SCIENTIFIC ABSTRACT ZHOROV, I.B. - ZHOSAN, N.

_~HOROV .Modern anesthesia and problems in the medical indust:r7. Ifed Orm-, 15 no.5:3-14 My 161. (MrM 34.. 1. Moskovakiy meditsinskiy institut ordena Lenina imeni I.M. Sechenova. (k=THMIOLOGY)  I.S. KDdem oombined anoothesiao Alwhiri gizip 36 zlo*W-19 Jl--Ag (KMA 13 U) two (ANESTMIA) LM REIRMHO  ZHOROV, Isaak-Solomonovich, prof.; PISAREVSK-TY, A.A.p red. (General anesthesia; a handbook for anesthesiologists and surgeons) Obshchee obozbolivanie; rukovodstvo dlia vrachei- anesteziologov i khirurogov. Moskva, Izd-vo "N.editsina," (MIRA 17:5)  -ZHMOT, Isaak Solpmonavich Cwwral anesthesia in surgery; mnual for isnesthenlologlets and surponal Obshchee obezbolivanie v khirurgii; rukovodst,ro d1la anesteziologov i khirurgov. Moskva. Medgis. 1959. 485 1p. (KIRA 13:7) (ANBSTHISIA)  ZHOROV, I.S.; BOLKOHOVITINOVAO L.N. (Moskva) ~ Modern anesthesia. Ned.sestra 18 uo.l2t6-10 159. (MIR& 130) - (AMISTHESIA)  LVIN, M. ZHOROT, S. ------------------- Advanced automotive transportation unit. Avt. transp. 36 no.9:7-9 6 160. (KIRA 13:9) (Chelyabinsk Province-Tranaportation, Automotive)  IAWAHOV, A., inshener; laHMICEMT, N.; ZHOROV, 3- ---ffAMMMMwWMMiWAUMWw~,- Improving the organization of automobile serricing. Avt.transP. 34 no.9:11-12 S 156. (KM q: 11) (Automobiles--14aintenance)  ZWROV, S,, _,inuh,; LOMANOV, A,, lnzhd, Use State ftnk credits for Intruducing new technical Improvements, Avt.-transp. 36 no.4:20-21 Ap 158, (MIU iltO (Automobile industry-Finance)  1A.Mvillk vich; ALITSMJTJZR. GUBIN, Samail Akimovioh; ZHO .'00&eMin, MUgrApIr B.N... red.-, GALAKI Ts.N., takhn.red. (gandbook in safeguarding working conditions, safety factors, hygiene for anto'transportation establishments] Spravoahnik po okhrane trada, tekhnike bazopasnocti i proizvodetvonnoi sanitarii dlia avtotransportnykh predpriiatils Xookval Hauchno-takhn.izd-vo H-va avtomobillnogo transp. L ahonvai- njvkh dorog RSFSR, 1959, 131 p. (MIRL 12:9) (Trinsportation-Sefety measures)  MA11MCH, A&Z.; ZHOROV, Vol.; SHIM4071 P.F. Axperimental and clinical basis for the rational use of anootheala equipment in fluot1we anastheoin amd gnv4j~Wvia with an aveotropic mixture. Eksperp khir. i amt. no.11 74--78 t63. (KM 16:10) 14. Is kafedry fakullte-tskoy khirurgii (zav, - prof, I.S. Zhorov) sanitarno-gigiyenicheskogo fakulttets I Moskovsko- go ordena Lenian meditsinskogo instituta imeni I.M.Seahana7a i Onkologicheskogo inatituta imeni P.A.Gertsena (dir.-prof. AJ.Nov jk6v) v (A%STBMIA) (RAIDTHM) (AUMWPES) q  ZHOROV V.Lt RANUICH, A.Z.1 RIMLISCV, V.A. Adaptation of the "Kravrogvardeetam apparatus for,the application of fluot~ane(ftorotgm)anesthesia. Med.prdfi!. 17.no-4160-62 Ap.163, !,. 11 (MIRA 115#7) 1. 1 Hookovskly ordena Lenina meditsiliakiy invt1tut imeni Sqcbenova i Nauchno-issledovatellskiy onkologicheakiy institut imeni P.A. Gertsena. (AITESTUZIOLOG"l-EQUIR4101T A14D SUPPLIES) 7 .*4 1"-   5W B/02 60113010610281059 % AUTHORSt- Panehonkov 9 Go- It j.Zhorovj Yu*_94 B004 007 TITLEt A Method of.Deteraining the Kinetic Constants and Ranges of the Cou'ree of Chemical Reactions Carried out in a Flow PERIODICALt- ...Doklady Akademii nauk SSSR, 1960t Vol 130, Nr 6, lip 1280 1283 (USSR) -ABSTRACTs in reforence'i the first-named author. set up general equations I for, the 'kin-et ics- of'homogenenua and-heterogeneous-ti atalytic re- actions.in the flow process at constant total prensure.-As, however, in many cases the form of the kinetic eqiaation and the reaction mechanism are not known in advance, the authors developed-a. graphical method by using experimental data, which possible a~,direot determinatlcnof tho reaction rates ex- makes . presaed,by the variables x and n (x - quantity 'of substance - ratS at which raw material is entering,into reaction, n 0 supplied), The equations given in reference 1 are modified accordingly. The method is demonstrated by uaiiig the example of cumol cracking. Table i gives the experimental data for cumol cracking. Figure 1 shows the experimental curve of the card 1/2  86842 8/020/60/135/005/033/043, 4~ C3 0 0 913./ /8.2 0 A2 ~_2) B004/B075 AUTHORS: Panchentovt G. M,and TITLE: Method of Determining the Rates and Kinetic Constants of Complicated Chemical Reactions in a Plow PERIODICAL: .,Doklady Akademii nauk SSSR, 1960, Vol. 135, No- 5P PP* 1172-1175 TEXT: In a previous paper (Ref, 1) it was shown that reaction rates can be determined from experimental data of the.converoion of the initial sub- stance as a function- of its feeding, without the kinatic equation of the process being known. In the present paper, this method is applied to re- actions producing a stable intermediate. The following relation is written for 6atalytic cracking: A V 1B + V2D + V3C (W') D + 1) C 4' 5 where A is the initial substancel B is the intermediatel C and D are the Card 1/3  868,42 Method of Determining the Rates and Kinetic 8/02 60/1-35/005/033/043 Constants of Complicated Chemical Reactions' in B0041YB075 a Flow end prdductal: and V are the stoiahiometric coefficientse The reaction rates wit 'W2 are determined from the conversion degree of A and B# Using the re- sults of Ref. 1, the following relation is obtained for the second stagej W2 - ('IS,') P 1 dx/d(l/n 0) - du/d(l/no)] (10),-where-So denotes the surface of the catalyst per unit length; 1 is the length of the reaction zonel fi0is the initial substance fed per unit time and expressed in moleal and u.1s the relative yield of B. The ratio du/dn can be experimentally de- 0 termined from the yield of B as a function of the rate of feeding of A. If the reaction rate at different temperatures and concentrations is known, also other quantities can be calculated, as e.g., the activation energy. For the parallel reaction W1 P1B I+VIB '+ 1 1 2 2 'Al FALI---" "B" +)o"B" 1 1 2 2 .......... n B 9 B + Card 2/3 1 1 2 2  86842 Method of Determining the,RateB and Kinetic 3/020/60/135/005/033/043 Constants of Complicated Chemical Reactions B004/BO75 in a. Flow i vi dzi/S is-'OiA-ained for the produat B with the yield 0 zi. In homogeneous reactions, the cross section of the reaction vessel is substituted for 3 There ars I figure and 2 Soviet references. 