SCIENTIFIC ABSTRACT KHARAKERM G.M. - KHARAKOZ, A.YE.

KHARAKERY G.M.? inzh. The fourth all-Unioit conference on advanced technology, mechanization and aittomation in the machinery industry. Vest.mashinotitr. 45 no.10:79-80 0 165. (MIRA 18:11)  A 12~ oc,-l n a, a t 7 C-17 ~-j ; - T, 4 t! I - 52-54 r jr fird . I -  r, r I f It~ r ii ~) ~. f 11 " ;7.. SUPRUNOV, A., inzh.; SHORODINSKIY. A., inzh., V,"=h. 00~*"A ~~10 Installation of pneumitic transportation in the grain clsanii~g section of the Kharkar Flour Kill No,3. Huk.-oley. prom. r. noolft 16-19 0 157. (MIRA 11:1) 1. Khartkovskoye oblaitnoye upravleniye khleboproduktoy. (Kharkov-Flour -dlls) (Pneumatic-tube transportation)  SUPALMOV, A., Inzh.; KHARhKFWH, V., Insh.; R&Lyyp N., inzh. Gver-all mechanization in the packing department of the Flour Hill No.8 In Volchanak. A.Suprunov, V.Kharakhash N 14a1 to Ruk.-olev.prom. 24 no Li .3*-18-19 Mr 158. WIkA i2t9 1. Kharlkovokoyo oblaetnovo upravloniye khlnboproduktov (for Siipriinnv, hthardlchash), 2. Volchanokaya mel'nitea No.8 (for Mal-FY) (~olcbansk--Flouv rdlla-3quipment and stipplins)  SUPRUITOV, A., inzh.; KffARAKHASH, V. Mechanization of standard granaries locatrd away from railroads. Muk.-elev.prom. 25 no.12:1P-19 D '59- (MIRA 13:4) 1. Kharikovskoye upravle:iiye khleboproduktov. (Grain-haudling machinery)  SUPRUNOV,, inzh.; Plans for feedmilling sections of corn-processinr ., plants. Muk.-elev. prom. 26 no.9:19-20 8 160. (MIRA 13:9) 1. Otdol mukomollno-krypyanvkh predpriatiy Kharlkovskogo upravlani:ra khloboproductov. (Feed mills)  KHAR&KWHj Viktor Andreyevicht SOKOLOVSKIY, M.V.,, inzh., red.; IR-1- ---- --- -- - KBMGj D.B., red.; GOIN(WAYPOLISWA, M.S.# tekhn. red, [Cylindrical reducing Sears; reference manual] Reduktory tai- lindricheskie; spravocluoe rukovodstvo. Moskva, Mashgiz, 1961. 346 P. (Gearing# 6jur) (MIRA 15:2)  '60043-65.... E7#T(ii)/EPF(c.-)/EWP(-1i)/A Pc.~4/Pr-4/Ps-4--~WW/-JA-J/Rt4-I.- -ACCESSION. KR_ AP5018043 V191/65/000/097/OW/0064 -017 -ATYMM.- - Zyb1zrj_Ytfe'-"A-&me __V~_G- orfznar4__K._Mt:_ *.7 -'- (MOVY-1, It9a Lined TIT-M.- -plastjks-"d_thdr_te8t1* ~L__ SOURCE: Plastir.1hoskiyo massy, n0.-7 1965 64 -Pjr polA bror. bonQ T ej " TAGS:-- pliiiiaz4ftt,. -thylenerestn', polyethylene adhesive "f slfi~affl~ in age gtre~W, 1"t1c plastic mechanical property gth, cleav lined A.W'M.ACT*., StOl e- ptq~ sties s46 is lyfluotoethylene resins and polyethylene campt-iigki be deposited'onmetal aux-ftbes aus I 'd-) not w1h re vMout special-pretreatitent- bee 0,116 e -Y of these surface a -To6HmiuatetMq,dJ0ddvafttage such plastics are Joined tooth r, ID matrfafa~ forintAg-Uned plaeUo 'WcfccoMbtnq-t6- high- chomicaLstability- f. t0l wi -mat dth-~ ther adhesive properties -of other D r W a -J es Th  ACCESSION NRt. "661860-j Card 2/2 EXCLs., 00 i gn COjDEf:-W. 000  L '27221-466 EWP(J)A'vT(mY/r/EwP(t)---IJP(c) RM/JD/HN/W9 ACC NR& AH6002129 Honograph URI -94-qtgnov. Vlad j_ imir-GoorgLyeviclt;-Kharakhash, `V1ktor_Ge_orgLyevLch;_ Ft I Mi r o ne nko , N i ko I ay _Iv aiFov I t, h I - Ta-T-odo-V 7A 614-s-an- r 1v a nov-i -elf I- Pi-sfk`5`v, Ruvim-Semenovichi-Al-eksi-yev -ay- If W6Ta- fe-v f _c R T AnticorrosLon~(' plastic," coatin! s 6rotivokorrozionnyye plastmassovyye, pokrytiya) kf91,MTL0ZTU.__V_o "Tit-khnika," 1965. 