SCIENTIFIC ABSTRACT GALPERIN, B.S. - GALPERIN, F.M.

Film and Composition-Resistors 1163 PART II. FILM RESISTORS al. Ch. 4. Deposited.-Carbon Resistors 81 22. Properties of deposited-carbon resistors 81 23. Structure and properties of th&mally'cracked carbon 82 24.. Insulatin supports for deposited-carbon resistors t 89 25. Industria Wthods of depositing carbon 92 26. General-purpose d6posi.ted-carbon resistors 99 27. Deposited-carbon resistors'with increased stitbility 112 28. High-frequency deposited-carbon resistors 119 Ch. 5. Metal-film Resistors 125 2g. Properties of metal-film resistors 125 3 - Methods,of obtaining~thin metal films 126 31. :Structure and propiL-xities of thin metal films 132 32. Industrial types of metal-film.resistors 140 33. Metallic-oxide-film resistors 150 34. Variable metal-film resistors 153 Card 5/7  Film and CompositionResistors 1163 PART III. COMPOSITION RESISTORS 155 Ch. 6. Special Features, Structure and Properties of Composition Resistors 155 35. Special features o~ composition rpsistQrs 155 36. Structure'a nd equivalent circuit of the resistance , element 156 37. Factors determining the conductivity of the resistance element 16o 38. Electrical properties of the resistance element 163 Ch. 7. Materials Used for Resistance Elements 167 39. Vonductive components 167 40. Nonconductive'components Ch. 8. Methods of Producing Resistance Elements 179 41. Producing lacquer-film resistance elements 1 9 42. Methods of applying lacquer films 4 1 Card 6/7  Film and Composition Resistors 1163 43. Heat treatment of lacquer-film resistance elements 187 44. Resistance elements of composition resistors with an organic binder 190 45. Resistance elements with'an inorganic binder is* Ch. 9. Industrial Types of Composition Resistors 197 46. General-purpose fixed lacquer--film resistors 197 47. General-purpose fixed composition resistors 202 48. High-power composition resistors 2o6 49. Resistors with very high resistance 209 50. Miniature resistors 212 51. Resistors for printed circuits 214 52. Variable composition resistors 215 Bibliography 222 AVkILABLE: Library of Congress Card 7/7 J P/if d 2-10-58  AUTHOR: Breydo, 1. 107-5113-71-3c-142 TITLE: A Useful Beginning (Poleznoye nachinaniye) PERIODICAL: Radio, 1958, Nr 3, p 63 (USSR) ABSTRACT: Recently a series of lectures was held in Leningrad on small-size radio parts. The lectures were organized by VTORiE imeni A.S. Popov. The lectures dealt with materils for producing small-size receivers, capacitors, resistors, transformers, induction coils, printed circuits and techno- logical questions. Some of the most interesting lectures were: "Physics and Technology of Electrotechnical Materials Used in the Manufacture of Radios" by N. Bogoroditskiy; "Capacitors Mlade of Paper and Tape" by L. Zakgeym; "Non- wire Resistors" by B. Gallperin ; "Magnetic Materials" by ' V. Mes1kin. In th~ -reports it was pointed out that there is a tendency to reduce the dimensions of the radio parts. Tantalum capacitors were listed as example for the effort Card 1/2 made in this direction. However, there are certain obstac-  A Useful Beginning 107-58-3-39/41 cles in the development of new, small-size parts. Fre- quently, such parts are not manufactured immediately after their development is completed, because there are no orders from the consumers who do not know that these parts have been deve3oped. Therefore it is necessary to publish in- formation on new developments in periodicals on electronics, radio engineering, etc. 1. Radio equipment--Miniatureization Card 2/2  _~OV/69-21-4-0/22 AUTHOR: Gallperin, B.S. and 3oldatova, L.P. (Lening~rad) TITLE: Orientation Effect in Lacquer Films ;.ith Carbon-Black Filler PERIODICAL: Kolloidnyy zhurnal, 1959, Vol XZT, Nr 4, pp 415-418 (USSR) ABSTRACT: This is a study of the phenomenon of anisotropy of electric conductivity, which can be observed in carbon black lacquer films obtained by dipping the film support into solution. The oxperiments were carried out vith small marble rods 20 mm long and 4 ;rim thick. The thickness of the coating did not exceed 5-7/,V- The black carbon concentration in the film varied from 8 to 15114o. Electric conductivity was measured along the rods, i.e. in the direction of running of th, ~ suspension. Other measurings, perpendicular to the mentioned direction, were made possible by grinding out a spiral around the rods. The -oesults of both kinds of measuring(resis4-ance) were evaluated in surface units (equations 2 and 3-)The coefficient of aniso- Card 1/2 tropy was determined (equation 4). The e-,periments have shovin  SOV/69-21-4-8/22 Orientation Effect in Lacquer Films With Carbon-Black Filler that anisotropy of electric conductivity of carbon black lacquer films obtained in the above described way is con- nected with orientation of the carbon black chains in the direction of running of the suspension. The anisotropy in- creases at an increase in the rate of of the filmf and diminution of its carbon black content. The orientation effect in the films can be eliminated 1)5, introducing a small quantity of plauticizer into the solution. There are 3 graphs and 1 photograph. SUBMITTED: March 1, 1958 Card 212  GALIPERIN S. (Leningrad); SOLDATOVA, L.P. (Leningrad) =t~ --- . Orientation effect in laccuer films withs. carbon-black filler. Koll..xhur. 21 no.4:415-418 Jl-Ag 159. (MIRA 13:8) (Lacquers and lacquering) (Carbon black)  SIP I a 1 13 111111114014 11111 "A V v a 14 1$ 14 ?1 1) 11 1111 MU kit my#&;, 41 111)" 63 to I L V Y Y--A 1, 1 M 10 Cr UP CIL A U#cl of chomical Inperatim of lister an the Viscosity of the foweltime C01111111069 ;III(IIIIIIISIUMM J lpf4jrdC" (11.5-S,W) A5 -#W lt*2).-I-.xptr -muffi-Wiented in gmphq and whin %hmw that viwcWty of linter In ammon6cal Cu Puins. 6 the caly impnorunt chamcferistic for all prwtkal purpows, Other teitit may 1xviNfle valluglav Only f(W very 111W avalles III liliteu V, KAWCIINVWV at- 00 tie 0 a.. 0.1 i'11411-40 4" Ist Leo a ew 0 - - I III 111 9 a a I or I a, I't M, a. lot I ,W d"! I io 90 0 0 9 0 0 0 090 6 00 0 0 9 0 006 0 0 6 0 6 0 46 ei o o :,v 00000 00 0 0 0 * 0 00 04 0 0 00000 0 6 0 0 Wo!  0 0 0 0-0 0-0 0__ s I A I I IQ it ti is is I& ly is it a ~,- 0. a 14 Z Ji P 23 M P V 11 m as k v u )v 6; it a 4) w a j!* A- A_r _2 F f A M 1 K L -4 -11, P 9 1 ~ I - I. V V I A - AA 46Q UD 141 1 1 A 'Aisl~ra froM dW*MI R03WU districts Jai al .00 00 c mml, 1). I.,rUMANK111. J. Applied C". (U, & S Ira IVO -.00 -'-Russian I 1-n diffMmt distrktj I, vM unifmnl In quality a &I=1tk12) I 0 nitrating Purposes is superfluoin. nd its cl--ikation into arski, for *0 00 j 00 AS 0 090 zoo 00 ,w TALLURGICAL LITIMAT1,411 CLASUPKATIC. 0& 7-7 qjO. '%IT. 14108a KIP a.. gat 4 ]till W - I T I I I I p 6--" 111(";i -4 -W 0 IF I no' AV Ild 11111 X U 0 0 0 0 0 0 0 0 0 * 0 6 0 0 4 0 a 64 0 0 4 0 0 0 is 0 6 0 0 0 0 0 0 0  0 0 0 0 0 a e 0 0 0 40 0 4 0 0 : O e 411414,111,64 0 06-a. fa al 0 0 0 0 * a 0 0 4 0 11 0 0 0 0 0 1 1, 0 0 0 0 , i 1 4 11 it is 1. is .1 it x Ij It )i h It 11 L; 11 0 V W v f t OtA 40 4X CC It ' a P a A; 41 .11 L-1 6- 9 tt L A 11 1 : 0 Mco=" 020=18 blegickins Come Caw". i " .00 c ,,, a ' lonallsia gout It. K,S,h,v,kti I IIALt M11, 1) I _--f 1 t -T ti Q S S i -. . - . . k.) 6. &111 4. ,1 mw - C.4twil, rK inglus. are distinguishrVI limit thoa, ot N&MI having tile -Zee, 0 -"IV Wisinai content of active cl by 4 higher "activity.