SCIENTIFIC ABSTRACT VIGDORCHIK, D.YA. - VIGDORCHIK, N.A.

Ya.; ivAllfiv, V.P.; ;j re reg. 170) s r 163  VIGDMCHIK. %Ya. - 1;1. Safety in the operation of household gas appliances. Gaz. prmo 7 no.9t52-54 '62. (MIRA 17s8)  VIGDORCBIXO D.Ya.; IVANOV, V.P. Gas equi*ent for a railway-car restaurant. Gaz. prom. 9 no.6: 22-25 164. (KatA 17:8) t  VIODOWHIKI D.Xal Conzatation. GRZ. prom, 9 no.7:36-37 164. (MIRA IWO 1, Sotrudnik Mosgasproyakta,  6, AIRKSANDROVICH, A.1 VIEGDORCIIIK D.Ya DRUSKIII, L.I.; OILIBERSHTSYN, I.A.; B.-;--WDMTM PODKOPAYIV, II.F.; SIADKOV, S.P.; KkYZHLfS, P: I t; . -STOYUNIN, G.P.; AVRUSHCHMO, R.A., red.; KOHYASHIHA, A.D.. takha.red. [Gasburners for city gas use] Gazogorelochnye ustroietva dlia garod- skogo gazoanabzheniia. Pod obahchei rod. P.B.Haizelles. Moskva lzd-vo H-va lrommun.khoz. RSFSR, 1957. 202 p. (MIRA 11:2$ (Gas-burnarg)  29205-66 JXT(CZ) C NR: AP6007639 SOURCE CODE: - UR/0141/46/009/001/'0155/0166 .AU~THOR: Vigdorchik, V. L; Kontorovich, V. M. JORG: Institute of Radi9phy c!~.M!~ Electronics, KN._Ukr.SS.R_.(Institut radiofiziki i AN UkrSSR) JITLE: Stationary oscillations of the electron cloud in a cylindrical magnetron. 'Part I - Mechanism of stabilization ~SOURCE: IVUZ. Radiofizika, v. 9. no. 1, 1966, 155-166 .TOPIC TAGS: magnetron, electron cloud i,ABSTRACT, 'A nonlinear mechanism of compression of the electron cloud by the !r-f field, in a surface-wave magnetron, is theoretically analyzed. Only the amplitude "nonlinear mechanism that limits the- oscillations is taken into account; 1he phase" nonlinear effects connected with the electron velocity modulation and ,responsible for the transfer of energy from the electrons to the alternating field is Card 1/2 UDC. 621. 385.64  L 29205-66 i~ACC NR: AP6007639 i 'neglected. The compression of the electron cloud iby a nonuniform r-f field is shown in the accom- I ipanying figure; the average radius r0 of the 'oscillating cloud is smaller than the static Brillouin radius r. . The ondulating line shows the ~oscillating boundary r. (5p, t) between the cloud and Ithe vacuum. A plot of surface-wave amplitude V(r) i ivs. raditis is also shown. It is proven that the compression mechanism is capable of stabilizing the oscillatory regime. A dispersion equation is !set up which permits determining the parameters of joscillations under stationary conditions. Orig. art. ,has: I figure and 50 formulas. SUB CODE: 09 SUB M DATE: 17Apr6 5 ORIG REF; 0 10. :Card,?./Z  ACC NR. AP7008261, SOURCE COD.-,: AUTHOR; Vigdorchik V. I.; Kontorovich, V. M. ORG: Institute of Radiophysics and Electronics, All UkrF)F;R (Institut radiofiziki i elektroniki AN UkrSSR) TITLE: Stationary oscillations of an electron cloud in a cylindrical magnetron SOURCE: IVUZ. Radiofizika, v. 10, no. 1, 1967, 1111-127 ITOPIC TAGS: magnetron, microwave component, Dj,5PEC510A) 6(jUli ABS'TRACT: A disDersion eauation, previously derived by the authors, for the case of low amplitude oscillations is analyzed to investigate netrcn. Stationary conditions and rer4on stationary conditions of a mar of steady-state oscillations were determined. It was shown that there is a possibility of oscillation nulling in the region of a precritical magnetic field. The stability of the steady-state regime was in"resti- gated and the dependence of the amplitude of stationary oscillation on the magnetic field and the plate voltage was found. The tire of !instability stabilization is less than that of velocity-electron lbunching. All basic formulas are given in an appendix. Orig. art. has: 4 figures and 12 formulas. [GS3 !SUB CODE: 091 SUBM DATE: 18Dec65/ ORIG REF: oo6/ OTH REF: 001 ! C5!rd 1Z1 __iaC_:_62l.3_85..64  .))-Mll I C1, ENKO 5 kand. tek~n. naulcl STARIKOV, V.r4., ln~&h -.6. M kand, tek)in. nauk; NAUIt)V, K.M. , lnzh. Ffffic,t of the trAveling an"d of the OT-75 tractor on the strvae,~c in suspensiun systems. Trak-l". I sellkhozmash. nu.8il.4-1 Ag f6,). 01IT-.11 v,10.) 1. Gnsudar3tvennyy soy-u-znyy naiichno--Isaledovateltnk~y tr'~kU~vryy inatitut (for Dmitrichanko, ',Starikov). 2. Crenburgskiy iv11- skokhozynystvennyy Inntil.ut. (for Vigdorchik, Nvi,,vrcv;.  7--U- a I prl: hromium boride, -,erTret, T-j 7-1 C' 'I'AG'S boror, n it idd-e Vomi rrk-T:a-l lic regulus , c  :, :I 1 :1 .,~ : -,rd Z ''.  VIGDMMAN, V.Sh., inzh. Ultrasonics and the outlook for their use ix the food industry. Mekh. i avtom.proizv. 