SCIENTIFIC ABSTRACT KUDRYAVTSEV, V.N. - KUDRYAVTSEV, YE.M.

Design, Construction and Analysin of (Cont.) sOV/2095 Kriven~o,,, I.S. Basic Results of a Theoretical and Experimental Investigation of New Types of Worm Gear Trains U9 The use of worms with concave profiles is discussed. The results of the investigation show the advantages of wom. gears of this type. Iledyakin, R.V. M.L. Novikov's Gearing System 129 A brief synopsis of Novikov's system of gearing for spur gears, including construction of profiles for concave and convex teeth, is presented. The author claims that this system has a load capacity 2 to 3 times greater thean standard involute gearing systems. He further states that this fact has been confirmed by exhaustive tests at various plants. Solovlyev, A.I. Theoretical Fundamentals of the Friction Analysis of Aittamobile Transmissions and Fomerimental Methods of Investigating Frictioh.in Autom6bile'Mechanisms' 141 The efficiency of gearings, universals and the whole transmission is analyzed. Friction in roller contact bea~rings and in the dif- ferential, friction losses in the transmission during unsteady motion, and experimental methods of investigating friction losses in automobile mechanisms are discussed. Card 6/8  Design, Construction and Analysis of (Coat.) SOV12095 Sigov, I.V. Some Problems in the Organization of Centralized Production of Speed Reducdrs:.and Gear Drivds 153 Tsfas, B.S ` Design for 8trength of a Solid Toothed Gear, Weakened by Ney or Spliae Slots 163 Formulas are derived for forces and moments acting on sections of a gear weakened by spline ( 6 alots) and key ( one slot) joints. Blokh, O.T. Increase in the Accuracy of Kinematic Worm Gear Trains Used for Reading Mechanisms of Instruments 177 The author analyzes the accuracy of cylindrical worms and wheels for high-precision instruments. He-makes recommendations for re- ducing the margin of error in the gear trains in order to recluce the -total margin of error of the mechanism. Belyayev, M.S., and K. I. Zablonskiy. Consideration of Simultaneous Engage- ment of Two Pairs of Teeth in Gearing Design 187 Card 7/8  Design, Construction and Analysis of (Cont.) SOV/2095 The distribution of load between two pairs of meshing teeth Is basically determined by the rigidity of teeth and by the errors in engagement, chiefly the a cumulated error of the circular pitch, causing the cyclic character of Messes. The author states that for a pair of gears of a given tyl)e the characteristic diagram for distribution of errors can be determined. He further states that this determination has been donfirmed by inspection of several lots of gears manufactured by different methods. Resolution of the Conference on the Problems of Design, Construction, and Analysis of 11ransmissions 195 The resolution stresses both the progress made and the deficiencies noted in design, construction, and manufacture of gearings and worm gear train.s., and in the fields of continuous speed control, chain drives, and flexible shafts. AVAILABLE: Library of Congress GO/fal 8-9-59 Card 8/8  PHASE I BOOK EXPLOITATION 871 Belyayev, V. N., Candidate of Technical Sciences; Birger, 1. A., Doctor of Technical Sciences; Demidov, S. F.) Candidate of Technical Sciences; Korotkov, V. P., Candidate of Technical Sciences; Pda r~q ev,, V. N , Doctor of Technical Sciences, Professor; Martynov, A. D., Candidate of Technical Bcien,,.es; Niberg, N. Ya. , Candidate of Technical Sciences; Pono=ev, S. D., Doctor of Technical Sciences, Professor; Fronin, B, A., Candidate of Schnical Sciences; Push, V, E., Candidate of Technical Sciences; Sleznikov, G. L., Dmgineer; Stolbin, G. B., Candidate of TechnicELI Sciences; Tayts, B,,A,, Doctor of Technical Sciences Spravochnil: metaUista. t. 2 (Metals Engineering Handbook. v. 2) Moscow, Nuhgiz, 1958- 5174 p. 100,000 copies printed. Ed.(title page): Chernavskiy, S. A., Candidate of Technical Sciences; Ed. (inside book): Markus, M. Ye., Engineer (deceased); Tech. Ed.: Sokolova, T. F.; Editorial Board of the set: Acherkan,, N. S., Doctor of Technical Sciences, Professor, Chairman of the Board and Chief Ed.; Vladislavlev, V. S. (deceased); Malov, A. N.; Pozdnyakov, S. N.; Rostovykh, A. Ya.; Stolbin, G. B,; wA Chernavskiy, S. A. RJMSE: The book is intended for technicians and enidneers working in the field of machine design and in production. Card 1/10 21  Metals Engineering Handbook. v. 2 871 COVERAGE: The book covers the following: strength of materials, debign of machine parts, connections) transmissions, lubrication, etc. The arrangement of mechanical drawings and symbols used are shown. The book contains GOST (All- Union State Standards) tables for standard machine parts. The book in the second of a five-volume series. There are 79 references, of which 76 are Soviet, 2 are German and 1 English. TABLE OF CONTENTS: STRENUM OF MATERIALS (Candidate of Technical Sciences Demidov, S. P.) Fundamentals and Definitions 1 External forces 1 Joints and supports 1 Basic hypotheses, definitions and concepts 2 Internal forces and moments 3 Stress. State of stress 5 States of stress 8 Displacements and strains 10 Stress-strain relationship for an elastic body. Potential energy of strain 12 Card 213a  AUTHORs Solov,yev, A.14, Dotsent, Candidate of Technical Sciences TITLE: Conference on Transmissions (Konforentsiya po peredacham) PERIODICAlsi Vestnik Vysshey Shkoly, 1958, # 2, PP 7b - 17 (USSR) ABSTRACTs In September 1957, an All-Union Conference on Transmissions, convened by Odesakoye oblastnoye pravleniye nauchno-t*khni- cheskogo obahchestva mashinostroiteley (Odessa Oblast' Admi- nistration of the Soiontific-Technical Society of Mechanical Engineers) and the Odesskiy politekhnicheskiy institut .( Odes- aa Polytechnic Institute) took place in Odessa. The conference was attended by 270 delegates from different plantsp and scien- tific and educational institutions. Professor, Doctor of Technical Sciences V.N. Kudryavtsev delivered a lecture on "Methods of Reducing the S "z and Weight of Gear Transmission" in which he explained how this reduction is achieved and the industrial importance of it. Candidate of Technical Sciences Ya.G. Kiatyan (TaNIITItAsh) reported on the results of Experiments in g*ar'couplings. A lecture on the beat select 'ion of designs and g9ometry of planetary reducers with an evolvent out-of-pole coupling was delivered by Professor, Doctor of Technical Sciences Card 1/2 V.A. Yudin.  Conferenct on Transmissions 3-58-2-23/33 The conference planned out a calculation method for gear tranamiasiona in -reepect to contact and bending strength. k report submitted by I.A. Boltovskiy referred to questions of a rational choice of coefficients of shifts and distribu- tion of shifts among the wheels when the angle correction by means of blocking contours is used. Dotsent K.I. Zablonskiy of Od*sakiy politakhnioh*ekiy institut (Odessa Polytechoic Institute) diocussed in his lec- ture the problem of testing gear transmissions, Candidate of Technical Sciences Z.P. Pavlov (TaNIITMAASh) reported on the device "Uragan". Much interest was caused by a roller machine with an origin- al method of imitating the teeth sliding; it was manufactured at the Odesskiy tekhnologicheskiy institut (Odessa Technolo- gical Institute). Engineer Kh.M. Crekov demonstrated it. Dotaent G.I. Kogan-Vollmanle first report treated the questions of terminology, classification and normalization of transmissions with flexible shafts, while the second report dealt with the fundamentals of constructing flexible-shaft transmissions. ASSOCIATION: Taganrogskiy radiotekhnicheskiy institut (Taganrog Radiotechnical Institute) AVAI Library of Congress Caril'i  ZABLONSKIY, K.I., kand.tukhn.nnuk, otv.red.; BOROVICH, L.S., kand.takhn. nauk, red.; BBLYAYHV, M.S., inzh.. red.; GriKIN, M.D., kand-tekhn. nauk, red.; ZAK, P.S., kand.tekhn.nauk, red.; KISTIYAN, Ya.G., kand.tekhn.nauk, red.; XLMBXAjZSFX4_*-.X-.