SCIENTIFIC ABSTRACT TARNOVSKIY, I.YA. - TARNOWSKI, M.

TARNOVSKIYJ. V.I.; PO7DEYEV, A.A.; TATMOVSKIY, I.Y.a. Considering the hardening in calculating the metal pressure on the rolls during sheet rolling. Izv. vys. ucheb. zav.; chern. met. 7 no.10:103-111 164. (MIRA 17:11) 1. Urallskiy politekhnicheskiy institut.  KOLMOGOROV, VA.; TARNOVSKIY, I.Ya.; YERIKLINTSEV, V.V.; LEVANOV, A.N. Stressed state during the upoefting of a thick strip, Rqqrt No.2. Izv. vys, ucheb. zav.; chern. met. 7 no.1103-99 164. (MIRA 17:12) 1. Urallskiy politekhnichaskiy institut i Urallskiy nauchno- issledovatellskiy institut chernykh metallov.  TAIUIOVSKIY, 1. Ya.; KOU40GOROV, V.L.; R11-24. E.R.; WWRIKOV., G.A. Variation method of calculating the stalA- of sttr-ass during rolling. Irv. N-ys. unheb. zav.; chern. met. 7 no.12:78-87 164 (141RA 18:1) 1. Ural'skiy politeklmicheskiy institut.  TATINSElY, T, Ihe Physi--al nature ~tl' tr~,:-.3or -7 0 ", I " plastiAf~. IX7. vyzi* u~,aobo 7av,..; 7han. rurt. 7 riia.j~-.,Li I ~V. (MURU l8al) 1. Ilrallskly Folitek~unicho,3yiy  1y KAYBICHEVA, M,N,,,* ~~015KIY ~G.A.; GILEV, Yu P.; BORNOVALOV, M.A.; SHATALOV, M.I.; LANDEP. Ideceased]; 8YUPKIN., JX~ N.I.; BUJSHEV, Yu. A. Temperature conditions for the resistance of the lining of large capacity electric furnaces at the Chelyabinsk Metallur- gical Plant. Stall 23 (i.e. 24] no-4:324-328 Ap 164. (MIRA 17s8) 1. Vostochnyy institut ogneuporov i Chelyabinskiy metallurgi- cheskiy zavod.  ACCESSION HR: A?4023080 S/0251/64/033/002/0363/0389 AUTHORS.- T4rnQvokjyj_1. Ya#; Khasin., 0. A.; baakashvili, V. S. TITLEt Plasticity of some high alloy stools and alloys at high temperature SOURCE: AN OrugSSR*~ Soobehohaniya) ve 33j not 2,) 1964) 383-389 :TOPIC TAGS: steels high-alloy steel, stainless steel, plasticity,, temperature effect on plastioity, OKh23YU5 ferrite stool, 06WON1006 austenite steel, BI602 heat-resistant alloy,, Ni alloy., E1347Sh high-spood stool, B1961 chromiunt stool, lioat-resistant steel., E1474 chromiura stainless steel, Ni-MA steel., structure., phase transformation ABSTRACT: Seven types of high-alloy steels and alloys were studied by the standard tension test and impact bending test (at high'temperatura) in oxder to determine their plasticity. The materials tested were: O8Kh2ON1OG6 austenite steel, E1961 chromium heat-resistant steel, E1474 chroraium,stainless steel, 5Kh)4SV4DT heavy duty steel, E1347Sh high-speed steels E:1602 heatt-resistant alloy,, and OSh23Yu5 ferrite alloy. The chemical composition of these metals was chosen in such a way .that both the comparatively homogeneous and the two-phase stool structures were Card 1/2  AJOCESSION NRt AP4023080 represented. 'Samples were heated in two wayst 1) they were brought to and hold at a befor '* the testing temperature for 10 minute o'being tested; 2) they were heated 1200C and held at that temperature for 10 minutes., and were then cooled in the oven to the testing temperature, The article presents the relative advantages and disadvantages of the two testing techniques, 'The authors iniicate a preference for the second procedure which gives more accurate results when applied to the two-phase metals. 'In the case of homogeneous metals both te3ting procedures .produced similar results. Orig. art. has: 2 tables and 5 figures. ASSOCIATION: Akademiya nauk Gruzinskoy SSR)Institut metalltu~gii., Tbilisi (Acadenq of Sciences, Georgian MR., Institute of Ketallurgy) SUBMITTED: 22jan63 DATF. AcQ: 3DApr64 ENCL: 00 ~SUB CODE: NL NO REF SOV: 006 OTIER: 000 Card 2/2  ~ ~v E. "J"! .1 -~ fljt ;_.j P ~--, 0111-1 R I I I  1 A C7 3 V 0 RN g- g 'NA M Mt  KHAYKIN, B.Ye.; TAT,-UICJVS,KIY, I.Ya. Power criterion of resistance in the theory of plastic working of metals. Izv. vys. ucheb. zav.; chern. met. 8 no.2:77-80 165. (MIRA 18:2) 1. Ural'skiy politekhnicheskiy institut.  TARNOVSKIY, I.Ya.; KOI240GOROV, V.L.; YERIKLINTSEV, V.V. Methodof investigating a stressed and defozmLed state by the simultaneous application of the Lagrange &nd Castigliano principles. Izv.vys.ucheb.zav.; chern. met. 8 no.4:107-111 165. (MIRA 18:4) 1. Urallakiy pol-itekhnicheskiy institut i Urallskiy nauchno-issle- dovatel'skiy institut chernykh metallov.  SKOROKHODOV, A.N.; TARNOVSKIY,-1.Ya.; -- BOYKO, B.M. Investigating contact stresses during the i.-Olllpg of complex shapes. 1zv.vys.ucheb.zav.; chern. met. 8 no.41l!2-116 165. (MIRA 18:4) 1. Urallskiy poUtekhnichesIdy- institut.  TARNOVSKIYP LYA.; KORZff,- V.P.- Investigating asymmetrical deformation by means of the variation principle of mechanics. Izv. vyj. ucheb. zav.; chern. met. 8 no-5: 65-69 165. (141 RA 18: 5) lo Urallskiy politekhnicheakiy inatitut.  GANAGO O.A.; STEPANENKOt V.I.;,TARNOVS-KIY P ". I.IYU., P .1~ - - , - -! ~ - ~- --'- -I Forces during shaped, closed die piercing. izv. vs. ucheb. zav.; chern. met. 8 no.5:104-111 165. (MIRA 18:5) 1. Urallskiy politekhnicheskiy institut.  KHAR'llf, B.Yk~,.i TA111HOVSKIYO T.Ta.; LYAS"U'.0, V.8. Totality of criteria characterizing the shape of the center of defor,-,4- tion during rolling. Izv. vya. wheb. zav.; chern, met.. 8 no.7:102-10"f 16.5. (MIRA 18:7) 1. Urallskiy poittekkinicheskiy in!!'Llitut.  LIEVANOV, A.N.; TARNOVSKIY, I.Ya.; MUNLIDTSENA, Yu.Ye.; POKSEWTKIN, I.I.I. Tmvestigating the effect of tool roughness on ezternal friction during upsetting. Ya.,z.