SCIENTIFIC ABSTRACT VISHNYAKOV, YA.D. - VISHNYAKOVA, T.P.

VISHNYAKOVp Ya.D.; UMANSKIY, U.S. Occurrence of oriented porosities in metal daring hardening. Fiz. met. i metallmved. .16 no-4t632-634 0 963. (MIRA 16:12) 1. Mookovskiy institut stali i splavov.  VISHNIAKOV, Ya.D.; KURDYUMOV, V.G. glee tron-microscope study of the dinlocation titructur* of thm al- loy C00% Fe. Fiz. tvar. tela 6 no.1:279-281 J& 164. (MIRA 17:2) 1. institut fiziki metallov, Moskva.  VISHUYAKOV, Ya.D.; UMANSKIY, U.S. Characteristics of the dislocation structure In alpha-iron and iron 1 50 % cobalt alloys. Izv. vys. ucheb. zav.; chern. met. 7 no.1:145-147 164. (MIRA 17:2) 1. Moskovskiy institut sta.1i 1. ~~Iavav.  L 01209-67 EWT(m)/EWP(w~/T/EWP(t)./EIIZEWj~Uk ACC NRs AP6032458 SOURCE CODE: UR/Ol2q/66/ooo/ooq/oo42/0o4 5 5q! AUTHOR: Visbnyakov, Ya. D.; Ivanov, A. N.; Mirskiy, L. M.; Kherodinashvili, Z. Sh._5 ORG: Institute of Steel and Alloys, Moscow (Moskovskiy institut stali i splavov) TITLE: Effect of high-temperature-thermomechanical treatment on the fine structure and mechanical ro ertie of titanium alloys SOURCE: Metallovedeniye i termicheskala obrabotka meta4lov, no. 9, 1966, 42-45 TOPIC TAGS: titanium alloy, thermomechanical tl"_~-L~alloy thermomechanical treatment, alloy )NAIe obw - -'-*----. dl=ir mechanical property/VT3-1 alloy, VT15 alloy ABSTRACT: VT3-1 titanium alloy (2.4% mo, 1.6% Cr, 5.9% Al, 0.5% Fe, 0.2% Si) and VT15 titanium alloy (7.8% Mo, 11.0% Cr, 3.2% Al, 0.2% F, 0.1% Si) were subjected to high-temperature thermomechanical. treatment (HTMT) - deformation at 900-1000 and 800-900C, respectively, followed by rapid (20OCIsec) cooling. Specirrpehs were strained either by tension (VT3-1 allpy r by upsetting (VT15 alloy)P HTMT increased the strength and ductility of the alloyl~o For example, the VT3-1 alloy strength increased from 115 kg/mm2 after conventional heat treatment to 142 kg/mM2 after HTNT at 900C with a reduction of 26%. Higher reductions brought about no additional effect. Aging at 500C for 5 hr increased the strength of conventionally and thermo- mechanically treated alloy to 125 and 1.60 kg/mm2 at an elongation of 12 and 15%, respectively. With the HTMT in the 0-region (1000C), the strengthening effect was Card  L 01209-67 IkCC N-R, AP6032458 still higher because only a'-phase was formed. With increasing deformation in HUNT, the size of the coherent dispersion regions decreased and the lattice microdeforma- tions increased in both alloys. Subsequent tempering at 550C for 2 hr brought about no changes in the fine structure, which indicated a thermally stable configuration of the lattice defects formed with deformation and subsequent phase transformation. Also, no grain growth occurred in thermomechanically treated alloys reheated up to 90OC; this ensures preservation of the advantages of HT14T at elevatect temperatures. However, at temperatures above 600C, because of a higher diffusion in the structure with defects, the thermomechanically treated VT3-1 all(rr softens more rapidly than i conventionally heat treated.,alloy. Orig. art. has.; 2 figures and 3 tables. SUB CODE: II/ SUBM DATE: 'none/ ORIG REF: 005/ ATD PRESS: 5097 ~,~Card 2/2 b1z  ItFAIIASIYEVI P., inzh.j BORODICII, M.,- inzh.; I~SMYAKOV, Ye.) inzho Mz~g wire-reim,orced copcrete girders cn stands. Ila stroi. :~Os. 3 noo5:37 My 162. (Beams and 4rders) (MIRA 15:9)  VISHNYAKOV, Ye.P. Newly designed borer for the installation of SPH-16 saismograpba. Razved. i prom. geofiz. no.4209-40 161. (KrRA 16:11)  GRODZENSKIY, V.A.; VISHNYAKOV, Ye.P.; MALOVITSFIY, Ya.P. Apparatus for correlated recording of seismic vibrations and results of its use. Prikl. geofiz. no.37t67-94 163. (MIRA 16:10)  VOYLTTISKIY, V.S.; VISMAZOV, YE.P. - - - - - - Inste-Ilation for combined Croupin.- of seismographs stationn, Rrizvae, I prar.,-(*ofiz. no.25:41-52 15P. (Soisr1ometr,!-,v.C:IIipncnt end supplies) at seisnic (MIRA 12:1;)  "IC ~' I '' :. ! T v , , V i--h N y It KGV yn..- . I . A -1. 1 . ; I I j 'i ~ rc-f~ -,: : rig I - + -ir!n -17' L~;e Lou-ce cf excitation of e-'astic , .. ~. gFiof-:.z. nc.4-.3 -1) 165. (MUiA 18,9)  zi 7- : i- -. lr~, ~/,/ -11,tl 1:7 - 'Al (-, ~,'I - I / VISHNYAKOV, Ye.P. ' Temporary apparatus for grouping seismographs. R&zved.i proz. geofix. no.17:3-5 157. (MIRA 10:12) (Seismosetere) (Prospecting--Geoph7sical methods)  -- f"- "- --,- ,A. - -,- "-.. -I,- ~,- I I, - i VOYMSKIY, V.S.; SLUTSKOVSKIY, A.I.; VISANYAKDV, Ye.P. Industrial testing of seismic at-atlo'ns Mh- speed filters. RazTed. i prom.goofiz.no.17:21-32 '57. (MIRA 10:12) (SeismcostT7)  VI5HNrANDY, Te.P. , -. . ... 4. Dissertations defended In the Scientific Researcb Institute of Geophysical Prospecting. Izv.AX 5SSR. Ser.geofiz. no.9:1128 s 156. (KLRA 9:12) (Prosp*cting--Geophysteal metbods)  L 40317-66 EVf (1) GIVI ACC NRs Ap6oO5348 INVENTOR: Vovutskiv, V Grodzenskiy,- V. A.; Tabakov 'IM-.none SOURCE CODE: UR/0413/66/000/001/0092/0092 Vishnyakov, Yg,.Z Shairson, H. B. -, IAM I. S.; P.-- TITLE: Method of recording weak eja~ ~sionp and earthquakes~rrl) 42, No. 17764o Class SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 1, 1966, 92 TOPIC TAGS: earthquake, seismic Viii- explosion, i Meow4WRE ABSTRACT: An Author Certificate has been issued for a method of recording weak explosions and earthquakes based on determination of the interrela-1 tion function of seismic vibrations. To improve the quality and reliabilit3 of measurements, the values of the function obtained for a number of receiving points arranged along the profile are summed up with the vary ing time shifts corresponding to ti-riose predetermined by the location of the receiving points along the profile. [LD] SUB CODE: 08/ SU34 DATE: 29Jan63/ 1A&.21-P UDC: 550.  0 0 0 0 0 go 060 040 too' *3 1 1 1 A I A I S I IS if ti If 14 It 11 11 Is At tin lllil$1604"011 Ill; Will 16 v a a al v 41 a 00 A & L a I-1- L M__ I- AA A A& JR 2 -.1 t 1 .6 A 0 IN AM -ac"014$ ~fl .141- talmil4tml resulut disclabw a Mai- it= bttwcva the wAy. -4 a vwmw sat the rokm bacmity of the It"(1liate IALA[a. cwnpoued with tbc calar walc cg The IS: hOvirb pbowwrier. The viKwes ot4ailim-d (rain R"- theKidt "t so quite or fakil &W. Nkr or mot Introotly c4yml wwci- !