-, doktor tekhn.nauk, red.; MALITSAV, V.P., kand.tekhn.nauk. red.; POLOTSKIY, M.S., kand.tekhn. nauk. red.; ARLIKH, L.B., kand.tekhn.nauk, red.; NIKIFOROT, I.P.. inzh., red.; KOMISSARANKO, A.R., tekhred. (Design, construction, and investigation of transmissions; pro- ceedings of the conference on design, construction,.and investigation of transmissions; proceedings of the conference on design. con- struction, and investigation of gear and flexible transmissions of-- September 23-28, 1957] Rauchet, konstruirovania i issledovanie pere- dach; trudy koaferentsii po voprosam raschota, konstruirovaniia i issledovanii zubehatykh peredach i peredach gibkoi eviazliu 23-28 sentiabria 1957 g. Odessa, Izd.Odeaskogo politekhn.in-ta. Vol.3- 1959. 123 p. (MIRA 12:10) 1. Odessa. Politakhnichaskiy institut. (Gearing)  PHASE I BOOK EXPLOITATION SOV/3943 Kudryavtse,r, Vladimir Nikolayevich Planetarnyye peredachi (Planetary Gear Trains) Moscow, Mashgiz, 1960. 279 p. Errata slip inserted. 8,000 copies printed. Reviewer: F.A. Zharenkov, Candidate of Technical Sciences, Docent; Ed.: A.'M. Volzhenskaya, Engineer; Ed. of Publishing House: V.P. Vasillyeva; Tech. Eds.: L.V. Shchetinina and P.S. Frumkin; Managing Ed. for Literature on the Desism und Operation of Machines (Leningrad Division, Mashgiz): F.I. Fetisov, Engineer. PURPOSE: This book is intended for technical and scientific personnel engaged in the research, design, and manufacture of mechanical transmissions. It will also be of interest to students of mechanical engineering. CO"ERAGE: The book treats basic questions related to the design, classification) kinematics, and efficiency of planetary gear transmissions. Selection of the numbor of tooth, the geometry of meshingj principles of design for strength, and an analysis of selecting the type of transmission are described. Sample calculations are given. No personalities are mentioned. There are 49 references: 42 Soviet, 5 German, and 2 English. CT~~  DIAMBMIa, P.M., doktor tekha.nank; LWKSHIN, V.S., kand.fiz.-mat.naukc; NIBIRG, N.Ta., kand.tekhn.nauk; OBHORSHEV, A.N., prof., doktor takhn.nauk; IPWZHNIKOV, I.S., kand.fis.-mat.nauk; UKANSKIT, A.A., prof., doktor tekhn.nauk; ACHERUN, N.S., prof., doktor takhn.nauk, .red.; VUKALOVICHI M.P.. prof., doktor tekhn.nauk, laureat Leninakoy pzvmii, red.; KUIRTAYT�4j,_V.N., prof.. doktor tekhn.nauk, red.; PONOMARRV, S.D., prof.. dokior tekhn.nauk. 1sureat Leninskoy premii, red.; SATM1,7K.A., prof', dokior tekhn.nauk. red.; SHMSEN, S.V., skademik, red.; RPbSHMTOV: D.N.. prof.. doktor tekhn.nauk, red.; GILIM- BFMG, M.I., red.iod-va; SOKOLOVA, T.F., tekhn.red. [Reference book for mscl~inery designers in six volumes] Spravochnik mashinostroitelia; v shesti tomakh. Red.sovet: N.S.Acherkan i dr. Izd.3., isp'r. I dop. Koskva, Gos.nauchno-tekhn.izd"vo mashinoatroit. lit-ry. Vol.l. Pod red.N.S.Acherkana. 196o. 592 p. (MIRA 13:10) 1. M USSR (for Serensen). (Kachinery--Design)  .ANTSYFMOV, H.S., kand.fiz.-mat.nauk; VUKALOVICH, M.P., prof., doktor tekhn.nauk, laureat Leninskoy premii; KRIPETS, N.S., Inzh.; I,AZMVg LoPop prof@, doktor takhn.nauk; MAZYRIX, I.V., inzho; NIKITIN. N.N., kond.fIz,-wt,.neuk; OCHKIN, A.T., inzh.; PANICHKIN, I.A., prof., doktor tekhn.nauk; PETMOV, B.S., prof., doktor takhn.nauk; PODVIDZ, L.G., kand.tekhn.nauk; SIHONOV, A.F., inzh.; SMIRYAGIN, A.P., kand.takhn.nauk: TOKMAKOV, G.A., kand,tekhn.nouk; FAYNZILIBER, X.K., prof.. doktor tekhn.nauk; KRALIZEV, G.P.. kand. tekhn.nauk; CHLSACHMO, T.F., kand.tekhn.nauk; TOISKIN, B.I., kand.tekhn.nauk; ACEDMA . B.S., prof., doktor tekhn.nauk, reds; ,,KUDRYAVTW,-Y-X-,-.prof.. doktor takhn.nauk, red.; PONOKARIVj S.-M. j~of.. doktor tekhn.nauk, laureat Leninskoy premiIi.-redjl;'3ATJL'* N.A., prof., doktor tekha.nauk, red.; SMWSW, S.V., ekademik, red.; RESMOV, D.N., prof.$ doktor telchn.nauk. red.; KARGANOT, T.G.. inzh., red.graficheskikh materialov; GILOIZIMARG, M.I., red.izd-va; SOKOLOVA, T.F., tekhn.red. (Manual of a mechanical engineer in six volumes] Sprevochnik ma- ohinostroitelia v shenti. tomakh. Red.sovet N.S.Acherkan i dr, Izd.3., ispr. i dop. Moskva. Goo.nauchno-tekhn.izd-vo mashino- atroit.lit-ry. Vol.2. 1960. 740 p. (mIRA 14:1) 1. AN USSR (for Serensen). (Kecbsnical engineering) (Keehinery-Construction)  KUIIRYAVTSF,V,-.V,Iadimir Nikolayevich,, prof.. doktor tekhn.nauk; MAFXOV. V.G., Imnd.tekhn.nauk, red.; VASIL'YE;VA, V.P., red.izd-va; SHCHETININA, L.V.. takhn.red. (Simple calculation of gear tranamiusionel Uproshchennye raschety zubchatykh peredach. Izd.3.. dop. i perer. Moskva, Gos.nauchno-tekhn.izd-vo mashinostroit.lit-ry, 1960. 60 p. (MIRA 14:2) (Gearing-Tables, calculations, ate.)  25o56 S/1080/60/03 3/012/011/024 is 1-0 D2619/D305 AUTHORS: Vagramyanv A.T., Kudryavtse-,r, V.N., and Kuznetsova, V.N~ TITLE: On conditions for produclLng elecitrolytic powders of retals PERIODICALx Zhurnal prikladnoy khimliq v. 339 no. 12, 1960t 2719 - 2724 TEXT; There are many references in literature to the mechanism and condit.'Lons for ob-laining elect.'r0lytic powders,, Ir. is generally tvho,igh-~ thai low -;urrent densiti-es give r.'se to compactj homoge- V~ neous deposits, while higher c.d. give soft, spongy deposits. But the critical curren- detel"mined from 'the loop in the polarization c.d. Curvea has an indefinite value and depends on the slope of the polarization -:urve. The osci-Ilograph MPO-2 was used to measure the polarizat--ion of the electrode, a closed glass cell and a film moving at the rate of 4 and 11.0 mm./sec for registering the change Card 1/3  25656 S/08 "60/033/0121/0111/024 On conditions for D209%305 in polarization with time serving as essential parts of the appara- tusa The standard electrode wao saturated calomel electrodeg all experiments being conducted In a thermostat at 250. A aeries of current efflcien~~,y tests waB made. The cathode was a platiniZed disc of area 3 em2, examined graphil-ally in the case of iron, the break in the cu-rve occurs 3harply and earlier as the current densi- ty Is lncrea!3ed. With nickel here is mu~.h the same pattern but the break is con:Biderably less sharp# indlicaTing the smaller difference in reduct"ion potentials for NI and H2~ Comparing the shape of the tX polarization curves with the sTuru-:~-'V=e of the deposii obtained shows thaz in the firet, section a compact homogeneous deposit re- sults. Going over to the second section, -t-he depo5in becomes soft and powdery~ When Pe and Ni are deposited by pulsed current whose time period does not exceed the value of the first section bright, homogeneous deposits are obtained~ If the time exceeds the value of the first- section,-i.e,, when the electrode potential passes overto a more negative value, a black powdery deposit is formed. The cur- rent efficiency in the first section approaches 100 ,'a' and that cor- Card 2/3  25t,56 S.11080/60/03 3101210111024 On conditions for D209/D305 responding to the second section for the same c.d. about 70 %. it is concluded that study of the conditions for metallic powders appearing at the surface of -the cathode shows that vvith one and the same c.d. bright and compact as well as powdery deposits can be ob- tained. Hence the size of the current density cannot by itself af- fect the quality of the deposit. The factor most characteristic in the change of structure of the electrolytic deposit is not the critical current, but tl%e concentra-tion of ions being discharged In the layer adJacent to the eleclv-rode~ determined by the change of polarization with timeo The boundary of transition from compact -1-o powdery deposits has been established for different c.d. in re- lation to -the eler-trolysis period and it, is shown that the struc- ture changes without any intermediate type of deposit be-ing formed. There are 6 figures and 9 references: 6 Sovalet-bloc