-shtam. proizv. 7 no.8:6-9 Ag 165. (MIRA 18:9)  TAR',,IO-VS-KIY I.Ya - N. -=--:; VfSOKOVBKIY, so Elastic flattening of dles during the plastic defor-mation of a strip. Izv.vys.ucheb.zav.; chern.mt. 8 no.8:61-64 165. (MIRA 18:8) 1. Urallskiy politekhnicheakiy institut.  KOTSAR11 S.L.; TARNOVSKIY, V.I. Calculatine tbe vower and force pareurmterB of rolling- Pepor!-W". ~Tiv~ W. ucheW.-zav.; chern. met. 8 no.7182-67 165. ~,,, (MIRA 18-7) 1. UrallaRiy politekbnlebeskiy institut.  TARNUVSKIY I.Ya - KOTSARI, S-L - TARNOVSKIY V.I. I t Calculating force and enerry parameters In rolling. Izv, qs. ucheb. zav.; chern. met. 8 no.9t122-128 1155. (MMA 18s9) 1. Urallskiy politekhnicheskiy inatitut.  LL :_ 443193-For EWT OW ACC-NRi AP6023045 SOURCE CODE: LOI/0148/66/000/004/0092/0098 UTHOR: Poksevatkin, M. I.; Levanov, A. N.; Volkovich, V. A. RG: Ural Polytechnic Institute (Urallskiy politekhnicheskiy institut) ITLE: Contact pressure during hot upsettin f heat resistant steels and alloys 7r OURCE: IVUZ. Chernaya metallurgiyav no. 4,11966, 92-98 13 OPIC TAGS: heat resistant steel, heat resistant alloy, hot upsetting, metal deforma- ion, pressure distribution, surface pressure, friction, temperature dependence ABSTRACT: Experimental methods and analysis of data are based on an earlier work (Pok- sevatkin, et al, Izvestiya vyashikh uchebnykh zavedeniy. Chernaya metalturgiya, 1964, no. 6). The parameters *=T h and n=p /a are given as functions of the ratio of su av a av a face contact diameters D to sample heights 11 at 950, 1050 and 11501C. Upsetting was done on a friction press and a drop hammer. Values for ~ and n were calculated by averaging the tangential rav and normal pressures Pav over the contact surface, while Ira=aaIF3, where aais the average value of the flow limit in the deformation volume. The relative compression was 20-30% in the friction press and 15-20% in the drop ham- mer. Data for heat resisting steels and alloys corresponded to those obtained in the reference cited above for ordinary carbon and alloy steels. A theoretical analysis of UDC, 621.731,669.14.018.45  ACC NR, AP6023045 _mastic deformation un- 1contact pressure during plastic deformation is given. During p Ider variable surface friction, the tangential contact pressure T depended on the-nor- Mal pressure p and on the contact displacement u. A qualitative graph is shown of T~ as a function of u at constant p for both strain hardening and nonstrain hardening materials. The onset of external. friction forces was caused b deformation and other y mechanical processes. The increase of contact slipping obeyed the law of minimum ex- ternal and internal work. For internal displacement under constant relative defor-ina- tion, samples of different thickness (B) to height (H) ratios but constant widths were compared. For complete surface contact, the displacement deformation depended on H, given a constant value of B, or on B/H--given a constant deformation. The magnitude and distribution of surface friction depended on the mechZnical properties of the mate- rials and above all on the thin precontact layer. For hot deformation, the change of temperature fields on the contact surface was extremely important. Under upsetting, the increase in T avA 6 with DIE was retarded, while P av /a8rose sharply with increase in DIE. This was caused by the character of strengthening of the precontact and in- ner layers during deformation and of the temperature changes on the contact. The changes in T /P,,, indicating the force of contact frictionqwere given as functions av of DIE at 950, 1050 and 11500C. In all cases, T 1PaV had a maximum at about DIB=5. av This was explained by changes in kinematic conditions and the nonlinear dependence of friction on pressure. Orig. art. has: 6 figures, 2 formulas. SUB CODE: 11/ SUBM DATE: 05JanSS/ ORIG IMF: 005 card 2/2 _Rej-Z_  TARHOVSKIY, L.P., kandidat tekhnicheakikh nauk. Producing grid positives in connection with reproduction of water areas on planizetric maps* Geod.i-kart. no.4:49-53 Je 156. (Gartography) (KVU 9 4. 10)  MIX -G(Au~jvjl UsLig hydn-Mlio d1splacanen- tr'anE~M-Ismlors .1-'I T~O:rkjag i dor. mash. 9" LOS (MIRA  -- - 1* TIMOVSKIY' M.r. 2, USSR (600) 4. Igricilturo 7, Perennial graeaes in f ield crop rotationas Mookwas Sel 'khozgizq 1952 9. Monthli-List of Russian Accessions, Library of Congress, -TanuarY -1953. Unclassified.  P~' (-L- V-' C' v % Category : UNH/Blectricity - Semiconductors G-3 Abs Jour : Ref Zbur Fizika, No 21 1957, No 4205 Author :Rodkevich) B.D., v8 N.N. Title :Appearance of a Residual Thin Films of Aquadag Activated with AnC12' Orig Pub :8b. statey Leningr. in-ta, tochnoi mekhan. i 6ptiki 1955, ViP. 18, 169-1,73. Abstract :A layer of aquadag containing an admixture of an aqueous solution of ZnC12 and coated on a glass base was first dried and formed with current, after which the residual emf was measured by nuU methods. The low-resistance films gave an amf,of approximately 1.5 volts. -In. the case of high-resistance films, the forming volt4Lge varied over a Vida range (up to 500 volts). Me emf of the films depended on the quality of'the surface of the base: on smooth glass it was not more than 1'volt, and on ground glass it was 1-5 _- 3 volts. The maximum emA was obtained