16 no.5:29-~3 162. (KRA 160) (Ultrasonic waves-Industrial applications)  t a e r a c r. r c, f r F1 i-rr v o Ide,~ w i t~ z rc r 'Y F, n lj~-e r& ~i r o -~l e r f? If ",R 1-11 Card  AI:CESSION NR: AP 500 130 3 zi.rconla, e i t h e, r u r. s t, 6 z (! d n o c n i c r c. t z e tlie pnyilcal aind meenanica., c.,iaractt of S a ; 1 d e k. i I,, C t i C t3 C) it e C k] C L, tures at various te.6perat-wres during the aintering indicated that Z;-C - Z r0 2 c e me t s " PlIn rk t h f) m o t t, a b ic of the materia.'s nvest! i7t_~tcc m n e r ri r, r,i P 9Lr ftfile L t: rFj (jf tile carbide componenr ac-c-remse wir.1 increasing ,;ru2 con- contration ; --thi c --dec rease- -.-'L s -mos-"W-- pronoun c ed f ri r the- -ZrO2--stabilized and- -least -pronounced -for the --monoclinic- Zr02 .- -The pattern ol! the changes in lattice parameters confirmed the stability of the Z"C-Zro2 and TiC-ZrO,, "cermeta" at sufficiently hirzh temiDerat ire. I-Card ?-1'3  T )rV4? C C A P5 0,- -q S C- n r a L~ ~- e -I r, r 1-,- .1 0'D 1 S L; B.Vi I T 1 E D eN Ilu V c v. NO REF SOV: 003 VLAI" I wvw A.- Card 3,13  ;ACCESSION NR: AP4005835 S/0226/63/000/006/0011/0017 AUTHOR: Avgustinik, A. I.; Vigdergauz, V. Sh.; Gropyanov, V. M.; D~ozdetskaya, ,G. V. TITLE: Effect of powder fineness on the density of niob;um carbide parts at various sintering temperatures I ISOURCE: Poroshkovaya meta)lurgiya, no. 6, 1963, 11-17 iTOPIC TAGS: niobium carbide, sintered niobium carbide, nloblum carbide powder 'niobium carbide sintering, niobium carbide density, sintering, powder metallur gy# density 'ABSTRACT: Nioblum carbide sinters poorly due to its high melting point (3750 K), leading to lower microhardness. The present authors therefore studied the relation.- 'ship between particle size, sintering temperature, density and heat resistance of ' ,NbC and attempted to find methods for producing niobium carbide powder with a rela-, :ilve density not lower than 90% of the theoretical value at low sintering tempera- --'tures. This Is very Important for creating heat resistant structures. Pulveriza- P .tion In vibro-linills was used to obtain fine particles of niobium carbide, thus in- icreasing the surface energy prior to cold pressing. Fig. I in the Enclosure shows )_Qh!~..effect of the sintering temperature on the specific gravity of niobium carbide 'Card 1/4  ACCESSION NR: AP4005835 with varying initial specific surface area. This test was performed on the Deryagin device. As seen from the graph in Fig. 2 of the Enclosure, greater disper- sion of the powder leads to higher density at lower temperatures. Two formulas are proposed by the authors for nelating the sintering temperature and fineness of the carbide powder. Experimental data and the theoretical values obtained from these formulas differed by not over 1-1.5%. Tests performed by the authors also corrobo- rated the phenomenologic theory mentioned in articles by K. S. Kovallchenko. G. V. Samsonov and V. V. Skorokhod. It was found that a relative density of niobium car- bide powder of ~p to 97% can only be obtained with very fine powder and sintering n temperatures,< 0.6 m.p. 0' the basis of experimental data, the lattice destruction energy for NbC Is calculated to be approximately 410 %-J/mol. Orig. art. has: 7 figures, 4 tables and 9 equations. ASSOCIATION: Leningradskiy Tekhnologcheskiy Institut Ims Lensoveta (Leningrad Technological institute) SUBMITTED: l9Nov6Z DATE ACQ: 20Jan64 ENCL: 02 SUB CODE: MH NO REF SOV: 009 OTHER: 000 2/4 'Card  IPF-VOCTAU wo. A M.AArD~r 7 .5 2 Im r *m Fig. 1. Density of NbC in relation to the sintering temperature: 1 1-56; 2 - 4.1; 3 - 6.2; 4 - 12-5 3/4 1. Frd  AGCESSIOH HR3,-AP4005835 4/4 Card g/cm3 16 7 6 ENCLOSUREs 02 ed 12 Fig. 2. Density (solid line) and contraction (dash line) of Nbc in relation to the specific surface area of the sintered powder. Sintering temperature; I - 2240+20K; 2 - 2020+20K; 3 1820+20K; 4 - 1590t.15K  SEMESHKO., P.T. (Novosibirsk); INOZEWSEV, A.A. (Novosibirsk); 'ILGP~~AUZP Ye.M. (Novosibirsk) Organization of track and construction work during combined traffic intervals. Zhel. dor. transP. 47 no-5:"-49 11q 165. (MIRA 18:6) 1. Zamestitell nachallnika Zapadno-Sibirskoy dorogi (for Semesbko). 2. Nachallnik sluzhby puti Zapadno-Sibirskoy dorogi (for Inozemtsev). 3. Zamestitell nachallnika sluzhby dvizheniya Zapadno-Sibirskoy dorogi (for Vigdergauz).  VAKAYEV, F.K.; Kjqp~RGAUZ, Ye.M.; CRUSHEVSKIY, F.U.; KOROVKEVICII, N.V.,, inA., red.; VOROBIYE"VA, L.V., takhn. red. (Experience in the operative planning of train operationsi from the practices of the Western Siberia Line] Opyt ope- rativnogo planirovaniia poezdnoi raboty; iz praktiki Zapadno-Sibirskoi dorogi. Moskva, Transzheldorizdat, 1963. 