"SCIENTIFIC ABSTRACT LOKSHIN, B. YE. - LOKSHIN, I. KH."

s/136/62/000/012/001/001 E081/E483 AUTHORS: Tretlyakov, A.V., Lokshin B.Ye., Trofimov, G.K. TITLE: A study of cold rolling of armco iron /ACM (ASM) alloy bimetal strip PERIODICAL: Tavetnyye metally, no.12, 19629 48-53 TEXT: The authors studied the effect of total reducti on in rolling on the relative thickness of the bimetal strip components, the latter parameter being characterized by c Z hzh/hpi where h and hzh denote the total thickness of the strip and the t9ickness of the iron layer respectively. it 'was found that, irrespective of the initial value of c *its magnitude increased linearly with increasing total reduction, reached a maximum at 45 to 50% reduction and then remained 'practically constant. The final value of c depended only on its initial value and 46n the total reduction of the strip, being practically unaffected by the initial thickness and width of the strip or by the roll diameter. The experimental results'were used to derive formulae expressing the final thickness of the iron layer in a,bimetal strip as a function of the initial valuetof c and.vice versa. , In the Card 1/2  S/136/62/000/012/001/001 A study of cold rolling ... E081/E483 second stage of the investigation the roll pressure in cold rolling of iron/ASM alloy bimetal strip was evaluated. Based on experimental data, formulae were first derived expressing the UTS and 0.2% proof stress of the bimetal strip as a function of the UTS and 0.21% proof stress of the two component materials an~ the relative thickness of each component layer. These formulae were then used for deriving expressions for the roll pressure whose reliability is proved by the fact that they yielded values differing only by 10 to 151a from experimental data. Analysis of the formulae obtained showed that the roll pressure in rolling bimetal strip is, in addition to the usual factors, greatly affected by the initial value of c and by the difference in the contact friction of the two components of the strip. There are 5 figures. Card 2/2 _ILI  TEU-i 'YAKOV9 A-I-F-o kalle-10khrl-n9u).-I L07,-IjL?lv Ba"Zo.t i=h. Ilmoitlt;utina tho r:LGI&%r of the wawki%, c;tLad o- a 49C)/237Ma= ruvorviih; aoJ4 ro2linG. ad-U. Gbor. St. Nlr,L'I,V,iP-4SM Uralmahzavoda no.6LU4-W 165. (Ila RA 3.8s.U)  THETIYAK3V, A.V.0 kand.','%ekhn.nauk; LOKSHIN, B.Ye., inzh.; TROFIM017, G.K., inzh. Changea In the mechmnical propertie4 of atesel and pL-,Ar ermoumption during co2d rolling on a 1680 --vers!nr, mi2do -Sbor. at, HTITIAZIDIA.55% Uralmashzavoda rio.W50-254 165 00 (k1RA 18812)  'LMETTYAKOV, A.V.; LCKSHIN, B.Ye.; GAF?BEq, E.A.; TROFIM, G.F. 11so of m-1,hads of mathematiral procesnAng of in the engineering and construction laboratory of the Scientilllc Research Institute of Heavy Machinery at the Ural Heavy Machinery Plant. Zav.lab. 31 no.10:1237-1238 165. (MIRA 19:1)  r it'jal' m, C' v T ~TT LF. Z-Iodi-f I cation of the merhanical of eTP,3p.- cL',lj-rp- durinu c old rollinv on I -T SGUII-E: Ural I skiy' mmol'u-nostrol tell ryy tawd, S-vaHlovsk I(aU it tyazlieloCo rzshinoqtroyPrd.,ra Flre J zvcd o v e o b o ri 1 d o v a rii y eo n s t ru j j-,-) 7h~ rf'I ed n DC; r Two coi~ez-F w it.I, e,~ rr c. r notor =tors. Tbe mzximal rol-I.In6 upic'u'd WaL, ib Was Up to 1 un. Ar. e r,~ r -iold point, and Br i nell ha 1-1 wt~ Z-ti nef" T, L  A!""'ES330"i Nllt AT,'~'M8186 reduc i-on. Tile n C T- q q f: c) T-V o r I Lr I L I p ilG .0*,it-~,t, J,91,-h~~.. U r jF,. art. t z- i W ]AT M U I none Sj 1 U'l TED t 00 ENCL 1 00 SJS CODEt 1:-:, IN 110 R17 SOV .002 OTHER: 000  LOKSHIN, D.V. ... , -" Axportmental study of tools used in electrical machines. Fiz.met.i metalloved. 1 no.1:124!131 155. (KLU 9:3) 1. Zavod "Uralelektroapparat". (5hest steel--glectric proportion)  LOKSHIN, D.V., inzhener; NNYMN, Z.B., inzhener. Using cold-rolled steel in electric machinez7. Blektrichostvo no.5: 46-50 MY '56. (XLU 9:8) 1. Zavod "Uralelektroapparatx. (Steel) (Electric machiner7)  SOV/110-59-8-5/24. AUTHORS: Lokshin, D.V., Neyman, Z.B. Engineers. TITLE: The Rational Use of Cold-rolled Steel in Electrical Machines. PERIODICAL: Vestnik elektropromyshlennosti 1959, Nr 8, pp 18-23 (USSR) ABSTRACT: The relative merits of hot-and cold-rolled steel for the manufacture of electrical machines are discussed in general terms. Because of the magnetic anisotropy of cold-rolled steel, the advantages to be gained by its use depend on the geometry of the stator segments. It is very difficult to calculate the magnetic characteristics of a stator core made of cold-rolled steel from test results obtained on the Epstein square. Accordingly the authors tested packets of stator stampings by a method which has been described previously and may be readily understood by reference to Fig 2. Experimental determinations were made of the magnitude of the magnetic flux in the teeth and in the body of the stampings. The results that are given relate to Card 1/6  SOV/110-59-8-5/24 The Rational Use of Cold-rolled Steel in Electrical Machines. two types of machine with stator external diameters of 213 and 325 cm respectively. The stampings were of steel grade E320, 0.5 mm thick, which is a medium grade of cold- rolled steel, and were compared with stampings of hot- rolled steel grade E42, 0.5 mm thick. The stampings were not annealed. Results of a.c. and d.c. tests were practically identical. The test conditions were such that with both types of stamping the magnetic induction in the teeth was much greater than in the body of the stamping and, therefore, it was mainly the teeth that were being tested. Test results for stampings of the smaller diameter are given in Fig 3a; these curves show the magnetic flux densities in the designed section of the teeth as functions of the magnetising force applied to the stampings divided by the length of the magnetic flux path in the teeth. This ratio, though arbitrary, is useful. It will be seen from Fig 3a that with equal -values of m.m.f. the magneti- sing flux in the cold-.rolled stampings is 1.13 to 1.26 greater than in those hot ... rolled. In this case the stampings were in line with the gra"n of rolling. In testing the second and larger size of stampings, the direction of the magnetic flux in the teeth was at 6.5 to 110 to the direction of Card 2/6  SOV/110-59-8-5/24 The Rational Use of Cold-rolled Steel in Electrical Machines. the grain; the test results are givea in Fig 3b. The ratio of the magnetic flux in the cold-rolled steel to that in the hot-rolled is greater than would be expected from Epstein square test results. This is partly because the cold-rolled steel has a high stacking-factor; also, it carries an appreciably higher field intensity in the narrow part of the tooth. The latter effect is demonstrated in Fig 4 by the curves of distribution of the magnetic field intensity along the teeth; curve (1) relates to hot-rolled and curve (2) to cold rolled steel. It is concluded from the test results that in machines in which the external diameter of the stator exceeds 200 cm, the properties of cold-rolled steel in the direction of the grain can be exploited. If cold-rolled steel is used in place of hot and no other changes are made, the overall losses are reduced. The reduction is explained by the lower iron losses In those parts of the steel in which the flttx is in line with the direction of rolling, and also by some saving in field current. The resulting reduction in losses Card 31ra  SOV/110-59-8-5/24. The Rational Use of Cold-rolled Steel in Electrical Machines. may often be appreciable but is not the best that can be obtained. Calculations are then made to show that the optimum geometry of the machine is altered when cold- rolled steel is used. Expressions are derived for the iron losses and these are then applied to particular machines. The first machine considered is one with a stator 213 cm diameter of hot-rolled steel grade E-42, in the output range of 900 to 7500 k'1A and the speed range of 375 to 600 rpm: a number of other typical characteristics are given. Using this machine as a basis for comparison, curves are plotted in Fig 5a relating the stator length to the losses, weight and field current of corresponding machines made of cold-rolled steel. The curves show that if the stator length is reduced by 10 to 15% when the cold-rolled steel Is used, the iron losses are increased by some 6 to 12%. However, the total losses in the active material are reduced by 4 to 5" and the weight of active material is reduced by 9 to 10~; or alternatively, the losses may be reduced by 6 to 6.5% and the weight of material by 6 to 8%. If the length of stator is unaltered, Gard 4/6  SOV/110-59-8-5/24-z The Rational Use of Cold-rolled Steel in Electrical Machines. the steel losses are reduced by 4% and the overall losses by only 1%, with an economy of copper of 3.