AUMR: Buda-mv. Tu. A. Dz T ha-lerav. V. P.; ITL f B. ; ShlyapaikkwT, P. t4~ TI TIT aorrputlatl~vu olf-a. machanim, for vartallan *V Ure prievillwile 7741 _-T i: tekhnika;_ ~U6.1- 4`4 iio6k 011"i btibb 0-~t nN go Tolik q~ias -.4 &Ogasd3r~c d Utiz t,~Wb` PMIM lhaniwl, OcOhAmi6tibil, 13it lp!~ Mee WOO aic~~d :'Ab.-tracti- -Vie-article V b)iw ech limml if basic parametABra of conqt~-matjon of' 9,1 bu I c iaif6.'jii,* a~a th6!!1~3:ch. varlat ion of t-he pressure, which was used durflig developmeut of' tbq Inetar U-16"'a a,;- tLe J04.-.t Tnstituitc-Of 'amelpar SletleffiTch. V~a mwilletwti- --- K I -  1/2 L ,:AW nt oUtutro.", M_.tl It ~J m C-1 1 A ~I it tnv, 4 1~ tj i.g .:I  BIJDAGOV, Yu.A.; DZHELEPOV, V.1'.- IVANO LOMAKIN, Yu.F.; E FLYAGIM, V.B.; SHLYAPM'T6V',-P.v. I ydrodynamics of bubble chambers. Prib. i tekh. eki3p. H 9 no.2:46-50 Yz--Ap'64. 'IMMA 17;5) 1. Ob"yedinennyy institut yadernykh issledovardy.  W k M -1 FW? (V L 056 _ F1~1UNF--AP6015503 CN) ,AUTHOR: Ivanov, V. G. . ............ IORG: tone -Ti IJP(C t)gq SOURCE CODE: UR/0181/6(i/008/005/1636/1639 TITLE: Recombination in high resistance silicon SOURCE: Fizika tverdo, o, tela, v. 8, no. 5, i966, 1636-1639 91 *PIC TAGS: carrier 11' time, forbidden zone, recombination reaction, silicon single crystal 16 ABSTRACT: The lifetime of carriers In silicon single crystals with a resistivity from 6-103 to 4-104-ohm-cm was studied by measurements of the relaxation of photoconduct- ing in an apparatus similar to that described by S. M. RyVkin (196,11). The samples (whose temperature varied from 90 to 5200K) were parallelpipeds of p silicon of dimen- sion n-10xlOxlS I ive contacts were formed by vacuum brazin VU a vapor depo- ;afg sited ~ aluminuM,Fatrie4. TAn equilibrium generation volume of carr ors was obtained by passing light t: i;ugh a' I cm thick silicon filter at room temperature. Under this method of measurement, the surface is found to have a negligible effect on the volume lifetime of cirriers. Since the concentration of.recombination conters in the samples was found to be slight, the relaxation time constant of photoconductivity -1 is the same as the lifetline Tn of electrons. The data for the dependence of -t,, on temperature and 1/2  L ACC NR: AP6015501 C;2- injection level y at high temperatures indicate that recombination accurs through mul- ticharged centers. The temperature dependence of the time constant in a p-type semi- conductor (in the case of doubly charged centers calculated using an activation energy of 0.41 ev) agrees with the results for the majority of samples. Furthermore, using the results of J. Okada (J. Phya. Soo, Japan, 14, 11509 1959) for thedependence of -r on y, the data indicate that the recombination level is in the lower half of the for- bidden zone and has a donor character in agreement with known data (m recombination levels in silicon. Finally, the activation energy E -8 , the concentration o and the 0 a capture cross section of carriers one and a . for cohesion levels iii determined from P the temperature dependence of the lifetime in a region of cohesion Irf a method devised by S. M. Rivkin, et al (PlT 2, 1966, 1960). The average values for the samples were R -E = 0.6 ev, a = (1-3-101 cm-3 a . 10-16 CM2, one it 10-11 cm2. The unusual 0 8 1 Ps values for a and a can be explained by a scheme of transitions cof electrons with no Pe the participation of several types of multiple cohesion levels. The author thanks V. A. Petrusevich for directing the work and L. G. Paritskiy for valuable cements., Orig. art. EW:72 figwes. SUB CODE: 20/ SUBM DATE: 09S*p65/ ORIG IMF: 003/ OTH IMF: 004 I_Xltil  ACC NRt A p'-7001 7" 5 AUMIOR: Ivanov, V.G. SOURCE CODE: UR/0048/61')/030/012/1954/1956 ORG: Novgorod Stnto Pedagogic, Institute (Novgorodskiy gosudarstliannyy podagog- ichaskiy institut) TITLE: Use of a field emission microscope for investigating a germanium surface -raeport Twelfth All-Union Conference on the Physical Fundamentala of Cathode Electronics hold at Leningrad, 22 - 26 Oct. 196q7 SOURCE: AN SSSR. Izvestiya. Seriya fizicheskaya, v. 30, no.12, L966, 1954-1956 TOPIC TAGS; germanium single crystal, field emission microscopep adsorption, oxygen, oxidation, crystal surface, surface migration ABSTRACT: This paper reports a continuation of earlier work of the author (Radio- tekhnika'i elektronika, 10, 576 (1965)) on the purification of the surface of german field emitters. The apparatus and experimental technique are described in the earlier paper. The germanium emitter was etched in 5HN03:2HE:4C11.3COO11 as described by F.G.Allen (J. Phys. Chem. Solids, 19, 87, (1961)). The system was pumped down to 10-9 mm 11g and the germanium point was purified by the technique of E.C. Cooper and E.W.Muller (Rev. Scient. Instrum., 29, 309 (1958)), Oxygen was provided by a silver copper wire which had been oxidized in liquid air and mounted it, a side tube. The tip of the germanium point was cut on the [110] direction. Simeral field emission Card 1/2  ACC NR: AP 7001725 micrographs are presented and discussed. The migration rate of -~xidas on the clean rface was found to be enhanced by an inverse field and flashing at 100 germanium su to 1500 C. Heating to 3500 C drastically reduced the oxide migration rates and heating to 6730 stabilized the oxide films, which could not subsequently be removed even by heating nearly to the melting point with application of a field, Introductioi of oxygen at 4 x 10-8 mm Hg led to rapid covering of the germanium point by oxygen and decrease in the brightness of the image except at certain locations marking clusters of oxides. Adsorption of oxygen took place as rapidly at liquid air temper- ature as at room temperature. A lattice detect, marked by a chg.in of oxides on (113), (011), .(1110), and (131) faces, was noted on one of the g(irmanium points.Before the point wa*s cleaned the defect was marked by a dark band on the field emission image, indicating enhanced etching; selective oxidation on the defect took place after removal of about 100 atomic layers in the desorption field and flashing at 400-4500C. The author thanks T.A.SmGrodina for suggesting the Topic and 1,L. sok&skaya for discussing th6 'work. Orig. art. has: 2 figures,. SUB CODE., 20 SUBM DATE: None ORIG. M; 003 OTH REP: 015 Card 212  1111,6FNBERG) D.A.; lytvlOYj4,y.(,,, Practices in constructing precast reinforced concreto wrater reservoirs. Prom. stroi. 42 no.5-23-25 165. (MIRA 18:8) 1. Trent lll:neprospe tss troy".  T) It Dul! 7  _tar f  IVANOV, V.G., inzh. Improvement of the ZhR-3 transmitter. Avtom., telcm. I sviaz. 9 no.1;29-30 Ja 165, WIRA 18;2, 1. Dorozhnaya radiolaboratoriya Sverdlovskoy dorogi,  I'D V ci f-!t;.-izafillim euuitt.ers and derivati.on of ari autoolect-r-r-, _~ermartlum. Radiotaki i elektron. D) llo-3:57/6-578 of Pire r r 18:3) ''1 11 1 h 'I  00 A tot ~00 *ON *0 Pow Oil taw" 10114#1 MI$l soon all m A I tw 0 1 ! -tiff *q:-L-j.  0 0 0 * go * o 000000 goo#& *I -6-4--o a W W W 'W[ 00 10, offlip??*99OW000600004 , 0*0*06000000000 *1- 0. 13 IN is 16 It NN x It 11 u 34 is IN 1) X IN 0 11 $11 a a 4~0 "All X 031, L C X-1- PA-MAAIR.A. 004 -00 000 A- M, Kutillawl V.I. jy#AW,(U0pC*wAjr,I. *OA 11, synthoited (rain (C"ri "fer) with POtAtO P11004)'"MYlaft and 11 little %I;tf,fl oo wt activating apnt is "ringlY ad. in water. There is a r1- ill the ViAAWSity if the CUSICU. Ot the polyssethIti,le is loo incTr4-1. 7U pairftechitricle fannW when glyrnitris is ~90 U"lt,lprilttetbertwilouiscmaysw.fnw%ter. Noin- creaw ill vivasity NobservIxt with nit lumasc fit the muen. 0010 015 of the polysaccharii1e. "t P01mccharide 1, It,,, ed.ily 00 'plit b"t JR)tAto minylase, than the Ilr(Auct obtailit-41 with marvh a~ the d0iVillillf AVV$lt If Pri-Ile. goo 01! ZOO CIO 0 0 zoo of 69* 0 0 goo 40 0 :0040, goo OtTALLURGKAL LFIERATUIR CLASSIFKA71014 ------ Tii- - ------ ;00 00 u a At .0 ISI; W j a a 3 1 1 11. - IN 1, so 4c a a R K K It KW A 0 104000000000 *0400*0000000046 001- b.