44 p. (MIRA 17:2)  OGORDNIK, N.I. (Novosibirsk); VIGDERGAUZ Ye M (Novosibirsk); 'I GRUSHEVSKIY, F.U., k". _19.lna_;~Hovosibirsk) New developments in the operational planning of train traffic and dispatcher control. Zhe~.dor.transp. " no.8:68-73 Ag 162. (MIRA 15t8) 1. Nachallnik sluzhby dviahaniya Zapadno-Sibirskoy dorogi (for Ogorodnik). 2. Zamestitell nachallnika sluahby dvizheniya Zapadno-Sibirskoy dorogi (for Vigdergauz). (Railroads-Management)  VIGDERGAU7., Te.O. [Vihderhauz, 3.0o], dots. Clinical aspects, diagnosis, and treatment of cholee7stitis in children. Fed., akush. i gin. 20 no.3t6-9 '58. (HIPA 13:1) 1. 14-ya ob"yedinannaya detalmya bollnitea (glavnyy vrach - R.Ta. Zadova) g. Khar Ikova, (GA XLADMM-DISIASIS)  VIGDORCHIK, D.-, LAUBIS, G.; MAYEVSKly, Ml Infrared heaters. Avt.transp. 42 no.3:20-21 Mr '64. (MIRA 17:4)  CHERKINAIY, Boris Mendeleyevich; GORGDOT, Kapiton Iva novich;. jIGDORCH4, Dariy Takovlevich; LURIYE, M.Yu., prof.. retsenzent; KOPMEYICII, -re d;!-KOGA?r. - Y. T. , to khn. red. (Use of gas for speeding up the drying and thermal processing of textile fabrics] IspolIzovanie gaza dlia intensifikataii protsessov sushki, i termichaskoi obrabotki tkansi. Moskva. Goa. nauchno-takha.izd-vo lit-ry po, legkoi promyshl., 1959. 250 P. (MIRA 13:2) (Drying apparatus-Textile fabrics) (Textile finishing)  RYABTSEV, N.I., red.; BUXHIN, V.Ye., red.; Y1GWBLHU,--D..Y4L,, red.; ILVANOV, N.P., red.; KNAPP, K.K., red.; KOZLOV, S.S., r1d.; PROFERANSOV, V.P., red.; SDOBODKIN, M.S., red.; SHARDVATOY, L.P.$, red.; BYKOVA, L.B., ved. red.; KORSUN, Ye.P., red.; USHAKOVA, A.F., ved. red.; POLOSINA, A.S., tekhn. red. (Gas equipment, apparatus, and fittings; reference book]Ga- zovoe oborudovanie, pribory i armatura; spravochnoe rukovad- stvo. Moskva, Gostoptekhizdat I '963. 469 P. (MIRA 16:4) (Gas, Natural-Pipelines~ (Gas appliances)  XMINA, Natallya Alskeandrovna; VIGDORCHIK, S.A., inzh., reteenzent; BOGCKOWVA, M.F., izdat.red._;-7RDZRTt-,-T-.7._, takhn.red. [Methods and means of control of geometrical parameters in aircraft construction] Ketody i sredstva kontrolia goo- metrioheBkikh parametrov v samolstoqt):NW%ii. Moskva, Gos. isd-vo obor.promyshl.. 1959. 128 p. (MIRA 12:9) (Airplanes--Design and construction)  VI2= IK. D.Ta.; GORODOV, I.I.; DRUSKIN, L.I.; CHMINSKIT, B.Z. 000001~~~ Utilization of gas by the textile industrjr (to be concluded). Gax.prom. no 05:17-23 My 157. (KLRA 10:5) (Textiie' (Gas fuel) fabric%-Ih7,ing) as  VIGDORCHIK D Yo.- GORODKOV. X.I.; DRU.zi.IN, L.I.; CHYMMISKIY, F.t. . . v Usinj; gas in the textile in&vitry. Gaz.prom. no.6:14-20 Jov '57. (KLRA 10:7) (Gas appliAnces) (Textile fabrics--Drying)  .M,aWWA,; DRUSKIN, L.I.; IVAROV, V.N.; STROGALISHCHINOVA, L.B. I~aDCII Conversiox of VNIISTO small cast-irsa household heating boilers to gas fuel. Gas.prom.no.9:17-22 S 156. (MMA 9:10) (Gas an fuel) (Boilers) S,  VANUSHEI, Anatoliy Kuzlmich; CIlEYaYZHOV, V.A.. red.izd-va; VIGDORCUls D.Ya., red.1 KHENOKH) E.k,.p tekbn. red. [Testing of gas-fired boller systems] Ispytanle kotellrqkb uBta- novok, rabotaiushchikh na gazovom toplive. I-'ioskva., Izd-vo M-va kommin. khoz. RSFSR 1961. 66 P~,ng) (MIRA 150) lBoilers-Tes  VIGDORCHIKY G. Ya., Candidate Ned Sci (dies) -- "The use of antibiotics and LEN paste to treat certain forms of inflammAtion of the tooth pulp". Riga, 1959. 25 pp (Acad Sci latvian SSR, Inst of Experimental YAd) (KL, No 24, 1959, 149)  KLYZILIS, F.B.; -VIQPgMIK, D-Ta. XGP-8 automatic gas operatied air-heater. Gas.prom. 5 no.8:24-28 Ag 16o. (MIRA 13:10) (Gas appliances)  KLYZMLIS, P.; VIGDORCEIIK, D. "Burning of gaa by electric power stations and in induBtry." by V.A. Speisher. Reviewed by P. Mizells, D.Vig4orchike Gaz. prom. 5 no.8:33-34 Ag 160# (MIRA 13:10) (Gas as fuel) (Speisher, V.A.)  BRAUDE, S.Ya.; VIGDORCHIK I M I ~ -- - -- !:~" Cc=ents on the article "Anomalous nonfulfillment of HuIlls con- dition of cutoff in strong crossed fields. Zhur.takh.fiz. 34 no,ID2085-2086 N 164~ (MIRA 18i1) 1. Inatitut radiofiziki i elektroniki AN UkrSSR# Khar1kove  . in 11101 vac,111111 %W1 th.. lot joroduclirm ol ton curr',11c, is mir"Hic f0fil "Jljl~ m, CWr cm jo !)I- if! !,lp ;if I 1!t-  40341. q. 1-S 0 &0J/194/62/000/006/4129/232 6/1 S"F 0 D256/D308 A'UT) !OR; Vigdorchik, I.M. TITLE: ducing a sequence of electric fields with opDosite polarities by ultrasound and its use in generating electromagnetic waves PERTODICAL: Referativnyy zhurnal. Avtomatika i radioelekt ronika, no. 6, 1962, abstract 6-5-43 s (Tr. Kharkov. in-ta inzh. zh.