SCIENTIFIC ABSTRACT A.F. CHUDNOVSKIY - D.M. CHUDNOVSKIY

CHUI)NQV=ZTp,A,j&,t, prof.; ICM, A.P..,akadenik. red.;, GCLITSBIRG9 I.A.9 Wi.; TMISHO F.A.6 tokha.red.; IOWA. M.S.. takhn.red,  A. 1'. A i 1) Z, 0 5 - i M I ' Treasure Island Biblio_trraphical Repcrt BOOK Call "To.: QCM61.1,25 Au'sicrs: LAW11"M W"! D. L.'and.CHUDIMSMY, A. F. -SUU, -,F -THE.A OS HE3E Full Title: PIEfSICS -CF THE ACE LAYE? Transliterated Title: Fizika prizemnogo sloya,atmosfer-I Publishing Data Originating Agency:, None Publishing "louse: State Publishing [louse of Technical Theort-.tical Literature: 'o Date: 1949. ..No. pp.: N - Copies: 3, (M Fditorial Staff J. Editor: None Tech. Ed.: None Ed.-in-Chief: Committee.6f.the Academy Appraiser: None of Sciences, USSR Text Data Coverage:' This Monocraph covers aerodynamic and.thermodynamic processes in the surface layers of the atmosohere which rermlate life in the biosnhere. It includes the thermal balance and mechanical nrocesses in the soil; dynamic equations related to movements, transfer of heat and turbulence in.the surface layer of the atnosphere; questicns of energetics in turbulentcurrents;:wind-and the coefficient of turbulent viscosity in the surface layer;,temperature and water varor in the lk-7er. l MOW-i mel-lof1s, mathematical, T he book pregents a practical- application of Ir formulae, and inntruments to the study of the lower surface atmospheric layer. The results are of interest to agriculture and geophysics. As it appears from the large number of feferences, the book is acompilation 1/2  Cr,4--rd 2/2 AID 2-')5 1 Call- f',Ct'261.L25 Full Title: 11HYSIGS' C-F TU Z')'!J?r-ACZ LAYE-? OF "NE i;'CE,-L"ERE-' Text Data jUrticular int6rest, Coverage (cont.) from orioinal workd and seems to be of no In addition, the suthors state that this is the first attempt at preparing a monograph in this field, and there may be serious defects. Purpose: For the use of geophysicists, meteorologists, a-rometeorologists and students of these specialties. '16n Facilities. I e Ho. Russian and Slavic References: :54, some translated from Perman and En~glish by Russian authors Library of Congress  ~,308666 CHMNOVSKII',~A. F. AND KAGANOV, 11. A. Opredelehiye koefLitsienta tempersturoprorodnosti pochvy po dannym srochnykh izmereniy temperatury. Izvestiya Akad. nauk SSSR, Serj;ya geocrr. i            m   a in i ~~ --' ~~ _: - ." : 1. ~ - : ~--   US,qIJ/Physics - Condensation in soils FD-2415 Card 1/1 Pub- 153-19/21 Author Chudnovskiy, A. F. ~Title Mechanism and-role of intra-soil condensation Periodical Zhur. tekh. fiz. 25,149-157, Jan 1955 Abstract There exists a veryr,ich literature.devoted to the significance of con- densation within soil and to the evaluation of the specific weight of the this effect in the-general water balance of soil; here, by intra- soil condensation is meant the process governing the transfer of vapor within soil, which Is accomplished thanks to the presence In the soil of, temperature drop and in consequence of causes accompanying the occurrence of this drop, particularly the gradient of vapor tension with a material. The author finds various expressions for the vapor flow q passing through unit surface, diffusion D, total heat flux Q in soil, heat conductivity lambda of soil, etc. He concludes that intra-soil condensation can be evaluated on the basis of.a consideration of the.heat transferred by the vapor. Twenty-three references: e.g. A. V. Lykov, Izv. Vsesoyuzn. Teplotekhn. inst. (News of All-Union Heat Engineering Institftel, No 10, 1952. Institution: Submitted- June5, 1954 .7  V Category USSR/Electricity - Semiconductors G-3 Abs Jour Ref Zhur MAXa, No l.. 195T No 1557 Author Chernyakova, M.As, Chudnovskiy, A.F. Title New Method of Meas`Ur~~~~aracteristics of Semiconductors Orig Fdb Zh. tekhn. fiziki, 1955,~25, No 