~A 0 0 0 0 0 0 4 0 0 a 0 0 0 a 0 0 4 0 0 0 0 0 0 0 * 00009000   Immmm=ffeam :!; - . - I, f! :j: jp-~ :T: I pl, ~ 1 , " , I , ~ !i . - , I i .~ I . I. . . P ~l ~ ". : i ~; - -- I ~ - --., -1 / -, , , /- if - 1:1 : - : fl: -, -, " v F!, 1, \1 o v - 11  - i .. I t 1: i I, I;: - ------- - . . , . , 'i~ t! i t ~ i I , , A~~l it:-,. , 1~ f r . , . r , ! . !~, , I i. ~~. ~f 1 1 T., ~. I I I ~ :*  . ~ I, -I I  SIT,PANOV, B.A.; IVANOV, V.I.; GOIDMZIK, A.I.; NAGIRNYAK, F.I. Microbiological leaching of sulfide ores. Fiz.-tekh. probl. razrab. pol. iskop. no-4:128-121 165. OAIRA 19:1) 1. Politekhnicheskiy institut, Tashkent. Submitted March 2, 1965.  Investigating the use of sulfur bacteria in hydromeuillurgy. 2 V . lV-I 3 , ucheb. zav.; tsvet. met. 8 no.4,:33-42 1b5, ,.Ml RA 1.6-, 110) 1. Urallskiy nauchno-isaledovatellskiy i proyektnyy institut mekhanicheokcy obrabotki poleznykh iskopayem),kb.  A.I., IVANOV, V.1, 'daptat'rin of -Thiobacillus ferr,,x-danq to imrea2ed ccn- ,ontrations of hydrogen and I ron 3L -f4a 265. Tn8titut blolq-,il Urealti-Itctlo N I Aq I ~i AN o`~ !,R ,  IVANOV,-V.I.; LYALIKOVA, N.N. TaxonomV of iron-oxidizing Thiobacilli. Mikrobiolo-,iia 31 no.3s468-469 YT-Je 162. IMIRA 15s12) 1. Institut mikrobiologii AN SSSR i Urallskoye otdel.eniya Veesoyuznogo nauchno-issledovateliskogo geologo-razvedochnogo instituta. (BACTERIAt SULFUR) Is.  IMOV, V.I.; NAGDWMp F.I. Accelerating the leaching of copper sulfide minerals by- sulfur bacteria. TSvet.met. 35 no.8:30-36 Ag 162. (MIRA 15:8) (Copper sulfide) (Iaaching) (Bacteria, SuM=)  IVANOV V.I. Role of thiobacteria in the leachingof sulfide ores. Dokl. AN SSSR 146 no.2:"7-"9 S 162. 1,'14IRA 15:9) 1. In6titut biologii Ural'skogo filiala AN SSSR i Urallskiy institut mekhanicheskoy obrabotki. i obogashcheniya poleznykh iskopayemykh. Predstavleno akademikom A.L. Kumanovym. (BACTERIA, SULFUR) (COVELLIN) (PYRITES)  IVAI~.OV, V. I. -11 1 In"- I-il _?If q-) I " [  -Z USSR / Microbiology. Medical and veter-rinary Ricro'biolcjZr- F-5 Abs Jaar: Referat M.-Biol., Ya 6, March, 1957, 21-975; Author Ivanov, V.I. InBt Title Typhoid and Dyeentex-y Bact:iria Antigens. Orig Pub: Uspekhi sovrem. biolOgiY, 195k, 37, No 1, 114-,,.a Abstract: A review of method-, for obtaining tota.1- antigens (extractions by t " Lchloracetic acid, hyd:,-,7,~, 2o e !b- ric acid, by trjptic digestion, e.).-tractioa. by etkq1eva-g1,vixl, etc.). As zamplete antigens are r-Lrified, along -w-Ith am of their i='aogranie activity, 4.%L,--ir t-mcicity also Is inc--easea. Methol-3 t~,f dptwdeation of complete antigwL are --stated: action of fozms~linp i4A'ic acid, ultra-viole-t- rays, c..'-ddeuL:in, acetylation~ etc. She withor simt-es the bes' ri-;r2lts in detaxica;tion, vere v"ttELined 'Dy partial h- tlrdz--lysie of antligens,; th-3-se px-a-pa-ratior.-s haA 200 time--R less toxi- City anna Pr---q8-rY'Bd bigb. i-mur-Oger-esis. Card 1/1 -16-  W-A E ~ l tll r llptIlw 'Tit 1 ;,-:fi fmm 1"'filloill tht6lkl~ 1,~Lr, ;wA-.lvLIt,jtj iviiiij 4j t%i ool (kc 5qm. to 32, ~.uri 11 Tip: !o3:witf J(:,:Tt!vvA to !rovid to4k..;l kv,:U.o tit, I,[ It!! Poci. iii ~n flv~ rt,~Nuhb itva U, to 3.1" im:1 The ii-LKitit.4 of tile preplij.. W.W. g-catly lowemd thrrcby~ %iUr: Ole. IV tait dd at the q~rtv,! :cvel ai bicre. -soma  If  19,~J, No.jl, 71 -6.-AM14(m &nphwi kirttri 1 .1, lit 1, 64 i With 1-1 were p"Ild. 1,~, bac,"ah on~ukdi6a,.. 0~ntg. Ndid-P, 0do.* of 6t wg;1443- 1mm tho ctlls by~ tti- xemwe frice t.-d antigens' with M011. Antipits:,q Ind p~tn. the I!Lb(J Were ivj4cted RilK~At.111COUilly, Or ora ifito whiti: mice. ing ini(Xii.31t I3b-_ICd alltigin CXJbZadh%t t* 8 '114YS,'aidi 'LUS and -blood ivere assayrij 14T'1. liarlipeli- vurioui Org~ toueally injected andgm no:umulates ;vrinm ilyally La dice I ivtr (ubout 30% in the filsit day). with much lowei'amts. In Othrr orpas. Nore w" [ijurd III the bral~ll. jjjj~_ Qq j cutmicou,, ia~.,cdoui the d1liriboi-ml, of 1151 wto siniilar, blIC lit inuch lower conewi. In all orgams:. : 0aij-1-t50% of fi%il: P adn-Aiiintend oraft ~-ua I'maid In 411 ot-jrvu it ~%Imn miliophosphate was iajected' intmpenzonial V.. r:s I distribution iu various rrgaritt dKet'nst fronv,tlwt~,, _eryti ~~ith antig.-FIl a4minUtpred in the 77  " 'p. ~ip 45M.- Mill '1 '11. ~.l t~JPLRIIJIUH fl Ill IV m  ~ 1 11 '1 1! I , "~- !I . IYANOV, V.I.; VEDESHKINA, Y.M.; GAVRILMOTA, V.Yu. wen:t,,"~ Distribution of tagged antigens in animals. Zhur.mikrobiol.opid. i immiln. 27 no-5:30 My 156. (MIRA 9:8) 1. rz Gosudarstvennogo kontrollnogo Instituta Imeni Tarasevicha. (ANTIGENS AIM ANTIBODUS)  IVANOV, It. 1. - P=V321A q M. V.; GAVRIJJMOVA , V. TU. Chemical and biological properties of antigens of Vibrio comma. 2=r. mikrobiol., spidam. I Immun. 27 no.3;65-69 Kr 1 56o OILR& 9:7) 1. Is Goaudarstvennogo kontrollnogo instituta syrorotok i Taktain imeni Tarasevichu. (VLBRIO COMM&, im-mology, antigens (RUD (ANTIGMS AND ANTIBOMS, Vibrio coma antigens (Ran))  f USSR/Microbiology - General Microbiology@ F-I Abs Jour : Ref Zhur - Biol.p No 10; 1958, 43173 Author : Ivanoy_,~. Volchok, A.K., Lobanova, A.V. Inst : - Title : Synthesis -And Soma Properties of Polysaccharidas of B. Ocdemtiens and B, Perfringone a Orig Pub : Biokhimiya, 1956, 21, No 6, 76o-763, Abstract : When, grown on media contcdning glucose and m1tose, Bacillus oedematiens synthesizes an intracellular poly- saccharide composed of low- and high-molecular doxtrins. B. perfringens forms a similar polysaccharide only on media with dextrins, though. not always. A synthesis of stareli-like poly.9accharicles by pbosphorylases from ex- tracts of B. oedemations and B. porfringens is actii"ated by starch and naltose. The synthesis is slowest of all when the initial culture is cultivated on media containing Glucose. When cultivated on a modiun containint-- m1tose, Card 1/2 z/",  V P- jq 0 ;1, ~- " -1-- aECEM~TA -.:EDICk Sec.14 Vol.11/7 Radiology Jul 57. 1192. IVANOV V.I., PRYADKINA M. D.. and VEDESHKINA V. N1. Lab. of Danger- Bus-Infect. and Biochem. Lalb. , Tarasevich State Inst. for Control of Vaccines and Sera, Moscow.' * A n e w s t r a i n o I B. p e s t i s E. V. 76 obtained under the influence of radioactive irradi- a t i o n ( R u s s i a n t e x t) MED. RADIOL. 1956. 2 (52-56) Tables 4 Illus. 4 Avirulent strains of B. pestis were subjected to the activity of the radioactive isotopes of those elements which are found in the bacterial cell itself. The B. pes- tis E. V. 76 usually used for the production of vaccine was grown on culture media containing radioactive phosphorus (P32) of varying activity, from 0.6 ac. /ml. to 20 pc. /ml. From the medium containing 2.5 mc. /ml. a mutation of D. pestis was obtained different from the original strain in morphology, biochemical character- istics and metabolic rate. This new achromogenic strain of B. pvstis E. V. 76 is constant, its newly acquired features remaining unchanged after 15 months of culture and passage through experimental Wmals. Its antigenic structure Is ana- logous to that of the original strain. The stability of the changes thus induced is also shown by the absence of any regression of these changes after culture on selective media. References 17. Nevskaya - Moscow  IVANOV, V,~L; PSMVINA, K.Y.; GAVRILINEOVA, V.Yu. UNK=-- "--W~'hemical and biological properties of 0-antigens In VA f lbrio comma [with summary in ZnglisbJe VopLmedekhim. 