SCIENTIFIC ABSTRACT FEDOROVICH, M. - FEDOROVICH, V.P.

nwROVICH, 14. 'Use of matrix calculation in factory planning. 1$5 F 158, (Factories--Accounting) (Matrices) Top. skon. no.2:154- (KIRA 1113)  GILWS, G.G., kand.takhn.nauk; DONSKOV, V.Te., kand.akonom.nauk, retsenzent, speterade; MCROVICH, M.N., kand.ekonom.neuk. retsenzent; RISE, G.S. Zw red,-,~ ~TARA N.M., tekhn.red. (Setting up te -chnical norms in the food industry] Tekhni- chaskoe uormirovanle v pishchavoi promyshlannosti. Moskva. Pishchapromisdat. 1959. 289 p. (KLRA 14:2) (7ood.ludustry)  25(5) PHASE I BOOK EXPLOITATION SOV/2765 Fedorovich, Mikhail Mikhaylovich Organizatsiya I planirovaniye khimicheskogo predpri.yatiya (Organi- zation and Planning of Chemical Enterprises) Moscow, Gosplanizdat, 1959- 547 P- Errata slip inserted. 7,000 copies printed. Ed.: I. M. Petrushev; Tech. Ed.: Ye. S. Gerasimo,ia. PURPOSE; This textbook Is Intended for postgraduate students specializing in the organization and planning of chemical plants on the basis of principles governing the socialist industry. COVERAGE: The book reviews the scientific basis underlying organt" zation and planning of-layouts of socialist industrial enterprises. It outlines major differences between the capitalist and the.social- ist industrial enterprise, and points out the advantages of the latter. Chemical production processes and methods are analyzed and the trend to shift over to continuous production processes and. automated operations is pointed out. Organization of work, manage- ment of the socialist-enterprise and operation of its various -cal plant labora- officea with.automatic control equipmentl aheal Card 1/16  Organization and Planning (Cont.) SOV/2763 tories and their operations are described. In addition, the author reviews principles of Soviet cost accounting, financial forecast, pay scale and rates, remuneration of executivesq engi---- reerop technicians and workmen, the system of rewarding them for outstanding performance and the recruiting and training of chemical plant staff members. He also.reviews the production program of a chemical plant, its elements, capital investments, depreciation of capital items, various expenditures, commercia.1 expenses, over- head, etc. The author thanks economists A. 0. Letoshkin who participated in writing Aapters X and XI, N. A. Polyakova who participated in.writing Chapter XII, and A. 14. Kovaleva who parti- cipated in writing Chapter XVI. He also thanks N. A. Vlasova, I.M. Petrusheva, M. S. Ter-Stepanyants, V. A. Tikhomirov, Engineer I. I. Kovalin, Doctor T. V. Teplova, Professor N. P. Fedorenko, and D. A. Troitskiyifor their Pomments and consultation. The book contains numerous tables, graphs and sample.calculation1j. There are no references. dard 2/16  FEDOROVICHO M. Application of mathomati'co in plaiming. Vopookon. noOtI35-156 161, (MIRk W15 lChemical industriev) (Msthowtical modeLi)  =R(YnCH X H prof.; CEMWSKArAy'NoNep dote., kande ekon. nauk; )&,LMp doteep kmA. tbkbn. nM*j EDZHIRp L.Fe 9 kamdo ekono nauki RWAIrASPAp Z -.P.9 dotep kand. ekon. mukj BUMMf le.P,.# 4joktor tekbn, nauko prof.1 SKVORTSOVAV NOT.9-kaivl. ekon. Lauk; MWOROVICHs MaHep protep redel P=IWSEZ7p*1.M.p red.1 PONMWM'A, kx-~-t~- (Matbamatical met*ao'izi'~roduotlon plamirig] Matematicheskie metody v planim-isnii proizvodotva. Moskva# Izd-yo ekon,. 2-it-ryt 19616 150 pe 01IRA 34:8) 1. Mookovskiy'inzMnefto,;-ekonmibhbiUy inetitut i3a. S.Ordzbonikidso (for FedorovicW Cbereyskayaq Ne..Udov.t' Kozhinp Rugrantsevo Bopovo Mmortsova) (Economices Hathematic-92)  BISMEV, Mikhail Andreyevichi kand.ekonomnauk;_MRnVTrR,_EaiaiI -,-_Mikbmy2Qyic-'4-pr1&Aj* PMUSHEV, I.M., red.; TEL-MPAR-ANT-9-97". redel GHWIMOVAp Ye*S~p tekbnerede (Organization of the administration of industrial production] Organizatsiia upravlenila promyshleur7m proizvodstvom. Moskvap Gos.izd-vo planovo-ekon.lit-ry, 1961. 224 p. (KIRA 146) (Industrial organization)  FEDMOVIC HX.-; CHEREIS"j N.N.j SOKOLOVAI L.V.; TOEELKOp I.L. Computation of the technical and industrial plan of a chemical enterprise by themethod of matrix calculus. Khim. prom, no,9: 44-49 S,!6l. (MIRA 15:1) 1. Moskovskiy inzhonerno-okonomicheqkiy institut imeni Sergo Ordzhonikidze. (Chemical plants)  FEDOROVICH, M.M. (Production processes and their automation in chemical pIants]FroizvodstvenrWe protsessy i M avtotratizatBiia na khimichookikh,prodpriiatliakh. Yoskva, Mosk. inzhenerno- ekon. in-t im, Sergo Ordzhonikidze,, 1962. 51 p. (Automation) (MM 25:1-1) (Chemical industries-Equipment and supplies)  FEDOROVIC, M. [Fedorovich, M.] - Concept of complex automation. Podnik crganizace 16 no.11% 525-526 N 162,  unnanyTa. mikhail Mikhaylovich, doktor ekon. nauk; KOFMIKOV, A.M., red.; KOGAN, Te.L., red.; RAKIM I.T., tekhn. red. [Cybernetics in economicsj the economic efficiency of ap- plying cybernetics in the national econoz7) Kibernetika v ekonomike; ob.akonomicheakoi effektivnosti primeneniia ki- bernetUd v narodnom khoziaiFjtve, Moskva, Izd-vo "Uanie,u 1963. 43 p. (Novoe v-zhizni, nauke, tekbnike. III Seriia; Hkonomikap no.24) (MD[A 17:1) (Autoruation)  FEDOROV-r yUhjr. doktor ekon, riauk,, prof.; Prinimal uchastiye POGOSTIN, S.Z.,, kand. ekon. nauk; INSHAKOV, A.N.j, redo (Organization and planning of a chemical enterprise) Orga- nizataiia i planirovanie khimichookogo predpriiatiia. Moskvap Ekonomika, 1965* 462 p. (MIRA 1M)  SON FEDOROVICI KikhWIovieb.. prof,; KHORUBZMT, L.A.y nauchnyy tekhn. red. red.; HIRONOVs S.1a.) red.; RAKITINy LT.,, [Mathematical model of the technical, industrial and financial plan]Matematichookaia model' tekhpromfinplans. 1-10'sk7as Izd-vo "Maniev" 1962. 61 p. (Novoe v zhizni,, nauke, tek~mi e. III Serlia: Ekonomika, n0.3.3/14) (MIRA 15:9) (Industrial mang nt) (Economics.. Mathematical)  FEEDOROVICHI.M.M., prof.; RAZUMOVA, I.V. improvement of industrial planning in the chemical industry. Zhur.VKHO 9 no.ls24,43 164. (MIRA 17:3)  Auf Dem Weg Zum Stachanow Betripd (on the Roal To the Stakhannv lyitem) Aus Den Arbe Trmrfalirunrn Dqs K-libm-men (BY) N. Fedorowitsch. Berlin, Vprlag Kultur und Fortschritt, 1950 62P. (Kleine Buchere D-r Gesell-Sehnft T!ur Dnut1ch-3owjet.1sche Frpmd- Schaft, jeft 1) Description on Working experiences of the "Kaliber 2avokill for teqtin7 and ms,,,rurin_s' instru"nents, Its induFtriel deve!-)F-~.lnt, .-nd aFreat -chlp~,rr?- ments rt,,gardina the Fivs~-Yeat Plani.  