with films coated on glass that vas ground in the dir- eati6n, of flov-of-the forming current*(up'to 6 vo*lts*). ftf's up to 50- 80 volts'were obtained. In all cases, the emf was very un table and Card 1/2  Category USSR/Electricity - Semiconductors Abs Jour .. Ref Zhur - Fizika) No 2, 1957, No 42o5 G-3 Varied with time. The residual amf is explainedles follows: in the p-esence of salts, the air humidity causes an electrolyte to form in the'contact gaps between,the crystalline and amorphous grains com- prising the-filyn.' During the forhdng pdrobess) electrolysis takes place, and the sequence of grains and contact gaps forms a battery of minute calls. If grains, each'measuring Approximately 1 micro are rRnged over a length of 10,cm, this battery abould produce U9 -- 10-1 volts". Rowever) the emf does not exceed 10-'-- 80 volts. Consequently) the cells are grouped in a complex network and the electro- lyte is comnon to various miniature cello. It is therefore possIble for individual micro-cells to.be6ome sbort circuited by the electro- lyte, thus reducing the emf of the film,. Card 2/2   69965 8/170J60 003/01/03/023 B022/BOO~ AUTHORS: Dultnevq 0. N., Tarnovskiy, N. ff. TITLE: A Theory of the Beat Behavior of A#MLg9Adnntgr Ractitlerp of the Radiator Type 0-" PERIODICAL: Inzhenerno-fizicheskiy zhurnal, 19609 Vol. 3, No. 1, pp. 18 - 24 TEXT: In the present papery the analytical relation between the mean temperature of the valve washers of a rectifier of the radiator type and the heat losses of the rectifier are calculated. A simplified scheme of a semiconductor rectifier is given (Fig. 1). Equation (11), which is derived, makes it possible analyti- cally to determine the relation betw'een the mean surface temperature t 61 of the rectifier column and the amount of heat losses P under steady heat conditions in dependence on the geometric parameters, the thermo-physical characteristics of the material and the conditions during use. The diagrams of the dependence L - L(~) (Fi:1. 2) and A2 = A2(t.) (Fig. 3) are given. The dimensions of the selenium columns used in the control tests are given (Table 1), and the depen- dence t 81 - tc - f (P/n) is graphically represented on the basis of the calculated Card 1/2 L-r  69965 A Theory of the Heat Behavior of Semiconductor SIITO,16010031011031023 'Rectifiers of the Radiator Type B022/BOOT and experimental results (Fig- 4)o It is shown that the method makes a sufficiently accurate analysis of heat conditions E. P. Trudkove~L a student of the Leningradakiy Inatitut optiki (Leningrad Institute of High-precision Mechanics in the experimental work. There are 4 figures, 1 tablep suggested calculation possible. tochnoy mekhaniki i and Optics) took part and 3 Soviet references. ASSOCIATION: Institut tochnoy mekhaniki i optiki, g.Leningrad (Inatitu h b"Jag and -Optigo, 04ty of Lening-ra-dT_ Card 2/2  80271 S/170J60/003/02/01/026 BOOB/BO05 AUTHORSt Dullnev, Go N f Tarnovski He no TITLEs Experimental Investigation of the Heat Tranefe~ of Radiators Under Conditions of Natural Convection PERIODICALs Inzhenerno-fizicheskiy zhurnal, 1960, Val. 3,,No. 2, PP- 5-11 TEXT: This paper describes a method of calculating the mean heat-transfer coefficient for typical radiator constructions under conditions of natural convection. The three types of constructions investigated are shown by Fig. 1. The mean heat-transfer coefficient is expressed by the formula - ti 2, 0~ S' t' mean (3). 1 . part of the radiator surface; S the i i S tmean entire heat-emitting surface; ti - temperature of each i-surface; mean temperature of all radiator surfaces; tmean o' temperature of the medium. Gard 1/2  80271 Experimental Investigation of the Heat Transfer S/170/60/003/02/01/026 of Radiators Under Conditions of 11atural Con- BOOB/B005 vection Formulas are written down for the mean value of air temperature between the heated radiator ribs. They are graphically represented by Pies. 2 and 3. The calculation method was experimentally checked on the three above-mentioned radiator types. A comparison of calculated and experimental values of the temperatures (for radiators of the types A and C) and the mean value of the heat-transfer coefficient (for radiators of the type B) shows a mean di- vergence of 5-8$. This result is satisfactory for technical calculations. Optimum radiator constructions can be found by applying the calculation method suggested. The relation Pribbed - = f, (Bribbed) is given as an example. P and P are Psmooth Ssmooth ribbed smooth the heat quantities emitted by the respective surfaces. S ribbed and S smooth are the areas of the respective heat-emitting radiator surfaces (Fig- 4)- There are 4 figuree and 12 referencesp 11 of which are Soviet. ASSOCIATIONt Institut tochnoy mekhaniki i optiki, g. Leningrad (Institute of High-precision Mechanics and Optics, City of Leningrad) Card 2/2  116351 S1146 9, 1/0 /60/003/005/016/017 9, B019/BO54 AUTHOR: Tarnnyakim-IL-N. TITLEs Heat Balance in Low-power Crystal Diodes PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Priborostroyeniye, 1960, Vol. 3, No. 5, pp. 128 - 135 TEXTt The following diode structure was assumed for the investigations conducted heres diode body, outer electrodes, cap, crystal and solder, crystal holder, inner electrode, insulator, and