-d. transp., 1961v 41, 68-73) TEXT: it is possible to generate UHF radiowaves by means of oscil- lating electrons which move in space. Howeverp the methods of pro- ducing the required sequence of electric fields with alternating polarities and with a harmonic variation in space have not been sufficiently developed. To reduce the wavelength radiated by the oscillating electrons one can decrease by a large amount the distan- ce between two adjacent points in space at which the intensity of the el.,field is equalp by using ultrasound propagating in a piezo- electric substance. Numerical calculation shows that the radiation in this case is restricted to the centimeter range of wavelengths. Card 1/2  S/194/62/000/006/129/232 Producing a sequence of electric ... D256/D308 4 references* [Abstracter's note: Complete translation.j Card 2/2  .1  5 OC IAT 1 ON - I ns t i tu t rad i olf i 2 i ki i e I o': t r c),i A N ISA r-S 5R p:C~,,zi r'_kDv f ns  . VIGDORCHIK, M.Ye.; PLESHIVTSEVA, E.S.; CHER&IISINOVA, Ye.A. Marine interglacial depositB in the Illmen' DepreBsion. Dokl. AN SSSR IAI-no.5:n6,7-3-170 D 161. (MIRA 14:12) la Predstavlono akadftU= V.N. Sukachovym. (Illmon' Lake region--Zoologyl Stratigraphic)  7c, ni t t ~)p ic -rA. Cafa 11/3  L ACCESSICA MR- AP5007301 charge -f-lonof the cathod'o current. Etf:hIlt probe electrodeq in t h~ thl- jm~~ku--, oi explaining the beyond cutoff current (&served In prac- ns as a consequence of de-viatim from axlal symsmetry. Orlg.art.has. -A'tics! magnetro- i2O formulas and 10 f1gures. :Card 2/3  - j"i il- - "I. -I ~;-. I -i,Tj ~74: l t I tilt )-;~.rj I ,,f f, Kha r k,w -f S UM 117 'ED : I F-I J Lm r, 4 W L: ()0 SU13 CIMF- E-- Ell NIF P-T~ F S (T-v 0 0 4 Ca,d3/3  PA.M.; TA.; 1. , ~ I . I . I.,idicatr.r of -2.:!. ~~ ~, " - ~ . - :, *- , ; - t,z ;, i " - 0 ~ S. :  i, ; v cas 2: 0- A. S "G tpron ;.ke I. Froyektnvy  'T- I 'T- T L, Tf-) I 'I T i 4 S 1 L I Card  ACCES,31ON DIR: AP4047871 volume of tYw molten ;~(-)no ~,.ariuod ASSOCIATION None -t'BMII'TCD- I I Fphr)4 F NR REF SOV 00I Card2 / 2  E f f I f ~T L SHTRYIIBOK, G.Yu., inzh., red. _jcjU,4b1s&cv1ch, inzh.; POWMAMOV.A.. tekhn.red. [Capecitiv,3 pressure gauge with frequenev modulation] Szkostnyt izmeritell davleniia a chastotnoi modultatatei. Moskva. Filial Vass. in-ta nauchnoi i tekhn.inform., 1956. 12 p. (Pribor7 i stendy. Tana 4, no-P-56-429) (MIRA 11:2) (Pressure gauges)  LEVIN, "I.Yu.; VER111'r,"MY, I.L.; "61kloCHIK, Kr4'.,,JM0V V Asymmetry of the -4nterelectrade space and its effect on the static characteristics of a cylindrical magnetron. Zhur. tekh. fiz. 35 no.3:519-527 Mr '65. (MIFIA IR.61) 1. Institut radiofiziki i elaktraniki AN SSSR, Kharlkov.  I'l TLE Growing tungsten and mtolybdeTIUM trioxide crystalg from cryolite-oxide me 'its SOURCE: AN SSER. Doklady*, v. 159, no. 2, 1964, 416-419 TOFTC "AGS: oxide melz. crvt;lal formaLian, Jlfrec~ed crvstallizatior 7 0!' i ~ e r v 9 7,3 ~;"z 1, r x ) K 1 i-, p t !4 a ff .BSTR_,kf'.T T) i c r vs t I z A , i,: i f WO M~ ~i ~i r e' I w  L 2328~-65 ACCESSION NR: AP4049490 tions :)elow the original was: Fe203 0.98, 0.96, NiO 0.53, 0.61; CuO 0.55, 0.53; SiO 0.45, O~53; A1203 "The spectral analysis vas carried out und ~? r 2 1 the guid--ince of ~. P. A'ikeveva and V. C, Shcl)er~;nkov fn 'he Kjimikc)-araliriclie- .'r ly,i Li?-,ui~c nstiruza lveru'ytlkl~ ~Piavo/ (Ana~ylical La~~,-)ratorv ~he A!'-Ilnlon Scientific Research A:: 2 'a*-Ics. -~SSOCI J 101,; (;CJSUd.1r9~'/P-1T)V4'V '!wkiy - prr)vekiny*y inqrit ,, Re!.ecl,ch and Desgr~ S U M I T'TD 12May64 ENCL: 00 SU13 CODE MN, SS NO REF SOV: 006 OV IF R 0 ~0,(! .'! ,  SOV/84-58.4-25/48 AtIMOR: _.Vi -,,L.,_,Fngineer (Khabarovsk) TITLE: Power Supply to the Inner Homing Beacon via the lqeon Light Cable (Pitaniye blizbney privodnoy radiostantsii po kabelyu neonovykh ogney) PMRIODICAL: Grazhdanskaya aviatsiya, 1958, Nr 4,, p 28 (um) ABSTILACT: To avoid interference by the power supply line to the inner homing beacon with the radio compass., utilization of the neon light cable for power supply wss introduced in a Far Eastern airport -by'innovator F; Raykhlin. A diagram of the circuitry accompanies the text. 1. Airports--Lighting systems 2. Runway lights--Power Card 1/1  VIGDOROVICH,-Y.L GLAZOV, V. M. Additivity in Increasing the microhardness of metal system solid solutions. 