3 no.4:269-272 Jl-Ag '57. (HIRA 10:11) 1. Gosudarstvennyy kontrolin" institut sy-vorotok I vaktsin Hinisterstva zdravookhraneuiya SSSR, Moskva. (VIBRIO COMMA, immunology, 0 antigens, chem. & biol. properties (Rua))  ITANOV, V.I.; ROZMERG, P.A. Change in the phosphorus content of the following intoxications Iq various organic solvents [with si-mary in linglish]. Vop.med. khim. 4 no.4:274-279 J'1-Ag f58. (MIRA 12:2) 1. Biochemical Laboratory, Institute of Labour Hygiene and Occur- pational 'Diseases, Academy of Medical Sciencen of the U.S.S.R., Moscow. (SOLTEWM, toxicity, eff#'Qn brain & muse. ATP & phoophoc-reatine (Rue)) (BRAM, metabolism, ATP & phosphcreatine, eff. of exper. pois. with solvents (Rua)) (MUSCIMS, metabolism. same) (ADEffIMOPHOSPHATE, metab. brain & muse., eff. of exper. pois. with solvents (Rua)) (COENzymm, phosphocreatine in brain & muse. in exper. pois, with solvents (Rua)) ';I IN !A11- 111- 17  v TnYA -INA, A.Ye., IVANOV, V.I., GAVRILHIMOVA, V.Yxx. Effect of antibiotics on antigenic propertias of Vibrio comma. [with nummary in English]. Antibiotiki 3 110-1:105-110 JA-F'58 (MIRA 11:5) 1, Gonudaretvannyy bontrol'W inatitut eyvorotok i vaktain imeni L.A. TaraIsevicha. (AMBIOTICS, effects on Vibrio coxaman antigenic properties (Ruis)) (VIBRIO COMMA, effect of drugs on nutibiotics, on antigenic properties CRUB))  IVANOV, V. I.; CHERNYAKHDVM. S. I Effect of hexose ph osphates on the growth and certain metabolic reactions In dysentery bacteria and Ischeriohia coli,~Biokhimila 24 uo.6.-1020-1022 N-D 159. (MM 13:5) 1. Biochemical Laboratory, the State Control Iustitute of Medical Biological Preparations, Moscow. (MMOSIS pharmacol. (SHIGXUA pbarmacol. (BSCHNRICHIL GOLI pharmool.)  IVANOV, V.I. Relation of carbohydrate-phosphate metabolism to the formation of a-toxin in Bacillus perfringens. Vop.med.khim- 5 no.4:254-258 Jl- Ao-~ '59. (MIRA 12:12) 1. Biokhimicheskaya laboratoriya GosudarstvennogG' h-airollnogo insti- tuta eyvorotok i vaktsin Imeni Tarasevicha, Moskva. (CIOSTRIDIUM PERFRINGENS) (CARBOHYDRATES metab.) (PHOSPHATES metab.)  ; I I , i I ! 91 N! 11 111 Ild! : 1 1 A P I I . . I I I TUMElUAN,, L.A.; ZAVILIGELISKIY, G.B.; IVANOV, V. Mechanism of the phenomenon of thermoluminescence in chloroplastB,~ Biofizika 7 no.1:21-30 162. (MIRA 15-5) 1. Institut radiatsionnoy i fiziko-khimicheskoy biologii AN SS)SR, Moskva. (CHROMATOPHO = ) (LaURESCENGE)  MA1141i31ll F gill jlv~,~cll Mil 171~ WHIAH If-li NIM if: 1-AW)R'M;fi1 13409-;63 L 4 'ACCESSION Mt. AP3000525--:- 99/0402! $0/00, -03 if 4r/V ATHORt Kr!',~dskty A. S.; Zavii.lgillsklyj, Gi B.; Diariot~. i ub J- Kin)Lics of the mutag nli6,'a on IN on sit `*13,t 'TITLE. a cti of. rqs,, -of Bacherichla coli, D bacteriopbages ;SOUIM: AN .138SR, Dokladyj v* 150 W;; 2 1963 )91-402 ? W .1 TOPIC TAGS: 'S"6ub'D,_~ - ;bacterlophap the1hiLtd1 equM, i-ABSTRACT! 1, ifj wathors - studied--the roilkuollq I 6h Tr 10 'the phage and thi-. -dose of UV irradif6tion in v itav Broth ub V t -hagfi: :was diluted with 0-851% VIRC1 to a concentrat4o .n of leb6 tha~';3 x W s phfiges/ill. up 7 iAt these coneent:r-ations the screening effect was negligible~.~ Phi:& viazf fixij~, . e : wo- a:yor adsorbed on bactcria or directly inoculated~into Peltxl di6ovby. th t I thod with~Bp-ci)lio strain SK.. and incubat - -6 lit the2 N ie ed 18 020:16m, irk.: Pha' D 9 ~o U1 radiation at ro temperattir~e with-dontini ng i ,was exposed~' ox ious ro:~ % monochrome-tic light vilth: Lumbda z; :4 .1 14.: lazmp, omitting about 80 1,97 p M:stroms~ vt i %v q as the sourcib. 'Cho intensity was about 1. erg. per =p sup.-: 2 X seei. Dbviia vej :measured vith a UV dosimeter. After.irradiation'tbe n,-mb a r ~ a f steililiS i PIRWO U~d' 6 a ~,d le plaques were counted. To explain.the decree'll-in t Ze smutant steri be percenui rd Ca  L 'I.34og-61- ACCESSION MU A133000525 ,of mutationa obtained vith large doses of. UV radiaVon,, the muttgza advan-ce Ile working hypothes:is that the structure of DNA in phage partioles In changed fz" a. more radiation-ri;sistant form, both with respect to the leit4al eild Mutagenia. action of UV ray:3. These results indicate tbat the characteristle,, non-linear relationship botlican the mutation produned and the (tome of IM rv.'Ilation is the reault of sone prinary meohani= of the reaction of DNA -100 1)V re?Mat';4on *nd 4,0 knot related to a-a indirect effect of radiation on the cellular ocimionants and. ~metabolism. Orig. art, has: 3 figures and I table. t 'ASSOCIATION: Institut radiatsionnoy-A Siz'iko;-4dqpb,.he9kio Idol ~ ti Akademil raui i y oc iSSSR (Institute of Radiation and Physico-Chemical Biology, Aaadeniy of Sciences) iSS-SR) SUBMITTED: 06Dec62 DATE ACQ:- 12JTun6j :j; FANGL: 00. .003., R: 1'017 Sull CODE: o0 NO MF SOV. tal-d 2  POLYANOVSKIY, O.L.; IVANOVX_jjt. Dissociation of aspartic-glutamic transaminase in siftamits. Biokhimiia 29 no.4:728-734 ji-Ag 64. (MIPJi 18: 6) 1. Institut radiats-'onpoy i fiziko-khimicheskoy biologii AN SSSR, Moskva.  CC! rk C)V w~t -V V. Op-:-i,z and lwmines~~ent propertleo of vitamin ii.. and !lts derivativea. Biniizika 10 no.4i","5-6011 165. (MIRA 1,818) institut rpdiatsionnoy i fiL'kk~-khim-cheskoy bl~~, og-' AN SSSR, Moskva.  -1 " . I ,! I-TFI- : S' x i Y, G. B. ; KRIVIS-~ ILY , I Ivp NC ver6ene action af-ainst Injury of ~;rme coli P~qcres by ultraviolet rays. Rad-ic-biolordia no-1:112-13-8 165. 1'41FJI 18:3) Instiluat radiatsionno-I i bioli)L7ii, Moskva.  ZAVILIGELISKIY9 G.B.; KF.VVj3KlYy A.S%; M1201F, V.I. Inactivating and mutagenic effqct of ultravinixt r!iys on the oxtracellular bacterlo-pliage. T.7v. MI SSSR. 'Ar. bl-Di. no.51 '700-713 S-0 f65, (PJRA 18-9) 1. Institut radiatsionnoy 1. biologii AN S5SR.  IVANOVI 'I.I.i MINCHENKOVA, L.Ye. V Effect of metal ions of variable valency on thermid DNA denaturation. Biokhimila 30 na.6,;1213-12-7 N-D `65- (WRA 19-,l) 1. Institut molekulyarnoy biologii AN SSSR, Moskva. Submitted 'March 6, 1965.  I VA NTC, VrV,T Role of -nelvals in deoxyrubonucleic acid. Biofi:!,"!~-a 20 11-16 '65- 1. Fizicheskiy fakuIttet Moskovskogo gosudarstvennol,,c univer- siteta imeni Lomoncsova.  L 23781-66 EWT (1) ACC NN AW015178 W /T RM/JK SOURCE CODEi UR/W17A5/01( AUTHOR: ,,Ivanov, V. 1. YS LCS Faculty, CIRG. Ph Moscow State University im. M. Ve Lomonc tet 'e1oakovsk6g6_io_dudarstvennogo universiteta) TI7LE! Role or metals in deox, yribonucleic acid -16 WJRCE: Piofizika, v. 10, no. is 1965, Li -.zicheskiy L/6016 TOPIC TAGS: DNAt bacterial genetics, UV radiation, coppers Ixonsascorbic acid,, radlation biologic effect ABSTRACT: A theory Is developed according to whicIfFe ~~stabili- ZISS double~.strand DNA by the formation.of ooordinationvompounds, 1whIle the presence of Ve+r+ formed from It.by oxidation r'esults1n. 4'a .separation of double-strand DNA Into single-strand:: molo'cules. m0, terial mutations under the action of Cu ionis or ultraviolet radia- tion, which are accompanied by a sharp increase In,the G+ C/A +1 -t ratio, are explained byassumlwthat formation of-complexes of ;purines In DNA with Ott" or Fe. formed by oxidation ot Ve under ;~the action of the radiation produces replacement of AT in doubled .,.strand DNA %rith GO pairs, This is accompanied by distur'bances.in irespirationg because the structure of double-strand DNA is stabili. zed by GO pa-Irs 9 and - a greater amount of Fe_ capable of , be Ing oon-4 iverted to Fe,f++ is required to produoe:sep~kration'llito::,g~ptngle- 2_ atrand DNA* This',meohanism is brousht into'relation with canoord- Card L2 UDC i 577 a pointed out In connection WITW-thI.X ra ;senesisv tr' f" ~n reSpiTa.. ~~!i lJoh produce disturbances . is 11, Isuch as 294--dinitrophenol, wl canoe. 11~ lition and m0dif -the Fe++/Pe+++ ratio' hav"L mutagenic Gild Y. - the, redo% rtiaipation of asoorblo aoid In -bas - f ro,genio ef JN)ot. Pa a iji DNA- is' p6stiaated Orig, set., s6s re containe ces [jl'RS] OTH 014 mr. 009  00000000 0004 *Goes 0 1 9 L 11 U It to It Is It 4 0 A 11 Is 14 is I is P Is 7it c I-1- -I , I U., I I 0 * 4 4 1,-( t-11 I P. I hvi &I VA nol, _V. I 09 0 ; -_ *0 A A i i The ustwe ot "britlat opotAll and rdo&m of theft pro- mi X k- ir t hi d il f t m an ra- c la vasw vir us taim- o invi ~;i7t o zr~ = to t t Iva, Iturolmatiarr all". A Xtudy ti th'. ly set 0 ~tcvlA inictuatructure revraW that the bright slx)ts art- law oJeft-0% but citercly snimr% of frrrjlc. rtrrile jr-All, arv 00 Ifir 1111.1 dating Ilivittamillial 6,4144 flu, 14.111k. its I Ik- vI it, (mmar, 11w Irlmot 1.11114 Assla-lormir" Ow Itr A "6 b LUL*f Ila.. '14fatirr flit- c.laglil MIA thr 111,14t, 411110h 14, 111 l ittmoct-ur III A, t wviii1mit fixg IravarNorti the 00 J Itin-I it vollwat ulat"I a fertile con'-farli'"t Which tt, (her% unc-Att"i ttvrr mt othetwiw vitaid -twts 0 do twit intimir tilt tal.t.tic jvsqlfiv~ tuw Ow imsm"I ity III I'militualwat 'j*vbTwm' Nat law I.m~ar i he., lia-4 ill trall-wiru. 41mvilut-II.. Sil,11 t-l"llig, NI IIA'All, cr 66" 0.261'~ urse free (if bright six-is. N,wrij.dubig ill a %firsim 00 01 collistrim'KNI air IV writitatioll pra,%vill, the ImIlmlioll .4 Waht Simut. in C Ateek. M. [i,vwtl it t ASS~SLA SCIALLIJ46KAL LI TIEWL41 CLAL11,WK-11tCat o *00 a u 41 44 at a I--A* 09 .0.0. 