MOROVICH,N.. W,44041mii: ~~, Valuable Initiative of Tarner Kralichkin (NIndividual and collective plans for increasing labor prodactivity.0 Sov.profooiusr 3 n0-9:90- 91 S 155. (MERA 8:12) (Labor productivity)  FRMOVICH, H. =Ivery~thiug for the man. .0khr*truda I soti.strakh. (Moscow-fthibitions) no.8.-9-14 Ag 1590 (MIR& 12:11)  IOFYZ, A. akoAamik; STILIBANS, L.; ZORDANISKVILI, To.; vortymag, x... r Aj Thermoslactric refrigerator. Khol.takh.33 no.1:62-63 Ja Mr 156. (Refrigeration and refrigerating machinery) (MM 917) -2r  57-28-34/'33 ATTTHORS i Stillbanat L. S. f Fedorovich. TITLEt On the-Performance of Cooling Thermoelectric Cells on Non- steady Conditions (C rabote okhlazhdayushchikh termoelementov v nestatsionarnom rezhime) PERIODICALs Zhurnal Tekhnicheskoy Fiziki, 19589 Vol. 28, Nr 3, pp-489-492 ABSTRACTs The performance of a cooling thermoelectric cell on nonsteady conditions was.theoretically and experimentally investigated here. The equation for the temperature of the cold soldered junctions (4) is derived. The analysis of this formula (4) shows that the inertia of the thernoelectric cell is a func- tion of the square of its linear dimensions, i.e. that the cooling velocity is inversely proportional to the square of its length. The cooling velocity increases with the current rise. The investigations were made in specially produced samples as well as in thermoelectric cells of usual construc- Card 1/2 tion. It is shown that the inertia also depends on the opera-  57-28-3-8/33 On the Performanoe of Cooling Thermoelectric Cells on Nonsteady Conditions tion amperage and can many times be reduced by the use of a pulsating current with ana~ylitude which surpasses the value VTL 34-1, of the optimum current Steady conditions. In the case of a pulsed operation the thermoelectric cell may for a short time guarantee a c oling which considerably surpasses the maximum cooling/v`aofifeady conditions. M. N. Vinogradov help.- ed with the measurements and the production of the thermo- electric cells. There are 4 figures, and 2 So-viet references. ASSOCIATIONt Institut poluprovodnikov AN SSSR)Leningrad (Leningrad Institute for Semiconductors AS USSR) SUBMITTEDi October 1, 1957 1. Refrigeration systems--Equipw-nt 2. Refrigeration systems ---Performance 3. Electric currents--Temperature factors TITIZ: Thermoelectric cells Card 2/2  34246 3/181/62/004/002/041/051 42 S-3 B102/B138 4"Tr"HOFS. Boltaks. B. I., and Fedorovich, N. A. "ITLE. Diffusion and solubility of silver in tolluride PERIODICAL: Fizika tverdogo tela, v. 4, no. 2. 1962, TEXT. Silver-doped Bi 2Te is an effective material for the negative sid,~ oil a thermocouple, Ag dilfusion and solution was studied with p-type B12Te, single crystals grown by the Bridgman method. The conductivity rf 1 1. - -4en, was the specimens was 500 ohm- cm- the thermo-emf coeffic. 11 ,-2010 av/de~g, Thej were cut partly in parallel arid partly perper~lic'.Ilar the cleavage plane. Diffusion annealing was carried cut in an argon 0 110 bracer and removin- atmosphere. Diffusion was investigated by using A6 thin layors, arid was found to be highly anisotropic; in the clea-;-age Plan:, '~-t-e difftzion rate wav 3-5 orders of maJnitude %AI:,her than in 'Lh_-, cro-l~ II ~ - - 6 -8 to -10 -5 cm /sec between ICII--', -1-1 "e" directior.. D w-s ch--n-ed from~10 and D, from -10- 11 to~,5-10- 80M2/sec between 300 and 500 C. Card 1/3  )1246 S/1 8 1 /" ~/004'002/041/0z' sjiubility of silver ... ~102'/B~138 Do -- exp(-0.42,/kT'cm2/sea D1 ~ 2.3.10_1exp(-1.17/kT)cM 2/Seco '."hp anisotropy in diffusion is attributed to structural anisotropy. The ~irdor of the atomic layers is _-Bi-Te if-Te ii-Bi-Te I- Bi-Te IC"' so t 'r. -at tliree Te plus two Bi layers form a quintetq which is separated from The one by a greater distance. Ag, and other elements of the first grr-,r! ~,an only penetrate in an interstitial manner. These interstitial al.cm!j tLre easily ionized and form donors. Copper diffusion in Bi 2Te; d is p. ay same effects. The same specimers were used to study Ag scluli--~n' F'nnealing time was varied between 17 and 96 hours depending on the -emperature, The solubility measured in tne range 200-5000C. was 19 3. C --'I - 3~51-10 atoms/CM Saturation is reached above 400c., s"adents V. P. Kokoyev and Li Min-i are thanked for measuremento. T.Jrai- are 2 figures and 2 references: I Soviet and 1 non-Soviet, The refer-3r.- to the English-language publication reads as follows. R, 0. Carlson, J.- Phys- Chem,. Solids, 15, 65, 1960. 1;ard 213  34246 S/181/62/004/002/041/051 Diffusion and solubility of silver ... B102/B138 ASSOCIATION: Institut poluprovodnikov AV SSSR Leningrad (Institute of Semiconductors AS USSR, Leningrad) SUBMITTED: October 26j 1961 Card 3/3  ~-'ffu'slon and solubility of Impurities In bismuth telluride. 1. Boltaks, N. A. Fedorovich. (;resented by.s. 1. -86f-taks--3.5 minutes). Report presented at the 3rd National Conference on Semiconductor Compoundsp Kiahinevp 16-21,Sept, 1963  3/181/63/005/003/036/046 B102/B180 AUTHORS: Boltaks, B. I., and Fedorovich, N. A. TITLE: Diffusion and solubility of cadmium in bismuth telluride PERIODICAL: Fizika tverdogo tela, v. 5, no. 3, 1963P 944-946 TEXT: The authors used p-type Bi 2To single crystals grown by the ;ridgman method to investigate Cd dilfusion along and across the C-axis 115). Diffusion along the C-axis was studied by by the traoor method (Cd successive removal of thin layers; across the C-axis (i. e. parallel to the cleavage plane) by contrast auroradiography. In both cases the experimental data fit in kry well with'-the straight lines in the log D-versus,-l/T graph, which are given by D -3 2 = 488-10. exp(-0.48qkT)cm /see 2 2 D - 10 eXP(-1.8ev/kT)cM /see. The diffu 0 differ. sion.shows.distinct anisotropy; e. g., at 530 C D,, and DL 0 by 3.5, at 350 C by almost 6 orders of magriitude. The solubility was Card 1/2  0 S/1 8 11131005100310361046 Diff-usi.on and solubility of cadmium B102/B180 studied with the same samples in the range 250-5300C. Determined from them tracer saturation.level, it was 2-10 18 - 6010 18 at/CM3.. The temperature dependence of the solubility has a maximum at 400 0C. There are 2 figures.~ IN-IASSOCIATION: Institut poluprovodnikov AN SSSR, Leningrad (Institute of Semiconductors AS USSR, Leningrad) SUBMITTED: Octobor 29, 1962  L 17998-~3 FWP(q)/EWT(m)/BDS_ AMC/ASD nrvi/ja ACCESSIM NR- AP3001;_01 S/Ol8lA3/005/006/1620/.1624 AUTITORSi Boltaks, B. I.; Fedoroviob, N. A. 40 TITLEs Rediffusion of'silver impurities from a solid solution of B12T?a B2~~ SOURCE: Fizika tvordogo telap Ve 5. nok, 1963, 1620-1624 4~TOPIC TAGS: diffusion.