of IOOO*C SOURCE: Teplo- i ma.-4aoperenos. t.l: Teplofiricheakiya kharakteri.qtiki materialov i metody ikh opredeleniya. 'Ed. by A.V.I,ylcov anti B.M.Smollskiy. Minsk, Izd-vo AN BSSRI 1962, 94-101 TEXT: A method and apparatus developed in the Fiziko-tekhnichoddy institut AS USSR (Physico-Technical Institute AS UkrSSR.) for measurement of the thermal conductivity of metals and alloys up to their melting point are described. Calculation of the thermal conductivity requires determination of the specific electrical resistancel the amount of current and the distribution of - temperature along the samples, which are in the form of right circular cylinders (e.g. wires). The apparatus comprises a vacuum chamber with'the sample placed between two water-cooled clamps and connected to the electrical supply. Surface temperature measurements are carried out by means of a micro- Card 1/2  S/862/62/001/000/005/012 Determination of the thermal ... E202/E492 pyrometer of the disappearing filantent type, mounted on a cathetometer so that the measurements may be taken along the whole ,length of the sample. The samples used were within 0.5 to 5 mis in diameter and the distance between1he clamps co"d be varied up to 250 nun. As an example, the authors carr)ied out measurement of electrical resistivity and conductivity of Mo, Ta ahd W wires and developed from first principles the heat'balance equations, considering the loss due to radiation and conductivity only. The method in recommended on account -of the relatively simple apparatus and relatively high accuracy, and was tried within the range from 0 to 12000C. It was found that within the above range, .the thermal conductivities of all the metals studied decrease with t,emperature,., There are 7 figures. ASSOCIATION: Flziko-tekhnicheskiy institut AN UkrSSR (Physico-Technical Institute AS UkrSSR) C-ard 2/2  S/12o/62/ooo/ool/o48/061 E039/E485 AUTHORS: Gunienyuk, V.S., Ivanov, V.Ye., Lebedev, V.V. TITLE; The dQterniination oC the ther-mal and elet-Lrical conductivity of metals at temperatures h:LS;her than looooc PERIODICAL: Pribory i telrlinika eksperimenta, no.1, 1962, 185-189 TEXT: The investigation of the thermal properties of metals and alloys at high temperatures is of considerable interest in the theory of metals and for practical applications. There is no published data in the Soviet literature on the theri-.ial conductivity of refractory materials and only a limited number of non-Soviet papers. In the method described the sample in rod form is heated by an eiectric current in a vacuum. Differel~tial equations are set up, taking into account the Stefan-Boltzinan radiation law, and formulae are derived for determining the coefficient of thermal conductivity and electrical conductivity of the sample material. In order to obtain the required data it is necessary to measure -the potential difference on the worl~ing length of the sample and also the temperature distribution over the Card 1/2  S/120/62/000/001/048/061 The determination of the thermal ... E039/E485 same length. This must be done for two samples differing either in length or diameter. The samples are held in water cooled clamps in the vacuum chamber and the potential difference along them is measured by means of two tungsten or molybdenum probes and a potentiometer. The temperature is measured by means of a micro-optical pyrometer omn-oiq (omp-619), fastened to the moving carriage of a cathetometer, which enables an accurate temperature distribution to be obtained. The theri.,ial conductivity X and specific resistance P for tantalum is shourn to vary from X = 0.1129 cal/cm sec OC and F = 50.50 micro ohms cm at 900'C to X = 0,0904 cal/cm sec OC and 0 = 108.112 micro ohms cm at 25000C. There are 4 figures and 1 table. ASSOCIATION: Fiziko-tekhnicheskiy institut AN b1crSSR (Phym1cotechnIcal