electrode factening. It was presupposed for the calculation that there is no convection or emission from the inner diode body, and no spreading of the heat flow passing through the crystal, the temperatures of diode body, insulator, and cap are equal (also that of the central part), the energy released at the electrodes can be neglected, the temperature field along the electrodes is inhomogeneous, in the cross section of electrodes, however, homogeneous, and the temperature field in the crystal. holder only changes in a radial direction. On these premises, the author studies the heat exchange of the outer diode elements, determines the temperature of the Card 1/2  Heat Balance in Low-power Crystal Diodes S/146/60/003/005/016/017 B019/bO54 p-n junction, and calculates the heat balance. The formulas suggested consider the effect of the kind of diode fastening, the construction of the diode, as well as the state and properties of the media. Three diagrams present the calculated results and the experimentally obtained data. They show that the method developed here is well suited for technical calculations. E. F. Trudkov and 1. P. Karasev, students of the LITMO, assisted in the investigations. The publication of this article was recommended by the Kafedra teplovykh i kontrollno-izmeritellnykh priborov (Chair of Heat- and dontrol Measuring Instruments). there are 4 figures, 1 table, and 9 references, 7 Soviet and 2 US. ASSOCIATIONi Leningradskiy institut tochnoy mekhaniki i optiki (Leningrad Institute of Precision Mechanics and Optics) 3UBMITTEDs April 21, 1960 Card 2/2  j, S/qoy60/OO3/008/007/014 B019ZB054 AUTHORSt Dullnev, G. N., Tarnovskiy, N. N. TITLEs Thermal Conditions of Semiconductor Power Diodes PERIODICAL3 Inzhenerno-fizicheakiy zhurnal, 1960# Vol. 3, No. 8, pp. 61-68 TEXTs The authors deal with the theory and technical computing methods for the thermal conditions of semiconductor power diodes fitted onto a chassis. In the first part, they discuss the beat flows occurring in typical diodes with the aid of Figs. I and 21 in the second parto they carry out a detailed mathematical analysis of the steady temperature field in the diode. Proceeding from the heat conduction equations they find solutions which allow the temperature to be calculated in various points of the diode, and the changes in heat exchange coefficients occurring with the temperature changes to be determined. Finally, they briefly deal with the technical calculation of the temperature field of diodes, and state that the methods suggested had been checked experimentally. Deviations not exceeding 5-7% were found to exist. Card 1/2  Thermal Conditions of Semiconductor Power 3/170/60/003/008/007/014 Diodea B019/B054 There are 3 figures and 6 references, 3 of which are Soviet. ASSOCIATIONs Institut toohnoy mekhaniki, i optiki, g. Leningrad /,8 (p~stitute of Precision Mechanics and Optios, Leningrad) SUBMITTEDs December 18, 1959 Card 2/2  1~3 10 07 6, li 7/ AUTHOR: TITLE: PERIODICAL: 67873 8/14(-j6O/OO3/006/010/013 B012/BO60 Tarnovskiyt N. N. Thermal Conditions of Power Semiconductor Diodes Izvestiya. vyashikh uohebnykh zavedeniy. Priborostroyeniye, ig6o, Vol- 3, No. 6, pp. 89 - 99 TEXT: The author studied the stabilized thermal conditions of a power semiconductor diode. It was mounted on a radiator, the latter in its turn being fastened onto a chassis. Radiator and chassis were insulated from one another by an insulating layer (Fig.1). It is assume& that energy is liberated only in the p-n junction, and that there are no other energy sources. Every element of the system investigated yields a certain heat flux P i to the surrounding medium. A uethod is given here for the approximate calculation of the thermal conditions of the system described. The effect of insulation upon these conditions is taken into account. Formulas are derived for the determination of P i and the Card 1A  87873 Thermal Conditions of Power Semiconductor S11461601003100610101013 Diodes B012/BO60 temperature field of the system. The analytical relationship between power P and the temperatures at the various points of the system is notedt and in this way, the thermal conditions of the diode itself are determined. The sequence in which the calculation must be made is also shown. Calculations were also made of the thermal conditions in diodes of the same type, but differently mounted on the chassis (Fig.2). Initial data and some results of these calculations are given in the appendix. Results are in fairly good agreement with those derived from experiments. The publication of this article was recommended by the kafedra teplovykh i kontrolino-izmeritelinykh priborov (Department of Thermal and Control Measuring Instruments). There are 6 figures, I table, and 6 references: 5 Soviet. ASSOCIATION: Leningradskiy institut tochnoy mekhaniki i optiki (Leningrad Institute of Precision Machebtos and Optice) SUBMITTED: June 109 1960 Card 2/4  87873 S/146/60/003/006/010/01 3 f B012/BO60 2 Fig.1 Legend to Fig.1: Power diode mounted on radiator and chassis. 