FFMROV, G. F. I inzb. , i Studying the kin*tuics of the wave reoulting from the rel~~Be of water from the reser7oir. Trudy TPKIIEW no. 19:83-95 160. (KM 14:5) (Hydraulics)  SOV/IZ4-58-7-7630 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 7, p 43 (USSR) AUTHOR: Fedorov, G.F. TITLE: Local befo -m:ti )-nsof-t'h'e Translatory Wave Heading a Supple- mentary Water Flow.Released From an Elevated Reservoir and the Effect of Said Wave on a River Bed (Mestnyye deformatsii volny popuska i yeye vozdeystviye na ruslo) PERIODICAL: Tr. Tsentr. n.-i. in-ta ekon. i ekspluat. vodn. transp., 1957, Nr 1Z, pp 87-96 ABSTRACT: Bibliographic entry 1. Inland waterways--Physical properties 2. Water waves--Geophysical effects Card I/ I  AUTHORs Pedorov, G.F. SOT/lW-58-3-28/34 TITLEt Properties of the Matrices of Second Order and Their Application to the quad-rature of Some Systems of Differential Equations (Svoyetva matrits vtorogo poryadks. i ikh primeneniye k resheniyu v kvadraturakh nekotorykh sistem differentsiallnykh uravneniy) PERIODICAM Izvestiya vysshikh uchebnykh zavedeniy )Utemtika-., 1958, Nr 3, pp 217-P24 (Pm) ABSTRACTs The paper is a generalization of former results of the author (Vestnik Leningradskogo universiteta. Nr 11, 1953). In � I he expl'ipitly 'Considers the properties of the matrices of second order with vanishing determinant* In � 2 he-gives with the aid of these properties three conditions under which the system Al 7 y To + '~'l 'PI + !~~2 'P2) dx ("o is integrable by quadratures. Here the u, are constant matrices of second order and the Tj are scalar J functions of Z. There1s I Soviet reference* Card 1/2  Properties of the Nat-rices of Second Order and Their SOV/140-58-3-28/34 Application to the Quadrature of Some Systems of Differential Equations ASSOCIATIONs Leningrads-kiy institut kinoinzhenerov (Leningrad Institute for Cinema Engineers) SUBMITTEDs Rovembbr 299 1957 Card 2/2  vi FEDERAU-0 G.G.; GULIN, S.V. Polarographic m6thod of determining ferric oxide in cement slurry. TSement 28 no.2:22 Xr--Ap 162. (IffM 15:8) 1. Semipalatinskiy tsementnyy zavod. (Cement) (Iron oxides)  - FEDOROV2 (Y.-G-. -and -GOLOVIUA---E- j . So . "Influence of Phpidal and'Chadcal Factors in the Velocity of P2am Propa- , gation,," a p"r presented at the 6th International Conference on Combustion., Now Havvn,, 19-24 Augubt, 1956 C"Hates of Tech, Scies Insts of Inergetios AS USSRO Mot;cow A-52W,, 9 July 56  "Effect of Physicochemical Fac-tors on the Velocity of Flame Propagation." (Study o Combustion Processes; Collection of Articles on Work Done by the Power Institute imeni G. M. KrzhNIRnovskogo AS USSR) Moscow Izd-vo AN SSSR, 1958, 123 P. (Laboratory of Combustion Physics) for Abstract see Xhitrin, L. N.  )ZARIFIUNT$t Yu.A.; KISELEVt V.P.; FEDOROVj G.G. !f Chemical adsorption of oxygen on a freshly cracked graphite surface. Zhur.fiz,khim, 35 no.8:1885-1886 Ag ,61. (MM .14;13) 10 Mookovskiy gosudarstvennyy universitet, fizicheskiy fakulltete (Oxygen) (Adsorption) (Graphite)  S/020/61/139/00-/021/021 B103/B209 I.r. 4e4loo ATJTHORSs Fedorov, 0. G., Zariflyants, Yu. A., and Kise-ev, V.. F. TITLEi Chemical and physical adsorption of oxygen on the surface of freshly split graphite PERIODICALt Akademiya nauk SSSR. Doklady, v. 139, no. 5. !961, i166-I!6q TEXT: The authors studied the adsorption mentioned in the title by using finely ground natural graphite whioh was pulverized in an argon atmosphere. Studies of this kind are regarded as being important in the search for new ways of surface modification, in order to obtain effial-ent adsorbents and polymer fillers. One of the applied samples was specially purified. The pulverized samples had a specific surface of 275 and 400 m2/g. They were put into the volumeter under exclusion of!a'ir,, The specific surface was determined after a cycle of absorption measurements with oxygen from the low-temperature nitrogen adsorption by the b_4T (BET) method. The specific adsorption values of both samples veke-found to f--t well single isotherm. This indicates the good reproducibility of the surfa':.-- propx-r- ties for the grinding method applied, Control experiments showei that Card 1/4  271.67 S/020/61/139/005/021/'02' Chemical and physical,.,.. B103/B20'8 the fine iron powder which is always present (some fractions of one per. cent) in graphite thus ground adsorbs not more than 0.5% of the adscrbed amount of graphite. The interaction of oxygen with the fresh rlea7aga plane of graphite at room temperature is a typical case of activated chemical adsorption. The physical adeorpti;n is extremely low at these temperatures. Adsorption equilibrium is quickly attained in the Initial stage, which indicates the low activation energy of the process. With further pressure increase the adsorption inrreases very slo,Nly, The graphite surface is thought to be inhomogeneous. It consists of sites with different adsorption activity.. Ure surface is saturated with ohemisorbed oxygen already at a pressure close to the atmospheric one., Desorption measurements disclosed that all the oxygen adsorbed was irre~, veraibly bound to the surface. So further adsorption takes place on an oxidized sample. 1~he adsorption activity of samples kept at room temper- ature in an argon atmosphere for 1, 10, and 30 days did not change,. Specific adaorption was reduoed by about Mla by heating an ampul with non. oxidized graphite at 30000 for 50 hr. This may be due to partial satura. tion of the surface by gas molecules which egeaped from the glaas during heating. Graphite roasted at 8000C for 24 hr in an ampul which had Card 2/ 4  S/020/61/ 13910051021102 -11 Chemical and physical..- B103/B208 previously been degassed, lost only 10% of its adsorption. Such a high stability of free radicals on the surface makes graphite a suitable test object of the elementary interactions of variuus molecules with the sur- face radicals. Pulverization of graphite 'in dry air destroya the crystals in all crystallographic directions. The large surface thus formed 'nag a high content of ruptured n or 6 tonds which form centers of chemical 0 2 adsorption on the surface,. On the other hand, the activity of R.-electrons may be increased by lattice deformations in the basal plane which alac contributes to an increase in adsorption activity., By measuring the adsorption isotherms at -1960C., the authors proved that the ~.,hemisorption of oxygen at these temperatures is insignificant. The isotherms have hysteresis loops both on the initial and on the oxidized graphite sample, The authors believe that this loop which extends to the rangi~ oil low relative pressures, is dun to a certain swelling of the samplt-. The 02 molecules may penetrate into the interplanar spacts of th4 graphit'? crys.- tala which were largely destroyed during grinding. In the high pressure range, the hysteresis is obviously due to capillary condensation, *-n the pores and gaps between the particles,, Tho dneorption isotherm showa ii Card 3/4  S 102016 !/1'-1 9/001.~ /0') ~/02 Chemical and phyolcal,..;. B103/B208 break at F/F S - 01,25- This break may be rplated to the clparirg of some pores which were fillel at high 7apor tensions This break did zi~~t appear at low pressures,, The adsorpti.-zn is,.,therm of nitrogen ava,,ws r,,o hysteresis phenomena in this pressure range- This is explainsi by a higher penetrability of 0 2 at lcw temperarures.. For this reaacn, tha specific surface of fine-disperse graphite which was calculat~A from the low-.temperature N2 adsorption., may be it 1'.ttIq ~oo low, as ccmpare-i wl-h the surface acc~essiblo to 02 molecules . Th4s fact is 1, .~w e v er ti egl : g 11be for the authorst conolusions. There are 3 figures and 6 r -i f e re rv, 4 Soviet-bloc and 2 non-Soriet-tloc. The r,~fererv,-e to Inglist: larrsuag- publications reads as followei T.. Kcu,,Pzk~. H. TomOok, PYys R ev 1212 (1960). kSSOCIATIONt Moskovskly gosudarstvennyy un;.versitet im M. V. Lomonosova (Moscow State University imeni M. V. Lomon-cavO PRESENTEDs March 15, 196'oty M,, M.. Dubinin,, Academician SUBMITTEDs Maroh 11/, 1961 Card 4/4  ZARIFIYANTS, Yu.A.; KISELEV, V.F.j LEZHNEV, N.N.j NOVIKOVA, I.S.j,ff-PM, Srnthesis and functional analysis of oxygen complexes on a sur- face of freshly cleft graphite. Dokl. AN SSSR 143 no.6:1358- 1361 Ap 62. (KIRA 15:4) 1. Moskov suda;stvennyy uzkverBitat In. M.V.L,omonosova i Nauchno-i:tilyedogovatel skiy inotitut shinnoy promyst44nnosti. Predstavleno akademikom M.M.Dubininym. (Graphite) (Surface chemistry) (Oxygen compounds)  37521 5/020/62/144/001/021/024 BI 24!B1 01 _67 Y C, C 'UTh' !