~ rediffusion, Jg, Bi, Te, So, 1, semiconductori. diffusion jeoefficient ABSTRACT: The environing atmosphere during rediffusion of n tilme~impuri ties i' :Seldconducting samples of bis=th tollwide-blamuth selenide was investigated in ,order to discover the role of thl atmospherq in the process. Preliminar7 data on !this study were presented by the Lthors (Ternm1ektrIchaskiye, svoystva ipoluprovodnikov. Izd. AN SSSRO L.g 1963) at II SoveshchRnive po ternoolektrichestvu, '(Second Conference on Thermoelectricity, February 1962). It wns shorm that an ,oxidizing atmo phere facilitates emergence of alloyIne adndx1bures to the surfnce of a sample. Th efficient -of silver ji on do _"he tested alloy was computed with proper c 11sideration of bYv-ement oflEeM m- Ory formed by bound immul U as A ,(grovith of the oxide film), and the value of this coefficient proved to be 10-8 i cm2bee at 300C. The rewalts thus found indicate that conditions for rediffusion ~q rd 3./g  L 17996-63 iACCESSICN NRt AP3001281 ':of' silver involve not only--, oxidAion -of the bismuth talludde-bismuth iselenide alloy but, alao the possibility of rapid diffusion to an interface. The introduction of' iodine such an alloy imposes a supplementary bond on the migrating silver, Ito Mnderingtts movement to the mmface, Or1g, art. hnst 6 figures dnd 4 formalas. AISSOCIATIM Institut poluprovodnikov Pq SSSR, Leningrad (Institute of Semi- SUBETTEDs 16.Tan63 DAIE ACQ3 01JV163 ENCL: 001 SUB CODE: PH No M? sm 005 0 MR: 0011 Card Valk" k  ir ea "iusion of silver qnd ooditz in lead ae,en4~~e - -Ku C,  AP5012595  9.,s F t", j !t,:~4.1; TI a," il~!, N A i ~71V.'~ /75~7-' h t Fedarovich N. A. i TriaK: D- If M- - r or m--- Orinblin ma, IbIgm cgym~Le S (2) -M6; EF1fAk& tyerdogo tell' i 4. io6q, L-)94-1595 ^--,~,mind, aelf-nide, chi 1 ne, p)-ry iri 1 dens~lty 3 x 10--",~ cd'~, and p-t~rpe Eb,*P- sam,31es dop-.-,i with mol.0.5% HazSe with hole dennity - 6 x 1019 Cd,3 hm Of ffas~-l Ttm ra&o&*--tJ--ve traccer uts intrudue-ed in tb-J. f activity wan ref-,istered vith a c ---7tef -Yh,~. Coef-ficieut in 'he P-fSoe -mrled In thc~ to -)r c~dariie dlff~--slm I v Fni Z-4,   'Upovich; MURWOV. Fedor MMylovich; GUROT. S.- FJDORQTICH, _~4ko"L --?8M1Wr;-1GJ,"1WAo Aso tqkhdcheskiy~redaktor Cloonomising electric power In Industrial enterprises; experience of Xoscow Industrial ad transport workers in saving electric power] Acononiia slaktroonergil ns, prodpriiatitakh; to opyta bor'by fabotnikov moskovskol proWshlonnosti I transports, sm. skonmiiu alektroonerglio [Xoskv~&-] Moskovskii rabochit. 1956. 62 p. (MM 9:7) (Koneow--Zleatric power)  rAPLUX, N.At; PLMffABUOTA9 N.No; SEURMINA, L.A.; SIROYNCHKOTSKATAg U.N.; MMIUSA ISD : ORROSM, A.S., prof.. red.; MANIKOT, M.Yes-9 ruQe; 33=mmo AsIes talihnered, [Practical manual on applying physiotherapeutic procedures] PrAtichaskoe rukovodstvo po provedenilu fisioterapevtIcheliklich protsedur. Pod obahchei red. I.N.Obrosovs. Moskva. Gos.izd-vo med,lit-ry Medgis, 1960, 182 p. (mm 14:3) le Chlon-korrespondent Akedemii meditainskikh nauk SM (for Gbrosov.). (P=I= TMM T)  Lioftl~~)V, Vale:,Jy Vasillycv.ith; RALIMI, Kh.'L, re-J. ; FEI~ VICH 14 V .1 nauctArs. red.; rj.'.; rea , (Miracles perform-A w4,thout I'mirlicles"; vtth addlenda dz-- scribing rhemleal exp3riments] Chudgqa Wz llclmdeo,,; s pri- lozhaniom opiannita khAmichoakikh opyll.ov. LotiLilri~ad, Ct.-Jo r7nanie" RSFSR, 196.5. 39 p. NIHA IS.-- 10)  FEDOROVIU,Nlna VjAdjmirqMt DAMASKIN, Boris Borlsovichl KOROU=Aq -ffa.$ fid. [Manual for practical training in theoretical electro- chemistry] Rukovodstvo k praktikumu po teoreticheskoi elektrokhlmii. Moskva, Izd-vo Moak. univ. Pt.l. :L965. 72 p. (MIRA 19:1) /1",  -Mf A, R. V -FIM-NaPi !,-; HA.H Ff, DO R I X H, 0. K. FUUN-L-S D V, ICH11 'Yorgange beim sintern mit flussiger phase in den systemen W-Ni-Fe und W-Ni-Cu." report submitted for 3rd Intl Conf on Powder Metallurgy, Eisenach, E. Germany, 13-15 MaY 1965- Ki6v, UkSSR. '2.  L 29_97-66 EW"r W/EPF (c)/EM4P(J)/ETC (m) W11/DJ/RX ACCESSION NR: AR5012169 UR/0292/65/000/003/0061/041 G78.655.066.621.822.5 3_6 SOURCE: Ref. zh. Kh1michaskoy I kholodillnoye mashinos"eniye. Ortdellnyy vypusk, Abs. 3.U7.422 AUTHOR: Petrov. Yu. N.. redorovich, P, T. TITEX: On the problem of optimal distribution of pqySapro4,~q~__r!jin ccatings on the shaft and bearing couple ;CITED SOURCE: Tr. Kishinevsk. s.-kh. in-ta, v. 33, no. 2, 1964, 78-85 .TOPIC TAGS: specialized-coating, protective coating, resin, antifriction beari thigh temperature coating MNSLATION: Results of optimal distribution of capronic coatings on a shaft-bear- 'ing couple are briefly described. The expediency of coating the bearing Insert but:.-...-- not the shaft with antifriction material is generally questioned. Physical imar of -the metallic polymer couple has not been studied extensively and further research is required. The study concludes that using a thin-layered capronic coating on them. .reversed couple of the bearing allows one to Improve the removal of frictional heat' iCard 1/2 ~ZR  -I ~ 't, ~- ~ " ", .- ~ 7 '.', , , 2997-66 ACCESMY NR: AR5012169 f junction clearance more than twice as much as in the fom Ato decrease the growth o .:er coupling, and also to exclude the possibility of disturbing the fluidity of 'friction due to deformations of the geometric form of the stationary part of the ;coupling. The employment of the metallic-polymeric frictional coupling In reverse !order in Production maintenance makes possible a boost in service life of a machine, ,part, 8 illustrations, 8 references. N. SolovIev. !SUB CODE: mr XE ENCLt 00 AJ_ ~0`  11146- ACC NRj AR5019273 SOURCE CODE: Uft/0277/65/000/007/0007/OOOT. AUTHORs Fedorovich, P. To ORM none TITLE: Effect of thermal processing and of fillers in caprone coatings. on their weai resistance SOURCE: Ref, zh. MaFhJ stroitelinyye materialy, konstruktaii I raschet detaley maehin. Oidroprivod. Otdel'nyy vypusk, Abs. 7.48.42 REF SOURCE3 Tr. Kiahinevoko ne-kho in=ta no* 2p 19649 86-91 j_v o 33 t TOPIC TAGSi Caprone, plastic coating, steel, wear resistance, thermal process, filler ABSTRACT: The wear resistance ofcaprone coatings (CC) on ste6l-45 (thickness of coating is 0.5 mm), treated by boiling in an oil bath at a temperature of 100-2000 and a subsequent slow cooling at the rate of 300 per hour, was determined on thoIV-L-1 MPfriction machingilan arrange- ment of roller and partial, insert. 