0 ASSOCIATION-. Moskovsk:Uy institut neftekhimicheakoy i gazovoy promyshlen- nosti im. I.-M. Gubkina :(Moscow ine'titute'o'f'Pe,troohemical and Gaseous Industry imeni I,P.M.. Gubkin) PRESENTED, 19600,by A..V. Topdhiyev, Academician SUBMITTED i june 18t: 1960 Card 3/3  ZHCR(IV,, Yu.M.;'PANCREEKOV, G.M. -----~Uelationship between the size of granules of the catalpt and the -area where reaotion takes placo. Izv. vyij. ueheb. zav.; neft' i gaz 3 no.7:65-69 160. (MM 115:5) 1. Hoskovskiy institut neftelddmicheskoy i gazovoy promyshlermostl imeni akademika Gubkinas (Catalpts)   S/065/60/00o/oli/ool/oog E030/E412 AUTHORS: Pqnchenkov,~G.M. Zhorov YU.M. and YUY-lin, t- -L--Y-U ---------- Features of.the.Catalytic CrackinPof Heavy Distillate PERIODICA-L: Xhimiya i tekhnologiya topliv J masel, ig6o, No.11 PP-4-7 TEXT: The kinetics of catalytic cracking of' heavy gas oil (IBP greater than 5000) from Romashki crude have been determined from plant data, The process is important for supplementing light gas oil which is in short supply for catalytic cracking. 'Fomr types of alumina/silica catalyst were tried, with BET surface areas from 305 to 480 m2/gm, The reaction was found to occur in canditions intermediate between those controlled by internal or external diffusion, and the specific surface area had only a slight effect. It is therefore desirable to use catalysts with a h1gh macroscopic zurface area, although they may have a low index. Maximum yields of liquid (boiling up to 2600C) were about 40% at space velocities of.0.6 to 0.7 V/Vlhour, but the ,Yield fell as the reaction temperature exceeded 4000C, due to external diffusion control. The activation energy was 10.3 kcal/mole at 400 to 4320C but fell to 7.6 kcal/mole at 465 to 490*C. This fall indicated that external diffusion is Card 1/2  S/065/6oi'000/011/00i/oog E030/E412 Features of the catalytic Cracking of Heavy Distillate present but it could not be completely dominant or else the actilration energies should have been much lower, around 2 to. 5 kcal/mole. . Further,.the cracking.must be mainly catalytic, since only about 3% of the raw material would have been thermally cracked at these temperatures, according to published data on thermal cracking. The quality of the product is determined by the alde-reac,tions, The reaction could be improved by using a higher.velocity of feeding the raw material, and use of a catalyst with lower activity but greater macroscopic surface area, that is, more finely pelleted (about 0.3 mm size for example). There are 4 figures, 2 tables and 9 Soviet references. Card 2/2  9.Mv - ZHOR07P'Yu*M. General method of determining effective diffusion coefficients for catalysts used in the petroleum chetaical-industry. Trudy MIBKHiGP no.280-9 160. (MIRA 104) (Petroleum) (Catalysts) (Diffusion)  PANCHENKOV G H.; ZHOROV, Yu.PI. Method,for deteraining.the rates., activation energy., and zones -of simple and-complex reaqtiona in a streviii. Neftekhimiia I no.2s172-181 Mr.-Ap 161. (14PA 15:2) ~1. Moskovskiy ImUtut neftekhimicheskoy 41. pzovoy promyshlennosti. imeni I.M. Gubkina. (Chemical reactiow) III tot 'T.-III 11  --,,/'152/61/000/001/003/007 B023/BO64 AUTHORS: Panchenkov, G. 11., Skoblo, V. A., Zhoro TITLE: Determination of the effective diffusion coefficients in porous sorbents PERIODICAL: Izvestiya vyeshikh uchebnykh zavedeaiy. Neft' i gaz, no 1961, 73-77 TEXT: The authors studied the sorption process basing on the spherical grain of sorbent of the radius Rgr. -They assumed that 1) the ooncentra-, tion of the sorbed substance on the surface of the grain remains constant and equal to CO; 2) the concentration decrease of the sorbed substanc .e, within the grain is linear (D. P. Timofeyev, Ref. 3). When describing the ,sorption process, the authors used the model of the no-called quasi- homogeneous grain according to Pshezhetskiy (Ref. 4). Since sorption proceeds more quickly than diffusion, in each point of the grain an equilibrium is established between the sorbed.substance in the gaseous hase and on the surfacep i.e., in agreement with the form of the iso- p Card 1/5  Determination of the effective,... S/152./61/000/001/003/007 B0231 .064 thermal line~of sorption. The following is assum ed: After the time -r since the beginning of sorption has ex*ed, the front of the sorption zone reaches the layer r in the grain. The concerLtration of the sorbed substance decreases from C on the surface of the grain to zero on the 0 spherical surface with the radius r. The concentration 0 8 and the pressure p 0 may be determined for any layer a between R gr and r by the following equations: C'a- (s-r)COARgr -r) (1) and ps = (a-r)po/(Rgr-r) (2). The sorbed substance in the interior of the grain in the layer it gr - r is contained on the surface of the sorbent in a