"A" IL tCHIT-1,10 V IN Aspirent "An Investigation of the Iddition of ~-,'oof in the Weaving of Cloth." Cand Tech Eci, Moscow Textile lnst, 14 Oct 54. (VM, 5 Oct 54) Survey of Scientific and Tochniml Issertations Defended tit TUSH 141,g,her Educational Thstitutions (10) SO: Sm. No. 481, 5 May 55 n  VABILICHIMO, Y.N., kandidat taklinichookikh nauic. , -, he required strength limit of warp yarn. Tekst.prom. 15 no.12: T Tk ,r ~ w reau e 33-36 D, '55. (Tarn) (MA 9J)  VASILICHMIKO, V.N., kand.tekhn.nauk Calculating parameters for the beating-up process. Stor. nauch.- isal. rab. TTI no.3-.75-82 156. (MnU 11: 9) (Looms)  VASILICHEITKO, V.F., kand.tekhn.nauk CauseR of'streak formation in connection with beating-up, Tekst. prom. 18 no.6:25-26 Je 158. WDU 11:7) (Weaving)  VASILICBMIKO. Vasiliy Nikolayevich; HAUMOV, V.A., retsenzent; AKSENOVA, - - --l- l-AVI9---.- a., red.; Kff q M,T., teklm.red. [Investigating the beating-up process] Issledovanie protsessa priboia utka. Moskva, Gos.nauchno-tekhn.izd-vo lit-ry po legkoi promyshl., 1959. 157 P- (KIRA 12:12) (weaving)  AKIMDVA, T.I.; VABILICHENW, V.M. Selecting efficient parameters for fabric filling. Izv.vys. uchob.sav.; toMi.tokst.prom. no.6:80-85 159. - (MIRA 13; 4) 1. Thshkentokiytqkotil'Wy institut, Tashkentskiy tekotil'twy kombinat. (weaving)  . - f -k F~, -, i T 0 ~ I v ~--, "', 'I I fI i , - V- k -, - - - - -1 - I '. vIF VABILICHIM. V.N., kand.tekhn.nauk. - - Role of the ratchet in the weft beating-up process. Tekst.prom. 17 no-9:29-34 S '57. (MIRA 10:11) (Looms)  f - , '-- - I .. - F , -,/, ~, 11 - 14 ~ ~ - -- - ;~-,i - - VASILICHENKO, V.N.,.kand.tekhn.nauk. Effect of loom speed on conditions of beating-up the waft yarn. Tekst.prom. 17 no.12:21-26 1) 157. (MIRA 11:1) (Looms)  VASILICHMMO, V.Y., kand, tekhn. nauk, dots, ' ' Iffect of fabric filling on heddle conditions of weft thread, Izv. vys, ucheb, zav,; takh. teket, prom, no,1:122-'13.0 158. (XM 11:5) 1. Tashkentskiy tekstil'W Institut. (Weaving)  VASILIGHENZO. V.14. Conditions for beating-up depending on yarn numbers. Ixv.vym. ucheb.zer.; takh.tekst.prom. no.2:106-112 158. WRA 1:5) 1. Tashkentskiy taketillnyy Institut. (Weaving) (Yarn)  VASILIGHM' MO Vasiliy Hikolayevich- NAUMOV. V.A., rateenzent; AKSKNOVA, ~T ' lekhn.red. 1 0 5, [Study of the beating-up process] Isaledovanis protsessa priboia utka. Mookva, Goo.nauchno-tekhn.izd-vo lit-ry po lagkoi promyehlannosti, 1959, 157 P. WRA 14:1) (Looms)  si-l" 'Icn5 n S r c, d u c o r r i -a 1 -, , ~ -,, 4-n the 111hpcelinka ~7a: j propi. 0-D 3 . 0 PA I? - 12 n lai  L 1995-66 EWT(I)/W(m)/~W MI(h) IJP(c) JD /BWP(b)/T 1ACCESSION DR: AT5oi3692 tW2613/64/OW/03Q/0078/OCST 'AUTHOR;-- Vagillcheuk0p, V- P.; UYbop Lo Ya. W iTITLE: The electroluminescent capacitor aqfy; electric circuit element 44 %-r 1964. SOURCE: All EstSSR. Tt Trucv, no- A Iniya p0 Iyuminestsentsii (Research luminescence), 78-8T ITOPIC TAGS: luminorp_jLn~PjfidTCtic materialp clectroluminescence, llute,nescent capaoitorp electric circuit analysis electro- ABSTRACT: The purpose of the investigation was to study the electric character- intics of the electroluminescent capacitors and to conatruct from the resultant data a more accurate equivalent circuit of t:hia capacitor. To this end, the au- thors conaidered the dependence of the gl(ni of the electroluminescent capacitor i (brightness waves) on the exciting current and on the voltage. The luminor used -was ZnS-Cu)CljAIj which produces green glow, and the dielectric was epoxy resin ED-~ or the epoxy lacquer EIID-096. The electroluminescence was excited with a ZG-2A audio c generator in the range from 200 to 5000 cPs, at voltages up to 200 V. A scliemati diagram of the test circuit and the simplest equivalent circuits of the capacitor are shown in Fig. 1 of the Enclosure. Criteria for the cancellation of the capa- i t citive component of the currents through the capacitor are established. An examiniva Cardl/4  L 1995-66 ACCESSION 0: AT5013692 tion of the voltage-ampere characteristic confirms the presence of ap junction-a in the grains of the electroluminor. It is concluded from the results that a more ac-1 curate description-of the electric characteristics of the electrolumineacent capacitor can be obtained by the equivulent circuit shown in Fig. 2 of the Encloaurd. The relative values of,the circuit elements are briefly discussed. "The authors thank K.-S. K. Reb~g,~6d _Ta1_1xU * - a discussion of the results and for supplying the capacitor samples." Orig. art. has: 7 fi~3ures and 1 formula. ASSOCIATION: none SUBMITTED: OlOctO4 ZICL: 02 SUB CODE: OP NR REF SOVt 005 OTHER: 005 Carde4 :.q~, ~FAA1_,*1_,1;,C,~f1`-,,  IMP �V-w Own L _1995-66 A-C--CE,SSlom NR: AT5013692 ENCLOSURE. 01 EM ac. C. C. R, C L Fig. I. Diagram of circuit for the compensation op the capacitiye current througli the electrolumineecent capacitor (left) circu and Simplest equiValent its of electrolumineacent capacitor,  L 1995-66 t r - --- - - - - --- - I- - -- ~------ -I------,--- - JACCESSION HRt AT5013692 .11 4 1, . EXCLOSM.'i 02 0  L 60L-1-1-65 E67 (m)/FWP (b' ir ACCESSION PIR: AP50~~-,~ TITLE: Elec t ro luml ne ~s ce n - _,'-i FI la p I ~t ;TOPIC TAGS: luminor, in u ~-'Jopt'-c Tot.,arlal, Plectr-jlumlnes- _c s if ide cence, sounding pulse effect ABSTRACT: The aut~,,ors excitei ele~~', by app 1 v a cz a w ~7 s -u a r r- w a -a.,.a w Card 1/3  r P: s -u I t sa rp F hc~vn  'Iva Card 3/3  ,r&lert circuit, TOPIC TAGS: -lectrol-c-," I negcent apa,~Jtor. equ, -.7- K  L 348648-55 ACCESSION Iffti Ap5oo5o56 ~,-i~t4 r)n-A 4,- me chan s=. The ~se pl,ylagg t~ie -ap:~-ltor aqMpLes ABSOMMON: None SU7N-,a=l' 03APr'6-' HR REF SOV: 00 5 E!--r_ L 101 0r!7KKF SUB CODE: OP, EC  t .Fig v6it-wpere cbaracteri-stics- (left) -and equivalmt cjxcuit (right) Off electrolu-dn---qcE--.t capac-itor 3  VASILIMMO, V.S. New design of a water-spra7ior, device mounted in the quenching tover. Koko i khim. no.11:33-34 160. (MIRA 13:11) 1. Zhdanovskly koksokhtmicheekiy zavod. (Coke Ind-ftstry-Squipment and supplies)  BERMANT, Ye.Ye,; VASILICHENKO, V.S. organizing the production control in plants. Metallurg 8 no.11: 34 N '63. (MRA 16.12) 1. Nachallnik laboratorii organizatsii proizvodstva i truda zavoaa "Zaporozhstall" (for Bermant). 2. Zameatitell nachall- nika proizvodstvennogo otdela zavoda "Uporozhstal"I (for Vasill- chenko).  L 46582-66 E "IT (m) -N,R-t- -- 014531 SOURCE CODLs U1V.0O8l,/65/OOP/Ol9/MO13/MO14 AUTHORs Yusupov, A. N. TITLE: Effect of structural and mechanical properties on swelling and stability of gasosilicon mixtures SOURCE: Raf. zh. Khimiya, Abs. 19M135 REF SOURCE: Tr. 41ma-Atinek. n.