Inst�tute AS USSR) SUBMITTED: May 11, 1961 Card 2/2  ACCESSION NR: AP4024186 S/0294/64/000/001/0029/0031 AUTHOR: Amonenko, V. M.; Vlyugov, P. N.; Gumenyuk, V. S. TITLE: Investigation of thermal expansion of tungsten, molybdenum, tantalum, niobium, and zirconium at high temperatures. SOURCE: Teplofizika vy*sokikh temperatur, no. 1, 1964, 29-31 TOPIC TAGS: tungsten, molybdenum, tantalum, niobium, zirconium, thermal expansion, high temperature thermal expansion, relative elon-! gation, thermal expansion coefficient, zirconium allotropic transfor-1 mation ABSTRACT: The relative elongation of the metals was measured with an' improved contact-making vacuum dilatometer (V. S. Gumenyuk, Pribory* I tekhnika eksperimenta, no. 4, 1961) used in conjunction with an optical pyrometer (800-2000C range) or a Pt-PtRh thermocouple (200- 1200C). The length measurements were accurate to +I~L.(l per cent at bigh and 3 per cent at low temperaturea , and the temperature was uniform within 50C- A 2ung8ten resistance furnace was used to heat the tested metals (zirconium to 1450C and the others' Card 1/1',?-  ACCESSION NR: AP4024186 to 2000C). Empirical formulas are derived to fit the temperature- vs. relative elongation curves obtained, differentiation of which yields the-temperature variation of the linear expansion coefficients'. The kink in the curve for zirconium (beginning with 8650) is due to its allotropic transformation. Orig. art. has: 3 figures and 5 formulas. ASSOCIATION: Fizko-tekhnicbeskiy institut AN UkrSSR (Phymicotecbni- cal Institute, AN UkrSSR) SIMMITTED: 27May63 DATE ACQ: 16Apr64 ENCL: 01 SUB CODE: PH, ML NO REF SOV: 004 OTHER: 003  Koar"hw, K.A., glav. red.; SIIEVL~ithOV, A.S., red.; L.L., red.; SI-TTAI;'KD,A, N.P., red.; YEGOi,T!, 'Yu.P., red.; FrlCNANKENICH, '.,'.Ya., red.; rMINETSOVA, '.F., re1j.; FAMIKO, Z.N.., red.; KACHAN, A.A., red.; VGYTSEKHCVSKIY, R.V.~ rod.; GREKOV, A.P., red., DIDIANSKrI, I.A., red.; AVDAKOVA, I.L., red.; V,,*O'(,'TSKIY, Z.Z., red.; V.S., red.; MELINIK, A.F., I,ed. (synthesis and physical chemistry of polymers; articles on the results of scientific research] Sintez i fiziko- khimiia polLmerov; sbornik statei po rezulltatwf, tiriuc lino-isslodova Lol I ski kh rabot. Klcw, Naukova duruka. 1964- 171 P. (MIRA 17: 111) 1. Akader..iya nauk URSR, Kiev. Ipstitut khimii vysokorroleku- Iyarnykh soyedireniy. 2. Institut fizicheskay kl~inii ijr,. L.V. Pisarzhevskogo P11 USSR (for Vysotskiy). 3. Institut khimii vysokomolekulyarnykh soyedineniy Ali US&t (for Ramankevich, Cherviatsova, Voytsekhovskiy).  1 -7 P~i 7 ~!T' isT j_-E A 1. 11- L 257~-3-65 F*Wr'r-' iLPF", WT 11,ii7`j f 4rl /WF. ACCESSION NR: A15002670 S/()000/641'Ot)O/(;firDfOI6~101~17 AUDIOR. Bessonov, V. G,,; GUMEnyUk, V, S.; Ty$11keViCh, 0. ik. ;7 -.:7T7- J7 TITLE: Me effect of Mlers Gat the modulus of eLasticity ,if' glaiiei plasticil SOURCE: AN MrSSR. Institut khUmft V sakcMalckulvarnykh sove~dLnnrtiye SLitte* f U_F~_a f :' ztko-khiniya polimerov; sbornik statey p0 rez 17~a_ nam: -Nno- iA i Ledavn te 1-' clk. fuh rabot (Synthesis and physical che=istry of polX~!ers;fcollectton od artLcles (In the results of scientific research work). Kievq Haukova dumcka, 1964, I.fiZ-167 TOPICTAGS: glass plastic, glans plastic elasticity, pollmn. polymer density, ABSTRACT: The modulus of elasticLty$ E, of viniortented a 0.es 'cif glans pli I;tic* was determined experimentally in order to study its dependence (6 'gertility mnif the amount of filler. Experimental values of E ~mre derived front the def orl.4ftiott of f tat and annular samples under loads measured with tempoiaetecii and the STJ) statistical deformation meter, and from frne vibration measarements. 