quantity a ads and in the volume of the grain in aquantity avol, ther'efore a, = a ads avol (7). The amount of the substance sorbed in the layer (between the radius 2 s and s + ds), is equal to: da ad 13 W 4ne (r,(ac/cr,)ds (8), where ao, is the amount of the substance per unit of the eorbent volume in the case of Card 2/5  Determination of the effective B1152V611000100110031007 B023/BO64 complete filling, which corresponds to the pressure of the sorbed substance in the gaseous phase po; d 8 is that part of the occupied surface which is determined by the isothermal line of sorption at the pressure p0 of the sorbed substance. From eqUation (8) it is possible to find the total amount of the sorbed substance,-. a a00 9 ty 132da (9). ads 4n - S, (10 r The amount which is in the layer between the limits of the radius s and p8 2 ~B + ds, is:.da. Vol R ~~ 471s ds (10), where a is the fraction of the free volume in the interior of the grain. From (10) the total amount of the sorbed substance which is in the interior of the grain in the gas0ou 11 phase, is determined. The followin is written down a-9 the final form: h R laoo a 2 9r gr a + " a 2- .RT PS Rgr Deff001-T Rgr r) ar da-dr (15). Card 3/5  Determination of the effective S/152/61/000/001/003/007 3023/BO64 Formula (15) links the~time of sorption with the depth of penetration of.,the front of 'sorption for any form of the isothermal line. The authors emphasize that for sorbents sorbing a greater amoiant of subtAdince, the amount of subutance sorbed an the surface, is oonsiderabl~~ higher than the amount in the free volume within the grain. For such sorbents, equation (15) is simplified R R ~gr r 13 R 2 D C.- 'r- .(R - r) ~ - ( ~a -OC11 9 )s2dsdr (16). gr eff 0 r gr 8r In the authors' opinion it is possible to use the functions found for the determination of the effective diffusion coefficient D eff* It may be found as follows: 1) a ads w f(r) is graphicallY represented on the basis of experimental data. 2) owing to the shape of the isothermal line of sorption 6 - f(p) and the function p of a, it is possible to solve the integrals of (9 and (16) and to represent them graphically on the basis of equation W a ad.9 ' 9(r), 3) By giving a number of Card 4/5  ,"Determination of the effective S/152 61/000/001/003/007 B023YB064 values for a the values r and -t are found which correspond to the ads same value a ads* The quantity Deff Is found by introducing r and -. into equation (16). The equations mentioned describe, as is emphasized by the authors, only the first stage when the front of the sorption moves toward the center of the grain. There are 3 figures and 6 references: 4 Soviet-bloc. ASSOCIATION: Moskovskiy institut neftekhimicheakoy I azovoy -promyshl'ennosti im. akad. I. M. Gubkina 7Moscow Institute of the Petrochemical and Gas Industry imeni Academician .1. M. Gubkin) SUBMITTED:~ June 30, 1960 Card 5/5  PANCffENKOV,, G.M.; YAKOVLEVO V.I.; KOZLOV, L.L.; ZHOROV, Yu.M.-j- KUWVKINI D. A, Activation of an aluminosilicate catalyst, by protons and garma rays of CA. Zhur.fiz.khim. 36 no.5t.LU3 W 162. (MIRA 15:8) 1. Moskovskiy institut neftekhimichF)skoy i gazovoy promyshlennosti.. (Aluminosilicates) (Catalysi-9) (Radiation)  42185 S/076/62/036/011/015/021 BIOI/B100 C:~ AUTHOPS: Panchenkov, G. M., and Zhorovj,Yu. M. TITLE: Kinetics of chemical reactions between gaseous and liquids reactants with volume changes in.a stationary system PERIODICAL: Zhurnal fizicheskoy.khimii, Va 36, no. 11) 1962p 2520-2524 TEXT: Unlike classical kinetics, the change in volume must be taken int 0 account. For this purpose, the volume of the reacting system is represented as a function of the degree of conversion, and the following is obtained for the rate of reaction: w n /(VO Px (dx,, /d-r), AI liq 0AIliq AIliq liq where A Iliq is the liquid reactant, n its initial concentration, x the degree of conversion, r'-the reaction .time, V0 the initial volume, and- P - (n 0- 1v I )Y,~ illi/diVi stoichiometric coefficient; A1 liq- Card 1/2 T-T 17~1 9 f f  5/076/62/036/011/015/021 Kinetins of chemical reactionh... B101/B160 molecular weight; d specific eravity of 'tho.,component ai'liq, 1'. f X,- the deeree of conversion of the liquid reactant (but not its concent-ation) is chosen-as one of the variables the equations of classical kinetics can be used for first-order reactions. The following holds for second-order reactions: dx/dT - [kn OAVO - PX)j 0 - X) L' P - 0 or V 0)-Px, then this equation passes over into that of classical kinetics. ASSOCIATION: fleskovskiy gosudarstvennyy univerBitet im. M. V. Lomonosova (Moscow State University imeni M. V. Lomonosov) SUB'MITTED: February 23, 1962 Card 212  PANCHENKOVI G.M.; ZHOROVJ YUSM, Kinetics of the catalytic oracle-ing of light gas oils. Trudy 14IIDMGP no.370-12 162. Kinetics of catalytic cracking on aluminosilicates retarded by Eai external diffusion at the catalyst surfai-.eo Ibid.:12-18 Relationship between the pre-exponential factor and activation aner- gy in cumene crackingon aluminosilicates. lbid.:19-23  ZIJOROVI Yu.M.; 14irgaloyevo I.G,,J, PAUSHIII, Ya.M. Kinetics of catalytic hydrochlorinaticK ar'styrene, Neftakhimiia 3 no.3:399-401+ My"Id 163.,.~~ ORRA 16:9) 1. Moskovskiy institut mftekhimicheskoy i gazovoy promyshlennosti imeni I.M, &Lbkina, (Styreno) (Hydrochloric acid)   IIIIGMAUKOV, VENYATAMCM, 'i,110-RCI, Yu.Ko Kinetici of the delordrocyclization of paraffin hydrocarbons on oxide catalynts, NuftakhImAJ'a 4 nojs310-36 J&-F'64 (MTRA 17 W 1. Moskovskiy !natltut nef telch I g&zovny prom7shlen- nosti Ineni ToMeOubkIna.  