400 0 0 COO -00 0 goo 0 0 0 WOO 0o 0 40)!~ -0 `0 IV Cp M I -XA '0 a a P, 0 tv 10 a as K gr it a ct n it to raw q I lie it a 1 9 v L 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 * 0 9 0 0 t- 0 0 0 a 0 a 0 0 0 9 0 0 0 0 0 0 Di o 00 0 &10 00000 a 0 0 0 0 * 0 OJOU-1061-o. :1;_j A f_4 0 a 0 0 * 6 0 0 0 0 0 0 0  IVANOV, V.I., inshener; HIMMIM, G.P. Radiation steam superheaters in open-hearth furnaces, Stall no-3:270-271 147. (NIM 9:1) I.TorochiLwgw~dWd,V..jmravosostraitelin~7 savod. 10pon-hearth.fiiii=ea)(Saperheateri;)  .1VAIV,01", V. I.; G. !'-. Engr., VorishilovErsc; l.ocamotive Corstruc.ticn lactory, -c19-V-. "Steel nig wilth easily detached shrinkage fiends," Stall, No. 7~ 190  vf+ )--Vrl v" V. ) - The d*tcrminatioc of onan amousts of Ickel S. M. X. .%htut m4n and!j, 1. 1 (Twatral. 7_-tvodikAyz Lab., Alagnitocog%V ~PfaljlvKl Kfmnbinat.) Zarodikaya Lab, 16. 45-7(1950).-Nl 4711.4 ii ilmilplifed v"lly with Fe 4721.0. lvawtr Is supplicNI bv is Svendt%U activated a-c. am operated at 10 amp. The counter-dectrode is a 10 mm. Cu rod wbcne tip 6 slurp. mEd to a diam. of 3-4 mm. Cyrus Feldman -ILI :11 il! j! j 1!~ il J  IVANOV, V. L USSR/Metals - Steel, Casting Oct 51 VVIngot Molds Made of $tee] Poured Into Metal Holds," V'. *I. Ivanov, S. N. Mylko, Engitee.re, Vorosfii:Lovgrad Locomotive Bldg Plant ."Litey Pr012vod" No 16, ~p 9-11 Discusses Application of steel as material for molds) used in making ingotd int64ded for subbequent roll- ing or forging,.and descAbes'-experience of Torosbi- lovgrad plant in this,, respe6+.. . Rmp~ssizes ecpaomical effect of such substitution. Data of other j~Lants show'3-10 tinie increase in life of :steeLingot molds over cast-iron molds. 198T65'  ALE.KSEYEV, B.D.; AldiVERDOV, A.I.; BABIN, I.D.; BIDIM, A.I.; BUROVOT. I.A.; GUSOV, KAYDAK, A.M.; IJEYZ2ROVICH, G.Ya.; IWI'kUL', V.K.-, SEREBRYAlTiTIKOV, B.Ta.; SPIMUGARDT, G.R. Roasting zinc concentrate in a gas fired boiling fuel bad. Prom. anarg. 11 no-S-19-20 A,- 158. (14IRA. 11:10) (Zinc--Mmtallur&r)  ~ 0 6 ,657 S/180/60/000/02/013/028 Elll/H135 AUTHORSs Ivanov V I and Osipov., K.A. (Moscow) TITLE.- Investigation of the Kinetics of Recrystallization of Technically Pure Iron during Rapid Electric Heating 'PERIODICAL: Izvestiya Akademii nauk SSSR,Otdeleniy,e tekhnicheskikh nauk, Metallurgiya i toplivo, 1960,Nr 2, pp 87-92 (USSR) ABSTRACT: The authors point out that recent investigations (Refs 1-8) of.the recrystallization of cold-worked metal at high rates of lieating have enabled recrystallization time to be reduce(L to fractions of a second. But the various explanatii~)ns proposed (Refs 41 8) have not been supported by adequate experimental data, In the present work the authors (lescribe their investigation of recrystallization kinetics under isothermal ' conditions of iron (0.016% C5 0.15% Mn7 0.06% Sit 0.008% P7 0.01% S) in relation to heitting rate. Ring specimens, 50 mm in diameter, and 1 mi wall thickness, were machined from a deep-drawn cup, During deformation and machYrUp ,g the Card specimens were ca:,efully cooled and kept at belo'W-10 OC 1/3 between operation:;. Heating in the experiments was in a single-coil induc-or at 2500 c.p,s. and in a :jalt bath:  6965-,' B/180/60/000/02/013/028 E111/E135 Investigation of the Kinetics of Recrystallization of Technically Pure Iron during Rapid Electric Heating heating rates weie 500 and 0.5 OGlsec respectively. The temperature was measured with 0,,08 mm diameter chTomel-alumel thermocouples welded t_- tlie spa-cimen. Op- reaching the required temperature the specimen was kept at that temperature t 3 OC. Fig 1 shows a typioal os-.~:illograph. After the isothermal holding the spec,imen was quenched in water after ind--jotion heating oi in an air jet after salt-bath heating. Fig 2 shows the logarithm of time of start of recrystallization as a function of annealing temperature in the salt-bath (,-,urve 1) and inductor (curve 2). In Fii::,) 3 the same relationships are shown for a heating ral:9 of ",'00 OC/sen but for different heat treatmentst tempering at 450 OC for 15 min before annealing (curves I anti 3)i heating with isothermal holding at 450 OC for 15 min (curves 2 and 4). The work showed that inereasinj 'r the heating rate Card, from 0.5 to 500 OC/sec had little effect on 2/3 reorystallization kinetics at 52-0-600 cC, Above 600 OC the higher rate leads to a step-wiOse reduction to  61,1657 S/180/60/000/021013/028 E111/E135 Investigation of the Kinetics of Recrystallization of Technically Pure Iron during Rapid Electric Heating fractions of a second of the time of start of recrystallization and a reduction in the activation energy of the initial stage from 57.25 to 26,.9 kcal/g atom, The main cause of these changes is the coexistence of the reversion and racrystallization in time and temperature (a schematic :representation is given in Fig 4 in terms of the relations illustrated previously). Preliminary reversion can have a Card different effect on recrystallization kinetics 3/3 depending on heating rate and annealing temperature, There are 4 figures, Z tables and 118. references~ of which 13 are Soviet, 2 English, 2 German and I Czech. V1 SUBMITTED: November 15, 1959  A 1 18.3200 78037 -6 -3-6/ 3 SOV /130 -0 12 AUTHOR: Ivanov, V. I. (Chief Metallurgist) TITLE: Removal of Sulfur and Phosphorus it-, the Acid Electric Furnace PERIODICAL: Metallurg, 1960, Nr 3, pp 8-9 (USSR) ABSTRACT: On the premise that the productivity of bz.:tsic furnace is 1.5 times lower than that of acid furnace, the workers of Lugansk Locomotive Plan-, imeni October Revolution (Luganskiy teplovosostroillIel I I-I.-.7y zavod imeni Oktyabrlskoy Revolutsii)'Perov, V. P., Zhillchor, V. V., Valldemirov, V. A., and Ivanov, V. I., investigated the possibility of sulfur and phosphorus removal in the acid electric furnace during smelting of alloyed steel. In the beginning, after melting of the charge and after first slag tapping, ferrous-lime slag was added, for the decrease of phosphorus content (2.5-3 kg of dry iron ore, and 5-6 lcg dry lime per ton or oteel). This Card 1/2 second slag was tapped after 20-2~. min, reducing phosphorus  f., Removal of Sulfur and Phosphorus in the 780-37 Acid Electric Furnace SOV/130-60-3-6/23 content by 0.005-0.01%. Upon the suggest-fon of Topaller, M. I., addition and removal of slag was done before complete melting of the bath, reducing Phosphorus content by 0-005-0-015%. For tile decrease of sulfur content new slag was added (freshly calcined lime 8-10 kg/ton, and crushed chamotte 2-2-5 kg/ton). After 15-20 min slag was completely removed and new deox1dizing slag was applied (limestone, sand, and chamotte in the amount Of 2% of metallic part of charge in ratio 1.2;1:1). At the same time, ferromanganese was added in order to obtain 0.115-0.20% manganese content in steel. The steel produced at the plant conformed to State Standards (GOST) and D3 successfully used by plant shops. There are -1 tables. ASSOCIATION: Lugansk Locomative Plant imeni October Revolution (Luganskiy teplovosos'uroitellnyy zavod imeni Oktyabrlslcoy REWOlUtSii) Card 2/2  A i 80982 s/18o/Wooo/o5/014/030 ~1/00 ~1?A(EgV AUTHORS- Ivanov, V.I. and Osipov, K.A S 