%o. A similar comparison is then made for machines with an-external stator diameter of 325 om covering the range of 1000 to 10000 kVA and 150 to 250 rpm; the corresponding curves for a machine using cold-rolled steel are in Fig 5b. It will be seen from these curves that the use of cold-rolled steel gives the best result when the stator length is reduced by about 10%. The total losses in the active materials are then reduced by 4% if the weight of copper is out by 11%, or are reduced by 8% if the weight of copper is out by 6%. The reduction in the length of the stator also gives economy in insulation and other con- structional materials. The curves of Fig 5a and b relate to machines of average characteristics, but in particular oases the effectiveness of using cold-rolled steel may be very much greater. By way of example, Fig 5B gives curves of loss and weight ratios on altering the length of a hydro-alternator with an output of 26300 kVA running at 130 rpm with an external stator diameter of 700 cm. It will Card 5/6  SOV/1ID-59-8-51/24t xn-, Rational Use of Cold-rolled Steel in Electrical Machines. be seen that here the use of cold-rolled steel makes it possible to reduce the stator length by 10% and simultan- eously to reduce the losses in the active material by 41)L and the weight of copper by raore than 15%: alternatively, the losses may be reduced by 10% and the weight of copper by 7%. These examples clearly show that when cold-rolled steel is used the optimum proportions of the machine are in general not the same as when hot-rolled steel is used. There are 5 figures and 3 Soviet references. SUEUI"'TED: January 26, 1959. Card 6/6.  r-ACC NRs ~P6025598 SOURCE CODE: INVENTOR: Lokshin Do V.; Neyman, Z. B. ORG: none TITLE: Unipolar machine. Class 2r, No. 183263 SOURCE: Izobreteniya, prx)nVshlennyye obraztsy, tovamyye znaki, no. 13, 1966, 38 TOPIC TAGS: electric generator 6~,-FCrRfe- ABSTRACT; This Author Certificate introduces a unipolar electric generator with a liquid sliding contact (see Fig~ 1). The generator contains a stator with a built-i .4 Fig. 1. Unipolar generator 1 - Liquid sliding contact; 2 - stator; 3 - excitation winding; 4 - rotating contact ring; 5 - rotor; 6 - fimed contact ring; 7 auxiIJo contact ring; 8 - drive. 621-313-29l.3.o67  ----------- - ACC NR.AP6025598 excitation winding. The rotating contact ring is mounted on the rotor. To assure stable operation, the machine is provided with a fixed contact ring which serves as a current carrier and an auxiliary contact ring which covers both rings and is rotated by a separate drive. Orig.;,art. has: I figure. [IV] SUB CODE1 10/ BUBM DATE. 15jun64/ATD PREBS:  ACC NRt AP6035860 SOURCE CODE: UR/01,13/66/oOO/020/0071/00'11 ,INVENTOR: Lokshin, D. V.; Neyman, Z. B.; Tsirkunenko, A. T. .ORG: none ITITLE: Homopolar generator. Class 21, No. 187131 ISOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 20, 1966, 71 ITOPIC TAGS: electric generator, homopolar generator ABSTRACT:U A "thor dertificate has been issued'for a radial-type multi-rotor homo- polar generator with rotors which revolve in opposite directions. Each rotor consistal 1 Cord -Fig. 1. Homopolar generator -1 - Rotor; 2 - upper disk of rotor; .3 - lower disk of rotor; 4 - perepherial liquid contact; 5 - central liquid con- tact; 6 - magnetic ring; 7 - rotor bearing. 291-433. A  ACC NR: AP6035 of two conductive disks separated by insulation which are connected in series by liquid contacts along the periphery. To increase reliability and mechanical stability the magnetic rings are placed between thq rotors (see Fig. 1). These rings are fastened on one side to the magnet yoke; their other side is used for rotor-bearing mounting. Orig. art. has: 1 figure. SUB CODE: 10/ SUBM DATE. l,9Jun64/  IDKSHIN, E. Obstacles in a big job. Fin. SMR 23 no.10:67-68 0 162. (MIRA 15:10) 1. Starshiy kontroler-revizor Kontrolino-revizionnogo uprayleni-ya po Donetskoy oblasti. (Donetsk Province-Auditing and inspection) I  -Efroim Pinkhusovich; TSENTER, VAYNSHTEYN, German Mendelevicb; 4N.$HjN,, Yakov AlIterovich; GULYANITSKIY, B.S., re6.-,-YfflUYM, O.M., red. izd-va; OBUKHOVSKAYA, G.P., tekhn.-red. [Improving the procedure of melting and casting primary magnesium and magnesium alloys]Usovershenstvovanie tekhnologii plavki i litlia. pervichnogo magniia i magnievykh splavov. Mo- skva, Metallurgizdat, 1962. 34 p (MIRA 16:3) (Magnesium-Metallurgyi  1. Mrsili:4. -T. Ya. 2. USSR (600) 4. Clothin-- Industry - Study and Teachin.- IndustrJal training at Industrial traininz, schools of clothtnZ inJustry durin_, the period of apprenticeship. Le_-. Pron. 12, no. U, 19;2. 9. Monthly List of Russian Accessions, Library of Congress, -1953. Unclassified.  ~ I L1)FS.jrT' awim jumvicil . - - --- - --J- - I - I , Promyshlennost' SSSR za xv let. Moelma, Partizdat, 1932. 111 p. diarrs. Industry of the USSR during 15 years. DLC: HC335.L64e4 SO: Manufacturing and Plecbanical Engineering in the Soviet Union, Library of Congress, 195,3-  -- I.OKSHIN, Z".Lku! Ilumvicl - - - - -- - - PXSAlIg VA&W I=VICffj Tiashelala ijidustrila Y tratlom godu Pif-tiletka. Moskva, Gox. izao skonomichaskoi lit-ry, 1932. 136 p. UN NNO SOS LC, Soviet Geograpb7. Part 1, 1951, Uncl. //f I., " 'I/ ./,- ~;. . .: "t 1-1 1 ~ I -~ i  LOKSKINI EMTK MOVICR &IgSHINg UMIX IMOYIM* Iratkil ocherk razy1tila promyshlonnosti $$$I. Moskva, GlDl. sots.-skon. 12d,-VO, 1933. 114 p. DLO: ISOZZ5.L6478 IN NNO $03 Us Soviet Geograpkq# Part 1, 1951, Uncl.  LOKSHIN, EFRAV IIUDOTIM - LOKSAII, EFIM IMOTICH Promyshlennout' SSSR Y parroi platilet". Xoskyag Partlinoe lzd-Too 1934. 149 pe DLCt 3CM5.L6485 SO: LO, Soviet Geograpby, Part 1, 1951, Uncle  =Igl. Sovetskil soiuz - moguchaia Industrial' nAia, derrhavae MosIrva., Gospolitisdat, 1943. 63 p. IN DLC: ECM.L65 SO: LO, Soviet Geograpby, Part 1, 1951, UNcl.  Promyshlennost' SSSR. ',Ioskva, Gosplanizdat, 1947. 94 P. Bibliographical footnotes. Industry of the USSR. DLC: HC335.L64F SO: Mianufacturing and Mechanical Engineering in the Soviet Union, Library of congress, 1953.  T .'~ ---T- -777 --F-- -- ~~* I I v , ~ -,; iT7 ItLoksh.in Efraim Yii,~ovich. 11--in i r-nv--w i'vs ;tibzii-,~1ya "arcclr-o.eo Khozya,.-~Ftva 3SSIR ila.,inim7. for .3u:,- ~:,,~n:7 ~h- . -,~ 1-13 rror,o,.-,v of tint- [T3.3?-) ;It)s~,wt, f7~-7.- -1 't, " 1 ~--2. 1,,2 o. "  lurJuvich, -- -- - - - -LOKSHI.N. Efraita Economic law of the planned proportional development of the national econorTr. Moskva,, Znanie, 19.53. 31 P. TV 1. Russia - Economic policy - 1917- 2. Russia - Tndus.  HIMp E.Yu., doktor ekon. nauk, prof.; ANDREYEVA, 0.1., kand. axon. nauk; VOROSHILOVA' T.S., kand. ekon. nauk,, dots.; TARASIYANTS, R.B., kand, ekon. nauk, dots.; FASOLYAK, N.D., kand. ekon. nauk, dots.; EYDELIMAN, M.R., kand. ekon. nauk; YAKOBI, A.A., knnd. ekon. nauk, dots.; TYAGAY, Ye., red.; ITHIN, Yu., tekhn. reO. (Econorics of the supply of materials and equipment] Eko- nomika mattriallno-takhnicheakogo snabzheniinj uchabnoe posobie. 