'ACCESSION NR: AP4024409 9/0204/641004100110128/0132 AUTHOR: Panchankov,'Go M,; Zhoravp Yu,, M,; VenkatsebaUs, K* A*; Ourevich, TITLE. RetermLnation of'the group composition of bydtNxavbon mixtures by liquid hrdwtography with luminescent indicators* c SOURCE: KeftekhimLys, v9 4, noe 1, 1964, 128-132 1. TOPIC TAGS: hydrocarbon group analysis, liquid chromatography, luminescent i chromatography, luminescent dye, indicators, aromatic hydrocarbon, olef ink hydrocarbon, paraffinic hydrocarbon, naphthenLc hydrocarbon. Indicator adsorption.-, homatographic column packing, group analysis ABSTPACT: Luminescent dyes were prepared, a method of luminescent chromatographic' analysis of hydrocarbon mixtures was worked out, and tha accuracy of the method was eva luated. By using specific luminescent dyes# a claromatogram of hydrocarbod mixtures separated into aromatic hydrocArbon, olefinic and poraffinic plus naphthenic zones can be obtained by illumimting the siLice gal column with i ultraviolet light, The length of each determined amos idll cmespond to the content of the type of byAroaarbau Laths mixture* A victerial extracted from high Card.-  ACCESSION NRS -,A?4024409 -molecular petroleum products such as osphilt or ozokerite provides a luminescent -indicator suitable for identifying both the aromatic and the olefinic sections. The aromatic indicator ~(dark blue4uminescence under uo,w*) is extracted with ~.:--diisobutene from material adsorbed on silica gel and the olefinic indicator (lishti, bl:ue. luminescence) is extracted with benzene. Luminescimt-chromatographic analyses conducted an mixtures boiling in the 30 t -300 C range showed,the method to curate. High molecular Wei be reliable and ac er , Sht compounds may also be analyced this method, The composition of the hydrocarbon mixture has little effect on 'the accuracy. Accuracy of the method does depend on the evenness of the chrma- tographic' column packing and an the similarity in sorption onto silica gel of t a luminescent indicators for the different type hydrocarbon fractions. The LndL- cators obtained by extraction from asphalt meet the requirement of being .1 similarly adsorbed on silica gel. Thus luminescent chraiiatography way be effectively used in group analyses of hydrocarbon mixtur0s* OrLge art* hast 3.11. "tables and 3 equations.. I ASSOCTATION: Xoskovskiy institut neftekhimichaskoy L sasovoy promy*shlewosti Ime 1, M. CubkivA (Koscow-Institute of the Petrochemical sad Gas Industry). Card ~81  ZHOROV, Yu.M.; PA11CITIE11KOV, G.M. Formal kinetics of chemical reactions in t1le liquid phase occuring with change in vOILIMe. 12v. vys. ucheb. zav.; neft, i gaz 7/ no.7: 49-53 164. (HIRA 17:9) 1. Moskovskiy institut neftekhinmicheskoy i gazovoy promyshlennosti im. akad. I.R. Gubkina.  ZHOROV, Yu.M.; PANCHERKOV, G.M. Determining the group compoaition of petroleum products containing aromatic alkenyl.hydrocarbons. KKim. i tekh. topl. i masel. 10 no.12;51-54 D 165. (19RA 19:1) 1. Moskovskiy o'"dena, Trudovogo Krasnogo Zriameni institut, neftekhimicheakoy i gazovoy promyshlennosti Im. akademika Gubkina.  AUTHOR: Zh P.; Tirakiyan. Tu,~ A. or -H Fanchenkov G. H e YU ORG: TITLE*. Heat of reaction in catalytic reform njw of gasoline fractions SOURCE: Khimiya i tekhnologiya topliv i masel, no. 1, 1965, 12-16 TOPIC TAGS: heat of reactionj lieptatic, -.ii-omatic hydrocarbon, napthalene, crude petroleum A13STRACT: In previous studies an cripirical equation has been sug- gested for the determInation of the beat of reaction of hydroform- Ing: q .--,(4.5 a,-+ 5.36a2 +-5.45b) ~c 298 a- a e, where fteat,_ 6f.reactlon-,,_at_2.9~0C, koal/Iq b~ q2 elds-or arcma tic-. hydrocar ons --b from naphtheneE; anA paraffins, gas and coke respectively (inper'o'ent weight of crude material); coefficlent, depending on gas composition and varying from 2 to ~3.2. The.heat of reaction of hydrocracking or heptanelcalculated ~fromthls equation.-and ~the a.atual.-Value are. 32 iGna__VF1tca1/ke;t j7e 'spectively- 4,~ _Thus~oaleulatlon by this equation is substantially. i.n error. 1h; It I on thl s 'e q uati on cann ot bit us ed' I n de, t ermi n*~- MXG: 66.C92 665.521.2, i/2  ACCLMRi -T-- AP6 7- %29 wb_ --Ingth6 h6aV' :f jj reac on conditionf 0 -::Thd--.e_m-_p'_Tri`cA1 eriva 'Ion of iation-cast- that-..- tali Ah--l-$00 C this eqt ,doubt on Its possible use in qualitative description of the plat- 0 ,forming process. A eordingly, the authors developed an analytical 'I'mothod of determining heat. of the reaction In catalytic reforming .1based on a kirtetic scheme of the prooesn, affording detormination loir heat of reaction with considerably greater accuracy than other imethods. The crude material usually contains a slight amount of 0 her 'd~ lysisis united with the paraffins lefln.so, whIcb,,.Upori.furt na -The possibility of -caloulatinig the heat of reaetion of the complex -,techniodl. mixture of hydrocarbons with different molecular weights .band boiling points. according.,to the scheme presented in the article 'I s accounted for by the fact that the molar heat of reaction of any vof the reactions examined depends a little on the molecular weight.. i the crude ''material., . In hydroref orming of h eptane, the heat of action is +10.5 kcpLl/kg,-in platformiiig of hoptane with near ,!Conversion--,+* 231 kcal/kg* The head of reaction of hydroformins ! of dif f erent.: technical f orms of f uelINdepending on naphthene content ~ x r cordihg"t d' t'l io _ude ac o, ata given can vary from 40 to 16CI kcal/kgl the value.s,-fdr. Platforming,!.!