~'S: Zariflyanta, Yu. A., Kiselev, V. F., and Pedorov, G. G. TITL'_': Differential adsorption heats of oxygen and water vapor on the surface of graphite - ?ERIODICAL: Akademiya nauk SSSR. Doklady, v. 144, no. 1, 1962, 151-154 TZXT: Fine-disperse graphite with a specific surface S = 350 m 2/g, which had been obtained from natural graphite crushed in a ball mill in an ar.-on atmosphere, was used in the experiments. Adsorption heats were :.1.13asured using an automatic calorimeter with constant heat exchange, OxYgen adsorption was determined by a volumetric method, and by water vapor adsorption with magnesium perchlorate. These methods were described in .tef- 7 (ZhFFh, ,To. 6 (1962)). The initial adsorption heats of oxygen were very high (110 kcal/mole). With a surface coverage of about 0 .5 41.1/m2 of oxy,:en, the differential adsorption heat begins to decrease, and with 2 1;;:-:/M , its value is only,,/50 kcal/mole. The results obtained show a high de~;ree of reproducibility on fresh cleavage areas of graphite. The high .nitial adsorption heats are due to the formation of carbonyl groups', Card 1/3  8/020/62/144/001/021/024 Differential adsorption heats of ... B124/BlOl 0 radicals, and groups of the types 0V .(157 kcal/M), "b . 0 0 0 C (ill kcal/IA) or (105 kcal/IM) which probably appear prior to\the formation of the.peroxide radicals .1-0-0, on the surface. Some of them are successively converted to yield saturated oxygen-containing complexes. - Chemisorption phenomena could not be ob6urved. T'lle adsorption heats of water vapor on oxidized graphite surfaces vere a-L30 mec.sured. The 'graphite sample previously used for the :idsorption of oxygen was evacuated down t'o 10-5 mm,Hg and contacted vith'water vapor. The hi[;h initial adsorption heats (40 koal/M), which exceed the physical adsorption of water considerably,are due to the formation of hydroxyl groups on the graphite surface. The adsorption heats decrease with increaning cover&Je, and approach cond'~nsation heats when the coverage is 0-5 to 2 0. 6 P..Vrl.The adsorption heats on oxidized and hydrated Graphite vero vary close to the condensation heats. On an avera&e, water molecules form two hydrogen bonds with oxygen-oontaining groups and hydroxyl groups on th~! surface. The probability of adsorption on single hydroxyl groups in smaIl. There are 2 fib-ures. Card 2/5  ik/WF(C) /EWP(q) ItW(M) /*BDS APiTC/ASD Ps-4/1r-4 UWA# ACCEBSION NRt AP3004073 S/0076/63/037/007/1619/1622 AM IF MS tPedcrov.-G, Gol ZarIf lygnts. Yu. A.; Kiselev. Vo P. ~j T:ETL:-,:,,- TnOysle of the surface properties of a fresh fracture in graphitej SOUROEs Zhurnal f izicheskoy khimiip v- 37, no. 7, 1963, 1619-1622 TOPIO TAGSs graphite# oxygen, oxygen adsorptiont heat of adcorption.. -ABSTRACTs Authorer analyzed the reaction capability of the surface of a fresh ~rraphite fracture with respect to oxygen. A specially-purified, natural graphite 1,;,14s used in the experiments. A thin grist was obtained in a laboratory-type steel vAbre'tory mill with an overpressure of purified argon. The powder was then pqurcd into a glass ampule which was then soldered to the adsorption apparatus@ 5 er prolonged evacuation and deaeration of the apparatus to a vacuum of lxlo ~mercury column, the diaphragm was broken, the ample was evacuated and zhe : O~wgen adsorption was measured* Differential heats of oxygen adsorption were deteiminedo* The inhibiting effect of the reaction products on the oxidation process of a freigh fracture vas demonstrated. Assumptions concerning a possible mechanism of oxidation of the graphite surfice vere pointed out* Origs bXte has$ 2 figures* kssocjkTjoNt~Mbscow state university.  vapor adsorption adsorption by graphite, ABSrRACTt Authors studied the aft rption f water vapors on a fresh surface of graphite, Measurement of the 'water vapor adsorption shows that the physical adsorption isotherm is complicated by a cbemic &i reaction*. The value of the, irreversible adsorption measured after the adsorption cycle on the surface of fresh graphitel kept for a period of 48 hre. In saturated water vapors, consistat of 0-53 p mole/m . The differential of heat adsorption in the region of small surface area iv almost four times _greater than the heat of physical adsorption for the usuul oxidizing hydrocarbon adsorptionqq Apparently, the first traces of water adsorb chemically on the valence-saturuted carbon atoms. The graphite was left for 12 lire. to be exposed to atmoopheric oxygen before the desorption was measureds Almost all adsorbed ofygen was irreversibly bound with the graphite surface and its value was I p mole/m a Thusp the retention of fresh graphite in L 18307-63 EPR/EPF(C)/EWP(q)/EWT(m)/BD5 -,AFFTC/ASD Ps-4/Pr-4 ACCESSION NRs AP3004981 B/0076/63/037/008[LB46/i849 re j / , AUTHORS$ Zariftyants, Yue Asp ~Lselev -1V F-4 Fedorov, 0, 0, TITLEt Investigation of the surface properties of the freshly splitted gM~ ~Jt a SOURCEa Zhurnal fiz, khimii, T,, 37, no. e, 1963, 1846-1849 water heat TOPIC TAGS t heat Card. 1A  iL 18307-63 ACCESSION 11fis AP3004961 saturated water vapors does not result in full pasaivation of the surface* The adsorption of~oxygen on its surface is accompanied bythe release arge of a I amount of heat which indicates ohemical adsorption. Orig. art. hast 4 figures. ASSOCIATIOM Mcakovskly,gosudarstvenny,*y univereitet fizi'bheakiy faculltet (mos- cow state univeraityt physics faculty) I SUBMITTEDs 193ep62 DATE ACQs 06Sep63 ENCLs 00 SUB C ME i PRO CH NO REP 3OVt 006 CTHMs 001 1 Card 2/2  FEDOROV, G.G.; ZARIFIYANTS, Yu.A.; KISELEV, V.F. ~~ 0.. -, t, ~. Propertioa of the aurfRcm -)f a freshly cleft graphite. Part 3. Zhur. Ifiz.khim. 37 no.lGr2344-2346 0 163. (MIRA 17:2) 1. Moskovskiy gosudurstv*nnyy universitet.  DOBROVOLISKIY N.N.,- ZARIFITAIMS, YU.A.; K'SELOW, V.F.; N.N.; MOO, O.G. Properties of the surfaco of.a freshly left grai:~hlte, Part 4, Zhur. fiz. khim. 38 no.2%506-509 F 16~, (MIRA 17t8) 1. Moakovskiy gosudarstvawWy universitet Nauchno-issledovatelf- .gkiy inatitut shinnoy prorquhlennosti.  0 o A A-L, 00 00 C a 00 00 00 so woo 0-0 9 * 0 0 I A 0 1 w it u It w a m it is 0 0' 0 9. "T,710- AW, 0 # 0 0 *:0 x a M is v a 41 411 a 40 4 JF 2 Aclix", a a I fuliwall km dulitesous with the aid of coldws. V. 1. Khrmle"kil and Oel0Fw,*W - .00 1 Chm. (U. S. S. u .) 9. 1423 a IWO); cf. C. A. 33. tulliblift in the blitil tka of Ca for vi -Tb *90 u e su a cullitir PAUTAXIuml 13% rubi- tum. ith I p I C f 10 ftfl i woo w a. ar frect m o 1. _4104111 Chill, Slow goo goo goo 000 moo see ago '00 go LA-om.c6w,. UAJ ASS.SLA ONTAU111*61CAL UtISAIWE CLASWICAIMS -r- ;Lz too@ WOO we*$ .1 Mood if GMT 114% all-Ail am do* IT% -1-r-T-T 6 m ; 'I N IT I A 1 3 U 19 AT As 0 IT a lip0 IN a Ill w 9 a a 9 a 0 '0 o 4, 0 6 0 0 0 0 0 0 0 0 0 : 0 0 0 0 0 6 0 0 0 6 0 0 0 0 0 * 0 0 0 0 9 0 0 oil! 0 0 :.: 0 0 0 0 0 9 0 0 0 * 0 0 0 0 0 0 0 0 * 0 0 6 00 goo go 0 a of 6 4 0 0 0 01  Ammy G,Is; ZHDIff& 4sIo We dinews the article "Pbesibilitles for mschanisi~g the work on oom6=ication lines' 0 Aytom.9 telem. i xvias' nos'407 AP 157 (XIU lit4) 1, Starshly ele"romewhanik Liskinskoy distantsii signalizatsli I evyasi Yugo-Vontoohnoy dorogi (for Fedorov). 2,' Zamestitell uacb~11- nika slushby signalizateii i wryasi Masekoy 4orogi (for Zhmkur), (Railroads--Co-nunication systemsy  POS'IYANSKIY, Aleksandr Davydovich; FEDOROV G I nauchrqy red.; SHELKOVI N.I., red. izd-va;ii9d;TKp, tekhn. red* (Brief course in descriptive geometry] Kratkii kurs nachertA- tellnoi geometrii. Moskva., Goo. izd-vo IIV~rsshaia shkola " 1961. 270 p. (MIRA 15YO) (Geometryt.Descriptive)  FEDOROV, G.I.; KONSTANTINOVA, A.F. Transmission of light through plates made from uniaxial optically active crystals of the acial classes. Part 1: General solution. Opt. i spektr. 