2., perer. I dop. Izd. Moskva, Gospolitizdat, 1953. 510 P- (Industrial procurement) (MIRA 16:7)  LOMHIN Z.- ---------- [Industry of the U.S.S.R. and ite.branch SSSR I as otraelSTaia straktura. Moskva, pri TsK KM, 1954. 31 P- [Kicrofilm] (Russia-Inftstries) structure] Fromyshlenuost' Vymehala Partiinaia shkola T- (KIMA 7:12)  i' T 33 AT ~.Pl) Ull TITL' "S' '."'A -TIT A',  Name: LOMLIN, Efraim Yudovich Dissertation: Basic problems of economicsof material resources in industry of the USSR Degree: Doe Economic Sci Affiliations I Not indicated-7 Defense Date, Place 1 16 Jun 55, Council of 11oscow State Economics Inst Certification Date: 6 ,*Lpr 57 Sources BUTO 14/57  M IOKSHIN, Ifrain Tudovich, kandidat skonomichookikh naulcZ AMONOV,I.I. F6daft(jF!,'- 1929TIMA. P.G.. tekhatcheakiy redAktor (Possibili+i,~s for economizing materials in heavy Indmatry] Reserry skonomit material'afth resursor Y tiasholol pronyahlon- nosti SM. Koskya. Isd-vo *Znanie.*1955. 39 p. OU-U 8:7) Natal industries)  LOKSHIN, R.Yu., prof., doktor ekon. nauk: FAIALIWA, G#F*, red,; BIRIMs tekhn. red. [Oatlook for the davelopment.of Soviet Industr7 daring the next fifteen years] Perspektivy rasvitiia'Promyshlennosti'SSSR ua blishaishie platnafteat' let* Koskvap Izd-vo "Zuanie." 1958* 39p;~ (Vesedume6behahestvo po rasprostranenilu politiohaskikh L nauchzykh znanii. Ser-3, no.19). (MIRA 11:9) (Ruseia-Industries)  RUMTANTSHT, A.F.; IWIMOV, A.K.; TZFLOV, G.V.; LMSHIN, Z.Tu.; KARFMO, A.P.; GRIGGRITET, A.Te.; PILIPMT, T.F.; FURSUGIN, T.I.. Prini- mal uchastiye YCLODARSKIY. L.M.; TTAGAT, To., red.; POPOTA, T., takhn.red. (Bconomy of socialist industrial enterprises: textbook] ICkonomika sotsialistichookikh promyshlennykh predpriiatii; uchebnik. Moskva. Gos.izd-vo polit.lit-x7, 1959, 591 P. (MIRA 13:3) 1. Kommunistichaskays partiya Sovetakogo Soyuza. Tysehaya partiynaya shkola. 2. Zamestitell nachallnika TSentrallnogo statisticheekogo upravleniya SSSR (for Yolodarakiy). (Industrial management)  PHASE I BOOK EXPLOITATION SOV/4786 Lokshin, Efraim Yudovich, Doctor of Economic Sciences, Professor Voprosy ekonomii materiallnykh resursov v promyshlennosti SSSR (Problems of Economy of Material Resources in Soviet Industry) Moscow, Gosplanizdat, 1960. 364 p. 6,000 copies printed. Ed.: I.S. Maksimov; Tech. Ed.: Ye. S. Gerasimova. PURPOSE: This book is intended for designers, scientists, economistsp and managerial personnel in industrial establishments. COVERAGE: The book deals with the effectiveness of efforts to achieve economy of the material resources of the national economy of the USSR. The topics e-iscussed. include the level of utilization of material resources in Soviet industry, reduc- tion of weight of machinery And goods, reduction of waste, new sources of raw and other materials and the noimalization of their consumption, socialist competition, and economical industrial organization. No personalities are mentioned. There are no references.  A4*W111, N.Tu,j prof., doktor ekon.ziauk; ANDRZMA, 0.1., kand.ekon.nauk; VOROSHILOVA, T.S., dotsent, kand.okon.nauk; TAILASITANTS, dotsent. kand.ekon.nauk; PASMUK, N.D.. dotsent, ki3nd.ekon.nauk: XYDELIKAH. H.R., kand.okon.riauk; TAKOBI, A.A., dotsent, kand.okon.nauk; PISMOV, V., red.; KUKHIN, Tu., takhn.red. Elconomics of the supply of materials and equipment; a textbook] Bkonomika materiallno-takhnichookogo snabzhenila; uchabnoe posobie. Hook-va, Gos.izd-vo polit.lit-ry, 1960. 510 p. (KIRA 13:11) (Industrial procurement)  KHRUTSMp Ye.A.; ULK�jj1".ju.,,. doktor ekon. nauk., prof., red.; SERGEYEVAp AeSoy tekhn, red, (Problems of economic relations In socialist industry; text- .book]Voprosy khoziaistveMkh svIazei v sotsialisticheskoi pronyshlennosti; uchebnoe posobie. Pod obshebei red. E.IU. Loksbina. Moskva, Mosk. Ordena Trudovogo Krasnogo Znameni in- t narodnogo khoz. im. G.V.Plekhanoval 1961. 49 p. (Division of labor) (Industrial mane ement) (MIRA 15:8)  RIWANTSEV, A.F.; YEFIMOVs A.N.; TEPLOV, G.V-; KARMIKOj A.F.; GRIORIYEV, A.Ye.; FILIPPOV, V.F.; FEMIEGIN, V.I.; TYAGAT, Ye.0 red.; TROYANOVSKAYA, N.., tekhn. red. [Economins of industrial enterprises; textbook]Ekonomika pro- mWshlenrqkh predprilatii; uchebnik. 2.., parer. i dop. izd. Moskva, Gospolitizdat, 1962. 574 p. (MIM 15:9) 1. Komunistichoskaya partiya Sovetskogo Soyuza. Vysshaya partiynaya shkola. (Industrial management)  LOKSHIN, E. Yu. "Organization and planning of material and technical provision and of marketing in national economy" report; to be subnitted for tbe '*.-;~4 w ..';; A Umtiw. of Scic~:.ce crtd lrechf:o) ofcl fol 0 C. 21-, 21, V, f", ~" . , PP I - 4 ~],:? Daveloped Areu - ~!writzerIn.,I, Fc'j  YEFIVOV, A.L., glav. red.; BACKNUE, AN., red.; VOLODkZM, L.U., red.; GMS17MG, S.2.., red.; GL'.ZBU."-.G, -;.Z., red.; DUI.'-'~UECV, G.F.J. red.; KLM-11"', red.; 111M.MKO, K.I., red.; P101-iXtov) F.V., red.; IXHOLIKOV, A.I.I., red.; MILOV, P.N., red.-, MAITSKAYA, F.V., rod.; LOKSIF111, E.Yu., red.; 06T.:DVITYAITOV, K.V., red.; FOSVYA1TS-KM,--S~.., red.; P,,UDEI;SKIY, G.A., red.; 111AZU11-OV, N.A., red.; hUw!A11T-12T"V,A.F., red.; TATUR, S.K., red.; S111MIGALITER, L.Ya., red.; BAZA1XVA, G.V., starshiy nauchnyy red., kand. ekon. nauk; KISELIMAH, S.M., starshiy naucimyy red.; GLAGOIZV, V.S., nauchrVy red.; TUVANUVA, N.L., nauchr~rf red.; DIAGODARSKAYA, Yo.V., I-ltid. red.; SHUSTRUVA, V.11., mladohiyy red.; GMDUKOV, Yu.A., 11and. ekon. nauk, red.; ZMISKIY, M.I., red.; LOZOVOY, Ya.D., red.; SSWEYEV, A.V.J. dote., red.; KHEYFETS, kand. t+)khn. nauk, red.; MUDOVICH, Yu.O., kand. ekon. naulk, red.; bYSOYEV, P.V., red.; KOSTI, S.D., tekhn. red. [Economic encyclopedia; industry and conatruction]Ekonomiche- skain entsilclopediia; prov:~shlennostl i rtroitellstvo. ChlorW red. kollegii: A.V.Bachurin i dr. Mosl-va, Gos.nauchn. izd-vo "Sovetskaia entoiklopediia." Vol.l. A - 1.1. 1962. 951 P. (MIRA 15: 10) (Russia--Indu--trion-Dictionaries) (Construction industry-Dictionaries)  L.Ya., ckoktor ekon. nauk, p-,of.; I.F.; B.I., k.'nd. ekon. ilauh, dots.; .S., k.end- el-on. nauk; MIG011,1YEV, A.Yc., doktor elron. nauk, prof.; ITIII, L.I., Lol:tor ekon. nauk, prof.; ~ ~,Sffllf ~,E~ dol-ftor ekon. nauk, prof.; lj~'IZIMSSER, S.Yo., doktor okon. nr-,uk-I prof.; OBLOVSKIY, Yn.A., IzanO. al-on. nauk, dots.; SOKOLOV, -on.t Iii-of.; 51:ASS, N.Yo., cok-tor okon.nauk; doktor ell Ivu;- STEIIANOV, A.Ya.; ULITSIM, L.I., doktor akon. n(uk, pi-of.; FOI)GORMNA, V., red.; TitOYATIOVOSKAYA, N.., takhn. red. (Economics of socialist industry; textbook]Ekonomika sot.,iali- stichoskoi proT.-yshlennonti; uchobnik. Pod red. L.I.Itina, B.S.Gerashchenko. 2., 6op. i perer. izd. 1.!o&kva, Goopolitiz- dnt, 1961. 775 p. 04111~ 15:10) 1. Poscow. GonudarntvenriG-.~ ekonoiAchenkiy institut. 2. Za-.,cdu- ,.,uslichiy I:tifcdro, el-oromilci i)ronrshlennosti Fookovshogo gocu- davotvcrnogo ekonomicheskogo institidta (for Itin). ki,ussia~Inclustries)  RUMTANTSEV, A.F.; YEFIMOV, A.N.; TEPLOV, G.V.; LOKSHIN, E.Tu.; KARPENKO, A.P.; GRIGORIYEV, A.Te.; FILIPPOV, V.F.; PERESIZGINI V.I.; TTAGAT, Te... red.; TROYANOVSKAYA, N., tekhn. red. [EconomieB or industrial enterprises] Ekonomika promyshlen- nykh predpriiatii; uchabnik. 3. izd., parer. Moskva, Goa- politizdat, 1963. 574 P. (MIRA 16:10) 1. Komministicheakaya partiya Sovetskogo Soyuza. Vysshaya partiynaya shkola. (Industrial management)  AKOPOV, R.Ya.J. kand. ekon. nauk, dots.; BASYUK, T.L., doktor ekon. nauk, prof.; BIRMAN, A.M., doktor ekon. nauk, prof.; GRIGORIYEV, A.Ye., doktor ekon. nauk, prof.; DOKUKIK, V.I., prof.; IKONNIKOV, V.V., prof.; KONDRASHEV, D.D., doktor ekon. naukj KURSKIY, A.D., doktor ekon. naukj WKSHIN, E.Yu., doktor ekon. nauk, prof.; MALYY, I.G., kand. eko-n-. -na-uT,- dots.; PERVUSHIN, S.P., kand. ekon. nauk; PLOTNIKOV, K.N., TYAPKIN, N.K., kand. ekon. nauk; FILIMDNOV, N.P.9 kand. ekon. nauk; SHAFIYEV, K.N., doktor ekon. nauk- prof.; BAKOVETSKIY,Q., red.; KOKOSHKINA, I., mladshly red.; MOAKVINA, R., tekhn. red. [Economics; communist means of production)Politicheakaia ekono- m~la; kommunistichankii sposob proizvodstva. Uchebnik 2., pe- rer. i dop. izd. Moskva, Sotsekgiz, 1963. 