1he combi_fihU-W-wfi76-u--n-d-er test for 4 houra at r-15 kg/smig and va0.9 m/sec,,without lubrication. The results showed that a thermal processing of thin-layer CC is a very important factor In wear resistance and antifriction propertleb. Use of a thin-layer of CC for repairing worn parts of machines is expedient both for reasons of economy and for longer serviceability of the -Cardl/2 uDc:(669.14.oi8+678,51.--539.538  ACC NRa couplings. The 00 on friction parts must be processed thermally in oil baths at temperatures or 170-IBOOC during 10 to 20 minutes to be followed, together with the bath, by a period of coolingp and It must be rpinforced-with a graphit filler amounting to 8% in weight. is SUB CODEs l3jO7 SUBM DATE% none CO,d 2/2 -tC-  L 29303-66 "'T _-AZC NR, tUt;)VID27~l"'~~,~W6Cg-CO-i)-g-.-M7OV7-[65/0001007/0007-[0001-1 iAUTHOR: Fedorov1ch,__P2 T. TITLE.'_Wear resistancJ of metal-polymer bearing mating-parts coated with ca pron i SOURCE: Ref. zh. Mashinostroitel! nyye materialy, konstruktsii i raschet detaley mashin. Gidroprivod. Otdell nyy vypusk, Abs. 7. 48. 41 REF SOURCE: Dokl. Nauchn. konferentsit professorov-i pre2odavat. Kishinevsk, s. -kh. in-ta, 1963. Kishinev, Kartya Moldovenyaske, 1964, 254-255 TOPIC TAGS: powder metal, polymer, friction, wear resistance ABSTRACT: A study was made of the wear resistance of metal-polymer S2u p~lins," in relation to their type of construction, slip velocity, loads, material of the mating parts, tnickness of the coating, etc. The research done on the wear resistance of capron coating and its dependence on the material.of the mating parts in the reverse bearing couplings have shown that the couplings which are most resistant to wear are made of a combination of capron and steel 45, In repairing the worn surfaces of friction couplings, it is beat to plate with capron the roller-type part., but use steel bearings. 17. SUBCODE: J1,140 - SUBM DATE: Une Card I /I A 1< UDC: 620.178.1  .:kCC NR, AM6002131 Monograph '2_.L Frolov, Nikolq Prokhorovich; Bessonov, Valeriy Georgiyevich; Zalov, italix 'D I Fedorovich; Petsolld, Timofey Makdimovich; Sm~ --Qr/ ~%sb-reinforced concrete constructions (Armotsementnyye konstruktsii) Minsk, Nauka I tekhnika, 1965. 90 P. illus., biblio. 2000 copies printed. TOPIC TAGS: conetruction materialo reinforced concrete, engineering technology PURPOSE AND COVERAGE: The book recommends technology to be used in manufacturing reinforced-concrete structures. It summarizes the results of the investigations of rigidity and crack-resistance of reinforcea concrete and analyzes some particular features of its work and design. In addition, an example of the design of a reinforced concrete structure is given, and the results of an experimental investi- gatJon of its performance are outlined. The book Is intended for engineers and technicians working in building and designing organizations, as well as for student specializing in construction and research workers in this field. There are 46 references, of which 26 are Soviet. TABLE OF OONTENTS! Introduction -- 3 Ch. 1. Use of reinforced concrete in construction -- 5 Card 1/2  -L 27220-66 ACC NRs Am60()2131 Ch. II. Materials and techniques in making reinforced concrete structures 12 Ch. III. Investigation of the physical &nd mechanical propt-rties of reinforced concrete -- 22 Ch. IV. Features in the performance of reinforced concrete 47 Ch. V. Design of reinforced concrete structures 73 Bibliography 89 suB com iii suBm DATE: o9jul65/ ORI G MW: 029/ OTH REF: 017/ F  L 27336-66 EWT(d)/ ;JP(c) jD/,DJI', S h ACC 11R: AT6008955 COEE: UR/O()00/65/0()C/()O()/0156/0161 AUTHORS: Petro-r, Yu# ORGi none TITIEt Investigation of the vear resistu.-co of capron coatings in normal and 'Uversed friction couple a durliW-- SOURGEt Moscow. Institut mashinovedeniya. Plautrrssy v podshipnikak-h ;_issl6do4mVi_, opvt pri-meiirnf~ra * skoltzheniya (Plastics in friction bearinp, research and.experiment in application), Moscow, Izd-vo Nauka, 1965, 256-161 TOPIC TAGSt antifriction material,, caprone, steel, oil, microscopep babbit, bearing material / HI-1M friction machine, Dp-11 oil, UIN-21 microscope., BN-3 babbit, 45 steel ABSTRACT: The geometry of wear of normal (Stee'l ahaft-caprone bearing) and reversed (caprome-ooated ahaft-ateel bearing) friction rkuplos was considered.. ,~W were and wear experiments with stool S=M-0-at, . ~AO.25-m thick) performed on friction mohine ml_,W.Veliminary exTorimonts showed that addi- tion of 8% graphite and boiling of oaprone at 180C in 4LDp-1-1 for 15 minutes Card 1/1,1-.  L 27336-66 ACC M AT6008955 improved its wear character'latical$ Theso'characteristics were measured as a function of time fc-r nornal and reversed couples at 50 kc/cm2 load and 0.92 M/Sec with Dp-11 oil lubrication, It was found tbat tho linear wear-rosistance of caprone in the reversed couple was almost threa times better than in the normal couple, although the wear by weight was about four times greater. The wear characteristics of the two types ofcouplos wore also measured as a function! of load (15-150 kg) and speed (0.631 0.92$ 1.55, and 2.1 m/soc), and experi- mental curves and a comparative table are presented (habhlt Ed--I-.behavior is t included also). Orig, art. has: 6 figures, I table, and/; formalasq,  8/181/60/002/01/09/035 BOOS/Boll AUTHORS: Borsyaky Pe Gep Fedorovioh, R. D. TITLE: Intrinsic Optic Absorption in Amorphous and Crystalline Germanium PERIODICAL: Fisika tyerdogo tela, 1960, Vol. 2, go. 1, PP- 45 - 47 TEXT: For comparison, the authors studied the amorphous and the crys- talline germanium within the range of strong absorption. 