6, 1013-1018 Abstract A new method is.proposed for measuring the thermal characteristics of seml-~ conductors. The method is based on the use of the time dependence,of the body temperature during cooling or heating and on the connection between the speed of temperature chwp and the temperature conductivity. The temperature dependence of the.blqctric conductivity is also used. Card    VON 441 so 20 Jul -,P--U0lj$:uj 3 A a w blel! 0:1 gig a 03 a 1 10 I US Oqj:fi :3 m0 J4. so I A! A a, liz WAS;  v 2 ry f I r~l VERSHININ, Petr Vasillyevich; HELINIKOVA, Mariya Konotantinovna; HICHURIN, Boris Nikolayevich; MOMMOV, Boris Sergeyevich; POTASOV, Nikolay Petrovich; CHUIZIOTSW,,-,Abr&mVI.Uppovich, prof.-. ICM. A.F., akademik, C, lmm. .~sI:'e-Wckft6t.nauk, red.; CUMA, L.1.9 red.;-PMOSKATA, R.G., telchn.red. rprinciples of.agricultural physical Onnovy agrofisiki. Koakya, Gos.izd-vo fisiko-imatem.lit-4y. 1959. 903 p. (MIRA 13:2) (Agricultural physics)  I R Al- jig -00 7j !H*  SOILSKOV. B*S., doktor takhu.nauk, prof.; VOROBIYEVA, T.M.; kand.tekhn. sank; CHUDBDVSKIT A,1P. doktor fis.-mat.nauk, prof.; KAGANOT, -ma iKuk,., R"iev or i.7.Tolshlni A.S.Kasperovich, and A.G.Shashkov's book 06amicooductor thermistors.." Insh.-fiz.zhur. 'no.1:124-126 J& 1600' MRA 13:4) (Thermistors) '(Waskin,- Lip.)    CHMOVSKIT, A.F.  8b448 V181/60/002/011/037/042 :z 7,6 /03j~ lo,Y3 IiSf BoO6/Bo6o AUTHORs ChUdn_Q_v__ekiYG_-A.v_F.. TITLE:- -,.Some Variants oflonstationary Methods of Measuring the 'Thermal -Conduetivity of Semiconductors PERIODICALsl: Fizika -tverdogo-tela, 1960,,Vol. 2,No. 11, pp. 2938-2944 TEXT: - This article deals-with'the difficulties encountered when determift - thermal.c9nductivity coefficient by the most frequently-used stationary methods. Some new varia_nts,~aresuggested which are based on the analysis of the temperature field in-the.specimen concerned under non.stationary conditions-The stationary methods are first discussed and divided into fcur variants: 1) Direct detection of-the thermal conductivity coefficient from a-measurement of,the temperature gradient and thermocuirent through the specimen; 2) comparative measurement of specimen and A standard,; without thermocurrent determination; 3) determination'by compensation methods according to Amirkhanov et al, and 4) determination by methods according to G. N. Dullnev. The nonstationary methods are discussed in greater detail starting from the methods of determining the thermal Card 1/3  86448 Some Variants of Nonstationary Methods o, f S/161/60/002/011/037/942 Measuring the Thermal Conductivity of B006/bO60 Semiconductors diffusivity-coefficient k.accordi.ng to.~Angstrdm and V. P. Zhuze and A. R. Regell. The author's own method of determining the k characteristics.. is then described. Thie,method is published in Ref. 27 and can be applied for a small contact resistance and whenresistivity is a linear function of T (which.holds. true for a small temperature range only); a micro- calorimeter method by Kondratlyev is made use of in this connection. Another method offered by the author for the k measureafent on thin semi- conductor plates is based on the problem of nonstationary thermal Icon-, ductivity in a complex system (standard f semiconductor plate). A formula is written for k. Referenceis also made to a method offered by A.V.Ioffe and A. F., Ioffe in 1952 andAmproved:several times over the years* This method allo*s,investigating the relationship of A with electricalt mechanical,'pt-Tuctuial, and other semiconductor properties. Another problem discussed is the determination of A by measurement of the cooling rate which in its-turn can be determined from the change of the thermo-emf on the specimen boundary in time. The experimental setup is schematically illustrated for this,method,-and examples determination