-so memoll law bate slwm diatinct!j ymiepteduak-factirwturr i .00 of lignia Up to I..",% Ond rmrb. il"Puthirs). see zoo zoo zoo 00 Ago too WALIt,460CAL LlIffAlloff CCAISONCAMIN age 'd All. ------- age 0 U III AV d3 It r IF A I A too t$ to a Of a 4 If w of 0 0 0 0 111, 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 0 0 0 0 9 0 0 0 a *is 0 0 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0  ~ 4 5/179/b0/000/03/014/039 15, getlv E1.91/E48i AUTHORS: Vinogradov, G,V. and Vishnyakov, V.A. (Moscow) TITLE: Abrasive Wea n Rolling Friction PERIODICAL: Izvestiya Akademii nauk S6SR, Otdeleniye telchnicheskikh nauk, Mekhanika i mashinostroyeniyei 1960, Nr 3, pp 89-98 (USSR) ABSTRACT3 A four ball friction machine was used in the experimental study of the laws of ,~.abrasive wear of hardened steel with , different lubricant4under rolling friction at high contact pressures. The three lower balls remained free to roll along the groove of the supporting cup. The rolling speed of the lower balls was varied between 0.03 and 0.60 m/sec. The Hertz contact stress could reach 50000 kg/cm?-, A constant temperature of the lubricant was maintained. A high viscosity oil containing an additive with surface activity, a high viscosity non-polar oil, a low viscosity oil with 1~~ oleic acid, a low viscosity non-polar liquid (Cetane) and plastic lubricants9 were used, Quartz dust with a micro-hardness of about 1000 kg/cm2 served as an abrasive with particle sizes between 6 and 40 microns, Card 1/3 By measuring the electrical resistance across the bearing  S/179/60/000/03/014/039 Abrasive Wear in Rolling Friction E19.1/E48i model, the conditions of lubrication were detected, With the help of a special contact in the supporting cup, the rpm of the upper ball and the rolling speed of each of the lower balls were recorded. Parallel tests were carried out with an actual ball-bearing which showed that conditions in the model were similar. The balls roll over an abrasive layer which constixutes a mixture of lubricant with abrasive, Each factor was varied singly for each set of tests. A repeatability of 10% was establIshed. It was found that the abrasive particles L1_V_ are ground in the wear process down to a size equal to the depth of the projections of the rolling surfaces plus the thickness of the lubricating layer, In low viscosity liquids, a sedimentation process of the abrasive particles takes place so that the largest are deposited at the bottom of the cup outside the rolling track, Thus wear is smaller in spindle oil than in grease, although the grease possesses better lubricating properties, Lubricants thickened by the addition of high molecular weight polymers experienced in the friction machine a Card 2/3 reduction of viscosity which shcows the disintegration of  S/179/6o/ooo/o3/ol-4/039 E191/081 Abrasive Wear in Rolling Friction the polymer presurnably by very higrh gradients of the shear velocity. The samc. phenomenon has been found in gearboxes. Parallel tests with a pulley mounted on ball and roller bearings were carried out tc.) show similar laws of abrasive wear, There are 10 figlires, I table and 6 references, 5 of iihich are Soviet and 1 English, Card 3/3  VAS114VSKIT. I.M.;, VISHMXOV, V.V. Hodoscope system of pulse-fed counters. Prib.1-tekh.eUp. no.Z: 58-63 Mr-AP 160. (MIRA 13M 1. OrVyedizennyy institat yadernykh iseledovaniy. Ohmlear counters)  83986 5/053160/072/001/004/005 B013/BO60 6 9 AUTHORS: Vishnyakov,,V.,,I_,_, Tan Syao-vey, Tyapkin, A. A. TITLE: Low-voltage Halogen Counters/1 PERIODICAL: Uspekhi fizicheskikh nauk, 1960, Vol. 72, No. 1, PP- 133 - 152 TEXT: The authors studied the discharge mechanism in low-voltage halo- gen counters. They differ from ordinary self-quenched counters filled with organic vapors by the processes taking place in them. The charac- teristics of halogen counters under pulse feeding conditions were exam- ined along with the part played by negative ions (Figs. I and 2). In addition, the authors studied semi-self-maintained discharge and its development in time (Fig- 3); the development of self-maintained dis- charge and the retardation of pulses (Figs- 4-6); discharge fluctuations near the threshold (Figs. 7 and 8). The particular character of the dis- charge development in time, depending on ionization on the expense of collisions of the second kind, explains a number of specific properties of low-voltage halogen counters. The particular character of such a Card 1/3  83986 Low-voltage Halogen Counters 3/053/60/072/001/0()4/005 B013/BO60 discharge consists in that every ionization process is preceded by a certain diffusion time of the metastable neon atom (its collision with an impurity atom). The description of the discharge mechanism in halogen counters also conveys an explanation of the changes occurring in the properties of these counters on an increase of the halogen concentration. An augmented halogen addition leads to an increase in the critical volt- age (Ref. 14). It was found that the specific properties of low-voltage halogen counters appear less and less marked with increasing halogen amount. These properties are characteristic of a discharge occurring as a result of the formation of metastable atoms of the initial gas and the ionization of impurity atoms brought about by the collision of the second kind. On a rise of the critical voltage in the counter an ioniza- tion of the gas occurs directly due to the electron impact. The part played by such an ionization becomes increasingly more important with rising voltage. For this reason, the mathematical description given in the present paper of the discharge in low-voltage halogen counters at a halogen pressure of some torrs is not applicable. kt a sufficiently high halogen pressure, such a counter is transformed into a high-voltage Card 2/3  83986 Low-voltage Halogen Counters S/053/60/072/001/004/005 B013/BO60 counter, in which the discharge does not differ from that in an ordinary aelf-quenched counter. 1. 1. Glotovp L. S. Eyg, are mentioned. There are 8 figures and 23 references: 9 Soviet. Card 3/3  I MATOV, K.; VISIII,'~AKOV, YU. "Human diseases caused by Arthropoda" by Vasil A. Ganov. Reviewed by K. Matov, and IU. Vishniakov. Priroda Bulg 12 no. 1- 120 Ja-F 163.  1. LIVOV, IF. PASTUKHCVA, P. VISHFIAKOVA. A. 2. USSR (600) 3. Lunbering 4. Seedling plots in mechanized skidding. Les. prom.4,%-Ko. 11 - 1952. 9. Month Ust of Russian Acessions, Library of Corgress, February, 1953. Unclassified.  