'The absorption coefficients were determined on the strength of measurement results of the passage of light through and its reflection from thin foils on a quartz bans. A certain shrinkage was always found to occur with the crystallization of amorphous foils. This reduction in thickness by 5-9% is indicative of a transition to a denser packing of the atoms. The optical proportion of the foils were measured in the air, as soon as possible after their removal from vacuum. The authors detected some ualitative characteristics of the optical properties of amorphous solid lines) and crystalline (brciken lines) germanium (Fig. 1). The ? reduced absorption coefficients k('A) for oviloulattd values of the Card 1/2 LXB  Intrinsto*Optic Absorption in Amorphous and 8/181J60/002/01/09/035 Cryttanne, Germanium BOOS/B011 spectral characteristics are shown in Fig. 2. It may be stated that amorphous and crystalline germanium resemble each other as to their optical proportion. They have the came range of intrinsic absorption, whose general course and intensity do not exhibit any great differencesp although there are some distinctly marked qualitative differences. These are caused Ly differences in the long-range order. The authors thank L. Apker, R. R. Philipp, and B. A. Taft for communicating their in- vestigation results In advance of publication. There are 2 figures and 7 non-Soviet references. ASSOCIATION: Institut fisiki AN 1J3SR Klyev (Institute of Physics At tha SUMEITTED: May 4P 1959 Card 2/2  879M S11811601002101210061018 b. Z + B006/BO63 AUTHORS: Borzyak, P. 0. and Fedorovich, R. D. ) TITLE: Optical Properties and Photoelectron Emission of Amorphous and Crystalline Germanium Films PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 12, pp. 3020-3025 TEXT: The optical properties of germanium films within the range of Intrinsic absorption have been studied many times. The types of films, however, were not named. Following it previous paper (Ref. 2) in which the spectral characteristics of transmissivity, reflection, and absorp- tion of amorphous and crystalline gormanium. films were studied, the authors have now analyzed the results obtained and determined the influence of the type of film upon these characteristics. The experiments were repeated with an improved method, and more exact results were obtained since various corrections (eg., for the spectral dependence of the refractive index) were taken into account. The device used for the purpose is illustrated in Fig. 1 and described in detail. The authors studied the spectral characteriatic!3 of the reflection and transmission Card 1/4  87906 Optical Properties and Photoelectron Emission S/181/60/002/012/006/018 of Amorphous and Crystalline Germanium Films B006/BG63 :,.-oefficients, and determined the influence of the atmosphere (air, vacuum). The spectral characteristics of absorption coefficient k(A), refractive index n(A), and reflection coefficient R(A) a be represented by I pma ',e rerese' 1: 2 I+R + I+R 2 2 +R 1-k )2, 10(1-R)(1-R')exp(-4nkd/A) and n - 1-R - (,_R)2 - (1-k) . Fig. 4 shows 2 k(A) and n(A) for amorphous (continuous lines) and crystalline germanium (broken lines) which were applied in vacuo. The dotted lines 'Obtained by Philipp and Taft (Ref. 5) show k(A) and n(A) for single crystals of germanium, without taking account of the oxide film on the surface. The effect of optical peculiarities of the films upon -the characteristics of photoelectron emission was studied with the samne. d,~vice. There tire 6 figures and 6 references: 4 Soviet and 2 US. ASSOCIATION: Institut fiziki AN US.3R Kiyev (In.,itttuto of Physics of the AS UkrSSR, Kiyev) SUBMITTED: April 10, 1940 Card 2/4  S11811601002161210061018 B00613063 Legend to Fij. 1: 1) Holdersi 2) Germanium vaporizer; 3) Hot cathode; 4~ Heaterl 5~ Windowel 6) BaO vaporizerl 7 Photoelectron collector; 8 Getterl 9 lo'nization pressure geugel 10) Carriage. The germanium coming from the vaporizer is precipitated on the hot part of the base as a crystalline film, and on the cold part as an =orphous one. Pme, 1.  '97 9(Y~ S118IJ6010021012.10061018 B006/BO63 % .0 300 400 Sod fx WON r-/I-j Card 4/4 .-.--.Puc. 4. -- - ----- -------  9, 24919 S/1181/6.i/003/006/016/031 B102/B201 .141-, PS-6 AUTHORS: Borzyak, P. G., Miroahnichenko, L. S., and Fedorovich, R. D. TITLEi Optical properties and photoelectron emission of Mg,Sb2 PERIODICAM Fizika tverdogo tela, v. 3, no. 6, 1961, '078 - 1785 TEXT: Mg3 Sb 2' the intermetallic compound of type 11 At-Vbstudied the most thoroughly heretoforep has been examined by the author,, for its photoelec- tric and optical properties. The Mg3Sb 2 films used for the investigation were preparedin different ways from pure magnesium and pure antimony; the initial substances had been supplied from the Institut obstichey i neorganicheskoy khimii AN USSR (Institute of General and Inorganic Chemistry AS UkrSSR) by V. P. Zosimovich. The photoelectric characteris tics of the films prepared in three different ways were the same. A method described pre- viously (PTT, II, P. 45 and P. 3020, 1960) was used to determine the optical constants: the measurement of the reflection and transmission coefficents of light under exposure from front and rest-. The monochromator Card 1/4  24919 S/I81/61/O03/006/0i6/031 Optical properties and photoolectron... BIIO'~/B201 of an C$-40P-4) spectrophotometer was employed for measurements in the 254 - 576 m1k spectral range, while a YM-2(UM-2) monochromator was used for the 450 - 1100 m1t range. An MCK-12 (ISK-12) spectrornnet,3r was used with X> 1000 m/t . Since absorption is dependent upon 4'. variously thick films were used for different spectral ranges. Since, however., a considerable light scattering was already observable for d~ I , the 1.ongwave limit for the experiments was set at hV - 1.55 ev. For wavelengths outside the region of self-absorption, only the refractive index was determined, namely, by an interference method. Films up to 3jk could be used for chis purpose. Beyond the self-absorption region the refractive index was n m 4.7. and the aielec- tric constant at high frequencies was 6 a 22.1. As may be seen from dia- gramp (1-R) - f(hv), light with hV> 3.3 ev in practically absorbed fully in ayere of 50 mu . The light source in the measurements of photoelectron emission (with SP-4 and Kr)-28(ISP-28)) was provided by a mercury-quartz lamp of the type nPK-4(PRK-4)1 the light energy at the input of the mono- chromator was determined by means of standard photocells. The photocurrents were measured by a d-c amplifier. 'The measured energy characteristics (as compared with those of Na3Sb) are as followat Card 2/4  s/16i/61/004/006/016/031 .24919 B102/B201 Optical properties and photoelootron... Characteristic Na 3Sb Mg3Sb2 Le VI ~rhoto 3.2 3.8 AE 1.1 0.8 El 2.1 3.0 affin 1.8 El 1.0 1.2 affin 1 2.1 2.0 qphoto The data for Na 3Sb are taken from V. F. Bibik, who works at the same laboratory as the authors. Eaffin is the energy of the electron affinity of the initial surfaces, E' that of surfaces with a work function re- affin duced by6T, & is the forbidden-band width. A. F. Mallnev and V- P. Yesellson are mentioned. There are 6 figures, 1 table, and 13 referencest 10 Soviet-bloc and 3 non-Soviet-bloc. The references to English-language Card 3/4 '0 -A  24919 S/181/61/()03/006/016/031 Optical properties and photoelectron... B102/B201 publications read as followet T. S. Moos. Proc. Phys. Soc. ~J, 982, 1950; V~ P. Gdrlich. Recent Advances in Photoemission. "Advances in Electronics and Electron Physics", Acad. Press, No. 4, 1959. W. E. Spicer. Phys. Rev. 112, 114, 1958. ASSOCIATIONt Institut fiziki AN USSR Kiyev (Institute of Physics AS UkrSSR Kiyev) SUBMITTED: October 28, 1960(initially) and January 9, !961(after revision) Card 4/4  BORZYAK, P.G.; SARBEY, O.G.; FEDOROVICH, R.D. Electron emission andconductivity_-ok~a ailic --tion -its with barium.,ozide.adoorbod on -siiifac'e. iz. d'.La 6 F no.8:224q.