SCIENTIFIC ABSTRACT GULYAYEV, G.V. - GULYAYEV, N.F.

lltlf-,.r~ain Mct'io6s for t ie ic-al -lit o- Sef,-i-,; r:- Liprin. in the In-,I.ia'j. of Seed Plan:.:1 !, Uor con~itiun3 oC Ilooden St,3!:[ ez, of the Southeastem USSR). t? Cand AEr Sci, Saratov AEricultural Inst3 Saratovlt 1953, (RZhBiol, 110 3, Oct 54) Survey of 6cientific and Teclu-Lical Dissertations Defended at USSR Ugher Educational Institutions (10) SO: Sum. No. 481, 5 Ila,,, 55  G'Ji Y!Y'~ ~1, C' . V a; Pf'jLAKI, -. S. Anctt,ics of the theiTm.1 decc)m,-Y.)slticn of methane, Kin.1 kat. 6 no.3:399-405 My~Je 165. (MIT-A 181l0) I. Tnstitut neftekhimicheskogo iginteza imeni Topchtyeva AY SSSR,  SOV/70-4-4-9/34 AUTIIORS~ Sanadze, V.V. and Gulyayov, G.V. TITLE: The Decay of Solid Solutions in the System Nickel-gold. I. PERIODICAL: Kxistallografiya, 1959, Vol 4, Nr 4, PP 526 - 533 + 1 plate (USSR) ABSTRACT: The nickel-gold alloys, containing 0.7, 1.12 and 1.72 at.c,. Au, have been studied by the method of successive annealing. It was shown, by X-ray diffraction, micro- hardness and electrical conductivity riteasuromonts, that in these alloys a two-phase decay of solid solutions rich in Au takes place at comparatively low temperatur.s, but that above 500-600 0C, two-phase decay proceeds in solutions based on Ni. Alloys of the three compositions were made by fusing Ni and Au in a corundum crucible in a vacuum furnace. -5 mm dia cylinders were turned from the specimens and etched with 500,'o HNO , 50','~ CH-C0011 for X-ray examination. 0Parameters weK found ?rom the IL20 CUK doublet at 78 301. Specimens, both rods and plates, a L were annealed at various temperatures between 250 and 925 OC. Those quenched from temperatures higher than Cardl/4 925 OC had the single-phase P-solid solution structure.  SOV/70-4-4-9/34 The Decay of Solid Solutions in the System Nickel-gold. I. The equilibrium diagram of the Ni-Au systew shows that the limit of the solubility of Au in Ni belov, 300 0C ha:j not been exactly established, although extrapolation gave some basis for the assumption that at room temperature Au was soluble in Ni to the extent of at least 1-1.5 at.5.. This was why the particular concentrations used here were chosen. For the Vo lower concentrations, metallographic examination failed to show two phases and only the increased background or weak lines in the diffraction pictures showed that at room temperature the alloys were not single-phase. For studying the transformation proceeding in the Au-rich a-phase, the measurements of X-ray background and electrical resistance were particularly valuable as these characteristics were especially sensitive to changes in the finely-dispersed components of alloys. As a result of the increasing solubility of Au. in the Ni lattice with increasing temperature, non-uniformities begin to be produced in a-solid solutions which decay into a Card2/4 and a' phases poorer and richer in Au. There are two  SOV/70-4-4-9/34 The Decay of Solid Solutions in the System Nickel-gold. 1. solid solutions co-existing in one and the same base but of different concentrations and this indicates the occurrence of two-phase decay of the solid solution. The impoverishment of the a-solid solutions with respect to Au leads to the formation of ordered structures, first Au 3Ni, then AuNi and, finally, Ni3Au. At higher temperatures (above 500-600 OC) the P-solid solutions begin to decay. These modes are very complicated and are summarised in a diagram. Exfoliation of the P-solid solutions proceeds with the separation of gold-rich phases (0, P~ and PI ). This process in turn leads to the formation of ordered structures of the N!3Au type based on the P-solid solutions. It is clear that all the phases mentioned are not stable and only express separate stages of the process, its kinetics. The process consists of the meeting of two diffusion currents leading at high temperatures to the formation of a homogeneous solid solution. Card3/4  SOV/70-4-4-9/34 The Decay of Solid Solutions in the System Nickel-gold. I. There are 9 figures, 1 table and 6 references, of which 4 are German, 1 English and 1 international. ASSOCIATION: Gruzinskiyrpolitekhnicheskiy institut im. S.M. Kirova (Georgian Polytechnical Institute imen-i S.M. Kirov) SUBMITTED: April 8, 1959 Card4/4 7-1,~',`~-~H''~i~ ji~ 1  AUTHORS: Sanadxe, V. V., TITLE: Decomposition of Solid Solutlori.,i in NLcIcel-Go-"-d Alloys PERIODICAL; Kristallografiya, Vol 4, Hi, I-), pp (USSR) ABSTRACT: Continuing the subject ot' Lheit, p-~eviou!'- (Abstract 7-4873, KrlstLiljo--r -t t I phase ti,ans- The author-3 examined the Colir~le 0- Itions in the nickel-gol(I alloys with higher, Au contents than In reviou,1 ex,)erlmen~c;. The cont-ents of 10 .071% Au., -.L4 Au, 19.5%) Au 0.~)' 4.8' atomic %, respectively) ~-.-ec -ure:4 two-pha 1e -~y~;tculs at indoor temperatur~eo. The tran;;iij Lon;15 and the compounds, resulting ft,om them at the annealing temperatur-e.- varyLnj-... from 21'0 Lo C are shown In PliT. 10. It c;ul 'he -een Uhut' t he redi3tribution or atornst In the -phrase, rl.ch In gold, first lea(Is to the of,Au-'~-i with Card 1/5  Decomposition of Solid Solution.,~ in Hickel- Gold Alloys an ordered cvystal structune tinu CC- oh~Iea `ti-! a lower Au content. The increase leads to the o,,' vlol:-e L;o"Iti In the 1,7 1 a n (~k -phase on the expense o" AuNi .-;hich consequently at certain teinperatuirct,; . The A!I,l cor-iton't phase rrtve,-~ luo ilhe o;,' in the -phaf-,e, o~ whlch~. Ln -a pl,asc, taking the exce:'*:* C, all the 1, r.~a~n~~ It Lot one in anol-her forming '.e position . The unit- uel I lot i~-, o' f:ic c were c-letermined 'to t~he I- o ort:, - int taken at variou3 temperat, uve.; . The a, of their cubic cc-~lls :-.'j "n !,n parentheses. The -,..Llov.-; of 41-he ~:'!_Cfeve'nil' positions, annealed at vf~riouc~ tempeP_,ture',-;, hl'ave been tested for the hardues:~, Hp- In units, 10)Q and electric vottintIvIty. f) III The for the Ali Card 2/5  D e c ompo s -j t 10 n o "o or r Gold AlloYs 'k 14- 7 inJoar +wm p -a r0*v rv. 61jjJ21 aP970) APSIN Soo - 500 AuP 700 ey ?Nhfh~ HiAll luth NYU "rd 3/5 Pig. 10  Decomposition of Solid Solutior)3 Ln Gold Alloys H P I CAf Z29 zip 11 - P 200- 1.90 10- 180 170-3 160- 130-8 140- Fig. 6 G-ard 4/5 1 P ig. I  1)" 4! ompo'l o1i (to 1 A )jii A,SSOCIATION: SUBMITTED; are shown In Pig. The change:--- In the I(Jentil.ty periods, electric resistivities, and hardnes3e-- ~,,Iti-, the change In the Au content are lllustr,'-~ited in FIL'-1. 1. There ave 10 figuven; 5 arj,-i 2 1. Soviet 1. 13111ti-I'll. "I'lle flannon, Cowil,1t;uLlon oV DI.tinvy Alloy(!, 1,owlou, I g.rA Geot,glan P01yLeCIMIC' IWHJUL111-0) 1111C,1111 r), r1. K1.110V (Gruz'Insk1y poll-teldinlehookly Ltvitltml; Iment S. M. Kirova) April 8, 1959 C-ard 5/5 -- .- I  3 771C, S/139/62/000/002/002/028 EI1l/EI35 ."LUTNORS: Sanadze, V.V., and Gulyayev, G.V. TITLE: iUnotics of recrystallization in nickel-gold alloys A,-- itlOOICAL: Izvestiya vyssIxikh uchobnyldi zavadoiiiy, Fizika, no.2, 1962, 15-20 T~;.