URITSFAYA- VISHNUOTAI-BOUSOV; PINMASOTICH; MURADOT; RIDALIMAN; OSIMIT; AAibf-,- kKSXRW; GOMSEGRAM; TIMMM; ZHARKOV-, POPOV; ROKANOTA; SIDORIUO-, TOIRIN; TIKOVMTA. Dvdtrii Sergeevio'h Pkvlov; obituary..Gaz. prom. no.le.56 A '58. (Pavlov, Dmitrii Sergeovich, 1904-1957) (KIRA ll:z)  14) K.5-11111YI) V-6% vtq I/ USSR /Chemical Technology. Chemical Products 1-9 and Their Application Fertilizers Abs Jour: Referat Zhur Khimiya, No 9, 1957, 31302 Author : Nabiyev M.N., Vishnyakova A.A. Inst : Academy of Sciences Uzbek SSR Title : Elimination of Hardening of Ammoniated Super- phosphate by an Addition of Lignin Orig Pub: Dokl. AN UzSSR, 1956, No 9, 31-34 Abstract: Report of the results of laboratory experiments on addition of air-dry lignin (H2.0 19-22%, HtSOY 0.9%) in an amount of 2-10%, to superphos- phate prior to its A onificatIon. On addition of 1C% lignin, the ammoniated superphosphate pro- C ard IA  USSR /themical Technology. Chemical Products 1-9 and Their Application Fertilizers Abs Jour: Referat Zhur KhImlya, No 9, 1957, 31302 duced from apatite concentrate, as well as that obtained from Kara-Tau phosphorites, is rendered completely friable. Lignin Is a useful additive since it is rapidly converted, in the soil, to humic acids which imDrove structure of the soil. Card 2/42  VISHNYAKOVA A.A.; NABIYEV, M.N., akad. =J.--. Effect of magnesium compounds on the conposition and hygroscopicity of simple and ammoniated superphosphaten. Izv.AN` Uz.SSR no,11:25-35 156. OURA 14:5) I@ AN UsSSR (for Nabiyev) (Magnesium compounds) (Phosphates)  Cand Chem SCi -- t , i- VISHNYAKOVA,, A.A... (diss) of ni.physicochomiclial properties of simple magnesium compourids ~I and ammonifico puperphosphato from phosphoritos of Karatau Tashkent, 931~1-=n 6f Acad -Sci o.P Uzbek SSR, 1957. 28 pp with graphs (Acad.Sai Uzbek SSR, Inst of Chemistry), 150 copies. (KL, 1-58, 115) - 10 -  vISHiffAKQYA..A.A.-. UBITIV, H.Ho, almdamik Affect of ukgnesium salts on the hydrophrlic properties of ammoniated and ordinary, superphosphate. Izv. AN Uz.SSR Ser. khim. nauk ne.2:5-12 157. Nrn 11.- 8) 1.An 'UzSSR (f or Nablyev) (Phosphates) (Magnesium salts) (Hygroscopicit3r)  P, tr - 'T I ; -- I .- ~ -r ; ". - .. -li~ or  AQW= NABIM, M.N., skadamik; FAPJWIOV, Z.N.; VISHNTAXOVAa A.A. Ammontation of stmerphoophate by amonium cormmmds. Uzb. khim. zhur. no. 1:7-14 958. (MIRA'11.-7) 1. AN UzSO (for Nabiyov). (Pho spba ton ) (A=onis)  NABITRY. M.N., skademik; VISMAKOVA, As_A--LUNH7Jl3TA, H.S., red.izd-ve; RAMSUA, V.P., takha.red. IA'mmoniated superphosphate from Kars-Taim phosphorites] Ammoniziro- vamWi supertoofat is fosforitov Keratua. Tashkent, lzd-vo Akad. nauk Uzbekskoi SM, 1960. 176 p. Wu 13:11) 1. AN UsSSR (for Nabiyev). (Phosphates)  TUKHSANOV E.; VISHNYAKOVA A.A.; NABIYEV, M.N., akademik P =L== Effect of oxidized coals on the process of chamber superphosphate maturing. Uzb.khim.zhur. 8 no.4212-17 164- (MIRA l8s:12) 1, Institut khimii AN UzSSR. Submittod July 24, 1963. 2. AN UzSSR (for Nabiyev).  KAMALOV, K.,- VISfff-TYAKOVAO A.A.; IVANOV, V.P.; IIABIYEV, M.N.; SADOVSKIY, K.D.; RD zkluvrff, '.A-.-;!'-'XA'LI4ATIOVICH, L.A. Developm-,-nt of,the prc ductior, to-chnology-for sihmonisted super- phosphate 6n thp basis df a grAnu-IAtion equipmont. Uzb.khim. zhur. 9 no.1;58-61 165. (?/,IRA 18:6) 1. Institut khimii All Uzbpkskoy SSR.  NABIMP M.N.., akademik; VISHNYAKOVA, A.A.; DAZJUV., V.D.; AMUM, Xh.M.; k-z~ KAHUM, A.; RASUL"-k,-Sfi-.-;-MUMN0VA., U.N. Increasing the degree of phosphate deconposition by a partial substitution of nitric acid for sulfuric acid and ammoniation of chamber ouperphosphate. Uzb.khim.zhur. no.40-10 161. (MIRA 1438) I# Iastitut khi-ii AN Uzbekskoy SSR. 2. Akademiyo nauk Usbekskoy SSR (for Nabiyev), (Phosphates)  NABMV, M.N., akademik; XIP-199UML,-~ RMIMDZWOVA' I. System MgO - P 0 - H,O solubilLity of magnesium nitrate in phosphoric Jc?d at2 25 C). Uzb.khim.zhur. no.5:3-8 161. (MIRA 14:9) 1. Inatitut khimli All Uzbekskoy SSR. 2. MI Uzbekskoy SSR (for Nabiyev). (Phosphates) (Systems (Chemistry))  ".MICA SeC 16 V01 71Z Cancer Ju1Y 59 ?yr,~--PPTA 261o. Dopan treatment of myeloid leukaemia and some malignant cum- ours (Russian text) VISIINYAKOVA F.. G. Inst. of Exp. Pathol. and Ther. of Cancer, Moscow Vopr. Onkol.'? -'U9-=-5T2) Tables 2 1105kK--d/5 3 - 0 th4 D anwasemployed or e treatment 4317 patients with chronic myeloid Icukaemia noTof W patients with malipant tumours. The drug proved to be cffcctivc for the a i treatment of chronic mycloid lcukaemia. In 6 cases the blood icture improved and the spleen decreased in size. Reticulosarcoma, chorioncpitgelioma, lympho- sarcoma.and cancer of the lungs and bile ducts were found to be insensitive.  KRASNIN) F.I.; Data on ornithosis infection in Leringrad. Trudy Len.inst,spid. I mikroblol. 20:98-105 159. (KMA 1 21) (IENINGRAD.f -ORNITHOS IS)  VISHNYAROVA, L.A.; MEYTIN, B.I.; POIMITSKAYA, 11.1. Householl outbreak of ornithosis connectA3d with pigeons. Trady LensinBt.epid.i mikrobiol. 23z267.,272 161, (MIRA l6s3) 1. Ivlaboratorii osobo opannykh infektoiy i rikket0io2ov Ienin- gradekogo inatituta epidemiologii i mikroblologii imeni Pastera,, Leningradakoy gorodskoy oanitarno-epideniclogicheakoy stantaii i Sanitarno-opidemiologicheskoy stantsii Smollninakogo rayona. (LENIVGRAD-OMITHOSIS) (PIGMS AS CAMUIM OF DISME)  VISHNYAKOVA, L.A.; GLADKOVSKIY, A.F. Duration of the preservation of complement-fixing anti- bodies following the recovery from ornithosis. Trudy Len. inst, epid. i mikrobiol, 25.-219-224 163. (MIRA 17:1) 1. Iz otdela osobo opasnykh infektaiy Leningradskogo insti- tuta epidemiologii i mikrobiologii imeni Pastera i Lenin- gradskay infektsionnoy bollnitBy imeni Botkina.  FILATOVY I.F.; TOKARFVICI!, K.N.; VISHNYAKOVA, L.A.; FRIEW, E.A. Role of viral and rickettsial agents in the etiology of acute types of pneumonia. Trudy Len. inst. epid. i mikro- biol. 25:201-209 163. (MIRA 17:1) 1. Iz otdela osobo opasnykh infektaiy i laboratorii grippa Leningradskogo instituta epidemiologii i mikrobiologii imeni Pastera.  GOLIDIN, R.B.; KRASNIK, F.I.; VISHNTAKOVA, L.A. Experimental typhus fever Infection and i=mity in Irradiated animals. Report No. Is Course of typhus fever infection in cotton rats exposed to X-ray radiation. Trudy Ian. inat. spid. I mikrobiol. 25:32-41 163. (14IRA 17,-1) 1. 1z' Voyenno-meditsinakoy ordena Lanina akademii imeni, Kirova, I otd~la osobo opasnykh infektsiy Leningradskogo Instituta apidemiologii I mikrobiologil iment Pesters.  TOKAREVICH, K.N.; VISHNYAKOVA, L.A.; GLADKOVSM, A.P.; YAKOVLEV, N.H. Outbreak of ornithosis of an occupational nature. Trudy Ion. inst. epid. i mikroblol. 25:185-191 v63. (MIRA 17:3.) 1. Iz otdala osobo opasnykh infektaiy Leningradskogo insti- tuta epidemiologii i mikrobiologii imeni Pastera i Lenin- gradskoy infektaionnoy bollnitsy imeni S.P. Botkina.  VISHNYAKOIIA~ L.A. i~a~li on the evaluation of the vtisults of complement fixation reaction in ornithosis in man. Trudy Len. inst. epid. i mikrobiol. 