89 p. illus., biblios 5000 copies printed, TOPIC TAGSs material control, plastic coating, corrosion inhibition PURPOSE AND COVERAGE: The bool,.Iet deals with the prolems of using polymeric materials for ani:icorrosion protectionflbf the inner surfaces of tubes, pipelinas, and valves. The use of these materials makes it p9asiblit to economize on nonferrous metals and stainless stee0las we'Ll as to increase the useful Life of ferrous metals. Technolog:Lcal methods are described, and economic data on the protection of iiquipment with polymeric materials are presentedo The booklet is intended for specialists in the chemical and food industries who deal with the problems of anticorrosion protection of - plan-t a-ppara-:uso Therear6`47 referencesp, of which 43 are Soviet. TABLE OF CONTENTSs Card 1/2 UDC: 678.026  L 2~72:21-66 ACC NRj AH6002129 Introduction -- 5 Physical and mechanical properttes of some plastics Lining of cavities -- 19 Lining of pipelines -- 38 Lining of-metal-pLpes-with powd-ir-type plastics 48- Lining of valves -- 74 31bliography -&J- 88 -SUB CODE: __ll/__ SUBK DATEI -Mlip65/ ORIG REFt- 038/- OTH-REFs -009 Card 2/2  KHARAKHASH V.G., inzh.; WWREVSKIY, S.A., inzh.; ALEKSEYEV, N.N., inzh,; KOLESNIK, N.A., inzh.; FRIDMAN, O.A., inzh,; GRIJBA,A.I.,, inzh.; GRIN', L.V.; PETRAKOV, V.I. Electric insulation coatings on the inside surface of battery boxes of electric mLne locomotives. Ugoll Ukr. 10 no. 1: 31-33 JTa 166. (MIRA 18:12) 1. UkrainBkiy nauchio-issledovatellskiy institut plasticheakikh Masse I  ACC NRI AP7003537 SOLMCE CODE: n/03,36/6VO05/001/0024/0025 AUaMOR: Gariflyanov, N. S.; Khabil,ullin, B. M.; Kharakhashlyan, E. G.; Bezzubov, A-L ORG: Kazan' Physicotechnical Institute, Academy o*f`S_c_i'ences SGSR (Kazanskiy fiziko- 'ehhniche5kiy institut Akademii natk SSSR) TITIZ: Electron paramagnetic resorance in lithium containing impurities of group 1IB Metals SOURCE: Zhurnal eksperimentallnoy i teorcticheskoy fiziki. Pis'ma v red.aktslyu. Prilozheniye, v. 5, no. 1, 1967, 24-25 TOPIC TAGS: lithium, electron parana(;netic resonance, spin orbit relaxation, 'Gpin orbit interaction, conduction electron, epr npectmm, line width ABSTRACT: To check whether the maii mechanism of spin relaxation is spin-orbit inter action of the conduction electrons ;ith the impurity atoms, th~ authors investigated the effect of small admixtures of Zi, Cd, and lig on the EPR line width of Li. The ini-.ial material vas -99% pure LE-1 lithium (measured relaxation time T3. = 9.4 x 10-9 see). The alloy was prepared in an atmosphere of pure helium and dispersed by ultra- sound in dehydrated paraffin to an average particle size < 8 ~L. The measurements ver made at 9320 MHz and room temperatu:,e. It follows from t~e experimental data that th peak line width 6H increases linear:,y with increasing c in the investigated concentra, tion interval. An estimate abows that the spin-orbit interaction of electrons with the impurity atoms in the metal doea not differ in order of magnitude from its value 1/2  ACC NR: AP7003537 for the free atom. Consequently, th..