~T: Previously the authors studied phase transformations occurring through mutual solution of phases in nicIlizel-gold alloys. n ~ The study of their recrystallizatio properties is the subject of the present article. The four alloys studied contained 3.66, 1 5.5, 10-07 and Au by weight. All were vacUUm-melted, annealed and slowly cooled, and were found to be two-phase. ~Iojd-rolled (deformation up to 96-98~0') specimens 0.06*.nm thick were annealed for various times and temperatures and ifere studied by X-ray diffraction and micro-hardness measurements in order to find the temperature of the start and end of recrystallization. Except for the longest holding time (60 min), the curves of the temperature of the start and end of recrystallization as functions of -gold content had two maxima; at about Ii and at 10-12',,o Au. Card 1/2  I Kinetics of recrystallization ... S/139/62/000/002/002/028 E111/E135 The effect of diffusion, which reduces stresses in the deformed alloys, leads to an increase in the recrystallization tenperature. A further important factor is the appearance of intermediate states which can affect the temperatures of the start or end of recrystall�zation for the shorter holding times. The activation energy of the start of recrystallization rises froin about 37 kcal/g atom at about 4'/~O Au to about 79 at 10, and about 80 at 15; the curve is similar to that of the temperature of the start of recrystallization for a holding time of 60 min. Evidently gold atoms, reducing the surface tension, increase lattice bonding forces when they penetrate its grains, thus raising both start and end temperazures of recrystallization. Professor V.I. Iveronova gave valuable advice on this work. There,are 8 figures and 1 table. ASSOCIA,riox; Gruzinskiy politaklinicheskiy institut imeni V.I. Lonina (Georgian Polytechnical Institute imeni V.I. Lenin) SUJ,-iITTED: December 20, 1960 Card 2/2  SAUADZE, V.V.; GUI,YAYFV, G.V. Phaso diSS011.1tiorl ill tho ayaLorrt nickel-gold. bakl. AN SSSR 158 no.1:89-91 S-0 164 (MIRA 17:8) 1. Gruzinskiy politeklmicheqkiy infltit'llt Imon! V.1. Lenina. Predstavleno tikadonikom U.V. Beiov-.~m.  L 59531-65 E0T(rn)/EFF(c)/ 1ACCESSIOR HR: APS016810 W0195165/000.003/0399/0405 547.211 5426~3,21 541. AUMOR: ev G. Polak L.,G. ~My Y TITLE: Kinetics of thermal decomposition 'of methane SOURCE- Kinetika i katalizi v. G, no. 3, 1965, 399-405 TOPIC TAGS*Jkinetics io methane, acetl' thermal decomposit n, y1ene JABSTRACT: A mathematical treatment of the kinetics of therfilal dd(-Capositiail of methane was given assuming the conditions of: unlimited spitive, of i:6nceii- tration and temperature gradients, and instantaneous heat-up of gass to reaction tem- perature (tire *_i' zero). For such an idealized system a f armula wd% derived for ciil- iculating maximum residence time of methane at:reaction tampf~ratuxm ;to achie-;+ a maximu'm conversion to acetylene; A3 Is t'r'li rat 1where: X? is the rate constant bf themal decomposition ofethame' I.Card 1/2   6/844/62/000/000/105/129 D204/DjO7 AUTHORS: Gulyayev Davydov, B. E., Krentsell, B. jL., Pata- lHu -'all (I Polak ij. J. TITLE: The effect of radiation on sumico.ndUCting polyi,,ieric ma- terials SOURCE: Trudy 1I Vscsoyuznor,o soveshchaniya po r-adiatsionnoy khi- mii. Ed. by L. 6. Polak. Mouc-ow, Izd-vo AN 5~33R, 1962, 621-624 TEXT: The effects of 1-' -and electron irradiation on polyi:iers based on polyacrylonitrile (PlIN) were studied, to determine the nature of sucli materials. The (pourdered) specimens were prepared by catalytic or radiational polymerization; a polyacrylonitrile fabric was also 10 -I -1 tested. The specific electron conductance ((T, 10- 01-Ims .CM ) of hot-pressed (15,000 ati;i, 3500C) radiation polymerized PAN was lower than that Of CatalytiC,-Illy polymuriZed ?AN (-2.6 - 3.6) and de- creased, by a factor of 10 - 15, %--iith increasiriv., power of tile dose to infiLIC0 pO1,'/r110riZ,.1tiOT1 106 r, the r-iteo- were varied from 261 Card 112 11J11: 1Q... 1 P  /d,14/62/000/000/1 05/129 The effect ol' radiation ... i)L:'U,I/D,;07 to 140 r/sec.cn 1; 5, -it 250' ). Tile o of catalytic PAN polymerized ~-Lt 28 r/sec.cm5, iriurcLwed on irradiation with (loces, ui) to -10 und reo,; e (,, t iv e LY Lit 5 1-1r; fUrthCr ilICI-0,10e only Tile T of PAN po'-jmcrized at 75 uid at 140 was un,,iffected by irradiation. Tile ener,l'y ).' -Ictivation (= O.,~ ev) remtiined con- stant in all cases. The specific conductance of PAN 11,ahric increa- sed on irradiation, from -10-5 at 0 to ~.10- '5 0111,1- 1 (-M- I-at 140 Hr, whilst the energy of activation fell from 0.33 t") 0.2 ev. 6imilar effects were observed by SUbjecting the fabric t) 0.7 Nev electrons. The variOLW chun;,eo ob.,erved in thOGe Ue1IIiCOndU('ti!,t,' poly[-,Iers on ir- radiation are aocribed to ~iiffL;rences in the inacrtmtrLlCture of the polymer. There are 41 figUres. A63JCIATION: IYIStitUt neftekhimicheskogo sint,2,-,a AN 5j,'3R (In3ti- tute of Petrochemical 'O'ynthesis, AS U.;JR) Card 212  h3533 S/204/6~/002/005/007/007 A I*L 0 E202/E192 AUTHORS: Gulyayev, G-V-, Kozlov, G.I., Polak, L.S.,. Khitrin, L.N., and Khudyakov, G.N. TITLE: Conversion of methane into acetylene in a plasma jet ]PERIODICAL: Neftekhimiyat v.2t no-5, 1962, 793-794 TEXT% Acetylene mynthesiN was studied quantitatively in a constricted arc plasma torch. The working parameters of the latter were as follows: W-cathode, Cu water cooled nozzle-anode, input 15 kW, power to Plasma 9.5-10.0 kW, current 280 A. working gas - argon, at 60.3-58.0 litre/min. Methane was introduced above the W-electrode at rates 6.7-49.7 litre/min. The temperature of pure Ar plasma was calculated approximately at 10 000 .K, and the time of residence of methane in plasma approximately 10-5 sec. The product gases were sampled along the plasma jet axis at various distances and analysed chromatographically. In contrast to tile results of H.W. Leutner and C.S. Stokes (Ind. Engng Chem., v-53, 1961, 341) the authors found that almost 100~0 of methane had reacted and the co'nversion into acetylene was approximately 80%. Card 1/2  Conversion of methane into ... S/204/62/002/005/007/007 E202/E192 The authors claim that their present rate of energy consumptioh of 15 kW.hr. per one m3 of acetylene could be considerably improved by replacing the argon with methane or hydrogen and increasing the power of tho plasma torch. There are 1 figure and 1 table. ASS6cIATION: lnstitut neftekhimicheskogo sinteza AN SSSR (Institut4~ of Petrochemical Synthesis AS USSR) Energeticheskiy institut im. G.H. Krzhizhanovskogo (Power Engineering Institute imeni G.M. Krzhizhanovskiy) SUBMITTED: july 14, 1962' Card 2/2  S/020/63/148/003/035/037 B117/Bia6 AUTHORS: Gulyayev- r', V-. Kozlov, G. I., Polak, L. S. Khitrin, L. N., Corresponding Member AS USSR, Khudyakov, G. N. TITLE: Trans fornia tion of methane into acetylene in the argon plasma beam PERIODICAL: Jlkademiya nauk SSSR. Doklady, v. 148, no. 3, 1963, 641-643 TEXT: In order to reduce the specific energy consumption during production of acetylene and to achieve a high degree of transformation of methane into acetylene, experiments were made with argon plasma beam. The latter was produced in a 15 kw plasmotron by a stabilized argon discharge ignited between a tungsten cathode and a water-cooled copper anode. Plaspa was discharged throu,,h a 3 min jet into the anode. Methane was introduced into the plasma beam through special openin-a in the jet wall at an angle o:r 900 to the direction of plasma discharge. Reaction products were tested chromatographically for content of 11 2' CH4' CA' C2H4 and C2H2 . The dependence of the degree of cracking of methane on its consumption was investigated at 280 a, a power of 9.5 kw and an argon consumption of Card 1/3  S/020/63/148/003/035/037 Transformation of methane into ... B117/B166 60 1/aiin. The analysis of gas specimens show'ed that the specific energy consumotion is lower in the center (along the axis) of the plasma beam than in the crozo section of the total beam. A sufficiently high degree of cracking could be obtained at the Ovivalent of 5000 OC along the beam axis arid a methane consumption of 30 1/min. In this case the specific energy consumption was 15 kNvh/, ,,3 C2ifq per 1 Nm3 of the acetylene produced. 