9 wall shown to depend linearly upon the ratio of the cross sectional aTea of t%e filler to ehe total cross sectiewl area. An,empiricalformula derived deftnen 8, in units a bars, as 2 .8t E 1,107 Card 1 RIM HP14M  L 25769-65 ~.!.ACCESSION NR-. ATS002670 fbeing density and e:Q and Q 't being Qn.10M./Ost, wher are,* e weight'of filler and glass plastic$ respectively. The deviation:of caJculmtO;d Ef r(x~ Oxet' experim-antal values was shown not to exceed 8% jand the fdojula 6aa be used: for the design of machines and apparatus containing glass plastic catipcinents. OU&' I art. has: 5 figures$ 2 tables and tO formulas., ASSOMMON.t Institut atakhafliki AN Mr-959 (Wobadoo rdatOute, SIJMIIMZD-. W=64 ENCL: 00 M MIIE: RT 110 RET SOV: 004 Cc-rd 2/2 000  _7 Tj I (Ai  L 610150'j-65 EPF(c )/FPA(,-, )-12'/El, I Pt' j W serf (m)/T N-,-r'j/Fr-bf/Pa-4 Wi/d~l ACCESSION NR-. w%17127 A. (fUev); Lositnkiyj 7. 1. AUTH0Fu3-. oujra,,jyu1,,j V. S. (Kiov),- TITLEt Effect of to-,werature on mechanical properties of ribell-lass rod'mforc'-d I', j Plastics SOURCE: Prikladnaya makhanika, v. 1~ no. 6~ 1965j 132-96 I propeity, jield ,itrouglith, teim) TOPIC TAGS-. ftberglass, stress load, mechaiuc-q ature dependence, Poisson coefficient, compression streng-th, el'atiticity mod-m-lus, tensile strength/ GMS 50 machind, M 4 epoxy, 0 30 nia-ahine, MF ",;2 3Q1 Textolite~ ABSTRACT: The mechanical properties of several fiberglass were investigated under normal and elevated tenTerature conditionij. 2111") Mochanicoll tests included coriwres~sion, tension, and impact deflecti-Qn betilretan teripe-ratures o6 233 and h23K. Them unidirectional specimens were tension teste,4 in a Gkl.13-50 rmc~lilic~~ and the elasticity, in 30-ton universal -machine RN-30, Tito sj)(*,jamen.,;-,,:1m,e oinall. ;Ln!; size, avoragrin,-, 10 x 10 x 15 rim and 15 %r 15 x h0 mit. Strain were made by wire strain gauge3 and by inductive detectors, The boiledi irstits, '16t34ud were epoxy-phznolics M-4. The test results are given in t~i;~.*a-r ais w-oll as in  L 61057-65 ... ...... . ------ ACUSSION NR: AP5017127 graphic form. The first table listo the properties of, unid ire ifiburgla 4J; reinforced plastil-s and the scco,,42, Vic propartler, oUplaso livdtiatwio Analyt 0 expressions are quoted for yield strength, elabticity modulus, aiNl Poitiaon, 5 couffjcj.ent Cox, the fiborgi.-jes, reinforcod plastic spnimeno, Tkio remillo shaj thati under elo,~--tod teilweratures the tensile strenGth dooraawa'q slilykitly blit. U10 compressive strength falls sharply~--by about 1OA& of its value, al. the 119~Lteiaper- I ature. Orig. art. has e 4 figures, 3 formulas, and 2 tables. ASSOCIATION- Institut mekhaniki, All U?xSSR (~msiitute of klachalAas, All Ukr=.),~,)~i.510. SUBUITTED -. O40ct64 ENCL: 00 SIM GODII-30 DIr NO REP SOV*. 000 OTH&Rt COO ~-Card 212 F 'Mift W- 1111"I'll TR 11,4141111 UP -T'.I;f~ a In 11 '13M 1''M 41,11; 1 1  L ij.898-66 qrru),~ 4ra W/EY'T _N' UR/0294/65/003/oo6/0936/o937 ke Ap6oo 1920 AUTHOR: V'yugov, P.N.; Gumenyuk, V.S. ORG: Physicotechnical Institute AN Uii~SSR (Fiziko-tekhnicheskiy institut 1k-ademii nauk UkrSSR) t f 1 M-In the 1500-300000 TITLE: Thermal expansion of tungsten and tanta u1 temperature region SOURCE: Teplofizika vysokikh temperatur, v.3, no.6, 1965, 936-937 TOPIC TAGS: tungsten, tantalum, thermal expansion, high temperature metal ABSTRACT: Up to the present time, the thermal expansion of tungsten has been studied only up to a temperature of 20000 and that of tantalu up to 27000. The present study exptnds the limit up to 30000 (in vac- uum) for technical grade tungsten4~Lnd tantalum. The experiments were carried out in a high-temperaturelvacuum' dilatometer and the samples were heated by an-ele-etrIZ our-rent. The samples were in the form of rods 2 mm. in diameter and 200-240 mm long. The experimental results are shown graphically. It was found that the relative thermal expansi as a function of temperature, within the limits investigated, can be expressed by the