-i. in-ta stroit. materialov., 8b, 6(8)j, 1964p 202-207 T6P.*,G TAGS: cement, concrete,- plastic strengthp porous foam ceramic, surface active agent ABSTRACT: The main factors determining the stability of gaso silicon mixture in the production of geso silicon concretel5dre the excessive pressure of hydrogen in tho nuclear cells,, plastic strength, surface ten8ion and the height of the mixture layer. The analytical dependence between the excessive hydrogen pressure in the call the plastic strengthl the surface tension, the radius of the bubble and the pressure of the mixture layer is determined. Authorn eummary. SUB COM l1/ SUBM DATE: none G~,d. _ L  VASILICHENKC, V.V. 1'-*-4~,~li;.~~a~-"~~;,.k.~4~~,,~,,~ _r Shade-type .double doors for drying chambers. Der. prom. 11 no.8:26-27 Ag 162. Off RA 17:2) 1. Rostovskaya-na-Donu bayannaya fabrika.  ANGARSKAYA, M.A.; VASWCHWO, Ye-A-;-'sCKOLOVA, V. Ye. Hypoazotem-lo and diuretle effect of somo apecf,,ea of D-njn,,~~In7-a. Rast. res. 1 rio.4:51a.-548 3 65 OVIF~. 119,.-1) 1. Miar'kcvskiy nauchno-issledovatallakly khlmikr,--V,,a--.9rxts-,V- ticheskiy institut. Submitted Jmie 20, 1.965.  AUTHOR: - __Vazi1_'chenko, lu-Aj, Engineer SOV/110-59-3-13/25 TITLE: The Heat Transfer Coefficient of Radiators Cooled with Transformer Oil (0 !,.oeffitsiyente teplopeive-dachi kaloriferov pri okhlazhdenii transform tornogo masia) PBRIODICAL:Vestnik Elektroprom;yshlennosti, 19599 Nr-3, pp 4,6-52 (USSR) ABSTRACT: Now that the losses in a transformer may be as much as 1000 kW there is a great need for compa~~t air-oooled radiators. For cooling transformer oil usee might- be made of some of the galvani5ed steel radiators produced for heating systems arA although the properties of such equipment when operating with hot water or steam are well known their use for the cooling of transformer oil has not been studied experimentally. This article gives a theoretical analysis of heat transfer from water and transformer oil to the inner tube walls of radiator type KFS and from its ribbed cooling surfaces to the air; heat transfer coefficients are determined for the case of cooling transformer oil. Thu formula recommended by the All-Union Scientific Research Institute of Sanitary- Card 1/4 Technical Equipment for the heat transfer coefficient of  SOV/110--59-3-13/25 The Heat Transfer Coefficient of Radiators Cooled with Transformer Oil these radiators is quoted.. The tests were made wliilst cooling water and the range of validity is given. A somewhat modified formula (2) is then given which, can be used to calculate the heat transfer coefficient of the radiator when transformer oil is cooled provided that the heat transfer coefficient from the transformer oil to the tube wall and from the ribbed surface to the air are known. The first of these may be calculated from known equations and the latter determined from results obtained when the rad-iators are used to cool water. The calculations are then made. It is first shown that because of its higher viscosity transformer oil must flow 1.75 times as fast as water to give the. same Reynolcls number. Determination of the heat transfer coefficient from tran former oil to the tube walls is then quite straightforward. To determine heat transfer from the finned tubes to the air, heat transfer coefficients are determined for various rates of water and air flow, the results of the calculations are given in Table 2 and Fig.l. Heat transfer coefficients from card 2/4 water to the tube wall are given in Table 3. Heat  SOV/110-59-3-13/25 The Heat Transfer Coefficient of Radiators Cooled -flith Trans'Lor--er Oil transfer coefficients from the ribbed surface of the radiator to the air are given in Table 4 and from transformer oil to the tube wall at an oil temperature of 700C in Table 5. Then heat transfer coefficients for radiators with various rates of air and oil flow are given in Table 6 and are also plotted in Fig.2 for various values of Reynolds number. From comparison of figures 1 and. 2 it is conqluded that for values of Reynolds number greater than 10't the curves are practically the same for water and tran former oil though, of course, it should be remembered that the oil must flow faster to give the same Reynolds number. The analysis shows that when the speed of the liquid in the radiator tubes is low Card 3/4 artificial turbulence occurs which improves heat transfer  The Heat Transfer Coefficient of Radiators Oil from the liquid to the walls. efficient the oil speeds must There are 2 figures, 6 tables SUBMITTED: 23rd December 1957 Card 4/4 SOV/110-59-3-13/25 Cooled with Transfomer For the coolers to be be relatively high. and 2 Soviet references.  TASILICHEM, Yu.A., inzh. Coordination conference on transformer cooling. Vest.elektroprom. 31 no.6:78 Je 160. (KM 13:7) (Electric transformers--Cooling)  VASILICHIKOVP N.V., kand. tekhn. nauk I- Study of the safety factor in usimg the radioactive method to classify the operation of breaking and drilling hammezvo lauch. soob. IGD n;126-131 '61. (MIRA .1614) Boring machinery) adioisotopes-Safety meaaurso) R  Leonid Alekseyevich. doktor teklinicheskikh nauk; Aleicsoy Yemellyanovich, karAidat fiziko-matematicheskikh nauk-, SHTEM1930K. G.Yu., Inzhener, vedus~chijy redaktor-, Yjj~" "I - I %imUmMinzhener, vedtLshchiy redaktor; TOLCHINSKIT, Ye.g., Inzhener',T_ red0-tor CDovice for determining specific heat and coefficient of hw, conductivity of materials. Resistance thermograph for isothe mic charabers] 5--b-end dlLa opredelenlis udel'noi teploomkostt i koeffi- taienta. teploprovodnosti materialov. Termograf sporotivleniis dlia izotermichookikh kamer. Moskva, 1956. 12 p. (Pribory i stendy Tome 4, no. 2-56-482) (IMRA 10: 10) 1. I4osccw. institut taklmiko-ekanomicheekoy informstaii. (Heat--Transmission)  to" Yladim roviA; OSTROVSKIY, Alekoey Yemellianovich; JaURIZOMM Y. Tgo t 1ASILICHIM, Z.H., inzh., veduBhchly red.; TOWHINSKOY, Ye.M., insho, r~6d.; PONCkM7, V.A., tekhn.red. [Electron-beam seconds counter. Photoelectric recording seismic inclinometer] Blektronno-luchevoi sekandomer. Seismonaklonomer a fotoelaktricheakoi registratsiel. Moskva, 1956. 