80;4 cracking in the complete plasma beam could be achie-ved only at a high specific consumption (- 40 kwh/m3 CA). This may be traced back to relatively high energy losses in the jet walla. Though the specific energy consumption could not be reduced by increasing the amperage (up to 435 a) a certain reduction of the same (down to 24-kwh/m3 C H could be 2 2) achieved by using jets of larger diameters (4.5, 7 mm) and simultaneously increasing the plaamotron power (to - 12.5 kw), as well as by shortening the electrode dista -nce. Experiments with 4.5 and 7 mm'iets showed that the specific energy consumption would be about 13 kwl-,-- C 2H2,in a standard plasmotron of -M; efficiency and an argon plasma beam. Further possibilities of using plasma beams for endothermal chemical reactions are Card 2/3 J-  S/02o/63/148/003/035/037 Transformation of methane into ... B117/B186 here invest4gated: transformation of methane into acetylene in a 200-kx plasinotron with ar6ori, hydro,,en and other carrier Cases; transformation of propane, butane and the propane-butane fraction in the plasma beam; production of bound nitrogen in the plasma beam. There are I figure and 2 tables. ASSOCI101ION: Inatitut neftekhimiche3kogo sinteza Akademii. nauk-SSSR (Institute of Petrochemical Synthesis of the Academy of Sciences USSR); Energeticheskiy institut im. G. M. Krzhizhanovskogo (Power Engineering Institute imeni G. M- Krzhizhanovskiy) SUB11ITTED: October 13, 1962 Card 3/3  BURM N."e,,, DAM;R, Ve.f,.~ GULYAYFV, G.V.; --rk',yy.C.V, pI.M. Ily-per-went'llation Letany during light anertheala. Fksp. (~CRA 1?.,6) Mir. i anest. 8 n0.5.-84-87 S-P, 163. 1. Kaf6dra anepterLologil (z,-.v.- dota-ent Ye.k. Damiri' TSentrallnogcj instItuta usoverEheristvovaniya vrachey, Moskira.  GULYAYEV G.J. - - I -- Appendicitis in a case of total visceral inversion. Khtrurgiia no-5: 76-77 KY '56. (MIRA 9:9) (APPWWIGITIS) (VISGERA-ABNOWLITIXS AND DEFORMITIES)  --GU,LYAYZV,, G.V. Disturbances in eiWrnal respiration in-thoracic surgery. Report No.l: Changes in respiration in relation to the position of the patient on the operating table. Eksper. khir. 4 no.6:30-37 11-D 159. (MIRA 14.6) 1. Iz kliniki torakallnoy khiruxgii i anesteziologii (zav. - prof. Ye.N.Meshalkin) TSentrallnogo instituta usove'rehenstvovardya vrachey (dir. M.D.Kovrigina). (C HES T-SURGERY) (RESPIRATION)  GULYAYEV, G.V. Disorders of external respiration in thpraoic surgery. Part 2. Respiratory changes during surgical pneumothorax. Eksper. khir. 5 no.1:14-21 Ja-F 160. (MIRA 13:12) (PNEUMOTHORAX) (RESPIRATION)  . t i !j ? / , -4, ' i - - GULYAY~~V, G. V. , Cand lNed Sci -- of the functIon L41, ~,-LJA- -I--, -- J- - - (,~, 6.u1 external biii~fln Intrathoracic opera- tions." Mos, 1961. (Min of Health USSR. Firz;t ',.!os Order of Lenin Med Inst im 1. 14. Sechenov) (K1,, 8-61, 260) - 454 -  DAK-R, Ye.A., SADYKOV N,M.- GULYAYP1; G.V.; PLATIONOVA, Cliaracterlsl-icL- of anesthesia in emergenc,.y surgicall Intei-ventiong. Trudy InE!r. im. N,V. SkIlf. 9-,175-18L' '63~ (MIRA 18-6) 1. !z kafedry anestezl~)Iogll.i 1-5entrallnogo Instituta usovershen- stvovaniva vrachey (zav, kafedroy - dot-s-ant Ye.A. F-amir).  SUKHININ, P.L., prof.. RUSANOV S.A., prif.; GULY0';--V, 6.V., BOLDINSKlY, T.I.. doktor; 1111,Y0J,"', proll.; prof.; LIPS KIY, doktor; GOLTHI-RG, F. I., doktor; ZHOFfOV, i S. JMTCHOK, Ye.V., doktor, MARTYNOV, A.T., doktor; CRO!,UOV, D.M., prof,; KOTOV, I.A., doktor; SKATIN, L.I., doktor; PIKOVSKIY doktor.. dotsent; SMIRNOVA, Ye.S., doktor; SMOPYANNIKOV.. A,';., UKHANOVA, N.V., doktor; PEIROV, B.A., prof, Discussions at the session. Trudy Inst. in. N3. Skl--. 278-303 163. (MIRA 1. 1 gorodskaya bollnitsa imeni Lenina, Saratov (fcr -Skaz.--n). 2. Kafedra gospitallnoy khirurgii lechebriogo fakullt.ata Gorlkovskogo meditsinskr-o in5tituta (for Pikcvsk,'y). 3'. Gosudarstvennyy onkologicheskiy instifut imeni llertscra, Moskva (for Smirnova).  -GULT4L_ Ivan j4lekeandrovtch: GERMAN, V.Yo., ro(h%!.or. MANINA, M.P., .1 , tekhnicheskiy redaktor [Hunting fur-bearing animals) Okhota na pushnykh sverei. Moskva, Goa. izd-vo "Fizkulltura i sport," 1956. 79 P. (MIRA 9:12) (Hunting)  Vi',ROKIIIII, IT.M.; CAJLYAY&Y, I.A., agronom; RUSIHOVA, R.D., luluchr~)-y notrudnik Frunze Collective Farm in the Altai Territory in striving for higher standards of agriculture. Zemledelie 7 no.12:30-33 D '59. (MIRA 13:3) 1. Predeadatell kolkhowa imeni Trunze, Tegorlyevskogo rayona, Altayskogo kraya (,for Yerokbin). 2. Kolkhos Im.Frunze Yegorlyevskogo. r&y,*,,O,-A1t"skoV krWa (for GulyaY60- 3. Altayskiy z chno--~ iidovatellskiy institut sellskogo khozyaystva onalInvy nau (for Rusinova). (Altai Territory--Coll'ect-ive farms)  D1111:1"IS S.S. (irtsort; TANHIKU"', Uj~Y"y-'n;, i.' . ALI ) , - U 11. . Sorie problerris of InduoLrIal in the i.-AnIng of liocradio- Ij active coniplex metal depc,..'L~ILA. Ik-,r"ba s s1l. 6-003-307 1 ()4 153-.2) 1. Tafthikskly gosudarst-vexxjyy  GULTAnff , I.B., insh. d~ bo practical. Art. dor. 21 no.4:22-23 Ap 158. (BrIdgo construction-Costs) (MIR& 11:4)  "-*"~i,.:!GUJ,YATk'Y, ;.B.. luzil. :~jjpT~; C. ~ Somo sourcmij for lowerirg the net cost in hridgm construction. Avt.dnr. 21 no.6:21-22 Jo 158. ?MIRA L-!.-lo) (Bridgma-Couts)  S/i37 61/000/006/0142/092 A006/y'~' AIOIA AUTHOR3- Gu.-Iyayev, G.I., Finkel'shteyn, Ya.S., Gulyayev, 1.N., Kolpov3kiy, N.M., Osinskly, V.A., Chudnvy, I.G., B6_g_o_maz'c';',_i_, -M.M--,, Shkabatur, K.I. TITLE-. Investigating the operation of a tnree-rcil reductIon mill PERIODICAL! Referat-Ivnyy zhurnal. Met'allurgiya, no. 6. 19.61, 55., abstract, 6D285 ~"Byul. naul~hnc-tekh;i. inform., Ukr, n.-I. tr-;;tn. _In--t.", 1959, no. 48 - 5") TEXT- The au~h.