1~~Current feed, 2) Diode 1 3) Radiatori 4) Chassiet 5) Current feed, 6 Insulation. Card 3/4   VODIOV., Arkadiy Mikhaylovicho kand. ekonom. nw,1q5-AMqVMaj,-QIeg,_ ivanovicb,.kand. ekonom. nauk; TOVMOSYAN, M.Ye., y --mfi-N-ioTtp tekhn. red, (Toward a common aim with a united front; on the q'conomic. co- operation of socialist oomwWUo) Edinym fronUa k eftnoi tsell; ob ekonomicbeekom sotrudniohestys aotsialisticheskikh stran. Moskvap Izd-vo "Znanie,,m 1961. 1+6 p, (Vaeaoiusmoe obshchestvo po rasprostranoniiu politicheskikh i naucbnykh --ii, Serjv no*23/24) (MIRA 15%2) (Commnist countries-Foreign economic relations)  SERGEYEV, V.P.; T I.; MITROFANOVA, N.M.; SMELEV, N.P.; SHABUN19A--, V.I.; SKVORTSOVA, A.I.; VASILITSOV, V.D.; KRASNOGLAZOVp B.P.; EELYAYEV, Yu.N.; KURAKIN,, V.A.; YUMIN, M.N.; SERGEYEV, V.P.; ZOTOVA, N.A.; MATVIYEVSKAYA, E.D.1 STUPOV, A.D., otv. red.; LISOV, V.Ye., red. izd-va; NOVICHKOVA, N.D... tekhn. red. economic cooperation and-mutual aid In socialist countriea]Eko- nomioheskoe sotrudnichostvo I vzaimopomoshch' motatalisticheskikh stran. Moskva, Izd-vo Akad. nauk SSSR, 1962. 272 p. (14IRA 1. Akademiya nauk SSSR. Institut ekonomiki mirovoy souk!h'sli- cheskoy si8temy. (Communist countries-Foreign economic relations) (Communist countriso-Induotries)  SOROKIF , G.M.; OLEYNIK, I.P., doktor ekon. nauk; RYABUSHKIN, T.V., doktor ekon. nauk) DUDINSKIY, I.V., kand. ekon. nauk; MIRDSHNICHENKO, B.P., kand. ekon,nauk; SERGE)EV, V.P., kand. ekon. nauk; TAMQVSKIY, O.J., kand. ekon. nauk; STOROZHEV, V.I., kand. ist. naukj KONOVALOV, Ya.'A., kand. ekon. nauk; GERTSOVICH, G.B., kand. ekon. nauk; POPOV, K.I., kand. ekon. nauk, red.; ZEVIN, L.Z., red,; NIKOLAYEV, D.N., red.; PAK, G.V., red.; GERASIMOVA, Ye.S., tekhn. red. [The building of communism in the U.S.S.R. and cooperation among the socialist countries]Stroitelletvo kommunizma v SSSR i sotrud- nichestvo sotsialisticheskikh stran. Pod obahchei red. G.M.Soro- kina. Moskva, Ekonomizdat, 1962. 334 p. (MIRA 16%2) 1. Akademiya nauk SSSR. Institut ekonomiki mi-rovoy sotsialistiche- skoy sistemy. 2. Chlen-korrespondent Akademii nauk SSSR (for Sorokin). (Communist countries--Foreign econonic relations)  POZINfEV, A.A.; TARNOVSKIT, V.I. Calculating the trajectory of metal particles in the center of deformation during rolling. Isv.vys.ucheb.zav.; chern.met. no-7:8.t -99 16o. (MIR,& 13:8) 1. Urallskiy politekhnichookiy institut. (Rolling (Metalwork)) (DeformationA (Mechanics))  TARNOVSKIY. V.I. Public inspection of plants in Moscow. Mashinost:roitell no. 407-38 Ap 161, (MIRA 14:4) 1, Glavnyy tekhnolog upravloniya mashinostroyenlyn Mosgorsomarkhoza. (Mocoow-Hachinory induntry)  ILIYWHIN, A.A.; PMEM, A.A.; TARNCVSM, I.Ya.; TATUiOVSKIY, V.-J. Applying the method of hydrodynamic approximations to variational problema of plastic flow. Lnh.zhur. 1 no.4:5947 161. (Masticity) (MBA 1514)  35221, s/l48/62/ooo/ooi/oc6/ol5 E032/F,4i4 ATITHORS: Pozdeyev, A.A., Tarnovskiz, V.1 TITLE: Application of the method of hydrodynamic analogy to C, the theory of forming of metals PERIODICAL: Izvestiya vysshilzli uchebny1ch zavedeniy. Chernaya tiietallurgiya-~-_no.l, 1962, 90-100 TE:,T: This paper is concerned with problems in the theory of plastic flo-ar as applied to the calculation of the stress-strain relation in the plastic deformation of metals. The theory is based on a synthesis of the method of hydrodynamic approximations and the energy principles of the mechanics of continuous media, which leads to solutions suitable for technological applications. The first section is concerned with the equation of state of a metal under the conditions of hot forming. Assuming that the stress state is linear, a relation is derived between the stress deviator Do and the deformation-rate deviator D~,, which involves the yield point, the rate of deformation a~hd a constant characteristic of the particular material. This relation ia shown to be formally identical with the equation of state for visco- Card 1/3  S/148/62/000/001/006/015 Application of the method ... E032/Z414 plastic flow reported by the present authors and others in a previous paper (Ref.l: Mechanical properties of steel in hot forming. I-letallurgizdat, 196o). The second section is concerned with the derivation of a variational equation on the basis of the hydrodynamic model of a continuous medium which was put f orward7 by A.A. Il I yushin and V. S.Lenskiy (Ref -3: Izv. AN SSSR, OTN, 1958, no.2; Ref.4: 'fhe strength of materials. Fizmatgiz, 1959). The hydrodynai-,iic model is based on the assumption that the state of a metal can be described by the following relation between the stress and deformation-rate deviators: Do = 211 [ 1 - cu (H) ] D (5) where AH) is a certain function which is given by the difference between the experimental stress-strain curve and the straight line obtained as a first approximation on the hydro- dynamic model; IL is the viscosity. The final variational equation turns cut to be a linear functional. The general method is then applied to the determination of the deformed state of a parallelepiped. Some numerical i~esults for this case are .