- expected effect of screening the spin-orbit in- .Leraction by conduction electrons in nonexistent. The contrary is more likely, that U if the presented estimates are correot the redistribution of the electron density near the impurity atom leads to an antiscreening effect vhich apparently has a ten- dency to grow with inc'reasing Z. Tho authors thank Professor B. M. Kozyrev for con- tinuous interest in the work and valuable advice. Orig. art. has: I figure,, 1 for- xula, and 1 table. SUB CODE: 20/ SUM DATE:. 200ctO(,/ OM RU: 004  S/120/60/000/005/041/051 E032/E314 AUTHORS: -Sevastlyanov, BK_, and Kharakhashlyan, E,G, TITLE- Torsional Magnelic Balance with DC Compensation of the Displacenent of the Specimen PERIODICAL: Pribory i tekltnika eksperimenta, 1960, No. 59 pp. 135 - 137 TEXT: A d6scription is g%ven of a torsional balance for the range ~ '1916- 4 -10 dynit cm The balance can be used to determine the magnetic momiint,~n a wide temperature range, right down to-TTe'riC-umtemperatures. The balance is shown sehematically in Fig. 1. '.he aluminium frame 8 is suspended on a thin phosphor bronze wire having an elasti.c constant of 3 x 10-2dyne.cm/rad. The aluminium frame carries two coils, namely, a compensation and a calibration coil. These coils consist of. 50 turns of 0.1 dia. wire of type 63 (PE) - it also carries a plane mirroi- 6 and a glass rod, to which the specimen 12 is attached. At the lower end. the glass rod is kept in position by the quartz filament 18 (10 IL *n diameter). The latter :-'ilament is kept taut by the phosphor JL Card 1/3  S/12o/60/000/005/041/051 E032/E314 Torsional Magnetic Balance with DC Compensation of the Displacement of the Specimen ~ bronze spring 13 . The compensating and calibrating currents are supplied to the coils 2by special leads in the form of silver foils (25 x 0.5 mm ). The phosphor bronze filament serves as a comm6n current lead for the two coils. The suspended system can be assembled and adjusted outside the glass container tube 4 . The plane mirror carried by the aluminium frame is illuminated through a rectangular alit so that in the absence of a couple acting on the specimen, one-half of the reflected image falls on one cell and the other on another call, the two cells being connected to a DC amplifier, as shown in Fig. 2. The magnetic field applied to the specimen 12 is produced by the external electro- magnet 15 , while the calibrating and compensating coils are in the field of the permanent magnet 10 Card 2/3    IjP(. Y PC-4/Pi--4 C 552-65 Wj)/EBG(t)/T RK Accmiox ~rzt AP5=762- 0.044n:, UV/01 A AG-8 Li TIT)Zt 4ectroa P!~~etiq reson uter- im uupercodle4 solution& of 7e(j_rC)j RU(III), and 04 (111 r SOURCE t rizilm tverdogor, teus Ve I hp 1965 M.'.-M5 not TOPIC TAGSt supercooled solution~.A temperature glass. electron par"rnetie_. #--spin-lattlee-relaxation, AB5TRACTt The elvetrou parNzagnett resonance...kekhod, was- used, to. investli emperat nit t ure _&jae_q containing cArtahe Iral cSc Nith strong covalent bonds i _21exesr equene es 200 and at& _' Is30416-51d;'t, The aeasurements vere-nads a-6 e2 ,e 32G Mao at 4.2 1. The nolverft were glycerine ror tb!! fismi. cy&aidfz wid weak bydrochloric acid ror the ruthenium and osmium double cWoride.f- At 300 Mcn, narrow azymmetric In I [nee were observedt with a speectroscop'x apilt- ting factor close to 2. , The g-fa4t)r values: vere 2.3 t 0.11 2.0 1 G.Ij and 1.18 f 0.1 for Fe(III)j Ru(TIX)j and Oc( [171), respectively. At 9320 lies, no n. 7R lin-!s could be obserred in the investigatid glasses. It is deduced from the weetaureritnts Card 1/2   GOLENISHCHEV-KUTUZOV,- V.A.; MARAKHASHIYAB, E.G. Nonresonance pnramagnotle sonnd absorption due to spin-lattice relaxation. Fiz. tver tela 5 no.9:2725-2726 S 163o (MIRA 16:10) 1. Fiziko-teklinicheskiy institut Kazanskogo filiala AN SSSR.  