-.rs studlea the opera~_'cn of an 18-s%and three-rcll reduc- tion mill fcr tne- parp:,ze of establishing the roiling te-,linology for both seam- less and welded water-gas pipes -ander conditions of the Plant imeni Lenin. it was established -.hat the c,:~mbinetlon of the former grcovljig -_~f the r)lls with kinematiTs of a three-r:13. reductl.:.,n mill, makef5 it to ot-tain the neces- sary eli:~ngatlcn only wher, reducing welded pipee cf 2 and 11" diame%er -,o 1" die- meter. in the other cases -~he wall. of the centrai pipe zee(Ftion 13, after rol- *2_'_35. The auLhcr_a ,aic-ilated and invea- ling, thi3ker than recriired oy GOS' 32 t1gated new -:a:-_brat11cn of the ralls, f:;r reduoIng plpes -fr-,m 1-8 x 3.5 mm to Card 1/2  S1 137/6 i/ooo./Oc-6/042/092 investigating the operation ... A006/A101 21.25 x 12.75 nn.. ---- was established that the efficiency can be rai.Eed if p1pes of 2 1 a?d I" diameter are man-.ufact-ured only by welding on ml-'! no. 2, and pllpe; 3 ifr' ~ and dlameter on mill no. I with the u3e of reduct'ion. Pre- liminary calcu'Iatlons have iho that h f '7._1:; m 'crig p:pes from a t e rlduc ~ijn c . - and fr-.,n to -71, Wun r -e the effl~!ency of 2'~ diameter to I f rom 2" t 31 - 2 aies the pipe-welding shep at the Plant. Iment Lenin tv 12~81%, the coefficien-, cf metal coneumption wila increase by 0%~ To main tain the c,oefficient of metal consumption On the level of p-lanred figures, ard to ob~ia,~r, a further Increaze in the effie-Iency cf the red=tion mill, it i3 neoessar-j to ln:rease the length of Lhe welded pipes prior to rolling up 9.6 - 15.'--, ni. Vu. Ma;-,egin [Abst-racter's notei Complete translation] Card 2/2  V 133-1-16/24 AUTHORS: Alferova, N.S., Pishchikov, G.P. and Konovalov V.P. TITLE: Production of Hot Rolled Tubes from Steel D-LA595 and Their Properties (Proizvodstvo goryachekatanykh trub iz stali EI 595 i ikla svoystva) PERIODICAL: Stall, 1958, N0.1, pp. 60 - 66 (USSR) ABSTRACT: An investigation of the suitability of heat-resistant steel )LA595 for hot rolling of tubes is described. Specimens of metal cut out from tube semis (Fig-3) were tested under laboratory conditions, for deformability and -piercing ability in a wide range of temperatures at various(bgrees of reduction. The results obtained were compared with those for other heat- resistant steels: X25T, X25fO5 carbon steel 10 and stainless steel lXl8HqT (Figs. 1, 2 and 43. As steel W595 is brittle in the cold state, the influence of heat treatment on this property was investigated. The results of tests for impgct strength of specimens hardened and slow-cooled from 0.50 C are shown in Fig-5, together with the values for ~ml)act strength after hardening from ?50, 850, 900 and 1 000 C. It was found that to prevent temper brittleness, it is necessary to apply rapid cooling of tubes in water from 950 - 1 000 0C. Experimental hot rolling of tubes was done on a laboratory mill Cardl/3 from specimens of 35 mm. diameter and 120 mm long, cut out from  133-1-16/124 Production of Hot Rolled Tubes from Steel AA595 and Their Properties works' semis of 90 mm diameter. Piercing wao done at 1 200 0C and hot rolling under two practices: 1) piercing with sub- sequent rolling frQm single heating,and 2) reheating after piercing to 1 200 uC. The micro-structure of experimental tubes rolled by the above two methods before and after hardening from various temperatures is shown in Figs. 6 and 7, respectively, and mechanical properties in Table 1. Cold rolling of tubes made according to Method 1 after thermal treatment according to the method described in Ref.4 was also tested with good results. Experimental rolling of tubes on an industrial scale was done on the works imeni Lenin. 3he temperature ofeemis before 0 piercing was 1 160 - 1 180 C, after piercing 1 120 - 1 130 C. Rolling of tubes 57 x 5 mm was done on a continuous mill in rolls with round passes on a long mandrel 48 mm. gia-meter. At the end of rolling, the temperature was 930 - 970 C. Rolling was normal, the coefficient of consumption of metal for finished hot-rolled tubes before and after heat treatment (hardening from 950 after 1 hour soaking) are given in Table 2 and Figs. 8 and 9. The following personnel of th6HMt'iMzd"DMInparUeipated in the work: I.N. Gulyaye , N.M. Kolpovskly, A M. hudenskly, N.M. Bukhman, -K-.F--.--Beskorvnyy and P.P. Bezrukavyy. There are 2 tables, Card2/3  0f ~Uf -,F' I 1~1 - ----------- J, 6479(,,-,65_-_- 2 _W: AR5004574 )0 AYA0531AOI /0 1 531 275 no zh. E,Iektrordka i yoya prime njyo: SjadrWy~to I' I , ! ~y AIUMOR Atepanchuk, V. P Ou a ev, K, A. TITLE- Bleu-tronic, circuit for protectlitS the injectdrl and TX2 hot-,illrtl gauge from the atmosphere CITED S(XJRCE: Sb. Elektron. uskoriteli. H., Vywih. sh1cola, 194 360-370 TOPIC TAGS1 betatron, betatron injector, hot wire manometers TRANSLVI 1014 The construction and principal circuit are 60c Almd 61~ an ~attachiii4int to the VIT-1 vacuumeter -qhich ensures quick turn-off of the ~eitinj !circuit of. the betatron injector and IM-2 hot-wire gauge upon a vacuum. dAerioi-lat ion in th~ ichamber. The circuit monitors the voltage drop across an input:; resiiflzr of the vacuumeter amplifier-by means of applying a part of this drop to thr:~': aittachment: amplifier; the attachment turns on and off a relay which controls th a heating cirouit of the injector and M-P-gauge. k one-ye fthe ai.*tachzent has ar operation 0. its usefulness. C arcl i, I 8U13 CODE: NP EC ENCL.- 00  GULYAYEV, K.I., assistent Methods for mating bevel gear wheels having Fi tudinal, toot~t profile. Izv. Vys. uchelb. zav.; no.12:15-20 164. cyclold-111 longJ- mashinostr. (MIRA IS- 3) 1. Leningrad:-3kiy politekhnichesk3Y institut.  GULYAYEV, K.11., w.13;1SUmt , - I ?, aelocttng param-et(.,r.9 of' cutter h,-,ndri f'or c;Wing ~Pvt-- i7earr 7w 1, cycloidal longitudinal. tooth profl'Le. Izv. vys. uc~wb. zav.; mwh4inostr. no.1-1-31-107 165. (MIRA 180) ,~, "I!! ~ ,;,r- - -  GULYA13T, K.N.; LAPTEV, A.D.; MALAMID, K.M.; WE7 ISI[XVA, M.G.; HADEZPDIII, Ye.D.; GLAZKOV, A.P., otv.red. (Industry of Vologda Province; on the fortieth anniversary of the Great October Socialist Revolution] Promyshlonnost' Volo- godskoi oblasti; k 40-letiiu Velikoi Oktiabrlskoi sotsialisticheekoi revoliustii. Vologdo. Crbl.knizhnaia red.. 1957. 92 P. (MIRA 13:3) (Vologda Province--Economic conditions)  GlULYA.YSV. K.N. r-- Volog. krai The lumbering"indus-try is conducted in a new way. no.20-40 160. (Vologd'a Pr4v~nce-Lumbering) (t~aRA 14: 11) i  GUTYAYEV, K, N, , red. - --- (We are tnilding communiarflMy stroim kommunizm. Red.kol.: K.N. Guliaev i dr. Vologda, Vologodskoe knizhnoe izd-vo, 1962. 348 p. (MIRA 16:1) (Vologda Province-Economic conditions)  Fl A J I I id Vi ~li i jJ i T 1 A k~ [19ow to increase the output of merchantable lumiuerl .;L1( povysit' vykhod delovoi drevesirW. Volo-da, Volo,pds,koe knizhnoe izd-vo, 1963. 108 P. (MIRA 18:5)  15(6) SOV/72-59-1-13/16 AUTHORS: Tsaritsyn, M. A., Zalcharenko, 11. 1., Gulyayev, K . V. TITLE: Imi)roved Draying IMethod of Stained Gla-e (lisovershenotvo- Vannyy oponob VVtyajrjVajljya tsvetrioilo nakladnogo stekla) PERIODICAL: Steklo i ke:-amika, 195"), Nr 1, pp J~O-ij,-, (USSR) ABSTRACT: In the Chernyatinskiy stekolInyy .avod ~ Chernystichi Glass Works) a plant was used for this purpose, as ohovin in figure 1. It was, however, not possilile '4o produce perfect stained signal ,rlaBs up to the COST standards. The stained glass applied to the belt showed considerable de- ficiencies. FiG-ures 2, 3 and 4 s'low the construction of a plant that obtained grood results. The stained glass metal is spread on the colorless glass belt in the forin of a thin layer, the thickness of the layer depending on the level of the stained glass metal in the melting tank. The glass pro- 0 duction -is carried out oil a ve.