1zT4Ty84 ucheb. zav.; tevet. met. no.3:122-126 ' 58. (KRA 11111) 1. Moskovskiy inatitut tovetnykh metallov I zolota. Institut metal- lurgii All SSSR. (Solutions. Solid) (Alloys--Hardening)  5(4-) SOV/69-21-1-3/21 AUTHORS: Glazov, V.M. and Vigdorovich, V.N._ TITLE: On the Colloidal State of the Solid Solution in the Metallic Systems of the Two PhaseAlloys (0 kolloid- .allnom sostoyanii tvdrdogo rastvora dvukhfaznykh splavov metallicheskikh sistem), PERIODICAL: Kolloidnyy zhurnal, 1959, Vol XXI, Nr 1, pp 18-24 (USSR) ABSTRACT: The transition of heterogenized crystals of solid solution from a metastable to a stable state has been studied from a kinetic standpoint, based on the micro- hardness studies of the crystals of two-phase solid- solution alloys of a number of binary systems. The transition has been shown to occur in two stages. The phenomenon is treated on the basis of the colloidal state of crystals of the solid solutions. There are 3 sets of graphs, 1 table, 1 diagram and 4 Soviet references. Card 112  SOV/69-21-1-3/21 On the Colloidal State of the Solid Solution in the Metallic Systems of the Two Phase Alloys ASSOCIATION: Institut metallurgii AN SSSR im.A.A. Baykova (The Institute of Metallurgy of the AS USSR imeni A.A. Ba kov)- Moskovskiy institut tsvetnykh metallov i zolota 11m.M.I. Kalinina (The Moscow Institute of Non- Ferrous Metals and Gold imeni M.I. Kalinin). SUBMITTED: April 17, 1957 Card 2/2  18M SOV/32-25--i-24/51 AUTHORS: Glazov, V. Y., Vipdorovich, V. N. TITLE- Application of the Method of Micro-Hardness to the Plotting of Conodes Within the Two-Phase Rskneo of the Three-Component Phase Diagrams (Prineneniye metoda "i-krcLverdosti dlya postro- yeniya konod v dvukhfazny'r-h oblastyal-h trekbkomponentnykh diagramm sostoyiniya) PERIODICAL: Zavodsk--ya Laboratoriya, 1950, Vol 25, '"r 1, PP 57 - 62 (USSR) ABSTRACT: The method mentioned in the title is applied to metallic systems and the results of some conode plottings on real systems are specified. To determine the conode po3ition. with- in the diagram two-phase range (solid or solid-liquid phase range) two imaginary pr-%ints must he found at the concentra- tion triangle, corresponding to two alloYs, in which the crystals of the aolid solution have the same concentration. This can be done by the tld of the rulen governing the change in crystal micro-bardness. If the crystal micro-hardnet:s Card 1/12 in solid oolution in the two-phase alloy of the three-compo-  Application of the Method of -"icro-Hardness to the SOV/32-25-1-24/51 Plotting of Conodes Within the Two-Phase Range of the Thr~e-Conponent ihase Diagrams nent system is known, the alloy composition can be deter- mined accordine to the intersection point of the isosclere (which corresponds to the micro-hardness value) with the solubility isothermal line or solidus. In this way a fixed position of the conode can be determined. Conodes for the systems Al-Mg-Sij Cu-Cr-Zr and Cu-Al-Ti were plotted by the method described andithe micro-hardnesnen of some alloys were invest igz-.ted in connection therewith (Figs 2,3,4). The cross sections investi.-ated were found to be really conodes. In the system Cu-Al-Ti (no figilre) the case was observed that the position of the second "direction point" remains un- changed and that all conodes coincide there (Cu Ti). For the system Cu-Zn-Sn (Fio' 4) the Lpl)licability o? the method described is restricted within certain limits. There are 5 figures, 2 tables, and 6 references, 5 of which are Soviet. ASSOCIATION: Inotitut metallurgii im. A. A. Baykova Akademii nauk SSSR i Moskovskiy institut tavetnykh metallov i zolota im.1i. I. Ka- linina(Institute of Metallurgy imeni A.A.Baykov AS USSR and Moscow Institute for flonferroue Metals and Gold imeni M.I.Ka- Ca-rd 2/2 linin)  5(L), 16M s ovj/76 - z~ 31 AUTHORS: Krestovnikor, A. N., TITLE: On the Theory of the Formation of Solid Solutions of Metallic Systems (K teorii obrazovaniya tverdykh rastvorov metalliohes- kikh sistem) PERIODIC.