_from 90-to-290 kcal/kg. Orig. art. has: ~:16 1ormulas And 3. table .,SUB MM,~.Al M,-DAM' M n 001 W -n6ne- ORIG MF t 01,0 Im 2/2,  ZHOROVp Yu*M,; PANCHWOV, GoM*j ULITSM) S#Pa$ TIRAKITAN, YVOA, ~ivelopmant of the mathematioal devoripticm of platformAng for optimization of a prooesse Pai~b 1e. Kin@ i kats 6 no, 6sIO92- 1097 N-D 165 (MIRA 1911) I* Moskovskly institut neft6khimichnskol i gazovoy promysblen- nosti imani Oubkba. Mbnitted June 23# 1964,   PANCHENKOV, G.M.; ZHOROV, Yu..M. Determinating the kinetic values of vttqlc! and complex chenical reactions In circulatIng reactors. Trudy MINKHIGP no.44:141-1j+7 163. (WRA 18:5)  ;.~t~qRov, YU.M.; PP14CHENKOV, G.M.; ZELITSER, S.P.; TIRAKIYAH, Yu.A. Calculation of heat effect in the catalytic reforming of gasoline fractions. Khim.1, tekh.topl. i nasel 10 no.l.*22-16 ja 165. (MIRA 18:4) 1. Moskovskiy onlena Trudovogo, Krasnogo 2nameni institut neftekhimicheakay i gazovoy promyshlennosti im. akad, Gubkina.  SHLYAKHTIN, Ye.I., 4ZIHIUOR=OVA A,,G.- ANANCHENKO,, M.V.; GRISHUTIN, T.G.; I. IN. IVANOVO V.I.; ORONIN, A..i.; POPOVA, M.S., inzh.; TAIUSMO, 1.1"I RMNOV9 A.I.; ZHUKOV,, A.V.; LAPTEVO G.I.x inzh. Who should perform the forwarding and carrier services? Zhelo dora transpo 45 no.6.,42-45 Je #63c. (MMt 16?7) 1. 2-mmatitall naebalinika stantaii Smolensk Moskovskoy dorogi po gruzovoy-rabote (for Shlyakhtin), 2, NadmiTnik pogruskontory stanteii Smolensk Moskovskoy dorogt (for Zhorova). 3. Zava- dv~pwhchiy grvzovyx dvorom otantsii Smolensk Moskovskoy dorogi (for Ananchanko). 4. NachaluAik Uvarnay kontory stanteii Smolensk Moskovskoy dorogi (for GrIshutin). 5. ZaveduYLw4hiy kontaynernoy ploshchadkoy otantsii Smolensk Moskovskoy dorogi (for Ivanov). 60- Sakretarc partiynogo byuro stantaii Smolensk Moskovskoy dorogi (for Tarasanko). 7. Stantaiya Sr-nlenak Moskovokoy dorogi (for Doroninp Romanw, Popova),, 8a Upravlya- yushchiy Smolensklm oblastnym avItotrestam (for Zhukov),, (Freight and freightag-9)  ZAKRAROVAp Galina VasillyevrAp kand. takhn. naukj POPOV, Ivan Aleksoyevich, kand, tekbn, nauk;, ZBOROVA _Ujia=-PavIovn&; FEDIII, Boris Vladimirovich; Priii bastlye, mumrm,' Z.S.., zaal, deyatell nauld i tekhn. RSFSR;, POPOVA., L-A4.. zaal. da~atelv nauki I tekhn. RSFSR; YHGbROVAj N.D., zaal. deyatell nauki i tekhn.RSF - SR,, NIKITINAP Ye.I.p zasl. deyatell nauki i tekbn6 RSFMI ZHWCHUZk.IAYA, Ye.A., zasl. doyatell nauki i tekbn, RSFSR; ZHABINA, V.A.; SAVITSKIY, Te.M., red.-. STROYEV, A.S... rede; ARKEIANGELISKAYA:, M.S., red. izd-va; KARASEV, Aelo, tekbn, red* [Niobium and its alloys) Niobii i ego splavy. By G.V.Zakharova i dr. Moskva, Gos. nauchno-tekhn. izd-vo Utx7 po chernoi i tsvet- noi metallurgii, 1961, 368 (MIRA 14:12) (NiobOO5  ACC NRt AP70021133 SOURCE CODE: UR/0219/6~,~60[0,~7j~o ,5~jjj AUTHOR: Zhorova, L. P.; Zakharova, G, V. ORG: none TITLE: Effect of cold working and annealing on the mechanical properties of nio'bium sheett SOURCE: Metallovedeniye i termicheskays obrabotka metallov, no. 12, 1966, 28-31 iTOPIC TAGS: niobium a 'e, Umechanical property 'd at() lin o ABSTRACT The effect of cold rolling, direction of rblling, an annea g n the mechanical properties of niobium at toom and high temperature has been investigated. Niobium ingots, 75 mm in diameter and 150 mm high, melted in a vacuum irc furnace and horogeni2-ed,at 1800C in an argon atmosphere for 10 hr, were extruded at 1500C into sheet bars 35-40 mm thick, which, after reheatk-g to! 1500C, were rolled to a thickness of 12-15 mm, conditioned by machining,.vacuum annealed, and rolled Into sheet 1 T= thick at about 150C. Sheet specimens (50 x 10 x I mm) were then cold rolled with 50, 70, 80, 90 or 99% reduction without process annealing. It was found that cold rolling with a reduction of more than 70% significantly strengthened niobium. Specimens rolled with 90% -reduction and'tested at 20, 700*0 1100. 1300, or 1500C had a tensile strength of 71-47.2, *52.6--53.2, 22-24, 9, 9.7. Card 1/2 uDc: 669.293:621.,.~&3;621.7. oil  ACC NRs AP7002433 and 7.5-8.~ kj/mWj i~i~i~ftvely', compared to 50-51, 40-42, 3.9.5-20.5, 10.1, and 7.5-8.9 kg/mm2 for specimerLs annealed at 1300C for 1 hr. Cold rolling produced a considerabIk'_anisotropy~ Tensile strength, kg/mm? Fig. L Temperature &pendence of mechanical properties of cold-rolled niobium sheet specimens: du transverse (1), longitudinal (2), and 45* to the Elongation,* % direction of rolling (3) 0 to 4tv sw in logo fix -C Test temperature, C of strength and ductility (sie Fig. 1)j whichhowever, was completely eliminated by annealing at 1300C for 1 hr. Annealing at.1500-4800C increased the grain size from 0. 