599 p. (MIRA 16:5) 1. Chleft-korrespondent Akademii nauk SSSR (for Plotnikov). (Economics) (Commimigm)  BERRI, L.Ta., doktor ekon. nauk, prof.; MAKSD-'OV, I.S.; BRAGINSKIY, B.I., doktor ekon. nauk; GRIGORIYEV, A.Te., doktor ekon. nauk, prof.; ITIN, L.I., doktor ekon. nauk, prof.; ID~~ ~ , prof.; KAMENITSER, S.Ye., doktor ekon. nauk, rr~of.; OBLOKSKIY, Ya.A., kand. ekon. nauk, dots.; SHASS, ICU., doktor ekon.nauk, prof.; STEPANOV, A.Ya.; ULITSKIY, L.I., prof., doktor ekon. nauk; PODGORNOVA, V., red.; TROYANOVSKAYA, N., tekhn. red. [Economics of socialist industry) Ekonomika sotsialisticheakoi promyshlennosti; uchetnik. 3., dop. i perer. izd. Pod red.L.I. Itina. Moskva, Gospolitizdat, 1963. 646 p. (MIRA 16:8) 1. Moscow. Gosudarstvennyy ekonomichaskiy inatitut. 2. Zavedu- yushchiy kafedroy ekonomiki promyshlennosti Moskovskogo instituta narodnogo khozyaystva im.G.V.Plekhanova (for Itin). (Russia-Industry)  LOKSHIN3 Z.Yu., doktor ekon. nauk; ANDREYEVA, 0.1., kand. ekon. nauk, dotc.; VOROSHILOVA, T.S., kand. ekon. nauk, dote.; SADOMTSEV, V.K.p kand. ekon. nauk, dots.; VJ"-TOi, P.V., kand. ekon. nauk# dots.; TARAVY/di"PS, R.B., kand. ekon. nauk# dots.; FASOLYAK, N.D., kand. ekon. nauk, dots.; LOZOV, Ya.D.,, st. prepod.; SWELEVA, Z.S.p st. prepod.; HOVIKOV, D.T., aspirant; PORA-LEONOVICH, B.N.; ALEKSANDROVSKIY, V.V.; BURSHTEYN, I.I.; EYDELIMAN, B.I.0 red.; MOZGALEVSKAYA, S.A., m1ad. red.; GERASIMOVA, Ye.S.,, tekhn. red. [Manual for the supplying and selling of materials and equipment) Spravochnik po materiallno-tokhnicheskomu snabzheniiu i sbytu. Moskva, Ekonomizdat, 1963. 344 p. (MIRA 17:1) 1. Nachallnik ekonomicheskogo otdela Upravleniya materiallno- tekhnicheskogo snabzheniya Soveta narodnogo khozyaystva Mo- skovskogo gorodskogo ekonozicheskogo rayons. (for Pora-Leonovich). 2. Nachallnik otdela snabzheniya 1-go Gosudarstvennogo podship- nikovogo navoda (for Aleksandrovskiy).  LYUBOVICH, Yuriy OsiPovich; LOKSHIN, E.Yu.p doktor ekon. nauk, retsenzent; LETENKO, V.A., kand. ekon. nauk, retsenzent; TURKISKIY, I.L.y retsenzent; FASOLYAK, N.D., kard. ekon. naukj, retsenzent; YAKOBI, A.A., kand. ekon.nauk, retsenzent; LEPNIKOVA, Ye., red. [Working capital and its use in U.S.S."R. industry] Oborotrwe fondy i ikh ispolIzovanie v promyshlennosti SSSR. Moskva, Izd-vo "Mysl' 11 1964. 302 p. (MIRA 17:4)  LIOK~;HJN, Efraim Yudovic~; Ei,41i'MiCiV, V., red.; T., red. FU-S.S.R. industry in 194C-!~)03; an hic-torical e-,.-',Fiyl Pro- nVA-lennost' SSSR 191,C-10/63; ochork istorii. Vla.-knra, 1,.Ysll, 1964- 3812- P. WIRA 17: 10) wi  M 4 It u is 0 4 M I .0 ILI, U. .0 IM a -a I - I-AL 1~ - . a so It V. AAAL -wit XMIgs JIM *goal @as I ta. A A_.v 1-0 pf"11111111 #119 Fl. M &.0 - )ar I 011110titative allsourptials saidysis wft d4 aid oaf pro attl d I11 ootai a- WM A. V. ffil_rFoal Ond IAA..bjn. p 8 fit 60WIV) 1h d l , , e egive' "I'll 'If lac"'d with malls and Ilif rof In file I e Pil" "Y lo"lidur wrf* ditid. by measuring The InImAly ,I it-cars In am SPP COUBlotW f 2 i - I o P"viet mal arriffifleor. fiff i maliany eannivi to a mitirtar sal"natirief. The I'Molls a" I"IWC!Iln" lot the verond with (Nito6litio wro, lobillifi hi he I th b l a aw o e r tai t tiord toy liftent. analvii lit hivh twill-loolf I#& Ill"d Anil 44 1Ila Italls Is ".Of uboatil.l or j I., Itor GIFIN. of the to" emits, lit* doorrent" Moverli the results ociWained by this livelbod and thaw of chi Alialylis transett front AM to 0.02%. 11. 2. Kari 0 age see moo Ifflaftell CLASUFKATICU a % a. I L a 4*A2*9 6.-- a 6 1 AA A 11 U 00 t0 4 4 IIII&A 0 0 0 ; 9 S 0 ; I 1 0 0 0 0 0 0 0 a & *1* 0 0 0 : 0 0 0 4 0 0 0 11111 see alf- Iad 04. 0. 'J"ll do am. As. 4 Oil0 0 0 0 0 * 0 0 0 0 0  137-58-6-13269 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 6, p 300 (USSR) AUTHOR: Lokshi TITLE: Dynamic Theory of the Martensite Transformation (Dinamiche- skaya teoriya martensitnogo prevrashcheniya) PERIODICAL: Tr. Novocherk. politekhri. in-ta. 1957, Vol 71/85, 161 pp, ill. ABSTRACT: Description of a new dynamic theory of martensite trans- formation (MT) developed by the author, and results of an in- vestigation of the effect of one-directional (ODC) and omni- lateral dynamic compression (OLDC) on the MT process. The experiment was carried out with seven alloys, containing (in 76): C 0.4-0.75, Mn up to 19.82, Si 0. 15- 3.85, C r (in one alloy) 11. 5, Ni (in two alloys) 0.12-10.3, Cu (in two alloys) 0.04-1.98. ODC was achieved by explosion of a TNT charge. For OLDC the sample was placed inside the TNT charge. The rate of growth of martensite crystals was also investigated by measuring the speed of propagation of the detonation. It was established that ODC and OLDC cause MT when the intensity of the stress sur- Card 1/3 passes a certain critical value. This critical value, for the al-  137-58-6-13Z69 Dynamic Theory of the Martensite Transformation alloys under investigation, lies in the range between 1.4 and 1.7-105 kg/cm2- The quantity of martensite which forms'us a result of an explosion in the zone of plastic deformation, is the same as in' the zone of elastic deformation. Consequently, MT under dynamic stress is regulated by the intensity of the stress on the front of shock wave moving along the metal, and not by the amount of plastic deformation. It is established that the speed of the process of MF is faster than the speed of sound in steel and is 6500 m/sec (speed of sound i-n steel %/5,000 m/sec). According to the dynamic theory of MT, the process of formation of martensite crystals is treated as a process of form- ation of crystallization nuclei and their spontaneous growth. The formation of crystallization nuclei takes place in corners of microdefects as a result of stress concentrations created during quick cooling of steel or in the process of plastic deformation. Formation of crystallization nuclei as a result of usual fluctuations of energy is possible also. The spontaneous propagation of the MT reaction can take place only when the difference between the squares of the pressures in the martensite and austenite in the boundary zone between the phases equals or exceeds a certain critical value which depends upon temp- erature. With an increase in C content the difference between the pressures in the martensite and austenite at the temperature Tpincreases, whereas the speed of the MT process decreases. The dynamic theory of Mt explains such Card 2/3  137-58-6-13269 Dynamic Theory of the Martensite Transformation features of '..