and 3 non-Sov- iet-.blo--, SUBLIMED: February S,, 1960 Card 3/3  S/080/62/035/002/020/022 D258/D302 AUTHORS% Baraboshkina, N. K. and Batrukova, M. G. TITLE: A photometric method for studying the conditions un- der which metallic powders are formed PERIODICAL: Zhurnal prikladnoy khimii, v. 35, no. 2, 1962, 450-452 TEXT: The author developed a method for the accurate determination of the moment, at which a powdery metallic deposit begins to form duri-ng electrodeposition. The method consists in continuously mea- suring the reflective capacity of the cathode as a function of time or of current density. A light beam was concentrated on the cathode surface and reflected on to a photocell; the resulting cur- rent was measured and registered on a recorder as a function of time. A typical curve started with a short horizontal section, corresponding to the pre-deposition period; this was followed by a sloping secti.on which indicated the decrease in reflective capaci- ty caused by the onset of powder deposition; OW OUrVe W,'10 finished by another horizontal section at a lower level. Slope of the middle Card 1/2  3/080/62/035/002/020/022 A photometric method D258/D302 section became more steep with rising current density. It wag ohown in the electrodepooition of Ni -that the quality of the depo- sit underwent a sudden change from lustrous to powdery, within a relatively narrow range of current densities, This could be de-, tected by continuously recording the change in reflective capac-'- ty as a function of current density. There are 5 figures and 13 So-viet-bloo references. SUBMITTED: February 20, 1961 Card 2/2  S/080/62/035/007/008/013 D214/D307 Vangfrainyan, A.T. and 11(udryavtsev, V.N Causes of the forziation of clectrolytic metal powders CD' U,: Zhurnal -)rilcladnoy khimii, v. 35, no. 7, 1962, 1546-154~ T',"..T: Durin8 the study of the causes of deposition of pow- dered '-V-- by t-he (-Iccl-z-Olvsis Of !"eS04, the surf.-Ice structure of the dC---,Osit-ee -mctal. -,-7.1s, detcrmi-tied ;)hotoelectrically by reflected light 2), ,,~12 Z 'o"ar n".%C-nt C . 7ow current deasitics (25 m-'Vcn the Fe has a dc-as,-~ ~xd u-ai*-Zo,~7,-, -,t-nxturc while at current: den'sity of 27 rtul/cm2 r;lectrolysis -ave powdercd Ve. .'i'hen the pK cf the electrolyte was hain caac.,re i-a the met-A surface occurred ant a current density 3.1 a of 23 27 -ith p- . 4.6 the powder ~.-,/CM& c. limitiag current. A H bedan to nt 11 - 13 mA/ 'CM2, i.e. much lower than at t1he limit- ing? value (-,3 - 24 r.-..:,Vcri 2). The reason for this is that at pH = 3.1, 01,11-Y IC arc T)rese-nt in the electrolyte; at pH . 4, Fe2+ gives e3+ -FO and this is adsorbed on the surface of the 1-70.1CLI - rms Card 1/2  S/030/62/035/007/008/013 Causes of -Lie formation ... D214/D307 cathode caxisinr,, F-e to -~-orm a -oovider-like de-,)osit. Addition of- ascorbic acid to the electrol yte prevents 3+ and the fom,.ation of A the elect-rodeposited metal is dense up to the current density of the limiting!; current. There are 4 figures. SUB14172ED: Oeptember 7, 1961 Card 2/2  SO'/0( 3/00 0/002/008/ .02 0 8 14 4/1'i 18 6 A UT 110 [IS Vagramyati, A. T. , and Kudryavtsev, V. N. TITLEi Regularitlee of the formation of elc~,,~Lrolyl to iron powders PHRIODICAM Akademiya nauk SSSR. I Y e:j t iy a .Otdelenlye kiiijaichei3kikh .nauk, no. 20 196), 263 268 TEXT: The formntion of Fe elootrodepouits wao vtudl~d to cloar tip the relation between the form of the deposit and the curretil. denalty. The lintitinF current wan determined by platting the polo riza tion curvae obtained in an electrolyte containing 70 6/1 Peso 4' 7H20 and 120 g/1 JK 25o4 (pH 3) at 20 C by the compensation method and the cocillographic potunttsl-tipo curves. At low p1l, powder formation was obeerved in the region of the limiting current. The curve characterizing the trunniLioa from compact to 7l powder deposits was plotted using pulfjpd ourront, and showed -that the carrenL density is not the determining factor. Compact deposits 170re ob- tained below and above the limiting, current and the formation of powdere proved time-independent. Powder formation ebove the itn-itint,' current results from a change in the near- electrodc, layer brou,,,ht nbout by a pR Card 1/3  W Regularities of the formation... BI,14/bi86 charge due to aischar6e of H + ions. The near-o'not code layer is qlkalized and the hydroxide forming is adsorbed on the surface of' the cathode. This favorn mthe formation of powder depoolts. Tbuu, Lho d1oponItIon of powd9re at oviTreni. demiitius boloy; the limiting ourrent vould bu oxpveted from elv.~ctrolyf-ocj of low iteidity und waa aotuilly conf ti-med phototutArically (Zh, prlk),. khiniii -'r- ~J.), 450 (1962)). Wlifrca,A tho 0--urdui-iL, el' thn do!onit in 2 pH 3 solutJons changQd in the 25 - 27 ma/cm rangp, -which coincideo with that of the 11miting otirrent dersity, in the -tructursil change J". 1,3H 4.6 2 solutions too.-, place at 11 - 13 ma/cm and tl)F lifait-LnE-current density waa 2 23 - 2 -med by reflectance studios. Powder 4 ma/off, Thio was also confii formation is explained by formtj.on of colloidal fer)-ir, hydroxide in electrolytes vith j)H>zj.2. Adoorbed, an the olectrode surface, fecric hydroxide pre-tents normal cryotal growth antl consequently the formation of a compact depogit. Tht., correctness of thlo theory ras proved by -Ading 12 g/1 of aec4~rbinjc acid, which inhibitv thu form-ition of Fr-.31- ions, bo a P11 4.6 electrolyte. The deposJt obtained wao couipa(A bol,~Ww the critical current There are 7 figu"Cm.  Regularibi(io of the S1062V631000100210oolo2o fOrmation... B1441BI86 ASSOCIATIOFj Inatitut fialoheakoy khImil Akademil nauk SSSR (Inatituto,04 -PhYsical Chemistry of the Acadomy of Botonoea V8891 SUBMITTEDi MAY 7# 1962 Card 3/3  GUZENKCV, Fetr Georgiyevich, prof.; KVDRYAVTSIEV, V.N., prof., doktor teklin. nauk, , -. (Brief handbook for the design of machine parts] Kratkii apravochnik k raschetam detalei mashin. lzd,4.s perer. I dop. Moskva, Vysshaia shkola, 1964. 323 p. (MIRA 18:4)  ffilp 171P EW L 5Z20-66- BVIT (m) /L1WP (w) /EWA (d) /T/E*vlp (t) W/ (b)/ A(c) Xj:.IJD ACCESSION NFI.: AP5022654 UR/0365/65/001/005/0477/0481 620.193.41 669.788 AUTHOR: Kudgavtsev, V. N.; Makin, Yu. P.; Vagramyan, A. '7 YY1 TITLE:_j!ydrogen absoE2tion in steels ring cathodic polarization in acid solu- tions. 1. Effect of current densit-y1v SOURCE: Zashchita metallov, v. 1, no. 5, 1965, 477-481 TOPIC TAGS: hydrogenation, electrolysis, steel, low carbon steel,,, h ,brittlement._ ABSTRACT: Cathodic polarization experiments were performed in 0.1 14 H2SO4 S01U- ch was used as a stimulant. rmco iron and tions, both with and without As7O3 w i 3OKhGSA steel. were used; 3-OKhGSA sybl had the following composition: C (0. Si (A), Mn (0.9%), P (0.03%), S (d.025%), Cr (0.9%), Ni (0.2%), and Cu (0.2%).. The quantity of absorbed hydrogen was determined by vacuum extraction at 4000C, while mechanical properties were measured on samples 3 mm diameter and 20 mm long, at a strain rate of 8 mm/min. The criterion for determining the amount of hydrogen embrittlement was the difference A* between the reduction in area for charged and Card 1/3  L 522o-66 ACCESSION NR: AP5022654 'Uncharged samples. Results are given in terms of 4~%.as a function of ik (md/cm. 2)9 the polariza-,,,ion current density; and hydrogen concentration as a function Of ik- The influence of cathodic polarization of steel on the loss in ductility is severe; the curves for AO and absorbed hydrogen content both.pass through a maximum at about 25 ma/cm2. These same curves were given for cathodic polarization in 0.1 N H2SO4 solution with 0.01 g/L addition of AS203. A difference is observed; with increase in i the brittleness of the samples and the amount of absorbed hydrogen continu- k' ,ally increase. An explanation is offered based on reactions at the electrodq: H + e = H (1) H H (3) ads ads abs H + 11 (2a) H2 ads Vs H + H + e H2 (2b) ads ~Thus the concentration (H) depends on the speed of disintegration of hydrogen ads .ions, and on the rate of removal of atoms of hydrogen from the surface of the elec- trode. The increase in the current density depends on the amount of absorbed hydro- gen on the surface of the electrodes, as well as on the speed of its removal; this removal depends on the recombination mechaniam (reaction 2a)., whose speed is pro- Card 2/3  L 522o-66 ACCESSION NR: AP5022654 portional. tothe concentration of absorbed hydrogen squared-4 Kl([Iil ads )2. The data are explained using the above considerations, the maxima being associated with a limiting value of hydrogen concentration at the electrode due to the recombina- tion mechanism. For the AS203 additions, there is no maximum because the removal of the absorbed hydrogen lessened by retarded recombination. Orig. art. has: 4 figures, I table. ASSOCIATION: Akademiya'nauk SSSR Inatitut fizicheakoy khimli (4cademy of Sciences ,SSSR, Institute of Physical Chemistry) WV'g5, SUBMITTED: 25May64 ENCL: 00 SUB CODEt GCldd_ NG REF SOV: 014 OTHER; 004 Card 3/3  ACCESSION NR: AT4006705 S/3043/63/000/002/0020/0047 .AUTHORt Chudov, L. A.; Kudryavtsevp Ve Pe TITLE: Round-off errors in finite difference'solutLons of elliptic equations and systems subject to initial conditions SOURCE; Moscow. Universitet. Vy*chLaILtellny*y teentr. Sbornik .rabot, no. 2, 1963. Chislenny*yc metody* V gazovoy dinamike, 20-47 TOPIC TAGS: round-off error, elliptic differential equation, finite difference method, many-point scheme, not step-.selection, supersonLe flow, blant body, boundary value problem ABSTRACT: A study was carried out to estimate the round-off errors' and the approximation errors and to select the moot rational mesh siz 'e of a net for the simplest many-point difference schemes of the form + 7 r 0 Card  'ACCESSION NR: AT4006705 where h and T are the mesh size of the net, (T T(h) and T(h) - when .h'- 0), and th aq(P) are coefficients determined from a given formula. ,The stability :nd ionversence,lof the difference scheme (1) are ana-' ;lyzed in connectioA with tho'boundary value probl'em for the Cauchy- Riemann equations. It is proved that these difference schemes are ,stable with respLfct to initial conditions #nd that the approxim te .solution converges to the exact solution. "Estimates of the rel:tive approximation errors and of the relative round-off errors are derived for difference scheme (1) in:.cases in whiih the indices of the scheme ;are p - I and p 2. The problem of selec4tLng h (T is assumed to be 'sufficiently small) such that the relative(iropnd-off error does not.' exceed a certain given value of c is analyzed. It is stressed that' ;_ for a given y, the selectionf:of It will be opttmal when approximation~- .errors and round-off errors ca-re of the same order. These difference schemes are applied to the solution of equations describLng supersonic flow of a reactin!g-mixture of gases past an;,aAinymmetrLc blunt body# .The method of determining this lower bound fpr,the mesh size h is pre- ~sented using the known valueslof shock wave parameters* Orige art*'. hass 41 formulaqk and 2 jilmoose P'A Card 2 /3 h  _____KLTDRYkT-:b-EV, V.P.,j_ FRANK.- L.S.; CRULOV,L.A. (Moscow) Vinite difference methods of solution of incorrect problems with initial conditions and their application in gasdynamic calculations". report presented at the 2nd All-Union Congress on IheoreLical and Applied Mechanics, iMoscow, 29 Jan - 5 Feb 64.  KONONEPIKOY V.G., kand. takhn. nauk; PAKHOWV, A.,G.~- KLIDRYAVT-,Elj, V.p,,,, SWLOVIKP V.V. I I - i -1 -1- ... 1- 1. . New method of briquetting metal chips. Mot. i gornonid. prom, no.301-34 Mv-Je 164. WILRA 17310)  K.Or."Y ik""TiU A- *4' 1- 34 -j - -- - - I - - - Technology (Effect of lubrication on the process of cutting copper). Sverdlovsk, Masbgiz, 1951. 9. Month List of Russian Accessions, Library of Congress, November 1952. UNCLASSIFIED.  KUDRYAVTSIV, T.S,, )mndidat takhnichookikh nauk. ...... Testing evenness in sliver and yarn. Tekst.prom.16 no.4:33-36 Ap '56. (Spinning) (KM 927)  r)UDRYt)V 7SE\/ SUBJECT USSR PHYSICS CARD 1 / 4 PA - 1735 AUTHOR _-KUDRJAVCEV, V. S. TITLE On the Problem of Quasi-Classical Quantization. PERIODICAL :Yurn.ekep.i teor.fis,.Ll, fasc-4, 688-692 (1956) Issued: 1 / 1957 The present work describes a method for the computation of the energy levels for the one-dimensional case of quani-claosical qVantization. In the quasi-classical method of solving the problem of quantum mechanics the wave function 7 is written down in the form T e'd/ . By inserting this formal ansatz into the SCHROEDINGER equati6n T + (2~& 1h 2 )(E-U) - 0 the following equation (Vd) 2+ (t /i) Ad - 2eA(E-U) is obtained for the function cf. The formal solution of the latter equation is set up in form of a development in series according to powers of ~ ; a - d 0t( ~/i) Adi+ (t /1) 2a2 + By inserting this ansatz into the equation, do' - p; dl --pl/2p; d2l pit/4p 2 _3P' 2/8p3; etc. is obtained in the one-dimensional case. Here p V2;Z~(E-U) denotes the classical momentum. In the case of a real p, the quantities a I, CF as well as do, a, are real, and the quantity d can be 0 univocally devided into two factors denoting modulus and phase of the wave  Lrn.eksp.i teor.fis,31,fase-4,688-692 (1956) CARD 2 / 4 PA 1735 function: 7 -exp (arl -i~ 263+ 14(l 5 -...1expfi(Cro/A -ta2+ ~ 36 4 -*** . Another solution of the SCHROEDINGER equation, which is linearly independent, is obtained by replacing i by - i in the latter equation. With imaginary p the entire expression in the exponent is real. Let a turning point be assumed at x - a, i.e. U(a) - E. Here the phase of the wave function at x > a is determined on the assumption that in this domain E > U(x) and in the domain x a the inequation E < U(x) applies. The modulus of the wave function diminishes with increasing distance of the point x from a. By the exact solution of the SMIROEDINGER equation near the turning point (where the potential energy can be approximated by a linear function of the coordinate x) and by amalgamating the exact solution with the quasi-classi- cal solution an expression for the phase is obtained. Next, the exact'solution of the SCHROEDINGER equation is explicitly given with a linear potential satisfying the above mentioned conditions. Also the asymptotic development of this solution at T1 ---> 0 is written down. In the point x w a the momentum p assumes the value zero. If x is a complex variable, the point x - a is for P(x) a branch point, and p(x) then is a bi- valent function. Also the functions 601. 61, 614 ... are then bivalent with a branch point at x - a. When determining the functions dop 6 21 Cr 41 *t is beat to pass over from ordinary to contour integration, which is described in detail.  