of molten .quartz and an intermetallic compound) are given to show the way of Card-2/3  86448     89931 S/17 61/004/003/010/013 BI 17YB209 .2z1, 76oo (lo 113,,, PST" AUTHORS: Kaganovp M. A., Lisker, I. S.,.,Sh n~vqkiy A. V. ~d ,TITLE: A method of rapidly determining the heat conductivity of 'semiconduoting,materials PERIODICAL: Inzhenerno-fizicheskiy zhurnal, v- 4, no. 3, 1961, lio-112 TEXT: The authors suggest an improved version of the method developed by A. V. Ioffe :and A.,F. loffe ibr determining the, heat conductivity of semiaon- ductors withiii.a narrow range..of temperatures near room temperature (10.- '15 0C). The .test device conaists,of.two .co.pper blocks, between which the. specimen is placed. Inorder to determine the heat conductivity,. one has-to adjust the temperature gradient at the-speoimen, &T = T 2 - T1, and the tem- perature variati_on'with:,,time9 T-- the upper block by means of two indivi- 21 of dual diTferential.thermccoup4s. The authors, suggest to determine the heat conduotivity-of the specimen.fr*om_th*e- rate-of cooling of the upper block. It is evident-that the temperature.dibp over the specimen varies according to the same law as does the temperature of the upper block. This may be Card 110  89931 61/004/003/010/013 A method of rapidly BI 17YB209 concluded from the fact-that the rate of cooling of all parts of the system is equal under normal conditions. The rate of cooling of many semic,ondue-, tive materials may be found from the graph thermo-electromotive force at the boundary of the-specimen versus time in semilogarithmio co-ordinates. The heat conduction coefficient,X as.determined from the function lnaT = f(r) was. 0-31 + 0 02) - 1o-3 oal/om - see. deg for molten quartz (Fig. 2, curve 3). Accor-dinj to published data, it amount6 to 3.33 - 10-3 cal/cm - sec. 0 deg at 20 C. The heat.conduction coefficient of Bi Te ' Sb Te I as peas- 2 3 2 3 ured by means of a differential thermocouple,-was 4-48 . 1o-3 kcal/cm 0 see. deg, and determination of,by a measurement of the thermo-electromotive force yielded 4-73,.* 1o-3 koal/cm sec.- deg (Fig. 21 curves 1 and 2). The some- what le.sser-inclination-.of ourve-(1) as compared to curve (2) may be explain- ed by an additional thermal resistance-whidh is due to a thin mica pl4Lte between the lower block an d the specimen* An insulating intermediate layer is necessary for theelimination-of the shunting effect of the specimpn and its thermo-electromotive force upon the indications of the thermocouple. The suggested version.of the method by A. V. Ioffe and A. F. Ioffe offers the advantage that the entire curve of temperature drop may be used in the Card 2/*3    PHASE-I BOOK EXPLOITATION SOV16210 Chudnovskiy,, Abram Filippovich Teplofizi6hebkiye~kharakteriatiki-:disperonykh materialov (thermo- physical Characteristics of.Dii0ersed Materials). Moscow, Fizmatgiz,, 1962. 456 p.. 6doo copies printed. Ed..: L. 1. Orlova; Tech. Ed A* A. Iaik I yano*. 'PUAPOSE: This book Is Intended as a reference.mahual for engineer- ing:calculations in the~fleldsof thermophysics, thermal power engineering.,-structur&l,phyiici, etc. COVERAGE: The term "thermophysical characteristiess" as used bj. the author, Includes the. thermal:pArameters characterizing the behavior of*the material In the.process of heat exchange. The term "dispersed materials" -covers two groups of nonpatalllc-~ms_ terials: 1) technically Important materials of granular, fibrous,, and cellular structure'in a I oose or compact state.(e.s.p agrbleo,' concr~ete, cork plates., coal,, slag., coke dust, ~sawdust,, flax fibers.: fibrous asbestos, wood, wool, paper, leather, soil, groundj, m1n1ng minerals, ice, frozen soil, etc.) and 2) solid nonmetallic mate- rials (e.g., semiconductors, dielectric materials, ceramics, etc.) Card 1/#Z  Thermophysical Chiracteristice (Cont-.