-- ii. &. higher Illewhing and oxi4lifing pwr" thedilleirlicr 400 , ,A'!'n4 PankulftelY Motirratile whirn Nami atinn. am o_1 "Ith an euvfA Of alkali, Tlgr clumniniptio" q itw lqcti%.r ' 00 C, is in the following di~crrgigiiing ordrs: C&4(K I)e min.. " 1: 00 neu nd , man. of NisoCt w qLan. d N;&()CI. - 1.0410 09 The Me amit in the bleaching power 14 the 9golos. 14 par 1,1 ticularly wktrabic for low rogirns, ifigiapprioring for tile 0 hishorics. Tbedintructi.., w1w, d the 11, 111 z:00 Ing 6 tviskut quly kgr gwvVrr,,,ndjjjjjgs nwh As a jrq,p qlf 30' Si h ff 00 . nm t e r tvt dait the .411c 6 tth- ~Aloc. pmfi,I. Voice slkiuld Iw given to the nums evorgonrocal. A. A. It '00 a 450 00 so If '09 00 00 1 X-00 00 3; 13, of 1 3 ~I 0 OOTV, 000000. 1 a A, ;0000099 000 0 0 0 0~ 00000G 00 000*00*00000000 * 0 0. 0 0 0 * 0 0 0 0 0 0 0 0 0**Ooo 0 , 0 0: * 0 000000.0 4 00060 -  1 4 1 1 1 X If U if w is 4 11 111 it 10 It ZI a it 13 A V .16 N ~ AD 11 it 13 Id 11 b V M IF 43 .1 91 &1 a as P AIIt G. A -A- iL.1 - JL--L--A-- X 9 1 A 1 9 1 W.-L 1 1. A# 0 a 90 U ~-L-A I A I - I A~ O411,81 . I-(. W, 41-ptst GAL PERIN. am of PWUWQ coma D. !Sj: Tumair in. J. AIPOtiod Chm. (U 0, X l-f)N(I9Cj3).-A unifor"I method b&, A= for tbc, regulation of the viscusity of puti: 2:r~dsr IrAc bA-wd u"difiLations of the alkWi on trw t. It Is not advisalik to use bleaching for this Fnaler (b*6w 7-10'by the- American nwtbod) (a comm- table is given); six-vial metlaxts n( Italing the uItro,- ' off V to give 0 Special treatment, t. C., boilinp In dil. 7 OA t& fi ti t i d l di d l M4 111,10,01R. during stabilita6m are M-1,mmended. The or a s assi on n ar c ca projec s propose . t meth,"Is were: (1) IA)ilillx ill pure Water under afor bleached cotton cellulose wording to its viscosity. rewure; (2) boiling ill 4111. It.j. -Alm -,I N11,011; Simi J 91111.3 00 In this classi6catitm the brands we arranged lot y frecived, a treal it with the allWi tricatt it. t the i i (3) boiling in a hitih-tFodinit ister, It-illid (C.HACIWO~ The fint 2 ructluxis s1mFuld be givvil pieferm-r. They Thf w be attainment of the correspood will saw I perinit the u-4- of high-visc"ity cott--il ccUldome for the 00 limits of the cuprammuctis solln. of the purified cethdo-C. er umfer prrvuwe 6 of original mauTial. Ilmling in wat oew The bask factors which govern the vi%cosity of the nitro- primary imlFortance ill the manuf- of "half SITMId" C, Ballow at a given N content Are the viicusity (geadr) of the firi hmal cotton cellulose and the nitratkwif ternp colloxylin. A. A. Pxk-btlitvtk . g A table is given showing the ckatracteri~lk r0ation of the 00 viscoity of the nitrate to that of the oritimal cotton ctllu- IMF the nitrittion temp. (30-44),) and the N vatent (111-11.1te The wiwowly depend!, at-molt thestabilising co"t""(duratims of b,,Uinx) (dAta am tabulatedp. A ralkirmal irchnoltiff"I pructN can Iw wltctcd by study- Ing the 3 fartorit, of the wriginal roitern Mlu- loar, the nitration trrnp, Simi the stabilizatilm; fills. rwr. ,$2 !1: saits prepti. 4A colignylin of demired pi-t4witift. Fivr the pir"s. eff callosylin with a viscosity below 1.4,1.5* It 1V .$.,SLA WALLURCKAL LITIE44TIAPPRE CLAWFICATI(Ift -04 -00 600 .46 coo roo Z; 06 !sFee 00 0 U 10 "1; an L o : A 00 01000060000000 6064:0000096009060660 060069i*90000060460::::609i 0000000000000000  *a* go 0 9 0 00 6000 0 0 a 6 C 0 OF G 0 X L 61 a PC a I I UP R t r P 2 t t I k . 6 , L . h 144,trlce No 4T. MOM SORIVIBIll 0 A 04e - I 30 go 00 oo* r 0.0 go, 8 00 JUVIII-sV43 -vids.3 Alvialtullud Aw-h pus ainituat!j UO IM.Mq I'l PUP .11tuylift) 1"Diflis fin Al.)Iil(j 00 ubw -uijA%qjw lo wjt3npWd a4l Ul vvAUPAR JJIv.%% I)U%t 00 -Iluwul iul"Pa '14.1m Pulloullu Ul Opfko .14 )() A.-031.3jd .,ql ..u3uw tomil 10 amal4pul 4q1 10 mopsn'dju- ml) .7 0 -.I pus ul'sAll VI if vn"m- P aview-L go e- Wlt -"-- - -- - --- - --- -- ---- "1 00 .10. till.I.J., Q., t1sic"44 '(4 1 ),1 N T it to if K n of Pq a mc it a 411"U* vita 14 11 A a ti 0 a & 9 0 0 0 # 0 NAJ 9 0 0 0 0 0 0 0 0 0 of 00 0 0' 00k- t ! ilW t 9:05 0 900 00 * 0 -0 (b 0 0 0 M0 00 00 0 00  ~-11177.-T:*, ").T. GALIPERIII, D.I. (g. Molotov oblastnoy) MOSEYEV, L.I. (g. Molotov oblastno7) Heat of swelling and heat of solution of nitrocellulose. Koll.zhur. 19 no.2:167-171 Xr-Ap '57. (KLU 10:5) (Nitrocellulose)  GALIPERIN., D.I. (Perm'); MOSHEII, V.V. (Perm,); s,rEPANOVA, V,,C,,. (Pernl) Thermal and mechanical properties of plasticized ethyl cellulose. Koll. zhur. 23 no.1-8-11 Ja-F 161. (MIRA 17:2)  L o8gpg-67 RM -60 ACC Nit AP6 (A) SOURCE CODE: UR/0191/66/000/( 023066 43 AUTHOR. Gallperin,, D. I.; Khamzin, S. I.; Stepanov, Ye._S*' ORG: none TITLE: Mechanical properties of e celluloJ plastics SOURCE: Plasticheakiye massy, nos 4, 1966, 41-43 TOPIG TA-GS: solid mechanical property,, cellulose plastics, plasticizer ABSTRACT: The authors studied the effect of the degree of substituti~A (ethylation) of othylcellulose and of the concentration of different plasticizerAn the mechanical! properties of plasticized ethyleelluloses. The experi-nen-6i-144i676airried out with ethyleellulose samples containing 25% plasticizer (dibutyl phthalate, dioctyl phthalate, or tricresyl phosphate) and 1% diphenylamine antioxidant. Within the degree' of substitution of 2.3-2-5j. 1he glass transition temperature, tonsilo strength# and range of elasticity decreased regularly and the elongation at break and cold resiste increased. Experiments on the dependence of the temperature of the glass (T9 ) on the concentration of plasticizer showed an equivolumetria relationship between the plasticizer concentration and Tg, This relationship is expressed by the empirical equation T =182-3.64cvol, where evol is the concentration of a plasticizer in volume Orige art*Ue: 5 fig. and 2 tables. SUB CODSs lz .11/ SUBM DATE& none/ ORIG REF: 1004/ OTH REF. 002 Card 171 ~:~ UDCi 678.5L6.2.01 1 539.3  Scirlet ftwor AV 208; Medicine PeniciUln "Treatment of Scarlet Fever With PenicMlnl" 1. A. Gallperin, Moscow) 2 pp NOW Noditsina" *0 Discusses, results obtained frcIastudies ousome 8D0 soariet rover cases treated by may methods-': Pml- oillln therapy vas found to be awt effective* altkaqA not considered a spoolflo thempyp It can be conoldbred a pathogenetic therapy. low-  wnlyodicine - scarlet Fever Jftr/Apr 49 Medicine - Sulfanilamide and Sul- fanijamide Derivatives file It Worth While to Use Streptocide for Scarlet Fever?" 3C. A. Gallperin, Clinic of Infectious Digeaseq, Can Injot for Advancement of Doctors; Ord of Lenin Hoop izeni Botkin, 4 pp "Pedi&triya" No 2 Clinical study of scarlet fever treatment indicate& that streptocide U& no antipyretic actions and no effect on the recurrence of critical sympt-R. Also'obserrecl an absence of preventive action 41/49T79 UM/Madicine - Scarlet Fever (Coutd) Mftr/A-pr 49 agpinst complications. Use of streptocide for scarlet favor is not Justifiable and =at be dis- continued. klAmg C1  E. GALIPERIN, Te.A. Treatment of relapsing fever with neosalvarean preparations. Klin.med., Moskra no.4:64-71 Ap 150. WLKL 190) 1. Of the Clinic of InfectiouB Diseases (Head -- Prof. G.P.Hadnev) of the Central Institute for the Advanced Training of ftsicians and of the Hospital imeni Botkin, Noscow. ~,:! I 11'N 2,  GALOPERRI, Ye.A.;RYSKIND. R.R.;PRRSUIN, G.N. Application of synthomycin in arysipalas. Klin. med., Moskva 31 no.6: 68-70 June 1953. (GIML 25:1) 1. Of the Clinic for Infectious Disease@ (Head -- Prof. G. P. Hudnev), Central Institute for the Advanced Training of Physicians.  