-tical draviin- device, the width of the belt being 1200 mm. The performance of this plant is described in detail. As experience has sliown, it is advisable to prefer highly alLIMiniferoi-s boa.-,is to fire clay Card 1/2 beams for the neltin;- tank of tile stained r-lass because t1fie  J riProve (I Dr a vi j.nr, t hol Of' St;, i 111~~ I ()!1/" 2 -I - 11 latter may be corrolled by the glass metal. ':,.,en tlis 1-Aant was first introduced the dra,.-:int., speed -imouinted to 21 .- 23 1-1/11, after -- month it had risen up. to 54 .,,i/h. The 3huttles Tiere in operation for 21 to 211, hours, tf,,e ap-aratus run-inf-I for 500 to 5BO 'ion,,s an.- ~nterru,,,t4;0n. The usable ouf,,~ut w:,,ounted from 000 to 620 1~12 13~- U. method it has been possible to produce ine-.-pensive stained ,-laso for buildizrig purpooes anJI filte:vn for S-i There are 4 fi!,,-..ires. ASSOCIATION: Chernyatj.n-,I,:.-L.,,, ~-!tekolln:, :.- ~;.avol I Chernyatichi Glass Works.) Card 2/2  GULYAYEV AgorJv-Uadimi,=Ach; BANNIKOV, P., red.; VOFDNKoV,t,ye., V4 tekhn. red. [Seed production of grain crops; basic-problems in variety changing and strain renovation and growing hlgh-yield seeds) Semenovodstvo zernovykh kulltur; osnovnye voprosy sortosmeny, sortoobnovleniia i vyrashchivaniia vysokourozhainykh semian. Penza, Penzenskoe knizhnoe izd-vo, 1962. 457 p. (MIRA 16:3) (Grain-Varieties) (Seed production)  ANDRYUSHCHIMKO, I.G.; GULTAYXV, LS. Practical application of soil research results obtained on the "Oneshts" State Farm in connection with the use of fortilize:rs. Pbchvovedente no.10:73--78 060. (MM 13:10) 1. Gonudaretve=W proyektVy institut. Kishinev., (Fertilizers and manures) (Soil research)  00 41 o 04 A, If a *Goof ' 0 41 P 0 0 41 0 0 0000 a ? 0 0 0 0 0 0 e C . Ww~s-ji ~ . ' 1: jj M U 4 It " a ff,j A ! 11 F_ -9a -I i 00 . #11 V)) RX Uva 9 V I AA as 04141411434tapo 0 P00CM11 AND 000"AfIrl wart Of 4A 4407. SELECTION AND ~XMWXTS OF BLOWER NUIPMT. FOR'MrECTIVS .00 SURFACES OF BOILEMS. , M. (Za Ekw. Tcp1Iwk (Fuel Eoon.) _*0 so* , 3 March 1951. 4-9). The article ohms that the arm agement of blowers for .00 egg qonvoctive hosting surfaces in boilers is usually -not entirely successful. -00 *s, rious groupings are illustrated and disousoode It Is stressed that in -00 the difign of boiler soop equipmot provision should be made for applying soot -f* g.C blowers to all heating surfaces. of see R Moo d A ' It S I L A 44TALLIJ GICAL UTCRATURE CLASIMPICAMM A I U z AV AM L t 0 nd 0 M I W ft 5 A 0 3 1 V = M tP 00 9 4 K Irw I of Ct - 1~ of 0 0 0 0 4 0 0 0 0 0 0 0 9 * 0 0 0 0 0 * 0 0  , U ~,, C f&v, . I .. Lobanchenko, N. G. Steamublast cleaning of heating surfaces of boiler units. Moskva, Cos. energ. izd-vo, 1952. 155 P- (54-35070) TJ390.L58  -j~j"L',C 7" I - c -II- t~ biYL 7 Lo: "rrv j -c (SI-vi-I.,  AUTHOR: Gulyayev, L.A., Candidate of Technical Scienices Gas/Fuel-oil Burners of Azener o TITM: The Design of (Konstruktsii 6azomazutnykh Eorelok Azenergo~ PE11IODICAL: TeploenerL--etil-La, 1958, Mr 5, pp 135 - Sr' , (USSM) ABSTRACT; In Azenergo, natural Gas and fuel-oil have been burned C, under larSe boilers for ipore than tuenty years. T.)-,e btixncr designs aim at the best AiixinC of ~;as and fuel. oil v:ith air ~:uid the simultaneous heatin, of the r~ixture ii~ the eir-brasure before r- inlet to the furnace. Some other require.,.-,eiits also arise. in Azenergo, there are four types of burners t.,-at have justified themselves by long service. The bladed burner of the BPK is illustrated in F_JL;ure 1. Burners of this desiC--n have been in opcration since 1-939 but are rather compl-icated and allow some L,L's to Le into tl-.e air box. The tendency for the flame to retr~,ct ralzes it to work with hiCh excess air ratios at loads. The tangential burner of the BPK is illustrated in Fieurc 2. The air is swirled by a sih.--..ple tangential inlet3 ~-as I-- iatro- duced at the contre and rixes with the air befom leavizl, the embrasure. This type of burner is sirtiple ia desin~n and bct, er L than those with peripheral Gas delivery; it hi-,Ls beer, tioed since 1940 and gives satisfactory comb-a--tion with, a lon:: fl---c Cardl/4 C,  SOV/96-58-5-23/2? The Design of Gas/Fuel-oil Burners of AzenerEwro and no smoke. The spiral burner of Azenergoproyekt, illustrated in Ficure 3 and first installed in 1945-46, differs from the others in having a spiral register with a damper to re-ulate the air- flow. With hot air at hiEh speeds, good Coinbustion is obtained when burning fuel oil alone. The non-uniformit., of air velocity in the embrasure is much less with this design t.Lan with the previous one. The bladed burner of BPK-Azenergoproyekt ,,,ith central ::-as 0 delivery is illustrated in Figure 4. In order to regulate the swirl and the quantity of air delivered, Azenergoproyekt in 1947 designed rotatinE in place of fixed blades. The increased swirling of the air made the flame somewhat shorter and improved the air distribution in the burner and em.-brasure., In 1956-5?, Then a number of power stations were converted to gas burning, Azenergoproyekt designed some new Cas/fuel-oil burners. Three of these designs, intended for different types of boilers, are illustr~?ted in Figures 5, 6 and 7 and are described in the article. An improved gas burner is illustrated in eigure 8. Re-design of the burners on one Babcock and Wilcox boiler Card2/4  The Design of Gas/Fuel-oil Burners of Azenergo SOV/96-58-5-23/2? gave greatly improved combustion with a short transparent flame. This marked change in the nature of Ue flame had no appreciable influence on the deSree of superheat. For purposes of comparison, the embrasures on another boiler were arranged in the same way but the old C~aS burners were left in place. Althoug h the combustion was much improved, the flame remained long and luminous. Comparison between spiral and bladed gas/fuel-oil burners with central gas-delivery shows that both types of burner con ensure satisfactory combustion of Leas and fuel-oil Eiven a correct choice of dimensions and gas- and air-velocity. Wit-1, spiral burners, uniform air delivery round t1he circumference is readily secured. However, rotatin-blade burners rive C__ 0 the best control of the degree of swirl and, therefore, of flame shape. If they are well designed, there is little to choose between spiral and bladed burners in respect of size and resistance. The spiral design is simpler than the bladed if the burners are arranged in a single row. Preliminary tests on thp influence of different desiGn features on combustion confirm the advantaLo---es of svirlinC the gas in the Card3/4  The Design of Gas/Fuel-oil Burners of Azenergo 0 3GVO~6-58-5-23/2'/ direction of rotation of the air in the embrasure and. of delivering it with increased speed from the centre to the periphery. When burning gas and fuel-oil, t))e gas must be thoroughly mixed with air in the embrasure, if a short, transparent flame is to be obtained. There are 8 figures and 1 table. 