-) S0716110. Regularity patterns.in chaMeal-6f.these.characteriatica'of dispersed materials-and the depOndence:of these changen on the properties and strUcture.of the material are-~preseftted. Methods for determinizig the'thermophysical characteristics of the basic groups,of dispersed'materials.are given. The appraisal of their thermophysical parameters,, the techniqupe us'ed to measure the.se.par~ametern for the most important engj- neering materials, and the conditions, accuracy, and results' .of the measurements are pres'efited. The author thanka.-A.'V. Lykov, Academician of the Belorussian Academy of-Sciences, for his useful.and Important remarks. Thereare782 refer-           ACCESSION NR: ~AT4037535 S/2563/~3/000/224/0203/0216 AUTHOR: Chudnovskiyg A.F.; Babanov, A.A.; Kaganov, N.A.; Lazarev, A.I.; Chernyakovd-,X-M-.------__.,. 1, J.ITLE: Equipment for measuring the heat capacity and thermal conductivity of metals at high temperaturemb and data for some heat resistant alloys SOURCE: Leningrad, Politekhntcheakiy inatitut. Trudy*, no. 224, 1963. ut.'~~ eyny*ye svoystva zharoprochny*kh splavov (Castability of-heat-resistant alloys),. -216 A 03 2 TOPIC'TAGS: castability, he at res istant alloyIiron based alloy, nicke 1. based alloy, Nichrome alloy, austenitic steel, cast steel, high alloy steel, alloy composition, cast alloy steel, alloy No.3, alloy Khl, alloy IW2, alloy No. 60 steel IOKhSND, steel l5KhSWD, steel 65 G,,' steel lXhl8N9, transformer steel, alloy heat capacity, alloy thermal conductivity hollow sphere measuring-pro- cedure, alpha calorimeter measuring procedure, heat capacity measurements heat conductivity measurement ABSTRACT: Special equipment .(see Fig. 1 in the Enclocure) was designed and can- I structed to measure the heat capacity and thermal, conductivity of matalsat,  'ACCESSION NR: AT4037.535. temperatures up to 1000C and to obtain cuFves for the dependence of these para- I meters on temperature. The hollow sphere procedure was used to measure thermal - conductivity, while heat capacity was determined by means of a technique involv- ing two samples,.one of which acts as a calorimeter and the other as a so-called 11alpha calorimeter". Metals teste d included a.number of heat resistant alloys _A (see Nekhendzi, Yu. A., p..9-23, this same book for compositions) and other cast alloy steels.-The results indicate that the specific heats-coincide.closely at similar temperatures for.alloys of widely~varying composition. Sharp peaks in the gamma to alpha conversion range were noted for 1OKhSND, ISKhSND and 65 G.~ Similar peaks, but at varyingtemperatures, were noted for ferritic steels with.` 5% Si, steel lKhl8N9 and.heat'resist'ant alloys not subject to such conversions. Thermal conductivity values ranged.from about 55-65 callm-degreas at 100C to about 25-35 at 800C, except for 65 G a bout 42 at 200C to about 25 at 800C) and alloy No. 3 (about 10 at 150C.to about 5 at 850C). Orig.,art. has: 12 graph and 6 formulas* ._J, ASSOCTATION., Leningradakiy politekhnicheakLy institut im. Mol. Kalinina (Leningrad ?6iytechnical Institute), *,cc -2/4 rd J   AT4037535 EIqCWSURE: 01 I Overall view of the measur-l-,'! ing equipment. -.vacuum furnace 2 fore-pump PVN-20 3 - diffusion oil pump IR440A 4 - scales 5 - hinged , Zvi leaf bench 6 - potentiometer r .9- PMI 7 - clock.with timer 090 8 - pump, heater, transformer and other switches 9 vacuum age dial window 10 rotating 9 may .hoist 11 - upper frame.plate 0 2 - adjustable cock 13 transformer (127/12 v), two-~: -parallel wired auto transfor-, mers LATR-I, 'thermocouple vacuum gage VT-2 14 fuse box- card 4/4  5/18 63/005/001/064/064 V.04YB186 AUTHORS# Mogilevskiyj K, M. and4ta~~~ TITLE: Method Qf observing.solid-melt interface movement under:thi -action ~f direot 