%4T as limitations in the growth of martensite crystals, develop- ment of the MT process in certain temperature ranges, the existence of temperatures of a beginning and end of MT, stabilization of austenite, etc. M.Sh. 1. Martensite--Analysis 2. Martensite--Theory 3. Martensite--Thermodynamic properties 4. Alloys--I'ransformations 5. Nitrotoluenes--Applications 6. Martensite crystals --Growth Card 3/3 7  AUTHOR; Lokshin? F soy/ 163-58-2-317/46 TITLE: The Rate of Martenaite Transformation (Skorostlimartensitnogo prevrashcheniya) PERIODICAL: Nauchnyye doklady vysshey shkoly. Metallurgiya, 1958, Nr 2, pp. 205 - 2o8 (USSR) ABSTRACT: To determine the rate of martensite transformation a method was devised which is based an the evaluation of the effect of the propagation of a detonation through steel. it was shown that the rate of the martensite transformation may be determined by the determination of the detonation velocity. Tetryl was used as explosive; It has a velocity of detonation of 7200 m/sec. The velocity of the propagation of the detonation was determined by means of steel samples of a content of 0,35% carbon, 8% manganese and 100% austenite. A martensite transformation occurs in the austenite steel in the explosion. The rate of martensite transformation in steel is about 6500 m/sec. This value agrees with that of the oscillogram by Bunshah and Mehl. The experiments carried out for the determination of the Card 1/2 martensite transformation with steel platelets of different  The gate of Martensite Trarsformation SOV/163-58-2-37/46 thickness showed in all cases the same rate. This points to the fact that the rate of martensite transformation in a ateel sample of given composition represento a consta,it magnitude. There are 1 figure, I table, and 10 references, 6 of which are Soviet. ASSOCIATION: Novocherkasskiy politekhnicheskiy institut (Novocherkausk Polyte-chnical Institute) SUBMITTED: Novemter 4, 1957 Card 2/2  18M AUTSORs SOV/1 6 3- 58 -4 - 30/47 TITLEs Influence of a One-Sided and All-Sided Dynamic Compression on the Conversion of Austenite to Martensite (Vliyaniys odnostoronnego i vaestoronnego dinamicheskogo szhatiya n& prevraahzheniye auetenita v martensit) PERIODICAL: Hauchnyy-9 doklady vysshey shkoly. Metallurgiyal 1958t Wr 4# PP 178 - 183 (USSR) ABSTRACT: In order to obtain a stress speed comparable to the oonver- sion speod of martensite; the pressure at the explosion of bursting charges was used as dynamic stress. The explosion pressure was determined by the method worked out by the authors which is based an measuring the speed of the plastic metal flux. The speed of the plastic metal flux at the explosion was meas%tred by the methods of impulse X-ray photography. The inveiitigatione showed that the plastic metal flux at the explosion has the character of a steadily retarded process, The experiments showed that the initial speed of the plastic flux depends on the explosion pressure, and is virtually independent of the chemical composition and the structure* Card 1/4 The magnitude of the negative acceleration of the plastic  Influence of a one-Sided and All-Sided Dynamic soV/163-58-4-30/47 Compression on the Conversion of Austenite to Martensite flux, however, depends on the chemical composition and the structure, being independent of the magnitude of the explos- ion pressure. The curves obtained allow the following con- olusionst 1) The dynamic stress of a one-sided compression applied at temperatures higher and lower than T 9 causes a conversion of austenite to martensite. 2) The conversion of austenite at dynamic, one-sid9d compression occurs, in all alloys investigated here, only at a pressure higher than a certain critical pressure P or* 3) In the alloys investigated here, this pressure lies in the range of 1-5410 5 - 1-7-105 2 kg/cm.. P is somewhat greater for alloys with a stressing or temperature higher than T . 4) At pressure higher than P U or the quantity of the forming martensite increases with an in*- rease in pressure.- For investigating all-sided dynamic com- pression on the martensite conversion in a standardized trotyl Card 2/4 blasting charge weighing 400 g, a hole measuring 20 by 20 by  Influence of a One--Sided and All-Sided Dynamic Compression on the Conversion of Austenite to Martensite SOV/163-58-4-30/47 30 mm was out out. In this bole a cylindric sample, 5 by 10 mm high, was inserted. The remaining free space was filled with the explosive. The following ascertainments were made in the investigation: 1) The all-sided dynamic compression under high pressure (about 430,000 kg/cm2) guarantees an intensive martensite conversiont irrespective of whether the alloys have a higher or lower initial temperature in the martensite conversion than the one at which the all-sided com- pression took place. 2) The course of the martensite conversion process at all- sided dynamic compression, also in the splintering plane, and the obtaining of the same martensite quantity in the different points of the sample show that the martensite conversion process is not determined by a plastic deformation but by elastic tensions. There are 6 figures and 3 tables. ASSOCIATION3 Novocherkasskiy politekhnicheskiy institut (Novocherkasek Card 3/4 Polytechnic Institute)  SOV/1 37-59-3-7001 Translation from: Referativnyy zhurrial. Metallurgiya, 1959, Nr 3, p 290 (USSR) AUTHORS: Lokshin, F. L., Pertseva, A. P. TITLE: On the Problem of Quenching of Steel in a Field of Ultrasonic Hydrau- lic Shock Waves (K voprosu o zakalke stal, v pole gidravlicheskikil udarov ul'trazvukovoy chastoty) PERIODICAL! Byul.teklin-ekoii. inform. Sovnarkhoz Rostovsk. ekon. adm. r-na, 1958, Nr 7, pp 37-38 ABSTRACT: The authors describe a device which utilizes an under-water electri- cal discharge to simultaneously initiate a hydraulic shock wave and produce mechanical vibrations of ultrasonic frequencies (HSWUSF) A portion of specimens of steel UIZ were heated to a temperature of 9500C and were then quenched in water; other specimens were quenched from a temperature of 9500 in a field of HSWUSF, the fre- quency of mechanical vibrations constituting 600 kilocycles per second. The time of treatment varied from t= -to t z T ~ 10 min (where T is the time of cooling of specimens from the temperature prior to quenching to the temperature of the water). Tile investiga- Card 1/2 tion established the following facts: Hydraulic shock waves and  On the Problem of Quenching of Steel in a F.,eld fcont SOV/i37-59-3-7001 ultrasonic vibrations limit the possibilities of the forniation of a steani jaci~et around the specimen being cooled arid thus accelerate the process of cooling-, the amount of retained austenite diminishes as the duration of the HSWUSF is in- creased (the entire austenite was transformed into martensite in five minutes); the action of the hydraulic shock waves relieves internal stresses and reduces the tetragonal nature of martensite Phenomena comn-ionly occurring in steel during quenching and tempering operations are also observed in steel which is being proc- essed in a field of HSWUSF; therefore, the employment of this process in the industry will make it possible to combine the qUenching arid ternpering operations and thereby increase the productivity of the shops. A. B. Card 2/2  lioo 62030 S071137-59-10-211230 Translation from: Referativnyy zhurnal, Metallurgiya, 1959, Nr 10, p 285 (USSR) AUTHORS: _L9ksh1p,_g.L,. Andreyeva, 0.1. TITLE- Quench-Hardening Aluminum Alloys In a Field of Hydraulic Shocks of UJ&rasLonicd-1*Preq luency PERIODICAL: Byul. tekhn.-ekon. inform. Sovnarkhoz Rostovsk, ekon. adm. r-na, 1958, Nr 12, pp, 49 - 50 ABSTRACT: The peculiarity of the method consists in the simultaneous action upon the metal of hydraulic shocks and ultrasonic oscillations caur>ed by electric discharges in water, For investigations some "DlTuPburalumin specimens ME% Cu, 1.4% Mg) were water quenched at 500 - 5100c; others were heated up to 500 - 5100C and quenched in a field of hydraulic shocks of ultrasonic frequency. Subsequently the specimens were subjected to natural aging. It was established by roentgenostructural analysis and Card 1/2 hardness measurement that the quench-hardening In the field of hydraulic  67030 SOV/137-59-10-23230 Quench-Hardening Aluminum Alloys In a Field of Hydraulic Sh-)cks of.Ultrasonic Frequency shocks accelerated the aging process of Al alloys, particularly at the first stage. Re- crystallization processes of the DlT alloy were considerably speeded-up by treatment with hydraulic shocks of ultrasonic frequency. A.B. Card 2/2  16MI 18(-) SOV/16--59-1-27/50 AUT.- Lol-shin F L. TITLE: Application of Shock Wave Thoory to thz) Descri, tion of t-;,e Process of Martensite Crystal Grouth (Primerioniyo toorii udarnykh voln k opisaniyu protsessa rvota kristallov marten- sita) PERIODICAL: Hauchnyye doklady vysshey shkoly. Metallurgiya, 1959, 11r 1, PP 146 150 (USSR) ABST7~ACT: At first reference is made of other articles (Refs 2,5), then the author tries to ex,,,lain the curve due to R. 2. Burishah and R. F. Molin (Ref 3). Ile is of opinion tLat tho 11uration of the Growth of the ! artetisite crystals ir, determiriod by the ascendin.