04) TITLE: Recrystallization of Technical Titanium DUring Rapid Heating by Passage of Electric Current PDRIODICAL,~ Izvestlya Alcadem�! nauk SSSR, Otdeleniye teklinicheskikh nauk, Metallurgiya i toplivo, 1960, Nr 3, pp 79 - 82 (USSR) ABSTRACTs In spite of the deleterious effects of oxygen and some other gases on the properties of titanium it is not of-ten that under industrial conditions this met4l is annealed in vacuum or in a protective atmosphere, the modern tendency being to anneal titanium in air and reduce th6l' degree of oxygen absorption and scale formation by reducing to minimum the time at elevated temperatures. This is most conveniently achieved by the application of high-frequency induction or electrical resistance heating and the object of the investigation described in the present paper was to study the charact.,pristic features of -the recrystallization process taking plLaae under these conditions as well as the effect of various factors (annealing temperature, heating and cooling rates) on the Cardl/4 properties of so annealed titanium. The experiments were 411"  80982 S/180/60/000/03/oi4/030 Recrystallization of Technical Titan!umF-bRMnEj8Aap�d Heating by Passage of Electric Current carried out on specimens measuring 2 x 8 x 150 mm, cold-rolled to 60% reduction in thickness after a preliminary vacuum annealing at 780 0C. An alternating current (2 500 cps) was used for heating, the rate of heatin9 achieved in this way varying between 20 and 1 000 C/sec. The temperature and time intervals of the primary recrystallization irere determined by hardness measurements and the beginning and the end of recrystal- lization were pin-pointed by metallographic examination. The jesults were compared with those obtained on identical z-pecimens vacuum-annealed for half-an-hour at various temperatures. It was found that when electrical resistance heating was employed, the recrystallization range was displaced towards higher temperatures; thus, for instance, I-dien the rate of heating of 100 ()%;/sec was employed, the temperatures of' the beginning ahd end of recrystal- 0 lizatlon (tn and t k) were, respectively. 140 and 100 Card2/4 higher than in the case of the furnace (vacuum) annealed  80982 Recry-stallization of Technical Passage of Electric Current s/18o/60/000/03/014/030 E19~4E.j Titanium r R'j Rapid Heating by material. With increasing rate of heating v this difference increased, as is shown in Figure 2, where tn and t k are plotted against v (0C/gec). The rate of heating had no effect on hardness (Brinell) of 2 recrystallized titanium, which never exceeded 180 kg/mm The reduction in time, necessary for the process of recrystallization to proceed to completion, observed in specimens heated by the passage of electric current, 'was attributed to the fact that under the conditions of rapid heating, the processes of recovery and recrystallization took place both at the same time and temperature. J~~- ~ frequency induction heatingtiwas used in the last series of experiments, in which titanium strips (2 x 10 x 150 mm) were annealed by passing them at a constant rate through a loop inductor so as to attain the temperatures of 800-825 or 85o-88o Oc in 10 or 3.5 see, respectively. The mechanical properties and the degree of oxidation of Card3/4 specimens annealed by this method wore compared with those of similar specimens- annealed in the furnace (10 min at IK  809132 S/l8o/6o/ooo/o3/ol4/030 Recrystallization of Technical Titanium'haMFn-j'Rapid Heating by Passage of Electric Current 700 OC followed by cooling in air). It was found that the UTS of titanium was the same, irrespective of the method of annealing but the ductility of metal, annealed by rapid heating, was -31ightly higher and Ats grnin size was approximately 1.5 times smallon, in spite of higher temperature attained, the cbgree of oxidation of the rapidly heated apecimens was several times cower than that of the furnace-annealed material. In addition to these advantages, the technique of rapid annealing by means of electrical heatUng opens wide possibilities of me(;hanization and automation of the process of annealing of cold-worked titanium. There are 3 figures, 1 table and 2 Soviet references. ASSOCIATION., Institut metallurgii Alcadeniii Metallurgy of' the Ac.Sc., USSR) SUBMITTED: December 29, 1959 nauk SSSR (Institute of Card 4/4  ( IVANOV, V.I.(MoBkva); OSIFOV, K.A,(Moskva) the basic parameters of the recryzAallization of commercial iron during rapid electric beatijig. Iav. AN SSSR. Otd.tekh.nauk MetA topl. no,5:161-166 S-0 160.. (MI11A 13: 11) (Iron--Heat treatment) (Crystallization)  - -1-VANOV,--.V.I. (,'~Ioskva) $j Kinetics of the recrystallization of comercial iron durinL: continuo= tapid beating. Izv. X' SSS-1. Otd. tekh. nauk. IMet. i topl. nC.1: 74-77 Ja-F 161. (,"[Ela 2./, -. ") - 1. Institut raetallurt;ii Ali SSS~.. (Iron-okat treat-nent) (Crystallization)  -,j 1 '417161,1Z.OWO I 2/0z"O/I 49 J'X-.6/A 10 1 AMIORS; Va3lchov, 11. N., Latyshav, V. K., Pll~kln, Y%1, a., P,?Ilnger, A. K., Lyubahunko, A. A., Farfol', Yu. A., Lobrdev, 0. P., 'Nranov, V. 1. T! A device to measure the thickreis of hot rolled metal PEMODICAL: Refer&t1.vnrj z.-,urnal, Motallur-FIYA, no. 12. 1961, 13-14, abstrRet IPD021 (V sb. "Badloakt. Izotopy I yndern, 1=iuohenlya v nar. kh-vo S38R, vol. 3" Moscow, Oos top tekhIzzdat, 1~41. 205, 206) -AT. An inatrument .1 r wasuring tho thicknesa duvtilorc-d nt TrN-OiM. 0 is based an the riathod of dynaiilc ecmPerlentton. The davjce donSIB.S 01' 4 recf?iY- Inr unit, a contAiner of r,~m.Auriw; souroo, M electrlo drIven, clamp, a re-?d unit, n recording and an Indicating unit, To control tlh-t opira",C1.1 of Ith- (1cfice a coarne-wedge sector is mounted. The device in employed In a thlcknejs rang,- from 14 to 44 h=; it can however be designed for wq range within 5 to ~D rm. in the case of the given model the device is an indicating one. It Is Intended to be incorporated into the programming unit, controlling the elxrping screws of the mill, as a correcting device on period le-roll ing mills, and as an :Lndlestor in an automated redizction control system on continuous mills. The accuracy Ca-rd 112  2/1 "'?,16 1 2/,~ 149 A device to mea4ur" the thick-nazs AOCE./AIM of -he device its 4- 0.1 m.,.v an the whole range; th,~ operaticnal spi-ed Is Me mea3urement per s-.cand. N. YudL-z-.% - rAbstractar'm notat Ccmpleto tranglation] I Card 2/21  DUBININ) N.P.; BARINOV, N.A.; FOKIN, G.F.; TIMONICH, D.D.,- IVANOV, V.I. Practice of preparing highly resistant cast iron in basic cupola furnaces. Lit. proizv. no. 4:41-1+2 Ap 161. (MIRA 14: 10 (Cast iron-Metallurgy) (Gupola furnaces) . I I I i I 1iJ:U,, 1 11W ;:! ~;1111 A! j- - 1.1  33182 10. 1,5uo 5/180/61/000/006/016/020 E193/E383 AUTHORS.- _JYinzv,_.V__I._,,_0sipov, K.A. and Soinichen.ko, A.L. (Moscow) TITLE., A study of the kinetics of the process of creep and recovery PERIODICAL: Akademiya nauk SSSR. Izvestiya. Otdelertiye tekhnicheskikh nauk. Metallurgiya i toplivo, no.6. 