-iver.. Card 2/3  Application of the method 5/148/62/ooo/ool/oo6/015 E032/E414 I It is shown that in a large class of problems of the theory of I pressure forming, the first approximation of the hydrodynamic model is sufficient, This is deduced from a comparison with the experimental data of I.Ya.Tarnovskiy and others (Ref.5: Deformation and stresses in forming metals. Mashgiz, 1959). Thefin-a section is concerned with the deformed state in axially symmetric deformation by upsetting between two plane-parallel plates. The-general conclusion is that the method of*hydrodynamic analogy can be used to overcome the various mathematical difficulties and yields relatively simply the deformed state as required in various technological operations. There are 3 figures and 1 table. ASSOCIATION: Urallskiy politekhnicheskiy institut (Ural Polytechnical Institute) SUBMITTED: July 18, 196o Card 313  PMEYEVI.A.A.; TARNOVSKIY, V.I. Applying the Ritz method to the theory of the press worIcing of metals. IZv. vys. ucheb. zav.; chern. met. 5 nolOt67-76 162. (MIRA 15:11) 1. Urallskiy politekhnicheigkiy institut. (Deformations (Mecheuias))  Vl48/62/O0o/on/oo4/oi3 -'Eo8l/E435 Pozde'~,ev, A.A.,- Tarnomakiy'-J-1 Investigation of the stress state during forging in absence of lateral constraint PERIODICAL: Izvestiya vysshikh uchebnykh idvedeniy. Chernaya metallurgiyafrio.11., 1962, 90-98 TEXTs The paper is a continuation ofprevAous work (Deformataii I usiliya pri obrabotke metallov davleniyeM Deformations and stresses -during pressure forming of metals Maahgiz, 1959: Izv. VY~, Chernaya metallurgiya, no.1, 1962). If the strain velocity distribution in a metal forming Orocess is known, the stresses can be found fro *m the equilibrium equations, the equation of state and the boundary conditions. ' Assuming incompressibility of tho material, a differential equation is set up for the'mean hydrostatic pressure. The case of pure compression in considered- on the assumption that the equation of state is represented by a- hydrodynamic approximation, including a viscosity term, and that there is no slip at the contact surfaces. Expressions are derIved for the normal and shear stresses and for the specific Card 1/2  s/148/6,.!/000/0!1/004/013 Investigation of the stress, state ... E081/E435 force required to produce deformation under,conditions of-plane and axially symmetrical 9,train states. Results of calculations for stream distribution bAsad on theme equations aro shown graphically. There are 4 figures. ASSOCIATION: Ural.lakiy polltekhnicheskly Institut (Ural Polyte.chnic Institute) SUBMITTED: juiy 18, 196o Card 2/2  TARNOVSKIY, Iosif Yakovlervich; POZDEV-EV, Aleksandr Alekj3androvicb; GANAGO, Oleg Aleksandrovich; YOIFOOOROVp Vadim Leeonidovich; TRUBIN, Valeriy Nikolayevich; VAYSBURD, Rualld Arkadlyevich; ,TAIU40VSK?7)..Ya,I!Driy,losi.fovich; GOHOBINCHENKO, V.M.p red. iia:Vi~- BEKKER, O.G., tekhn. red. (Theory of vorking metals by pressure; variational methods of calculating forces and deformations] Teoriia obrabotki metallov davlenieza; variatsionnye metody rascheta usilii i deformatsiio (By] I.IA.Tarnovskii i dr. Moskva, Metallurg- izdat, 1963. 672 p. (MIRA P: 1)  TAR11OVSKIY, I.Ya.; P02DMV, A.A.; XOU-:OGOROV, V.L.; VAYSBURD, R.A.; GUNI G.Ya.; KOTELIVIKOV, V.F.; TkPdIOVSKIY, V.1.,- SKOROKIIODOV, AOIT* (variational principles of mechanics in the theory of metal- working by pressure] Varia-tsionrqe printsipy. mekhaniki v too- rii obrabotki metallov davleniem. Moskva, Metallurgizdat., 1963. 52 P. (MIRA 17:5)  TARNOVSKIY, I.Ya.; FOZDEYEV, A.A.; MUMMY.. V.I. Calculating netal pressure on the rolls during sheet roMng. Izv. vys. ucheb. zav.; chern. met. 7 no.804-92 164. 'MIRA 17s9) 1. Urallskiy politekhnicheakiy instituts  TARNOVSKIY, V.I.; POZDEYEV., A.A.; TARNOVSKIY, I.Ya. Considering the hardening in calculating the rwital pressure on the rolls during sheet rolling. Izv. vys. ucheb. zav.; chern. met. 7 no.10:103-111 164. (MIRA 17:11) 1. Ural'skiy politekhnicheskiy institut.  J6 ACCESSION NR: AP4018348 S/OP-51/64/033/001/0019/0025 ;AUTHORS: Baakashvili, V. S i Pozdeyevp A. A.; Tarnovekiy, V. I. ITITM Physical equations for the state Of a metal in the theOrY of here4i+,T I(Preeented by academician o, D- Oniashvili 22 Januax7, 1963) SOURCE: AN GruzSSR- Soobehohenlyat v. 33, no. 1, 1964t 19-25 TOPIC TAGS: equation of etatep heredityl PlaOticityg defOrnationt stress deforma- t'Onp 2oltzman-volterra equation, dynamic equilibrium, elastic aftereffect ABSTRACT: In the general theory of plasticity, heredity~ based on the equation of elastic after the methods of 'the theory of useful. The * effect of Baltzman-Volterrap are GOlutiOn Of many problems in the theory of workjmg of metals by pres_. sure can also be obtained by using-the theory of heredity, The authors derive Physical equations for the with consideration of the istate of a metal for a complex stress-deformation state nfluenCe of heredity. They discuss the physic of the Boltzman-Volterra equation for a medium with nonlineex relations bal meaning etween deformation and stress, Orig. art. hass 13 formulas; 1 tablet and,i figure. .Y2  ACCESSION MR: AP4018348 ASSOCIATIONt Urallykiy politekbuiobeskiy institut im, 3, M. Kirovs, (Ural-poly- technical Institute) Z DATE ACqs 19Vhr64 ENCLs OC .TBMITTEDs 22Jan63 SUB CODEs AP 10 REF SOVt 006 OTHERt 001  FGZDP,M, I A.k.; TARNUIS.KrY, V.-C.; YFREMSYEV, V.T. Z..., Prospect,i for applyirg the tbaor-f of creep ari.l. toward calmattion or prncimiea In by - Izv. vys. ucheb. zm,7.; ahern. met. 8 no.11:62-68 161-'.,, (HTF,k 18:11) 1. Urallskiy politekhn--'c:heskiy ins-bitut.  