'current PERIODICAL: 366-367' Fizika tverdogo tela v- 5, no. 1, '1963, TEXT: A. F. -Ioffe!s method-(ZhTF, 26,1 478,11956) of observing the displacement of the solid liquid interface that takes place under the action of. d-mo'by'liberation of-the'Peltier heat is not,easy-to apply as thii displacement velocity isdifficult to measure. . The.boundary movemen, however, can be observed by -electrical probes owing to the jumplike changes. in resistivi ty'at the boundary between the two phases. The following equation hol ds for the resistivity of the, melt-oolid system in a tube having the diameter Q: R -Q- 3, A (Q d' id/6,, w her u li o solid 1 qui a I , q and Qliquid are the resistivities of the-liquid and solid phases, solid 1 is the pr sthe Iength.of the-solid phase. The obe spacing,. 1 olid i 0 , S bard 1/~ 2    NERPIN, S.V.: red.; MELINIKOVA, M.K.., red.; _CgLDN2VSUI red.; REVUT, I.B., red.; STEPANOV L.W.., red.; POWN, N.P.,red, Nollection of papers on study methods in the field of soil pbysics] Sbornik:rabot po.metodike issledervanii v oblasti fiziki pochv, Leningrad., Agrofizicheskii nauchno- issl. in-41 1964. 320 p. (MMA 17:12) 1. Soveshebaniye po koordinatsii i metodike nauc"bnc- issledovatellskikh rabot v oblasti fiziki pochv, Leningrad. 2. Agrofizicheskiy nauchno-issledovatellskiy institut, Leningrad (forall except Nerpin).  . 4,i,VLJi,V V "I".L ) J~. V .  1. : .'- , . ~ . . I I I I .-, .- , - - -, . -- -, - 1, - ~,-, - . - - - , - , . - : - - - ~ - - ., - somm -M  _-ET' -65 947 (1 dyl'EP.A-( s I -2/-rTF (n) _3L, 5 /A .-.011enshtok, Yu. L.i Chudnovskiv, A. F. TITLE: Application of integral sirigle, parameter method to solution of the heat c_o-,Auc'_jy_._V problem far a medium with variable thermophysical characteristIcs I SOURCEt Inziblenerno-zfiz~ic~itiaki"'ihtir~ no. Ili.1964, 99-102 TOPIC TAOS: heeLt conduction, heat,-equation, differential equat Sion, therm-a-1 carx- ductivity 'h~ authors give approxiiasate solutions to C(z, n (Z' 1) 01 j, L by simplifying the conduction process to canaist of two Darts: the first as a Drocess 'or establishing the temperature fie'd, aad the sec-~,nd as a :)_r quasi-steady state proces3. An exa=~e :.n wn-_4ah -1he o., _Aductivity is the sole zionconstant coefficient is given. Yhe aij~hors ad-rise !Dethod for boundary conditions of the firs, ypes. tue fourth just as amenable to more preoise solution. Orig. art. bLaa: formu.-Jas. AS50CIATION: Agrofizicheakiy institut, g. Leningrad (Agrophysics Institute) Card 1/2 ...    L 2A2141145 EWT(I)/EPA(s)-2/EPF(n)-Z/FWG(v)/F.PR/E'YIA(l) Pe-5/pe-k/pt-10/ U-4 r.SD/SSD/AFWL/AEDC(a)/ASD(a)-5/AS(mp)-2/ASD(p)-3/FZD(t) WW ACCESSION MR: AP5002026 S/0170/64/000/012/0025/0031,- A:LTHOiSs k9ogil2ysLdZ, B. .; Chuftoyskiyp A. F. Mlai Host conduction mewurements in Bemiconduotors by the tradsierst probe method SOMI CE: - Inshenemo-fizicheakiy zhumalp no. 12, 196-4, 23-31 TOPIC TAGS; heat sonduction, transient heat transfer, semiconductor, Fourier eq&tlon,-thermal conduotivity ABSTTI~VCTT i The known method or measuring thermal conduction with a constant-power -y'-Lndrical probe was studied analytically in great detail to evaluate its limita- ti~,ns 1when. applied,to seniconduotora'-st-M& te#eratures. The heater in the probe': rras inserted in an insulated casing carrying thermocouples. The probe and the :,q,-cimea vere of finite lengths, and the test material was placed in a container of finite size, All these factore were studied by integrating the Fourier conduction equation in qy1indrical coordinates. The calculations show that errors in measuring " -~an be at-tributed to* the heat capacity of the heater and the thazmal cb-ct-racter- !-zt,-Te --)-' the 4-n-aul-ator; the length of the t4Rst specimen-, and the th-cImeaa of the materir-1. A transient version of the coaxial aY.!L=,.de= prob.