~tL: Zhurnal fizichookoy khimii, 1959, Vol ')3, Nr 1, PP 78-62 (USSR) ABSTRAM, Analyses of the phase diagrams of metallic systems which are found in various publications show that, in most cases, the heat resistance of the basic component decreases with the addition of a second component. As these investigations will be continued, the number of cases in which an increase in the heat resistance of the basic component can be observed will mount. A table with 68 examples of metallic systems is given in which, by adding a metal component to the already existing one, an increase in the heat resistance occurs. In orde-r to evaluate the observations made, the electron-structure was investigated and thus found that an increase in the heat resistance of common metals at the dissolution of common or transition metals in them can be expected only at negative Card 1/2 values of the spatial factor. This applies to elements with a  SO-1/76-33-1 -13/45 On the Theory of the Formation of Solid Solutions of SYr>+t_-=fv crystal lattice of the covalent type. Under certain conditions, however, an increase in the heat resistance can occur UlSo at positive values of the spatial factor. A stable temperature resistance of the solid metallic solutions which should fcrr- because of the interatomic binding forces betwoen the compononts is not to be expected. From the experimental material ithich was collected and systematized 2 patterns are mentioned in which an increase of the heat resistance of the solid solutions is to be expected. There is 1 table. ASSOCIATION: Institut tsvetnykh metallov i zolota im. M. I. Kalinina (institute for Non-Ferrous Metals and Gold imeni 11. 1. Kalinin) SUBMITTED: June 16, 1957 Card 2/2  AUTHOMMgdorovich, V.141., A.U., TITLE: ~,licronarane6-6-',,Tcasurements in the Study of 3olid 3olutions of the Three Com-.-,onent Systems (Isoledovaniye '-,vI-_,rdykh rastvorov treklikomponentnoy sisteiiVf metuodom -,j'..-,,,cLvcr(_'osti) PERILODICAL: lzvestija Allzademii Nauk S33R, Otdeleniyo T~;':hniehes:,I~ikh Nauk, 195' *:, Nr 3, I)P 110-113 (US;`3R) ABSTRACT: A series of Cu-Al., Cu-.Ti,) and Cu-Al-Ti alloys were pre- pared for experiments, the aira of which ,,;as to establish the ultimate solubility of Al and Ti in Cu and to i-Tivesti.ate the dependence of the microhardness of a solid solution on the composition of the alloys. Chan.-res in the miierohardness with resnect to comrosi-I5*i,,jn and temDerature of Gu-Al and Cu-Ti alloys allowed establishment of the most probable limit of the solubility of Ti in Cu, the "Solidus" te.,2,)erature and the limit of the solubility of a ternary solid soiution. hardness versus com,losition curves confirmed a -_:)_-a-,.l_icated structure of the solid solution in the tvio -)Iiaise s.,,rL;I'U-e.-2 - the microhardness of such solid solutions -increa,:;ed Cs tiie com- position of the alloy entered the Vao-phase ran-1. s in the microhardness of a solid solution obtair.~.,d :Cr,:)7-i "he study of one-phase and two-phase systems served 'L-I(j the solubility isot_!-_,er.-,is and thus infor,-,ia~_'on ro-ard- Card 1/3  ,~7 0 1 U Illicrohardness ffeasurements in t-h'o 3za( y Gf J, Three Component Systems. in- the solubility of Al and Ti in Cu. Analyois of these results has saown that the introducti~)n of Ti ess,:)ntially increases the solubility of Al in 1"."u c,~pecially at 1-iE-nor temperatures and the introduction of Al lowcr~, th,:~ solubility of Ti in Cu. .-,Iardenin:-- of the solid solut-ion ies the solubility of Al and Ti in Cu could be ).roduced to a certain extent by a relative mutual solubility of thc .--o.'.17)on- ents. This mutual solubility is govorned by the atomic struc- ture, type, and the dimensions of the crystal la-u-tice of -the component. As the solubility of Ti in Cu is acc-a~paniad by a larger alteration of the crystal lattice than in the case of the solubility of Al in Cu it is to be ex-pe,--ted that the microhardness due to Ti W411 be greater than that due to Al with respect to the same Cu cop-tent of an alloy. This %rias confirmed ex-oe::,iiaentally and is in accordance witli theoretui- cal interpretation. The introduction into tho Ictal lattice of Cu (hir5-hly "po,,,ulated" by s-electrons) of a 'Gransit"Lon metal, Ti (wiAch ha-- 3d sub-roup rot ~,o-npletcly -f-illed by eiectrons) leads to extra stronger valency foroe,-, w".1ic'L-1. are Card 2/3  L-licrohardness Measurements in the Study of Solid Solutions of the Three C-cimponent Systems. due to an "overlapping" of these s and d electrons. Thus the addition2of' 1% Ti0(by weight) increases the -ai-crohardness by 33 k.-m/mm wh reas the same addition of Al (b-,,, weight) by only 12.4 k.-M/mm. The increase in the microhardness of the studied alloys was found to be proportional and linear up to the ultimate concentration. In the case of ternary solid solutions the increase in the -.