~-2Z$5;'_A 164' t;A 1. Institut fiziki AN UkrSSR, Kiyev.  ACCESSION XRs AP4022704 S/OU6/84/000/003/0345/0347 AUVORt Fedorovilvah, Rtlo TITLEt "Cold* elootron 4mission from CdS films (brier communication) SOURCEs Ukrayinalky*y fisy*ohWy shurnalp v@ go 3160 3o 1964g'345-347 TOPIC TAGS: impact ionization& CdS impact ionigationg CdS oonduativityp oadmium sulfide, alectroluminesoonce ABSTRACTo "Cold" ilsotron emission was observed tram thin films of CdS.in fields of the order of 10 volts/am and graiktar. The current density of emitted electrons was estimated from the light given off by the oathodolminesoont CdS *superstrate". HiSh fields were. obtained with low voltage by close (^J* 6 micron) eleo'trode spaoing. Glass served as the substrates The device is shown in'Fig. I of Enclosure Olo~ A consideration of the experimental data points to Impact ionization as the responsf- ble meebanismo 'The author thanks P. Go Borzyak# Corresponding Member of th#- .'Ukrainian Academy of Soisnoss wd Candidate of.Physical-Mathematical Soiscoes 09 00 Sarbey for their discussion of this work and for valuable suggestimse" Orige arto hasi 4 figures* and 2 numbenA oquatioriss, Cbrd. 4   hi n 11v  L 21238-66, EwravEkaw/r/F."(t) zip(c) jD/aG/AT .ACC NR: AP6003814 SOURCE CODE: UR/0181/66/003/001/0276/o278 'AUTHORS: _Tomchuk, P. M.; Fedorovicb, R. D. ORr,: Institute of Physics AN UkrSSR, Kiev (Institut fiziki AN UkrSSJ TITLE: Emission of electrons from tb1A metallic film 'Z P I " V -qw -T55 SOURCE: Fizika 'tverdogo tela, v. 8, no. 1, 1966, 276-278 ~TOPIC TAGS*, electroluminesconce, electron emission, gold, electron temperature- volt ampere characteristic ~ABSTRACT: This Is a continuation of earlier work by one of the ,authors Fedorovich with P. G. Borzyak and 0. G. Sarbey, Phys. stat. ;801. V. 55, 1965~1 dealing with electroluminescence and electron. emission from thin gold filmo, enhanced by reducing their work func- itions and attributed to the appearance of sufficiently hot electrons i !in the films. In the present note the authors consider the mechanism ~that leads to the Yeating of the electrons in such films. As in the paper, it Is assumed that the film constitul;es a system of ;metallic islands, randomly distributed over the surface of a dielec- Card 1/2  L 21238-66 ACC NR: AP' 003814 5 tric. Tha- electron temperatur,~.,,tv- constant in each island. Formulas tare given for the power recetvel by the electrons from the field and for the power given up to the atoms in the film. It is deduced from the power balance and from the equations for the emnssion current ~that the logarithm of the emission current should be proportional to ithe reciprocal of the square root of the product of the conduction current and the voltage applied to the film. This dependence is found to agree with the experimental data so that I,; is assumed that the proposed mchanism Is Indeed the one'realized In t1ne film. The authors thank P. G. Borzydk,and 0. G. Sarbey for participating in ~the discussidiTs-orig. art. has: I fig and 5 formulas. SUB CODE: 26~,o~l- SUBM DATEV'--O3Aug65/ -ORIGREF: QOI/' OTH REP: 002 Z.  ON OF lmq qATAM or vim VAMjFL m mmocARmij A.N.,.Kasw is. Bwtk -4 lu. B.,jr7ulw. Yu. B-s _E03ndch.-M6 M. 1. (Trud. Inst. Necti, Mad. Nmk SSSR (TrT=o Inst, [ttrQl., P.Cld. Sol.- lj'G.&;t.),j, 19%, 4 "1. h, 151-158; abstv. in mm. Abstm, VJ55 Yul- 49, 14306). -Y-ran oita*zts crad_uallY lasa tmlr activity by Vo aotlan of water vVOur famed during the synttogls of IVI"au-tons from cwbim mm=lda nnd b7drucen (mrlo I s1 I at 2W md arera6p presm". The rate of Iron oxidatl on datAildo an the d0datt M ant! rodwtj on romtl 0" "hick& !tako placo dwing M s~ntbwlsm Inactivntlen of IrCr. OaWysts Is dm to tjv' foirztion of famws oxide. CJ.  0 RAIANDIN, A.A., akademik; GUDKOV, B.S.; FEDOROVICH, R.M.- Mechanism underlying the interaction of cyclobexane with the surface of a metallic catalyst. Dokl. AN SSSR 155 no. 3:626- 628 Mr 164. (MIRA 17:5) 1. Institut organicheakoy khimii im. N.D,Zelinskogo AN SSSR.  FEDOROVICH, ~ywik Mikhaylovich; VOLIFKOVICH, S.I.j akaderikp 02 XOND ASHXOVA, S.F., red.; ~XZIYER, V.V., tekhn,red. [Temperature measurement] lzm erenie temperatury. Moskva, Izd-vo Moak. univ., 1957. 44 p. (laboratorrWi praktikum po khimicheskoi teklmologii., no.1) (MIU 17:1)  FEDOROVICH Ityurik M VOLIFKOVICH, S.I., akaderAk, red.; 114alovic NDWTMA, MY.# red.; GEGRGIYEVA, G.I.j. tekhn. red. (Pressure measurement. Elements of automatic control] Iz- merenie davleniia. Elementy avtomaticheekogo regulirovaniia. Moskva, Izd-vo Mosk. univ. 1959. 26 (LaboratorrWi prakti- kwn po khimicheskoi tokhnologii, noYo (MIIU 17:1) --~r R N~*  ALEKSANDROVA, G.G.; ZHUKOVAp V.A.; XONDRATIYEV, N.N.; KUSKOV, V.K.; MALETS, A.M.; SOLOMOKOVA, N.L.; j~FDOROVICHO VOLIFKOVICH, S.I.; akademiks red.; XOROBTSOVA, N.A., red*; TERMAKOVI M.S., tekbn, red. [Work in technology] Tekhnologicheskie raboty. Moskva., Izd- vo Moak. univ. 1963 3-15 p, (Laboratornyi praklikum po khi- micheskoi tekbnolo~ii; no-4) (MIRA 17:1)  KUZNETSOV, Vladimir Ivanovich; EYDUS, la.T.,, doktor khir.. nauk., otv. red.; XED.V-j9H,.,R.M.,p,red. (Development of the science of catalysis] Razvitie uche- niia o katalize, Moukvaj Naukas 1964. 422 P. (MIRA 17:9)  UPEMU1, Saveliy Llvovich; EYDYS, Ya.T., doktor khim. nF otv. red.; FEDOROVICH, R.M., red. [Introduction to the kinetics of heterogeneous catiLlytic reactions) Vvedenie v kinetiku geterogermykh katalitiche- skikh reakteii. Moskvas Izd-vonNauka", 1964. 606 P. (MIRA 17.-'/)  L I-P.84S-65 !JF(C)/AnV&3 1-2,L:,I) r a "N lip AP4Q4 3 37 F) -y, G. Pedoro-.