1. Oil burners--Effectiveness 2. Gas burners--Effectiveness Card 4/4 3. Boilers--Equipment  GUT,YAYL'V, H.A. Errors in t1a calibration of air-spaced capacitors used ill measurizkp, at stopped up frequencies. '&mly VNIIIA no-38: 21-29 '59. (Mlb, 13:4) (Electric capacitors) (Electric measurements)  3/123/61/.000/024/009/016 AOO4/A1O1 AUTHORS: Gulyayev, M. A., Ryzhov, V. A. TITLE- The machining of capillaries for exemplary compression pressure gages PERIODICAL- Referativnyy zhurnal, Mashinostroyenlye, no. 24, 1961, 9, abstract 24E47 ("Tr. in-tov Kom-ta standartov, mer I lzmerit. priborov pri Sov. Min. SSSR", 1961, no. 50 (110), 58-61) TEXT. The authors describe the machining technology of capillary tubes 1-5 mm in diameter for compression pressure gages. When selecting the blanks the authors consider tubes suitable whose difference of inner diameter of ends over a length of 350 - 400 mil, measured by a plug gage, does not exceed 0.1 mm. The channel is machined by a set of laps (3 piece3). To determine the diameter of the ground capillary the tube is Immersed in a glass tub with plane-parallel bottom filled with toluol. Toluol has a refractive index which comes rather near the refractive index of molybdenum glass, so -that during the observation in the transient light the capillary walls nearly "dissappear" while the channel boundaries are clearly and distinctly visible. The diameter is measured on 'the Card 1/2  S'/12.3/61/0-00/024/009/016 The machining of capillaries ... AOO)j/AjOJ multipurpose YMM-21 (UIM-21) microscope. The measuring results were processed by the dispersion analysis method. 7ne developed technologry makes it possible to obtain high-quality capillaries with a RMS diameter deviation over sections of up to 400 mm length not exceeding 2 There are 3 figures. [Abstracter's note. Complete translationi S. Kivills 2/2  GULYAYEV, M.A., kand.t(-khn.nauk; FAUNSKIY, M.A., inzh. Enlargement and redesign of a fuel oil and gas operated medium- pressure electric power plant. Elek. sta. 32 no-11:20-23 N ,61. (MIRA 14: 11) (Electric power plants)  GULYAYEVJ, M.A.; RYZHOV, V.A. Processing capillaries for standard compression manmeters. Trudy inst. Kom. stand., met i iza. prib. no.5Ot5841 '61. (MIRA 16:6) 1. Visesoyuziqy nauchno-issledovatel'skiy institut metrologii im. Mendeleyeva. (Manometer) (capillaries)  GULYAYEV, M.A.; YEFffUKHIN, A.V.; RYZHOV, V.A. ts Qf standard compression mnomters of the All-Union Institute of Metrology. Trudy inst. Kom. stand mer i izz, prib. no.50:62-69 161. ~MIIRA 16W 1. Vseaoytnnyy nauchno-iaeledo"tellekiy inatitut metrologii im. Mendeleyeva. (manometer)  GULYATEV, M.A. Measuring Jnductances and effective capacitances ol' measvring air capacitors. lzm. tekh. no.9:32-35 S 163. (IMIA 17:1)  GULYAYEV, M.A.; MAMEDOV, M.N.; A,:1j1)UL1,AY-1"V, K.M. Testing reconditioned separating devices of the BG-35 boilers using softened water from the Dzheyran-Batan Lake. Za tekh.progr. 3 no.3:14-16 Mr 163. (MIRA 16:10) 1. Upravlaniye energetiki Soveta narodnogo khozyttystva Azarbaydthanskoy SSk.  GIJLYAYP-V, M.A.; YERYUKHIN) A.V. Precision measurement of the vacuum in scientific investigations. lzm, tekh. no.6:17-20 is 164. (MIRA 17t12)  _.L 521r,51-65, ACUMSSION NR'. AP501705ft e -C -Y r~c TITMIMetr-blogy problems in measuring vacuum SOURCE: lzmeritel'naya tekhaika, no, 11, 1964, V-19 TOPIC TAGS: metrology,vacuum measurement, prea-sure fflanisl~~i.4 1~iuilrmeat , ter meter o p MTRAOT: rn e vast extension or InvOctigattonalaquIring; 41,XtreiWll~ htgh 7acuum in turn requires the development of. mancmeters~ capjt~ile OV; o6aourimg' -10 to 10-12 10 mm Hg. An clectroniclonitation manometer tism be-Onl de-. veloped to the All-Union Scientific Research Institute of.matrolov. The linearity of its characteristic,. uhich governs the 1wver limit,. is determined indirectly. Mice the Indiciations of, the fk!faization manometer, cannot be used to calibrate Inatrumental operabinAll Irith''Anses of. :Iunkcnown composition, it to neceseary to broaden the range.:qfthe~.equipuent uhich can reproduce units of preasure in4ependently at the high-mot poevirle vscu'uma L0,d_V2_   T, -14' )18-A0 C NR-1 - 'A"Nol.7786 SOURCE CODE: UR/0058/66/000/001/AOlh/Aol4 AUTHOR: Gulyayev, M. A. .00 TITLE: M4"Ureuent of vacuum SOURCE: Ref. zh. Fizika, Abo. 1A143 REF SOURCE: Tr. in-tov Goo. kom-ta standartov, mer i izmerit. priborov SSSR, vyP-76 (136), 1965, 218-228 vacuum gauge , laboratory instrument, TOPIC TAGS: vacuum measurement, vacuum research, research facility, manometer, sitrahigh vacuuqt vm-1 v~;.~~a~ue IT~M2 vacuum gauge, VMB-3 vacuum. gauge ABSTRACT: Reviepcof work carried outla-c the VNII metrologii im. D. I. Mendeleyeva during the period from 1950 to date in the field of vacuum measurements. Model installations have been developed, covering the range of absolute pressures of 15 - 10-10 mm Hg, and in particuiar a new = ,Irsal stand to check ionization, thermocouple, and also magnetic vacuun t a ypes V14-1, VMB-2, and VMB-3. A model thermomolecular -nometer of grade 1, a set, R model compression manometer, and a model ionization manometer of grade 2 are described. P. A. (Translation of abstract] SUB CODE: 20 Card  GULYAYEV, N.A. Socialist empetition is a basis of success. Vest.sviazi 21 no.10:16 0 261. (miu 14:10) 1. Nachallnik Minjkoy direktaii radiotranslyatsionnoy seti. (Wire broadcasting-Competitions)  LY ~Gulyaov, M. P. On a new particular colution of the equa~- tions of motion of a heavy rigid body having a fired polmt VesttiikMosk-ov.[Jiiiv.g,tio.3,15--2t(1955). (Russia;i The author is not sati5fied with Grinli's [Ann. Mat. Pura Appl. (4) 26, 271-281 (047); MR 10, 335] denioribtration of the existence of a regjilar preomsion around (a generally nonvertical) axLi OP normal to the massocenter line OG, providul that OG is norinal toin, circular crotm-netion of the momental ellipsoid. Theangidar-velocity niagnimde is [N.-II uniquely determined by the mass di.5tribution, This C;511.4.1 seents to have escaped the Schiff-Stackv) list of rel(u).Ar ,ixecessions [flainel, Theorctischo Nlechanik, Spritiger, Berlin, 1949, pp.426-442.',NIR 11, 5481. U;ing thecoininon devices, the paper shows that if OG has the stated direction, and the angular velocity about OG is constant, Grioli's precession results, and the usull variables are expressible in terms of sin I and cos 1. He also states that a precession of "this type" (OP norinal to OG?) is possible only tjn(!iVr his inbumptions. The reviewer rould not find the in the paper. Moreover, the author's integration does not hold for the marginal me when A -B and C=O because for it physical pepdulum the rotation is not uniform and tiliptic functions are necessary. The notation of the paper is re. dundant, and the expression for the angle of OP with the vertical b not given in terms of inriependent parameters (it depends on the shape only of the momental ellipsoid), A. 117. Illundheiler (Chicago, 111.),  U R Phys ic-; c)C Card 1/1 hor 'Julya,ev. 1.11. P. Y Title I`, r. 2"1 h,:: n .Parttal So? tion of thc equationa o:' oC a ay hdy pouoez3ses Cue fixed poLnt P-2v _Jod ical Vest. Mosl_. ur.., Ser. fizikomat. i yest. nauk, 10, No L~, 15-t--!, Eft- 1-c"55) Abstract One of the regults of the author's dissertatio-. worl', ("Circular of ellipSolds of inertia and one solution, connected with th~_m, to b"u'. problem c!' the motion of a heavy solid body around a fixed point, "Thesis, Moscow State University, 1953; scientilCit: adviser, Prof. V. V. Dobronra- VOV). The au;,hor notes that the re_-:;u jar praccouions of -a heal.