12 no-3:407-411 Mr 162. (MIRA 15:3) (Crystals--Optical properties)  GELIBERG, L.A., kand.takhn,,nauk; FEDCROV., G.I., kand.tekhn.nauk Present-day state housing.construction and ways~6f improvj it. Izv*ASiA 4 no.1:47-56 162* RA 153n) (Building reseerch)  =i TZMAYLOV, R. I.; OKRUZHN07, A.M. j FEDOROV , G. I.; VIROBYANTS, R. A. 1-1 __ - - Themocatalytic oonversions of hydrocarbons of a petrolatm 06-fraction on A1203-Pt catalyst. Noftekhimiia 1 no-4005- 5o8 JI-Ag 161. (KMA 16:11) 1. Inatitut organicheekoy khinii AN SSSR, Kazant.  ItATS0Ts*Aa, Inshener; a PWIRITIV, M.M., kandi(lat takhnichaskly nauk; SIGAYIV, IA-. f".; 6~ndidat takhnichaskiy nank; KRTUCHKOV, N.V., kandidat tekbnicheskiy nank, redaktor: PIYZM. A.S., redaktor; PXMN, M.N., tekhnicheekly redaktor (Comparative technical and economic evaluation of apartment houses having different numbers of stories] Braynitallnaia takhniko-okono- micheskals. kharaktariettka xhiloi zaatroiki razlichnoi otazhnosti. Moskva, Goo. isd-vo lit-ry po stroit. I arkhitekture, 1954. 68 p (KIRA 8;3) 1, Akadsmiya arkhttektury SSSR, Moscow - lauchno-i 9 sled ovat e1 I skly,- institut 4Lrkhitektury xhilishcha, 2. Institut arkhttektury shIllihohi (for Gellberg, Kate, Fedorov) 3. rastitut gradostroitelletys, (for Porfirlyev) (Apartment house)  GBLIBZRG, 1P.A.,kandidat takhnicheskikh nauk; KATS, Ye.A., inshener; KOICTILKIN, B.M.,kandidat takhaichaskikh nauk; .,FXDORWp_4j.,inzhanar; XUTSINOTA, A.A.,radaktor isdatelistva; 'WIM, A.M.,tekhnichaskir. redaktor [Designs of four- and five-story apartment houses; a technical 'Ind economic analysis]Plantrociochnye reshentia chatyrekh- pIatIetazhnykh shilykb. domov; tekhnikookonomicheskii analtz. Moskva, Goo. izd-v'O lit-ry po stroit. t arkhit., 1956. 152 P. (MLRA 10:4) (Apartment hbidses)  IMMOTO G~Io, )wnd.tekhn.nauk-, YARICKBA, B.Y., inshop redo; MRSKOYR K.L., red.izd-va: OSMO, L,H,, takhn.red. (Bconomic aspects of planning foundation and underground areas of ?~-3-story apartment, houses) Bkonomika proektnykh reshenil, tsokollnfth i podzemuykh phastei zdanii v 2-5-atashnoi shiloi sastroike. Soot. G.I.Adorov. Koskva, Goo.izd-vo lit-rY po stroit., arkhIt. I strolt. materialam, 1960. 73 p imm 14:4) 1. Akedemlya atroital'stva I arkhitaktury SSM. Institut zhi- iishchs. (Underground construction)  4uc-ln e, re 00 ~~O FEDOROV 0. 1. Cand Sai -- (dies) " Methods f nstruotion --thro T, ml, 11 "Out OT jr,00-A4 40orl bv% ~Or r Nte f7cloir r Tain lal m I %mund-f4var"inA b-se-entsZ21 Moss 1957* 16 pp 21 om, (Acad of Construotion and Arohiteoture USSR), 110 oopieff M. 7-57, 107) ZLI TO  FEDOROV9 G*Iqv kandatekonenauk Istimted and actud costs of apartmaut houses. Zhil. don no.3.sW- 160, Apartment houses) Construction induotry-Conto) ~  GELIBERG, L.A., kand.tekhn.nauk; FEDOROV, G.I., kand.tekhn.nauk Changing the estimated cost of apartment houses when adapting them to local building conditions. Izv. ASiA no.2:89-93 161. (MIRA 15: 1) (Apartment houses--Cost of construction)  124 -57-2-2356 Translation frorn: Referativnyy zhurna% Mekhanika, 1957, Nr 2, p IZ3 (USSR) AUTHOR: Fedorov, G. K. TIT LE: To the Investigation of Three -dimens ional Frames (K issledova- niyu pros trans tvennykh ferm) PERIODICAL: Issled. po teorii sooruzheniy, 1954, Nr 6, pp 335-346 ABSTRACT: Presentation of an analytical method for the investigation of three-dimensional systems of bars. An equation is derived to express the projections of a generic vector on four arbitrary radii that are given in terms of their respective direction cosines in some system of coordinates. A number of examples serves to illustrate the application of that equation in the stability analysis and the construction of the influence surfaces for plane and three-dimensional frames. Yu. P. Grigor'yev 1. Structures--Theory 2. Structures--Stability 3. Mathematics Card 1/1  F=RQV, !4,_kaadIdat telchnicheskikh nauk. 41S - , Kinematic Investigation of plane and space mechanisms by the projection method. Trudy Khab.11T n0-7:37-97 154. (KLR& 8:1) (Kinematics) (Mathematical physics)  SOV/124-57-7-7-165 Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 7, p 3 (USSR) AUTHOR: Fedorov, G. K. TITLE: Special Cases of the Resolution of a Sliding Vector Into)Its Components (Osobyye sluchai razlozheniya skollzyashchego vektora na sostavlya- yushchiye) PERIODICAL: Tr. Khabarov. in-ta inzh. zh.T;d. transp., 1956, Nr 9, pp 174-181 ABSTRACT: The author examines the resolution of a sliding vector along n prescribed directions in space. Reviewer's name not given Card 1/1  SVICHINSKIT, Vikolay Nikolayevich; TATSBKO, Mikhail Yakovlevich; FEDOR ad.; MOROV, V.P.0 red.izd-va; LAVRENOVA, T.-B.-, takhn.red. [Preparation of ships for their inspection by the Register of the U.S.S.Rj Podgotovka sudov k oevidetelletvovauiiu Regietrom SSSR. Moskva, Izd-vo *Morskol transport,* 1960. 96 p. (MIRA 1):11) (Ships-Ragistration and transfer)  FEDOROV9 G.K. Use of stereomodels in location surveys of railroads. Geod. i kart. no.11:41-46 N 161. - (MIRA 15t1) (Railroads--Surveying) __  Location.of railroads without the use of topographic plans. TnIdy LIIZHT no.180M_18 161. (MIRA 15z7) (Railroads-Location)  FEDOROV, G.Ko. doteent., kand. takhn. nauk; DORCKIN, V.I., otarshiy pro- -- .1 . - podavatelt,, kand. tokbn. nouk Conotruction of voloolty and aocaleration plans using a pro- jeotion. method. TruAy Khab. 11T no.16t235--249 164 (MIRA l8t2)  GELIBERGy L.A.; FSDOA~OV - ZALITWJII, AX.; KAMS17AN, Ye.D.; BAYAR, O.G.; D=p V.I.; SHEREVTSIS, A.A.; RAKLAKOVA, T.G.; I'011F2, Yu.B.; KOLOTILKTT, B.N.; GLADKOV, B.V.; GAVALM) O.V., red.; GOLOWIDIA, A.A., tekhn. red. [Housing construction in the.U.S.S.R.; present state and prospects for developmnt]Zhiliohcbnoe atroitellstvo v SSSR; sostoianle i perspektivy razvitiia. Moskva, Gosstroiizdatp 1962. 202 p. (MIRA 15:3.1) (Apartment houses) (Construction industry)  Fr-amov, G. 11. "Toxic-Hygiene Characteriatics Li t:.e flinufacture of Lead-Containint, Chromatic 0 Chroinate Pigments." Cand Had Sci, Odessa State I-led inst, Odessa, 1953. (RZhKhlnl Ho 6, Mar 55) So: Stun. 11o 670, 29 Sapt 55 - Survey of Scic:-.tific and Technical Dissertations Dofendod at USM llirher Educational InstItutions (15)  Hathod. for determining porphyrin in urine. lab. delo 5 no.3:35-36 )~F-je 159. (KIRA 12:6) 1. Kafedra gigiyany truda (zav. - prof. Ta. B. Reznik) Odeaskogo -aaditainakogo instituta im. R.I. Pirogova. (PORPHYRIN AND PORPHTRIN COMPOUNM) (URINN--ANALTSIS)  MOROV G,K, Modernization of Yrancke's needle (searificator needle) by means of a movable blade and limitation of the depth of the puncture. IeLb.delo 5 no.4:60-61 JI-Ag 159. (HIRA 12:12) 1. Is Odeaskogo meditsitakogo instituta imeni N.I. Pirogove, (dir. - Prof. I-Ta. Derneke.). (MMICAL IRSTRUKRUS AND APPARLTUS)  --I YBDOROVO-,G,M.o kand.med.taulc; LIMAVKO, A.Go, kand.med.nauk wj~ Simple methods of moistening o3qgen inhaled from an air pillow. Vraoh.delo no.71743 A 159. (KM 12:12) 1. Goopitallnaya torayevtiobaskaya klinike. (ispolnvayushchiy obya- zannosti saveduynahchago - doteent P.L. Oinsburg) Odeaskago medi- toinskogo instituta. (OITGNN--TEMPBUTIC USI)  SAVIMITIV, I.A.; FJDOROTg G.K. Simple method for sharpening hypodermic needles. Ned.sestra, 19 no.804-35 Ag 160. OaRA 13:7) 1. Odeaskly meditaluskly institut Ineni 9.1. Pirogova. (HYPMM04IC IMLIS)  ITDOROV, G.Ap kand.med.nauk Method of taking air oamplee for dust determinations in the field. Gi 0 (MIRA 3.3 n) g i s4n. 25 no.8s4O-41 Ag 160. 1. Is kafedz7 gigiyany truda Odevskog meditsinakogo instituta imeni N.I.Pirogova. (AIR-POLLUTION)  FEDOROVP G*M,, kand.med.nauk ..-Maw"W" Needle-8carificator vith removable lances and its correct use. Yrache de1c, no.100.18-119 0 960. (MIRA 130-1) p lo Odeeskiy moditsinskiy in3titut. (SURGICAL INSTRUMTS AND APPARATUS)  'FEDOROVO G.M* t Tacuum method for takin blood frcm pinea piga* Ieb. delo 7 noo*ls5l Is 161. (Hip-A 74:1) 1. Odoookiy.maditoinakiy institut imeni N.I.P#o ova (BLDOD-COLLECTION AND PRESERVATIDNI 0  - ------MOROV9 G*M# Rapid fluoresoent mcthod for the quantitative determination of coproporphyrin in urines Isb. delo 7 no.3313--14 Mr 161* 9 I (MM 14:3) 1, Odeaskiy meditsinskiy institut, imeni. N.I.Arogovae COPROP09PHYRIN) (FLUORESCENCt) f-  FEDCROV M- Effective use.of Franke's acarifioator. Vrach. delo no.8:135-136 Ag 161. (KIRA 1513) 1. Odeoskiy meditainakiy institut, I (SURGICAL IVSTRUMEVTS AND k"ARATUS)  MOROV,G.M,,, Inshener Zfforts made by the testing department to obtain higher productivity of equipuents Tekst.prom.13 no.8:47-48 Ag'55. (HLRA 8:11) 1. SmenW master Glukhovskogo kombinata .