253210-218 163. Study of the imminological structure of population in Lenin- grad in relation to ornithonia. lbido225-232 Inhibitory complement fixat4-n reaction in the study of ornithosiso lbid.:233-241+ - - (14IRA 17 : 1)  "Gharacteristic3 of Fert.14zation to Wain :.Iatlirnal Formts of Hereditv." Cand Biol Sci, All-Union Order of Labor Red Danner Selection and Geizetics in~t imeni T. D. Lysen!:o, Ode-ssa, 1-1)55. (1'L,, No 12., Har 55) So: Sum. No 670, 29 0-ePt 55 - Survey of 6cientific, i,,.d Te,Ainical Disrertations Defended at USM Higher Educational Institutions (15)  VISMAKOVA, 14.1. p inzh, ~-'- Increasing the traffic capaciV of channel groups in automated networks. Sbor.LII2HT no.161:205-211 '58. (MIRA 11:12) (Telephone, Automatic)  DUBININY M.H.; VISHNYAKOVAj,-JW4-; ZAVERINA, 19*1).; ZHUKOVSKAYA, Ye.G,; LEONT1itT-,-Ye*A*; LUKIYANOVICH, V,M.,- SA.RAMOV, A.I. Adsorption properties and secondary prow structure of adsorbents acting an mole#ular sieves. Report Noolt Industrial speciments of synthetic zeolites. Izv.AN SSSR Otd.khL*n.nauk no.3:396-406 Pyr- 161* (MIRA 14:4) I* 1wtitut fizicheskoy khimii Akademii nauk SSSR. (Zeo1ites)  ACCESSION NR: AP4027716 S/0183/61,,/000/002/0643/0048 AUTHORS: Moos, A.1.;'Yis"yakoval M,N,; Dunitrint No TITLE: The action of modifiers in forming supermolecular structures 6f viscose fibers SOURCE: Khimicheskiye volokna, no. 2, 1964, 43-48 TOPIC TAGS: viscose fibers formations supermolecular structure, modifier, cyclohexylamines polyethyleneglycol, hydroxyethylated amino, zinc.sulfate, mechanism, electron microscope# production condition, tire cord, fiber uniformity, fiber strength, pH control# structure forming zone, buffer, cellulose.xarithate ABSTRACT: The structures of viscose fibers obtained by adding modifiers (cyclohexylaminel polyethyleneglycol and hydroxyethylated amines) to the viscose were examined with an electron microscope in.order to determine conditions most suitable for the production of uniform tire cord. A mechanism for the action of the modifiers is proposed. The structure of fibers which were most uniform were produced from viscose containing modifiers and an increased sinc Card 1/3  ACCESSION NR: AP4027716 sulfate content and had low aciditj In the nettling bath; these structural elements were well formed and tuive smaller and more uni- form diameters than fibers formed under other conditions. The proposed mechanism for the action of modifiers is that they help 'maintain the proper pH in the active structure-forming zonep forming onium compounds in an acid medium and destroying them in alkali. In the settling bath the zinc also acts as a buffer. T),e modifier acts as buffer on the surface and zinc acts on the internal half of the active structure forming zone. Besides acting as buffer, the modifier changes the solubility of the cellulose xanthate, forming an ample number of centers for the formation of structural elements which in turn leads to the formation of small diameter structural elements. It is concluded-that the well-formed sections of macro- molecules indicate that zinc xanthate is not formed in the structure- forming process; the zinc sulfate neutralizes the caustic in the viscose Jets. Increasing the acidity of the settling bath acceler- ates tho viscose fiber forming processes to such an extent that the b ff ' Oin of themofifier d jjyj'ar5raun jHsggj?d strueEing a P c ur iorm ng ione POMM 1P 4 441gures and 7 equation$* Card 2/3  A~CESSION NR: AP4027716 A$SGCIATION: LIMP im. So Me Korova (Leningrad Institute for the I SUBMITTED; 28may63 SUB CODE: Mr DATE ACQ: 22Apr64 ENCL: 00 NR REP SOV: 007 OrHEt: 005  S/0~2/6- '/CGO/C0r,'/0'04/O 10 BI I 71B206 AUTHORS: Dubinin, M. M., Vlihpyakova,M~ It., Za-,~rer!%;t, Yp. (Deceased), Zhuk.437~ okay a,--Y-e.- and Sqrakhov. A. 1, TITLE: Investigation of the adsorption proper'~iAs and qe-_%rdary pore structures of adsorbents ttiuir,,-, th.? -Iflle-' Uf filters. Communication 4. Granfil-at-M of the A-type PERIODICAL: Akademiya nauk SSSR. Izve-qtiy;s. I-n,-y;? kh3m-_ -heskikh _.I 795 nauk, no. 8, 1961, 1387 ) TEXT: The authors investigated the ad-iorpilon proff~rtie3., th,? secondary pore structures of the grain3 and their appqrint acd Granulated A-type zeoliteo obtaired by Sr~,11,~?f, '141 of studies in the field of zeollte A wumbar if 7 f~- q of specimens by Ya. V. Mirskiy (Mr) were ~-"Ion of which the pressure wa3 repeatedly 2hantged, a"d B. A. Lipkind (Lp). The designation cf' te- abbreviated name of the producer and the sy;~- h Im Card 1/8  S/ G -,. *- / 1, 1 / C C G. / C C' cc4o0 Investigation of the adsorption... B~'J-j/KC6 Two specimens each of granulated zeolite-3 b~ thq fizm :f LiLd~ (I) and (II) in the form of grains with 1/8" Jjarr-37.er ware -..Fed :~Dmrar!so%. To the sodium form (NaA) belonged: Mr-296., LF 202-., Li-j~- -,~A 1,;' . Linda 4A (II). To the calcium f orm (CaA) be! ~)nged : Mr-2ci7. ',L- ~'4 7, Mr-372, Mr-380, Linde 5A (I) and Linde 5A ikll)", Tr. e I s c trm -_3 f B c-r pr, n and desorDtion of benzene vapors were lAterml.,.=~ in vacuum. The specific method for experiment-a x1tri described by M. M. Dubinin (Ref. 3: Izv. AN SSSR~ 750). The isotherms determined had generally thi simi a3 th~q'~ mentioned by the authors, Ye. A. Leontlyev and V. M- Luk*y-1n,--1-1-' (Ref. 2: Izv. AN SSSR. Otd. khim. n., 1961, 1)96' ict~erms of water vapors were measured by sorption scales In var~uum for dlre'.~t comparison of the adsorption properties of granulated, ,,orr.T-,1et'41y dehydrated zeolites. The secondary pore strurture 6f th.? waa investigated by pressing in mercury, and accordiLg to the -.crnticn method, Mercury porometry makes it possible to determine the diBtrib'-i'i,,tj G"', the pore volumina according to their effectiv-?. raiii in th-~ range of 11106 to 15-25 2. From the isotherms of capillary :f vapors Card 2/8  S/0(' 6-, lox IC06/00.'/010 Investigation of the adsorption... B117 B2o6 of substances, for which the pore structure of zeolite ~ryztals (primary porosity) is inaccessible, sorption vclumina or the summary pc-re %-clum- 'I r. a with effective radii below 100 a might easily be fo-und, From the6t data the total volume of the secondary pore strum:'; ire may b- ~al-jlatled. In experiments with mercury, low- and high-vressure ~nre were u3ed (Ref. 4: M. M. Dubinin, A. I. Sarakhov and G. A. RyablIko-, Zh, f17' khimii 32, 1404, (1958); Ref. 5: M. M. Dabinin, M. M~ Vish"yakov'~L, Ye. G. Th-ukovskaya, Ye. A. Leontlyev, V. M. Luklyanc,-i.--n, A. I Sarakhcv, M. fiz. khimii 34, 2019 (1960)). Zeolite grainzi whl~;r. were iii ~-jiiilibrium with the air humidity were applied. The mairi char-i,ltpristi,79 of tile secondary pore structure of zeolite grains are 14'stit-i it-, Tql,,Ie i. Table 4 contains information on the volums of the sp'~Crldary pcr-~ When applying zeolite grains in practice, it P3 riot the J'r,-Ior of the unit of mass of the grains which is of vitfil ijnj~r~-r,c-, un't or volume of the grain layer,. Therefore, the t,o :,ttablinhed between adsorption properties as well as arpar:~nt d-,,jitf (-f ti..? zerlit-2 granules and the volume of their secondary I.or.? TK-1~ 1-.roblem may be solved if composition of ztolit.4 gr~ii-.b w-A -f pores are known from experimental data. Th.