1961, 137-143 TEXT: The object of the present investigation was to study the relationship between the activation energy for creep of a-iron and the applied stress as well as the relat'Lonship between the activation energy for recovery of this metal and the degree of plastic deformation. Technical purity (99.76%) iron, preliminarily annealed in vacuum (10 hours at 7000C followed by 50 hours at 45VC), was used in creep 'tests carried out in vacuum (10- mm Hg) at 250 5000C under a 2 constant stress ranging from 10-35 kg/mm The ln ~ versus I/T relationship, where i is the rate of creep and T - temperature, was linear over the entire range of the applied Card 1/01  33183 A study of the kinetics ... s/18o/61/000/0o6/016/o2o E193/E383 stresses studied. The variation of the activation energy for steady creep (A H) is demonstrated in Fig.,2,, where AH (kcal/g atom) is plotted against the applied stress CT NgAnm2). It will be seen that the limiting va' AH = 20 kcal/g.ntom was attained at a > / 4ue of 2 , 30 1~cg mm",, At cr _~ 35 kg1mm fracture of the specimens took place in a very short time. Th-e process of recovery was studied on both technical and high-purity iron (99.67 and 99.99%, respectively). The experimental wire specimens, 0.6 and 1.5 mm in (liameter', preliminarily annealed in vacuum (3 hours at 8000C) were deformed plastically at room temperature to 80, 84, 94 and 98% reduction in area. The kinetics of recovery were studied by measurements of the thermo-emf of plastically- deformed against annealed material, which were taken immedintely after deformation and during subsequent isothermal treatment at various temperatures, The value of (I - e/e ). where e0 and e denote the specific thermo-emf (jiV/?C) Card 2/4W  33182 s/l8o/6l/ooo/oo6/ol6/o2o A study of the kinetics E193/E383 before aii(. isothermal annealing, respectively, was taken as the measure of the degree of recovery attained. The results obtained for high-purity specimens, deformed to 94% reduction, are reproduced in Fig- 3, where (I - e/e 0) is plotted against time (-t, see) at temperatures indicated by each curved This relationship can be described by e 1 - - = a + b ln "c e 0 where a and b are temperature-dependent constants. In the next series of experiments the temperature dependence of U - e/e 0) was determined. The results are reproduced in Fig. 4, where (I - e/e 0) is plotted against temperature ( 0C) of the isothermal treatment of technical and high-purity iron (graphs a and 6 , res'pectively); Curves I - 4 in grap1B a,relate to specimens held at the temperature for Card _3/4ff  A S/180/61/000/00 616/020 A study of the kinetics .... E193/E383 1 8oo, 18o, 30 and 2.5 see, respectively, Curves 1 -- 5 in graphs e relating to a holding time of 3 6oo, goo, 18o, 6o and 30 see, respectively. These data were used to determine the activation energy for recovery of the metals studied. To this end, the temperatures T at which various degrees of recovery could be attained after various times 't were determined from curves in Fig. 4~ These were used to construct curves reproduced* in Figa 5, where In -1., ( ';~, s ec) is plotted against 1 = 10 the numbers given by each curve indicating T the value of (1 e/e0 ), graphs a and G relating to technical and high-purity specimens, respectively. Since all the curves reproduced in Fig. 5 were straight lines, it was po:5sible to calculate the activation energy , e!SH , for recovery, from: In A exp [_~~H/RIJ (2) Card 4/#V  31118 2 s/18o/6i/ooo/oo6/oi6/020 A study of the kinetics E-193/E383 where R is the gas constant, and 0 T is the temperature of the isGthermal treatment ( K). The results are reproduced in Fig. 6, where L-H (kcal/g.atom) is plotted against (I -- e/e the circles 0 1 (1) and triangles (2) relating, respectively, to high-purity and technical-grade iron,, It will be seen that the activation energy for reoovery is at its minimum at low values of (1 - e/eo ), remaln�ng practically constant up to (1 - ele 0 0.3 and then increasing rapidly to reach /~H := 47.6 kcal/g.atom at (.1 - e/e 0,,..8 Similar results were obtained for material deformed to 98% reduction, which indicated that ;'11 would not decrease even for more heavily deformed material. In the last series of experiments the effect of elastic deformation on the kinetics of recovery was studied. To this end U - e/e 0 was determined for hjgh--.purity specimens deformed to 94,/Vc reduction, which were stressed in the elast.)c range during the isothermal annealing,, The results are reproduced iii Fig. 7, Card 5/0. -  j318 2 s/18o/6i/ooo/oo6/oi6/020 A study of the kinetics ... E193/E383 where 0. - C-,/e0) is plotted against the duration of treatment (---!,-. - sec) at temperatures indicated by each curve, Comparison of isotherms reproduced in Figs~ 2 and '? shows that the elastic strain superimposed on plastic. deformation brings about a signiftcant increase in the rate of recovery only when (1 - e/e ) exceeds 0.3. The results of calculation showed that for (I - O/e0 ) z 0.2, 0.3 or 0.4, the value of was 12-3. 14.0 and 18.2 kcal/g.atom, respertively., the corresponding -alue for specimens not stressed elastically being 12.2, 14.7 and 22,,8 kcal/g.atom. This indi,cates that elastic deformation does not affect the limitinx (minimum) value of . It was inferred from the results obtained that the activation energy for recovery is a function of several states of the crystal lattice, which vary not only with the degree of preliminary deformation but also with the degree of recovery attained~ The dependence of the activation energy on the degree of recovery can be attributed to the following factors: Card 6/4R0  33182 sli 8o/6 1/oo(?/, oWol 6/020 A study of the kinetics .... E193/E363 1) the presence in a deformed metal of volumes with different density of defects of various types; 2) variation of the density and distribution of defects during isothermal treatment; 3) different stability of different types of defects; 4) dependence of the activation energy for recovery on the nature of the defects and their density in elemental volumes in which they migrate. i There are 7 figures, 1 taille and 11 referencest 7 Soviet-bloc and 4 non-Soviet-bloc. The two English-language references quoted are: Ref. 3: H. Bross and A. Seeger - The Physics and Chemistx-y of Solids, 1958, v*4, no* 3, 161; Ref. 8: Silcock, J.111., Acta metallurgica, 1959, v.'?, no. 5. SUBMITTED: January 10, 1961 Card 71W -7  S//659/61/00 7/000/0 15/044 D217/D303 AUTHORS: 1LpngxL V,?Ij and Osipovj K~A. TITLE: Ultimate and varying activation energy cf recovery of thermoelectroviotive force of cold-worked pure iron SOURCE: Akademiya nauk SSSR. Institut metaliurgii~ Issierlova- niya po zharoprochnym splavam, v. 7~ 10611 151 - 158 TEXT: The results of an investigation of the recovery kinetics of the thermoelectromotive force (t.e.m.f.) of cold-worked iron are re- ported, and it is shown that an ultimate and variablo activ.-ition energy exists for this process~ The investigation ,vas carried out on high purity iron (99~99 %) in the form of wire of M mm diame.- ter having undergone degrees of cold plastic deforma-Ition of 80, 94 and 98 %c Prior to deformation, the wire was annealed in vacua aT. 80000 for 3 hours. Plastic deformation was carried OLIt -at r001-11 tem- perature. Recovery of tceom.fc was studied on thermocoup"Les consis- ting of an annealed and a deformed wire, the t,e.m.f,, being measu- red on each thermocouple immediately after deformation. and after isothermal tempering at various temperatures. The tempering time Card 1/3  S/65 , 61/001'/000/015/044 Ultimate and varying activation ... D4^17YI)303 was changed within the limits 30 - 3600 seconds~ The specimens were heated at 20000/second by means of an electric currerit,The tempera- tuTe was measured with an accuracy of t 0,10C. For measuremen~Q, of t,e.m.f., a mirror galvanometer of scale sensitivity -) x '0,-8v/Mm was used. The measurements were carried out by two n16thods: 1) Com- pensation and 2) by the angle through which the galvanometer mir- ror turned. The specific t.e.m.f. in p/degree was calculated by dividing the full measured value of t.e.m.f. by the difference In lemperatures between the junctions. The existence cif an ultimalle and variable energy of activation of recovery was co2ifirmedz The energy of activation varies in relation to the degree of recol,ery from -12.25 to 47.6 kcal/g atoms At degrees of recove.*~y belov, 0,7,,, the energy of activation remains practically constan't, and with an inc;rease in degree of recovery above 0.3, it rises st-eeply, On chan- ging the degree of deformation from 80 to c)6 % tind on appl,~.",I- '.