(Textile Indust ry-lquipaent and supplies)  r Contra-'3zed autozatic~lubricatioii of -yinning anti twisting apindles. Takat. pro=. 21 no.10:81-61 0 161. (I:I:U 14:10) L Rachallnik pryadillnogro tsekha buragopryadillnoy fabriki Glukhovskogo khlopchatoburArhnogo kombinata, ~Spinning nachine Lubrication) Automatic contro7i  ZHARZIIEVSKIY~ I.L.; FEWROV, G.M. Assemblirg, the ash collector system. Energ.atrol. no.24:77-83 161. (MM 15--4) 1. Glavnyf inzh. montazhnogo uchastka, trOBta "Sevzapenergomontazh" (for aiarzhevskiy).. 2.; Proizvoditell rabot mentazhnogo uchastka tresta "Sevzapenergomontazh" (for Fedorov). (Narva region-Elootric power plants-Design and construction)  FXDOROV G N aspirant Wedry parosilovykh ustanovok. the developunt of Soviet uniflow boilers. Trudy 011VT 10:149-162 151, (KLRA 10-'I) (Boilers)  KHARITONOV, Leopolld Georgiyevich, dots., kand. tekhn. nauk; SHPALEKSKIY, M.A., inzh., retsenzent;,~~ ~N._,_ insh., retsenzent; FRID, L.I., inzh., red.; BODROVA, V.A., tekhn. red. (Shipbuilding materials) SudostroitelInye materialy. Moskva, Izd-vo "Rechnoi transport," 1963. 260 p. (MIRA 16:6) (Shipbuilding materials)  LAKHANN, VladWr Vladimirovich; ZAKUROV, Yuriy Vasillyevich; LEBEDE;V, Oleg Nikolayevich- FEDOROV GA.,, retsenzentj 0 MIGICHEV, B.S., red.1 (Use of atomic energy in water transport] ispolizovanie atomnoi energil na vodnom transports. Moshm., Transporty 1965. 187 P. (VIRA 18:4)  1 f VILINTS, Semen Borisovich;-.MOROTA-G.P., red.; n[DOROV, B.M., red.isdatelittya; BRATISHIO, L.V., tekhn.reA, [Making vioodpulp] Proizvodstvo drevesnol massy. Moskva, Goelsebm- isdat, 1957. 295 P. (KIRA 10:12) (Wood pulp)  0 0 0 0 0 0 v 0 it is is 0 1411.0.1,1011 mal bib low a a a Q 0 a WCq M 4 a IN I IL L- a Al a A 1, L.-L-A-J R.U JL-k to".. 1,40411 A Va. Steller, G,4 I ~11 TWK M urdo VOWA. .Tevriuum "I- Old rubber Is heated under por%mr, with dil. Ilp'kX MW 'Kmm 10 decOMP- teltdc InAtrfiml and dr. TUIC'Minize the rubber simultsuccualy. 004 goo 004 004, go* 0031 goo 00 el '00 lee 400 Offs j all CtASUPKATICID #A it Q-f 404 414111 ami ti-* it, -A, all I (W 0 a 0 -1 if Im a L i?L-U 4v to 11:0 0 0 IS 10 Is K I X j It a R 1, Ol WO a I ia 0 0 0 * 0 0 a 0 0 0.6 0 6 0 * 0 ~ 4 0 0 0 a 0 000 0 00 0 00 of 6 0 0 0 0 00 0 0 sis 0 0 4 0 0 0 0 0 0 0 0 0 0 0 9.  USSR/EnCincering Rubber - Reclaiming Efficiency, Industrial JAd 48 "Technological Changes in the Production of ReclaineO Rubbers" A. L. Farusov$ P. A. Reshetnikov, G. P. Fedorov, Moscow Reclatned Rubber Fnctory, 1. p "Prom Energet" No 7 Suggestlon was awarded a third prize in 1947 All-Union Contest. Opt-ration fomorly requirad 250 kw elactricity and 1.4 Cal atenm per ton of reelclumd rubber. Authors designed special machine (sketch given) for T~ulverlzing nibber. PA 6/49T28   FADOROV, G.P., polkovnik meditsinskoy sluzhby. kandi(lat meditsinskikh nauk Problems in medical climatology and climatological therapy in sana.toria. Vosu.-med. shur. no.5:45-51 My 156. (MLRA 9:9) (WUtMM-MMAL AND iPHYSIO10GICAL WFICTS) (HEALTH RISORTS. WATERING PIACIS, ITC.) I  MMOV, G.P. Neclical rating of weather. Yop.kar.fisioter. i lech..fis.kmlft. 21 no. 3:23-27 Jl_s 1.56. (HTJU 9: 10) 1. Is Yaltinskogo klinicheskogo sanatortya no.l. (WIATHW-40RAL AND PHYSIOLOGICAL JIMOTS)  TUWKIMOV. I.I.; ATZKSNM, V.D.; ASHUMM, A.K.; BAYEV, II.T.; BEZARITAX. P,A.;"BtCHKOV, LA.;' VASLOVA, Ye.T.-, VYZHEXHOVSKAYA. M.F.; GgRBTSKIT, 3.A.; 13MIDOV, I.M.; YESIPOV, Te.P.; ZHUOV, V.D.; ZZLINSKIT. M.G.,, ZCLINIKOV, F.T.; ZOWTOVA, L.I.; KIVIN, A.H.; KOMARNITSKIY, Tu.A.; KONSTANTINOV, A.H.; KULICHITSKAYA. A.K.; KAKSIKKUKO, I.I.; KELENTIM, A.A.; HOR=V, I.G.; MMINOV, M.I.; OZMLOVSKIT. Ch.S.; OSTRYAKOV, X.I.; PANINA, A.A.; PAVLOVSKIT, Y.V.; PHRMINOV, A.S.; PERSM, B.F.; PRONIN, S.F.; P&MNTY, A.I.: POKROVSKIY, H.I.; RASPONOMAREV, Te.A.; SEMINO I.N.; MTAROV. Tu.N.; TIBABSM, A.I.; PARBEROV. Ya.D.; YEWROL...G.P.; 5=2GIN, Ya.S.; YAKIMOV, I.A.; VERINAo G.P., takhn.red. (Labor feats of railway workers; stories about the innovators] Trudovye podvigi zheleznodorozhnikov; rasakazy o novatorakh. Moskva, Goo.transp.zhel-dor.izd-vo, 1959. 267 P. ..(MIRA 12:9) (Railroads) (Socialist competition)  FEDOROV, G.P., kand.tekbn.nauk Use of scrapers for gobbing in wide work entry clVving. Ugoll Mr. 6 no.2:29-31 F 162. (MIRA 15:2) 1. DnepropetrovskLy gorW institut. (Hine filling)  AUTHOR: Fedorov, G.S., Candidate of Economic Sciences 3-1-5/32 TITLEs The Porce of Convincing Examples (Sila ubeditellnykh primerov) PERIODICALs Vestnik Vysahey Shkoly, 1958P # 1t pp 22-26 (USSR) ABSTRACTt The article states that the capitalistic system is ex- periencing at the present time a general crisis which does not only extend to economy and politics but also to ideology. It speaks of the means and methods applied by the theorists of capitalism in order to lead astray the masses, to regenerate confidence in capitalism and to caluminate the socialistic order. The so called "people's capitalism", which has been raised in the USA to the level of an official state doctrine, is one of these means. The Political Economy Chair of the Military Academy of the Rear and Transport (Voyenneya akademiya tyla i transporta) is endeavoring to use every kind of instruction - lectures, seminars, consultations, conversations, and reports as well as the press - in order to disclose the theory of "people's capitalism" which aims to retouch the facade of monopolistic capitalism. The article then quotes several examples from lectures of the academy's instructors, Card 1/2 naming A. I. Vilionakiy, Candidate of Economic Sciences,  The Force of Convincing Examples 3-1-5/32 A.V.Meleahchenko and V.F.Stellmashohuk. The first one spoke on the "Slave Holding Method of Production" and referred to the plantation slavery in the South of the USA, mentioning also the indeoencies in Little Rock and other towns, and the statement of James J. Patton, eresident of the USA National Farmers' Uniont that since 1952 about 250,000 farmers have been ruined thereby reinforcing the ranks of the working class and the unemployed. The author further speaks about the noisy propaganda in connection with the "revolution in income" which has allegedly taken place in the USA and of other economic subjects, trying to degrade the American way of life. There are 2 German and 2 Russian references. ASSOCIATION: Military Academy of logistics and 7tanEpD1tat1Mf%Voyennaya akade- miya tyla i transports) AVAILABLEs Library of Congress Card 2/2  BARSUKOV, U.I., kand.sellskokhozyaystvennykh neuk; KIZYURIN. A.D., doktor sallakokhozyaystvennykh nauk: BORIHEVICE, V.A., kand.sellskokhozyay- stvennykh nauk; BORMUSOVA, S.H., agronom; UMNICHRYA, M.D., icand. sellskokhozyayatvenn.vkh nauk; GISHELE, N.B., doktor biol. nauk; GCR(XHOV. G.L. kand.sellskokhozyaystvennykh nauk; GUBKIU, S.M., kand. veterinarrqkh nauk; YXLYXOVA, L.I., kand.sellskokhozyaystven- nykh nauk-, KOTT. S.V., doktor biol. nauk; KOCHKINA, V.A., agronom; IARBIN, A.Z., doktor biol.nauk; LNULDRVA, YeeH,j agronom; MALAKHOVSKIY, A.Ya., doktor sellskokhozyaystvennyirh usuk; MAYBORODA, N.M.,'kand. seliskokhozyaystvannykh nauk; HAYDAHM. A.N., zootekhnik; OVBYAUNIKOV, G.Ye., kand.sellskokhozyaystve=ykh nauk; ft?RO"I, V.A.. kand.biol.nauk; POGORHLOV, F.F., agronom; POLXOSHNIKOV, M.G., doteent; IWURD, G.X., kand. sellskokhozyaystvannykh nauk; RUCHKIN, Y.N., prof.; SADYRa. H.M., kand.eeIIskokhO278yBtvennvkh nauk: TOBOLISKIT, V.YA.. vetvrach; TYA""HGLIIIIXOV, S.D., kandesellskokhozvaystvennykh nauk; MIN, I.I., kand.sellskokhozyayBtvennykh nauk,- YNDCHRY,-G.T., kand,sellakokhozyayetvenrifth nauk; CHIKOV, D.I., zootR_bntk-. TSIITGOVATOV, V.A., prof.; SHMSOVA, A.11.9 icand,sslIskokhozyayetveA- zWkh nauk; SHCVLYAGIN, A.I., kand.seIIskokhozy-aystvenzwkh nauk; SMNOVSKIY, A.A., red.; GOLUBINSXAYA, U.S., red.; NECHAYXVA. Ye.G., red.; PAUSYPKIIIA. Z-D., tekhnicheakiy red. (Siberian agronomist's reference manual] Spravochnaia kniga agronoms Sibiri. Hnokva, Goo. izd-vo sallkhoz. lit-ry, Vol-2. 1957. 