14 p. ( Pribory i stendy. Tema 1. NO.P-56-495) (MIRA 11:5) 1. Moscow. Yeasoyuznyy institut nauchnoy i tekhnicheskoy informateli. (Blectroaic instruments)  BUDZj5sxj-r,Ojeg 7dislavovich, kandidat tekhnichaskikh naukr; MORGUIJ,~Vn. Nina Hikoloyevne, ~:endidat tekhnicheskikh nauk; SVXDS-O'HYFT.,, Wk-olay ivanovich, kandidat tek-hnicheskikh ceuk; UkLITSCV, A-AY.. glavm~7 redijktor- VA Inzhener, rodnktor; 116Lit.!:Ai~;.I, 7.A- tokhaic redaktor [To HIIChK-1 (Cuntral. Scientific Research Iinstituto of ForrouR metallurgy) tungsten-molybdenum thermocowle] Vol' f rouz-moli'cdeno- vala termopara TsIIIIChH-1. Moskva, Akad.nauk SEWS11, 1956, 16 p. (Pribory I stendy. Tema 4, rin. P-56-524) (HUA 10.-J0) (Tharmocouples)  LIBEROV, Bo'ris Isaakovich, kand.tekhn.nauk;-XAS141CHENKO.,..Z.,R,, inzh., veduahchiy red.; SHIRNOV, P.V., lnzh., red.; PONAMAREV, V.A., takhn.red. [Using high-viscosity cracking residue and cracking gas In furnaces of cracking inst1lations] IspolIzovania vysokoviaskikh kroking-oatRtkov I kraking-gaza v pechakh krokin-ustanovok. Moskva, Filial Vaes. in-ta nauchnoi I tekhn.inform., 1956. 23 p. (Informataiia o nauchno-isaledovatellskikh rabotakh. Tema 28, no.I-56-198) (MIRA 10:12) (Cracking process--Waste products) Al ff PEPE-  NEUSYTIN, A.M., Inzh., ved. red.; SENKEVICH, I.V.* inzh.,, ved. red.; V,&U-T,'Q;;NXO,Z.N.,inzh..,ved.red.; MORDVINOVA.,N.P,,inzh.,,ved.red.; SOROKINA,T.M., ekhn.red.; SMIRNOV,B.M., tekhn.red. (Automatic control, remote control, and electric protection systems] Sistamy.avtomaticheskogo i talemakhanicheakogo upravleniia i zashchity. Moskva, Filial Vses. in-ta nauchn. i tekhn. Informateii. 1957. 3 v. (Peredovoi nauchno-tekhnichs- skii i proizvodstvennyi opyt. Tema 42. Nos. P-57-1/1, P-57-12/4, P-57-59/11) (MIRA 16:3) (Automatic control) (Remote control) (Electric protection)  VASICHEV, B.N.; IL'INA, V.A.; LATYSHIT, V.K.; PLISKIN, Yu.S. Scintillation counter for recording X rndiation. Pr1b.i takh. eksp. no.2:51-56 Mr-Ap 160. (MIRA 13:7) 1. TSentrallnyy nauchno-lusledovatel '0 kiy institut chernoy, metallurgii. (Scintillation counters) (X rays)  S/137/61/000/012/082/149 A006IA101 A UTr HORS: Vasichey. B_ K_,-Latyshev, V. K., Pliskin, Yu. S., Felinger, A. K., 'Liii Echenko, A. A., Farfell, Yu. A., Lebedev, 0. P., Ivarov, V. I. TITLE- A device to measure the thickness of hot rolled metal PERIODICAL: Referativnyy zhurnal, Metallurgiya., no. 12, 1961, 13-14, abstract 12D92 (V ab. "Radloakt. izotopy I yadern. izlucheniya v nar. kh-ve SSSR, vol. 3" Moscow, Gostoptekhizdat, 1961, 205, 206) TEXr: An Instrument for measuring the thickness developed at TsN11IChM, is based on the method of dynamic compensation. The device consists of a receiv- ing~unit, a container of the measuring source, an-electric driven clamp, a feed unit, a recording and an indicating unit. .,To control the operation of the device a coarse-wedge sector is mounted. The device is employed in a thi,;.kness range from 14 to 44 mm; it can however be designed for any range within 5 to 50 mm. In the case of the given model the device is an indicating one. It is intended to be incorporated into the programm unit, controlling the clamping screws of the mill, as a correcting device on periodic-rolling mills, and as an indicator in an automated reduction control system on continuous mills. The aacuracy Card 1/2  S/137/61/000/012/082/149 A device to measure the thickness ... A006/A101 of the device Is + 0.1 mm on the whole range; the -operational speed is one measurement per second. N. Yudina [Abstracter's note: Complete translation] Card 2/2  S/137/61/oo)/6i I /09-55/i2l' A0601A 10 1 AUTHORS: Vasichev, B. N., Valov, A. N., Pliskin, Yu. S. TIM. Measurement of small radioactive metal siamples PERIODICALi Referativnyy zhurnal, Metallurgiya, no. 11, 1961, 36, abstract 11.1247 (V sb. "Radioakt. izotopry I yadern. izlucheniya v. nar. kh-ve SSSR V. 3", Gostoptekhizdat, Moscow, 1961, 210-213) TEXT: The authors set forth the principles of construction of an apparatus for measuring small radioactive samples of metal. Gas Ionization counters have a counting efficiency of -j1% at a V-crjantum energy level of I Mev. When the specimen is completely encompassed by the radiation detector (10 - 4'1L), an ir- crease in the counting efficiency may be attained by raising the number of counters encompassing the specimen, but this leads to a reduction in the relia- bility of the apparatus and to an increase of background. Greater possibilities are provided by the use of scintillation counters possessing a high counting efficiency. One of the best scintillants is NaI, activated with Tl. 7-n the apparatus worked out scintillation counters were used as the radiation dete.,tors, utilizing large NaI(T.1) crystals (d - 90 mm, L = 85 mm) and (DDY-24 (FE-U-24) Card 1/2  5/137/61/000/011/096/123 Measurement of' small radioactive metal samples Ao6o/Aioi photoffraltipliers. The scintilhtion counting efficiency of the fjal(TI) orystal of indicated dimensions constitutes 11180% in registering the V-radiation of Co60. The apparatus uses a circuit with two 21L--counters with a disk-shaped specimen between them and a delay for the pulses of the second 2c-counter. The use of two 21-counters makes it possible to Increase the count from the specialen, find the use of the delay - to select the upper threshold of' discriminatlon ~orre- spording to an energy of 1.4 Mev. Sources of background in the scintillation counter may be dark noise of the photomultiplier, radioa~2tlve lmp-uritles, the natural radioactivity of the materials, and cosmic radiation. Various methods of background-suppression are described. it is pointed out that the apparat"As may be used for determining the activity of samples of metals oon-taining the isotopes Co6O, Ru103 and others. To check the stability of operation of the apparatus, the counting rates from a specimen containing the Co6O isotope were measured for 8 hours. The photomultiplier was fed from a high-voltage reCtifier of the counting circuit "Floks". The counter and the electronic blook of the apparatus were connected to the power grid through a ferroresonant voltage- stabilizer of the C314-220-0.5 (SEI-220-0-5) type. The apparatus elaborated makes it possible to carry out the radiometry of metal specimers havirZ a specffi-~ radioactivity 5 times lower than that admissible according to (USSR~sanltary ncor. rAbstracter's note. Complete translation] Z. Fridman Card 2/2 Y  SInTVA YEV . V. S. VASILICILIKOV, F.Ya-, Using graphs to solve some transportation problems. IZVOVYS*Uch.- zav.; stroi. i arkhit. 5 no-4:109-116 162. (MIRA :L-,-:9) 1. Ku-ybyshevskiy inzhenerno-stroiteltnyy institut imeni ',Iikoyana. (Transportation, Automotive)  FINKEL 'SHTEYN , 6h.P.; W,jv, Density of the sedimentary -oc~-6 of -~he '),-,-khL:d&rya deprc-s34Tr,. Neftegaz. geol. t geofiz. 