-Ion of additional elastic deformation duri temperLng,. the ult.1- li~ does not ch" g-, mate energy of activation (12~25 kcal/g atom an . and remains close to the value of the theoretically calculated energy 0 of activation (11,7 kcal/g atom). There are 6 flgure~5, 1 table and Card 21 3  S/65 YD 61/007/000/015/044 and varying activation ... D217 303 15 references; 7 Soviet-bloc and 8 non-Soviet-bloc~ The 4 most re- cent references to the English-language publications read as fol-, lows~. R.M~ Treco, J. Metals. sec. 2, 8, no. 10, 1956-. I.N. Lomer and H.U~ Rosenbergp Phil. Maig., 4, no~ 10, 1959; A. ~_eeger, Phys. and Chem, of Solids, 4, 3, 1958; C.17. Berghout, Acta Metallurgica 6, no. 109 1958. Card 3/3  IVANOV, V. I. Using bacterial methods for dressing nonferrous zietal ores. Trudy Inst.mikrobiol. no.9:V+/+-11+6 ~61. WIM 15: 5) 1. Nuuchno-issledovatellskiy i proyektnyy Institut Sverdlovsk. (Ore dressing) (Mine water-Hicrobiology) (Thiobacillus)  IVANOV, V.I.; OSIPPOV., K.A. Investigating the kinetics of thermoelectromotive force recovery in cold-deformed iron. Fiz. met. i metalloved 11 no.3:360-367 Mr 161. OAIRA 14:3) - 1. Institut metallurgii AN SSSR. (Activity-coefficients) (Thermoelectricity)  23832 S/020/61/136/002/015/024 119 B104/B207 - JY00 AUTHORS: Ivanov, V. I. and Osipov, K. A. TITLE: A study of the grain growth in highly pure m-iron PERIODICAL: Akademiya nauk SSSR. Doklady, v. 138, no. 2, 1961, 338-341 TEXT: The iron investigated contained the following impurities : 0.001 ~fb 0, 0.001 % C, 0.002 % S, less than 0.002 % N and traces of Cu, Ni, and Si. Iron rods of 7.7 mm diameter were subjected to a preliminary treatment during which they were cold formed and, subsequently, subjected to a recrystallization annealing; the resulting grain size diameter was less than 0.2 mm. Grain growth was studied at electric heating and a mean rate of 200 degrees/sec. In the range of from 700 to 9000C, the rate of heating was reduced from 300 to 150 degrees/sec. After heating to a pre-determined temperature, the specimens were chilled in water, the interval between the end of heating and dipping of the sample into water being less than 0.02 seconds. The temperature conditions of heating were registered with a Cr-Al thermocouple, which was fixed in the middle of the sample, by means of a loop oscilloscope and a ballistic galvanometer. The results of Card 1/5  23832 S/020/61/136/002/015/024 A study of the grain growth in highly- B104/B207 measurement are graphically represented in Fig. 1. When heating at constant rate a, the rate of shifting of the grain boundaries G can be determined from the equation G - 2-adD/dt, where D = f(t) is the mean grain 2 diameter. If a is not constant, D =,y(T) must always be determined (T denotes the time). The lower part of Fig. 1 shows the temperature t as a function of time. The curve t = Q(T) is determined from the oscillograms. The curve D = V(,T) is constructed, as shown in Fig. 1, by means of the experimentally determined curve D = f(t). (Fig. 16). According to the above equation, the values G = 128; 188; 210; 230; 300 and 354010- 50M/sec are graphically obtained from this curve at temperatures of 735, 765, 790, 810, 865 and 8900C. In another experimental series, the specimens with 700 degrees/sec were heated to 610 t5oC and kept at this temperature for a varying length of time according to the individual specimen, e.g. for 0, 0-4, 1.0, 2.25, 3.0, 125, 275, 660, 900 and 1800 seconds. The respective ,arain diameters were: 43, 63, 87, 128, 141, 175, 194, 205, 210 and 240-10-4 CM. The mean linear shifting rate of the grain bo-andaries was in the given periods of time 250, 200, 164, 87, 1.31, 0.63, 0.20, 0.10 and Card 2/5  23832 S/02 61/138,/002/015/024 A study of the grain growth in highly... B104~3207 W 0-17-10-- 5 cm/sec. The slowing down of the shifting rates of the grain boundaries is explained by the reduction of the radius of 3urvature of the grains and the increasing concentration of impurities at tae grains. Owing to the high purity of iron, this state occurs only with very large grains. Prom the discussion of the results the authors conclude that the mechanism for the grain growth as suggested by Mott (Proc. Phys. Soc., 60, 391, (1948)) is very probable. Accordingly, the grain, when growing, melts at its boundaries and solidifies again with the boundary being shifted in outward direction, The authors, experimental data can be easily described by Feltham's equation (J. Inst. Metals, 85, (2) 95, (1957); Acts. metallurg., 5, 97 (1957); Proc. Phys. Soc., 3 ~2, 11TT (1956)) D2 _D2 = K exp(-AH/RT),r 0 0 D and D 0are the mean values, the initial and the permanent diameter of the grains, -r the time at which T is constant, K0 a constant oDefficient, &H the activation energy, R, the gas constant, T, the absolut~q temperature. By means of (1) G may be represented by G = I 1-D r-, -L Ko exp (-AH/RT) (2). Card'3/5 2 dT 2 D  23832 S/020/61/138/002/015/024 A study of the grain growth in highly... B104/B207 The results of the second experimental series are in good agreement with (2). Herefrom, 25.3 koal/gram-atom is obtained as activation energy for the grain growth. In a preliminary study (Ref. 20 Izv. AN SSSR, Metallurgiya i toplivo, No. 2, (1960)), basing on the hypothesis on the activatiQn energy of various processes in solids, the authors obtained theoretically an activation energy of 22.2 kcal/gram-atom. Finally, the fact is discussed that in the case 'of lead and iron AH and q are almost equally high (s e'e Ref. 20). This is brought into relation ivith the melting and re-solidification of the grain boundaries. V. P. Fedotov supplied the pure iron for this study. There are 3 figures and 24- references: 1.1 Soviet-bloc and 13 non-Soviet-bloc. ASSOCIATION: Institut metallurgii im. A. A. Baykova Akademii nauk SSSR (Institute of Metallurgy imeni A. A. Baykov, Academy of Sciences USSR) PRESENTED: January 3, 1961, by G. V. Kurdyumov, Academiolan SUBMITTED: December 10, 1960 Card 4/5  S/180/62/000/003/oo6/ol6 E193/E192 AUTHOR: Ivano (Moscow) _JYRRQK__V_1_ TITLE: The effect of the degree of deformation on the kinetics of recrystallization and on the grain s1ze of titanium rapidly heated by passage of electric current PERIODICAL: Akademiya nauk SSSR. Izvestiya. Otdeleniye tekhnicheskikh nauk. Metallurglya i toplivo. no.3, 1962, 63-70 TEXT; Earlier investigations showed that with increasing rate of heating the rate of recrystallization of.cold-worked Fe and Ti increased and the activation energy decreased. In -the present investigation the effect of the rate of heating, during aniiealing of cold-worked commercial grade Ti, on the kinetics of recrystallization, the grain size of the recrystallized materie1l-------'_ and the critical degree of deformation, was studied. The experiments were carried out on 1.5 x 6 x 150 mm test pieces which, after the last intermediate annealing, had been plastically deformed to 9.8, 21, 40 and 60% reduction. Specimens were heated Card l/ s Y  The effect of the degree of ... s/18o/62/000/003/Oo6/oi6 E193/E192 by passing mains A.C. at rates of heating ranging from-10 to 1000 *C/sec. Hardness of the central part of the test piece 'was measured, the grain size determined and, when necessary, X-ray diffractioa analysis carried out. With isothermal annealing in which the effect of the degree of preliminary deformation, c, and the rate of heating on To and Tj was studied (where 'ro and denote, respectively, annealing times required to start and com~plete the recrystallization process), it was found that with increasing E both To and Tj decreased at a gradually diminishing rate, becoming negligible at E -.;,40%. Increasing the rate at which the test pieces were brought up to the annealing temperature also caused a decrease in both T 2 and Tl for all values of E, typical results obtained at 900 C being as follows. For specimens deformed to 9.8% reduction and heated at a rate of 30 and 300 *C/sec, To was 15 and 8 sec respectively, the corresponding values of Tj being 70 