following empirical formulae: .41  L 11898-66 ACC NRt AP6001920 for tungsten: L/Lo = -6.6 x jo-5 + 3.7 x 10-6 T + 8.7 x 10-10 T2 for tantalum: LAO = -1 x 10-4 + 6.5 x jo-6 T + 7.45 x 10-10 T2 Where Lo is the length of the sample at 200; T Is the temperature ofj~ a the sample. The values of the true coefficients of linear 2ApansLon in the temperature Interval Investigated can be expreneed by the following relationships: for tungsten: alpha = (3-7 + 1.74 x io-3 T) x 10-6/degree for tantalum: alpha = (6-5 + 1.49 x io-3 T)""ic 10-6/degree. Orig. art. has: I figure. SUB OODE: 20,11/ SUBM DATE: 06Feb65/ ORIG REP: 003/ OTH REP: 002 Card 2/2  J. 8952-65 k;E0-2/E1-J1T(d)/aik(s) -2/&JT.(n)/EFF(n) /aip E P b) ff-_JP b) M(h) Pm-4/Pab-24/Pac-h/Pt-IO/Feb/Pu-4 ASD( Mi 7 ACCESSION M AP4043096 S/0185/6~ 076 !G 7613 4100',toon I AUTHOR: Vf.yugov, P. He; Gumenyuk# V, S; -temperature ultrasont I TITLEi High, 10 SOURCE: Ukrayinalkyfey fizy*,chny*y zhurnal, V 90 !'no* 7,j 1964 7 6-' :6 768 TOPIC TAGS.* ultrasound, ultrasound velocity measti-remdItt, high ~t~amp- erature ultrasonic interferometert liquid, met&10'11L~01.jFie till a' 0"u, n d velocity ABSTRACT: Figure 1 of the Enclosure shows a scihema~ic dl.agram, of 'a hLgh-temperature ultrasonic Lnterferometer for MeiiaurAng the velocity of sound in liquid metals and alloys. A~ivpoqlr.94c faa~:uxa of the interferometer to that It conducts sound 4: it the ma ta I ba~L'ug- studied through a solid bar of the same Metali rtczoe~ewent 4 'a, X the ultrasonic transducer to held against the bottiom ffime of se'lId bar 6 of the-metal being invastigatod. The lovl$r~jjorfl'on of-the:. bar to water cooled in chamber So Tha remainder di f thi; bar paciiis Card  L 8952-65 -ACCESSION HR: AP4043096 through tubular electrically.heated crucible I in,;,,Whic~~:a length 6 of thebar from the top face down is Miettldd &nd.kiipt 4t~t~tha requlreii' temperature. The botton portion of the molten bar Mol'it4ifieff, sthus. preventing the liquid metal from leaktng out. Reftect,411, 9. Maaa cf~, a refractory metal which can be positioned a ~reqitired humber of h a ljr-~ waves from the,oolidified layer of,the -melt. detarwinti,4i ~the distancol along which 'the velocity oksound to measured by* CA~e c4iri*in tionlai method. X barium titanate Lezoplement, 2 Mm En I thickoesa and V,8 mizw In diametei; operates at a current frequency of U00 qlia.3 k. C. T120 maximum operating temperature Is limited only by tilia Ell.-Sit rmais~tjzacqil of the material of the furnace sa4 reflectors and.'Tcan $0 raimed ta 1500-2000C. The measurement error is about 0.2-4 .3%. The veli:~aitllj of sound in liquid tin in t4e 260--600C temperature r&#&P. wma foludd to be 2841 t 7 m1sec.1; whi.,:h agream wel'I with tbel ttal~zi;ture daitil* The velocity of sound In liquid dlumLaum at 750C sks totild to bh1t -several per cent lower than in the solid metal. Ott r, !art, has~t' 1, figum and I table. HIS. ASSOCIATION:' FLZYfto-tekhntch*y,* u ,y Ina tit t AN UktSS IRv K. a ~W cotochmical Inatituteg AN UkrBSR)' Card  it 11. 1 Mill I IT, 7 7 ED Hl MI,4   Gunc. &Jr -V law wk,~, Determining the frequency of free vibrations in orthotropic plates. Dep.AN URSR no.1:39-41 '56. (HLRA 9:7) l.Institut budivelinoi mekhaniki AN URSR. Predstaviv diyaniy chlen AN URSR M.V.Kornoukhov. (Elastic plates and shells) (Vibrittion)  GUMENTUX, V.S. I Free vibrations in Plates of variabli thickness. -Dop.UX URSR no*2-.130-133 156, (MLOA 9:12) 1. Institut budivellnoi mekhaniki Akademii nauk URSR. Pfedstavleno akademikom Akademii nauk USSR N.V. Kornoukhovym. (Elastic Plates and shells)  GURRIYUK, V.S. (KIIv) Determining the lowest (basic) frequency of free vibrations in rectangular orthotropic plates. Prikl.makh. 2 no.2:224-226 '56. . (HLRA 9:10) 1.1natitut budivellnoi mml-haniki Akademli nauk URSR. (Vibration) (Blastic plates and shells)