-Y b0cy hav- in~; onz., fixed point In the case where the anllrle between Lhe axis of pz-oper motion and axis of precession of 0.00 possess exceptional properties. In the present work the author pives a nz, r solutio-i to the problem of the re6ular precessions of a healrj asy-mv--trical solid body, first solv_-d some- what earlier by the Italian investiZator G. Gricli (Annali Natem, pura di aplicata, ser, IV, vol. NUVI, 1914-11). Institution: Chair of Theoretical Mcchanics Submitted : July 31; 1953  GULYAYRV, M.P. 1 .1 - Stable forms of arches in stopos. lzv. AN KAzakh. NdU, Sor, mt, I makh. no;6.,33-45 157. (mim UW (Arches) Oftning engineering)  GULYAYEV, 14. P. "On Circular Cross Sections of Reciprocal Ellipsoids in Ine-rtia" It "On the Dynamically Possible Regular Precessions of a Solid Body with One n Fixed Point" Trudy, t. I. Transactions of the Mathe tics and Mecharlics Section, Kazakh SSR, Acad. Sci., AIrm-Ata, Izd-vo All Kazakhakoy SSR, 1958, 207tp.  GULYAYEV, 11.1. P. and M. 0SHIBAYLV I "On the Stability of the - 'atUon of a Heavy SolLd Witn Gn-e- Fizf!f~. .1 Point in the Case of D. U. --)ryachev and S. A. CHAPLYGIT11" TrudYp t. I. Transac--t-,ions of the Mathematics and Mechanics Section, Kazakh m, Acad. Sci., Alma-Ata, Isd-vo A17 Kazakhskoy M, 1958, 207.pp.  SOV/1 24-59--4 -- 348n Translation from: Referativnyy zhurnal. Mekhanika, 1959. Nr 4, p 12 (USSR) AUTHOR% Gulyayev, M.P. and Oshibayev, M. \ TITLE: On the Stability of Rotation of a Heavy Solid Body iWith One Fixed Point for the Case of D.N. Goryachev and S.A. Chaplygin. PERIODICAL: Tr. sektora matem. i mekhan. AS KazSSR, 1958, Val 1, PP 144-146. ABSTRACT: The authors investigate the stability of the permanent rotation of a solid body on a vertical axis with a distribution of mass tha-t-is the characteristic of the Goryachev-.Chaplygin case. The note d-upli.- cates V.V. Rumyantsev's article (Prikl. matem. i mekhan., 1954, Vol 18, Nr 4, 457-458 - RZhMekh, 1955, Nr 2, 614) down to the symbols, although no reference to the article is made. The authors make a mistake in designating the Goryachev-Chaplygin case as the subject of their work, because in this case the vector of the kinetic mo- ment is horizontal, and therefore the possibility of vertical per- manent rotations is excluded; other inaccuracies are also toler- ated. The problem of the stability of permanent rotations, in Card 1/2 particular under the conditions in question, has been treated by A  f. SOV/124-59;-4--3485 On the Stability af Rotation of a Heavy Solid Body With One Pixed Point for the CaBe of D.N. Goryachev and S.A. Chaplygin. V.V. Rumyantsev (Prikl. matem. i mekhan., 1956, Vol 20, Nr 1, pp 51-66 - RZhMekh, 1956, Nr 12, 8040). L.M. Markhashov P/ Card 2/2  GMYAUV, M.P. Circular sections of mutual inertia ellipsoids. Trudy Sekt. mat.i mekh.A-'q Irazakh.SSIL 1:175-193 '58. (MIRA 11:12) (Ellipsoid)  GUI YA'f�;V, 14. P. e Dynamically possible regular precessions of a solid body having one -fixed point. Trudy Sekt.mat.i mekh.AN Xazakh.SSR 1:202-208 158. OIRA 11:12) (Notion)  A11THOR3: Tikhmwzlt~v, S.S.. Tronin-_ V.P., ~21.ikin, 7.A., '~nyg-.:,,?--r, f;. V. T I TL 0 c i v : l t i f L ci ~ Io1 c, ! t IfuldIv I L t, IIt! t. I v II:'o flor V. V. Dolivolln'tvov SOURCE - IA 0 t) c 0Vy 0.9 11 k I i n 1. t i I i"I I'.- ru "i T'E X T :Or. the occaoion of hio 60th ry of - .!" the scientiric md pc-'m,-,ogJ of phynical fm~! l"; ch !tt 1,11vov wilo to ut, pr-~!wnt Vrocv~1'1-- im. It. 12. 'llaximaym (l,,VTU im. N. 1" Present this approciation. ~.'v w--; born o7i 17 'n o obtained h1o -Ln 1901. In 1924 fi' at okiy Gooudarztveiu1yy univerfiitet Im. N.G. zitate University Im. N.G. Ghvi-nyghevokly). In 1co27 lie n,2rvptc-(l the Card 1/3  ('eirmti.xic. pudar~o:- . , I oi--l. D "I / D,7 0 I)Oot Of A!3~3istan."; to Ule of :It te l'-dical 1115tituto, Mic: .:i.1 2 --:~ -- r oii 11-2r. ill neuro-blophyniou. 1910-31, i f mutics at the ;";I.;-Ltov in!;ti t"t". rn(ll LOV UIILV'--=,ity. From 1 1 ;Ie ill a nw~il-r of r o- nal establishment'i in 1""Oocow ttnkl -~.-aq wn:;oc 1 ~tcd vv~~ ..cz;~-ow V~21- n.tY from 1931 to 19'52. 111 194(1 lie WM cow 3tate Univeroity md In 1~51 h(, el-ot-~d to of Theoretical *:vc,1,---n-,c.3 itt !pVTU im. 71vi:.~~.n, 11:1 quent years, under hio giiidancQ, In such au stability of motion, i-,yro:-,copy, or;C1,11alJoll, thod etc. were developed. During :1, c.,trct!l, UE~ f-c'ntribiltioni; 'I'Le, of 'If to 1, made were in the lield of mecll~. j j . 1950 ho publialieci papers Oil 11-in-AICS of motion of bc-,ly Urujy NIKIII-11, no. 2, (10), 1950), stability of linerir slyctc-.~I o-C Cliff. equations with constant coefficlent-.3 in I v. 17, no. 3, 1956) etc. In the '1950'n lie also in aotronautica. Ife hao been a mcniber of the liu!tcov,, Sociv- ty since 1944, and io an active member of tie Ifethodolo,!-jc.11 Cormmin- Card 213  Scientific, pej:q;Oj-,icn.1 ~Irlif ... sion on the T',i,2urctical. ',:-c~~nnLcs of ',ho 'Ind Ecitic%,"'On Of a nonogri.-Ph oil non-ho1oro,-.:ic oyalem.;o, ATOCIATICI;t Ordell"'. Lvnin:k i Ila ("'.0sco".1 Ordor of qll,l O'der o1, of Labor Higher Technical 3chooi in. J1ai%E:i,.-1i) Card 3/3  9 Ll 06, S/020/61/139/003/010/025 B104/P201 A THOR: Gulyayev, X. P. TITLE: Regular precession of a solid body with a liquid-filled. cavern PERIODICAL: Akademiya nauk SSSR. Doklady, v- 139, no- 3, 1961, 574 575 TEXT: Ye. I. Kharlamova (DAN, L2 showed th6t Euler's 2, no. 5,.(1959)) equations d A LP (B Q qr, A19 (zoy' YoV'), E = ry' qy", dt dt. 3 (C - A) pr M9 (xoY z0Y). p-y- ry, q dt 1 dt (A - B) pq,= jWg (jloy qy py', dt dt have, for C> 2A) 2B, y 0 and isinoC z-cosc~, (2), the partial' solutim 0 0 0 Card 1/5 PUT", IN 1 14.[ ii ii., I $P4-311' 11,  257--1 S/020/61/139/003/010/025 Regular precession of... B104/B201 V P =~L(cos p sin pcosa), r =E- (sin p-Xcos pcoscr):qvx sin cr, A B (A 4- C)*cos p + 3ACX sin p cos c; +'M(C - B)cos p sin"s T 3AC - B (A + C) 3ABC Y sin (C-A)sin pcos p sin a cosa T' 3AC - B (A + C) B (A4-C) sin p-MC)., cos p cos *+3A (A-B) sin p sin' a 3AC - B (A C) where (Y can be determined from equation d.T/dt :~(k + k coo 6-) 'For N the various constants in (2) and (3), relations Card 2/5  Regular precession of... 2'-- 71 S/020/61/139/003/010/025 B104/B201 cos L% Y C (A - B)(C - 2A) sin ot J~ril (C - -B)(2C -Ar, C (A - B) (C - 2A) sinp= A (C - B)(2C - A) Cos P (C - A)1:3AC - B (A+Q 1/1"(C - A)t3AC- B (A + C) V3AC - 2B (A+ C) (C 2A)(2C - A) 3"Ic 3ACj3AC-B(A:-'-C)j C-A Z2 -3AC I == Yx' I/ T/ 3AC - B (A + C) 0 D' H = 11TA(c - Tl~ (E - -- A)3 + C (A B) (C - 2A):' k = 11*(C - 2A) (2C - A) [3AC - B (T-+Q I k' (A Q Y-3 (A - -B)(C - B). N = 3AC Y3AC - B (A + Q (A)." are valid. Conditions (2) and solution (3) are valid for a body with a water-fi:lled cavern. When studying (3), these formulas are found to be similar to those found,.by G. Grioli (An~.