MIARAMASH IYAN, G. . ~q w Development of the ecenemy of this German Democratic Republic In the 11 econd five-year plan. Vop.ekon.no.7:132-i4o j1 56. (KLRA 9:9) (Germany, last--3conovic conditions)  "h kand.akon.nauk: MAKAIOV, T.. red.; MDSKVINA, R.. tekhn.rad. (wages under capitalism] Zarabotnaia plata pri kapitalisse, Moskva, Izd-vo sotstallno-okon. lit-ry. 1958. 103 P. (MM 1212) (wag-go)  MIROSHNICHENKO, Viktor Savrich, kand. ekon. nauk; nauchiVy red.; MAMMA, I.I., red.; NAZAPOVA, A.S., tekhn. red. (Toward new goals; a new stage in the development of the uorld- wide socialist syslem) Na novykh rubezhakh; novyi etap razvitiia mirovoi BotsialisMeheskoi sistemy. Moskva, Izd-vo "Znanie," 1962. 29 p. (Novae v zhizni, nauke, tekhnike. III Seriia. Ekonomikca) no*B) (IMU 15.5) (Communist countries-Economic conditions)  BORISOV, Ye.F., dots.; BREGELI, E.Ya., prof.; BUKH, Ye.M.j, d(ts.; VASHENTSEVA, V.M., dots.; GOLEVA, Yu.P., kand. ekon. nauk; GOLEVAJ. A.P., kand. ekon. nauk; DEMOCHKIN, G.V., dots.; DONABEDOV, G.T., kand. skon. nauk; YERMOLOVICH, I.I.., dots., KALYUZHM, V.M., dots.; KORNEYEVA, K.G., dots.; KU21ETSOVA, A.S., prof.; 1-11HOSHNICHOKO, V.S.0 dots.; MYASNIKOV, I.Ta.) Icand. ekon. nauk; PIEIN, A.S., dots.; SIDOROV, V.A.; SURIOV, A.D., dots.; SOLOVIYEVA, K.F., dots.; SOROKINA, I.F., dots.; TARUNIN, A.F.., kand. ekon. nauk; ~114WHASHIYAN, G.M., prof.; MENDELISON, A.S., red.; SHVEYTSER, Ye.K., red.; ROTOVA, R.S.0 red.; GARINA, T.D., iekhn. red. [Economics of sociali.eml Foliticheakaia ekonomiia sotsializ- ma. Moskva, Gos.izd.,vo "Vysshaia shkola," 1963. 476 p. (MIRA 17:2)  ZWTELISKAYJ.v KHkR&KHASHIYAN, clinical aepects and txeatment of influenza B during a winter outbreak. Sovomed, 24 no.1100-96 N 160. (MIRL 3413) 1, Iz, kliniki i Uboratorii AMN SSSR (dir. viruanykb sabolovaniy (zav. - prof. N.V.Sergeyev) grippa, kamv. - prof. V.M.Zhdanov) Institutalrirusologii - prof. P.H.Kosyakov). (INF LUENU)  EPSHTEYVq P.G.1 SOROKINAt UJU.; KW7,EVAj L.D.; ALEKSEYEVA9 A*Ae; SLEPUSHKINp A.N.; 'KHMMSHIYU9, X.T.; ORWUj- N-N- Clinical course of type C influenza in ado2ts. Zhur. mikrobiol. epid. i immin. 31 no. 1C:71-76 0 160. (MM 13tl2) 1, Iz kliniki Instituts, virusologii AM SSSR na Baze 2-y klinichaskoy infektsionnoy bollnitsy, (INFLUENZA)  KITz;LADZL, Ye S - EPSHUYN, F.C.; ALENSEYEVA, A.A.- SOROKINA, ye.yu.- KNEARE' L.D.- LOZMIPA, A.N.; 7AKSTEL'Sklyt" L.Ya.;.KJWi9&Ab1PYA11' Clinical and virologicel-study of influenza during the 1959 wi.Ater outbreak. Vop. virus. 6 no.516294-0 161. WliiA if.. 1) 1. Institut virusologii imeni D.I.Ivanovskogo Aldl SSSRP Moskva. (INFLUENZA)  KHARAXHNIN,A. Use of the P-332 magnetic starter in charging storage batteries. Muk.-alev.prom. 21 no.4:18 Ap '55. (MLRA 8:7) 1. Aohkhabadskaya mellnites, no.8. (Storage batteries)  KHARAKHNIN,.