and 50 SOO;* for specimens deformed to 40% reduction To was 3 see at 30 'C/sec and 0.6 sec at 300 *C/sec, the corresponding valuesi of Tj being 5 and 2 see. In the non-isothermal annealing, each test Card 2/,f  The effect of the degree of 5/180/62/000/003/Oo6/oi6 E193/E192 piece was heated through a range of temperatures to determine the effect of various factors on the temperature of the beginning and end of recrystallization of T! (tH and tK, respectively) and it was found that, irrespective of the degree of preliminary deformation, both the beginning (tH) and the end (t:.K) of Ti recrystallization increased by 70-150 *C on accelerating the heating rate, the rate'of increase in each case diminishing as the heating rate increased. At any given heating rate both tH and tK increased with increasing C; the rate of this increase also became insignificant at C > 400/o. Typical results tire reproduced in Fig,3, where tH and ty, (*C) are plotted against C (%), graphs a and relating, respectively, to specimens heated at a rate of 30 and 300 OC/sec. Points J\ , 6 , B and F denote specimens in which: A - no recrystallization detected; 9 - recrystallization was detected; P6 - recrystallization was not completedi r - recrystallization was completed. The results of the final series of experiments showed that the detrimental effect of preliminary deformation on the grain size of recrystallized Ti can be considerably reduced by increasing the rate of heating, thus obtaininj finely-crystalline and more uniform structure. In Fig.'5 Card 3/0  S/180/62/000/003/006/016 The effect of the degree of ... E193/E192 the grain size of annealed Ti is plotted against the degree of preliminary deformation (e, %) and various curves relating to the following annealing conditions in furnace and by passing electric current are also discussed: I and 2 - heating in a furnace to 840 or 730 *C respectively, holding at the temperature for 30 min, cooling in air; 3 - heating by passage of electric current to,,tF. at a rate of 10 OC/sec, cooling in air; 4 and 5 - heating by passage of electric current to tj~ at a rate of 250 OC/sec, cooling in air (curve 4) or in water (curve 5); (the broken horizontal line represents the initial grain size). It was found that the critical degree of deformation, EK, can be slightly shifted towards lower values by increasing the heating rate, but only if the duration of the treatment is relatively short (2 - 5 min); in the case of non-uniformly deformed. articles, rapid heating (without the following isothermal treatment).wIll suppresil reQrystallimation in lightly deformed regions, ensuring at the same time recrystallization of regions whore; r, tp cK. Wedge-shaped specimens were used in the deformation tests. There are 6 figures. Card 4/,'P SUBMITTED: September 25, 1961.  Imov, V.I. Characteristics of recryotallization kineticu of cormercial iron during rapid electric hoating. Trudy InBt.met. no.10:168-280 162. WIRA 150) (Cryst&LUzation) (lWuction hardening)  DOBROSKOKI I.I.; SURIN, Ye.V.; BROVII~Hi 14.ya.; MIMAYLOV, G.M.; KRULEVETSKIYS S.A. prinimaji uchastiye: ASFAIDIYAP.UV, R.F.; BELOV, ye,M,;_UAj,'OV, V.I. IWKOV, V.I.; SOLOVIYEV, Yu.P.; PIMENOV, F.A.; TUROMSHEV, A.F.; KHVESIKO, V.A.; NIMSM, N.V. Investigating the power parameters of a continuous steel casting plant. Stall 2-2 no-3.-223-225 Mr 162. (MM 15:3) 1. Yu--hnoural'skiy masllinostroitolliiyy zavod (for Asftndiyarovp Belov, IV Ov Markov, Solov' v). 2. Novolipetskiy metallurgicheskiy zavod (,an . ye or Pimenov, Turomshev, Khves1ko). 3. TSentxalln~y riauchno-issledovatel- skiy institut chernoy metal-jurgii (for NikitDldy), (Continuous casting-Equipment and supplie.--)  KORZH, P.D.;-LVANOV, V.I._, I Determination of iron in an agglomerate based an the absorption of radioactive radiation. Zav.lab. 28 no.8t965-966 162. WRA 15111) 1. Magnitogorskiy gornometallurgicheskiy institut. (Iron-Analysis) (Radioactivity-449atwement)  ~ ! : ; k,; !; ~ ,11 :1, ! I JI tI I ;I: I: ! ;. IVANOV, V. -I.; KORZH,, P.D. Radiometric determination of iron in sulfide ore concentrates and agglomerates. Zav.lab. 29 no.11:1296-1298 163. (MIRA l6cl2) 1. Magnitogorskiy gorno-metallurgichoskiy institut. . .. 1 11 ! TO I ~- ~  I ' - IVANOV,l V.I.1 PLETEI-MTSKIY, G.Ye.; BECHIPORENKO, Ye.P. FXfect of highly refractory wo~ 0 vke thermoelectromotive force of tungsten, uoJybdentmj,,q - =uoi In vacuma at, . pd, .. 0 1)5000 C- Ogneupory 28 no.7-.327-'331 ..'1636 (141RA 16:9)  !Lngtitui  ~; T 1 - I I --,! It :- - - - - I ! ; i I- - I - i - - -  L_UJ52-6� AM mRz AP6002562 SOURCE CODEs UFk/02B6/65/,'0OO/023/0O58/0O58 AUTHORSt Ivanov, V. I.; Shcherbakov, V. I.; TrakhtenbeM I ORG: none TITLEi Ultrasonic method for maasuring 13roduet thicknosa Clage 42, No. 176713 SOURCE: Byulletent izobreteniy i tovarnykh znakov, no. 23,, 1965, 58 TOPIC TAGS3 ultrasonic equipment, ultrasonic inspection, test jaethod ABSTRACT: This Author Certificate presents an ultrasonic wthod for measuring .product thickness by determining the resonance frequency of thejaystem which -consists of the monitored product, a liquid layer, and an ultradonic detector# To increase. the accuracy of measuring small thicknesses., e4g., less than 0*5 mmv and to decrease the operating frequencies, the system is ezcited. sit two fixod frequencies. The liquid layar thicknesslid varied, obtaining system resonance successively for each of tho frequencies. The thickness of the,prGduct is dater- Mined by the difference of the liquid layer thicknesses corTesponding to the resonances$ SUB CODEt 13j, 20/ Sam DATE: 18jan65 :cc rd._1/1 ..531,717-135368  S/180/60/000/005/01-9/033 Elll/E135 AUTHORS: Ivanov, VJ, and Osipov, KA., (bloscow') TITLE: Investigat-i-on of the Main Factors in the llecrystalllzatigp of echnical Iron in Rapid Electric Heating IV PERIODICAL: Izvestiya Akademii ~auk SSSR,Otdeleniye tekhnicheskikh nauk, Metallurgiya i toplivo, 1Q,60, No. 5, pp,161-166 TEXT: The authors have previously studied the influence of heating rateon the kinetics of the first stage of recrystalliza- tion (Ref.1). They now describe their results on the investigation of later stages of primary recrystallization under isothermal conditions after rapid electric heating. Rings 50 mm in diameter and 1 mm wall thickness made of 99,76% pure technical iron with 55016 cold deformation were used, A large (0,,25-0-35 mm) grain was produced before cold deformation,, Heatine; was effected by induction (2500 cps), the average heating rate at; 550-700 OC being 500 OC/sec. When the required temperature had. been reached power was automatically reduced, giving isotbarmal heating at that tem.perature, Recording and limitation of temperature were Card 1/3  S/180/60/000/005/019/033 Elll/E135 Investigation ofthe Main Factors in the Recrystallization of Technical. Iron in Rapid Electric Heating as described in earlier work (Ref.,l), For hardness measurements, X-ray and metallographic investigation, the parts of the specimen close to the thermocouple position were used. Recrystallization isotherms, i.,e. plots of recrystallized initial grain volumes a-ainst time in seconds, for heating at 500 OC/sec are shown in Fig,l (cu2ves 1-46C8 and 9 after deformation., 5, 6 and 7 after tempering at 450 ): time for developing primary rE!crystalliza- tion falls with rising annealing temperature, The logarithm of time to reach a given degree of recrystallization was found (Fig,,2) to be linearly related to reciprocal of absolute temperature, enabling the activation energy of the process to be calculated. It is shown in Fig.3 in relation to degree of recrYstallization- The true (curves 1 and 3) and average (curves 2 and 4) rates of recrystallization are shown in Fig,4 as functions of degree of recrystallization (curves 1, 2 after deformation., 3 and 4 after tempering)~ all shovi maxima, most pronounced in curve 1. The continual growth both of-the number Card 2/3