- branch of the curve arid that correspondixif-,ly t!- ' e velocity of -rowth anounts to abeut 7000 m/rec. A ma"hod wrts developed for measurin.~- the velocity of Croitth or martci-.-ite crystals which is based upon V 'r2 of the prc~j,aE;a- tion of detonation wave in stool. Measurements carried out according to this riethod uh,"Med V.at in ~:toel containin- Card 1/3 0.4% C and 8% 'Mn this velocity is dctermined by Dl~b6500 M/sec  Application of Shock Wave Theory to the Desc.~i, tion of 30111/16,,-;.~9-1-27/50 the Process of Marterisite Crystal Growth (Ref 7)- Ifence the crystals Crow with a vt2l(;city exceedino the velocity of sound in stael. If, for this reason, crystal growth is considered a roccsz of a deton--tion-type :;hocl: wave, this process nust lend itself to an explanation by marlls of the "stronr-11 shock wave coricopt. The author prov d exl;C!ri- mentally that durine dynanical pressing of nustenite the tr-"11.s- formation to martenoite tal,-.--,s place at -.L certain pressure Pcrit' ProceedinC from this f:~ct, the Cro---ith of crystals is described and it is :;hown Vatt it -,,Iy be con3idcred a wave process. At the front of :;tich L., wavp preszuro and d---,I,- sity un-~er~-o a jumj;. For tLe pur~;r)~~e of describir.L; :.uch ~n elastic wave the fundar.-.e.-ital t',-.L:(;ry of lar-e-arn~-.14-'-ide propr:.C;ation in colids i:; -applied. The mt.tiun of the modiun. can be investi,,aated by moai,3 of t',o Eulcrian of the method. In thiL; .aTer tho fundamei.t;~tl eq,tations desc---ibinL, the motion of the :,.icdiL:ri:, thc; equation of conservation of mass and of concervation of momentum are (1(--rived. T!,ey tre written down in their Lagrangian form. expressiri.- the motion of t-.-ach Card 2/3 particle. Equations (14) for the velocity D arid equation (15)  Application of Shock Wave Theory to the Description of ScV/1 6 ~-719-1-27/50 the Process of Nartennite Crystal Grw.,,,th for the stress 17' in the martensite ar'? derived. The values m of D and V c~-tlculated accorditi- to thi,~so equations for M 0 carbon i3teels with a varyin.~, carbon conterit qhOw a good aj;reement with experimotal infornatJon. There are I table and 11 referoiicea, 0 of ahich are Soviet. ASSCCIATIOII: Xovoclierkaoskiy politekhnicheskiy inztitut (Novocherkasok Polytechnical Institute) SUDMIT'~E,D: March 11, 1958 Card 3/3  S/058/61/000/003/015/027 AOO1/AOOl Translation from: Referativnyy zhurnal, Fizika, 1961, No. 3, p. 321, # 3E326 AUTHORS: Lokshin, F. L., Gontar" P. 1. TITLE: On Oscillographic Methods for Measuring the Growth Rate of Martensite Crystals PERIODICAL: "Tr. Novocherk. politekhn, in-ta", 1959, Vol. 73, Raboty kafedry fiz., pp. 11-16 TE?0: The authors adhere to the viewpoint of Arskiy (RZhFiz, 1957, No. 8, 19887) which consists in the following: the rate of crystal growth in length Is characterized by the part of the oscillogram corresponding to increasing electric resistance; the oscillographic curves of electric resistance changes during the formation of martensite crystal were obtained by Buncha4 R. F. and Mehl, R. F. (Journ. of Metals, 1953, No. 9). An increase of electric resistance is caused, in the authors' opinion, by appearance of distortions in the martensite crystallire lattice and, possibly, its temperature increase. The rate of crystal growth In length, based on the data of Bunchah and Mehl, is estimated to amount to -7,000 Card 1/2  S/058/61/000/003/015/027 AOOI/AOOl On Oscillographic Methods for Measuring the Growth Rate of Martensite Crystals m/sec, which exceeds the average sound velocity in steel and coincides with the magnitude obtained by one of the authors by the detonation method (P2hFiz, 1958, No. 8, 17987). E. Estrin i Translatorts note: This is the full translation of the original Russian abstract-.--' Card 2/2  88685 S/137/61/000/,1001/019/1043 AOO6/AOO1 Translation from: Referativnyy zhurnal, Metallurgiya, 1961, No. 1, pp. 33 - 34, # 1D288 AUTHORS: Lokshin, F.L., Lyutsedarskiy, V.A., Derevyannykh, A.P., Andreyeva, 0.1. TITLE: The Effect of Hydraulic Impacts of Ultrasonic Frequency on the Struo. ture of Quenched Alloys PERIODICAL: "Tr. Novocherk. politekhn. in-ta!', 1959, No. 73, Raboty Kafedry fiz. pp. 81 - 95 V~ TEM The effect of hydraulic ultrasonic-frequenc impacts on the struc- ture was investigated on,Z[l (D1) type alloys (3.8% Cu, 1.4 Mg), and A18 H 9 (Kh18N9) and ~ 12 (U`12) steel by measuring the hardness and by roentgeno3tructural analysis. A description is made of a device for the excitation of ultrasonic-fre- quency hydraulic impacts. All the investigations were made at a frequency of 500- 600 kilo-cycles. The specimens investigated were after quenching subjected to hydraulic impacts of ultrasonic frequency in a water bath. It was found that as Card 1/2  88685 8/137/61/000/1001/019/043 A006/AO01 The Effect of Hydraulic Impacts of Ultrasonic Frequency on the Structure of Quenched Alloys a result of hydraulic impacts of ultrasonic frequency, the aging process of dura- luminum alloys was considerably accelerated; limit hardness values in time are obtained earlier than during artificial or natural aging. After the effect of hydraulic impacts of ultrasonic frequency on the quenched alloys, processes in the alloys take place which are analogous to processes during tempering. In prac- tice, the use of hydraulic Impacts of ultrasonic frequency during heat treatment of steel, reduces the probability of crack formation and assures the formation of tempering structures within a shorter time interval. When subjecting steel to hydraulic impacts of ultrasonic frequency, structural changes of the same nature as in cold treatment, may be expected. There are 26 references. A. B. Translator's note% This is the full translation of the original Russian abstract. Card 2/2  "N 27372 S/194/61/000/003/038/046 D201/D306 AUTHORS: Lokshin F.L Lyutsedarskiy, V.A., Dyerevyannylch, a~,~iXeyeva, 0.1. TITLE: The effect of ultrasonic frequency hydraulic shocks on the structure of hardened alloys PERIODICAL: Referativnyy zhurnal. Avtomatika i radioelektronika, no, 3, 1961t 19, abstract 3 E134 (Tr. Novocherk. politekhn. in-ta, 1959, 73, Itaboty Kafedry fiz., 81-95) TEXT: Structural changes are investigated in hardened steels and aluminum alloys as resulting from their processing by hydraulic shocks at ultrasonic frequencies (500-600 Kels). It is explained that under the effect of hydraulic shocks, processes arise in alloys similar to those in annealing. The duration of these processes is much shorter than that in normal ageing and annealing. It is pos- sible to put into practical use the effect of hydraulic shocks in Card 1/2  27372 S/194/61/000/003/038/046 The effect of ultrasonic frequency... D201/D306 thermal processing of duraluminum, (the processing time is shortened and a higher degree of hardness is obtained) and of steel (the pos- sibility of cracks occurring is reduced, the annealed structure is obtained in a shorter time). The schematic of the installation is given. The results of the experiments are presented in the form of a table, graph and X-ray photographs. 14 figures. 26 references. f-Abstracter s note: Complete trauslation-7 Card 2/2  I 11OKSHP44 F. L. "Hydrvaic-Shock Treatment of Alloys" (Fqdraullo shocks of ultrasonic frequency, applied to a quenching medim,, helped to transform all the re3idual austenite and reduced the danger of cracking. A unit with a 1.5 in quenching bath has been developed). Paper presented at the All-Union Conference on Heat Treatment and Metal Science held in MaV 19600 Odessa.  