-aicrchardness was found to be the sum total of the increases in the microhardness of the corresponding binary solid solutions. There are 5 fiSures and 8 references, all of the.-n Soviet. ASSOCIATION: Institut ts-.,etnykh metallov i zolota im. 1I. I. Kalinina. (Institute of Non-Ferrous f-Actals anti Gold im, M. I. Kalinin) SUBMITTED: November 27, 1957. Card 3/3 1. Llloys-Hiorohardnoiss-Zeter-inatiou  i 11  VYSHELISSKIT, A., VIGDORCHIK, D., GORDON, L., GROMOV. M. Imported automatle sarety devIcs for gas burners* G&z.prome 5 no.2:54-56 F 160. (MIRA 13:6) (Gas burners) 41 .0~  1-10) PHASE I BOOK EXPLDITATION 130V/2254 Nauchno-teknicheskoye obshchestvo energeticheskoy promyshlennosti Moskovskoye pravleniye ispollzovanlye gaza v promyshlennykh pechakh I kotellnykh ustanovkakh g. Hookvy I Moskovskoy oblasti; materialy Moskovskogo nauchno-tekhnicheakogo soveshchanlys, (Uti2ization of Gas in Industrial Purnaces and Boiler Units In Moscow and Moscow Oblast'; Materials of the Moscow Scientific and Technical Conference) Moscow, Gostoptekhizdat, 1959. 227 p. Errata slip inserted, 5,000 copies printed. Ed*; D. B. dinzburg, Doctor of Technical Sciences; Exec. Ed.: W. 1. Stepanchenko; Tech. Ed.: A. S. Polosina. FURNSE: This collection of articles is intended for speoiallstB engaged in designing and operating gas units of industrial enterprises and electric power plants, COVE1LUM: The change- over in some industrial enterprises from solid and liquid fuel to natural gas is discussed and further possibilities existing along this line are exmined. Advantages of using natur&l gas as a source of energy are outlined. Different gas burner systems, devices for automatic control -. of the combustion process, structural features of furnaces operating on natural card 1,4  Utilization of Gas in Industrial Furnaces (Cont.) SOV/2254 gas, gas-supply systens and the introduction of safety measures in the construction and operation of gas units are described. The book contains many diagrams of gas-supply systems and equipment. No personalities are mentioned, One article is followed by references. TABIE OF CUNTENTS: Preface 3 Kolotyrkin, I. M. Present State and Prospects for Supplying Moscow Industrial Enterprises and Electric Power Stations With Gas 5 Bokserman,, Yu. I. Development of the Soviet Gas Industry During the 1959- 1965 Period and the Supplying of Moscow With Gas 19 Strelltsov, N. N,, A. I. Belousov, N. M. Reznov, and A. Z. Rokhvarger. Network for Supplying Gas to Industrial Enterprises 28 Stoyunin, 0. P. Gas Burners for Boilers and Industrial Furnaces Which Can Use Moscow Town Gas 51 -Vi_O9rchjk,, . Ya. Automatic Regulation of Gas Combustion 69 Card 2/4  Utilization of Gas in industrial 1,1urntv!es S,OV/2254 Litvin,, G. Ye. Modem Gas Furnaces in the Machinery-manufacturing Industry 917 Chutskayeva, Ye. S. Comlastion of Natural Gas in Electric Power Stations of the Mosenergo System 123 Ginzburg, D. B., and I. G. Slivinskiy. Utilization of Natural Gas at Glass Plants 134 Gorodov, K. I., and B. M. Cherkinskiy. Experience in Using Gas for Industrial Processes in the Textile Industry With the Utilization of Secondary Sources of Heat 146 Dikerman, N. 1. Practices and Prospects for Using Gas in Enterprises of the Moscow Building Materials Industry 169 Avraemov, G. A. Specific Features of the Utilization of Gaseous Fuel in the Electrical Vacuum Industry and the Difference in Methods of Using Manufactured Gas and Natural Gas 183 Baik, S. Ye. Trends in Developing Gas Utilization in Furnaces of Machinery- manufacturing Plants 188 Card 3/4  Utilization of Gas in Industrial F'u=aces (Cont.) SOV/2254 Furman, I. Ya. Problems of the Economic Practicability of Utilizing Gas in Industry 204 Dolotov, G. P., and Ye. A. Kondakov. Safe Utilization of Natural Gas in the Machinery-manufacturing Plants 216 AVAILA=: TAbrary of Congress Card 4/4 TM/Mg 10-5-59  V Kp D ; , 'Ifu ~ . - 1'~!ASANOV, Yu. I. Tank truck for transp:)rting liquid gas on the chassl~~ cf i*-Ir: 130 trlirk. Gaz. pr,,)rr,. 9 no.12:18-21 164. It M. -7 FIA i i-? .. 3 1  Cablr~ty",~ io'.iltr. fcr gag. Gaz, prom. .10 no.4:32-Jr. 165. 18:5)  I ~GDORCHIK _ A., inzh. 