-- Method is 6-cvq,;-,sted. Fr= the solution of the tremient Fourier oonduction eq4aation it in C-ord 1/3  L 21323-65 ~="ESSIOII MR- AP5002026 Gho%.r. that heat leakage by this method is less than 5% within the measurement time 'Lie schematic of the probe is given in Fig. I on the Eholosure. In the teuperature range 20-800C (Including, the transitic~n to a lijuid state) the 1-hermal CCO=Uotivities of semi melting (ihn, BiTa Z::.Sb), and the conductivities of aemicemductors which retain their properties V (S. 'Se, V 0 1 were obtained by this transient method, cad were compared with other 2 5A - axi--~irxg data. For ;7,- ;> 4 Volt/(m- deqrees), the error lgy within the li-mit43 � 15 azA for 4 vo-lt/(m- degree) the error was less thm i W~ Orig. art. L ; 16 equations and 2 figureo. ~LSSOCIATION: Agrofizicheskiy nauohno-issledovatallakiT institut g. Leningrad (Soienti-fic Research Institute of Agcicul Physics)- saii,i~Tu) s 22.Tui6,A &-NCLt 01 SUB GS.-I'D NR REP SOV: C05 !D~I- - 006 C"-Q 2/3  21323--5 dH 0-i A25 026 002 F-7 Probe schemat3-,-, cylindrical prnba! 2 0entering --Oyer; 4 Card 3/3       V -.3 K I I- AA,1, AUTHW1 TITLik F&UMIOAL: ABSTRACT: Card 1/2 Kaynarekiy, I.$., Pindrik,'B.Ze., Bo~dnm. S.S., 1+12-1/9 Sidorenko, Yu.P. , Chodnovskly, A.M. Production (PrOiSvQd4'tVO)1- Thi 0 rginization, or Dines Chr=dto Pro- duction (Organizatelyt Proizvocletva. dinasokhromita) Ogneuporyo 1957- Nr 12. pp. 529-533 (USSR) Before current production Was organized a set of test samples =a put together, the composition and method of production of which is.de- scribed in detail. The mwm&terialwas aried in a tunnel.drying PlAnt and then pressed. The.dinan obrwdte me burnt in gas chamber Wns according to the,regime for Martin dines at 1425-14450. The results of sorting out showed that dines chromite can be burnt according to the regime of Martin dinas*- Furthermore, the chemical camp onition,- the porosity* the pressure- and breaking atrength, refraatorineent permeability to gas, heat conductivity, and the specifte heat are given. In table I a comparison is drawn between dines thromite and dines with reapeat to slag erosion. The illustration show the. aurm of heat expansion of dines chromite at various temperatures. Purowr results of microscopical investigations of the structure axV given. From all results mentioned above it may be seen tbat, with respect to Its properties, dines chrcmite is very similar to dinse, but that  Production. The Organization of Pinas Chiadto Production 131-12-1/9 it in distinguished by a greater resistance against 31ag at imoder- ate tuiperatures.-Por current industrial production the technolog- ical process ms precisely described, and the beat working conditions wore prmided, whioh are described in detail. Table 2 shows the burning teWemtures. The physical-cerwAcal properties of dinas chrmite are shown in table 3. The results obtained by the investi- S&tion of three complete sets of current production may be seen from table 4. In conclusion it is said that the production of din" chromite presents no difficulties " requires no additional equip- meat: it can be carried out in any ainas plant. There are I figure, 4 tables, and 2 Slavic references. ASSOCIATION: Khae kov Institute for Refmotories (Khar' kovskiy inatitut onneuncrov) The Dinam Factorv imeni Dzerzhinak:Lv (Dinasovyy    7) /-f- 'r~' PHASE I BOOK EXPLOITATION SOV/6209 Akhmechet, Leonid Samoylovich, Leonid Vladimirovich Vayser, and Arkadiy Romanovich Chudnovskiy, Primeneniye plasticheskikh,.mass v tekhnolbgicheakoy osnastke (The Use, of Plastics in Engineering E Iquipment) Moscow, Mashgiz, 1962. 