- - -_�2rzyak, f~. G., Sarbc 0. f'i,~ika tverdogo tela, v. 6. no. q ii,,Pi TAGS: silicon, barium inorqanic compound, Dr- iunction, sur- 'ssivity, adsorption, electron emissiorl, ABSTRACT: A study was made of the electron emission from, clean junctions and oE the Pffc-,-t- -f" n-i- "-J A IT-, air 1! -1 Co, d 1/4  L 1881"5 ACCESSION NR: AP4043337 strong emisslon current.wasobserved at 200--270K under reverse voltages only on adsorption of BaO molecules on the junctLon sur- L.ace, which reduced the work function. The eneray of im-pact 4-n- was estlmatet~ to he i-, C'~_ dL wtLcn eip_( pp"_atua at vo.LtaLges cm. Lin the surface channel. Direct experiments on _nijie-,~r~ a--&Urt-aCe7 uneti;o!v-fdr!iW6d- a~~ w -3 . . I _ - - I - ~ - -1 1- - - -_ - his-concluslaft- iad _-Wa compQW00h of..._t e -temperature dependences of t -7; he emitission current and.the reverse-current through the iunction. 411~s reverse current was raised bly the adsornrion n1' BaC due to fcr- ma,~i_o., c)f a thick inversion layer 2bove -''he p-rect.Lor. of rhe sample. 7)rtq. art. has: 9 figures. ASSOCI ATI.ON-- Inst itut f fziki. All, MrSS.tt, Kiev (Physics Institute, card `4 gum, Ji  L 13843-65 ACCESSION MR: AP4043.337. AN lj'k.qqSltl- SUB14I!VTED-. 25Dec63 SUB CODE: SS UR REF SOV: Cord 3/4 005  L 18848-65' ACQ.SSIOH MR: AP4041337 Inst.", ~.ts for Measmvrent of culductivity ard electrc-ri Enus:Aon at rom teiriperature (left) and at low terperatures (right) Left: I - envelope, 2- post q 3 - sarple holder, 4 - striker 5 - evapo;N 'CTV' G- wi- Ktaw 7 - electiw collector 8 - unak electron etzrant netw 9 - elect7xxies, 10 - cathado- Itrainor, '11 mmormter, inolybden-M. rrx~j 'a arple -4 clamp- for sample, 5 - lead-in, 6 tbennocouple lead- 7---wintw_ 8 - weak electrcn currv--nt meter 1::t~~O-.-*,F-iivamrator 11 - nworeter. 12 4/4 _bd A W fbr~ Rdti 4-=  Given Naries pz) V, C Country: Rumania' Academic Degreest ~_rjot given- A.Mliation: Source -Tim'L so ara Timim ara:Medicala, Vo IVI, No 1. Jan-Jun 1961, PP 71-77:., Datal "Considerations on the TreatMent of *lomiooses With Griseofulvw. Authors: ANGHEELESCU, M. FED DOB=_$ St. RABAGIA, I. *)'Work performad at the Dermato-Venereal Clinic (Clinica Dermato- Venerologica) , Dimisdara. Gro 961443 .76  T. T. "Phamacolo.vical Study of the Plant, Pulsatilla n1gricans Stoerck." Cand Yed Sci, Lvov State Yedical Inst, Lin Hr-alth Ukrainian SSR, Dnepropetrovsk. 1954- (XL, No 8. Feb 55) SO: Sun. 'To. 631, 26 Aucl 55 - Survey of Scientific and Technical Dissertations DefqZd at USSR Higher Educational Institutions (14)  ~ a nd BATUM FEDOROVICH, 'T. 1. 114K0, T. L, of Dniepropetrovsk "on the Results (f the Pharmacological Investigation of the Medicinal it Flora of Southeastern Ukraine, a paper presented at the Fifth Conference of Physiologists, Biochemists, and Pharmacologists, 28 May - 2 June 1956, Miarlkov.. "Preparations of mothervort reduced blood pressure in dogs with presistent hypertension, and had an inonotropic effect on the heart. Seven preparations prepared from the leaves of hawthorn were found to be effective hypotensive agents. Alkaloide isolated from groundsel by A. L. Rekilko were found to have a tranquilizing effect on the organism. In large doses they depressed the central nervous system. The choliolytic action of these alkaloids ims found to be less yronoun6ed than that of Oropire. They were found to posses aponmolytic properties."  MANSIKOVIVH$ 7k.B.$ EMIAV3T$t Y.I.; WMARRVA, P.P.; PCKOTILEVKO,, G.M.; FEDOROYICH, Tj. Gonten~ of principal watex-eduble vitamins and carotene in fresh and V"o*vid donorso bloode Problsgematei perelakrovi no*2t4O- 42'162* (MIRI 1581) lo Iz Wedry farmikologii (zav. - doktor med.nauk Ya.13 Maksluovich) Luganskogo mediteinskogo instituta (dir. - prof. i*e.r. Pailchwkiy). 16i~) (VITAMINS) (BWOD-A#AiUIS IND COMISTRY)  FMCIVill?"I', V. A. Fedorovich. V.-A. "Geomor, hological and Seismotoctonic lConditions of So,~.c ,Regions in the Basins of the Rivers Kokoaeren aml Ilizhnii I'laryn." Trudy Kirgizs'r-.oi Kor:plek3nci r Ekspeditsil 193"' 33, Lenin--, ad vol. 2, part 5, 1935, pp. 193-220.  ------- - - wl-111-111. ...-j ~ . . I : I " I, i; -, , _. - 1, 1~ , -4;!-;  X r4JVIIV W.L%,AA, V . W. ~"- & wlu~~ T A~") W. . . "Increasing Qualities of Ingot Rimming Steels" p. 62, Trudy Instituts. Chernoy Metallurgii, Vol. 9, 1955.  In- Ilk a 1 04 lei. jai fit., .eI pis ill  SO'V11 37- 59 - 3-5307 Transtation from: Referativnyy zhurnal. Metallurgiya, 1959 Nr 3, p 54 (USSR) AUTHOR: Fedorovich, V. G. TITLE: New Method for Continuous Refining of Liquid Pig Iron (Novyy sposob nepreryvnogo rafinirovaniya zhidkogo chuguna) PERIODICAL: V sb.: Vopr. proiz-va !itati. Nr 5. Kiyev, AN UkrSSR, 1958, pp 35-40 ABSTRACT: A new method is proposed for the production of a low-carbon liquid intermediate product by means of continuous refining of pig iron in a trough-5haped converter (TC) with 02 supplied from above. The liquid pig icon without slag proceeds through an intake into the work- ing section of the converter. Its length, depending on the yield required and on the [C] in the intermediate product can attain several tens of meters. In the proposed variation of TC with a working sec- tion 20 m long (sketch adduced) the OZ consumption is estimated at - 160 m3/min at 7 - 15 atm pressure. The possible yield of the con- verter is 3 - 4 ton/min with 1.80/o C in the intermediate product. 02 is supplied through 100 pipes 5 mm in diameter-,., each set of 20 pipes Card 112 is supplied individually with 02. The distance from the outlet to the  New Method for Continuous Refining of Liquid Pig Iron SOV/137-59-3-5307 metal surface can be controlled and must range from.10 to 30 lance diameters, The internal contour of the TC has a rounded shape. The pig iron can be blown either directly upon being drawn from the blast furnace or in the mixer section prior to charging into the open-hearth furnace. The latter method is preferable. In the author's opinion the extraction of V is facilitated and the subsequent dephosphoriza-. tion in the basic units is simplified with the blowing of Kerch pig iron in TC. The prereduction of pig iron in TC can decreiase the amount of ore added to the charge, improve the conditions for dephosphorization and desulfurization, and increase the yield of open-hearth furnaces working with 60 - 700/9 pig iron by 50 - 1000/b. The method proposed can also be used for production of finished steel. Y u. K. Card 2/2  FUOROVICH, Y.G.t inzh,; KARF, S.F., insh, Ore and limestone briquettes In side-blowing highly phosphorous pig iron in.converters with use of ozygene Izvevye.uchebe sav.; cheri.met. 2 n0-7:35-39 J1 159. (HIU 13t2) 1. Institut cherno]r metallurgii