164. kMf::;A 117.,61 1. Sradneaztatakly filial. Vae5nyumogo nauchno-leclodovat(Almkogo instituta prlrodnogo gaza.  az=-V~- VASILICHIKOV, I. V. GODNEV, I. U., SVERDLIN, A. S. and IIASILICHIKOV, I. V. CA: 41-2243/1 J. Phys. Chem. (USSR) gQ, 8034 (1946) Temperature dependence of the 0 index of powder gases.  VASIlLHIKOV, I. V. I. N. GODINEV, ZhFKh 20, 833-9, 1946 .1 ~j- --- 1. -,:_ , "  VASILICHIKOVP I. V. GODNEV, I. N.' SVERDLIN, A. S., and VASILICHIKOV, I. V. CA: 41-22441 J. Phys. Chem. (USSR) 20, 803-9 (1946) Temperature dependence of the 0 index of powder gases.  MOROZOV, V.I.. VASILICHIKOV. I.V., SVERDLTN. A.S., GODHEV, I.N. Molecules Force constants and action coefficients of the formaldehyde molecule. Zhur.fiz.khim., 16, No. 6, 1952. Monthly List of Russian Accessions, Library of Congress, November 1952. Unclassified.  HOROZOV. V. I.. VASILICHIKOV, I. V. SVERDLIN, A. S., GODNZV. I. N. Formaldehyde Force constants and action coefficients of the formaldehyde molecule# Zhur.fiz,khim,,, 16, No. 6. 1952. Monthly List of Russian Aceessions, Ubrary of Congress, November 1952. Unclassified.  F-- interactiou of ths fam- ~d S'."d ; ~ S avo). Zhur. Fis. Kkim. 26, -M-5(IWa)--Fo"m C*nzU- i'thl coca,. of jilterac6oo rc cAlcd. fros. tht vibratiotud specua of ItC'Oil and PCOM 1. J. llikenuAn  S0V/ 13"t - 57- 10 - 19033 Translation from: Referativnyyzhurnal, Meta I lurgiya, 1957, Nr 10, p86(USSR) AUTHORS- Anisiforov, V.P., Granovskiy, S.P., Vasil'chikov M V. TITLE: Helical Rolling of Round Periodically Recurrent Profiles, Balls, and Gears (Pope rec hno -vintovaya prokatka kruglykh periodi- cheskikh profiley, sharov i s'hesteren) PERIODICAL: V sb.: Ratsionalizatsiya profiley prokata, Moscow, Profiz- dat, 1956, pp 296-318 ABSTRACT: The TsNI1TMash has developed a production process for the rolling (R) of round periodically recurrent shapes. Appx. 10- 3016 saving of metal has been attained in this way. The R is performed by three rolls, tapered or disc-type, at an angle-of 1200 to each other in the working stand of the mill. As the billet advances, the rolls converge and separate in accordance with the rh;;ne of a repeater guide, and the helical rolling process is per- formed. The use of longitudinal tension on the billet makes it impossible for porousness to develop in the axial zone, and this is confirmed by appropriate tests of the mechanical properties and structure. In addition, the fiber structure follows the exter- Card 1/2 nal shape of the product. The R results in a rise in the  SOV/ 137 -57-10-19033 Helical Rolling of Round Periodically Recurrent Profiles, Balls arid Gears mec han-Icall properties and this makes -it possible to increase the load on the product.. A 2- roll bel-cal rolling mill with helical pass grooves is used to produce balls 1-211 -,r, diam. for roller bearings, as well as the production of 40-80 n-im m,.I,'L3ng balls. These mills are analogoue to piercing mills for tubing, When ased to manufa,~ture ball-bearing balls, the output capacity of suc-h ~ m2ll ,5 3 t.,mes as great as that of a horizontal upsetter and affords metal savings of 15 - ZO%. -in manufactu ring milling balls, the labor involved is cut to a fifth or a s~xt~- in add--itior-, a desc ro-ption of 2 -industrial gear-R mills is presented. Gear manufacture by R makes for better metal in the gear ( rowr-, aE the labers of metal in the tooth are not cut but bent to comply with the tooth profile The strength of the teeth is 50% higher than in milled gears. S. G. Card Z/2  VASIL'Ci.!FOV V. "Invesil-iaation of the "ethod of --~4d o~' tne leet- of 'jears an,4 Util~zatisn o--' an Industrial IIJ11.11 l;'In Transport and Heavy "ach-ine Wilding, C'entrril ici Inst of Technology and Vachine (TS111ITIlash), Moscow, 1953 (Dissertation for the Degree of Candidate of Technical 3ciences) SO: Knizhnaya Letopis', No. 32, 6 Aug 55  OISOI a."mone," or Wheeb. A M. V_ VA411. PhAriny. and &L im, rich. I 111M' elt, --rM -3-27. 1 frarisSIM tram Ve,#tnlk MmIt V. 3e, p. 575 no. 3, Mar. 1955. p. SI-W; no, 9, Sept. 1955, p. 41-44.) Production procm for the hat-miling of pars with a quality mAircly satisfactory for triginvering purposcii. Etiagranis. graph.  USSRI Engineering - Metal workina Card 1/1 Pub. 128 - 17/35 Authors I Kuztminp A. D., Cnnd. Tech. Se.; Vasillch~kov, M. V., Cand. Tech. Sc.; and Barbarichp M. V., Engineer "NOW-IM61W Title I Contact fatigue of the teeth of Pears made jpy hot rolling Peric4ical R Vest. mash. 35/3, 53 - 56, Mar 1955 Abatract I An account is given of studies made of the microstructure of gear wheels made by the process of hot rolling, a process which has enormously sr~eeded up the production of these wheels. Tests were made by which it was sho-.m that the surface toughening of the teeth of the wheels, resulting from the plastic deformation of the metal during the rolling, considerab3y increases the resistance of the teeth to fatigue, making them superior to teeth cut on the mJ-11ing machine. Illustrations; graphs. Institution Submitted  V 153010- Inditstrial Pro-doction' o-f 'Cylindiical Ccars:by Ilot AnIling. Ix oppa proinydifennoga prolevod-1ve fg-ilindriche. Aikh ru I - tki. (Bus _ jcj sian.) A. D. ,Iykh Wen metedam gor;arhef proL. - Kuz'rnin and A V. Vaiii'chikov. Wan& mwhifwt roenM,,v, 35, no. 9, Weav and sutngth tuts sbow that tho geay t"th of gea" thlu Produced nre stiperfor to milled ones. I)iagrams, photograpb;, table, graph. - -M  kandidat takhnichookikh nauk; RARBARICH, M.V.; 2"mme-&Y, F.P. Thread-rolling Jack screws, Avt. i trakt.prom. no-11:27-30 N 056. (MLRA 10: 1) 1. TSentrallny7 nauchno-iseledovatellskiy institut takhnologii i maohinostro.reniya. (Lifting Jacks) (Machine-shop practice)  PHASE II BOOK EUWITATION 494-11 Smirnov, V. S.; AniBiforov, V. P.; VaBillchikov, M. V., Granovskiy, S. P.; Kazanskaya, I. I.; Kuzlmin, A. D.; Mekhov, N. V.; Pobedin, I. S. Poperechnaya prokatka, v mashinostroyenii (Cross Rolling in the Machine-building Industry) Moscow, Mashgiz, 1957. 