BAAKASHVILI, V.S.; POZDI--'Y6-V, A.A.; TAIU;DVSKIY, V-1- Use of the methods of the law of heredity in studying resistance to deformation. Soob. AN Gruz. M 29 no. 3t269-274 S 162 (MIP-k 19:1) 1. Institut motallurgil AN GruzSSR, Tbilisi. SuInitted December 18, 1961.  .jr TARNOVSKA Yu,., K CAND T,ECH SCIt "00 L OPTIMAL 00-01 ON-1;~"P&T-U 44a-- GROUNE~ AND SEVtRE CLIMATIC CONDITIONS," MOSCOW9 1961. (MIN OF HIGHER AND SEC SPEC ED RSFSRt MOSCOW ORDER OF LABOR RED BANNER ENoINECRING-CONSTRUCTION INST IM V, V, KuYBYsHEV). (KLy 3-61t 220). 269  VASILIYEV, Ye.D. (tasylliev, V.I.] (Kiyev)l SVETALISKIY, B.K.] (Kitev); TARNOVSKIY, Yu.P. [Tarnovslkyl, 1U.P.] (Kiyev) Poosibilitles for construct.Ing an optimal speed regi4ator for river craft with positive feedback of engine revolutlions. Avtomatyka 9 no.5180-82 164. (MIRA 180)  TARNOVSXA, Halina, mgr . .... - - . ~ - ~. ~ .. New regulation concerring claiza of employees. Praca zab6zp spol 7 no-3:1-9 Mr 165.  ly~ 1 4 1 - 1 77"'l 4n MCI p I ME I 1~ ~, g - ` 1-1*", ` --i'R - 51""i-,4 Mfflawll - -. - ~gmg7uj 1., -.1 4 .10 - I ~ -- "l';".~l~~-,~-~-,Z-,.-,-~T~-~.- , ;.", ':6 ~ I " , t, t KI W, ~e " NO  -rl C)UNTR1 - F OLAVD C ATZGORY Organic Chu-nistry. Syntht,~'Lic Orsanlc AB3. JOUR- : RZKhim. , No. 23 19-59, V0- 822815 AUTHOR : rp I Lar ow a - - 7 d z .Lf ic Society of Lo emical Scient L R13T. :7. i T IT LE N-Ethanolo-a-na-phthylamide of 3-amino-6- meth7lbenzenesiApiwnic Acid 0--- IG .PUB. '.Soc. scient. lodz. acta chim., 1958, 3, 67-71 A3!:-TRACT 3-14-L!2-6-CH~06,q C2N(R)CH2C11-:)C'T-i (I), where al- ways 1R=C4-n,,-.phkEZy1, wa.-3 synthesized by --,.o m,~ithods: the condennation of 3-1102-6-CH306113- 30201 (11) with M-T.112 and subse(vuent int6rac- tion betwc--n the foiiiied 3-E02--6-CH3C611-SO2-N1U1 (III), with CHLjOKCH201 (IV) ~r'6 the rea~'Uc'ion of the formed 3-1102-6-C"3C6H3SO2N(B)CH2CH2011 (V), As viell ns the rondonsation of R1j'.HGH2- C112011 (VI) with H. The latter method produces A ~'UD 1/6 G-12  COUNTRY CATEGORY AP33. JOUR. RZ-Uilo. ri..'o. 23 A717%0?, T 1AL, OHIr'r. PU-8-. 0,A-'T% - N~011-' Tomo raddeff, lli?'Ited for I and ~ hour at 1200, poiirerd out hot 19-7-191 t220'15 tilt Prc~para of I acoovdir.- C:"Ilosn of it In C.:3 0" ta (6. To 3 .5 :L2.00 an'l I",Ot nboVF' a r'ob) nf p,  A Tr;l,, R ru T . TiTLI Q.-(IG . ?U B A:3 5T RA3, T cont d D RVKhiz., NO. 2 3 c nd 92;-~' o -r 11 of T! was a0diod (Iux%.'n:, 10' ,nin cl; c). -1 , . ! 1' ~v e, miola 01, ri 4~~w C Ine 11bout 2 1*11 Oil w9tc-- wsn~~ :21d C)-," a t J. 0 31 with Ef".1, T11 was ,"-cidlnr~ 155-lr-'70 hol , thnn from benzene) wan aizu a %, le-ld of 70,,"~2 by hQa ting for ^,2 rovj,,.3, j., C t 3/6  COUNTRY G CATEGORY AB3. JOUR. 217,10him. , i~,O. 23 19-5), Ao. 8228c~ ATITHOR T ITLE, ORIq. PUB. ABSTRACT to the the b.pe, of 0.5 molu of RNII -%Jlth I cont'd 0. 5 mole of 11 and 0..". mnle of 03r"~'M-311po' 1 of 30' in 00 m Q alcohol, 2' ramoles of Ill werf- a(Ided "a 3 F, of Nao'll in 200 irl c--' vater; 0 then, burin,,' 15, min 80-90, , 75 rmjole.- (-,f V were added, and aftr-,r I ho-ar tllie cruall,c(l, residue obtal 'nod m38 boiled v.!Ith dilut-- and 62% of V was obtFined, ra.p -,P-6-ic-'7' (fron- alcohol). V, with a yjc3.,,I of waz al-o obtained by tho addition, d1iring 30 Min Vi-. CARD: 1~/6  T OR'! A213 jouR. ijo, 23 19 59, Fo. 8221~c! . AUTHOR 1 M ~_-' T. TTTI,f~' C. ~--.IIG. ?UB. A 3 ST M C T 05"', of 0-16 ;-bole of 11 to ra ml'xture rjf 0-15 on',- I d nole of V!, 21.8 g Cf VOC ra of -25% alcohol -vith subs-oquej,~'C I, lie ltin:- for I hour. 0.03 mole of V ,Yas adcied --:',)r 15 min at 610-r)00 to a rjj,_,uj.a or .11 t'~ Of F'~' filings, 1.5 ml of 36,-~,' 11,01 L-ind 3.00 ml of Ller; after 2 hours the mixt.ure ,:-as all'-slized, the rosid'ue was extract-ed with alcohal ~n the So7~hl-.t apparatu:3, tha extmict ~.ns -'~v,-.poratoc~ , C" Aq, D 5/6  Cold,,, El-~y CA~k AB3- JOUR. AZ:" 0 R T I oi ir.T, PUB. jT;C11, and wilu'll (gil-ute, AB':JTRACT -was a ;~ 1 0 1 1 1- IT. t.,,yr, RD, V  TARNOWSKA, M. -~~Yeswlw- Azo dyes deriving from hydrox naphthylamides of aryloulfonic .~-&Ikyl- a6ids. Acts. chim 8:147-170 62. 1. Department of Organic Chemistry, University, Lodz. F~esented by A. Ghmaszczew3ka. T--  TARNOWSKA,, M. N(21-ohlorethyl)-d,-naphthy,lamide of 3~-aminobenzenesulfonic acid. Acts, chim 8;17:L-1?? 162. 1. Department of Organic Chemistry$ University, Lodz. jt~exented by A. Chrzaszczewska. 0  JZZEWKAO Ewa; BUKSOWICZj Czeslaw; TARNOWSK&-DZIDUSZKOVA, Eugenia; DYMECKI, -Terzy - on the problem or interparo3wenal ffymptomatology of myoclonus spilepiry. Neurologis, ate. polska 11 no.1:21-31 A-IP 161. (V diag)  TARNOWSKA4Z DUSZKOP 311 Morphology of tissue motions In bepatolenticular degeneration. Pat. Pol. 12 no.5.1309-319 161. IA' Z Pracowni Neuropatologii Imetrtutu Psychoneurologiesnego v Pruszkowle Dyrektor Instytutw"prof. dr Z. W. Kuligowaki Kierownik Prac.; doc. dr E. Onstowska. (HEPATMENTIOULAR DEGEMTION petthol)  - - WALD-p Ignacy; S--ZA-JB-ELP Waclaw; TARNOWSKA-DZIDUSZKOWAt EugeajA. on the Problem Of an infantile form of hepatclenticular degeneration. POdiat- Pol. 37 no.8:837-842 Ag t62. l. Z Instytutu Psychoneurologicznego w Pruszkowie Dyrektor: prof. dr med. Z. W. Kullowski. .. HWATOLENTICULAR DEGENERATION)  TAPIIOWSKA-DZIDUSZKO, E.; ZIELINSKI, J.J, Use of vaskulat in YaBcular diaeami of the brain. fle-urol. neurochir. psychiat. Pol. 14 no.1:51-54 Ja-F 164. 