06 to 0.9 M=.. Orig. art. has: 3 figures and 3 tablis-7- SUB CODE: 11, 13/ SUBM DATE: none/ ATD pRMS: '5113'   SOV/136-59-1-16/24 AUTHORS: Zakharova.) G.V.7 Popov, I.A.9 Zhorova, L.P. and Xurganovq G.V. TITLE: Use and Properties of Niobium (Primeneniye i svoystva niobiya) PERIODICAL: Tsvetnyye Netally., 1959, Nr 1. pp 73-79 (USSR) ABSTRACT: After outlining the uses of niobium the authrors tabulate some published (Refs 3,10 data on its physical properties. They discusspublished data on the mechanical properties of the metal, noting divergencies arid the absence of high-temperature (over 5500C) data, and describe their own experiments in this field . These gave more accurate room-temperature and also some high-temperature values for the cast metal. Ingots were propared by melting 99.6-% (Nb + TO rods in a VIAM arc furnace at a pressure of 10-4 = Hg. .,The ingots were deformed to 70-80% after annealing at 10-r mm Hg and 1800-20000C to remove oxygen and other gases: results are given in Table 17 and at 1400-16000C in argon or helium. Deformation was carried out under the direction of I.G. Skugarev and S.B. Pevzner. Card 1/3 Fig 1 shows the microstructures of the cast (left),  Use and Properties of Niobi= SOV/136,-59-1-16/21+ forged, (middle) and re~-rystallized(right) metal. The room temperature values of tensile strength, yield- point strengthv :Nlatl7a elongation, reduction in cross- sectional area and Vne hardness are given In Table 2 for niobium in the cast7 pressed and pressed-and-vacuum- annealed states3 Tabla 3 gives data for 1000, 1050 and 110000. Fig 2 shows the change inthe time to fracture at a constant strass of 15 kg/mm2 for the deformed and for the cast metal while Fig 3 shom's the modulus of elasticity, kg/mm2, (left hand scale. triangles, points and crosses for hardenedg deforme4 and recrystallized specimens) and the logarithmic damping decrement for recrystallized specimerLs, The moduli of elasticity were determined in the inst-it-a-110 mashino-v'edeniya AN SSSR (NAchine Institute of tha AS USSR) under the direction of M.G. Lozinski7, An Interesting result is that the modulus does not decrease with increasing temperature; this may be due to the presence of impurities. It was Card 2/3 found that (Table 4) with.increasing oxygen content (from 0.02 - 0.21+%) the tensile strength increases from  Use. anId Properties of Nioblium SOV/136-!;9-1-16/24 53 to 103 kg/mm2, the yield-point strength from 40 to 9945 and Brinel hardziess from 120 to 320, while the relative elongation falls nrom 226 to 10%. When the carbon-content of a specimen was ine,,-reaged to 0.3% the tensile strength fell somewhat while the relative elonga- tion remained sufficiently high. In the specimens used the hydrogen. nitrogen and normal virbon-contents were 0.001-0.005%; 0.005-0.01% and 0.04-0.05%, respectively. Finallyq the authors outline the o~d.dation of niobium, as reported in English (Refs 8510,11,12) and German (Ref 9) publications. There are 5 figures, 4 tables and 12 referonces, 3 of which are Soviet, 8 English and I Gorman, Card 3/3'    --dy Vladimirovich; QjWVAj-LiIiana.-Fa:yj-Qvna,,., KURGANOV, Ge FEDINY Boris Vladimirovich; FISIMI, A.Ya., rod.; BRYYUKHACMA, V.V.~ ved, red, (Modern niobium alloys, the technology of their produc- tion and use; review of foreign techniques] Sovremennye niobievye splavy, tekhnologiia ikh proizvodstva i pri- monenie; obzor zarubezimoi tekhniki. Yogkva, GOSINTI, 1962. 27 p. (9IRA 17:5) LF   )N NR: AP la's AUTHOR: Zakharon, ~. V.; ?Aoi-tjva, rfl7lZ: fleat treatm,.,xtof njobiim SM'RCE: Tsve~ rie m tally., Me 51 ~7-11, 53-58 !IOPI-C TAC-S- nioblUm, b0sit tteatmant, hnArqPL-fting IMXT: A stucly was mai,-- of tbe effs~~.t and ~:arlbon Card 1/3  J- J -- H- sub- 2 dontent from 0.0020 to 0,0012%, and the C contei it, :from 0. 14-0. 45% U) 0,033-0j047%. It also improved the uni'ormit.,, ~-- lis r-:l;tior impirrities. T-he recrystallization ~em-,,4--ra-.ure c- ~ilc C, extrusion followed by an.-,C-aling and 3C- was -ie,~erm I rc,-. P-.,] Was tr ma-. 1 Me- F 5'-C- 3 -ic we e r On MIRM lip'll,  ACCE=0N NR: AP3000201 and large-sized semifinished products can be annealed 1,, farnme-es vith graphite heating elements at tem-pe rature aa-s high. sax 1~ if)-:_,()0CC, io-o'Ided 'chat the -arburized layer ~S T_EM0Vt-d ALL71 5 sem-If ini stied niotlum -:Sr- :~e re-, graphlte ?ieatirig FIP.Moln*~c- a, art. has: 5 figures wid tables. ASSOCIATION: norie SUBUTTED. 00 DATE ACQ: 14,Tun63 ENCL: 00 So COW: 00 90 REF WV: 001 OTTER: 002  ACC NRt APT002866 SOURCE CODEt Ufl/Ol4q/66/ooo/0o6/Ol46/oi4q AUTHOR: Levin, A.Mo's. Zh.~,r0V1L,,-JUP- ORG: none TITLE.*. Effect of alloying elements on the dleformability of rhenium SOURCE: IVUZ. Tdvetnaya metallurgiya, no. 69 1966, 146-1h9 TOPIC TAGS: platinum containing alloy, yttrium containing alloy, vanadium containing alloy, rhenium base alloy, molybdenum containing alloy, tungsten containing alloy, zirconium containing alloy, titanium containing alloyq niobium containing alloyq tantalum containing alloy, alloy cold reduction, metal deformation, solid solution, solubility, hardness ABSTRAM Ingots o*f rhenium alloys containing 1.28 and 3.33% Mo, 1.08 and 9.31% W, 0.9 and 1.4% Nb, 0.5 and 1.14% Ta, 0.63 and 1.0% Zr,*2.94 and 27.3% Ti, 17.73 and 38.52% V, 0.3% Y, or 1.86 and 5.7% Pt were melted from 99.982- pure electrolytic rhenium powder in a nonconstall-able electrode arc furnace* 'in a helium atmohphere, and investigated to determine the effect of ;individual alloying elements on the alloy"structure and deformability._,.1 Card 1/2 UDC: 669.849  ACC N& APT002868 'All alloys 6oritained zibouit 0 OIZ 02 an4 0.005% -H2,-'ASIo'ys containing 9.31% W~l 28% Mo, 5.7Z Pt, 0:63% Zr or 0.3% Y were found to be single- phase solid'solutione of these elements in rhenium. Alloys containing 0.9 and 1.4Z Nb, 1.0% Zr, 1.14%Ta or 2.94% Ti had a two-phase structure. :The solubility of W and Pt-in rhenium 'reached 12 and 60%, respectively# ~;Ta, Nb, Zr, Ti, and Mo had a low solubility ia rhenium. T1 and Zr .additions produced the highest increase in the hardneas of the investi- gated alloys. Vb and Ta additions produced a somewhat lower hardness increase, while Mo, W and Pt additions, especially in small (up to 2%) amounts, produced almost no increase. Rhenium containing 0.01 02 hnd 0.005% 112, are-melted in a pure helium atmosphere, suntained a cold xeduction of about 9%. The addition of 1-9% W, LOZ Zr or 1-3% No Increased the permissible cold reduction-to 23-26%, 19%,and 17-19%, !