Zurn.eksp.i teor.fis,31,faeo.4,688-692 (1956) CARD 3 / 4 PA - 1735 With such a definition of the functions a 0 a2' 64 ... it applies that Cr - (1/2 6; dxj (1/2)( Cr I dx; (1 2) f, al dx, 0 4 1 62 - c 1 2 4 ' C, 4 For x which are near a, the expression 6 OA + NA - 9 62 + ~ 3(j4 is ob- tained for the phase, where 6 0, a 20 (%4 are defined by the above formulae. There now follows the investigation of such a form of the potential energy U~x~ in which two turning points x - a and x - b exist. Here the inequation U x < E applies at a < x < b, and in the remaining domains it applies that U X > E. T~e wave function which decreases at x < a has the following shape at x > a (with the exception of a constant factor): exp t61 - 11 2d3 + 1 4(j, - ... join( ) + WO - tc12 + -h 3(14 where (I., a 21 d 4 are determined by the above mentioned integral expressions. The wave function which diminIshes at x > b, in the case of x < b has the form exp d h 2cr +t 46 ... sin((90/t ) + (R/4) - 132 + h 384 where 8 1 1 - 3 5 - b ols s .. tire determined the formulae so (1/2 2 4 0 61 dxI O'dx; 2 0 82 c2 2 B4= (1/2) ~.O 2 64 dx, The course taken by integration C2 is described in de- tail. - The wave function of the energy level must diminish at x < a and x: > b.  yurn eksp.i teor.fis,~1,fasc-4,688-692 (1956) CARD 4 / 4 PA - 1735 crt dx_ A 2 ldx + Finally, the following condition is obtained: fC . f62 + ~ 4 a4 d:r (n + 1/2) 2A . The functions a I, L121, 604 occurring here- 0 in were defined in the first part of this work. It applies that n - 0,112,..., and the clotied course of integration C oomprises the points x - a &nd x - b in the direction which is inverse to that of the hands of a clock. The last-men- tioned formula is BOHR'S precise quantization rule. Integration is carried out in a general. manner in the latter formula on the condition that the potential energy U(x) has a minimum at a certain point and that the relation U(a) - U(b)-E applies at the points x - a and x - b. The course taken by the integration curve is shown. The expressions for the functions d I, 002, 64 found in this manner are 0 explicitly given. By inserting these functions into the aforementioned generalized quantization condition an equation for E is obtained, the 2solutio of which is set up in f orm of a series according to 1i : E - tE 1 + t E 2 + -h 3E 3 + .... The equation obtained by the insertion of. 'this ansatz Is explicitly written down. By equating the terms with the same powers of t the coefficients of this ansatz in series can be successively determined. The term with ut I is identically equal to zero and the terms at ~ result in _i(Y2~ E /2) dx/YU - (n+(1/2))2x. The terms computed by this method for E 1, E E are, in t e end, explicitly given.The term E corresponds to a harmonic osciilla~or and the higher terms characterize deviation from the harmonic state. The formulae mentioned are applicable with the greatest exactitude to small n, i.e.for the lower levels. INSTITUTION:   AUTH61 MRYAVTSEV,, V. S. 56-7-35/66 TITLE Matio Go-111-ol-on Cross Section for Hydrogen Atoms. (89oheniye uprugogo stolknoveniya atomov vodoroda drug a drugom.- Russian) PERIODICAL Zhurnal Eksperim. i Tooret. Piziki 1957, Vol 33, Nr 7v pp 243-250 (USSR. ) ABSTRACT The author here computes the cross sections of the elastic scattering of nonexoited hydrogen atoms by one another by means of the method of the perturbed steady states. The system investigated here consists of two hydrogen atoms which pass each other at a certain distance. If the relative velocity of the atoms is small compared to the velocity of the electrons in the interior of the atoms, both electrons are in a quasi- adiabatic condition and as a wave function the wave functions of the steady states of the hydrogen molecule at assumed position of the nuclei can be used. The kinetic energy of the nuclei in the following approximation is a small perturbation which causes the transitions. First, SCHRODINGER'S equation for the system investigated here is written down* The eigen- functions n- "1 12 of the HAMILTONIAN of this system and the eigenvalues 6 n(r)  Elastio Collision Cross Seotion for Ikdrogen Atoms. 56-7-35/66 of the energy are eleotron functions and electron terms of the hydrogen molecule at an assumed position of the nuol*M. The funotione form an orthogonally normalized system.' The wave funotion T 01# VtP of the system is developed here 4 according to the eigenfunotions I (r,t t The problem 1 2 of the slasti6 scattering of the atoms is reduced to the problem X of the scattering of one particle in the field F_ m(r). The molecular terms: For the solution of this problem the energies of the terms IY+ and 3L + 9 U of the hydroSen molecule as a :function of the distance r bet- ween the nuclei has to be known. These terms are discussed here in detail. auantum. effects, (which ara caused by the similarity of tha atoms) on the occasion of the scattering into small angles towards the front and rear are not essential for the case in- vestigated here and the orosa sections may be computed by means of the formulae of classical mechanics. The last chapter discusses tho computdtion of the cross sectionn.  TUDRYOTSEV3 V. S* "Plasma Radiation in a Magnetic Field", by V. A. Trubnikov, V. S. KurIx-yavtseV Report presented at 2nd UN Atoms-for-Peace Conference, Geneva, 9-13 Sept 1958.  10(14)1 21(5); 24(8) PHASE I BOOK EVL41TATION SOVA457 Vaesayu=aya nauchno-tokhnich,eskaya kontertntsl-Y& po prizenonlyu raaoaktivnykh I stablllnykh Izotopov I itlucheniY v n1LrOdnOD khozymystve I nauke. 2d, Moscow, 1957 Teplotekhn1k a I Sidrodinamika; trudy k*nfirentsils cook. 4 (Hent Engineering and Hydrodynamics; Transactions of tn~ All-Unlon Conforence on the U30 of Radioactive and Stable Isotopes and lion in the Nations.1 Economy and Science, Vol 4) XOacOw, R.Al at Oosenorgotzdato 2958. 68 p. Errata aLlp inserted. 2,500 copies printed. Sponsoring Agencies a Akadomiya nauk SS3R. and USSR. Ql&vnQY* upravlantya po ispolozov&nlyu atomnoy energil. Ids. z X. A. Styrikovich (Hemp. Ed. ). 0. Yo. 3holodovaldY, and X. S. Foxichav; Ed. of Publ. House: L. X. Sinollnikova; Tech. C- Zd.s N. 1. Borunov. PURPOSE: This collection of articles to intended for scientists and laboratory workers concerned with the use of radioactive LA and stable isotopes. -c~aij Tnaa collection or papers deals with ttke appl--caii. of ra-11caottva and stable -Ioqtopds as nea3uring tools I= various types of scientific Investigation. No persons-litits are mentloied. RafareneAs are given after some of the articles. 2- BartOIOKeY. O.Q., Ya.G. Vlnokur~ V.A. Kolokolftaev. - F~J- 1!1!~ Use Of GjL=4 Rsys for Studying -.~L* Pr0*433 Of D iffUSIOn 3. v.x. mosk-vichava. use of aatsearadlo- $COPY for Studying che Ry - Cs 0 a fluid Syste= I& 4. POI,--kln, Z-O., and N.A. ShaALrl_ Nothod of 'Tagged" Atoms R n:Gat'gatIng Water and-3fe-&~ Contact in Surracs Boll-,ng or & 16 'ay . ev, s. Determining the Specific Surface Area or ed' Atoms OW ors by the Sorp tjon Xethod With the Use or 20 635 Aroo-r~ I and Use of Radioactive anotop* 3 r udying Sulfate Corrosion or concrete 28 WSh -Zazronaklly~ and T-A Talkin Methods I. Tfifr- --F-A" -Ycl, for 12teralning t-h* Density and Moisture Cootent of Solls Wjtn to Aid or Radioactive E-1211onfi -33 8- P`OIO=cYA--1,G., and FLZ_jjqX==. Study or the Processes of Molar0r;rTranafer in BuIldIO& Materials by Means of (jammitradio. soopy 38 9- -UYr1YQY1Qh--1LA. I.Kh. Xhlybullln, and L. K. Xhcktaov. r67 _ Us* of AidloaCtlVe jactojej r-InVoi-AL-Igatting thj-Sj)j-U~wty-,f Salta in Wa ter Vapor at High Pressures 41 10. 010.mar, L S A Ya AntQSRY, And A.V. Suracy. Inyeati- XAtIOn -6-f er 'Xcs of Vapor of 185 abs. atm. With the Ald or Radioactive Isotopes 46 11 Dubmv8IY.Y,-A. Use of Redloactive js~Lppes fop On,jn th; -Vt-otl-En-6f the NJ' 952 "On Glass MA33 In QI&JA P4m"o Tanks . 12. _jtaqj-4rsakiZ, V.V_ Uao of naijoactiv. Taz- tha PlltFitldri of-?1uldz Throu,--j Porous jZ& ops 1, 57, 13. je_1M,.qnakx D.I., .0130top. )fth A'd A.Ya-1- Red- ode for Invoitijil iig-low Proceis-a or Fluids in a Porous Mc,&t.~ 62 14. Apzts,-A.A., 4rubtn. V.S. Kftalnakly, and L-1- Xors&k. .Inv*AZ&&"on of u1se Hiiii.4dYni^ic3 or 'a rnia-in tn& conr-.A~1- R6tor Of A Settling Centrifuge With tAn Aid of Radioactive jsot~p~, 6, 15. Volarovicho X.P_ KjV,_1;hurxyev, and &y4_Kjakov. Invest- J&At.,6jja-0r-Md-XOtIOn of W&t4eIrjL'P6&t Under lAborator7 an,-- Field Condition, With the got or Radioactive Isotopes T2 26. Arkb,-xsVAkIy-xx. Us* Or Radioactive Isotopes for rmvest- 19stLng SuAP*nbi*n* or River SLIt Ts 17. Y 303 1 k -J -I.. and A.S.,.MrAbin. Us* r x,4i,,Ltjve 150%opoa for Investigating the Mechanism of tho pr7in, , ro.cs. 85 YJ  KUDRYEVTSE-V, V. S. "The Distribution Function of Electrons in a Plasma Situated in a Magnetic Field," (Work carried out in 1956, pp. u4-12o). "The Physics of Plasmas; Problems of Controlled Thermonuclear Reactions." V01. III. 1958, published by Inst. Atomic Energy, Aced. Sci. USSR. resp. ed. M. A. Leontovich, editorial work V. 1. Kogan. Available In Library.  ,AUTHOR: Kuclryavtsev, V. SOV/56-34-6-24/51 TITLE: The Energy Diffusion of Fast Ions in an Equilibrium Plasma (Energeticheskaya diffuziya bystrykh ionov v raynovesnoy plazme) PERIODICAL., Zhurnal eksperimentallnoy i tooretichaskoy fiziki, 1958, Vol. 34, Nr 6, pp. 1558-1565 (USSR) ABSTRACT: The first part of this paper deals with the derivation of the kinetic equations. First the author gives the kinetic equation for a totally ionized plasma when there are no external fields. In the case investigated in this paper the distribution function of each type of particles is isotropic with respect to the velocity. A small number of ions with definite energy (with a spherically symmetrical distribution with respect to the direc- tions of the velocities) may be launched into a totally ionized equilibrium plasma. An expression is given for the particle flux in the velocity space. The kinetic equation for the launched ions has the form af 1 a (v2j). f denotes the distribution 7T 2 Ov v Card 1A function of the particles in the velocity space. Subsequently  SOY/56-34-6-24/51 The Energy Diffusion of Fast Ions in an Equilibrium Plasma the author passes over from f to the distribution function with respect to the energy. The equation for Q has the form 00 a Q with Qdx a-r ax 2x ax)) The second part of this paper deals with the solution of this equation. This paper has to find the time dependence of the distribution, especially for long time intervals and for energies greater than the energy xo of the monochromatic distribution. The final expression for the density Q(x,t) of the distribution with respect to the energy describes the distribution of the ions launched into the plasma with a sufficiently good approxi- mation. The author thanks A. B. Migdal who formulated the problem. There are 1 figure and 2 references, 2 of which are Soviet. ASSOCIATION: Akademiya nauk SSSR (AS of the USSR) SUBMITTED: January 2, 1958 Card 2 2  KORYAVTSEV, V.S. Theory of the motion of charged particles in a strong magnetic field in the presence of a strong transverse electric field, Dokl. AN SSSR 152 no.2:313-316 S 163. (MIRA 16:11) 1. Predstavleno akademikom M.A. Leontovichem.  KUDRYAWSEV,Y4~~,. Diffusion-adsorption activity of the carbonate rocks of the Upper Cretaceous (Crima),,Izv. vys. ucheb. zav.; neft' i gaz 8 no.3t 3-7 1654 OGRA 18:5) 1. Moskovskiy institut neftekhimicheskoy i gazovoy promyshlennosti im. akademika Gubkina.  LUFANOVA, N.P.; KUDRYAV'fSEV-,-V-.T. - ~ The formula of pumpellyite. Dokl. AN SSSR 141 no.6:14-~7-1460 ii 61. (14IRA 14:12) 1. Institut geologii rudnykh mestorozhdeniy, petrografii, mineral- ogii i geokhimii AN SSSR. (Pumpellyite)  LUPANOVA, IT.P.; KUDIIYAVTSEV, V.T. PU4611y-i--te of the Northern Caucasus. Izv. All SSSR. Sor.geol. 27 no.6:23-33 Ja 162. 041RA 15:5) 1. inBtitut goologii rudnykh meatorozhdenly, petrografli, mineraJ.ogii i geoViimii At, SSSR, Moskva. (Caucasus, Northern--Pumpellyite)  LUPANOITAV N.P.; KUDRYAV7SEV, V.T. Middle-Paleozoic alkali porphyrites in the Laba baoin (Northern Caucasus). Trudy IGEM no.M115-129 162. (KIRA 16t2) (Laba Valley-Porphyrites)  KUDRMTS-EV, If,- V, Peat Industry. The Chernoramlya transportation workers are preparing for the winter. Torf.prom. 29 No. 9, 1952. 9. Monthly List of Russian Accessions, Library of Congress, December 1952. OCLASSIFIED.  v. v. Kay 1948 Controls$ Xlectric- "Autcmtio-Contral-cf--KLectiic-Ratilfftance ?mnacespa V. V. Mm#7,amUovx L.-,M- Ioffej, L. P. Shvalev, 1. 1. Glushkoi; P. B. S. Popovp Plant IMMI Molotov, Ministry of Armamentp 1 p Prom axerget" No 5 Staff of-above -plant did mat allov shortage- of oleo- -contrals-to, Wevent Increased output. trio autmstl* Dds1ga~d-=&--1nstal1~d- ir-thermacouple-potentiometer type Osten, a~. circuit diagram of which Is reproduced. ~Suggsetlcnlv" avarded a fifth prize In All-UnIon  aMOLINIKOVA) R.L., kand.kh1m.nauk; KUDRYAVTSbV, V.V. Dustless passage of ore through permanent ore chutes. Bor'ba o oil* 5:178-186 162. (MDA 16:5) 1. Gosudaretvennyy institut po proyektirovaniyu predpriyatiy nikelevoy promyshlennosti. (Ore handling) (Mine dusts-Removal)  SD ~Pc4/ L 13365w63 EWP(J)ArS/EWt.6d')/9S W-z .52. JACOM10.11 URt APM3301 - AUTHORSt AttdrlanOVs NoA DOMOT, No Is I R-GjTlt~v- BI !4~ 7~- Kvaahainp Vo So -TITIA, production of d1sleatria-laminites with nom-alcabolia phanolformalde- byda resins, n0# 19630 20-31 TOPIO TAGSt laminate, pbanoltormajdabyde reaJAI pvatormoll oresolp polyo -Mathylans, ABSTRAML: Ibe scope of thlis study Lis to produce liquid phenolformaldehyda re atlas kthout the usevf alcohols which am to be uwjd In the.produation of 1=1aatess now motho4 for the preparation of liquid non-alcoholie pbonolformaldehyde resins in which a large portloh of formaldehyd6LIs replaced by paraformol has bean obtaftedi The ratio..of Intermediates is talart in such proportions that Zbe water from formal- JaLthe forMation-of -dehyde and froMLths.oondensation Wuaad the liquid resins This eliminates many steps from.tba process such as decantation or distillation$ I , the purification ;' top of -or--vaeuum drying by which tba excesa water im rsmoved a I to L Sinoe revwvlnq the undesirable by-produo there a" no loseen, the amount of Card   SHEREMETEVA, T.V.; BORISOVA, Z,V.; KUDRYAVTSEV, V.V. 11-T acids. Izv. All SSSR Otd.khim.nauk no.12:2237-2239 D '61. (MIRA 14:11) 1. Institut vysokomolekulyarnykh soyedineniy AN SSSR. (Maleic acid) (Citraconic acid) Synthesis of -trifluoro derivatives of maleic and citraconic  SHEREMETEVAP T.V.; GUSINSKAYA, V.A.,- KIJDRYAIITSEV, V,V, ~ -.111, 1. Symthesis of U-substituted diamides of succinic and attraconic acids. Izv. All =R Ser.khim. no.M1821-1823 0 163. NIRA 170) 1. Institut vysokomolekulyarnykh soyedineniy All SSSR.  KOFYANTST-71, V. V. k KVASMN, V-3-; Ua;STOY, H-L', RUMTAVTW" V.V.; RMTI Y.B.; TA- *'jI'.'U"-'~'t*khnicheski7 redaktor. RIM, B.M., redaktor; LARIOMY, [Now production techniques for laminated electric insulators] Noiraia tekhnologils, projavodetva sloistykh elaktrolzolistsion- n.rIch materialov. Moskva, Goo. energ. izd-vo, 1953. 51 P. (Illectric insulators and insulation) (KLRA 7:8)  wu Ah u NU ' , . J: 0. US, Tf . Skfo ' - b 4 d 6 ~~ O. ut o Ao Wkhm 100~ Abstri MD. 1 3 T gave laoth sedjor (W aWtsdad,of Texualte, i taw al T x ix (1) d a was vi a vo oWi-- tor cbaf ind * pa* 6tats'! DOXWC Oodac4thi-ot I the pukkga 43j, ptodukt) is - the paw Tht W40t bas it ioattly. thfdkef O=t,of rafA th~a 44: sbtta ladde - Ulm miuiW (55-M propeTt Tzxtolk~ tibldlhd I n4 It thIS d U ) M o aU e m : 14 beat-ftsistanct, *atfr-r*SWw=ci ' It pice .- Jnf-strogthi and-StImOh!"Ir, but wirforift P v ' &ica und The suitabillty ford 46AH the 2 matalals is similm 110 1 ~zJ', -T. MloutwtkA  NYIIVT5f--v, - ----- MRYAMMY, V. V. N maintaining the quality of varnished cambric In insulation and winding work. Tout. elektroprom. 27 no.10:65-67 0 156.(KLRA 10:9) 1. Zavod "Blectroizolit.n. (Alectric Insulators and Insulation)  LEBZW,I. Tuliy Ivanovich; )Rggj~~ ~Vlta ~~Vesillyevich, laureat Sta- iUskoy promi i;. PSHKOYS[AYA 0, M. re red. [We shell surpass the standards of'world technology] Prevzoidem obraztey mirovoi takhniki. Koskva, Hosk.rabochii, 196o. 98 p. (MIRA 14:4) 1. Direktor Khottkovokogo savoda "Blaktroizolit* (for Lebedev). 2,.Glavnyy inshener Khotlkovskogo mayoda *Blektroizolit" (for Xudryovtsev). (Khotlkovo (Moscow Provinae)--Blectric insulators and insulation) (Socialist competition)  BR%IBMG, Viktor Aleksandrovich; GAMAYMOV, Nikolay Ivanovich; ZVORYU-1, Aleksey Dmitriyovich;-'OR7YA~VnTSEMVp~!Vital~iT, Iv . EPSH jIqsilIYeyjah;-TZMOVSKIYp Yevgenivy Ivanovic ; EPSHTEYN, Tev Abramovich; SHIROKOVA, M.M., tekhn. red. [Mechanization of the manufacture of electrical insulating materials of winding inmLlationp and drying as well as saturating operational Mekhanizatsiia Proizvodstva elektro- izoliatsionnykh materialov, izoliatsionno-obmotochrqkh i sushillno-propitoohnykh rabot. By V.A.Bromberg i dr. Moskvay Gos. energAzd-Vo, 1961. 