GALIPERIN, Efraim Aleksandrovich Academic degree of Doctor of Medical Sciences, bnsed on his defense, 22 February 1955, in the Council of the Central Inst for the Advanced Training of Physicians, of his dissertation entitled: "Materials on the Pathogenesis and Treatment of Scarlet Fever." Academic degree and/or title: Doctor of Sciences SO: Decisions of VAK, List no. 16, 2 Jul 55, Byulleten' MVO SSSR, No. 15, Aug 56, Moscow, pp 5-24, Uncl. JPRS/NY-537  TET,UflJS "Tetanus". by Doctor of Medical Sciences *E.A. Galperin,Zdorovtye., No 5., may 1957, p 20. This popular type article reports that tetanus is an acute infec- tious desease caused by a toxin produced In the human b&'.y by a genus of Bacillaceac, which are anaerobic spore-bearing gram-p jitive rods. The symptoms of this disease are described in detail. Dr.._,Ga~peri.n. concludes that a prophylactic vaccination is the most eTHcient -means of fighting ~etanua. Card 1/1 75  Cumv%'xy : USSR E Cl- "Cle upoxj: Virology. Viruses c.f 11-1-mi and Anil'.Ials- rvicRottsias. .'-bs Jour: i1of Zhur-Diol-, I!o 23, 1958, No 103580 : Gal'periii, E. it. L-st : - T-it-le The Clinic, Tharanp,, and Ihtthoganesis of Polycyclie. (Five-Day Fever) a: d Itroxysmal Rickettsial Diseases OriL; Pub: Sb. IRcheniye, infelts. bol'nyldi. No 3, Mosccw, 1957, 20-30. .',bstrac~: No abstract Card : Vi  GAL-iPERIII, E.A... doktor med.nauk -7-- Clinical aspects, treatment and pathogenesis of polycYclical (five- day fever) and paroxysmal rickettsiosis. Lech. infektp, boll.- no.3: 20-)0 '57. (RICkETTSIAL DISUSES) (4U 14: 5)  GALIFERIN$ E.A., doktor med.nauk; YERE~I:ZKO, A.V., kand.med.naul; I - --- Treatment of typhus fever vith same antibiotics. Lech. iafek+,3. boll. no.3:31-48 157. OGRA 14: 5) (TYPHUS FEVER) (ANTIBIOTICS)  EXCF3 M.1-DICA Se V 9 1-11 croblolovY S 4 Voij -x 2152, MCKETTSIOSIS QUINTANA (5-DAY FI--VER):PAT)1(X-, C 11 M OA 1, PICTURE AND DIA GNOSIS (Russia n text) - G a I p e r i n F. A. - Z. MI 1~ PO - BIOL. 1957, 6 (62-66) Graphs I ....... Th6 disease was known to occur In epideratc form during the Ixt and 2nd worla wars, but It never disappeared entirely and is diagnosed sporadieally. The diseaRe is characterized by a olycyclic course with several febrile attaeks P,%ch fi-mii 1-- 7 dayW duration. In Wof cases a roseolar skin rash was ohservvd~ 1,114% disoillo, which Is accompanied by headaches, muscular paina hyperaomia o( Me fave, %!okl- junctivitis and general malaise, lasts 3 - 6 weeks. Tiie camiative ngi~iij IR RivXMlislij quintana, which nay persist in the circulating blood 2 - 3 rnooths tind even 1. 5 yr. in viable form. ---AnIpIe1n-.- O,Mvestoo. TO. (Li 0) 4)  GAL~EWH N,!jk-, doktor med.nauk -:~- 100 _-, Role of streptococcal allergy in scarlet fever. Pediatriis no.8: 19-24 Ag '57. (HIRA 10:12) 1. Iz kliniki infektsionnykh lolezney (zav. - deyBtvitelInyy chlen AMN SSSR prof. G.P.Rudnev) TSt ntrallnogo instituts usoverehenstvo- vaniya vrachey i bollnitay Iment S.P.Botkins (glaviVy vrach - prof. A.H.Shabanov) (SCARLET FEVER) (STUPTOCOCCUS) (ALLERGY)  GALIPSRIN, N.A. .-.Mawpwawdsl~ ,----'^'-Chart for differential diagiosis of the most important acute infectious diseasesm by A.F.)'ilibin. Reviewed by I.A.0611perin. Sov.ned. 21 no.1:156-157 Ja "57- (NLRA 1o:6) (COKKUNICABIJ DISZASX,;) (DIAGNOSIS) (BILIBIN. A.F.)  USSR/Virology - Human and Animal Viruses. E-3 Abs Jour Ref Zhur - Biol., No 4, 1958, 14601 Author Gallperin, E.A.- Inst Title Polycyclic Rickettsia (5-day Fever). Pathogenesis, Clinical Treatment and Diagnosis. Orig Pub : 2h. mikrobiol-, epideniol. i imunobiologii, 1957, No 6, 62-66 Abstract : No abstract. Card 1/1  GALIPERIN, E.A., KUZICHFVA, L.R., AKILOV, A.A. IntranaBal vaccination against influenze A2. Vop.virus. 3 n0-5; 305-306 S-) '58 (MMA 11;10) 1. Kafedra. infektsionnvkh bolezney TSentrallnogo instituts, usovershenstve vaniya, vrachey, Moskva; (nU'LUMA. immunology@ A2, vaccine for intranasal admin (Rus))  GALIPERrIT, B.A., prof. (Moakva) Is thore a basis for I.Z#Xopshitser's conclusions in the article "Houropsychic disorders in spirochetal joundice?m Klin.med- 36 no.3-.144-145 Kr 158. (HIRA 11:4) (WRILIS DISFASS)  GALIPMIN, doktor med.nauk - --.-A Zdorovle 5 no.6:28 Ja '59. (Him 1?: 11) (TETANUS)  GAL I PM IN Current status of the problem of or7slpelax and further problems In the control of this Infection, Zhur.mlkrobial.spid.i immun. 31 n0,].:-125-130 Ja 160, (MBA 13:5) 1 .0 (IMYSIPSLAS Prev. & control) 4  GAMPERIN, E.A., prof.; YEPM-010, A.V., kand.med.nauk Treatment of typhus fever with antibiotics and hormone preparations. Report No-4: Treatment 126-143 160. (TYPHUS FEVER) with levomycetin. Lech. (CRLOROMYGETIN) (CORTISONE) ' infekts. bol'. no.4: (MIRA 14'5) (ACTH)  GALIPFMN, B.A.; YEREMENKO, A.V. Treatment of typhus patients with a combination of AM or cortisone and oxytetracycline. Antibiotlki 5 no.g!105-110 Mr-kLp 160. (MIRA 1:4:5) 1. Klinika infektsionnvkh bolezney (zav. deyotvitellnyy chlen AM prof. G.P.Ruclnerv) TSentrallnogo inatituta-usavershonstvovaniya vrachey. (TYPHUS TMR) (TERRAMIGIN) (ACTH) (CORTISONE)  GALIPER.O....B.A., (Koskvn) Clinicnl nnnects of influenza nnd nnsocinted problems. 111n.meds 36 no-5:48--.56 My 158 (MIRA 11:7) OTFLURIZA, alin. nnpects (Run))  ..GALIFERIN, Ffraim Aleksandrovich, "RON, I.I., red.; PETROVA, N.K., ~.reZ [Clinical aspect of smallpox and vaccination reactiona]KIInika ospy i priv~tvochnykh reaktsii. Moskva, Medgiz, 1962. 157 p. (MIRA 16:3) (SMALLPOX)  P.,T I F".A,; Ubservations of 64-67  GAL'-PERIN, E.A.; BULDAKOVA, A.A.; LrZGUNOVA, A.V. Clinical aspects of the outbreak of influenz& A2 in January 1962. Trudy TSIU 68:167-171 164. (MIRA 180)  GAL'PEERIN, E.k. Clinical classification of acquired toxoplasmosis. Trudy TSIU 80:154-155 165. (MIR-A 18M)  GALIFERIN, E.A., prof. Did the patient with Beheetts syndrome, described by B.I. Krasnov and I.S. Kamenetakii, have toxoplasmosis? Vest. dorm. i ven. no,3:77-78 165. (MIRA 18ill) 1. Klinika infektsionnykh bole=ey (zav. - doystvitollnyy chlen AMN SSSR prof, 0,11. Rudnev) Tgentrallnogo instituta usovershennWovaniya vrachey, Moskva.  I r, LMW41 &1%1'61~ Wilul-PM4 I". S.I., Cand Kred Sci - (diss) diagnosiie and :~ t - treat= PO tal hypertension. it mos, 1959, 16 pp (First Ilos Order of Lenin ',4ed Inst im J.1%. Sechenov) 200 coldes (KL, 36-'')Q, 110) - b4 -  1 1,. 1 - - - I I'l - I 1P. , ;; Pjrmvo B.A., prof.; GALIPHRIN, R.I., doktor Diagnosis and treatment of portal hypertennion. Khirurgiia 35 no.12:32-38 D 159. (MIRA 13:6) 1. Iz Moskovelcogo gorodukogo nauchno-iseledovatellakogo Insti- tuta skoroy pomoshchi iment N.V. Sklifosovskogo (dir. - zaslu- shennyy viach USSR N.M. Tarasov). (HYPERTMIOX PMAL)  "Lumm, Rsa.,,-~d.med.na-uk; SHCHMAMKOp M.K., kand.sed.nauk Singl"tage splenoportography in portal hypertensism* Ihirurclia 36 no.lOtl32-134 0 960, (KMA 13tn) 1. rz Moskovskogo gorodskogo nauebno-imeledovatel'okogo JzmtMt& skoroy pamoshchl imeni N.V. Sklifamovskogo (nallobnyy rukovoditell - sksluzhe=yy d67'atell zanki prof. B.A. Petrov, dir. - zasluzhens- myy vrach USU N.M. %rasor). (HMFZknWICiI) (ANGIOGRAPE)  RUDENSKLYA, M.V., kand.biologicheskikh nauk; GALIPERIN) Ej.., kand.med.nauk Some functional and morphological changes in the liver de W ved of the portal blood. Sov.med. 25 no.4:10~-112 Ap 161. (MIRA 14:6) . 