'If =:::==~ 14Y Automatic control.of boilers operating with gas fuel. .Bezop.truda v prom. 4 no-9:12-15 S 160. (MIRA 13:9) 1. Mougasproyekt. (Boilers-Safety measures) (Automatic control)  VIGDOi,.CIIIF,p DoYao; IVANOVj V.P. ...... ,New gas ranges for public eating est-ibliBhments. Gaz,prom. 6 DO a4:15-1.9 161, (MIRA 14:3) (Stoves, Gas)  VIGDORCHIK, D.Ya.; SHLMkN, A.D. Improvement of RD-32 and RD-50 pressure regulators. Gax.prom. 5 no.9:28-31 5 160. (MIRA 13:8) (Gas distribution) (Pressure regulators)  PMKCPAYEV. N.7..; VIGD(RCHIK, D.Ta.; ,- ~nm Calculatiag gem pipes for the 18-24 0 '56, (Gas pipes-) MARTSINKOVSKIT, I.I. ixterior of houses. Gaseprom.me.10: (MIRA 9:10)  VIGDORCHIK, D.Ya- Testing RD-32H and Rr-50M gaz governors. Gaz. prom. 6 no.6: 41-42 l61. (MIRA Ili: 9) (Gas governors--Testing)  ~r;ASKEVICH, Nikolay Lukich; MAYZE1,16, Fetr Borisovich; ,VIGDORCHIK, Dariy Yakovlevich; BIRYUKOV, V.K., nauchn. red.; FEDOTOVA, M.T., ved. red. [Handbook on liquefied hydrocarbon gases] Spravochnik po szhizhenrpjm uglevodorodnym gazam. Leningrad, Redra, 19 U. 5.15 P. (MIRA 17:7)  VIG',DORCUIKp-David-lak.oylayic4 MAYZELIS, Petr Borisovich; FRBOBRAZIRISKIY, N.I.., nauchnyy red.; ERUSKIII, D.M., ved. red.; YASHICEW211DISKAYA, A.B., tekhn. red. [Gas-burner systems for burning liquefied gaa)Gazogorelochnyo ustroietva dlia szhignniia szhizhennogo gaza. Leningrad, Goa- toptekhizdat, 1962. 120 p. (MIRA 15:9) (Liquefied petroleum gas) (Gas burners)  .0 00 0 0 0, 0 0 & 0 a 0 0 0 a 0 0 & 0 via 0 a 0 a G * 0 * 0 0 0 *a a a 0 4 0 a 0 a a 0 a 0 0 a ago vo-4040-0 to, 4 to a a 0 0 a 0 o 4 0 a 0 sflovl~l:~j 14 It m m a Ll H 14 a I, v a -00 00 so -Jr -00 *a VoWly diaributlos of ekctroms untler the induesce of -00 in a b4h vannsm. a* 9 1 (in ('.Cfnlln' 1 - Me3mtrentents sit tawk of tbe vAil distribution a. ;4 y function 4 various factors. The l . bution. wJsih is appros. MaxwelUart. may asbe frorn an intriaction vf 1-00 rotating cledrons or may be a Maxwellian distribution -00 with Irmn E. 0. wtig 00 't 00 -00 00 a roe 00 .3 00 :00 2 age , goo 00 o o1 FV l f I ; v stIALLOOKAL LITINATUNI CLAISOKATIGO wee IP-769 -i-r*--- 0-t IGO " " u W K 9 It It 9 IfUtg lffl V Wn IRGARA "ego V 14 S Al d" it a 0 0 0 * 0 a 0 0 0 0 a 0 0 0 0 a 0 0 0 0 0 0 0 9 O'o 4 0 0 6 * 0 0 0 6 * 0 0 0 0 A 0 a 0 0 0'0 0 0 0 0 9 0 09 0000 0, 0 0 0 :0 0 a 4 0 0 a of 0 0 00 90 0  0 1 0 0 $1 it It U It Is if Is "A' 118 un ion ky ones, 4141 a 41 Ice L- L 4 , A-A-L-At. A 8 P 6 A I I V W. A. I L PA 0 CC M It s 4 j A 00 1 rh R 00 , 00 *0 a:. 00 00 A't 00 r) - ' Pffi M - 4 411iln sph"Oult PIllik. Z, Xmi4siviom 10. It 'h ) 6 III S It 9M k R I th~ l *a . . . . , n Ys. . s I Jw %topit.s he4jing of a eathualtr fitattiens of a u"#-t,l*lr 00 ji, Mairwinr; i9 otalk-J. ()n The aftus"Isvion shot the dis, 11111WILAI tif VIVICUMiC VVI"ifirS k" Matiwrthan. the tisciny of the clectrunic bombardment Of the Cathode filament is critk*iged. it is wppowd that the wrpl= look tiombardment which in dur to d b i 6 d h uce eat pro ng Y 0 be IlrwfKv .4 stronoy curved clectrouir paths. The i a rnw. of the njagitrt"m vathoile wax nwatturril srul It ks 00 1 Istrit Am the Om-01"I liar fit thr Intil, .11 the OvIlwair I- ''400 00 g ,Iiw 1.1 11W k"lisatirm oil the W vIIl%jt%. 261 Go ' '.00 die J go 004 :ego I 00 t 0*0 of 9 1w &W I I 1 VIA'As $see 9 v 0 1 If so 5 ~j 0 1 a 91 IV or a a R 9 . . a I VA so 9400600094110009 0 0 * 06 0900 **go 0 0 g 0 0 04 *go*** 0 * 0 0 0 ego 000 0,  VIGDORCHIK, I.M., kand.fiz.--matemnauk, dotBent Obtaining a series of electric fields with different poLarity by means of ultrasonic waves and their application for the generation of electromagnetic waves. Trud7 MINT no.41:68-73 161. (I-IM 15:2) (Electric fields) (Ultrasom' c waves) (Electromagnetic waves)  21037 (r&lrd /Oxx) AUTHOR: Vigdorchik, I.M. 1/10 s/'b5ri)b00/'0O5/t4,; rO AOO 1/ 10 1 T=: On the problem of htating the cathode in a magnetron PERIODICAL: Refera-.-.Ivnyy zhurnal. Fizika, no 5, 1961, 371-372, abstract 5Zh394 ("Tr. Kharkovsk. in,ta inzh. zh.-d. transp.", 1959, no 35, 146-P8) TEXT: The author makes an attempt to determine theoretically the contri- bution of positive ions to the phenomenon of cathode heating in magnetrons with small and large ratios of cathode radius to thatof anode ro/ra- The author derives,expressions for the magnitude of ion current, generated in the interelec- trode gap,at the expense of ionization of residual gas by electrons, and Xor the power dissipated by thts iQn current on the cathode. It is assumed that all ions formed gQ to the cathode because of the smallness of their deflection in the mag- netic field; recombination processes are,not laken into account. A comparison- of quantitative results of theoretical calculations with experimental data shows that the degree of cathode heating, In case of rdz%a