375 P. 4,500 copies printed. Ed. (title page): Tselikov, A. I., Corresponding Member) USSR Academy of Sciences, and Smirnov, V. S., Doctor of Technical Sciences, Professor; Ed. (inside book): Kamnev, P. V.; Ed. of Publishing House: Leykina, T. L.; Tech. Ed.: Sokolova, L. V.; Managing Ed. of the Leningrad Branch of Mashgiz: Bol'shakov, S. A., Engineer. INTROIXJCTION In this book, which is devoted to the study of cross rolling and helical cross- rolling processes in the Soviet machine-bu-41ding industry, the authors discuss very systematically and in detail the principles, theory, aud technological aspects of roll forming of balls and gears as well as the rolaing of period-le shaped stock. Y3  Cross RollIng In the Machine-building Industry 494-11 The terms cross rolling (poperechnaya prokatka) and helical cross rolling (poperechno-vintovaya prokatka) require a brief explanation here. By cross roll- ing,, the Russians understand a rolling process in which two pe-rallel rolls re- volve in the same direction, their longitudInal axes being parallel to the axis of the work. The term helical cross rolling denotes P_ rolling operation between cone rolls, the axes of which are slightly inclined to opposite angles, thus producing a helical advance of the work. Die rolling in this case is a special type o:e helical cross rolling in which helically grcoved rolls are used, instead of plain tapered ones, to produce shapes such as balls,, rollers, annular shapes, periodic profiles,, etc. The rolling of bearing balls is said to have already replaced the ball-pressing method in the USSR, increasing produr-tivity 2 to 7 times, and saving 10 to 25 percen:k, in expensive aUoy steels. Gear rolling is reported to be a current development project in the USSR. Rolled gears are said to have been successfully produced to grade 3 accurar-y with a grade 7 to 10 sur- face roughness. Methods for determining rolling forces, stresses, torque, and power, based on modern concepts of the theory of plasticity and strengta of materials, are discussed, and formu2as derived. All the methoft involved in these rolling processes are discussed with great clarity, Fmd case histories and specific examples are included. According to the authors, the mechanical C=&WOIW a/3  Cross Rolling in the Ylaahine-buildL-Ag Triiii t,- y 494-11 properties of press-formed parts or of paxts me/.-hkaed frm paricd:L3 rolled stock are considerably higher than those m-Az frm .!ownratitx Um jilr.~a rolled stock, not to mention a 20 to 30 percent saving in meterial. The development of the theoret-Ical prim1ples &~-A the tecla%alcglazZ processes of cross rolling and helical cross ralling In the USSR is said to have been carried on Intensively since 1942. The theory w&S developed by V. S. Sm4-=ov on the basis of experiments conducted at the Urallskiy politeklLnIz-heskiy institut (Ural Polytechnic Institute) and later &t the y politekhr-Icheskly institut (Leningrad Polytechnic Institute). The development. of maihimery aad equipment for cross rolling and helical cross ralling ws ampervised by A. I. Tselikov at the TsNIIBWh (Tsentrallnyy nauabno-issledovatellskiy institut tekbnolog:Li I maBhIaostroyeniya, - Central Scientific Research Institute of Technology and Machinery). Some machine-building plants., e.g... the Gorlkovskiy e,vtcmdbU'nyy zavod (Gortk4.y Automobile Plant), have developed cross-rolling mills of their own design. The contents of tW-s book are reviewed belov., chapter by chapter. C 3/3  SOV/122-58-6-16/37 AUTHOR: ~hikkolr, M-V., Candidate of Technical Sciences, Volkov, M-.M-and-Barbarich, M-V., Engineers TITLE: The Rolling-on of Teeth in the Fluted Pins of cotton -spinning Machines (Nakatka zublyev riflen,7kh tsilindrov khlopkopryadil'nykh mashin) PERIODICAL: Vestnik Mashinostroyeniya, 1958, 14r 6~ pp 45-46 (USSR) ABSTRACT: A process for cold-rolling the teeth in fluted pins for cotton-spinning machines developed by the TsN!ITMASh Institute is described. In these components, the flutes have a varyin6 ~-Atch. The rolli-n- roller, of a diameter which is a multiple of the coo-ponent diameter, mu5t have teeth repeatinr several timcs the cycle of pitch variation in the component. To avoid the need. for a precise relation between several rollers, only one roller rolls the teeth. The other t~,.,o in a 1-11-pp-rollor unit clear the teeth and simaltaneotisly cu.6fdce-roll the neck sections between the fluted len-ths of the pin. The correct choice of the diameter of the flu-11-ed sections before rollinF proved to be the main factor in ac~_ievinC good accuracy. Tests carried out at different surface speeds have shown the best speed to be about ) ralmin. The Cardl/2 flute rollino roller was itself produced by a rollinS  SOV/122-58-6-16/37 The.Rolling-on of Teeth in the Fluted Pins of Gottcrsqpinnin,'~- Machines process from a master corponent. The latter was made of ShKhl5 steel, hardened to 50-51- Rocevell U. The master was compressed between 3 blanks of rollinC rollers. The master has a tapered entry --ection and is drawn throur-h between the roller blanks. These blanks were made of 0.45~ro carbon steel or of low-alloy medium carbon steel. After the rollinC operation, they were heat-treated and polished. The height of the teeth in the master and the rolling roller exceeded that of the component by 0.2 mm. The resultant -Dressure during the component rolling operation was measured. nven rollin- flutes of 35 mm length together with 2 plain neck sections of 75 mm lengths each, the total pressure amounted to 6 tons. Without the surface rollinG of the necks the pressure amounted to 4.8 tons. There are 3 figures. Card 2/2 1. Rolling mills--Applications  VASILICHIKOV, 14.V.., VOLKOV, H.H.; NRYLER, B.A. New techniques for making billeto for worm-gear cutters. Stan.i inatr. 10 nn.l;!7-9 Ap 159. (MIRA 12:6) (Gear-cutting machines) 1,  -4AWaCjiIxCy,m.v.; VOIEDVP memo HDt rolling of long threads Y,th a coarse pitch on hotlow shapes. Xuz.-shtam. proixv. 2 n0-11:7-10 N 160. (HIM 13: 10) (Rolling (Wtalwork)) (Screw Vireads)  S/122/60/000/007/007/011 A161/AO29 AUTHORS: Vasil' chikpy,-IL-Y, Candidate of Technical Sciences; Barbarich, M. -V.7 -Candidate of Technical Sciences; Kapitonov, I.M.,'-Engineer T=: Producing the No4ikov Gears by Hot Rolling 0 PMUODICAL: Vestnik mashinostroyeniya, 1960, Nc. 7, pp. 46 - 49 TEXT: . The described experiments were undertaken to find out if the point- contact Ni)vtkdv gears could be generated by hot rolling process used already in the industry for conventional Involute profile gears. The load capacity of Novi- kov gears produced by cutting has been studied at the Gear Department of TsNIITM- ASh, and therefore same gear dimensions were used in the experimerylts with hot rolling to compare mechanical properties. TeNIITMASh used special milling cut tersjor Novikov pinion and gear wheel (Figs. 1 and 2, respectively), with dif- fereXt tooth contour are radii. The hot rolling UkEMM-58 (TBKBMM--58) machine s shown in a photo (Fig. 4) with a gear blank Installed betwee-n--UTe-bottom kind - ing) rollers. Rolling on long blanks with subsequent cutting Into single gears (as is practiced in rolling involute gears) was not possible because of slipping of the blank on the standard indexing pinion. Slipping caused either a wrong Card 1/2  Producing the Novikov Gears by Hct Rolling S/122/60/000/007/007/011 A161/Ao2g tooth number, or distorted teeth (photo, Fig- 3)- Success was achieved with sin- gle gear blanks In the mentioned TBKM4-58 machine with a pair of indexing and roughing rollers and a pair of sizing finishing rollers above the Indexing, Blanks were heated in an annular induction heater (marked n2" in Pig. 4) to 1,100 - 1,1500C and moved into the bottom indexing rollers.