1. Iz eksperimentallnoy laboratorli (zav. - kandidat meditsinskjk.A nauk V.S.Dashkovskaya) Nauchno-issledovatel'skogo instituta imeni Sklifosovskogo (dir. - zw1u2hennV7 Vrach USSR M.M.Tarasov). (LIMR) (PPRTAL VEINS)'  GALIPERIN, E.I., kand. med. nauk; SHCHERBATENKO, M.K., kand. med. Similtaneous examination of the portal and the bi ary systems (spienoportocholangiography). Khirurgiia~19 no.8t63-65 Ag 163. '~(KRA nauk 17:6) 1. Iz Mookovskogo gorodskogo nauchno-issledovatells.kogo instituta skoroy pomoshchi imeni N.V. Sklifosovskog'D (nauchnyy rukovoditell - chlen-korrespondent AMN SS R., zasluzhennyy deyatell nauki prof. B.A. Petrov, direktor - zasluzhennyy vrach UkrSSR M.M. Tarasov).  L F Rcentgenolcj;~icall and manometric Xa --ac s during surgery. Khiruwgiia 31) no-11 lf5) .-:I N M I RA 11) 1. Iz Moskovskogo gorodskog.- i no t i t li ta skoroy pornoshchi impni N.V, Sklifosovsko'g. rukovcdltel' -, c ( f; a 1 ". I - ch-Len-korrespondent Ale-24 SSSR zasluizhennyy deyatel nailk.-f proa:7. B.A. Petrov) i kafeciry gospital Inoy kh.lrurf-1.1i (zfiv.- ~,~ilsluzhennyy depit,e] I nauki prot'. M.K. Cliachlivit) t,,Li*n(,,- gigiyenicheskogo falaillteta Tbilisskogo medit.81nskov--, lns!Atuta~  ,Q TERIN, Eduard Izrailevich; OSTROVSKAYA, Inna Nironovna; PISAREVSKIY, A.A., red. [Contrast examination in surgery on the biliary tract] Kontrastnoe issledovanie v khirurgii zhelchnykh putei. Mo- skva, Meditsina, 1964. 163 p. (MIRA 17:4)  I Gl; I 1-7p I IN F", j I y kand ,, r, w j k PETROV, B,A., . - , - I p : - :. Clholecloshcttowr in chronic and acute cholacystitis. Khirurgiia 40 no.2256-65 F '61~. (HIR-A 17:7) I. Instf.tut ,3k;?-f)y jymoshchl linoni N.V. Allfoflovskego (dirfAtor I.I.M. Tarasov), Moskva.  ! : 1, 1 1: - 1 1;1: 1 GALTERINY F.I., kand. nnuln- Bilirubin tes"-. in the dif'ferf-ntial diagno!i.'a of mc,"ie,,Ictil and parenchymatous Jaundice. Kb-rurFJJn 40 nc..-,,-~64.0 Mr 164. (MIRA 17:9) 1. Moskovski-y gorodskoy institut im-eni Sklifosovskoga (nauchnyy rukovociitall- ch'--n-kcrrt!s,,)c,-.dent AWN prof. B.A. Petrov).    L AR30i6298- shown by Sla: rubber- that of NK rubber:',being 2.5 h.. We- to' thei, 09- 11, nificant branching of its structure,', SKS-W; is: I 1; y W ! I .~relatively jhig~ ~ - viscosity. ~Th e viscosity s decrease ,d y.,pla`al i b ticizinj or 4 ' I4ncr h 6sbe in th' ' styrene concentration. ' The transition,to t~e iridco.41ad s ~qte d i~ring:heati tig. ii _; cie:ases the f luidity of'- NK rubber, 10 fold, gad- that~o~~ Ni ~~d S *--46 j: fol & V At 1610CP the nature of-the curves of 3-hour-"flbw shows a ~te Eidenc~,, 1 ~ towards fu ~ rther ,': growth. Sulfur acts as..a plasticizing agqntj,.intreaeing:~~h lu~, 30 dtty- by I ' 20C.' Comparative experiments on the,outflovr-~of rubber thio ' U4h a ~rikice 2i -there is no increas: diamester showed that W4~1n~ibitiod-id ;a~ j,i~apLIT diry. tube Rubber mixtures made with plastictEe'd or:t*%OIL~k:plaiti'Ci~dd:~ id ~~30-,W i~ viscon ty which was about equal to- , V: the vkse6sift ofJ thii; rubber froni J Ch Y~ ~"re: Ma o., ~ Yu.,Vilents HT SUB 'CODE: ENCL: 60; 2/2 - V t ~ 1-11.0 7 1 ... ~7:  4--'r- IV ir-4vw-w--- w 4 0000 000 is il 1u it I, Im III )o If M 1o 4 4. Q .1 are III . . I. . III It 1-1 -1-1--AA a Q W M42 % d I As abilwPlim- Swul 0 I'mys, 'I- pk*k. Z. $OwjOmNim k 316-19( =go 40e ibe c4m. of the ab-"iam CM611- sea at IL-wave. A. H.F. DuWan age a** .00 00 &1 AO ;Noe 00 S S t ASITALLURGOCAL LIHNOW1 CLASUPIC&TIOP ISO u a to 10 iv!; W-C 0 IT (1, it Yt z a a 4 v R a No 0 0 0 0 0 0 0 0 * 0 0 a * 0 0 a 0 0 0 0 4 9 0 0 0 0 0 0. 0 0 0 0 w T.SH ; 00 0 0.004 $0000 0 0 * 0 0 0 6 0 0 6i;  0 0 0 a 0 0 0 0 ID 0004 a o a as 4 000 0 3; 4 1 0 1 8 S w I I It u m n is 17 m JaAXA 31111JINXII MU bill JIM 00di 41 U U U 4 g- L-1- .111, , T L AL-10-CC 0,,IK.A-j f- A 4 1 f. 1,--.A go A NP vappel -, is' 0 go Abner" "d somwing of js-toys. 1), jji,Ahinj,,v Ifelptirin. Phy.sk. Z. Nowitimajow 00 r.-X-29, HOW.. A [havirviial rKtift.,xisg- ;.00 00 is dwi4ii fair vlo, tbr cvwff. no Istair lihisfork-c. A: almop- i IkO. wbk'b ivqmim to tw Is litim fawtk, it go I/A. F- ABIld As. EmW arrrnwnt is; fisawl with tbr rapil. FrwAsulgolben. -00 00 twfutra thir Ormighl lius, Simi Ow le-sill. -00 km SmIterift. Vahw-l (if the weltwing Cmir, sr/s, .00 kwd ib Obw way for viuknm nwIa1% itwirew with its. 600 I Old" m. no. of the wartal. 1). W"t zoo go 00 0 no* 00 see as* 00 0 so 0 00 ito 0 "Oe '01 Lillil TalI CL AIWKAT ON Ok. aist - ----- J1.1, 0.1 aft too on __F a aw a I ff a I A It EKW(t lift *gow 0 0 * 0 0 0 0 0 0 0 0  1,1!1pi,; I I I ~iil rgirp 49 V" I "," !;~, Ou I I I it It 11 it I [P a 11 u V 4.4 0 4 '1. L k 0, A A_ ~Tu 1-f-'k 1. " *,AA of _u 10 tows Owcmis disloctrk constant for x-ray$. IF. II&I'pwin. J- -00 1. I'Am (IT. S. S. ICI 7, 'M-72, W37). 00 U. If. IIA11111tann go** ar** O:.V a00 coo go* '00 logo '00 100 WOO Iva 1 ".01 1, got WINJ oil 44V 30 - --------- 10 4 --i-A -_ ci ivi-- 1-019 I lee a I " 12 0 0 " 9 4 VO 0 0 4 0 0 0 0 0 0 0 0 0 0 9 0 0 0 0 1 00, OTSO 00410001604,864000#440064904 000000000000000 0000 0 6~  *at)# 6904(p- ~V4V Ohl sty 0 A a 1~ A jr, (;4"10) w~ .... r ;Y We old accord- UwwY of 9 Ph us, (P.Alm ( "n 00 Th, :0 Z~=ion. 1937 It, I ilf--1 ).-The w2 lite eloctftxwgiiwtic fieki III all), given element of 1116 ~09 d , ow oscillation is Up) crystal latti- 151606 and othm, but not .!f by the inwrWenw =7710;; .- A. E. M. Ikv, quantum mechanics. zoo see Zoo two* :go* it 00 Wee lit .. ..... j_ --"I-*----*--,,--- - . -,,,! go I I a 0 0 0 0 0 a 0 0 0 a 0 0  - II 1 1 ; - t: IV.; .. ;1~ . 1. . . I 0 0 0 0 * 0 0 a 0 0 0 0 0 0 a 4-4-0-04 0 : 6 01 4_6 0 0 0 0 0 6 0 0 0 0 0 0 0 0 0 0 9 0 0 0 0 *01,111 0 G 0 0 4 0 0 6 0 a-M 0 ip 0 0 a 0 0 0 0 0 0 4 0 0 0 0 0 OU , I I a I I I I , ~ j, " 1 1. oilli lisillf) a n m 1) x ft a 11 u 11 t, I, I? is il t 1i o41 a a L 91 L. -1 .1. ft , 4 , a aI t m 7 A ft Cc M it 00 00 A , 4 00 ~99 Influence o( the electric field oil the tint; structure of -00 00 , a ray absorption spectra, I.. 11A).1m. .1, 1-1/vi of 1 1% m , I ..S. S. R S If 17 ..00 ik-lical. It. ullow% Fiji I fit, St 4t k v1),, i lit I lit, 1. t I I I 1 1 -00 1111" 111)411, 1011191) 10 AtIVI ~ C' A, 11141 00 11itill- fini- Mtuctuw t4lic, placc %i it in A -00 0.N.. fit lilt III-k-A 11411 Ilt-i'IMr 411111%,tAllh Ulltil 1141,1. -00 IW v"'Itt. ot, t'j"lud. wid m lit. 00 ,midar% low .,it tictuiv t,gimis. Th. cM.i 1, '1111114t -00 f" Illat l"llild by flallawall it' .1. 25. 00 00 .11l't Fti'llall.l. kC. .1 13, 171C., (m 111v ! 00 1 tic fillt: tam 1111'. lit lival, d I' lz,,tl,lll,ktkll 00 too j ;:*0 00 ~111119 00 ;Oo 00 wo 0 0 :0 0 Wo I ~00 of ;00 00 go 00 of 11 -VIALavrrKA1 L4Tl*4l6dt CLA%%IPICAIIC% t I 4-A An I I N .1 .13 n v IN I Al q 0 0 0 a 0 0 a 0 0 0 Ole 0 0 0 & 0 6 0 a 0 a 0 0 o 0 0 0 0 0 ~2 00 I 00000000004000604 010000000000000000000604  . ~ 11 ~ I . 