- a-d ~XTerimertal Card 3/8  St ~v' Investigation of the adsorption... B 1 1 characteristic features of A-type zec'ite gra~r.~, -tr,-3 a-3 other in Table 5. The values for the apj,are!,r' gralt, -Lzri~ 'Nell :r- general. The deviations amount to a maylmum -,f * 3%~ In4 -~*,-,~'-il'-I_- cl%d experimental maximum adsorption volux.~., c:r wat-Y :~rzz f~- N-tA r-.%ins. For most of the CaA grains of So-;e~ w,d Ameri-an adsorption voluma are below the val ues ,: a I -: 1'~ ;' a t-f (;f r e r t A part of the highly disperse zeolite i,rystalz, i.~~ i.,. ~;iA obviously excluded from the adsorption prr'-'e.- f,-.r yt-~ reascriE?. The latter are being investigated at pr;tztent. ."It ~%Lq --~Lr 1 5'. j granulated A-type zeolites synthetiz-id ijy Scv!',~t- corresponding American specimens showed tha- with adsorption properties they are only id~nnrioal ;t'; ~t-:ndary pores. This concerns the access ibi lity of -he p-re 3trni-11~re c,f Th't actual zeolite crystals for the adsorbable ttl-~ adsorption of bigger molecules. The zeclite grair-s .4how strongly differential volumina of the secondar.7 porp otr;-ti;re That ia the main reason for the fact that the apparert ciz!:isity and thus the adsorption properties of granulated z,7c~litei qr~_ different for the units of volume of the grain layers, The authcr.;i thank B~ A- Ll:jkind Card 4/8  S106 61 000/008/004/010 Invcstigation of the'adsorption... B117YZ20~ and Ya. V. Mirokiy for'supplying specimens and experimental-data on apparent densities of the grains. There are 2 figureo, 5 tables, and 7 references: 5 Soviet-bloo'and 2 non-Soviet-bloo. 7qie two references, to English-language publications read as follows: D. W. Breok, W. G. Eyeroole, R. M. Milton, T. B. Read, T. L. Thomas, J. Amer. Chem. Soo 5963 (1956); R. M. Barrex, 71. M. Meier, Trans. Faraday Soo. 5A# 107~-IR9,58). ASSOCIATION: Institut fizicheskoy khimii Akadeipii nauk SSSR (Institute., of.Physical Chemistry, AS USSR) SUBMITTED: December 12, 1960 Card 5/8  S/062/61/000/003/002/013 B117/B208 AUTHORS: Dubinin, M. M.,jL~.h~nakgyg_L M. M.f Zaverinaf Ye. D,s Zhukovskaya, Ye. G., Leontlyev, Ye. A., Luklyanovich, V. M,, and Sarakhov, A. I. TITLE: Study of adsorption properties and structure of secondary pores of adsorbents having the effect of molocular sieves. Report 1. Industrial samples of synthetic zoolites PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheakikh nauk, no- 3, 1961, 396-406 TEXT: The authors studied some peculiarities of the adsorption properties of typical industrial samples of synthetic zeolites and the structure of their secondary pores. They used industrial a lea from molecular sieves tlC_ 4A (MS aT and 5A (designated by designed b Linde 4A (designated by -4A) MC-5A (MS-5A)) in the form of 4-8 mm long grains with an average diameter of -3.2 mm. Sorption isotherms and, in some cases, desorption isotherms of nitrogen vapors at -1950C, and waterf benzenep and cyclohexane vapors at 200C were determined. A similar apparatus as that described in Ref. 2 Card 1/4  S/062J61/000/003/002/012 Study of adsorption properties ... B117/B208 (B. P. Bering, M. M. Dubinin, Ye. G. Zhukovskayat A. 1. Sarakhov, and V. V. Serpinakiyj Zh. fiz. khimii 3-1, 712, 1957) was applied. To study the structure of secondary pores of MS-4A and MS-5A grains, low- and high- pressure porosimeters were used. The latter was a redesigned device of the nA-4 (PA-4) type (Ref, 51 T. G. Plachenov, 7. A. Aleksandrov, and 0. M. Belotserkovskiy, Metody issledovaniya struktury vysoko-dispersnykh i pcristykh tel, Izd. AN SSSR, M., 1953, str. 59). For the electron- microscopic examination of the structure of secondary pores, the method of single-stage carbon replicas was used. The pictures of carbon replicas of MS-4A and MS-5A taken by means of an Y3M-100 (UEM-100) electron microscope showed no marked differences. A thorough analysis of stereophotographs indicates that there was no dense packing of the zeolite crystals in the grains. There are interstices of the order of magnitude of small crystals, i.9., some tenths of a micron or some thousandths of an angstrom. Strong enlargements show that the crystal surface is not amorphous. The studies of MS-4A and MS-5A disclosed that the potential adsorption theory could be appl3.ed to them. As the authors had not obtained any experimental data, they used the results obtained by H. V. Xelltsev, for water vapor at 200 and 8000 and at equilibrium pressures p - I and 25 mm Rg, which had been Card 2/4  810621611000100310021013 Study of adsorption propertiesoo* B117/B208 made available to them. The measured values of adsorption deviate from the calculated values by 3 % at most. Eq. (1) expresses the temperature dependence of the adsorption isotherms satisfactorilyt 2 T a - (W /V) exp B (log P./P) 0 2. limiting volume of V~e,adsorptfon spaosq which is equal to the volume o? the mioropores of tho-adoorbent; B a constant dependent on the dimensions of the micropores, which determine the increase of the adsorp- tion potentials; affinity factor of the characteristic lines; v --volume of 1 mM of the vapor liquefied at the experimental temperature T. When considering the structure of the secondary pores, it was found that it may be quantitatively described by the sorption and mercury methods of measuring the pores. The characteristics obtained for the pore structure of MS-4A and MS-5A are given in Table 4. There are 9 figures, 7 tables, and 13 referencess .12 Soviet-bloo and I non-Soviet- bloc. ASSOCIATION: Institut fizicheskoy khimii Akedemii nauk SSSR (Institute of Physical Chemistry,.Aeademy*of Sciences USSR) Card 3/4  0/062/61/000/003/002/013 Study of adsorption properties... B117/B208 SUBMITTED: December 30, 1959 Legend to-Table 4: Porosity of grains from Linde's molecular sieve; 1) adsorbent; V - volume of secondary pores; 7f - V + V 2 1 2 AACopde" Wo. W., VA-wo, rib,/# V8. tit-Is V, wja N, Ho 0,233 0 233 0, 30~2 14C-5A 0,219 0,20,2 0210 0.323 Card.4/4  DUBININ, M.K. - VISOMOVA, M.14.; ZAVERINA , Te.D. [deceased]; '6~5-" ZHUKON'SKAR A. I. Adsorption properties and secondary structure of adsorbents acting as molecular sieves. Report No./+: Granulated synthetic zeolites of type A. Izv. AN SSSR. Ot;d.kbJm.nauk no.WiO7- .1395 Ag 161. (MIRA 14:8) 1. Institut fivinheskoy khimii AN SSSR. (Zoolites)  S/C:76/60/034/003/015/022 BO1r-/P,cr6 AUTHORS: Dubinin, M. M., Zhul-cyakaya, Ye. Leontlyev, Ye. A., Luklyanovich, V. M., and Sarakhcv, A. 1. TITLE: Investigation of the Porous Structure of Solids by ~2LL-t Methods. V. Application of Different Methods for Studying the Structure of Intermediate and Macro-.pcres of Active Coals PERIODICAL: Zhurnal fizicheskoy khimii, 1960; Vol, 34, No. 9, pp. 2019-2029 TEXT: A thorough investigation of the structure of intermediate pGres, whose size is between micro- and macrc-pores, of some typical kinds of coal (from the type AY-10 - AY-14 (AU-10 to AU-14)) with intermel--ate porosity is carried out by the method of capillary condensation. of vapors (benzene or nitrogen), by pressing in mercury, cr by electron micro:;c0-'Y. Data concerning the volumes of the micro- and intermediate pores of sh~ investigated kinds of coal are given in a table and show that in all Card 1/3  a Investigation of the Porous Structure of S/076/60/034/009/01"VO2~ Solids by Sorption Methods. V. Application B015/13056 of Different Methods for Studying the Structure of Intermediate and Macro-pores of Active Coals samples the volumee of the intermediate pores exceed those of the micro. pores by a multiple. The_sorEtion and desorption Cexperiments carried c;.;t with nitrogen vapors at 195 C and berzene at 20 C a device with quartz scales. A detailed description of this device is given in Ref. !I. The sorption isothermal lines (Figs. 1-3) are all S-shaped and have a hysteresis, the beginning of which corresponds to the equilibrium pressure (p/ps)o . 0.175 for benzene at 20 0C and (P/P,), ;. 0.45 for nitrogen at For the purpose of determining the porous atru,.ture b,.r the mneth C'(1 of pressing-in mercury, two pare gauges of the type nA.4 (PA-4)(Raf. 8) (one for low and one for high pressure) were used,, For alcactro-micro- scopic examinations a YaM-100 (UEM-100) electron micro2cope wa.-, i~~3-d, carbon replicas were recorded (Fig. 5), and pore diameters from 70 to 110 A were found. The summational curves (Figs. 6-6) of the volume of the intermediate pores with respect to their effective diameters. which were, calculated from the sorption isothermal lines for ben2ene and were measured J Card 2/3  Investigation of the Porous :structure of S107616,01034110091015/022 Solids by Sorption Methods. V. Application 13015/PO56 of Different Methods for Studying the Structure of Intermediate and Macro-pores of Active Coals by pressing in mercury, showed good agreement. In the case of the results obtained for nitrogen, less good agreement was fo-ind. The electron,,-nicro-. scopic values qualitatively confirm the sorption values and the measured values obtained by pressing in mercury. B. P. Bering and V. V. Serpinskiy are thanked for their interest in the present paper. There are 8 figures, 1 table, and 13 references: 12 Soviet and I US, ASSOCIATION: Akademiya nauk SSSR Institut fizicheskoy khimii (Academy of Sciences USSR.-Institlate of Pbysicai Chemistry) SUBMITTED: December 24, 1958 Card 3/3  DuBiwm, m.m.; ILSOTAKOVA, m.m.; zHuKoysirATA, Ye.G.; LEONTITU, Ye.A.; LjXiTAwovjcH v. .1~~OV, A.I. Study of the porous structure af solids by sorption methods. Part 5: Use of different methods in the study of the structure of the intermediate pores and macropores of activated carbons. Zhur.fiz.khim. 34 to,9:2019-2029 S 160. (MIRA 13:9) 1. Ab%demiya tauk SSSR, Inatitut fizichaskoy khtmii. (Carbon, Activated)  4 1 1 4 it IS F A a I- AL-M ! I A 1A A- CAUL L.- i 410 0 raftWOM 'A. J. Ad,=, JL v RION 'a w" of EON&MV am WOW 0 6M oou 0 00 t 4000091*000000000#000 L 4#4 *ad.* M ' 144 IT oo*ooo:*O**0'0"e'O*O*oooOOqo4: !*'$*#ofooo~*ooooooooq ose 0 0 * 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 * 0 i-00 00 .00 0 4100 =go aoo roe too 4900 iroo goo Roo 0 !S00 goo goo 111,06 to 0  MEOS, A.I.; VISHNYAKOVA, M.N.; DUMITRIU,, M. - , ~ - Effect of modifiers on the formation of the supermolecular structure of viscose fibers. Khim. volok. no.2s43-48 164. (MIRA 17:5) 1. LITLP im. S.M. Kirova.  _ VISWAK X*1.; KNOS, A- Io Study of the structure of capron fibers b7 means of an electron microecope. Xhimovolck- no-5:20-24 160. (MIRA 13:12) 1. Laningradskiy taketilirqy institut Imeni SeRsKirova. (Nylon)  HEOS, A.I.; VISHNYAKOVA, M.N.; BYKOVA, Ye.A. Solution of cellulose and other polymeric materials. Trudy LTA no.91:27-31 160. (KM 15:12) 1. Leiiingradskiy takstiltnyy institut imeni Kirov&. (Polymrs) (Cellulose) (Solution (Chemistry))  MZOSj, A.I.0 VISHNYANDVA M.N. Electron-microscopic study of the supermolecular structure of some chemical fibers* Report presented at the 13th Conference on High-=)lacular compounds Moscow, B-11 Oct 62  137-58-4-8356 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 4, p 293 (USSR) AUTHORS: Radchenko, R.P., Vishnyakova, M.P. TITLE: On the Causes of Increased Hardness in Slabs of lKhl8N9T Steel (0 prichinakh povyshennoy tverdosti slyabov iz stali IKhl8N9T) PERIODICAL: Sb. tr. Kuznetskogo mezhobl. pravi. Nauchno-tekhn. o-va chernoy metallurgii, 1956, Vol 1, pp 66-71 ABSTRACT: When 6-t slabs of stainless IKhl8N9T steel are planed before rolling to sheet, hard surface defects resistant to machining appear similar to sintered fish scale or rough washed scale rolled-in during the rolling process. Investigations showed that the cause of these defects is the carburization of a surface layer of the ingot due to welding-on of mold iron. If the temperature of the metal before pouring is at the optimum 1590-16000C and the molds are in good condition, rejects due to excessive slab hardness should not occur. 1. B. 1. Steel--Machining--Hardness factors 2. Steel--Hardening--Aralysis Card 1/1 3. Steel--Surface properties  KAMLIBAIYM, D.I.; KONKIN, A.A.; VISMAKOVA, H.N. Connection between the submicroscopic structure of natural and regenerated cellulose. Xhim-volok. no.501-33 1" 4 .. (MIRA 13 M) 1. Voeso7uznyy nauchno-Issledovatellekly iTAtitut Iskusetiennogo volokna (for Mandel'baum, Konkin). 2.,Ieningradskiv tekstilInn Institut imeni 11rova (for Vishnyakova). (Cellulose) (Viscose)  VISH9YAKOVA, M.N. , 490S. A. I. Electron microscopy metbod of investigating sulfite Pulp and viscose fibers. Izv.vya.uchob.zav.; takh.taket.prom. no.4: 9-14 '58. ()URA 11111) 1. Leningradskiy tekstilInyy Institut Ineni S.M. lirovaq (Electron microscopy) (Textile fibers, Syuthetic)  ~Wp '$'Tp" -- .__ - ~Mr_ VISHNTAKOVA, M.N.; MWS, A.I. Investigating the structure of chemical fibers by electron microscopye Izve vys. ucheb. zav.; takh. takit, . prom, no*3-.18-27 158. (MRA 11:12) 1,Ieningradakly tekstillnyy inatitut imeni S.M. Kirova. (Textile fibers, Synthetic--Testing) Ollectren microscopy)  PIZ K, 1~ muk; PTCHEINKO, R.P. kand. 'okhn. Hcattng of rall. steel ingotb in r,~generative pits. Stall 25 noo83837-94O S 165, (111RA 18:9) .L. Kuznet:3kty r,,L, w.1 lurr, [clies k Ly kcmbinat i Vn(,soyuznyy nauchno- iogleclovatellokly trubriyy Institut.  