("3") mounted on mo- bile carriages. Then blanks with roughly rolled teeth were passed into the siz- ing rollers ("4"), The outline of rolled Novikov gear teeth is shown in a dia- gram (Fig. 5), where,line "I" Is the outline after roughing and line "2" after sizing, and a photo (Fig. 6). With gears with 6.5 mm high teeth the total rolling time in both roller pairs was 20 see; the heating took 40 see, the passing from the roughing into the finishing rollers 10 see, i.e., the total production time of one gear was 70 see. The initial blank diameter has to be smaller than the finished gear diameter, for no metal is removed and the tooth addendums are form- ed from metal squeezed out of the grooves. The article Includes details of hot rolling process and calculation formulas for dimensions of gears with convex and concave tooth outline. Rolled gear teeth had smooth and sound surface (finlsb n6l'); the tooth metal structure was finely grained and dense,-# the outer gear and pinion diameters error was between -0.10 and +0.15. There are 6 figures. Card 2/2  S/162/60/OGO 101110021016 ~l 6, /,Or 29 AUTHORSi Vasil cchikov,_k.1~,,_,_.Volkov I M.M. TITLE! Hot Rolling of Long Large-Lead Thread on Hollow Work PERIODICAL8 Kuznechno-shtampovochnoye proizvodstvo, 1960, No. 11, PP-7-10 TEXTs The VNIIMETMASh institute has developed a new method and a mill for hot rolling of mine propping bolts with round thread. The rolling process is called "poperechno-vintovaya prokatkall (helical cross rolling), its essence is illustrated (Fig,, 3),, Up to now these bolts were cut. The new method raises the product-11vity by 25-30 times, eliminates metal waste into chip, and cuts the coat of a bolt from 6-7 rubles to 4-5. The first mill is working at the Toretskiy mashinostroitallnyy zavod ugollnogo mashinostroyeniya (Tort_zv Plant of Coal Mining Machinery). The article includes the drawing of a roll (Fig., 4) and a calculation formula for the roll width. Experiments were carried out with rolling on a mandrel and without mandrel and it was stated that the mandrel had practically no effect on the deformation process in thick-wall screws due to the increas- Card 1/4  $/'L62/60/000/011/002/016 A161/1029 Hot Rolling of Long Large-Lead Thread on Hallow Work ing inner diameter of the blank, but when the blank wall was not thick, the mandrel was necessary, The rolling process parameters for the round thread "136 x 32" and "130 z 32,~ on blanks of 30 F9JI (3OG9L) steel are given. The experiment~illy established dimensions for cast hollow blanks are? a) for 11136 X 32" thread - outer diameter (D) 123 mm and inner dia- meter (d) 45 mm; b) for 'l-JO x 32" thread - D - 117 mm, d- 42 mm.. Blanks are heated at the Tortsy plant in a fuel oil firing furnace, the thread rolling temperature is 950 - 110500C. in order to facilitate the feed of the blanks into the mill the blanks are bevelled on 30 mm length with a 200 taper angle (see Fig. 4 "ix"), Hot-rolled ateel blanks are used as well. In this case they are of 40/ (40Kh) alloy steel with D - 90 mm and 25 mm taper.('O'K") with 150,, Axial ilongation of the blanks after rolling is 8-10%. The metal in the rolled thread is improved comparing to a cast structure; it becomes fibrous on the outside (Fig. 8). The rolled thread surface is smoother than a cut surface and rolled bolts are easier to retract in the mine. The rolling mill is not described. The dimeneions Card 2/ 4  S/18"/'CO/000/011/002/016 A1617AO'J29 Hot Rolling of Long Large-Lead Thread on Hollow Work and elements of the profile of the rolls are given. There are 8 figures .and 3 tables. Figure 3: 1_3 Card 3/4  S11821601000101110021016 A161/AO29 Hot Rolling of Long Large-Lead Thread on Hollow Work Figure 8- J0. 9 R Figure 4- 4/4,  PHASE I BWK MCMITATION SOV/16044 Rokotyan, Ye. S.j Doctor of Technical Sciences, Ed# Prokatnoye proizvodatvoj opravochnik (Rolling Industry; Handbook) v. 2. Mosqowp Ketallurgizdat, 1962. 685 P. 8500 copies printed. Authorat P. A. Alcksandrov, Doctor of Tochnical Sciences; V. P. Anisiforov, Candidate of Tachpical, Sciences; V. 1. Bayrakoyj,. Candidate of Technical Sciences V, Barbarjp~~ Candidate of Technical Scienceal B. P. Bakht`MOv-,-V-a-n-d-idate of Technical Sciences Idec"'Id B. A. Bryukhanenko, CandAdate of Economic a a Sciences;tg. V. V~ascKERoV, candidate of Technical Sciencesj A. I. Vitk -n-,Wo-t-o-Vo-f Technical Sciences; S.1 P. Granovskiy, i i Candidate of Technical Sciences; P. 1. Grudev, Candidate of Technical Scienceal 1. V. Guninj, Enginearl tt.;Ya. Dzugutov, Candidate of Technical Sciences; V. 0. Drozd,tandldate of Technical Scienceal N. F. Yermolayev, Engineeil 0. X. Katsnellsong Candidate of Technical Sciences; X. V. Xovpey, Engineer; M. Ye. Migayenko, Engineer; N. V# Litovahenko#' CandUlate of Te4hnical SoUnosol YU& N* Matveyev, Candidate of Technical Card 1/14  4011ing In Idustry; Handbook ZOV/6044 sciences; V. 1. t1eloj3hko, Candidate of Technical Sciences; N. V. Melchovp Engineer; A. K. Ifinburg, Candidate of Tech- nical Sciences; V. D. Nosovo Engineerj B. 1. Panchenko.. Engineer; 0. A. Plyatokovskiy, Candidate of Technical Sciences; 1. S. Pobedins Candidate of Technical Sciences; 1. A. Rrlymak, Profesoor, Doctor of Technical Scidnees Edeceasedj; A. A..Protasov, Engineer; M. M. Saflyan, Candidate of Technical Sciences; N. M. Fedosov, Professori S. K. Filipov, Engineer tdeceaoed]; 1. K. Filippovp Can- Aidate of Technical Sciences; 1. A* Pomichav, Doctor of Technical Sciencenj N. Yu. Shifrin, Candidate of Technical Sciences; E. R. Shor, Candidate of Technical Sciences; M. M. Shternov# Candidate of Technical Sciences; M. V. .Shurale*,'Engineerj 1. A. Yukhveta, Candidate of Technical Sciences; Edo. of Publishing-Houset V. M. Clorobinchenkop R* MO lubohik# and V. A. Rymov; Tech. Zdos L. V. Dobuzhinskaya. PURPOSEs Thin hi%ndbooklis intended for engineering personnel of matallurgicalland