-respectively. Nb, Ta, V, Y, and Pt additions in amounts up to several percent have practicallyno effect on the deformability of rhenium. The :majority of the investigated alloying elpmento increased the work 11hardening of rhenium in cold rolling, although no direct relationship 1. between the work hardening and deformability vas established. For com- 1plete stress relieving, work-hardened rheniumand its alloys should be lannealed iu:a vacuum or in hydrogen-at 1800C r-or 0.5-2 hr. EWA-881 ... ........ SUB CODE: 11, 13/ SUBH DATE:: 1hMar65/ OHIO HErt OOl/ OTH REN 002 ATD PRESSt 5114 Card 2 /2  ACC AP7002668 SOU-RCE CODEt ~;..AUTHOR: Levin, A.M. ORG: none un/014!;)/66/000/006/0146/01.49 TITLE: Effect of alloying elements on the d eformability of rhenium SOURCE: IVUZ. Tsvetnaya metallurgiyaq no* 60 19669 146-149 TOPIC TAGS: platinum containing alloy, yttrium containing alloy, vanadium containing alloy, rhenium base alloy, ~molybdenum containing alloy, tungsten containing alloy, zirconium containing alloy, titanium containing alloy, niobium containing alloy, tantalum containing alloys alloycold reduction, metal deformation, solid solution, solubility, hardness ABSTRACT'. Ingots of rhenium alloy 19 containing 1.28 and.3.33i Ha, 1.08 and 9.31% W, 0.9 and 1.4% Nb, 0.5 and 1.14% Ta, 0.63 and 1.0% Zr,'2.94 and 27.3% Ti, 17.73 and 38.52Z V, 0.3% Y, or 1.86 and 5.7% Pt were melted from 99.98%- pure electrolytic rhenium powder in a nonconi3ur-able electrode are furnace 'in a helium atmo6phere, and investigated to determine the effect of individual alloypg elements on the alloy structure and deformability._, Card 1/2 UDC: 669.849 - ___ I _j  MA. nm artuveooo All alloys ~onfalned gibotit 0.01Z 02 and 0.005% H 2 Afl6ys containing 9.31% % 1.28% mo, 5.7Z Pt, 0.63Z Zr or 0.3% Y were found to be single- phase solid'solutions, of these elements in rhenium. Alloys containing 0.9 and 1.4% Nb, 1.0% Zr, 1.14%Ta or 2.94% 71 had a two-phase structure* ',:The solubility of W and Pt'in rhemium reachcd 12 and 60%, respectively. 'Aa, M), Zr, TL, and,Ho Wad a low solubility in thenium. Ti. and Zr additions produced the highest increase in the hardness of the investi- gated alloys. Nb and Ta additions produced a somewhat lower hardness increase, while Mo, W and Pt additions, espeicially in small (up to 2%) amounts, produced almost no increase. Rhenium containing 0-0102 hnd 0.005% H2, arc-melted in a pure helium atmosphere, sustained a cold zeduction of about 9%. The addition of 1-91 W, 1.0% Zr or 1-3Z Ito the permissible cold reduction, to 23-26%, 19Z,and 17-19%, ~`respectively. Nb, TA, V, Y, and Pt' additions in amounts up to several ,Percent have practically no effect on the deformability of rhenium. The !majority of the investigated alloying ele-methts increased the work thardening of rhenium in cold rolling, although no direct relationship !between the work hardening and defornutbility was established. For com- iplete stress relievingp work-hardened rhenilum. and Ito alloys should be lannealed.in-a. vacuum or in hydrogen-at 1800C for 0,j-2 Ur, [WA-881 tMS] SUB CODE: 11, 13/ SUBM*DATEi.. 14mar65/' ORIG 11EF 001/ OTH REF: -002 ATD PHESSt 5114- LC d 2/2 .a  SIIAI%MGII, A.B.; DAIIILMKAYA~ KAZAPJ2!A, G.P.; TORISMA, A. G. Spectrographic determination of h)mlrogen -.in nickel and copper And Of OxYgen in copper. Zav. lab. 30 no.11:1343-1346 164 1. Urallskiy nauchno-issledovatellskiy inatitut chernyl:h metallov,  BASOVA, Ye ?.I ZHOROVA N I SHA=CHt A.B.- SHUBINA, S.B. Spectrooraphic detertdimtion of nonferrous siatal Impurities in raw materials use& in the manufacture of ferroalloya and heat-reaiatant alloys. Zav. lab. 28 no.9:1075-1076 162. (HIM 16W 1. Urallskiy nauchno-i6aleftmtellskir institut cheMkh astallor, (Alloys) (Nonferrous metal"pectra)   IZHOROVIN, flikolay Anisimovich; KOLESNIK, A.A., prof., red.; V., tekhn. red. [Consumer's requirements of the qualit7 of potatoes) Pot- rebitellnye kachestva kartofelia. Minsk, Gos.izd-vo sell- khoz.lit-r" BSSRs 1963. 145 P. (MIRA 16:12) (White Russia-Potatoes) I INEWIEM-Aff-111 FUN! K 4eP91, Ovill HEM[!  POLAND ZHORSJU, Antoni, Clinic of G"ecology und 0,~st-otrio.!?, (Xii. i Chorob Kobiooyoh) t AN (Alcadomia Motlyoxna, modical koademy] in Krakow (Dirmotori Pr*f. Dr. S. SCHWARZ) "Historical Outlinie of Obstatrios at the 5W. nuoha Hospital (Sr.pital) in Krakow," War3Aw-Er"ow, Przo lad Lekarski, Vol 19, Sor 11, No 1, 63, pp 21-26. Abstracts 7ho author revious the davelopmont of nbst4triaa! 0alla in oland from tho mairly ohurah 3kkbltors practically at every church to the sponialized obatetric rhurch has- Vitali In the car* partioularly of the Order of 5w, Ducha (Ifoly Spirit). Ho cites roilroos and showt: of early 'writings In nonnoction udtA this d-tviolopmart', All raforences ar* inalde ths tayt,  ZHOROVSKIY,, I.A.; TARASOV, N.M. Calculation of excitation circuit transients of synchronous machines with transistor rectifiers. Trudy Ural. politokh. inst, no,224:30-36 162, (MMA 16r8) 9 ME ISM !IF$ I  ZHORZH, Goorgiy Aleksandrovich, (Blagoveshchensk Btat~i Yed inat) for Doo Med Sci of on the basis of dissertntion defended 22 Oct 59 in Cimincil~Jtinsk Stpte M-3d Inst, entitled "Control of anterior synechlas of the eye." (Experimertal clinionl study and invention)" (BT-4ViSSO USSR, 1-61, 23) _78-   VISMWSKIY, HeA, , polkovnik med*vluzhb7, prof *' 219O=, G.A* podpolkornik mod; olu&byp kand*med;naukg SLOYINSKIY, lT.K, 9 polkovnik -ded;oluxhbr Importance of visual acuity and ocular refrRetion for shooting, Voen;-medo'shur' no.8s44-49 Ag '58 (MIRA 12:1) (SH;;T]3G, HILITART) (VISION) .I  ZEIMHO G;A~ al onlication of the sputuls, for separation of the 171m from the borders of the wcmad In application of Contlums Outure. Test- aftep Modcm 33 twe'l:44-43 Jarp- Tab.p- 1954. (GDLTA 25;5 10* Candl"te Medical Salewaso 2. Ark ogel'A.'  