839 pe (Siberia--Agriculture) (MMA 110)  A7 112-2-3512 Translation from: Referativnyy Zhurnal, Elektrotekhnika, 1957, Nr 2, p-146 (USSR) AUTHOR- Fedorov, G.V. TITLE: Experience in OFe-rating Electrical Equipment on the Moscow Subway Rolling Stock of the "r is and Is A " Types and Prospects for Modernizing it (Opyt ekspluatataii elektrooborudovaniya podvizhnogo sostava Moskovskogo Metropolitena tipa "G" I "D" I perspektivy ego moderni- zataii) PERIODICAL: In Sbornik: Materialy naucheteldm. soveshchanlya po tyagovomu elektrooboradovanlyu. Noyabrl.1953,,Riga, 1955, PP. 56-60 ABSTRACT: Thirty four train pairs every hour traverse the double- track sections of the 45 km long Moscow subway; carrying 2-3 million passengers daily, the schedule of train move- ments is adhered to 99.99 per cent of the time. The high quality of thV equipment and careful maintenance ensure that the schedule Is kept. The cars pass a 20 to 40 minute inspection every six to eight hours, and a routine inspection Card 1/3 every three days. Current repairs are carried out every  Experience in Operating Electrical Equipment (Cont.) 112-2-3512 seven daysj, and regular overhauling every two and one half to three months. Maintenance repairs are performed after a run of 160.,000 to 200,,000 kilometers, and average repairs after a run of 320,000 to 400,000 kilometers. The old type A andS car models have a number of defects such as bakelite-shoe braking and other imperfections. The type'r cars have been considerably improved. They have electric brakes. Their traction motors ensure rheostatic braking at speeds as high as 60 km/hr without arcing on the commutator and without throw-over on the conmiltator and without throw-over on the car chassis. Card 2/3  112-2-3512 Experience in Operating Electrical Equipment (Cont.) Stamped parts instead of rolled parts are used for the mechanical structure of the car. The development of cracks of the wheel-pair shackles and elsewhere has been arrested. The A type car is better than other cars in that it has a Cardan shaft,, support-chassis traction motor suspension, improved operating conditions of rotors, undercarriage and rails. It also weighs IT per cent less than the other subway cars. In conclusion,, the following ways of im- proving cars are Indicated: further reducing car weight by using alloy steel, etc.; replacing rheostatic braking by regenerative braking and correcting the minor defects which still remain in the r and A cars. [The Moscow subway Imeni V.I. Lenin]- I.V.I. Card 3/3  a;&A,4.,VasilfYevich: MIZIKOV, S.M.; SIRG.KYBV, D.V.; SOKOLOV, L.S., inzhener, RHEMI"ROVA, Ye.N.. tekhnicheskiy redaktor [Subwqy rolling stock; type D cars) Podvishnot aostav metropolitens vagony tipa D. Moskva, Gos.transp.shel-dor.isd-vo, 1957, 251 P- (Subways--Rolling stock) (MLRA 10-9)  RODIGIN, Nikolay Kikhaylovich; RODIGINA, Bmiliya Nikolayevna;._npq~qV,__ G*Vop otvoreds; BAWITSSR, A.L., red.izd-ve; LZMZVA, A.Ael te-kb-n-. re d. E0homioal stop resational mathematical analysis and computations] PosladovatelInya khimichaskis reaktoil; matematichaskii analis i raschet. Koskva, Isd-vo Almd.nauk SWR, 1960. 137 P, (KiRA 14t2) (Chemical reaction. Rate of)  UM/Magnetiam - Ferromagnetism, Abg JoSr Referat Zhur Fizika) No 5. 1957, 11997 Author Volkenshteyn) NeVos Fedorovp GoVe lust Institute of Physics of Metals, Ural' Br&=h, Academy of Sciences: Sverdlovsk* Title Measurement of the Hall-Kikoin Effect* Orig Pub Piz. metallov i metallovedeniye, 1956, 2, No 2P 3-17-378 Abstract Description of a new method for afteuring the Nall effect 'in ferrompets, a method that does not require the props- ration of a specimen in the form of a long rodp and conse- quently, vhich permits a measurement in an electromagmet. 7he specimenj, made in the form of a thin platep is com- pressed between two halves of an ellipsoid, made of the investigated substances, vith insulation of mica. The ellipsoid and the specimen are placed in the magnetic Card 1/2 Card 2/2  USSR/Nuclear Physics - Penetration of Charged and Neutral c-6 Particles Through Matter. Abs Jour Ref Zhur - Fizika, No 4~ 1957, 8850 Author Orlov, A*N., FedormL,.~ &A_&~ Inst Ural' Branc~")_~ew~_of Sciences, USSR. Title Absorption of Bremsetrahlung of the Betatron in a Two-Layer Absorber. Orig Pub Zh. tekhn. fiziki, 1956, 26, No 9, 1991-1993 Abstract It is shown that vhen radiation passes through a couble- layer absorber the intensity of the transmitted radiation depends an the selected sequence of absorbers: the atter nuation will be greater if the heavy absorber is ahead of the light one. Experiments carried out with a betatron with a maximum energy of 20 Mev and absorbers made of steel and water confirm this conclusion. Card 1/1  AUTHORS: Palatnik, L. a. and Fedorov, G#V. (Kharlkov). 24-9-18/33 TITLE: Graphical calculation of the local composition in three- component alloys of variable concentration. (Graficheskiy --aschet lokallnogo sostava v trekhkomponentnykh splavakh peremennoy kontsentrataii). PERIODICAL: Izvestiya Akademii Nauk SSSR, Otdeleniye Tekhnicheskikh Nauk, 1957, No.9, pp. 119-120 (USSR) ABSTRACT: A description is given of a graphical method of calcula- tion of the local composition in three-component alloys of variable concentration using experimental distribution curves for each of the components. The method is applied for calculating the concentrations of systeMS produced by means of a method developed by S. A. Vekshinskiy (Ref.1). An alloy of variable composition obtained by evaporating various metals from two evaporators represents a binary field of concentrations and in such a field it is possible to calculate a family of circles along which the composition of the alloy remains constant. A three-component system forms a ternary field of concentration and the calculation is correspondingly more complex; families of curves of equal composition no longer exist but families of curves of another type do exist, one representing the lines along Card 1/3  24-9-18/33 Graphical calculation of the local composition in three-component alloys of various concentration. which the concentration ratio of two components remains constant and the other lines along which the concentration of one component remains constant. In a real. collector these families of curves correspond to a family of analogous straight lines on the concentratiort triangle of Gibbs. By photometering of a eemi-transparent layer of metal deposited on a glass collector which is perpendicular to the crucible axis, the distribution was studied of the density as a function of various parameters (speed of evaporation of the metal etc.) and,following that,the most suitable conditions of evaporation were chosen. The distribution of the condensate represents a mound with a circular symmetry whereby the symmetry axis of the mound coincides with the crucible axis; Fig.1 shows the distribution of a condensate on the collector for Sb, Bi and AS. From these distribution curves, curves of equal thicknesses for each metal are plotted, finally, a coordinate network is obtained which permits solving the following two basic problems: to determine the composition of the condensate at a given point of the Card 2/3 collector and to determine on the collector a point having  214-9-18/33 Graphical calculation of the local composition in three-component alloys of various concentration. a given composition. For illustrating the method, the results are included of the calculation of a collector of a real system of Ag-Bi-Sb, Fig.2. The here described method is applicable for any evaporator with a known distribution. There are 2 figures and 2 Slavic references. SUBMITTED: April 19, 1957. AVAILABLE.- Library of Congress. Uard 3/3  IF I X I 24-11-29/31 AUTHORS: Komnik, Yu. F., Falatnik, L.S. and Fedorov, G. V. (Kharlkov) TITLEt Distribution of the condensate on a plane in the case of evaporation of metal from a cylindrical crucible, (R6spredelaniye kondensata na ploskosti pri isparenii metalla iz tsilindricheskogo tiglya). PMIODICAL: Izvestiya Akademii Nauk MSR, Otdeleniye Tekhnicheskikh Nauk, 1957, No.11, pp. 193-196 (USSR) ABSTRACT: The authors assume that when using a cylindrical crucible as an evaporator? distribution of the condensate of the molecular flow does not necessarily depend on the level of the metal in the crucible, provided this level is sufficiently distant from the opening of the crucible. They studied the dependence on the metal level in the cylindrical crucible of the condensate distribution on a plane collector for the purpose of vvzifying their assumptions, They Also.