11 ~ . I , 1 1 , I ! k , - I- ~J~ i I I :~ - "DivergetICY 11, the Iffijiler Appro4 iniat ions in Quantum Electro-D.mwmics," Divir. EE;I.er. i Tecre'.. Fiz., 9,. No. 12, lc~'h I .  _4 A- 1. a X, p A I I U Y 1 .4 1 .4- A01 0 CL 00 U j 1 4*1 t7. -MIA --- --- 00 l7owlell structwdJ calboll 0~41, A. K (11411"Wv all,) -T., improw C isterl wittiolut InIttiolin Ifix 2111tying ;-I'll) 100 ,f NIX tnifninp iss towtivat- mul hy In"u, of im all,,v Ims. k 00 ow dnml by mositing Al. Ft-Votul Pv-'ri takain in ctins4i Z.; i -00 o ;R ths~ s"nivit. vJ th6 atit- w114 J,'r (111.0, At I I.M.St 2 Ok ;I LA. '11 11.11 issul V Ths- %A, '14,1011 111 00 a Illp mom. o(.51111 2, I"t "m M ~I-f I -, Inin. Mwv u1swittg. -0 0 Ih-fommIdn' 1.1 111,- Fq'1;I its 111c attit. 00 st ,If.2 kit Iw I'm 144, n."I dr.11,11-1 -It. 16. -00 'hmnlanli Ko' nim-11m it, Iltv AIM dvo%1.1110 istoo 00 J -ilh Al. 'I*Ijr iminuml wmbii- ~%t-tv nit-ri- pr ...... III%. t.1 =00 13FXV VI-A-.VIi"tI;Il IIJIIIVH.~kMP, 00 M, liowh 4 q*o of Physics, ,qet, a, gy, coo -- Moscow 1 :7194 3 - I' bn Ordzhonikidze, -00 Stalin 3rd Prize, of fc liew graje.7 "f S" -,-Ioy_, V!e- Lo a '06 v %o zoo woo t!o 0 400 tie 0 00 -is. Woo - - ----- 00 u 9 &V 00 11 'W 0 It a 5 AM a 31 0 III, If It It a 4 a A1111111 plan 111111mon Olga 000000000*00000000*00000001000000000*004000toooI -11 0 -0-000000000 000*000000000io0oooo *6060000 111111041~  rag Sea 5 0* 8 . *0 11 004 000 o'5 0 0 004 lac As 0 Nana wan 0 0 OL*,o 0-0 *;o 0- 0 0 90*0 000 so ago 3WOOV-0 00 . I - .00 goo I SO* . 460 506 goo goo goo 400 goo goo moo woo wool -I* modes 3's lm A I I leos 00 0;o.oq& so* ~ 0;00 -0 a 0 SAC 0 0 0 O'o A 1 0  070-9 War To -413 1 4 5itI itf b) tLj u 13 1`1 0 It IS IS a N )a $,v0$1 1# -L 41 a u 13 Ift p L j A- rJ[-- !-, A - tj 1%4% A.0 -t~l All,i C, goo concereling Interatomic vows in metalki, Cannewlim with V. na. 7, 11016. goo O.Cal ~"~l v 945 voo E-2- . Alm.st.4 OtT4LLURGXAL LITIMATOF CLASSIFICATIOM 1000 woo %NAII.j wit 441 4%( 7u, -411W. AT st IT pt, t, W.1 Kit Its matt liff"On lixi)o 10 0 0 UI 10-0-00-1 k*A* _**_Iq_ 0 000 At 00 0 0 We go ei  100000000*0660006 gee 0,609 0000 Sao 000004-000100600 00 0000000000009000:10o0 ooooo*oooeoooo o*looeoo or A 0 0 W? I" scow6muts " CPO -at ! 1$ e 0 cm Al u ri 00 F 00, OS Oar eon Set *as 0 000 00 002 on., coo III "mime 60,41t $PIMP*" 000 On 4"P I+# p UAW soft V3V VNIA3 Ad coo =no Pon -Mma)b pop miaim" PRO" pm " -'r pus""' "m j0 up-* A-P pmu mm am. 00 *a- 0. P -f P" r ON %L- -let U V) of llan too wmpqq opw I* oam a " 96, " go F 'p *a. - I s0- 00 :0. l ' r a* t 00 00- 0 ma l, A fraig n amillil c " 611( t &"I NII "Um An l l p --b 0 0 0 0 0 a 0 a # 0 0 a 0 *so  k -00 ~1 a o o 0 0 a 0 0 40 o 0 0 0 o 0 o 4 4 a # 0 p III$ Wlp )$v splail flu 0 1j: Js a (A. lk-L-l-k-P I-L-11 -t- -t-L-it-A, A A-A-1-L-L-s. 00 1-00 .00 do go I 08 ft am* Wawa mmuft 49 ft C* ad 1% .09 GALP CA *Alt SnL VM- 0 (No. 3) hr 1 4 JAOW. ZM OVICH b ONWANd O*b dw mob of a p I mw ~- 3093 OWN 'a 406M a A fm as WAVE* MMML The vshm carAwd hdm this bomb Wn dm* ath ft 6 L. L G. L46 see bee, $a-SLA d4TALLWQGKAL LillftatUlt CLASWKATION boo C". 4" 0.. lit A01 A 1 0 w a 00 1 111 1" 5 a a 0 to 0% so 0 0 gf,* 0 0 0 0 0 0 0 -10 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0.0  I f 14 11 11 11 14 -5 U v 4 A, to It a 14 6 A n A J, U if IS It 11 4 Ij 4-417~ A A I A 7 t U It M M U it I I I- JL -'L it 00 Investidatim III I%r f0c 9"CIPPlibilitY ill A114iiv -R -94D Con - r-4-SNW . I a at Is-gj-W$Q' -Odi 3C. IM!9Y41 W-1 Tri-MiNy); pp is- xz; 0 Was, I th, 7 Alloys of vaudism, chromigm, coWli, a" fticlol with tellurium were 0bgsts" by Uw stWd a, &,Morin is a vaccum 041 c4 U-11 diappropti, well -miad posdgre, Pressed tMo small 9 rylittitrical forms. The parsmao"c MWOOINKI &d Cw (as L"d alloys was me"Wed by at w"'&M modit ZOO 410 ee 0 "arastaga'"'c rvk OSUMiSM4 by A &WIN111111114 A rift ut 00 a Phosit1wr brtmer mw bore evis"ded via 1, &WItmos, 0,14 11, ~-1110011~ft Is" 9" n&nwo at its soft (is ~ to increase of a"$$. tlv"y ol the assa's"'61 OFOM)- The lower ited o1 the Iaja "Opled". C"Mb*w as pw&r of as Mventiow" allay, Va. IA- r1ed ba- u- _is. j 0. ttm "W was attacked by a simp"talos to tft tip,"it. TA oscills- Of MR WbW were obverited whea tW currest eglodwilcmd t' 09 ILA it, -5-T "0 JA V Kit Rig IfUtt 1104"On I 41 0 0 411 0 0 411 0 111 0 411 0 0 0 0 0 0 0 411 0 0 * 0 0 0 0 0 0 41  0 s0 00 00 90 00 so Se 00 so so 00 *-dk 0 0 00 0-0 a 0 s di 0 0 a a 0 0 a a 0 0 9 0 0 00 00 electromagnet The afferent field saftleg 00 I in the lower #A Upper poi Men *I the astponfit wore 4 so 1wd according to t6m known Susceptibility for *It# r M 00 Costatsed in OP ammovie. WA the following formula far 5"- ceplibility X (J) Was estlibliAbOd: 31f m Rlt - if where I - the length of The pole measured in cestimeters, m - welem of tm substances to grams. msdf - the force, b7 which Vor slowdsomm, to polled lot* the field doessurod In milli- grams. The pole (1) was Couliderallily 10m& so that as In- 00 creitse or a oll& rodoctin Of Is skmM " SHOO the waiving of the opring (Lo., force (). Alloys of V?o, Cr - To. COTO ArAi 011111 NIT* were ammi"d ader I MY, VA It Was Must! I"1 the 00 latter OMMAIIIIII CJ`PW 1111111COM of the SACkA &CMMW 11PIP With varlowi parameters. The taubcos al VT* alloy are afferent 00 from the latter but. as ha" not be" 11111*1911111. 3 0 00 0 SO so of to  t S S I S 9 V 1, q If is is Is v n a 311 b itsX x 0 1. 3) m I., x p A s L. A-". A. .1 it r a t -1 .1 f"t-A-1-L-AA a cc V a I 1 0, 1 00 064 ..06 00., * 6 9 - :00 06 Aimbb Macaoir Mememb of "andtim Illp" SW TWO Alb" W Uw h*wmam" is TbW W"W UW11111111. F. M. Uslerin (Irmd. Aked. Sauk 8.8,4.8., .00 m". So a ww. Ise - N 4- KIN, - D) + X,(4, - 1)). !.00 is diek-usami. a thmwetical e"jilanifthin in terints Of P-4 plorvirtm --too lean"if "I 4w "chaft6vt Witill! giV011- -W -1 200 - ho. of -00 S'St , T sit AW V. and 141-41 (%1. 23-3 Mg. 41-3 St. 8 avid -41111111111 I on, pha,lm its the Al-Mg-Vu disigmin eoutg. M (*it. 17 M11 zoo &Oil '.1111 Vu, 311 Mg, nsip. Tlw vul. of 1witnary cryotti. Of Al. ZOO Ni. CuAls. mil"'i. 11'. S. T. and Al.mm, am lielitoll by 10 :0 m-,~nnlxry wilih-h an, shown wills to bam 0 tiar% eir%,ko. The phastv V and A1,Mit, tlt&t *I,lw^r As 0 In file Al Va Mic diagmin nvrr ntit i,stwi-Irml in this swork. C"Inpirl" dirm,tilmon. &TV of 1wit"Aly, 00 t'llf.tv f.1 I, t"rtmrl- ertatel. for I)wt*?,*;, Al offill INP,',, Al ~ml ;;Z;#I*, hrw dew"relimWam'Oven (-w tim othor let plwtoull sgraphd uf the tkp" Al rAwthow. it is zoo 111AS Various relictimis eanM 0 C.Ur in a lps-en Speclumn lKwausIr 14 Wvwpfatiori. HFief doomptittria Of the Vertiud 00-111- swell4sum err U11-011. boo ,008 0 0 d- J!c too i; 1 3 u it 3 is*; to 6 0 0 0 0 0 0 0 0 0 0 0 * i 0 : . : : : F, i 00 0 0 0 0 00 0 0 0 0 * 0 0  GALtPERINI F. 11. PA 46[,i*')T95 USSR/Physice. Way 49 Magnetic Naments, Atomic "Atomic Magnetic Moments of Metals of the Perric- Group and Interatomic Intervals," F. M. 41t_ perin, 9 pp "Zhur Eksper I Teoret Fiz" Vol XIX, Wo.5 Studies relationship, betveen (I) atomic magnetic moments of liolid, face-centered, cubical ferric metals (2) Interatomic distances in the latter. Shove that a. strong relationship exists. Zone theory of wtals explains this connection and proves its necessity. Submitted 3 Jan 49- 46/49T95  i"ardes of ZMaZh:'..ftMWWW. F. M. ;=pV'M.FjeMW , Khrid. Trord. Fit. IV. 470-30M).