AUTHIOILS: Lo.kshin, Fj~,.. Pertseva, A.P., Mikha,rlen~o, G.V., Lokshin, F. TITLE: The quench-hardening of steel in a field of hydraulic shocks and of ultrasonic-frequency mechanical vibrations. SOURCE: Metallovedeniye i termicheskaya obrabotka; materialy konferentiji p0 metallovedeniyu i termicheskoy obrabotke, sost. v g. Odessa v li.~o Moscow, Metallurgizdat, 1962, 221-232. TEXT: The paper'describes an experimental investigation of a new method 04, heat treatment of metals in a field of hydraulic shocks 3nd ultrasonic frequency (HSUS) mechanical vibrations, which consists in the quench-hardening (QH) of steel in water or oil under continuous electrical discharges. The resulting HS phe- nomena and US mechanical vibrations wi:~re made to assume frequencies from 100-600 kcps. It is shown that QH in a HSTJS field is ::onducive to a more complete transformation of austenite (A) into martensite (M). Cylindrical specimel-IS, 15-mm. diam, 20-mm high, of steels YSA (USA), Y10A (U10A), Yll (Ull), Y1Z (U12), IdN15 (ShKh15), 9XC (91,:hS), 7X (7Kh), and 7.~.3 (7KIi3), were tested. The di sch-arge -capacitor voltage was varied from 30-80 kw (depending on the chemical composition of the steel), its capacity held at 0.24 ~L f. These Z values detcrmine ej? 0- ra L  The quench- hardening of steel in a field of ... S/910/D'ZIOOO/000/007/013 the -Dressure, specific impulse, and specific energy of the shock waves. Effect of HSUS field on the amount of retained A: Test results are summarized fn -aiulf-- page t; =lca, -Mio-w_-i_nj~ ~that the-A-M transformation with HSUS QH is total. Effect of ~BUS on the fine structure of the M: Directly upon inception oi quench TQ-T-'th'Y- HSUS Yf_efd__Z~cT_s_On7thC -A. Tfi-en~-as-the cooling in the Ivf interval proceeds, they act also on the newly forming M. The results of X-ray diffraction analysis are shown, indcating that in the HSUS field :arbide formation proceeds even during the Q process itself. The carbides dztccted are Fe3C. Graphic representations of the process data show that, at any given temperature, steel QHQd in a HSUS field contains less C immediately after Q and anneal than t -e1 QHed in the ordi- f 5 C nary way. All other conditions being equal, steel QHed in a HSUS field coritains more C in the solid solution if its Cr is smaller. QH in a HSUS field is conducive to the sepaxation of the C from the :aolid solution, the formation of centers of the carbIde phase, and their intensive growth. Thercfare, the ordinarily observed Q -Dhenonricna, in which the growth of the carbide nuclei is impaired by their C-depleted immediate -zurroundings, are corrected by the FISUS field. Peculiarities of the structural forms of M- The i-nicrophotographs -shown manifest the zonuniform, Macro-aci 1 lar 2~1-sF_ructure obtained by ordinary QH, as compared with the crypto-acicular M structure with uniformly distributed carbides obtained in the HSUS field. Effect on the hardness of the steel: The steels QHed in a HSU5  T he qucnch-hardeninry of steel ir. a field of ... 31810162iOGO/0001007/013 have a more elevated hardne!is, and the reduction in hardnes.-, of such st(j,els begins at higher anneal temperatures. However, the differences are small in the QH(.-d state, since the 2 processes occurring, i)arnely, the A-IM transfori-natloji-on the one hand and the removal of residual C on.the other hard, have opposite cf,Lcts on the hardness. The deformation of the second kind in steel QHed in a HSUStficld are smaller than in steel QHed in the o~rdinary way; henje, the more elevatc4'13ard- ness of such steels cannot be attributed to stre8ses of thq second kind, but to t~e more refined IM structure and the dispersad moiaic str#turc. There are 10' -igures and 3 tables; no references. z ASSOCIATION: Novocherkasskiy polite kliniche s kiy institut (Novocherkassk Politechnical Institute). Cz-rd 3/3  AUTHORS: Lokshin, F. L., Andrt;yeva, 0. 1. TITLE: Effect of hydraulic and of ultrasonic---'requency mcchanic4l vibrations on aging and recryitallizacion proce3sus in aluminunl ;LRUY~;. SOURCE: lActallovedeniye i termicheska-ya obrabotka; rnaterialy konferen%oii po metallovedeniyu i termicheskoy obraborke, sost. v g. Odesse v 1960 g. 1.1oscow, Metallurgizdat, 11j62, 233-239. TENT: The paper reports the *results of an c%perimental investigation on the el.,Lct cited in the title and concludes that treatrnel~t of m,e-.al5 in a field of hydraulic 5hoc'L-1.1- and ultrasonic (HSUS) mechanical. vibratiors aqcelerates the aging p'zocess by 120-140 times with respect to natural aging or 1)y 'Or. 10 times as comparecl with artificial (high - tempe ratu re) aging', that the hardness of freshly quenched sz~eci- mens treated in a HSUS field, aftor natural aging, remains more elevated titan the hardness of specimens treated -in the o-rdinary maiiner; that the recrystalli~iatjon process procceds more intensively in a 14SUS field than under ordinary c nions; that tr0aiment in a HSUS field reduccs the ri.~crystz,-llizatio,,-ial-iiccution (RI)." tempcrature (T) of Al alloys Ul (DI) and A J18 (ALS) by Z70-3701C; and t4at the Z---.~ain growth in a HSUS field is significantly greater than in ordinary conditions Card 1/3  rl'foct of hyd"raillic shochs and o' of arin(,al of deformed mctals. Sp,.;circit~ns o" Liie DI alloy (3.6-,") Gli; 0.87~' Nfn)i 0 15-mm diam 20-mrn high, were quenched in water at 505-510 on-le of tho.so(: cirnt:nt, were aged naturally, oth(--rs %ucru artificially (h glh-T) a~,ed, at 150' fi~r ~O ani then aged naturally; some s~pccirnens, eshly cncheZ ex-nos 'I to M A.. f r qu a HSUE) field for 5 min, with subsequent natural a'ging. Thu HSUS fie"d was ~ro- duced by electrical discharges frorn a condenser; dischargr: voltagu 30-70 kV, condenser capacitance 0.02-0.24 ii[, I-ISUS frequency ZOO-600 kcps. Tzpica cf-rect of PISUS field on hardncsfi; Freshly qucnched specirnen.5 with a hardness HR 47 acquired HR R. -1n3 min e.,~.posure to the HSYS field; a like incr&L6e B B ~V in H would have required 30 min of artificial aging --04 6-7 hrs of natural i n g. R eas ~;peci-.-nenLi artifi4ially Upon completion of HSUS treatment, 1-11 was 80, whe R .B --ed for 330 min, with subsequent natural aging, did not 4!xcced H 70. Tep't R B results are graphed. The effect of the duration of the 14SUS exposure upon t40 subsequent natural aging is graphically sho%,.,r,. X-ray-diffraction phows shoNv tile accelerated appearance of the CuAl, linc after I-ISUS treatment. HSUS-stimdlated rccrystallizat4on experiments with j~-13 alloy (3.611o Iv';g) are described. Initisl upsettina deformation was varied from I to 42%. Some of the specimens were Card 2/3  Effect of hydraulic shocks and of ultrasonic- heated at various T for 50 min, and the RI T was determined by X-ray diffraction. The lowest RI T (3500C) corresponds to a deformation of 42%, whereas with trcatment in'a HSUS field, intensive grain growth was observed at 800 . The grain- cyrowth rate, also, was sharply enhanced by the HSUS fielcl. There are 7 figures and 6 Rus s ian -language Soviet references. ASSOCIATION: Novocherkasakiy politelthnicheskiy institut (Novocherk--Ssk Politechnical Institute). Card 3/3  S/126/62/014/002/016/ol8 E073/E192 AUTHORS. Lok.9hin, F.L., and Lokshin, L.F. ------------- TITLE- Tnfluence of the impact produced by a falling tond an the state of martensite in carbon steel PERIODICAL: Fizika metallov i metallovedeniye, v.14, no.2, 1962, 307-309 TEXT: Cylindrical 10 mm diameter,* 10 ffun long specimens of steels 40 and SILOA (UIOA), water quenched from 850 C, and of steel Y8A MA), water quenched from 820 OC, were subjected to an impact load produced by weights of lot J5 and 20 kg failing fron various heights. The compositions of the steels-were as follows: Steel C Mn Si S P - 40 o.43 0.50 0;30 0.028 0.032 u8A o.81 0.38 0.25 0.018 0.026 U10A o.98 o.28 0.23 0.020 . 0,025 The changes in the martensite as a result of the impact were determined by X-ray diffraction (using Debye-Sherrer 9 cm camera) Card 1/4  Influence of the impact produced s/i26/62/0l4/oo2/ol6/o.)