-studied the Jnfluence of the temperature on the d.istrik;Ution of the condensate and the influence of the iocation~af the metal level in the crucible on the speed of evaporat-iiA of the metal. The condensate distribution on a plane -61--lu-sparent base was studied by photometering of semi-transpiL-nt metallic Card 1/2 layers. The experiments were effected by mt,-us of a  24-11-29/31 '-- Di7stribution of the condensate on a plane in the cesd. of evaporation metal.from, a cylindrical crucible. vacuum set-up containing apparatus as shown in Fig.1, P4194. Cylindrical porcelain crucibles 4.5 and 8 mm dia. A and about 30 mm deep were used as evaporators; these were heated by 1 mm, dia. nichrome wire. The metal was fed into the system in the form of balls,whereby the charging apparatus was inside the vacuum system. Fig,2 shows the obtained curves of condensate distribution for various levels of metal (tin) in the crucible. The depenlence was studied of the distribution of the condensed metal on the evaporation temperature as well as on the metal level in the crucible. The existence was detected of a range of depths of the metal in the crucible within which the distribution of the condensate on the collector and the speed of evaporation of the metal remained constant. This indicates that cylind ical crucibles can be applied as evaporators for making preparations of three component Systems of thicknesses up to 0.1 mm,according to the Card 2/2 method of S. A. Vekshinskiy.. There are 4 f igures and 7 references all of which are Slavic. SUBMITTED: April 19, 1957. ASSOCIATION: Khar1kov Polytechnical Institute. (Kharlkovskiy Politekhnicheskiy-Institnt) AVAILABLE: Library of Congress.  i5 fk~' P_ AUTHOR PALATNIK L.S.0 FEDCROV G.V. PA - 2656 TITL2 A photometric Me-fe-r-s-5-allo-5 of the thickness of samitramparent P metal layers. (Fotometricheakoye opredeleniye tolshchiny poluposrachnykh motalliches- ~ikh sloyev, -Russian) PERIODICAL Doklady Akadexii Nauk SSSR,, 1957.,V01 113, Nr 11 Pp 100-103) (U.S.S.R.) Received 511957 Reviewed 6/1957 ABSTRACT The present work discusses a microphotonetric method for the measuring of the absolute density of semitransparent metal layers obtained by eva- poation in the vacuum and the density distribution of the condensate of the transparent vitreous bass on the occasion of the employing ol vapori- zers of any type. The method of photometrizing acmitransparent layers: The symmetry axis of the evaporator must be placed vertical to the col- lector plane. The density distribution o the condensed layers then-forms a circular mound.with the maximum of density and thickness on the symmet- ry axis. Apparently the height of the maximum is proportiozalto the dura- tion of precipitatioa. If the metal layerp are precipitated on several collectors, the dependence of the blackening S of the colleator can be ob- taixed from, the duration Ir of precipitation. ThU3, also the dependence S - S(h) is obtained, because for the thickness of the layer h w kTs, applies, where k denotes a proportionality factor. If now one of the dol- lectors is photometrized along a straight line passing through the a&- Card 1/2 ximum, the dependence of the blacking 8 on the distance up -to a given  $, Photometric Determination of the Thickness of PA - 2658 Semitransparent Metal Layerse point of the collector can be determined. The corresponding dependences S ( T) and 5 ( f) are shown in form of a diagram. From these two depen- dances the dependence 7( p) is then determined, which its equivalent to _ the dependence hrel(9 ) in relative unities on the ordinate axis. Experimental Part: Experiments were carried out in a vacuum chamber. A sylindrical ferfort crucible served as evaporator and heating took pla- ce by means of a nichromium spiral. At a distance of about 4omm from the crucible an immobile metal screen with a long narrow gap was fitted vertical to the crucible axis. Then a glass collector was fitted on to this metal screen. The here discussed photometric method was tested on bismuth films. Bismuth was vaporized on at 6000amd 6800, and vaporizing- on velocity was changed 6 to 7 times. On this occasion the authors noti- cad no influence exercised by condensation velocity on the dependence of the blackening of the thickness ofthe film.From data obtained from some experiments a diagram was determined for the dependence of 3 on the thick- ness h of the bismuth layorl this method is well suited for the determina- tion of the thickness of semitransparent metal layers. (21l1.) ASSOCIATION Polyteshnical Institute KRAIKOV FRESENTED BY Member ofthe Academy S.A.VEKSHINSKIY SUBMITTED 24-11-1956 AVAILABLE Library of Congress Card 2/2  FEDOROV, G.V., Cand Tech Sci -- (disv) "Application of the method of 69 a comiusition to t.he study of component alloys." Khar1kov, 1958, 16 pp with diagrams (Uin of digher Ccation UkSSR. Khar,kov Polytechnic Inst im V.I. Lenin) L50 copies M, 29-~8, 133) - 77  AUTHORS: Palatnik, L. S., Fedorov, G. ~vichf ;2-M24-6-31/44 TITLE: On Methods of Measuring the Microhardness in Thin Layers (K metodike izmereniya mikrotverdosti v tonkikh sloyakh) PERIODICAL: Zavodskaya Laboratoriya, 19589 Vol 249 Nr 6, PP 759 761 (USSR) ABSTRACT: Metallic layers of various thickness were investigated which had been evaporated on various bases in a vacuum. The thick- ness of the layers wag measured by a microinterferometer according to Linnik, while the microhardness was determined by means of the apparatus Flfr--3. The latter had been Gquipped with two special devices by the mechanic V. V. Gorlienko: an automatic load mechanism, and a coordinate table which makes possible the observation of the exact position of the investigated point at the collector in polar coordinates. The apparatus was standardized by means of rock salti the selection of the metals to be investigated was made in such a way that various combinations occurred: soft layer-hard basist hard layer-soft baois, The results obtained are given Card 1/2 in a table. From the mode of operation mentioaed may be  On Methods of Measuring the Miorohardness in Thin Liyers 32-24..6-31/44 seen that the metal layer was condensed on glass, that the structure was fine disperse and the surface completely planew Graphical representations with the corresponding explanations are given. From the results obtained may be seen that with soft layers on hard bases the value for n is lower than for hard layers on soft bases which must be taken into account in the determination of the zicrohardness of various coat- ings; besides it was observed that the value n is greater with small load. Therefore the microhardness can be determin- ed at the samples obtained according to the method 'by S. A. Vokshinskiy (Ref 4); the thickness of the sample should be 10 V and the material of the bases should be harder than that to be investigated. There are 2 figures, 2 tables, and 8 references, 8 of which are Soviet, ASSOCIATION: Khartkovskiy politekhnicheakiy institut im. V. I. Lonina (Kharlkov Polytechnical Institute imeni V. I. Lenin) 1. Metal films--Mechanicai properties 2. Metal f4lms-.-Test method's Card 2/2 3. Metal films--P~yslcal properties 4. -Tnterferoze,~~lers--Perfo~,-marce  Volkenshteyn, N. V., Fedorov, G. V., SOV/56-35-1-11/59 Vonsovskiy, S. V. The Hall Effect of Pure Nickel Wit-1,in the Ran,-le of Helium Temperatures (Effekt Kholla chistogo nikelya r oblasti geliyevykh temperatur) Zhurnal eks perimentallnoy i tooroticheukoy "ziki, 1~)58, Vol 35, Nr 1, PP 85 - 88 (Ussa) The present paper deals with the investigation of the! teMDerature dependence of R i and R0 in the temperature range of between room temperature and 4,21K; accordirg to reference 1 the following holds for the Hall field: 6 = R0H 2+Rj,J (i - magnetization, R0ordinary Hall constant), and R= A (Ref 6) (A= constant, 9specific electric resistance). The fiddata concerning the temperature dependence of Ili within the range of from room temperature to Curie (Kyuri).point were supplied by Kikoin (Ref 2); Jan and Gijsman (Yan, Giyaman)(Ref 3) investigated R 0 and R1 for Ili .and Fe and f3und an unsharp minimum in the ranges of 30-500 (Ni) aid 50-700 (Fe). R decreased from ~T -3000K,--t T-140K to a twentielh part of its value.  