-Dlatem. pura,ed appl., ser j IV, 26, (1947)).for the description of the regular precession of a kinetically asymmetric heavy solid body. However, motion (3) is no regular precession, Card 3/5  2')711 S10201611139100310101625 Regular precession of... B104/B201 2 2 2 2 as the condition p + q + r 6) const is not satisfied. There is,' howpver, the partial integral Apcosf + Crsiny which can be either considered as a scalar product of the vector (4t'Bqj Cr) and the vector (cos?, 0, siny)'6~~ as a scalar product of the vector (p,q.,r) and the vector (Acosf, 0, q.sinf)'. As the body is in motion, this'prodpot remains constant. This circumstance is then and only then regarded as- a kinematic characteristic of a regular precession if the direction of the vector (Acoq, 0, Csin?) is in perpendicular to one of the ciiroul~r cross sections of the inertia ellipsoid, and fits the vector /100S)L, Q, lsinLQ as'to the direction. The last mentioned vector determines the center of mass of the body. If these conditi6ns are satisfied, the solutions P cos o, q ,x Mn o, r A C) Cos (5, X.-' sinc, x3 const, C-2A 1+C S= const ,2C - A A Card 4/5 (B)  257 1 ~ S/02 61/1,39/003/010/025 Regular precession of.,.. B104YB201 describe the regular precession of the body. Function a = -Vkt * a 0 is a linear function of t ime., The direction cosines KI 3 K 2Y K 3 which determine the orienttition of the precession axei of the body, agree with t, e" , e' ~ Thus, the precesL-iori deacribed here takes 'place about the vertical axis and differs froin the one indicated. by Lugrange, where A - B and 2A >C. The case under consideration bere -represents a precession that is evidently posstblf) froin the dynamic viewpoint. There are 3 references; 2 Soviet-bloc and I non-Goviet-bloc. ASSOCIATION: Kazakliskiv Cosudarstvennyy universitel. im. S'. Mi. i~"irova (Ka?akh ")Iat,~ University imeni 3, !4, P'Arov) PRESENTED: March 29, 1961~ by L, 1. Sedov, Academicivn SUBMITTED: !7oveuiber 21. 1959 Card 5/5  GUL-YAYEV,, M. P. Some New Conditions of the Limit Equilibrium of Rocks. 1). lj-~' B. Some Results of Investigation Into Regular Precessions of a SDlid Body Around a Stationary Point. p. 114 TMSACITAIS OF THE PND RERIBUM4 MiYEILENUE IMAT-[E:'ItVl,~,.~q A,L) (TPJJDY VTGRGY M,,-PUMY-V4-T'-,Y K(XFm~:---iTsr lil yj e fj ~4 jj,~! Af pages, pmblisitied by the Nblliehivj ]It-  GULYAYEV, N. (Parml) .0,0 Competition in combat readiness. Pozh.delo 6 no.10:18-19 0 160. (MIRA 13:10) (Perm-liremen)  GULYAYEV, N.Y., redaktor; RACHXVSKAYA. H.I., redalctor; GUROVA, O.A., t-W Ic'heskiy redaktor. (Sanitary engineering; collection of articles] Sanitarnaia tekhnika; sbornik statei. Moskva, Izd-vo Kinisterstva kosumnallnogo khosiaist- va RSYSR. 1954. 289 p. (MI2A 7:11) 1. Akadsuiya kommmalinogo khosyaystva, Moscow. (Sanitary engineering)  aULYAYEV,,kf. - - 11 -6ha ng.eI t-he order of issuing planning tasks. Zhil.-kom. khoz. 5 no.8:30 155. (MLRA 8:6) (Water supply engineering)  GUTLYAYZV ndidat tekhnicheskikh nalik. W.15MMIN bl&469 Against propaganda of technical backwardness in city sanitary engineering ("Sanitary engineering for populated places." D.B. Piguta. Reviewed by N.F. Guliaev). Gor. khoz. Mosk. 30 no.7:36-37 Jl '56. (MLRk 9:10) 1. Rukovoditel' sektors. ochistki Akadomit kommunallnogn khozyaystva. (sanitary engineering) (Piguta, D.B.)  GULYAYEV, N.F.,-.pndi"t tekhnichosikh naak; LAVROV, A.A., sanitarnyy ~4':~!WAGIVINA, T.Ye., eanitarnyy vrach; MIKOLAYEVA, T.A., kaadiLt meditsinskikh nauk; YOKIN, D.T.. asaitarnyy vrach Imaginary arrore in the sanitary Gig. i san. 22 no.3:68-73 Mr '57. (WATER SUPPLY 11 anitar7 protection of (SANITATION same) protection of natural waters. (MIRA 10:6) water reservoirs in Russia)  (!I, I /i1 Y, 1~I/~ F, GULYAnNV On the Droblem of agricultur;il sewqge irriF*ntion. Gig. i san. . 1 22 n0.12:0,65 D '57 (MULA 11:1) 1. Iz Aksdemii kommunnllnogo khozynystvn imeni K.D. P~imfilovn. (SEWAGE IRRIGATION)  7 C, 2r) AUTHOR: Gulyayev, N.F., (Settlement Zyryanka, Yakut~_k A_-c7R) TITLE: Opening Up a Distant Region (Osvaivaya dallekiy kray...) PERIODICAL: Vestnik vysshey shkoly, 1958, Nr 10, pp 40 - 42 (UsSR) ABSTRACT: The story tells of the professional and public works done in the distant Kolyma Kray by graduates of the Ivanovskiy meditsinskiy institut (Ivanovo Institute of Yledicine), the Moskovskaya. sel'skokhozyayastevnnaya akademiya (Moscow Aca- demy of Agriculture), the Permskiy pedagogicheskiy institut (PermlPedagogical Institute) and of the Leningradskiy peda- ,-ogicheskiy institut (Leningrad Pedagogical institute). Card 1/1  SOSTANTS. Y.G., dotsent, obshchiy red.; IVANOV, I.T., kjjnd.tekhn.nauk, red.; KLOPATOV, K.K., insh., red.; ZHUKOT, A.I., prof., doktor takha.nauk, red.- GULTAUX, N,F., kand.tekhn.nauk, red.; DLTBOV, Tu.B., inzh., L-- rad.: Aiwan-r"_ 1 9 . ., kand.takhn.nauk, red.; TEFRMOV, I.S., prof., doktor tekhn.nauk, red.; DTUSKIN, V.K.. doktor tekhn.nauk, red.; VINOGRADOV. K.A., kand.sellskokhoz.nauk, red.; BOTOVA, Tu.P., red. izd-va; SALAZ OV, H.P., telzim.red. (KateriBls of the Scientific and Technical Conference on Problems in Introducing Achievements of Science and Technology in Municipal Roonomyj Matorialy Nauchno-tekhnicheakogo soveshchaniia po voprosam vnedreniia doatizhanii nauki i tekhniki v gorodskoe khoziaistvo. _pm~cjpal_ electric Moskva., Isd-vo komm=.kjw&.RSM. N996. [Roads 9_104., transportation] Gorodskoi tFzFns'p'__o'rt i dorogi. Pod obshchei. red. V.G. Sosiantas. 1959. 197 P. (MIRA 13:0 1. Naucl-mo-tekhnicheskoye soveshchaniye po voprosam vnedraniya dostizheniy nauki i tekhniki v gorodskoye khozyaystvo. 2. Rukovo- ditell sektora gorodskogo transports Akademii kommunallnogo khozyaystva (for Soeyants). (Local transit) (Road construction)  GULIajOl, N. F., RYAIC~7, 71. 1., 'Ij-AjIL'KGVA, Z. G., ~ . :_1 MATVEYEV, P. ~'., P-',-RT-u-vT,3KAYA, I,% I., Ffbl,~AN'-V, V!. 1. "Basic hygienic premises in the field of legislature on the sanitary protection of the woil of Populited places." report submitted at the 13th jal-Union Congress of Fygenists, Epidendoloul6ts and Infectionists, 1959.  GULYAYEV, N., kand.tnkhn.nauk; VjffNBERG, M., kand.tqkhn.nauk Constructing refuse-sorting plants. Zhil.-Icom.khoz. 9 no.11:13-14 '59. (MML 13:2) (Refuse and refuse disposal)  SHISHKIN, Zakhar Nesterovich; KAMIN, Yokov Alokutindrovich, dottient; KOLOBANOV, Sergey lConstantinovich, dotnent, kand.tekhn.nauk; YAKOVL3V, Sergey Vasillyevich, doktor tekhn.nauk; MMKOV, A.I., prof.; kand.tekhn.nauk; S'MIY, P.A., inzh., retsenzent; POPOVA, N.M., )cand.tekhn.nauk. retuen2ent; 24MNOVA, A.P., red.izd-va,- GILENSON, P.G., tokhn.red.; DMINA, Ye.L., tekhn.red, (Sewerage] Kanalizateiia. 12d.2., ispr. Pod red. A.I.Zhukovs. Moskva, Gos.izd-vo lit-ry po stroit., arkhit. i stroit.mterialam, 196o. 592 p. (MIRA 14:4) (Sewerage)  GULYAYZV-.--k. X.-,_Iand. tekhn.nauk Urgent objectives in improving sanitary conditions in the C11-7 of Moscow. Gor.khoz.Hook. 34 no.213-5 P ,6o. (HJJIA 13:6) 1. Bukovoditell sektora ochistki gorodov Akademii ko=unallnogo khozyaystva. (Ko,scow--Refuse and refuse disposal)