MWM* G.A~ lopmeni; of lqerlmntal data on control of deTs adhesions and a3iterlor synechUs In the apt. Test. Oft', Moskva 33 noilt45 Jan-3%b 1954. (CDm Z5:5) 1; Candidate Medfad Soleness. 2,. Arkbwigellsl:~        ZHORZHIKASHVILI, G.D., red. [Vational economy of the Georgian S.S.R. in 1962; statistical yearbook] Narodnoe kho2ia' tvo Gruzinskoi SSR v 1962 godu; statisticheskii. ezhegodnik. Tbilisi) Gosetatizdatj 1963. 444 p. P(MIRA 17t6) 1. Nachallnik TSentrallnogo statisticheukogo upravleniya Gruzin- skoy SSR.  ZHORZHIKASHVILI, G.D. Georgian S.S.14 Prom.koop. no.1:9 -Ta 157. 11 Predsedatell pravlenlya Grmzpromsoveta, (Georgia-GooperatiTe societies) (MLRA 10: 4)  ZHORZHIKABITTILI, G. Chemical Industry of the producers' cooperatives of Georgia. Prom. koop. 12 no.8:31 Ag 158. (MIRA 11:9) l.Predoedatelt pravleniya Grutpromsoveta (Tbiliei) (Georgia-Chemical Industrics) T _T__-7_-_T_._,_7 TF__, -F T-W _T _T1 IT .-Af affilwo low - - ----- -_  ARIamwir  ZHOZHIKASHVILIp V,,A., kand.tokbn.nauk; MITYUSHKINO )(.G.s kand.tekli Single-o~,Oftl pulse distributor using elements with a rectan, hysteretTvz- loop. Trudy VITHE no.7sl3l,-149 158. (M ~T -fr-  TUTZVICH, V.N.(Xoskva); ZHOZHIUSHVILIO V.A. JKoskva)# Commutators h&vj;jg magnetic units with rectangular hysteresis loops Avtoms itelem. 15 no.1:35-53 -Ta-Y 154. (IILRA 10:3) (Commutation Plectricity)) (Telemetering);  ZHOMHIKOVAI X.O. NOSCOW). Work of the head nurse in a pediatric infectious ward. Med.sestra no.9:Z7-)O S (HLRL 6:10) 1. Datekeqa klinicheakaya bollnitea no.l. (Pediatric mrsing) (Houpitalm-Staff) --- --- ij  KHARINAp N.; MCHEDUSHVILIp 1. (Thilisi); PETROV N. (etantoiYa Ims" Kazanskoy zheleznoy,dorogJL); ZHENOV,, N. 4,Sovetsky Nallaingradskoy zheleznoy dorogi ;-DOROF A T331MYLKY.. le., gazoapparatcha; -.ZHORZHOLADZE#_-QAI TURUTINEXPEYE, .(Minsk) Letters to the-editors. Sov, profsoiuzy 17 no.1:39-42 Ja 161. (MIU 14.1) 1e Brigadir brigady kommunistichookogo truda Novosibirskogo kozhevenno- obutnogo k=bimti (for Hharin~), 2* FTedeedatell rayonnogo komitsta profsoym zheleanodoroahni ov, Velikire Luki (for Dorofayev)i. 3. Chlen bibilotechnogo soveta il.Stalino (for Timofeyev). 4, Fredsedatell Dorozhnogo komitets. profsoyuza rabotnikov zheletnodoroshaogo trans- porta, Zakavkaodkoy sheletnoy dorogi (for Zhorzholadze). (Trade unions)  ZHORZHOLADZE9 G. Pledges will be fulfilled. Sov. profsoiuzy 17 no. 2:34,-35 Ja 161. (MIRA 14:2) 1. Prodsedatelf dorprofsozha Zakavkazakoy zheleznoy dorogi. (Tranac"aucasia-Railroads) (Socialist compotition) I'll-will We*  ZHORZHOLADZE, K,V.; MEYOZOV, V.I. Ifficient system of condeniate return. Pakh.prom..30 noo9131- 35 '56. WA& 10:3.) 1. Gruzinskiy sakharnyy savod. (Sugar industry-Xquipment and supplies)  MI ZHORZHOLADZE, Ke Ve Sugar -Manufacture and Refining Settling the accounting problems of sugar beet losses. Sakh. prom. 26 no. 2, 1952. Monthly List 2f Russian AqSjLsIo M, Library of Congress, June 1952. Unclassified.  ZHORZHOLIADTI,,A.G.; CHIMINILI., O.N. Semi-industrial experimental cyclone furnace stand of the Inatitute of Power Engineering of the Ace.denq of Sciences of the Georgian S,S.R, and preliminary (a:perimentv on the burning of nazut In a cyclon.3 combuation chamb-ir, Trud7 Inat, anerg. AN Gru3. SSR DtV,5-256 163. (MMA 17 :7)  ZHORZKOLIANI. H.D. Frequancfeel-of the free transverse vibrations of an. evenly loaded solid bean of constant' rigidity. Soob. All Giniz. SSR 20 no. 2-.199- 205 F '58. (HIRA 11t7) 1. AN GruzSSA,'Indtitut stroitellnogo dale. 7bilizi. Predstavlano akademikom XOS.Zavriyev". I \, * (Elastic rods ancl wire a-Vibre t ion   ZHORZHOLIANI, N.D. Concurrent free and forced vibrations of rods 17ing on vibrating supports. Soob.Aff Gruz.SSR 25 no.107-43 Jl 160. OIIRA 13:10) 1. Akademiya nauk Gruzinakoy.SSR, institat stroitellnogo dela, Tbilisi. Bredstavle-no akademikom K.S.Zavriyevym. Mastic rods and wires) (Vibrations)  Free ;t#d forced vibrations of continuous btams. '1'---u(iy Tr,,st. rtroi.mekb i zL* MM.. AN Gruz. SSR 9*.93-102 163. (MIRA !7t12) -:7  LORDKIPANID7,b, R.S.; DMUGELI, D.D.- 2.41ORMOLIANI N.D.; LOSABLEFUM., G.D.j SARIGOP B.P.; CHIKOVANI, N.t._` Experimental study of the strE'ssed state of a large-span shell in the process of assembly. Soob. AN Cruz. SSR 28 no-4:443-450 Ap, t62. (141RA 18: 1) 1. AN Gruzinskoy SSR, Institut stroitellnogo dela, Tbilisi. Submitted May 5, 1961.  ZHORZHOLIANI? N.D,,,. Approximation method of determining the frequencies of natural vibrations of normniform--span continuous beams. Trudy Inst. atroi. makh. i seiom. AN Gruz. 1009-68 164. (HIIIA Mill)   ZHOSAN., Y.; -BARBAT Yu.; FUYA, I. Comparative otudy.of the development of Chenod 396 (dual-purpose) winter barley and Cluj 123 sp*ig barley. Fitdoltorast. 8 no.5t 619-625 161. (~M 14:10) 1e Department of Plant Physiology of the Agricultural Institutep Xluj, I=ania. (Barley) I I -:~N I I I; REA M to I IIIII'MaKE