-ARM with up to TO at. % Tv were oh- tained by sintering u"er slow beating for 6 bre. and kerp- Ing at I ICO* for I hr.: higher sintering temp. or longer line does not change the magnetic prope. in. The suagne intion I was nmksured as a fivection of the ic gem Hat 2D* and at -1969. The C~-Ta allay, 11001M.AaWtIC etas low-as I at. %Te. Thassm.1.1mveas propuion. &IIytotM!TeconumtupIofiOrA.%Te, 11'healloycorre- .. to the 1 1- CrTe has if* mi. mgmtic min.. 3114 pam-s at 200 and 447 at ~ 198'. kk in much higher then the Agare of CluMmel, 74.67 (C.A. 40. 411011, 56131). At Te contents above So at. %. 1. faillis rapittly to sern. At an lower temp.. Stronger GH& an usemeary to attain MI". than at move temp. 71he temp. I of 1. is the saw For oil Te contents. The Curb points of alloys with less than 30 at. % To we very class; In al" with higher To contexts, the Carlo pokes an mwb bow, end vary- y u4th the To eantent. By a-fty *xam., all alloys have the *ame NIA94 Obachme, Le. the same structure CrTs. AcMa. of to this alloy woults in a 9OW adn. r Cr Cr In -CrT*, apparently of the imu- kW Itind. The variesina 131 the laldin = is I. Addn. of To to CrTguives an SOW ~~fi= &AM sale. of To Im a. - of the lattice taut. The two-Phan fto-'=-C-r of (~r In CrTe exists up to 13 at. % Te. N. Than  USSR/Fingineering - Alloys 1 Nov 49 Pbysics - Piiiii~tlax "Investigating Parst-gnetic Susceptibility of.Alloys, of Tranaitional Metals With Tellurium," F. X. Gall- ptrin, T. U. Perekalina, 4,pp "Dok Ak Nauk SSSR" Vol LXIX, No I Studied alloys VTe, CrTe, CoTe, and NiTe. Grepbs show molar susceptibility of alloys versus tesperaturil (in~ range 2oo-6ooO K) for various values of Te in !04 atomic %. Also shows graph of magnptic induction I ,4 versus magnetic field strength H (0-8,000 oerstids) Pqand temperature T (0-4000 K). Table shows atomic USSR/Eneneering -*Alloys (Contd) i 116V 49 dimensions in angstroms for various atomic per- centages of Te. Submitted 9 Sep 49 by Acad A. F.1offe. l56Ti8  USSR/Physics Magnetic Mommts, Atom J&D 50 Alloys 'Influence of Regularity (orderliness) in the Struc- ture of Nickel-Manganese Alloys Upon Their Atomic X&Oetic Moments and Upon the Constant of Anistropyp' F. X. Gallperin, T. M. Perekalina, 11 pp "Zhur Eksper i Teoret Piz" Vol XX, No 1 Experimentally measured and th*en calculated atomic AR&etic Moments of Xi-Mn alloys and of a well-regu- lated alloy of stochiometric composition N'3 Kn- Found calculated and experimental values to be in satisfactory agreement. Studied constant -of magnetic 155T76 USM/Physics - WgDatic:1X~Ut.6, Atom Jan 50' (Contd) anistropy as,function of concentration of com- ponents and regularity of alloys. Shows that, in one system of Ni-Mn alloys, tvo entire3,v op- posite phenomena are possible: increase in constant'of magnetic anidtropy with increasing %dagree of regularity (for some concentrations) and its decrease vl~b increasing degree in reg- ularity (for other concentrations). Submitted 18 Jul 49. C4 2_1 *4  USSR/Physice - Steel, Chromium Low Temperature Research Inrluence of Low Temperatures Upon the Magnetic Properties of High-Chrome Steel," F. M. Gallperin, ',T. M. Perakalina, 10 pp Zhur Tekh Fiz" Vol XX, No 2 Mocueses awgaetic saturation of steels in liquid ox7gen (nitrogen); variation in saturation during secondary cooling in liquid oxygen or nitrogen, and in liquid helium, tine and speed of magnetic conver- sion at law temperatures., Curie point for steels vorked at low timperatures; residual induction; USSR/Physics - Steel, Chromium (Contd) Feb 50 coercive force; hardness; and specific resistance. Results obtained shov that high-chrome steels at low temperatures vary considerably their,mWetic and electric properties and hardness. Nev fact estab- liahed and studied: magnetic saturation is consid- erably increased in steels during annealing from low to room temperatures. Submitted 15 A& 49. Cotsulting Prof., 1st Chief Directorate, Council Ministers, -c1950, AOL 156T1012 X"  A If a I`*r%A Crt n or r.%, n d o a / eArm fa Wilk A" M. OWpoOn. 1)"Aiddy.111.4 Sillsk A.S.S.R. ", At, filitoollelk llkonrnl~ its. of t#huohW smomphle of Mn-Ni amt Mn-C, won det,l. tie a fruictimat al cbR town. of Mm, told flar r"uh, doo imilkiml with thimer of 16.1"m (C.A. J6. 4UH71 I'm mwNi the infouralt I U. a too, loollont to mt.~' %, lilu as.- theft tift-magril froolly. Pbr 06 41firromishl as tit. etoirn. ut Mn ineviniml; a decromilawl inswe raphily (tit 'Ntllefm fit MR > 111,11 a". Vith" liame for it%)"#.% ItIn loilal.% co'e"ll Ill) 4;A.Ni wror fill4alssecl live% lralmll'lo-w 11 4" 1 with Ir:ms (Va. lognotLa low so In A tortal with fare croirml kvbic fall ke. in with ckme-pockg4l hosamonal I-At I ire: m - Sft + 7.714 - P). where oft - Ill - a (R Is t1w. full no. o1 ew"I"O Ill I he 'Id atilt I I shrib tit an inflivimill'ol alool), I Is the Intlit '110 111-% it conkt. tit the lorlA. 1010" It. lifoll'tIt  It. 73. (47-UX I CA. 4S. f4441.-Fivr alloy were stud- ied: M.Mn. Ni;~c. FeCu, Willi, And CrTe- *Tbe temp. at wtkh the teffornagmKic alloy was formed Inm the cww tKNICIAS WAs detd. by tormuring the pairantagnetic puprep. filmlily X.; the optimum Antering temp. for M11111 was :115'. Heating above this c"ws X. to drop sharply; just atmm: 41W it ImrrAws linearly. The at. nuagartic tnoments vme cakd. from Ilm expil. vallmes tit the magnetization, untl Obe results, given in a table, agn m4tinfadurily with the calues cAU. frogn the formtIm of the author (C.A. ". 33181). Men If. Dunlap  G,UTERI N, P. M. Aagwtic Woonts 5i VORMucleir I", ~rftouic YAgneiAc Xoments and CrystaUine Structures'. .of Ferromagnetic'Metals and AlIoYs," F. K. Galperin; "Zhu., Mtsper i Teoret Fiz" Vol XXI, No 10,.pp 1146 Uses formulas for computation of atomic nagnetic. -moments of fen-cow4aetic metals and alloys to study effect of manganese and chromium on forma- of magawbic lament of (a) solid soins of these elements in nickel and iron.and of (b) ordered al- loys, consisting of these and other nonferrous ele- ments., submitted- 4. oct 5o-.. LC 197T98!~  WSHInysice Gyromapetic Effect 21 Feb' "Investigating the Gyromagnetic Effect by Classto. cal. Resonance Method," F. Gallperin, T. Perekalinis "Dok Ak Nauk SSSR" Vol LXXVI, No 6, pp 821-823 Investigates gyrcmagnetic relations for electro- lytic nickel prepd in vacuum at-1,0000C and for alloys CrTe and MnCupAl; namely, magnetization I vs f1d H, amplitude A of oscillations of metal sphere vs time, and Lande factor g. Authors were assisted by Prof I. K. Kikoift. Submitted P2 Dec 50 'jy Acad A. F.'Ioffe. 18~tIO2  IA, ~2;w~ Ro: 6 br., p M, Tit Aga MetaUiwsica AWtraets. of Anbys- ...WCL O Al the thi kg 4W tw 0q -P  Ma/ph"ice - Ferrompetization 21 Noy. 51 Virt&Uoa It forramiWatitatIon of IWtiintLon of ii-iiiiii jgiis.tic All-Sided Compression,." F "Dok Ak Nsuk SSSR" Vol LUVIII, No 3,1PP 451, 430 ZMatigates di.screpancies between theoretical formulas, relating'atc;mic magnetic moment to In;-7: terstomic distance in cryst pattern, and..exptl f~7 ma-ts, Galperin finds saturation magnetization ' .,.- A Y decreases under Pit bulk compression. Upts were- pertorued by P. T. Oreshkin under direction or I PAM OA sics - Ferr etization 21 MAY 51 (Contd) Galperin and Professors Ye. I. Kondorskiy and L. F. Vireshchagin. Submit ted by Acad L. D. Landau 28 Mar 51. 