-A.Y-- - Work practice with electrostatic precipitators of the C-180 type. Koko i khim. no.4:52 '60. %'MIU 13:6) 1. Cherepovotskiy metallurgicheskiy zavod. (Cherepovets--Coke industry--Bquipment and supplies)  k 71 1 j ~, ~ , I - - - I I . . 4 , , ." , , , . - r - , - . . I I ~ I - . I . .11..t ': : , a L!, . . y = jz- R - ; 1 TI 7- c , -.- - - 7 - -- - - . . . - - . I , 7 -. ~- 11  , p t ~- v I I j   W-Y _r 7 R Nf h k 6na. V(s. kQ3, Mad. Nduk S.S.S.R. 93 IrR~-2744 ~ pwi. CrMS of anisnals (cattle, dogs) seenles a dt:pressor sub~- staqttw which whenipjected intravenou;l), inzoggbbitsDrdoa fr~ads to a-d-ecrt-nil~ hlood-~iev-,~ri (17 ffirn. systolic and 38 In dia.%tolic) which lasts for 0.&,3.0 hr3. I Typical blood presuire' charts are shown. Chemical Abst. Vol. 48 No. 9 Play 10, 1954 Biological Chemistry 4V  KHkUKHINOV, M.K. Dynamics of air ponution in Moscow from 1948 to 195P. Uch. zap. Mosk. rinuch.-iosl. inst. san. i gig. no.6s36-40 '60. (MIRA 14:11) (MOSCOW-AIH--POLLUTION)  'P. k - C, rffARAKHOlMHZV,,.T,.P., gornyy inshener. - 2w% ". ___ 16SYK- Concrete filling in a chamber and pillar mining eystem: fron "Mining Sagineeringo July 1955. Gor.shur. no.6:60-61 Je '56. (HLRL 9:8) (Finland--Mining engineering)  XIZA'-tAK'rlO-NYGtr67, V.P., ?,-orn7y inzhener. --- --i6))IrM?T,Tloc:cs in room and Dillar nining by c,,)ncrete pillara. Gor.zhmr. nn.6-17-21 Je '57. ('~LqA 10: 8) I.Unlpramad'. enginepring) (Golmmns, Concrete)  - - 'i" - ' Pis V.P., gorr.inzzli. - .A..A.IC .01"IMIL L.~ Ore drairing without c,,-.tltna stops. Gor.zliiu-. -o.",:,'zj-1,2 Je ll~c,. OVIIA 14:2) 1. Unipromod', Svardlavsk. (Ianin~ cn~:inocrinl,)  17 10 10-1911 U13 145 r .3 A L L 1 0 1 4 1 a A 1 4 4A 14 U4j k s I C Irf oil NtAt%trvat 009 - Breakdows In comptemu Same& :~ rt ul '00 . . .. so 8 F-Khatakhmin. j Its)'. PAV,. (U. .1; 8- R.) 1 i j~ 0, -00 wn potential% weir deod. ffr a t O(IWU).-Jirrsk Ift so I and Ile at pirsiures up to WO ka./sq. cell. in near ir ly .00 hoonflentrous Vier. fields. With Increasing Pre"u te Ste -E be kmizatkm which precedes thedischarge weaken&. an n of kme from the diwharge space dii-res" si diff 1h d . o e u so J As the rt-wit of superposition of these two rift-cls th e dielec. strength of a gu ImTeases more slowly than th For air this mss. and the rum us a max resssive e is roo . . p fK) kq./sq. cm. For He, the max. shifts fr4mil 11N t 0 o 0 kg./sq. em. when the electrode disianer increts 6 mm. The dirler. strength of lie is of 10 to 1 from 0 m a too so . . smaller order of magnitude than that of air. At ctrus t. goo of izi density of gas, the dielec. const. decreases sixiiificarstl with derrmsing temp. Roksalana Gaimm y goo coo 001 lues es I . 1 .00 ooj 7 notO . ties too so At. S L A 411ALLUKKAt LMINAT"I CLMIFICATIC11 sili a -LIT, 00 43 1xv it it tt it of I I rv WO A 1 114 4, 1 0 it 0 1 Is 91 1 a 4 1 1 ILI J44 ~ 0 0 0 0 9 0 0 0 0 0 0 0 a 0 4 0 0 Ste 0 0 0 0 0 4 0 0 9 * 4 0 0 0 0 0 0 w 0 09000 0 9 S, 0 0 0 4 * 6 0 40 0 0 010 0 0 so s o so*@ aiests sees!  w w w 0 0 0 0 0 0 0 0 o 0 0 40 11 1414 fs Ait, C-A-A-1 --- A-A-.A-.JL.IL-&-x. :0 00 Oo'M 00 a a! Oda .3 *so - IL"Itt M44 4 0 0 0 41 0 0 0 a 4o, a i 0 a!# 16- -M-v- 00 00 .00 .049 .04 Ph&* "Ww" IQ "Whims d uquwkd gme. F. F. ' - & t U PA U "I Kharathotin. 1 I sC4. . & I ) to I YS. ( bet- et the kuki &;;I ti~ "Por -TSW tog ([W) . . in the system N-He was studied by the circulation uwthtml at p4ramse up to 2M 2W Ims. Vic turv" for equil. ' win obtaloW for Ittups. 