VISHNYAROVA, M.S.; KAKU,`TI.', S.N., dots., red. ~ [Lectures for the seeGnd part of a course ii "Thec- retical principles of radio engineering": LC-generators of sinusoidal oscillations with positive feedbackj Lek- tsii po vtoroi chasti 1-ursa "Teoretichoskie oonavy ra- diotekhnikill: LC-generatory sinusoidalInykit kolebanii s polozhitellnoi obratnui sviazliu. ~Ioz;kva, Vses. zaoch- nyi energetichaskii Jn-t, 1961. E4 P. (1,11RA 17:8)  NOSKOV) A.I., ktand. veter. r,vJ.)- O';PKINA, I.I., kand. vet--jr, aaak; VISIWAF. A., -1, --rir-yy zoQ11r,~iL-Ak Hygenic charanterlati(-a of silag-P. VaLerins-riia 4.1 no.ls95-9? Ja 164. (MIRA 17:3) 1. Vaeso7aznyy institut vatarinarnoy sanitaril.  V,IkIa,jYAXGVIJ.,?I_ R.N.; IMUNKINA, D.S.; SYI-(KIN, Ya..M.; Prinimali uchaBtiye: KAP,A'IAI-.*GVA, G.N.; MOLODIM, A.G. Plugging cement for extra-deep oil and gau wells. Trudy IUzhgi- protsementa no-4:108-126 163. (1,111tA 17: 11)  SYRKIN, Ya.M.; VISHNYAKOU, R.N. Plugging cements for extra-deep wellB. TSement 29 no.417- 10 JI-Ag 163, (MIRA 16s 11) 1. Yuzhgiproteement.  VISHWIAKOVA, R.S. Uvanovo (obl.), Letnyaya u1., d.70, kv.10); - ~ ~ 1. 1. -IMMYLFVP B.K. Three cases of complications in intraosseous metal osteosynthesis of the hip. Ort. travm. i protez. 23 no.1002-74 0 162. (MIRA 17:10) 1. Iz travmatologicheskogo otdeleniya (rukovodltell- dotsent L.S. Khavkin) Ivanovskogo oblastnogo gospitalya invalidov Otechestvennoy voyny (nachallnik - V.K. Shilov).  BOLGOV, Ivan Vasillyev2ch; KOPYIDV, Yuriy Maksimovich; PASEGOIKOV, NikQlay Semenovich; VIIEUXALOA, S.V., red.; BASOVA, M.S., redil PANOV, P.A., dpets. re_d_._,'1TMNA, Ye.S., tekhn. red. (Operating,tractors zimnikh U910iiakh. 38 P. (Tractors-Cold weather operation) 14 winter] Ekspluatatsiia traktorov v Nbirvat Biuro tekhn. informatsii, 1963. (MIRA 16;9)  FAUSHKIN.. Ya.M.; VISHNYAKOVA, T.P.; SMIRNOVp A.P. Exothermic catalytic p7rolysis of unsaturated and aramtle hydrocarbons. Neftekhimiia 1 no.4014-520 il-Ag 161. (M3RA 16:11) 1. Institut neftekhimicheskoy i gazovoy- prmushlennosti imeni I.M. Gubkina.  MACAIITSKIY,, Konstantin Pavlovich. Prinimali uchastiye: GOSUDAREVA, A.G.; PA.11ITKIN V.A.; BEIYAKOVAO 11,0J.; UPUSTYANSKIY, A.N.; i _~'TZAMVA,Ye.) ZHUKOVq S.N.; NIKULDIA, F.F.; SALAWMV, B.G.; :KLISI red.; KUNKSOVA, A.y tokhn. rod. [Co-trol of the nutrition of field and vegetable crops] Kont- roll pitaniia polevykh i ovoshchrykh kulltur. Foskva, Mosk. rabochii, 1964. 302 p. (MIRA 17:2) 1. NauchrWyc notrudniki laboratorii knliya Nauchnogo instituta po udobreniyam i inrekto1fungitE;idm tfor Gosudareva, Panitkin, Belyakova, Kapuotyamikiy, Zhukov, IT:ulina, Balabanov).  GARF, B.A., kand.takhn.nank Ltranslatorl; MOTULEVICH, V.P.. kand.takhn. nauk Ltranslatorl; BAUM, V.A., prof., red.; VISKOVA, RYBKINA. V.P., takhn.red. [High-temperature solar furnaces; collection of translations] Solnechnie vysokotempersturnyo pechl; o'bornik perevodov. Pod red. V.A.Bau.m. Moskva, Izd-vo inostr.lit-ry, 1960. 470 P. (Solar furnaces) (MIRA 13:11)  "Inver,tirntio-m cc' ~%nntrw-icn; rr~ of' nrnIC4! 0, ;nrirv-i Foniri -)n 'ir. fo--, J.!vani 5. C-Andlldatq in -gri-cultural Sr-ioncr-J SO: 'Kni-'-.w4ya Ictoris' !To- 27, 2 1955  far=airfue of alaic "M and Its melbyl arna in The a makcaillm "optlaund at bom friflacrialt with pbompbock add. A, V. Tof~chsrv aml T. P. V-ohnya - kova. Poklady Ak4d. V4uk S.S.S.R. 71. 411'(1114-1`6111: If. C.A. 44..1Cr_1l,. ---Pure olete n6d tracuum-dimd. at lim, V at 1-2mm.l. dn.SCI. arid on. IM4.9. Brno. oio.l. t,i!- 1,4414. wai polyrurrilard in the prftmce of contlatli. of BY .ith the ph'"Plutatit, acklao at l0q% for dOl minA.' 4uraticto: catalyst witts. of Al, ba" on acid uwd. AFIX&O. M wai the roost active catal"t. fir..Irlpt(h the Im't arthe me. polynicarizal intas with I were conducted at 1.4 I'M, all. I I'liko with calal)~t anits. Varying from I to '_N"; and Willi Themax.dWrecaffattlymerization.at L11 ith =141 , I - a- 71.791,' ; the Fir no. fell. for 3 !V'; 1. Imm NAAS to 4 1. C-1. anti the mall. wt. increagied from 2on a,, 4.M. The cormtatmiding data fnr OW (1.5 to 24- 1) at, M.9.1 in 3 CPO and 3M in 'C9; for 100, 1) v. 1 -, it) 29.63. ant) 43j) to 545, With .041", 1 tile aclif no. air. creascd, indicating participatirm of the COJI gmp. litall only dimeri (unutd.) were obtained. as indicafetl I-V !hcmot.wt*. Soine stearic acid was found in the gicalyiner- -tzatr. To studr the effect of the rarboxylic LJOG the rxjy. toerization. analoalous expts. were conducted with Ile I again proved to he mavt effective. Therewticnalkinmag,, at LI(O'. of (W. 5-20- 1. the Brno. fell tram 51.1itto III Of Pd the total. vit, incretivvil from 3Z1 to 449; f4W l(all'. 'Alllr 1. tile data art 44.K1 to.M.71 anti 344 to 48-.. K. Lai,  Prodwa ~ pWr= of Okk add, A. V. Top - rhiev Aml r P. Va. PAWY lk,td. %,sjtk S,S-S-X- 71. G"4(t9"-~POlVUWIiZAIinft Of Mg nIVAIV in the prwmem of BlFs-H.PO.. follawed bry ton. with at. MtOH, IkUrd the ptAymed"tion ppWuct I d:# 0.91 . Br no. 027A. SApan. y*Ided (C,0f.A)j, I.$- O.M. Dr so. 20.9. SiWV the axonoirsk of this oku a(id diwtr cave Molly C6lfjfcjlO and Cjl,,COJI. at well %as Irwrt at CIH,,C(1411 and high-mul. In-Iferldt, whkh 'Wm twolxsl4y lionwric dimirbasylic iwids, Mr(CII,).- ClflCO(Clft)rCOjlIj(CHq),CWI and its I-omer (,inct alwauan pow ewylk and capric ackli). thetintcture of oick, aticl d;met must be: Ajor(CIjj)jCjj:ClJCjj,)f- C106HICIII(cilt)dmtl(Clil)IC()tlf. C.. M. KOW61.4  i USSR/Chemistry - Polymerization Bev 51 "Polymerization of Oleic Acid and Its Methyl Eater in the Presence of Molecular Compounds of Boron Fluoride and Phosphoric Acids," A. V. Tppchiyev, T. P. Vishnyakova, Moscow Petroleum Inst imeni Aw~A 1. H. Gubkin "Zhur Obshch ?aLixe Vol XXI, No 9, pp 1618-1625 'caparison of catalytic action of H3PO4, (C2H5)20 ETO 3 'BF 3' H3P04 . BF --2BF-A showed 31 "4?207 9-130 BF to be most active catalyst. for-polymeri- wt-4 ' Ion of Ileic acid. Percent of polymerization (to dimer) was greater for oleic acid then for try - Polymerization (Contd) Sep' methyloleate and increased in both cases with elevation of temp. Sapond dimer of methyl oleate; ozonized oleic acid polymer for the Ist time. Identified products. a: e: 0 19IT40  VIJ1JIfVSOVAj_ T. P.; KURA;j'IIOV, M. V.; TOPCIIIYEV, A. V. (Acad. ); PAWIEKIII, Ya. fl. "The Proton-!on Mechanism of Alkylation and Folynerization Reactions," Dok. All SSSR,, Vol 80, No 1., 1951, pp 381-384- Translation 0141-22513, 24 Apr 52  KURASHEVAJ, I.D.; VISHITIAKOVA, T.P. I Cyclic compounds with conjugate double bonds. Trudy MIMMU no.37: 125-129 t62. (MIRA 17:3)  '!-.(Aead)--- I - "U-Z *.