Thq Hall Effect of Pure Nickel Within the Range of SOYI/56-35-1-1-1/59 H'elium Temperatures The authors of this paper investigated the Hall effect in pure Ni(99,9Vo). Size of sample: 9.4-0,3 mm, H = 5000 04 B in the sample: 22 000 G; sensitivity of the potentio-meter 2.10-8V; measurements were carried out at room temperature, OOC, as well as in baths of liquid N, liquid H, and liquid lie; specific rosistnnueb: 70 . '12,30.10-3 and 10,28.10-3. 3 20, it OIS29.) 4,20/'Y293- The measuring results are given in figures 1-4 in form of diagrams.-R decreases sharply with reduced tempe!%Au e and has a m1nimum at 20 - 30*K; Rj(T-3Q0oK),,,j1OO-10- lsv.cm/A. G9 R,(T-14')K)-J5.10-12V.cm/A.G. R0 decreases from 3000 to 4,20K to about 113(0,6 4 0,2.10-") V cm/A.G) and has no minimum.'In conclusion the author iRefs 10-16) discuss the theory of the Hall effec-. and the possibilit.,y of calculating R according to Patrakhin (Ref 15) within the framework ol the (s-d) exc:hange model of ferromagne'u4-s-,a(Vonf;ovs'-iy,Ref 16). There are 4 figures and 17 references, 10 of which are Soviet. Card 2/3  ini -~The Hall.Zffect of Pure Nickel Within the Range of SOV/54S-35-1-11/59 Helium Temperatures ASSOCIATION. Institut.fiziki. Petillov Ural'skogo filiale, Lkadismii nauk S�SR (Institute of Metal PhysicsUral Branch AS USSR) SUBMITTED: February 11, 1958 Card 3/3  AUTHORS:` Falatnikp L. S.f Fedorovq G. V. S07/2o-12o-i-2o/6 7 ---------- - TITLE: The Application of the Method of Samples of Varying C3:~jlosition to the Investigation of Three-Component Alloys (Primencniye metoda obraztaov peremennogo sostava dlya issledovaniya tra.~h- komponentnykh oplavov) PERIODICAL: Doklady Akademii nauk SSSR, 19581 Vol- 12o, Nr 1, pp. 79 - 82 (USSR) ABSTRACT: A particular feature of this method is the considerable devi-,tion of the samples under investigation from equilibrium because of the rapid dissipation of the heat of condensation by a collector. The thinner the layer and bhe higher its thermal diffusivity, the more will the system depart from the thermodynamical equilib2-iU:--.!. At certain conditions a protracted stabilization of non-equilibrium conditions takes place. This is based upon the maintenance of zthe internal stress in the condensed layer, on the degree of colloidal dispersion of the monocrystals and of the metastable structures, on the considerable oversaturation and inhomoZeneitj Card 1/3 of the solid solutions etc. The following alloys of a varyine  The Application of the Method. of Samples of Varying SOV/2o-12o-1-2o/63 Composition to the Investigation of Three-Component Alloys composition were investigated in connection with the development of a method for the computation of the concentrations of te=nary systems: Pb- BI- Cu, Fb- B 'i- Ag, Pb- Bi - Sb. The metals were evaporated front orucibles and condensed on glass plates, which 0. -ra were heated up to 100 - 120 The denotations used in the diag -m are explained. A common basis of all three diagrams given is the binary system ?b - Bi, in which an intermetallic P phase is for.;icd. Lead and bismuth are practically insoluble in copper. The authors give some numerical data on the mutual solubility of the afore- mentioned metals. The experimental results obtained.show that the method of preparing and investigating samples of varying compo- sition employed is fully efficacious, at least for a preliminary examination of the phase diagrams of ternary systems. An advantaL;e offered by the method developed is the considerable reduction of the work necessary for the determination of the topologioal quantitative) structure of the phase diagrams. There are 4 figurr_~E; and 8 referencesq 6 of which are Soviet. Card 2/3  The Application of the Method of Samples of Varying SOV/2o-12o-1-2o/63 Composition to the Investigation of Three-Component Alloys ASSOCIATION: Kharlkovskiy politekhnicheskiy institut, im. V.I.Lenina (Khar*kov Polytochnical Institute imeni V.I.Lenin) PRESENTED: January 27P 1958t by S.A.Vekahinskiy, Member, Academy of Soienceal USSR SUBMITTED: January 24t 1958 1. Alloys--Sampling 2. Alloys--Thermodynamic properties 3. Alloys-composition 4. Alloys--Test results Card 313  ACC NR: SCIR CE CODE: AUTHOR: Volkenshteyn, N. V., Peg= G ORG: Institute of Physics of Metals, AN SSSR, Sverdlovsk, (Institut fiziki =~-tauav AN SSSR~- TITLE: Hall effect in ~holmiumtl- SOURCE: Fizika tverdogo telaj Y. 8., no. 6,, 1966., 1895-1898 TOPIC TAGS: holmium, Hall affect,, temperature dependence, rare earth metal ABSTRACT: In view of the lack of data on the temperature dependence of the Hall e*ct .t in holmium, the authors measured it in the interval 4.2 - 300K. The ho1-b1m_Eu_r t L 99-9% (P300YJP4.2K - 12)- The inducticns used in the sample reached 20 kG. The pro- cedure used for the measurements was the same as in an earlier paper (FM v. 2, 377, 1956). The data-reduction procedure was also described elsewhere (FMM v. 18, 26, 1963) The dependence of the specific Hall emf on the induction for different temperatures and on the temperature for different inductions are plotted, and the effective Hall coefficient is calculated. The temperature dependence of the specific Hall emf ex- hibits a minimum at 100C, and the Hall coefficient consists of two components, the ordinary one, which does not depend on the temperature (found to be -2.8 x 3.0-L2 - - ohm-cm/G), and a component inversely proportional to the temperature, which includes the anomalous Hall coefficient connected with the paramiagnetic magnetiiMon- The latter is likewise independent of the temperature and is found to be -2.2 x 10-12 ohm-cm/G. The results are compared with those obtained for dysprosium and erblum, Card 1/ 2  ACC Ms Ap6ol8556 and are found to be quite similar. It is concluded that measurements with poly=78tal-, line samples disclose the connection between the singularities of the Hall effect and the characteristics of the magnetic structures, but do not yield complete informtion on the connection between them. Orig. art. has-. 1 formula. SUB CODE: 2D Sum DA7E: 3oNov65/ oRiG P.EF: ooB/ oTH w: ooB  66226 SOV/126-8-3-9/33 AUTHORS: Palatn3. , L.S.., Fedoro and Gladkikh, N.T. TITLE: Study of Aluminium.Alloys of the System Al-Cu-Vg on Specimens of Variable Composition PERIODICAL: Fizika metallov i metallovedeniye. 1959, Vol 8, Na, 31 PP 378-386 (USSR) ABSTRACT: Specimens of variable composition were prepared in vacuum by simultaneous evaporation and condensation of the constituents from three cylindrical evaporators (Ref 9 and 10) situated at distances of 70 mm from the collector at the corners of an equilateral triangle inscribed in a circle of 60 mm diameter. The processes of evaporation of the constituents were chosen so that a summary concentration range of copper and magnesium between 0.5.and 16% were ensured on the collector. By means of a photometric method (Ref 11) distribution functions for each of the metals were determined for the chosen evaporation process on the basis of which a calculation of the concentration by graphic methods was carried out (Ref 12). After establishing the required vacuum in the aplaratus (Approximately 10-5 mm Hg) for the removal of adsorbed Card 1/5 ganes, the collector was heated to a ten,perature of  66226 soy/126-8-3-9/33 Study of Aluminium Alloys of the System Al-Cu-Mg on Specimens of Variable Composition approximately 100%.0then cooled by running water and co'ndensation of the film was brought about. During the condensation of this system on a polished steel collector, which was previously cleaned by treatment with boiling alkali, the specimen was seen to fracture as a certain thickness was attained, which was accompanied by exfoliation due to internal stresses which arise during condensation. At a sufficiently deep etch of the collector with concentrated nitric acid, specimens were obtained in which the junction between the film and the base was increased (probably due to condensation developed as a result of surface etching) and was sufficient for measuring the microhardnoss. However, the relatively uneven surface made microbardness testing somewhat difficult. In order to rectify this shortcoming a number of experiments was carried out on the application of polished and passivated aluminium as collector. Aluminium was chosen as base -for the following reasons: the closeness of the coefficients of thermal