99 p. (MIM 15:2) (Electric insulators and insulation)  Card 1/1  Vinlz VEPP (WRPR/1701 )/T Pc-4/Pr_4/Pr-_-/ :3~C ACCESSION NR: APS007217 B/0286/65/000/003/0113/0113 AU1IIOF.t Pgah,!kbonov, A. A.' Beykako yj K. P.; Makharinnkiy, Ye. G.1 Spysloy _1~ _YA rencz, &...Lm. " Smirnov, A. A.% Hironov. VK.; KMdrX2YjUgy,_jA TITLM A method for manufacturing pipes and similar articles from laminated lplast~c / Glass 60, Ho. IL68169 I-------- a b ~_ SOURCM IDyulloten' izobreteniy i toyarnykh inakov, no, 3, 1965t 113 XOPIC TAGSs thermosetting plastic, glass fabric, laminated plastic, plastic tech- pology ADSTRACTt This Author's Certificate introduces a method for manufacturing pipes apd aWlar articles from lartInated plastics. The process consists of winding romel such material as realn-oaturated glass fabric on a mandrel and heating (e.g. with hot roller-~). Liquid thermosetting resins which do not contain volatile solvents are fed continuously to the mandrel. during the winding and heating proceni. This is done to make the completed article airtight. ASSOCIATIOdl none  AOC_ Wo AP6024364 SOURCE CODE: UJR/Q AUTHORs Kudryavtaev,# W V. 80/66/000/002/0066/0071 ORGS none TrrLE: Analysis of monitoring data on combinational relay-switching circuits on On buis of. solutions of txpiations of algebraic logic BOURCE: AN SM. Izvestlya. Tekbaicheskaya kibernetikal no. 2g 1966# 65-71 TOPIC TAGS: algebralc logic, switching circuit, test monitoring, equation theory ABSrRACT: Methods of solutions of systems of algebraic-logic equations serving to determipi the state (coicrect functioning, malfunction) of the contacts of a circuit according to its re- actions to an input effect are examined. Along with the known methods of solution based on the transfer-funation principle and on checking the reliability of the monitoring device, the author prop oses a new method whereby the determination of the states of the contacts of combinatio- - nal relay-"ltching circuits reduces to the solution of a system of equations of algebrato 1o& ~Wch are of independent significance to the theory of automata. With the aid of methods of solution of the general problem It Is possible to construct a contact circuit of any configuration. C-rd 1/2  NRs AP,5024364 k realizing a specified algebraic-logic function. Mathematically, the problem Is formulated as follows: Glvcm. the functions of algebraic log'c '(Nl' "2- -1n) and F(xl, X20 ... 0 xdt where x, X2 0 x. are Independent vartabl6o. Find: - the values of variables at which the equality x.) F(xl, x2, xn) f (x1' x2 is satisfied. This problem to a particular case of a more general problem consisting In the do- termination of the functions y1, y2, ..., ym at which the equality YM) F(xj, X29 P f (xlt x2 9 ... t Nut YIN Y29 xnP YIN Y2# 0 ym) (2) (,where x,, x2# *a.# xnare independent variables) becomes an Wentity. Eq. (1) may be solved with the mothods of solution of Eq. (2) on assuming that the variables x,N i2an dependat. The general solution of the pertinent system of equations can be compactly recorded by twhg the calculus of events; this also makes it possible to readily solve probabilistic problem of monitoring. For practical purposes it Is expedient to introduce the concept of the conjuwUve apd disjumOve variants of the general solution. Orig. art. has: 3 figures 9 formulm 66 CODE's 09t 12AWI SUBM DATE3 MAW# ORM REFs 002/ OTH REPt 003 f 2/2 -Ctlfd  ACC NRt AT6022759 SOURCE CODE.- UR/2649/65/000/224/0095/0102 AUTHOR: Kudryav-tsev, V, V.,' Remizovo 0. A,; Alekseyev, Yu. L. ORG: None~~ b TITLE: An experimental study of the tem erdture field of a melt during single crystal growing E/' SOURC . ~Moscow. Inatitut inzhenerov zheleznodorozlinogo transporta. Trudy no. 224# 1965, Voprosy slozhnogo teploobmana (Probleme of complex heat exchange), 95-102 TOPIC TAGS: single crystal growing, temperature measurement, crystallization, ture gradient ABSTRACT: The authors study the effect of the temperature field of a melt on the distribution of alloying admixtures in a crystal during single crystal growing by the Czochralski nethod. The temperature field of the melt in varied by using heating unit 'with various shapes, changing the location of the crucible with respect to the heatingi unit and varjing the parameters of pulling. The following pulling parameters were usee throughout thin study: need cryetal rotation 20, 30 and 60 rpm; crucible rotation 0, - 2, 5, 10 and 20 rpm; rate of need crystal raising 11 2 and 3 mm/min. The crystals verc~;; pulled in an argon atmosphere with a residual pressure of 0.11 gauge atmosphere. Chro- mel-alumel thermocouples were used for measuring the temperature field of the melt.  AT6022759 Temperature measurements were taken in several of the horizontal cross sections of the melt with a depth interval of 3-5 mm and under the crystallization front. Standard heating units were used as well as a aeries of experimental ones developed at the MIIT Laboratory. The standard crucible charges were 2500 and 3500 g. The single crystals pulled usually were 200-2hO mm. long and 30 mm in diameter. An analysis of the tempera ture fields of the melt shows that the axial component of the temperature gradient in the melt region under the crystal decreases as the rate of pulling is increased. Three types of heating units were studied: radial heating, bottom-radial heating and bottom heating. The results show that the procedures worked out for measuring the temperature field in a melt may be used to measure the temperature in any part of the melt during crystal pulling. It is also shown that the shape of the heater, its lo- cation with respect to the crucible, and pulling parameters have a significant effect on ingot size. Controlling the rate of rotation of the seed crystal and crucible is v effective means for improving the quality of single crystals~ The rate.of Beed crysts rotation has a. nignific~nt effect on the distribution of alloying admixtures between the liquid and solid phases Origs art. has: 4 figures. SUB CODE- 20/ SUB14 DATM none/ ORIG REFt 005/ M oF.-. oo4  . . . . . . . . . . . . . . . L 8127-66 EVITWIEWPWAVIA(c) REL XVW ACC NRs A.F5025021 SOURCE CODE: UR/Q286/65/000/016/0081/0081 q#,6 , 44, i:5, . - #4, v,;' AUTHORS: Koton,, M. M.; Kudryavtoov, V. Vi; Rudakov, A. P.; Basoonov, 14. 1. ORG: nono TITLE: Method for obtaining p2]Zimides', Class 39., No. 173921 Zannounced by the 41R~tute for High-Molecular Compounds. AN SSSR, (Institut vysokomolakulyarnykh Boyedinenly AN SSSR)_/ SOURCE: BrAlsten' izobreteniy i tovarrVkh znakov, no. 16, 1965, 81 TOPIC TAGS: poly1mide, diamine, polycondensation ABSTRACTt This Author Ce Irtificate presents a method for obtaining polyimides by the polycondemiation of aromatic diamines and the dianhydride of totracarbonic acid. To inereaso the variety of polyimides, the dianhydride of butanstetracarbonic-1.2,, 3)4 acid In used as the starting material. SUB CODE; OG/ SUBM DATE: 200ot64 nw card 1A UDC: 678.675.414.002.2  KUDRYAVTSEV. V.Ye. 1:~-IA-er-eating case of the intergrowth of fluorite and phenacite. Zap. Voes. min ob-va 87 no.6:686-690 158. (MIRA 32:3) .. i7luorite) (Phonaoite)  KUDRYAIITSEV, V.Ye. __ ... __-, Composition and age of the Baytayginskiy intrusive complex in northwestern Tuva. Inform.sbor. VSEGEI no.16:67-74 '59. (MIRA 15:3) (Tuva Autonomous Province--Rocks, Igneous)  KULRYAVTSU, V.Te.