1. Z Oddzialu Neurologicznego Instytutu Psyehonew:-olog1cmego w Pruszkowie (Kierownik Oddzialu: prof. dr. med. A. Dowzenko).  TARNOWSKI, Aleksan.der Work analysis of a weir when doubling the unit discharge by closing one half of the number of weir openings. Rozpr hydrotechn no. 15:93-113 164.  TARNOWSKI, Alsksanders mgr inz. ijistribution of hydrodynamic pressure on a vertical up,-P'-PJPLM vall of a dam with a Creager outlet. oosp wcdna 24 no.3s.8upplement; BIU inst bud wodn 5 no.D121-122 mr 164. 1. Inland Hydrotechnic Laborftory., Institute of Hydraulic Engineering Polish Academy of Sciences, Gdansk.  TARNOWSKI, Aleksander, mgr JDz- DistrJbution of hyd-,~dynamlc pressure cn tte vertical upstream wall of a dam iith CceaFer overflow. Gosp wodna 24 no. 4: 157-158 Ap 164. 1. Research Tnstitution for Inland Hydraulic Construction. Tnstitiite of Hydraulic Construction, Polish Academy of Sciences, Gdansk.  - TARNqg~. Charcoal Produced from substitute materials. p. 202. CMM. Katowice. Vol. 8,v no. 7/80 July/Aug. :L955. SMCEt East European Accessions List (Em), Lcs Vol& 5j noe 3# March 2956  ~:-,P-U0 j FVRI EM FE-1 KMM! M-m  TARNINSKI, J. '"m -6 " !~,~ n.7!m- -- ---- "Ventilation Irl air ducts." p. 221 (Przaglad Gorniczy) Vol. 12, no;. 6. June 1956 Katowice, Poland SO: Monthly Index of East European Accessions (EEAI) LC. VoT- 7. no. 4. April 1958  i--n 3r1(4 ll,ij i ,,,jjfj.j polanrl) SO' "onthly List of ',:,f7t nc. 7., Uncl .  --- - - - -- - - - --- - M TARI-TOWSKI, J. An estimate of the amount of methane in mines based on data from boreholas. p. 172. - PFZEGLAD GCPNICZY. Katowice, Poland, Vol. 5, no. 4, Apr. 1-959. Monthly List of East European Accessions (LEAI), LC, ~ol' 8, no. 9, September, 1959. Uncl.  TARNOWSKI, Jan, dr inz. A research method on the degree of hazard of coal and 9"11 outbursts and the behavior of gas aound underground excavations. Frzegl gorn 18 no.7M:402-411 JI-Ag 162.  T 3jL,.J,,.Ar. inz.; SUCHODOLSKI, Zbigniew.. mgr. inz.; OSICEDA, I --- . Josef,, mgr, 1nz .; JULAMAJ, Wladyslawp mgr. inz.; OYBUIBKI, Waclaw., prof. dr. inz.; Discussion concerning J. Tarnowski's papor on "Method of investigating the degree of danger caused by ejections of coal and squealers as well as the behavior of Ian around undergroud workings. Przegl gorn 19 no.5:233-236 My 63. 1. Kopalnia Doswiadczalna Barbara, Glowny Instytut Gornictira (for Cybulski)  TARNOWSKI, Janp dr inz. Physica-chemical properties as one of the bases for the classification of coal deposits with regard to gas hazards. Przegl gom 20 no.lt20-25 Sa 164.  TARROVSKIs Juliusz Steel produotion and export of rolled proftcts* PrzG9l tOchn 79 Speoial iovuss342-347 Js 161.  (--K. TAR~MSKI, K. Geodetic surveying of distortions in alqocrapers with special consideration for investigationB on the premdoes of the Palace of Culture and Seienbe. p. 89 (Prace Proceedings) Vol. 4, no. 2. 1957, Warszawa, Poland SO: MONTHLY D= OF EAST EMOPW ACCESSIONS (EM) LC. VOL. 7. NO. 1. JAN- 2958  TARNOWSKI p KonstarLty- . The-world chemical industry in its present stage. PrzegI techn. 79 no.3:87--95 F '58. (Chemical induatx7)  TARNOWSU, Konstanty . Production and export of Poliah chemicals, Przegl tochn ?9 Special isoue:356-362 Je 161..-  TARNOWSKI-j--L- dWork of high-duty motors at a reduced voltage. Pt. 2.1. p. 193, Vol. 7# no* 4# July/Aug- 1953- Stalinogrods (jker&jstykjL) To 1- 3, No - 3 SO: MoILth _LtLt_ 21 _lA_st lur2pean Accessions,/ IAbr&r7 of Gongress, M&rch 1954, Unal.  . - . ~ 'I" - vz:~M - i ~,7' - . - q I E - ., I f ~11 - am -f -, %,; Sam , I I ki - ~ 9 - ,im, ~,, '. wrillrolm,  TARNOWSKI, Ladvelawt m9ropinz, Me+allurgy fights air dusting, Frsegl tochn 41 no.18:31-32 160.  TARNOWSKI, Ladyalaw, mgr., inz. I .2-74 '62.- Air pollution by automobile motors. Fwargs tyka przex 10 no  ins. TARNOWSKI, L.j Conference of electric power engineering specialists of the steel and iron industry in the Lenin Steel Wori. Energetyka ~rzem 10 no.10:361-362 0 162.  ZUBER Henryk, mgr inz.; OEBICZ, Stanislaw, ragr ~inz.; TAMIOWSKI, Ladyslaw, mgr in z. Heat utilization of debydrators and slime separators and better condensate management. Gosp paliw 11 Special issue No.(95):32 Ja 163. 1. Huta Kosciuszko, Chorzow (for Zuber and Gebicz). 2. Zjed- noczenie Hutnictwa Zelaza-i Stalif Katowice (for Tarnowski).  BLAKALA, Kazimierz, inz.; MICHALIK, Janusz, inz.; RESPONDEK, Alojzy, inz.; TARTIOWSKI, Ladyslaw; GLOWANIA, Edward ~ Increasing the disposable power of the power plant of the Ylorian Steel Works by 7 MW. Gosp paliw 11 Special issue no.(95)t59 Ja 63.  MWOWSKII M. MY Tartiowski NJ. 5JPtIjmI,.j of Testlut i2mellont Explo-MICS, ad~ rdetncly b. anla prodif)w",.W, awa 1919, MPIII, 44, 151, 65 figs. Physico-chmilcal properties of smokeless propeVentz and gttn- powder. Pnergy of propellents. Actinn of expltigive rw:es Ins(deAlle barrel. Meth(1,13 of te!;Unt, propellents. Preliminmy-and laboratury of propellenU; usPJ fir prantIce test-; Ball'stic te.5f methods, Testing purposes. Te-it rccordz. Computation (it UnI11.30f, valuc!t Artvfflary tables.  TARNOWSKI, Me f- , TECIINOIDGY Periodicals: NOPIUJJZACJA. Vol. 26, no* 3, Mar. 1958 TAFJOISKI~ Me Concerning the sequence of standardizations p. 132, Monthly List of East European Accessions (EEAI) LG, Vol. 8, No. 2~, February 1959, Unclass.  I trio ,;0, no.