expansion of Card 2/5 aluminium and the condensate should bring about a decre as  66226 SOV/126-8-3-9/33 Study of Aluminium Alloys of the System Al-Cu-Mg on Specimens of Variable Composition ininternal stresse s in the leyer and a thick aluminium oxide layer ought to resist mutual diffusion between the condensate and the base. As aluminium oxide is closely adherent to the metal it can be expected that the condensed layer will also be firmly adherent to the aluminium oxide. Specimens of variable composition were investigated by microhardness and X-ray structural phase analysis methods. The microhardness was measured with the PMT-3 instrument at loads of 20 and 4o s. X-ray pictures were taken in the irradiation of an iron anode in a 65 mm diameter camera. The variable composition specimens ifere annealed in vacuum at various temperatures. Specimens obtained by deposition on the cooled steel collector were investigated by the microhardness method in the concentration range of 0.5 to 6% MS and U-5 to 6~o Cu through 0.3 to 1% Cu and Mg along the CM sections (Fig 1), along which the ratio between lie concentration of copper and that of aluminium, was kept constant (0.005, Card 3/5 0.010, 0.015 etc). Parallel with the microhardness t t'ng  66226 SOV/126-8-3-9/33 Study of Aluminium Alloys of the System Al-Cu-Mg on Specimens of Variable Composition a qualitative X-ray phase analysis was carried out. Microhardness was tested two weeks after j;reparing the specimens. X-ray structural data for an alloy containing 3.3% Cu and 2.4% Mg are shown in Table 1. In Fig 6, comparative curves for the microstructure along the section Cu + Mg = 2% show: (1) literature data (Ref 7)1 (2) experimental results. Fig 7 shows similar curves along the section Cu + Mg 35s. X-ray data for alloys condensed on a hot collector (200 C) are given in Table 2. Similar data for alloys condensed on a hot collector at 400*C are given in Table 3. The authors arrive at the following conclusions: A condition close to equilibrium for aluminium alloys of the system Al-Cu-Mg is attained either by annealing at approximately 250aC by mutual heterodiffusion or in the preparation process - condensation on a hot base (approximately 2000C) by surface heterodiffusion. Diagrams for the microhardness of the aluminium corner of the three-constituent system Al-Cu-Mg, after condensation Card 4/5 and natural ageing, have been constructed; microhardn  66226 SOV/126-8-3-9/33 Study of Aluminium Alloys of the System Al-Cu.-Mg on Specimens of Variable Composition curves after annealing at 150 and 2000C for the sections C 1 = 0.025 and 0.035, and after annealing at 2500C for tae section a C31 - 0-015, 0.025, 0-035 and 0-050, have been plotte d. By means of the microhardness methods metastable compounds of the AI.CuMg2 and AIXCuM'g type have been found to exist which are responsible for the great hardness of the condensed alloys. There are 7 figures, 3 tables and 14 references, 12 of which are Soviet, 1 English and 1 German. ASSOCIATION:Kharikovskiy gosudarstvennyy universitet; Kharlkovskiy politekhnicheskiy institut (KharIkov State University; KharIkov Polytechnic institute) SUBMITTED: June 28, 1958 Card 5/5  It IN) TITU: Tbe Push All-Valow tomforosso we $b# Thy,asso of W. Temperatures (5-ye Tosoorm=ere sevabob"Itv to flalko alskikb twevenut.0 ?W*DrCALs 19pQkA1 fislah*8XIA31 Book. !35). Vol 17, ar 4. vp 743-750 (ME) ASVTLLC21 This Comfor.so* Seek pLc. from October 21 to go ... bar t .1 Taimis it "a ergolled by I%. 01441*.iro flotko-mat..411- kith "at Ak.*qvIt asmic 2232 (bp4,swmmt of ftyoi.*- USSR). =Sga, q ..I get~.~ at the Aeodany of th. Akadmir* "at Cruxlesicay am (Ace4my of Sciences. Grossaskays on), a" The Tbillookly S*vw4wrvSv#WY %as- *Ortitot is. Siollum, (Tbilisi gas%. The C-ferame ... .1106dod by beat 300 op.61.1141* from "111' 1. Baseve. Zk^r-k", Say". Leningrad. 3vordlewsk. "a other eltt.s as "It on by a -bar at Y-"# Chlboo. ocloo0loto at pr*wast varklaC is the 12M. Ahout 3,0 lec%ures *or% &*liver. 04 his& *or. U.14.4 arl Lee so r .... rch field*. IT. F.C.Sies. A. S. Screvis-moooaq CM) dolSo."i a report wo Uses So O&rr" wat Of too "'o-sr9py of the seek terra. sagatestan So mom"J78S.2 "*Pl*f or the aftlitorromago.tis maca (S'. *treat of smisetrepr was prodlejes by *be Shares_ l l ;;~l b d L b b j L vs d vv* -oa op.* *.X . kaj). So $be aware. ya y at no dtacomosom 1. a. Llskjam" (v?) :sake wheat soutromo- craphiss, Lo"Ostiotleme be ..rrl*t out or law "castle structs" of man "A rocc a, I" son4r.tur'.. F. L. roplies st"...4 3 she inj;Aze of Iso "11*1 1I.S.4 at" 1-2683alftskU-N ttO4u7-j,.L, base fmox 11" r"4 W A. S. Sarovil-looMA" . ro'ert'd so measure. - asaso 4.1M1-4 ast by has (go the 1") a' it,, "g,.%" bas..S_ troW of the aptifrrooowas. ftW,,wW J.. A. (%711 AT 11SILS. Swardlovsh) aok. %,ft% his be,"- lavestigs"oes of the, o""tisatality. the morepILTS1211y. the specific haos, sot the rtooaaco froqu.A.L.w of So% I- fOrrOR4906*10m A" Seek forronaguallot. A. 1. Eadow1go, &M 1L%-ZL-3RWA&wuk`a (Xk?TX) ff?*R- Issas 0100112's4 mossUmm* ef arm in fields I* a .14. loo- poralere rbEw lab sloolks"Ous plo%,Lae or the &Cmetlx4tSo% 73`. C, 1. p"Ifew, S. T. csjqj~ja, oux": Iaz. - -- --. ' ; 2. ON 4061 IS uIr xy U WUU i~- asset "asursawasto ~ T to, r saw" -Stan mis "Is effect of Polrary6t4line *"view, : Sokol SAW 111300 of Ive temporatre.. To. 1. romfortty. J, tioraws .4 Cham sht-emon ~2=) gare . .,art 4.11 masc*ptW1TrFY- me4sureswults a nickel "d III alloys lab es;por as ION "830"t=osr T. T- 5-"420 (TOV) #~akv b..j - War -,I I PmZ.wwCO;SI2 or W Is Sorbian of "avid t7srocru. M. 1. X"... "Id T. W. Toukermik (rkM) j%"s wish Sam to -a so- I-P-rot-r.. .4 with aftleal.qlas Of r814"ttan asset A. I- Aht"*-r. T. 3-rl,-khtAr "4 a. FOU10"Okly CnLrrl) tol~rl*f vat a thor.rual-T. - eastic.u.. of the roxazation a- the wat In forredioloctricel AL11 (In AN s=) bea" 11MIA 21ft-azzy olartsd el.stla l (ultrasonic) we" of a frm,, or to cycl. . -bon passing th,"JIS 4 "TrOo'gasUg "IDUAca, IN %be ~Lrocsim or the siogmatim fLO14. 10 `m`SJ1c1*4 is It turn Of %U* pOlorlsoism via" or $be Order of 10~a . SO- rOtj&v41ow ceratoet. ELj _ , r-p-ev paiwsod out that is tue coasectle" at Rather vuvwonom my be ob.0"Od, sb,a17 the rwv.~.Co beorptio. of ultromeales it tb* 0.1o'borth Is q"l So the fail.. Of "A Lox-or orbit or 11,0 -e a- ucu  (3), 18 (7) PfrOR3: Komar, A. P., Academicinn, A71 Ukr-',)", Volkansht-eyn, It'. V., Foiorov, G. V. TIM%; The Chanr,(, of tho Si.r of the Constant of Hall in the Ordering of Atoms in an !-Iloy (T%mcnaniye zn,-ikn pn3toy"11-111! nolla pri. uporyadochanii atoriov v s-lr-v(.,) P:'-',RIODICA.L-. Doklady Akadamii, nauk SS3R, 10,--)g, Vol 125, Nr 3, pp 530-531 (USSR) ABSTRACT: Thn authors first mention some provioun papers on '.his subject. The alloy Ni3',In is chrrzactnrized by a depenion-ce of its electric and galv,~no-rnr~6netic rrop?rtir)s on the upontancous magnetization 18nnd on t!-..(? dr~groe of the !on.,-,- range ordertt. This donandence dincerno thi3 alloy fro:a 43 0 pure farromawnetic n-il al3o V-om bintrry alioy~f similar nl~-jcturc and cimposition. ..v-, qt,.Il elnetromot1w.,- force Fq of the olloys MAIM In-.q invontilrl-to~ for Cv~ cas.-)s I of fl.-,-fqr,)nt beat treatment 'of th: rnnr7(., ciown to th~? )f I Acco-r~-nrT to th,?sc :invertI~-,7tjr)n-;,  Vie Ch.-inge oi the Sign of tho Constant 01' 'Tall ir, tllf~ Ord-rin,7, of Atoms in ar. Alloy on the rwinnor-of -fixing the invi.-;tAf-t-)d 7i t v t,,, o f Vi1 Evan in the c.Isa of fixing thr, f rom hit,- tonpcr,%tur-.!,3), tho ? i If f kt- 1' 0 r, h oxert,i P. (Tr,~rt influance. If tl,.~~ ir. -iiitil-ly c from 80%',n to rGo-i tcrineratur,-:, 'J"hn i.-i nn;7-n,~ t0, -it this tompnrnture. The :all constntit of thin, :;,- anl~! positive -:n,1 nqual to R 0 = + v. c -1/r . 7!' ~,. 3: - . In the enso of forronagnption, (It soemr, to flonote th,- Hall potential) is calcul,-tcd :,ccorninr7 to thn R Di R .4jil,,i, V 0 S R ic-notes th~~ ori.*nr~r,, '~nll constint if d d 0 and R the Hall constnnt connnct,,.~rl with thn snont:incou3 3 magnetiz!ktion I S. R!, has an unusunl, non-clas-iCnl, positIV., sign. T1,1s fact apgr(,-,?~-. -1no !""Ith the r.~7-nlts ni' authors (Ref 7). The Hall el~:~ctro7-otive, fiorc~, rlrii~~h in ~!v- to tho existonco of I ,:is foiin,-- -,nl%l nt lo,.-r