(Mookv,&) Frictionleso pumps Frirodit 19 no-7:112 Jl l6o. (Rut& 13:7) (Vacuum pumps)  KTJDRYOTSEV, Ya.B., kand.tekhn.nauk Liquid expenditure of hydraulic transformers as a function of the runner parameters. Ve.9t.TSNII MPS 22 no.6t28-31 163. (MIRA 16zlO)  ~ -KUDFdAVTSiWp Ya.B.v inzh. - I Characteristics of changes in the liquid consumption of the hydraulic torque converters Trudy 14IIT no&130-.170-179 160. (IMU 14:3) (Diesel locomotives-Hydraulic drive)  KUDR3%VTSEV, Ya.B., inzh. _-_ - I- II- - - ~. . I -'r:,_ I -,. Studying the blading nyoteme.of hydraulic torque transformers with a centrifupl turbine and cylindrical blades. Trudy MIN no.14lt69-100 161. (MIRA 15:2) (Diesel locomotives-Hydraulic drivo)  KUDRYATTSEV, Ya,,B., inzih__. Effect of the finite number of blades in the pumping wheels of hydraulic torque transformere. Trudy PUT no.141:101-107 161. (MIRA 15:2) (Turboi4chines-Fluid &vnamics) T ---  4WRIAM -Xu.13.- ~E~v 6 Study of the devia4on of a flov from the bladeo of the gate machanism of a hydraulic torque convertur. Trudy MIIT no-139:273-286 161. (14IRA 16:4) lo Moskovskiy institut inzhenerov zhele=odorozhnogo transporta. (Hydraulic machinery)  KUDRYAVTSEV, Ya.B., aspirant Studying the characteriBtice of hydraulic torque converterd regulated 17 the rotation of the blades. Trudy MIT P0.1503 103-121 162. IMM 16s2) (Oil hydraulic machinery-Testing) OF  KUDRYAVTSEV, Ya.B., kand. toklin. nauk Heat emission In a non transparent hydraulic torque converter during Ito joint work with tho diesel engine. Vest. TSNII MPS 24 no.2:29-32 165. OMIRA 1815)  i -7 7, I! Sz.,"V) I y BXR-MAX, P.; bD9:YAWS3CV, Te.; FRIDKAN. S. Double capac y al ~c y =~ middling purifier. Mak. elev. prom. 23 no,12: q I ~~ D 157. (KIRA 111..2) 1, Tokhnicheskiy otdal Xinisterstya khleboproduktov SSSR (for Bershak), 2. Hookovskly mollnikohnyy kombinat No.3. (for Kudryavtsev, Pridmn). (sieves)  KORYAVTSIIV. Ye.; ZOTIKOV, V. Increasing the life of flour sifter screens. Muk.-eley. prow. 23 rip.6:25-A 157. (KLU 100) 1. Moskovskiy mellnichnyy kombinat No.3. (sieves)  AiSIONICH, V., inzh"ner;QQW.MTR%1Je., inzhener. Introduction of baaters for cleanIng husks. Muk.-slev.prom. 23 no.3,.16-18 Mr. 157. (Mr.RA 10:5) 1. Mookovskiv melliatcbWy kombinat No. 3- (Grain milling)  V, L h6301-65_ Ewr(i) in(c) e" AOICIESSION IIRt AR5012225 UR/0058/65/000/003/DD13/DOIL3 SOUROZ: Rot. zh. Mike, Abe. 3DO1 31 AUTHORt YO.T.; V ftLtjM!L!~!.; Svj~14", .0.1 ~vniIskly, L.Nj Fayevilay,F.S.; Ch#rj!i9II%~VVPL- YTLB: Experimou%al determination of electronic oscillator otrongthe of diatomic molecules 71 OTTED BOURORt Tr. Typ. 1, 1964, 64-81 TOPIO TAGS: oscillator strength, electron oscillator, diatomic molecule, shook wave, OZYgO12, nitric oxide, cyan, electronto.opectrun TRANSLLTIOR: To determine the oscillator strengths of electronic transitions of diatomic molecules, an experimental method was dowel- oped, based on the measurement of the absorption of gas behind a ahock wave rot-looted from the end of a shook tube. By varying the velocity of the Incident shook ways and by calculating the state of the gas behind the shook ways, it i assible to determine the t orature ant the o9noontration that the molecules behind the refl:Md (~,,j 1/2  -,I, 463oi-65 AOCESSION HR: AR5012225 ~qhook wave.must have to.permit dettiAnation of the osoillato-r 6 atrangthe from the mosoured absorption. The theoretically obtained i tqmporature was monitored by two experimental methods. A method vao aloo developed for determining the oscillator strengths from the ctudy of the gau behind the shock wave; these strengths were deter- mined for the Sobumann-Runge band of ox7gon, the bets and gamma oyatems of Altric exideq the viol:% band system of 01, and the'04 Swan band*. Sn CODIs.: MP*,)i. nOW 00  ACCESSION NR: AR4040823 S/0058/64/000/005/DO26/DO26 SOURCE: Ref. zh. Fizilcm, Abs. 6D191 AUTHOR: Kudryavtsey,_,,_,Xq,,_.M.; Gippius, Ye, F.; Pechenov, A. N.; Sobolev, N. TITLE: Definition of matrix element of dipole moment of electron transition of violet systern of bands of cyanogen. 11. CITED SOURCE: Teplofiz. vy*sokikh temperatur, v. 1, no. 2, 190, 218-227 TOPIC, TAGS: matrix element, dipole moment, electron transition,' cyanogen, cyanoden band, radioscopy TRANSLA,riON: There is described the installation used for obtaining absorption spectrum of violet system of CN bands during radioscopy with a pulse source of a mixture of gases CO and N2. heated by a reflected shock wave to a tem- perature of 4000 - 60000K. This spectrum is used for measurement of rotary Card 1/2  ACCESSION NR: AR4040823 temperature of CN. Results of measurement of temperature of gas by two independent methodsZ-by absorption spectra and by generalized methods of conversion (cf. abstract No. 5 D1900coincide with the data of gas-dynamic calculation, Bibliography: 16 references. SUB CODE: NIP, OP ENCL: 00 Card 2/ 2  s/o5i/63/o14/co3/oO5/019 C039/9120 AUTHORSs Krindache N~-I. j&udrY&VtX*v _Ye.moo Sobolev, N.N.s Tunit skiy-, L, X& vind F^yzullov01F*S* TITLEs Determins-tion.of ;the electronic transition moments of the Schuffann-Runge-b4nd system in oxygen* I. PERIOD T-CA'.Li Optike,-i~ffpektroskopiyal v.l4*s_no.3v -1963* 351-361, TEXT:, A Methd&1a dove oped-for-detiermining the equAre..of matrix ~elements for electron -transit ions - oC-molecules based on a measuremeint--of-the absorptlon,in7 The _4ases-behin&shock waves. Schumann-Runge--absorpt-ion bonds for,oxygen--are obtained on a shock, tube - as ing- he lium ` as a-, Working Sax and, eq uipped.with apparatus for measuring temperature by the usual,wethod of rotation of spectral lines,- An this icase,.-by observing' -the resonance line of BA II (X Z 4554 An---ionization probe is used for measuring the ----incident shock waves. _The pulsed volocity.of-the-froat :of a, soarce and~ths'synchrohizing,clrcult are described in ,detail. -Spectra are recorded- on AOC-13 (DFS-13) and _KC-SS _Spqct rograi'he with %lose and with quartz optics* By p plotting the absorption age ~nst 'wave. number -4' for-th Card 1/2   --K1JDR-YAV?�T:'V YE 14 8/089/62/013/006/oig/027 41021B186 A UTUCIRS 1 0. T. and M. R. TITLE# Nauchnaya konforentelys Mookovskogo Inshenerno-fivicheskogo institute (Scientific Conference of the Moscow Engineering Physics InstitAts) 1962 PFRIOD'ICAL, Atcanays entrglyal T'.- 13, no. 6, 1962, 03 - 06 TEXTj' The annual conference took plea* in May 1962 with sore than 400 dolegstos participating. A review Is given of the@* lectures that ore assumed to be of interest for the readers of Atoanaya energiya. They are followinge A. 1. Leypunskiyo future of fast reactorel A. A. Vasillyev, d.. IS, of accelerators for suporhigh energies'l 1. ra. Ponersachuko analyli6ity, unitarity, an& asymptotic behavior of strong interactions at high anergleal A. B. MIgdslq ph~noasnologioal theory for the many-body Yu. D. FLY problital SLOkW deceleration of seltua-eaergy antiprotons in Yu. as& evekly, tbeorj of the Udesbauer offoctl M7tte%j a, Ya. A. Iosil I.. amanov, thegry of ionisOlon losses to sonhomogonsous aediuml Yu. B.. Ivenovo A. A. Rukhadseq.b-f conductivity of-suboritical plassal Card Ih,  5/089/62/01)/006/019/027 Nauohnaya konforontaiya... B102/B186 Ye. Ye. Lovotakty, A. A. Rukhadze, electromagnetic waves in nonhomogon~oue plaumal Yu. D. Kotov., 1. L. Roxentalt~ the origin of fast cosmic Muonel Yu. M. Ivanov, muon depolarizatLon in solidel V. 0. Varlemoyl Yu. M. Grashint, B. A. Dolgoshein, V. 0. Kirilloy-Ugryumov, V. 8-. Roganov, L. V. Samoylow, oapture by various nucloij V. S. Domidoy, V. 0. Kirilloy-Ugryumov, A. K. Ponosov, V. P. Protesoyl.F. M. Serg*,yevo acittering of x- meoons at 5 , 15 Rev in a propano bubble chamberl S. Ys. Nikitin, M. S. Aynutdinov, Ya. M. Selektor, S. U. Zombkovskiy, A. F. Grashin, muon production In X-p intoraotional B. A. Dolgosheing spark chambersi 0. 0. Volkov, V. ):. Lyspidevskiy, 1. M. Obodovskiyo study of operation of a convection ahanborl X. G. Finogenove production of square voltage pulses of high amplitud*sl 0. *. Alskoskov, problems of color visionj V. K. Lyapidevskly,l ralction .-between nuab or of receivers and number of independent oolorol