18&103-   ussR/Physics - Ferromwetism 1 Fob 53 'IT L 21 "YApetic Moments and Crystalline Structures-of Ftrromagnetic Metals and Alloys," F. Galperin DAN SSSR, vol 88,, No 4, pp 643-646 A'number of works were published in foreign lItW- iLture on "ferromagnetism" of ferrites as radically different froin ferromagnetism in general (see L. Neal, Ann. de PhYs., 3 (1948)). Attempts to demonstrate that this difference does not exist and*that the simple formula derived by author (see Iz Ak Neuk SSS.~, Ser Fix, 13 (1949)) may be g.eneralized to ferrites. Presented by Acad L. D, Landau 12 NOIr 52- 249T52     ffli-x + Vil ti Ift 0 f Mits, per it ON, ut w m ar at .7tento at. tootwkwt I 0auinniAllft Tb arftufts ewcuiWith, Och am IWA 4 4, Man I $I N4FCJ and A M Points I =ala as ad. th* Mei wit Wamaukc under 0b h,expm 00 ffl~ cq,:V#~; Th" ittd Tt is jf   AUTHOR GALIPERIN F.M. FA - 2o96 TITLE The s-d Exchange in Ferromagnetic Metals. (s-d obmen Y ferromagmetnykh setallakh -Russian) PERIODICAL Zhurnal Eksperin.i Teoret.Fiziki,1957, Vol32, Nr 2, pp 381-382 (U.S.S.R.) Received 5/1957 Reviewed 6/1957 ABSTRACT VorL-.cvakiy has given us an exact elaboration of the theory of the s-d ex.. change. His results contain exchange integrals for the exchange between the s- and the d-electrow of the same atom (Io) and between neighboring electroNs (1), &3 well as an integral for the transmission of am a-elec- tron. At the present state of theory it is not possible to compute the- se integrals, because a qualitative comparison with the experiment is ia- possible. The paper under reyiew aims at desonstratiRg that it is possib- le to compute these integrals empirically and that by substituting the thus obtained values into the Vonsovskiy relationships we obtain for pure ferromagnetic metals a satisfactory coincidence Yrith the experimental da- ta. The author starts out from the simple and natural promise that the a-d exchange interaction depends on the distances between the electrons and on the number ofthe parti;ipating electrons. The approximation of the strong coupling of an s-electrost is used here as exavole. According to the sign of the magnitude ri - R it is possible to d�vide the metals in- to two groups. (R--H, + Rd- Rs stands forthe distance of the s-electrom from the nucleus of any atom. Rd for the distance of a d-electroa from the nucleus, rl for the distince between an atom and the atom closest to Card 1/2 it; and (r2 - R) forthe distance between an s-electron and the d-alectron  The s-d Exchange in FerromagneLic Metals, FA - 26~'6 closest to it). The author sets for the exchange integral the formula I - 1! Z&Ei, A Ei - 0.641 ni (ri - R). i The upper sigu is u.-ed for the group 1 (with (ri/R) 1). The paper concludes by giving explicit expressions for the exchange integral, the magnetic moments ofthe ators, the paramagnetic moments of the atoms, the exchange energy, and for the Curie poiut. A6 Chart contains the properties of the pure ferromagnetic elements. 1 Chart ASSOCIATION FFLESENTED BY SUBMITTED 22-1o-1956 AVAILABLE Library of Congress Gard 2/2  AUTHOR: Gallperin, F. M. 48-9-24126 TIME: A Note on the 11agnetic Momenta and the Curie-constants of Ferromagnetic Alloys (Magnitnyye momenty i postoyannyye Kyuri ferromagnitnykh splavov) PERIODICAL: Izvestiya AN SSSR Seriya Fizicheskaya, 1957, Vol. 21, Nr 9, PP. 1323-1326 (USSR) ABSTRACT: The paper refers to former publications of the author (ZhETF, 19, 451, 1949 and 31, 150, 1956), where the empiric relations for the magnetic momenta of the atoms, the Curie points and other properties of pure ferromagnetio metals were given. Here analoguous relations for ferromagnetic alloys are proposed and it is shown at the example of iron-chromium and iron-nickel alloys, which have been investigated according to the neutrono- graphic method by C.G.Shull and M.K.Wilkinsion (Phys.Rev. 97, 304, 1955), that these relations are in accordance with experiment. At first, the approximation of the strongly bound electrons is studied. It is shown that the distances between the electrons are very small and that, subsequently, the quantities dependent on it, the magnetic momenta of the atoms, the Curie points and Card 1/2 other can be expanded into a series according to the powers of  A Note on the Magnetic Momenta and the Curie-Constants 48-9-24/26 jif Ferromagnetic Alloys. the small parameters, and that it is sufficient to consider only the first term of the series, implying, that the quantities enumerated above can be considered to be linearly dependent on the distances between the electrons. The equations for the magnetic moment of the atom of the component A and of the alloy in the paramagnetic state, and the Curie constant per gram atom of the component A in the general state and the Curie constant per gram atom of the alloy is given. A table is added for the computation of the quantities under investigation and a diagram, -containing a comparison of the computed values with the ex- perimental ones. There are I table, 2 figures and 12 references, 7 of which are Slavic. AVAILABLE: Library of Congress Card 2/2  AU~HOR: Gallperin. F. M. 56---34--4--35/6o TITLE: '--rn-f-er-at-omic Distan-c-e-e-rs,-Ferromagneties (Mezhatomnyye rasstoyaniya v ferromagnetikakh) PERIODICAL- Zhurnal eksperimentallnoy i teoretichaskoy fiziki, 1958., Vol. 349 Nr 42 PP- '1000 -- '1003 (USSR) ABSTRACT- Thelresent report discusses the analogy between the dependence of the atomic magnetic moments of ferromagnetic metals and alloys on the concentration of electrorBper atom, as found by the atithorg (complete number of a and d electrons) and the same dependence of a certain quantity on the dimension of the length. Thi- 'uantity is, in the case of pure metals, equal to the diffeience between the distance r, of the near- est neighbors of the first sphere of coordination of a crystal lattice and a certain coidant R of the metal. This quantity i;3 also expressed for alloys by an analogous dif-- ference. The author investigates the transition elements with Z 2t to Z - 29. For these elements it holds that R -0913 [(Z/2)2 (13,-75 + 1)Z + 26(1 - 1)+23595251 where for Card 113 ZK, 26 1 -- 0 and for Z > 26 1 - 1 is true. A diagram shows  Interatomic Distances in Ferromagnetics 56--,34-4-35/6o the values of r . R, r --R, and the concentrations C of the electrons and thl; Ia-ttilce types of the metals. The metals are subdivided into 2 groups. The first group comprises Co, Fe etc,, with r,, - RAB < 0, the second Ni and other metals -L > 0. The quantity r R for which it ho'ds that r-, - R AB 1 " AB as a rule depends linearly on C. Also the corresponding points for not ordered al)Vs fit on to straight lines. Also the alloys are subdivided in a similar manner into 2 groups, according to whether the difference ri-RAB is positive or negative. Here r, denotes the distancs between the nearest atoms of the transition metals in the lattice of the alloy and it is true that R AB = AARA ' YB' Here A A and )LB de~-- note the at-amic concentration of the components k and B re- spectively of the alloys, and R and R Rile A B calculat-ed according to the formula mentioned above. The alloys Ni-Fe,, Fe-Cog Co-Cuq F6-.Crv Ni-.Cuv FeAl. CoAl, NiAl react like pure metals. There are 2 figures and 5 references2 2 of which are Sayiet. SUBMITTED: October 25, 1957 (initially) and January 29,. 