AN USSR.Rekomandovano kafedroymetallurgil cberrifth metalloy Dusprodserzhinskogo vechernego motallurgichatikogo instituta. (Bessemer process) (Oxygen--Industrial applications)  Tj=OVICH, V.G.: XARP. S.P. Combined blow of high phosphorous cast Iron in laboratory converters, Izv. vys. ucheb. say.; chern.. mete no.8t34-,37 160o (MML 13: 9) 1. Dieprodzershinekly vechernly metallurgichookly inotitut, (Cast iron--Metallurgy) (Converters)  Iweatipting thavouverter'blawli* of high phorphorous cast iron# Vop.proizv.sta3.i no.8;3/#,-3$ 961. (Mk 146) (Steel-getanurgy) (Converters)  FEWROVICHj V,G. Row method for the d6ouLfumtion of liquid cast iron* Vop.proisvo stali nos8t39-43 161s (MM WO DeoulAwation TjqUiA Mete2g  mom P f to it 1) 11 u it 4 it is if a p 34 a J. )o 70w IT wit ift up ams- IT, 9 re 7, j I J At A4 M Is 4 1 f s p 0 V"iu 06M. ACWA�dt MiM. V._fq_"p*b, and a. sadk". _ ~ T"Aw PAOM U.S.S.R. IL IL-W. h7-7ia: l*w_Art ficonsuc mutw is -00 dvAq*WWM&Rgv tuPmmftm&OtDWW-. QWW 4 =Vr- ukd ampgtwlw betwom 0,39 and IOW ban cu be zoo so so 1*1 zoo too It 0 0 AM At Wi TT 7 A 00*00.000000o o f *o f *00*1 0*0;00 Of see *be@ *of* 06M  "Problem of I-leasurinL7. the 1.11crophone Effect of Carbon C7raniLle3,11 a pramer mad ,It the conference of the Acousticu CorG-ilcnlon AS USSR lv;ld in Lcii1r.-rad 1-3 geb 'l. 1,:-21610) 25 Feb 52 --M I M  FEDOFOVICH2 V. N. 7 -3f Acoustics,, Measure a" Feb 52 OA,ftouatic Method for Vibration Measuremente,'" V. w. Yedorovich Tekh Piz" Vol XXII.. So 2 pp 238-244 Describes acoustic method facilitating measurements of vibrations within 100-6pooo osc/oec ran,&~ and In measuring,acoustic pressure by an acoustic souna. bAebtecl to V. I. Boyteov for "ptl research. Received 2 Aug 51.  USSR/Acoustics - BlectroscouetIcOr,J-6 Abst journals Referst Zhur - F:Lzikaj, No 12j, 1956, 356ol Authort Fedorovich, V. N. Institutions leningrad., USSR Titles Method of Measuring the Acoustic impedance., Based on the Measure- ment of the Geometric Difference of Soumd Pressure Original Periodicals Akust. z'h., 1955.. 1, No 4, 36o-367 Abstract: 7he measurement of the velocity on the surface of the object, ne- cessary for-the determination of the acoustic impaAance, involves in many cases great tecbnical difficulties. In the method pro- posed, such a measurement is replaced by correspcrd' g measure- ment of souch pressures., or, more accurately speakli1g.. by volt- ages of microphones that measure these -pressures. The analysis of the equations of a 4-teriminal network (an acoustic one, if we deal with sound. pressures., and an electroacop.:atic one, if the terminal network comprises a microphone measuring this pressure Card 1/3  UM/Acoustics - JKLectroacoustics., j-6 Abet Journal: Referat Zhur - Fizika,, No 12, 1956, 356ol Abetracti vith its electric circuits) shows that the 2 additional known im- pedances In addition to tha,oeasured one (one of vhich could be most conveniently chosen to'be inflhite), are enough to yield the value of the unknown impedance. This Impedance Is determined in this case from the known impedance and from the complex ratios of the voltages of the microphones that measure the sound pressure at the surface of the measured 6nd known 4ppedance to the geometric differences between these voltejea and the voltages of the micro- phone that measures-the sovind pressure at the infinitisaimpedance surface. The calculations necessary to obtain the unknown im- pedance become quite simplified if one measures d1rectly the magni- tude and the phase of not ccaly the corresponding voltages., but also of the necessary geometric differences of the volanges. Mxie is indeed done in the measuring setup described In the'article, It eaploV 2 electroacoustical 'identical 4-termimal networks, at the Inputs of which there are acting simultaneously sounds pro- duced by the same source; the sotind pressures at the surface of the corresponding Impedances are measured by acoustic probes. An electric subtracting circuit gives the geometric difference between Card 2/3  UM/Acoustics - Blectroacoustics, T-6 Abet Journals Referat Zhur - Fizika,.No 12.. 1956, 356oi Abstracts the necessary voltages; the moduli of the c=esponding voltages and-of the voltage differences arameasured by ve-cuum-tube volt- meter, and the phase shift between-them is measured by a phase meter. The electrical circuit provides for compensating elements., with which both eleQtroacoustic 4-terminal netwoxks become fully identical stic load on them. By way of examples., measurements were* made with this setup on the frequency characteristics of active and reaciive conqments of an acoustic impedance of the "artificial ear" and also of the acoustic Im- pedance of natural earso measured through a telephone earplece with large aperture and with a #mup of small apertures. Card 3/3  71DOROVTCff.,,,V~,=healav NUO01a , vich; SLISNITS, Alekaandr Germanovich: -"Y"itan 1 0 tetvenMj, red.; DCBRTNM A,Ta., red.; SUSHWICK, T,Ieg takhn, red* [Methods of determining the quality of telephono transmission reeoummded. by the International Consultative Owittee for Telephone*and Telegraph] Metody otsenki kachestm telefonnol persdachi, rokonenduyeaws XXMT. Moskva, (ka. iitd-ro 11t-ry po voproem evUsi L rwUo. 1958. 66 p. (XIIIA 1297) Oelephone-% sting)  FMOROVICH., V. P. "Cepheid BI'Cassiopeiae" (Astropbysic a, Cbservations of Variables) Peremennyye Zvezdy, no 6, 1953, pp 412-414 Abs W-31146.,.l-peb 55  I F EDOIROVICH~ V. P. "AY Cassiopeliae" (Astrophysics, Obser7ations of Variables), Peremennyye Zveszy, No 6, 1953, PP 417Y418 Abs W-3l.146, i r-eb 55  Astrophysics,:Observationo.-,,of Stars (2190) Peremennne Zvezd-vp Vol 9)' No 4. 1953s pp 296-297 VMWVICH, V. P. I ffAW Cassiopeia" " Determinations were made of the brightness of this variable. Maps and graphic and numerical data are included in the article. Sot Referativnyy Zhurnal-Astronomiya i Geodesiya, No 2., Fab 54,'(W--30785, 28 July 1954.)  Astrophysics, Observations of Stare (1667) PeramenMe g!e*JYjk V01-9~ No 4P 1953o~P 302 FEDOROVICH, Vt"'~r OBS Draconis" Describes how the brightness of this variable was determined. SOi Referativnyy Zhurnal-Astronomiya i Geodeziya, No 1, Jan 54;(W-30785, 28 July 1954.) -p~ t  M Cepheid variable BI Cassiopoisse Porosvesdr 9 no.6:412-414 0 153o (KM 8.2) l,' Astranomichookiy soyst AN G=s (Stars, Variable)  IMMOVICH, V.P. amommu-no", AT Oassiopoiaso Per.svesdjr 9 no*6t4l7-418 0 153o (KLRL 8:2) 1, Astronomichookly sovet AN SM* (Stars, Variable)