machine-building plants, solent1fle research Card 2/1~  Rolling Industry~ Handbook SOV/6044 ..16stitutesp a~d planning and design organizations. It may also be used by students at schools -of higher education. COVMIAC3: volura~ 2 of the handbook rovieuo problems connected th the prcp&ration or metal for rollinj~,tha quality and n~ality contr6l of rolled products, and designs of roll passes In mar6hant mills. The following topics are dis- cuscods procoosoz of manufaoturing-sedifiniahad and finished rolled products (tho rolling of blooms, billets, shapeup beamop rails, strips, vira, platen, ohecto, and the dratring of steel viro), hot-dipped tin Plates, lacquered plates, floor plates, tubes made by difrerent methods, and special typos of rolled products, Problems of the organization of rolling operations are rovicrod, and types of rolled products manufactured In the USSR are shown. No pqrsonalities are mentioned#', There are no references. TA OF~ CORPMS:(Abridged s Oard 3/ 14  Rolling Industry; Handbook SOV/6044 Ch. 58. ears and Coarse Threads 1 i O L ~ f =? M _ lc ~k A u d AA , V,,; 'I ft r br i a h, a s 0v t~ ~-V - ~V ~ 60 Ch. 59. Manufacture of Rolled Wheels and Tires (ig. YU. Shifrin;,) 578 Part XI, Ortanization and Planning of Rolling 607 Ch* 60o Organization of Work- and Remuneration. Management of the Rolling Shop (I, A, Prlymak) 607 Ch* 61, Recording and flanning of Rolling Mill Production (B. A. Bryukhahenko) 615 Part XII, Types of Rolled Stock Ch. 62, Structural Steel (B, I, Panchenko) 619 Ch. 63. Steel Plates and Sheets (B, 1. Panchenko) 649 card 131/14  VASILIGHIKOV, M.V.; VOLKOVP M.M.; MEYLER, B.A. Lateral-helical rolling of hobbing-cutter billets. Stan. I instr. 34 no.11:12-14 N 163. (MIRA 16:12)  TSELIKOV9 A.I.0 akadendk; 11 -14,,V., kand. tekhn. nauk- New advanced technology is tYe basis for the automation of 0 production processes. Makh. i avtom. proizv. 18 no.10t 1-4 0 164. ()CM M12)  fit, L d fatrl- r~,--da frc,:n tek5t. from. na.4:164- t 65 -  VASIL'CHMV, N. V.: MAs. er Tech Sol (disa) -- "A n(rw mothad of lnvostUintinv mining. machinery operating by blovs". Moscow, 1958- 12 pp (Main Admin of Sol Res and Design organizations of the Gonplan IISSR, All-Union Sci Res Coal Inst VUGI), 150 copies (KL, No 2, 1959, 120)  AUTHOR: Vasillchikov, N.V., Engineer SOV1122-59-1~-11128 TITLE: -itw-Maazu-fe-me-nT--oTDisplaoement by the Method of Radioactive Radiation klzmereniye peremeshcheniy metodom radioaktivnogo izlucheniya) PERIODICAL: Vestnik Mashinostroyeniya) 1959) Nr 1+, pp 4-6-1+7 (USSR) ABSTRACT: An installation is illustrated (Fig 1) and described in which an air/vacuum hammer ram piston was covered with a source of gamma radiation containing cobalt 60. A scintillation counter consisting of a single crystal of NaJTI and a photomultiplier (FEU-19m) were placed outside the hammer in order to detect the ram displacement inside the hammer so as to produce an indicator diagram on the screen of a cathode ray oscilloscope. As the ram is displaced, the intensity of irradiation of the scintillation counter crystal changes, which causes a change of voltage across a load resisuance. The voltage is transmitted through a system of RC filters to the amplifier of the vertical set of deflecting cathode ray tube plates. The other set of plates receives its signal from a strain gauge carrying membrane transmitter Card 1/2 designed by the Institut Mashinovedeniya (Mechanical 11  SCV/122-59-4-11/28 The Measurement of Displacement by the Method of Padioactive Radiation Engineering Institute) AN SSSR. Although the curve of the displacement detector is non-linear, it has a linear working section. The time constant permits the recording of events down to 0.1 millisecond duration. For short stroke applications an external radiation source located along the stroke may be preferable. There are 2 figures. Card 2/2  PHASE I BOOK MIPIDITATIOff SOV/4487 Akadeniya nauk SSSR. Institut mashinovedeniya. Seminar po teorii mashin i me~hani2nov Trudy, t. 20, vyp. 80 (Tran actions oi the Inatitute of the Science of Machines, Seminex on the Theory of Machines and Mechazzism, Vol. 20, No. 80). Moscow, 1960. 80 p. Errata slip inserted- 3,500 copies printed. Editorial Board: I.I. Artobolevskiy (Rasp. Ed.) Academician, G.G. Baranav, Professor, Doctor of Technical ScienIces, M.L. Bykhovskiyy Doctor of Technical SciencesJ V.A. Gavrilenko, Professor, Doctor of Technical Sciences, V.A. Zinov'yev, professor, Doctor of Technical Sciences, A.Ye. Kobrinskiy, Doctor of Technical Sciences, N.I. Levitskiy, Professor., Doctor of Technical Sciences, N.P. Rayevskiy, Candidate of Technical Sciences, L.N. Reshetov, Professor, Doctor of Technical Sciences, and M.A. Skuridin, Professor, Doctor of Technical Sciences; Ed. of Publishing House: V.A. Sokolova-Chestnova; Tech. Ed.: B.G. Tikhomirova. PURPOSE: This collection of articles is intended for technical personnel interested in the theory of machines and mechanisms. C ard 14  Transacti=B of the Institute (coat.) SOV/4487 COVERAGE: The collection contains four articles submitted to the Seminar on the Theory of Machines and MedUnisms. The foreword to the collection w" written by T.I. Artobolevskiy,, AcaWcian, Scientific Director of the Seminar. Included in the foreword are summaries of the four articles. References acccmpany three of the articles. Ali references are Soviet., with the exception of one translation from English. TABLE OF CONTENTS.- Foreword 3 Sklyadnev, B.N. Application of Chebyshev's MeViod to the Design of a Conical Mechanism for the Measurement of Areas by a Light Beam 5 The author describes methods for determining optiam parameters of a conical mechanism by.twing Chebyshev's theory,6f the optimum approxima- tion of functions. The "conical mechanismVis a cone-shaped inp~rttneut with three optical tubes and e, photomult6plier tub* . The naonical mechanism" is used for constructing Vilse-counting devices for more accurate measuring and checking of planefigures. Card 2/4  Transactions of the Institute (Coat.) SOV/W7 J.Vasil, chh1kov N __ Meas=4-meat or Displacements by Means of Radioactive Isotopes in Closed Container* Under Pressure T,he author discusses the problem of recording linear displacements of machine parts not connected with others (e.g., piston of an elee-tro- pneumatic hammer). Gerts, Ye. V., and G.V. Kreynin. Design of the Double-Acting Pneumatic Piston-Type Actuator The authors describe the method of designing (using dimensionless parameters) a double-acting pnematic piston-type actuator working