-h E073/EI92 from the widening of tile (200) lines. Fig.). shows the ch;lngu ill the width of tile (200) line (22o) as lo-3 of tile radius oi thv are, for tile steel UIOA as a function of tile height (metrvs) of' fall of the weight; I - 10, 2 - 15, 3 - 20 1(g. Vjg.2 5114 r: similar change in width of tile line, (220), as a function of" the number of impacts by a falling weight of 5 kg for tile steel UlOA (curve 1), U8A (curve 2), and steel 40 (curve 3). The derz-(~,se in width of the lines as a result of tile imparts is cx; J-t~, the fact that under the influence of the stresses tile ptoce~--; -4 of diffusion are accelerated. Consequently, the solid sol,At- becomes less uniform and a part of tile carbon will the solid solution, leading to a decrease in the tetra~ro.,ij I the lattice and a decrease in tile stresses. With i nc. r(.- !, i j),~ impact stress the quantity of carbon rejected from thfi inti increases. At a constant stress the carbon rejection witi greater, the greater the load impact. With increasirig nur,;bor- impacts, the quantity or rejected martensite decreases, of rejection of the carbon is particularly large durin,,~ the f impacts. No details of the measurement of line thickner- Card 2/4  influenceiof the impact produced, S/126/62/ol4/002/Oi6/oi8 E073/E192 are given. There are 2 figures. and I table. ASSOCIATION: Novocherkasskiy politekhnicheskiy institut im. Sergo Ordzhonikidzq (Novocherkaosk Po-lytechnical Institute imeni Sergo Ordzhonikidze)* SUBMITTED: November 7, 1961 Card 3/4  Influence of the impact produced ... S/126/62/014/oo2/ol6/o-18 E073/E192 t3 Ilk BbIrema nadeHuR epy a, Card 4/4 Fig.l. Fig.2. VUC,10 Y&PDDJ  MIA  S oz: Ig- qg  ACC NRt AP6036h4o SOURCE CODE: AUTHORS: Lokshin,,..F._1. (14oscow); Vaynblat, Yu. M. (iMfoscow); Shakhanova, G. V. (Moscow) ORG: none )/66/000/006/0097/0!Crj i Korobo,,, 0. S. (Mos=4 TrUE.- Investigation of the dec6mposition kinetics of a supersaturated solid solution in alloy D-16 SOURCE- 10 . AN SSSA. Izvestiya. Metally, no. 6, 1966, 97- 0 TOPIC TAGS: aluminum alloyj electric resisGanco, thermal stability / D-16 aluminwa alloy ABSTRACT: The decomposition kinetics of the supersaturated solid solution in alloy D-16 (4.o% Cu, 1.35 % Mg) and 0.5% Mn) was investigated. The investigation supple- ments the results of K. S. Kirpichnikov and V. 1. Kulakov (Osobennosti stareniiya splava D-16. Termicheskaya obrabotka i svoystva splavov. 'fr. MATI, 19621 No. 55) 133). The decomposition kinetics was studied by dotormining the change in the electrical resistance of the specimens as a function of tino ond tomporaturo. Too experimental procedure followed is described by 14. A. Shtremell, 1. N. Kidin, and A. V. Fanov (Zavodskaya laboratoriya, 1960, No* 8, 1009). The experimental resulLs are presented graphically (see Figs 1). It was found that the changes in the hardn4 strength limit, and creep in alloy D-16 occur at later stages in the decomposition uDc: 669.715--  ACC NRs AP6036440 Mkin Fig. 1. Dependence between the rate o'0 J. change in the electrical resistance of alloy D-16 and the quenching X1 temperature %I _t-~Znch~rfg process of the solid solution than the change in the electrical resistance of the latters Nevertheless, it is asserted that a proper use of electrical resistance-tiMe curves does afford a method for, determining the optimum cooling rate of D-16 alloys. Orig. art. hass graphs#' SUB CODEt II/ SUBM DATEx 05Apr65/ ORIG REFt 004  LOKSHIN, F.I,. Work of the Council of Factory Laboratories in Lif-ht-Alloy Metallurgical Emterprises. Zav. lab. 31 no.11:24;3 165. (MIRA 19-.1)  KF3TOV, A*Te.,; SILIN, N.F.; KORCIIAGINA. A.M.; IDKSHIN, G. B.; KITAINA, S.N. Synthesis of terephthaUc acid via chloromethyl derivatives of aromatic hydrocarbons, Zhur.prikl.khim. 33 no.10:2329-2335 0 160. (MIRL 14g5) (Terephthalic a.cid)  M KW,.MV, A.Ye.; SILIN, N.Fs; BARANOVA, Ye.I.; WKSHIN, G.B. Production of terephthalic acid from commercial diethylbenzene. Zhur.prikl.khim. 35 no.4:863-866 Ap 162. (MML 15:4) (Terephthalic acid) (Benzene)  IN HOSHCHINSKAYA, N. K.; SILITN, N. F.; DI.JITRMT 0. ye. Yeo; LIBERZOlip V. A.; -G-B-: KORCHAGII -LOKS 1111, NA, A. M.; Prinimli uchastiye: ZALITSMIOVICH) T. A.; MAYSDOV, A. A.; SAPSOVICH, L. V.; SOKOLENKOI V1. atudent; ZEMLYANSK"A. L., etudent)m Preparation of aromatic dicarboxylic acids and their chlorides. Neftekhimia 2 no.4:541-549 Jl-Ag 162. (MIRA 15:10) 1. Dnepropetrovskiy khimiko-tekhnologichaskiy institut imeni F. E. Dzerzhinskogo. (Acids, Organic) (Chlorides)  ROZETTELID., G.S.; ROSTOVTSEVA, L.I.; PAYKINA, VJI.; TRAKHTENBERG, D.M. KHOKHLOV, A.S.. Prinimali uchastiye: WKSHIN G.B. Albonuraing a substance accompany-Ing the antibioties'nystatin and albofungln. Antibiotiki 8 no.3t2Ol-M7 Mr'63 (MIRA 1714) 1, Voooo7uznyy naucbno-isoleduviteltakiy institut antibiotikov i Institut khimii prirodnykh soiyedineniy AN SSSR.  KHOXHLOV, A.S.; LOKSHIN, G.B. Some cleavage products of malbonurain.1 ~.Okl. AN Sm us no.611320-1322 F '63. (MIRA 16:3) 1. Institut khimii prirodnykh soyedineniy AN SSSR i Vsesoyuznyy nauchno-issledovatellskiy institut antibiotikov. Predstavleno akademikom M.M.Shanyakinym. (ANTIBIOTICS)  F-JiGKiII.W.1, A-3.; SiDMIKEF, Chemical and speC,roscopic 3tudy rf alborouro,in. prir'-d. SC)ed. no.6:395-400 165. 19: -` " 1. InqtI tut khImil pr1rodnykI, soyedineniy AF SSSR i Vsonoru.-myy nquchnG- -i s sled ova te 1 ',,kiy 11n.01tut, anti bl, .ub7J-!',c-d Feb. 5, 19t'-4.  I .. t! '. t I , 'I ` -il . 0 C;~Tll- 1 ~ ;,- " :I ~ - I --- , I--11 - f - ~'. I L~.-l -- 1. ., .. . L -, ~ , - .. ', . . ; . I , ~-  MOEN, G.- M. KRISEVIC4`11 V. M. Nurseries (Horticulture) Omsk Province Work practice of fruit growers of Omsk Province, Sad i og., no. 7, 1952. 9. Monthly List of Russian Accessions, Library of Congress, -1953. Unclassified.  0 WKSHIN, I.A.; SULTANOV, S.A.; PULUYAN, I.G. I Present status of the development of the Bavly oil field. Geol.nefti 2 no-1:5-13 Mr '58. (MIRA 12:6) 1. Upravleniye neftyanny promyshlennosti Tateovnarkhoza. (Bavly Dintrict--Oll fields--Production methods)  G -!R- AP!03066~3, AU-7--~;OR: Vorob' V. G. Lokshin, L K'h~ Ttskovich, N. L. 117TI.9- Reducing the internal at--esBem in aturninum alloy products jyC- j termictlegitaLyan obraL-Gtkut metallov, no. 4. 1964, SOURCE: Metalbaveden TAGS: alumtnura a-IuV, dry i-f. acetone. alloy coOl- thcrma-) expancion, thermal dt~f,)~m;itlom ~-esi+jal 71r-t~S, internal gtress, stress relief, ailoy T' T RLng-!--,haptd 5arnpll~,, wpr- ut~-~,d to the effect of cooling r jk T A -~urniriurn alloys, ,-T%~jc-mtures irt the --tress reilef fri ou 11~ With ace- d E M,  -Z T I N N f A P4. 0 3 0 6  AC:C N;4 AP6031837 SOURCE CODE: UR/0129/66/000/0071004/0011 AUTHOR: Voroblyev, V. a.; Lokshin, L Kh.; ORG: ENIMS Title: Using vibratory-thermal treatment to reduce residual internal stresses in metal woric parts SOURCE: Metallovedonlye I termichaskaya obraboUca motallov, no. 7, 1966, 8-11 1"n MY.0"e7,40XV .0q's"ro9ti-ocl, TOPIC TAGS: mechanical vibration, vibration effect, high temperature effect, internal stress stress relaxation / 35L alloy, AL9 alloy, AL2 alloy kBSTRACT: On the assumption that the effectiveness of We vibration tr%tment of castings for precision machine tools must increase when It Is combined with heating in order to acce- lerate reWcation stresses, the authors performed appropriate experiments on using a special- ly designed test rig (Fig. 1) consisting of Sr-300clecti-omechanlcal vibration stand 1, isupport 2, bell furnace 3 with ventilator 4, and welded frame 5 whose refractory-Uned surface (table- top) supports the furnace. The frequency range of the vibration stand is from 60 to 300 cps Specimens cast from 35L, AL9 and A12 alloys were vibration-treated In Oils device for 1. 6 lir Card 1/3 UDC: 539.373:621.787/788