61, 77,3,901 107 111 S K , d b b Q & ta les TIw results are repoest to l C Roksakm Cmu-w e0 Joe lose* a 6 06 A, A mgl&"N"K&t LITINAMI CLAIMCA14010 M"T too Isom 110.0. 11:06 b U 4 AV a As AN A S a Rd 0 a 9 1IF a0 a a 3 0 9 PEN 0 0 * 0 0 *1* 00 : i o 0 a 0 0 0000001000 0 0400000 04 44 as  #To 6 0 111 6 b 6 41 6 v 0 9 0 0 00 0 3"s Ole 0 * 0 * e 0 0 0 0 0 0 A It 11 -1 -1 a ;I 1 12 1) N A N " 20 R K 11 V 11 )d T V V W 4; L f It J L k. A 0 F to 6 IF in gas "Olpma it Ity 'if w q flill"I 11 - Ir dialtrallis mrle (,.f Ile ,.11,41Y 1111411, .1111141ir ill tile fallp. 4.1 :1 0 A NO" It t- 1141k Ill dhIr 1,. 4$$.l %.I-~ I., - I , , p I I- II-VIM-11 '141.44MI111-41"I Ill.- I gfdni% weir ctill,11 114 jell It., 41 .11. Ill. pf"".- 1.'- .01.1 Ito ;.jief Lee 00 - 100 00 ~11111 0 -90 see Joe Log ti .'00 be* An I 1 0 '~d 0 61 w) 3 1 it 0'0 go 0 0 9 0 0 0 Ce 0 e 0  a a 0 0 0 0 4) 0 a 0 a 0 0 0 0 0 0 0 Op 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 A a C a to 4 of a L & a 9 06 a 6 T go -1 n lot -Opp ks"ta Mis 096 ~040p: C.%.;ks lox -00600 16 0 0 0 0 0 39 31 11,0 1 N ! I r of 19 4 A 6 0 -So f a cm AV a vs c I & 0 L- a a , . W5 430 41" 016110% 1 f. bloc-ups "fao~is Sao MATISSUI IV300111139 T I 1 0 s v rw *-X -H -0 F?mw -pr 'eq. * 00 00^ Mv so* Room a a 111 2 a a IN C, 00 C. 00 00 00 -r TT"11, I  Name: KHARAKHORINO F. F. Dissertation: Liquid-vapor equilibrium in the eyotems nitrogen-belium, methane-helium, and ethane-etbylene Degree: Cand Tech Sci 1"Min Petroleum Industry USSR., All-Union Petroleum and Gas Sci Reo Inat Place: 1 956, Moscow Source: Knizhmya Ietopis', No 52, 1956 ALITSHULER, O.Y.; )MRAKHORIII- F-F- Study of selenium regeneration from alkaline solutions. Zhur. prikl. khim. v.'31 no.5:800-801 My 158. WRA 11:6) (Selenium)  110(5) AUTHOR: TITLEs PERIODICALs SOV/170-59-5-6/18 Kharakhorin. F.F. Equilibrium Between Liquid and Vapor in a,_Hej~um-Methane System (Ravnovesiye zhidkost'-par v sisteme geliy-me'tan) Inzhenerno-fizicheakiy zhurnal, 1959, Nr ~,* pp-"55-59 (USSR) ABSTRACTs The paper contains description of an improved experimental method for determination of phase equilibria in the helium-methane . system under low temperatures and pressures up to 170 atm. The circulation method of investigation applied by -the author was- already described by h4m in a previous paper Z Ref 12. The equilibrium between li -juid and vapor was studied at temperatures of 91-1; 111-51 137-0 and 150#30K9 and pressures from 5"t0 170 atm. The analysis of the gas composition was performed by measuring the heat conductivity of gaseous mixtures. The results of measurements are presented in Table 1. They show that the lower the temperature, the higher is helium concentration in the gasoous mixture under any pressure. At pressures exceeding 30 or 35 atm the solubility of helium in methane is increasing Card 1/2 with the raise of pressure and temperature. At lower pressurest SOV/110-5-9-5-88/18 Equilibrium Between Liquid and Vapor in a Helium-Methane System however, the isobar of the liquid phase passes through a maximum. Figure 2 pictures isobars for 12-atm pressure and other pressures. The existence of maximum solubility should be taken into consider- ation