-,I VISENrYAKOVA, T. F., Ya. If., TO!-."PIY-"'1, A . 7~ !I - - 'j . I . . ' )p ;111 , I , . k t- j , . , . --- I IfThe Connection Between Zlectri--, Conductivity and Activity of "atalysts in Aklylation Reactions, 11 Dokl. All 333A, 80, No. 4, pp 611-613, 1951. Translation W-23316, 1 Aug 1952.   .1 - ';~ - - 7 . . ~ ; ~ 7~ ; ~ ' . I I I -, . . , . - . . . . - ; ' . ; . , I '... ~ _ . . I I . ., . I . 4 : :'~ . .1 .: . , . '. , - . , I I I.-:0,111 '" 1-.' 1 -111M =71 1~ A. A. Iv) "Prii~cipal icf:,~uiarities of Hii,h-b-rpr?rature ".-,erral and 3-ital,"T".1c Pyrolysis of :,,yrirocarboqs in 1--olten ~.etals art,4 a '-ree Volurc." Report submitted at the Fifth ',,orld Petroleum Congress, 30 Lay - 5 June 1959. 6ew York.  5/123NMO/009/021/027 /glogo Aoo4/A104 AUTHORS: Paushkin, Ya. M.; Sychev, R. V.; Vishnyakova, T. P., and Shomov, A. K. TITLE- The effect of the chemical composition and of additives on the fuel combustion in jet engines , PMUODICAL: Referativnyy zhurnal, Mashinoatroyeniye, no. 9, 1961, 20, abstract 91160 ("Sb. tr. Mezhvuz. soveshchaniya po khimii nefti, 1956", Moscow, Mosk. un-t, 1960, 293-314) TEXT% The authors Investigated in a laboratory combustion chamber with a fuel consumption of 1 gram/see the effect of the chemical composition and addi- tives on the fuel combustion in ram jet engines. The completeness of combustion (up to a value of 97-96%) and of the vaporized fuel exceed that of atomized fuel by 2-4% and grows with an increased content of aromatic hydrocarbons and with a decreased coefficient of air excess. When additives in quantities of 1-2% (the composition is not given) are used the scale formation is reduced from 2.5-3.5 to 1-2 m2/gram. Under pulsating combustion conditions an addition of 1% tri- ethylaluminum cuts down the combustion time from 7-7.4 to 3.5-4 msec. The Card 1/2  23479 S/123/61/000/009/021/027 Thp effect of the chemical composition ... A004/A104 tempexature and ignition delay of organic subitancjs with nitric acid were invead- gated on a special installation. It Is shown thai Vthe delay Increases with a decrease in temperature. In the vapors of nitric a:~Id spontaneously inflammable fuels (triethylamine, cyclohexane, etc.) Ignite at 1,ower temperatures and lower ignition delay than hydrocarbons, which do not lgnitb,apontaneously with liquid nitric acid. There are 12 references. I. Barskiy [Abstractor's note: Complete translation] Card 2/2 A75  PHASE I BOOK EXPLOITATION SOV/3734 Faushkinj Yaroslav Mikhaylovic~ and Tamara retrovna Vishnyakova Troizvodstvo, olefinsoderzhashchikh i goryuchikh gazov iz neftyanogo syrIya. (Producing Olefinic and luel Gases From Crude Oil) Koscovp Izd-vo AN sm, 196o. 233 P. Errata slip inserted, 10800 copies printed. Sponsoring Agency; Akademiya nauk SSSR. Institut neftekhimicheskogo sinteza. Resp. Ed.: A.V. Topchiyev, Academician; Ed, of Pablishing House: A.L. .,Bankvitser; Tech. Ed.: I.F. Jhz'min. PURPOSR: This book is intended for technicians interested in the gasification and conversion of oil stock. COVMAGZ: TMs book deals with the gasification of heavy oil stock (fuel oil., cracking residues, and bottoms) and the conversion of natural gasoline and condensing gases into gases vith propylene., ethylene, and bydrogen'content. Mod6rn'units and processes for the gasification of liquid fuels are describ- ed. The authors point out Soviet interest in propylene and 6thylene as raw card 1/6  Producing Olefinic and Fuel (Cont.) SOV/3734 materials for the production of ethyl alcohol and the synthesis of polymers. They also discuss the utilization of natural and vaste gases for the production of synthetic products. No personalities are mentioned. References accompany each chapter. TABLE OF CONTENTS Introduction 3 Ch. 1. Methods of Chemically Converting Gases and Products From the Pyrolysis of Petroleum Crude Production of stock for petrochemical synthesis Hydrocarbon gases and hydrogen 5 AromaAc hydrocarbons (benzol, toluol, xylol) 9 Production of petrochemical products 3.1 Production of chlorine derivatives 11 Alkylation of benzol and its %homologues and the chemical conversion of benzene homologues 14 Synthetic detergents 17 Production of plastics and synthetic rubber from petroleum crude 20 Production of alcohols from petroleum crude 23 Card 2/6  Producing Olefinic and Fuel (Cont.) SOV/3734 Productlon of sulfur, sulfuric acid and ammonia from petroleum crude 25 Bibliography 29 Ch. II. Stock for the Gasification Process 30 Bibliography W Ch. III. Theoretical Concepts of the High-Temperature Pyrolysis of Hydro- carbons 42 Thermodynamic concepts and mechanism of the high-temperature pyrolysis of hydrocarbons 42 Calculating the rate of chemical reactions taking place, In a stream during cracking 59 Methods of calculating gas composition under equilibrium conditions 62 Bibliography 78 Ch. IV. Pyrolysis of Hydrocarbon Stock and Tars 80 Pyrolysis of light stock (ethane, propane, butane, and natural gasoline) 80 Card 3/6  Producing Olefinic and Fuel, (Cont.) SOV/3734 Pyrolysis of distillate petroleum fractions (gas oils) 92 Dynamics of the change in the composition of the reaction products of the gasification process 97 Ga#ification of the n-cetane fraction 97 Gasification of a-methyl decalin 101 Gasifibation of the 200-300* C gas-oil fraction 102 Gasification of fuel oils and cracking residues 103 Pyrolysis of shale oils 126 Comparative data on the pyrolysis of petroleum and shale oils 130 Bibliography 133 Ch. V. Modern 10tallations for the Gasification of Liquid Fuels 134 Gasification installations for the production of domestic and industrial gases 134 Noncatalytic processes for the gasification of pe1kroleum, crude 135 The Pacific Coast prosess 136 The Jones process 136 The Hall process vAA The Hall process using duplex generator 147 Processes for the autothermal, pyrolysis of hydrocarbons using air or steam-air blast 149 Installations for the autothermal pyrolysis of light hydrocarbons 150 Card 4/6  Producing Olefinic and Fuel (Cont.) SOV/3734 The Dayton-Faber process 150 The Cooper-Gashe process 154 The Heim process 158 The Otto Company process 159 Catalytic gasification processes 171 Processes for the sutothermal gasification of petroleum crude in the presence of a catalyst 172 The Sea Gas process 173 The ON1A-GkGI process 175 The ONIA-GRGI-DOW process .185 Gasification Installations for Producing Rydrogen 18T The Texaco process 187 The iron-steam method 191 The Otto process 193 Installations for the Production of Synthesis Gas 193 The Hercules Povder process 195 The ONTA process 196 The Standard Oil Process 198 Carburetion of voter gas vith gases obtained from fuel oils 202 card 5/6