with pressures of 5 -6 absolute atmospheres. The methods used in experimental investigation are examined and a comparative analysis of design and experimental data is g0eft. * 23 36 Lyudmirskaya, I.B. Application of Digital Computers for the Synthesis of Four-Bar Linkage-Type Computing Mechanisms 64 The author emphasizes the importance of digital computers in making it possible to develop new methods for finding the acceptable variant of Card 3/4  Transactions of the Institute (Cont.) SOV/W7 a mechanism. Two methods of the synthesis of four-bar linkages are dis- cussed and preparatory work for their solution by computers is described. The author concludes that the method of the quickest triggering action may be used to determine a kinematically sound mechanism. AVAILABIZ: Library of Congress 'VK/wrc/m Card 4/4 u-18-6o  IVANOV, Konstantin Ivanovich; GLAZLTNOV, Vcevolod Nikolayevich; NADION, Mikhail Fedotovich (deceased); BROWUKOV, D.M., doktor tekhn. nauk, retsenzent; VASILICHlKOV, IT.V.p kand. tekhn. nauk, otv. red.; KOSTOIIIYW,, A--.Y'a-.-,--redLizd-va; LOMILINA, L.N., tekhn. red. [Modern methods of hard rock drilling] Sovremennye metody bureniia krepkikh porod. Moskva, Gosgortekhizdat, 1963. 191 P. (MLRA 16: U) (Rock drills)  VASILICHIKOV', D.V,, rifarent Prospects of mining diamods from the bottom of the sea off the coast of South-West Africa (from "Diamond News and South African Jeweler, noZ5 1962; "The Mining World and Engineering Record, no. 4560., 19 Z. Gor. zhur. no.3:68-69 Mr '63. (MIRA 16:4)  Carcs  L lbb94--t6 ACCESSJON NM, AP4048460 chemical properticE are studied ior the first time. 'ILTkise stui~iieki sholwe-l that ;],T--,e Of ,hese. est:ers have propertieg as plasticizers and can b-e used with dolr.-inyl c.hloride, 6; 7,PT.Plr'l'4~-'-h-'llLfh nr)t-lf--- SOV (Institute of fletrocheinicai Processes) SUBMITTED: 19F(ib. 64 ENCL: 00 SUB CODE: OC NO REF SOV: 009 OTHER: 000 2/2 Card  VABILICHIKOV, N.V. Treasures of underwater storeroms. Priroda 53 m.2-.26-31 164. (MIRA 17:2) 1. Moskovskiy gosudar.,tvennyy universitet im. Lomonosava.  BUCHNEV Valerlyan Konstantinovich, prof., doktor tekhn. nauk, tdeceased]; BROMIIKOV, Dmitriy Mikhaylovich,, doktor tekhn. nauk; VASILICHIKOV kand. tekhn. nauk; ZEN, Georgiy Aleksandrovich; SHUSTOV, flikolay Vasillye,.rich; IVLWICH, lzraill Izrfjylovichp inzh.j DFNlDYUKp G.P., otv. red.; BURTSEV, L.I., otv. red.; KOROLEVA, T.I., red. izd-va; OSVEYRIKO, V.G., tekbn. red.; PROZOROVSKAYA, V.L., tekhn. red. [Fandbook on drilling'boreholes in underground workings]Spra- vochnik po bureniiu shpurov i skvazhin na podzemnykh rabotakh. (By] V.K.Buchnev, i dr. Moskva, Gosgortekhizdat, 1962. 271 p. (Boring) (MIlU 15:12)  ACC NRi -AP6034007 -~6UIfCg-CO'DE:--Lii~/62i3/6'~/006/005/0823/0829 AUTHOR: Vasil'chikov, N. V.; Pavlidts._..Xqt_A~; Slovinskiv-Sidak. N. P.- ORG: -InstituLe-of Or anD1Q,&y,__AN__55$R (Institut okeanologii AN SSSR); 4qscow State .Univer6itY_.iM.j4. Vj_..Lomon_osova (Moskovskiy gosudarstvennyy universitet); �Acentific_Res'earch Institute (Tsentral'nyy nauchno-issledovatel'skiy institut chernoy metallurgii) TITLE: Vanadium titanomagnetite pfacers on coastal beaches in the Far East SOURCE: Okeanologiya, v. 6, no. 5, 1966, 823-829 TOPIC TAGS: geologic surveying, geomorphology, ocean floor topography, vanadium. I placer, beach, MMF Pe 44-0ce. ABSTRACT. The existing titanomagnetite placers of coastal beach moraine genesis found in the Far Eastern USSR from large deposits of vanadium ore.. Placers of this type have a number of'accumulative formations (with different titanomagnetite con- tents) stretching in bands approximately parallel to the shoreline. Reserves of this useful mineral in some of the placers have been tentatively estimated at millions,- of tons. However, the regenerative ability of modern placers should be taken into consideration. Owing to the looseness of the ore body and the surface bedding of the deposits mining from such placers is comparatively cheap and simple. Orig. art. has:; 3 figures and 2 tables. SUB CODE: OS/ SUBM DATE: O2Mar66/ ORIG REF: 007/ OTH REF: 003/ -ard _- 1/1 UDC: 551.351(571.6)  VASILICHIKOV, S.A., lnzb.,4 KROSMV, bizbe 'InvestigaUng the packing vapacity of light paaking !m a flange joint* Ditmo i neft-o mashinostr. no-PI7-18 N 164 (MIRA 18s'O  L 04844-67 EVIT(l) -GI ACC NRe AP7000249 SOURCE CODE: uR/0213/66/006/003/0519/0528 AUTHOR: Vasi I&Mtovj Ye. I.: Shumiloyd A. V. Vchikov, N. ORG: Department of Oceanology, lbsco%l State University Im. M. Ve Lomonosov Obskovskiy gosudarstvenyy universitet, Kafedra okeanologli) TITLE: Redesign of the 'Okean' hawser winch into a cable winch SOURCE: Okeanologiya, v. 6, no. 3, 1966, 519-528 TOPIC TAGS: winch, connccting cable ABSTRACT: The redesign of the "Okean" hawser winch into a cable winch has been described In detail, accompanied by seven detailed diagrams and phtotgraphs. Detailed directions are given for splicing the cable (a method developed by the All-Union Scientific Research Institute of Geophysics); the diameter of the cable fo all infents and purposes is not enlarged at the splicing point and there is no change of the mechanical and electrical'characteristics of'the cable. The redesigned winch and the mentioned splicing method have successfully withstood all tests. Orig. art. has: 7"figures. rJPRS: 37,05Q7 SUB COM 13 / SUBM nATE: 08 Apr 65 Card 1/1 Ms 551.,46.o73, 621.866  VAUILI -h~A~Z Samenovich; SOLOV'YXV, N.I., red.; MONIKOVA, A.N.. tekhns red@ Division commander Shchors) Hachdiv Shchors; boavoi out'. Moskva, oen.i-zd-vo H-va obor. SSSR, 1957- 115 P. (MIRA 11:2) (Shchors, Nikolai Arleksandrovich, 1885-1919)  ., Y.Yu.o SHORYGIN, V.A.; VASTLICHIKOVA., I.A. IXORNIKOVA v Growing calcite single crystals under hydrothermal cond-itims. Rcst krist. 4892-94 164. (MIRA 17:8)  VASILICHIKOVA, S.Is Comparative study on the improving action of chemicals on soda Solonetz soils. Pochvovedenie no.6:49-53 Je 165. (MIRA 18:11) 1. Tadzhiknkiy nauchno-issledavatellskiy institut pochvo- vedeniya. Submitted Jan. 2, 1964.  " . r , -, I , ) I ", I VACTLICIT."OUA, ~r. " . YITTr' rj7 , Azot ',' Zlidkillh Produktak-h ~olvkcnscvf~niyr- Kr-shnirzkilkh Goryuchiyr- -Slintsy, lo,?/;., 170 2,512 rc -~,23 SO: Gory-uchiye F-lantsy ~* 1-0114-35, TiT .,-71 G .7 4  tll, TI 7- Gazy 17n-i Tll ol-sov,-nlyp- SO: GoMichiye SlentFy ~' 10/74-35, TIT F71  A- Vr,sj3:tch-lkOvR, V- F-; 7~-- I' Fjziko-Khi,Acheslmya Khar,~kteristikR Kashpirskoy -;~n(A-y Goryuchlye Slantsy, 1934, No. 1, 50 SO: Goryuchiye SlaritsY 1'0- 1934-35 TIT .871 .G74