1958 (after revi.. Card 2/3 sion)  Interatomic Distances in Ferromagnetica 56-34-4-35/60 1. Ferromagnetic materials--Crystal structure Card 313  24(3) AUTHOR: Gallperin, P. M. sr_-,,-,/A8-23-3-24/34 TITLE: Atomic Magnetic Momenta, Curie Points, Exchange Energy, and Paramagnetic Susceptibility of FerromaCnetics (Atomnyje magnit- nyye momenty, tochki Kyuri, obmennaya energiya i paramagnitnaya vospriimchivost' ferromagnetikov) PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizicheskaya, 1959, Vol 23, Nr 3, pp 407-413 (USSR) ABSTRACT: As there are no theoretical relations available for the quantitative calculation of the magnetic fundamental proper- ties of ferromagnetics, empirical relations are suggested in the present paper. The elements from 21 Seto 29Cu were in- vestigated. According to the author's opinion it is possible to characterize each of these elements by the constant R which has the dimension of one length (Ref 1). Table 1 gives the numerical values of this constant, the values of the constants of formulae (i) and (6), and the magnetic momenta for a number of transition metals. Table 2 shows the values of several magnetic parameters of ferromagnetic metals. These Card 1/ 4 two tables indicate that the calculated, and the experimental  Atomic Magnetic Moments, Curie Points, Exchange SOVIiJO-23-3-2,'113,1 Energy, and Paramagnetic Susceptibility of Perromagnetics values of the quantities investigated are in good agreement. Furthermore, non-ordered ferromagne 'tic alloys Fe-Ni, Pe-Co, Fe-Cr, and Fe-V were investigated. The first and the third alloy were investigated by the neutronographical method (Ref 14). This method was used for measuring the differenc- of the magnetic moments m A - M., and the ballistic method fo~7 measuring 7 in this investigation. The combination of these two methods permits to determine each "individual', moment of the components for itself. Figure 1 gives the calculated and experimental values of the moments for the Pe-Ni-alloy with a lattice of the A2 and Al type. An interrupted line shows the course of the moments m Pe and *F,in the intermediate range with the lattices Al + A2. At concentrations of 100 at~ nickel up to approximately 67 at% nickel the moment m is represented by a straight line. The deviation from it begins at 67 at% Ni. In the case of equal concentrations the straight-lined course of the moment mp,,(_) represented by an interrupted line is Card 2/4 followed by a curvilinear one, and apart from this r 1> R,  Atomic Magnetic Moments, Curie Pointsp Exchange SOV/48-23-3-24/34 Energy, and Paramagnetic Susceptibility of Ferromagnetics where mFe(_) is the value m Fe* This was obtained from the difference m Fe _mNi -el_ 0 by the neutronographical method. The values mFe given on the uninterrupted curve dog however, correspond to the difference m Fe- mNi > 0. Similar results were obtained for the Fe-Co alloy (Fig 2). Figure 3 shows the magnetic moments of the Fe-Cr alloy, and figure 4 of the Fe-V alloy. Herefrom can be seen that in the case of an increase in the Cr- and V-concentration their moments increase from 1 M_ to 0. They attain Oat those concentrations the parameter of B the alloy lattice of which a - K (40 a", Cr and 20 at% V). The deviation from the straight-lined course of m Fe begins at equal concentrations. In the case of solidsalutions, e.-. Cr in Co and Ni, the Cr-moment varies from 1 M B to 6.40 N in Co-Cr alloys, and UP to,3-40 MB in NI-Cr alloys. In this Card 3/4 connection the variation of m Cr to 100 atl~ Cr shows the same  Atomic 'j."agnetic Moments, Curie Points, Exchange BOV/46-23-3-24/34 Energy9 and Paramagnetic Suaceptibility.of Ferromagn9tics quantities as in the experiments with weak solid solutions for the variation V (Ref 7). There are 4 figures, 2 tables, and 19 references, 8 of which are Soviet. Card 4/4 1.1 -  18(7),24(3) AUTHOR: Gallperin, F. M. SOV/56-36-4-37/70 TITLE: On the Connection Between Structural and Magnetic Parameters of Transition Metals (0 svyazi strukturnykh i magnitnykh parametrov perekhodnykh metallov) PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki., 1959, Vol 36, Nr 4, pp 1212-1223 (USSR) ABSTRACT: In the present paper the author uses the semiempirical method for the purpose of investigating the connection between structural parameters such as lattice type, interatomic distances, coordination numbers, etc, and the magnetic parameters (atomic magnetic moment, Curie point, Curie constant) ~or pure transition elements (Cr., Mn, Fe, Co, Ni) and for a number of their ferromagnetic ordered alloys and chemical compounds, First, the ferromagnetic atomic magnetic moment m of such metals and their alloys is investigated, and in a table the experimentally and theoretically determined moments for 11i, Co and Fe as well as for a larGe number of their alloys are compared becides other parameters. Agreement is C;ood- The semie,;ipiric qualitative relations are set up which describe a connection Card 1/2 between structural and maEnetic parameters According to  On the Connection Between Structziral and C-W r Parameters of Transition '.'1etLL19 ~ V /516 - 7) 6 - 4 - 37/70 Vonsovskiy and Vlasov the followin is obtained for m (Ref 15) ; in - 11d+ 0~1 5 n3(1 O/J-4)/~l - 2.1 s/J), where J. and J denote the exchan,5e inteE;rals between s- and d-electrons, and JS the s-electron transfer inte6ral. The naGnetic moments and other paramctart3 arc calculLted for a) purn ferroma,-netic metals, b) ferromak;netic ordered alloys, c) ferromiaCtnetic chemical compounds of the NiAs-type structure, d) ferromagnetic Heusler alloys, and e) ferromagnetic weak solid solutions, and compared with experimental data, Finally, the connection between magnetic moment and Curie constant, Curie point and exchange energy is investigated, The semiempiric and experimental values do not, on the whole, differ essentially from each other, There tire 22 tables and 27 references, 9 of which Eire Soviet. SUBMITTED: October 14, 1958 (initially) and January 10, 1959 (after revision) Card 2/2  S/02 60/132/04/18/064 BO 1 4YB007 AUTHORs Gallperin. F. R. TITLE: On the Number of 3d Electrons in Transition Metals PERIODICALs Doklady kkademii nauk SSSR, 196o, vol. 132, No. 4, pp. 801-802 TEXT: In the introduction the relationship between the number of 3d electrons of the transition-metal atoms and the crystal structure of these metals is pointed out. The present paper aims at showing that this relationship between the structure and the number of 3d electrons may be expressed by the relation (1). In Table 1 the numerical values computed by means of (1) and experimentally determined numerical values for the 3d electrons of various elements are given. Good agreement of these values is found. There are I figure, I table, and 5 references, 1 of which is Soviet. PRESENTEDt February 13, 1960, by I. K. Kikoin, Academician SUBMITTED: February 11, 1960 Card 1/1  I 1 11 GALIPERINY F.M.; DEMIN, V.F.; SMIRNOV, A.A.; MIESIANOV, R. Kt,- Nuclear magnetic resonance in nickel. Izv. AN SSSR. Ser. fiz. 27 no.12:1458-1459 D 163. (MIRA 17:l)