155 p. 10,5oq- copies printed, Reviewer: L. S. Pilipenko, Engine- er; Ed. A. 1. Bykovskiy, Engineer; T.ech,-. Ed. : M. S. Gornostaypollskaya; Chief Ed. (Southern Division, Mashgiz): V., K. Serdyuk, Engineer, PURPOSE: This book is intended for technical personnel in machine plants engaged in the design and manufacture of engineering equipment. COVERAGE: The book deals with the use of plastics in the manufacture of engineering equipment, such as molds, dies, fixtures, and tools. Sugges- tions -are made onhow to design, manufacture, and use ith e- pl*mstic Card 1/4  The Use of Plastics, (ContJ SOV/6209 equipment. -The properties and application of the more common plastic compositions are described and listed In an appendix. The authors th.*k Z. Z. Trakhtenberg, Engineer, There are 94 references, all Soviet. TABLE OF CONTENTS: 3 Foreword Ch. I. Use of Plastics in.the Manufacture of Engineering Equipment .4 Ch. 119-/1 Types of'Plastics Used in Engineering, Equipment; Com- ponents and Manufacture 7 Ch. III. Antisticking Coatings Ch. IV. Methods of Manufacturing Equipment Elements From Plastics 44 Card 2/4  The Use of Plastics (Cont.) SOV/6209 Ch. V. Plastic.Casting Accessories 47: Ch._ VI.__ Plastic ForgingAcceesories 7. 71 Ch... VIL Use of Plastics in Manufacturing Machine-Tool Fixtures 96 Ch. VIII . Use of Plastics in the Manufacture of Tools and in the Inilpection of Dies and Molds 110 ,~h. IX. Use of Plastics in Abrasive Tools 113 Ch. X. Use of Plastics in Molds. for Casting Plastic Parts 117 Ch. X1. Use of Plastics in Electroplating 119 ~Ch., XU. Use of Bonding Ageq!s, in the Manufacture of Engineering Equipment 122 Card 3 A          L 5 322-65-6 EPF(c)/EPRI-EWG(~v)/EViP(,JI/EWTim)/-T,--- -ft6.fe ACCESSION 11M.- AP5006562 0 3/004i/oo43 0 i9 AUTHOR: Graboy, L. P.; Lenskaya, L. P.; Chudnovskiy, A. R. TITLE: Deteroination of the thermal conductivity of KraDhite-filled plasticli based on epov resins SOURCE: Plasticheakiye messy, no. 3, -1965, Ul-43 TOPIC TAGS: graphite filled plastic, epoxy r!sin, graphite, injection molding, AMTRAM- -A--n'-e-v---m-ateritil-bai~r~te,6iioe*eloped fbf'maklfig~-: m-'o-lds-'- for Anjection molding of plastics such as caproh-or 1~~yetbylene. The material consists of 100L parts by weight of thermosetting 9-12061!lepoxy resin, B parts oil' polyethylene polyamine (curing agent), anA 100-200 parts of electrode graphite (fil.ler). The n mate I a ri -1 exhibits high thermal conductivity wid high heat resistance. The effect of tenmerature from 45.7 to 228.6c on the thermn-1 conductivity of the new material was studied by a method developed by 'A. A. Sem-enov. For-mular, are given for c&1- gi-T- in the form culation of the thermal conductivity. FeSu_ltj of the slutr. -af lableriu-444 -qat~,th + -het-h-rmal --condue-.ivity of -raphite-filled plastici; vith. a graphite'. content incre"49- 4ith'the temperatu-ie of the t i Card 1/2-  L 32265-65 FACCEESGION rR. 7: i . Ap5oo656z., -,-7 77r, Z' Hsq&~ ti4atment- st-abili therma.1-con-ductivity' so-- h specimen d at room temperature. The nev materiid exhibits lasting heat resistancel maintaine and strength at temperatwes up to 300C. In viev of their simple production tech- nology, the use of molds made with the nev material is reco nded by the avchors. i Orig. art. han: 2 figures and 2 tables. ~Boj ASSOCIATION: none SUBIUMD: 00 NO REF SOV, 001 ENCL: 00 SUB CODE! MT     ~ - -: . -. . " -1, - -- o ---,      - - - CMNOVSKIY, DX. - ---- - - - - "-v - , - Basic problems in the econozV of .production of prestressed reinforced -.-nAv-m*ah' 11~v-' "nw MnMIr q* iMn*Py0'%-IA: M IQq- "UM -TIPqKI -I  KAMRDV, S.P.;--CHUDNOVSKIY D.M. Some results of and-prospects for the expansion of the precast reinforced concrete induetr7 in Moscow. Gor..kh02. Moak. 32 no.9:1-4- S 158. (min 11:9) I.Nachallnik Glavaossh elezobetona (for Mayorov). 2.Nachaltnik ,planovo-ekonomichookogo We la Glavzoazhelazobstona (for Chudnovskir).. oscow~-~recast concrete construction) (M   - - --- - - --- - -- 1 -0