in chosing optimum conditions for helium separation. It was found that the properties of the helium-mGthane system are qualitatively analogous to the properties of the nitrogen-helium system. The solubility of helium in liquid nitrogeng howeverr is 7 to 8 times as high as its solubility in liquid methane. The author thanks Professor I.R. Krichevskiy for a number of valuable advices. gramp 2 tables and 10 referencest 5 of There are 2 graphso 1 dia which are SOvistt 1 Amerioang 1 English, 1 Germanp I French and 1 Dutch. Card 2/2  05258 ION SOV/170-59-8-9/18 AUTHOR: Kharakhorin, F.F. TITLE: The Liquid-Vapor Equilibrium in the Ethane-Ethylene System PERIODICAL: Inzhenemo-fiziaheakiy zhurnal, 1959, Nr 8, PP 72 - 77 (USSR) ABSTRACT; The paper contains data of the thermodynamical working out of experimental data obtained in the course of investigations into the liquid-vapor equili- brium of the ethane-ethylene system. These experimental data, described In reference 1, embrace the range of temperatures from 169.3 to 273.i6OK, the range of pressures from 0.4 to 40.6 atm, and the rar4;e of concentrations from 100% ethylene to 100% ethane. The volatility of pure ethylene was calculated by the graphical integration of Equation 2 and the values ob- tained were compiled in Table 1. The VC'Atility of ethylene in its double solution with ethane was calculated by Formula 1, making use of the values found frotii Table 1 and experimental data on the composition of the gaseous pha,-se Aef 17. The results are presented in Figure 1, which shows that the solution of ethylene in liquid ethane is ideal throughout the whole range of concentrations within the range of temperatures investigated. The Card 1/2 author concludes on the basis of the Gibbs-Dugueme equation, that ethane 05298 The Liquid-Vapor Equilibrium in the Ethane-Ethylene System SOV/170-59-8-9/18 solution in liquid ethylene also obeys the law of Ideal solution for all concentrations. On the basis of this conclusion, the author calculates the values of evaporation heat of ethylene and ethane from their double solutions and presents the results in Table 3 and 4 respectively. There are,, 3 graphs, 4 tables and 8 references, 3 of which are Soviet, 2 American, 2 English and 1 German. Card 2/2  106) AUTHOR; Kharakhorin, F.F. 06562 SOV/170-59-9-3/18 TITLE: Liquid-Vapor Equilibrium in Nitrogen-lielium and Helium-14ethane Systems PERIODICAL: Inzhenemo-fizicheskiy zhurnal, 1959, Nr 9, pp 24-29 (USSR) ABSTRACT: In this paper the author performed thermodynamical treatment of experi- mental data, obtained previously, on equilibrium in the nitrogen-helium and helium-methane systems. He calculated the volatility of pure helium at temperatures from 60 to 1600K and at pressures from 25 to 300 atin by Formula 4, derived from the Bitti-Bridgman equation in virial fo=, and the results are presented in Table 1. Then the volatility of helium in the gaseous phase in the mixtures with nitrogen and methane was de- termined by Formula 2, and the data obtained were used for plotting the graphs of the both systems helium-liquid nitrogen and helium-liquid methane, shown in Figure 1 and 2 respectively. As it is shown by examining the graphs, at pressures exceeding 40 - 45 atm the data are satisfactorily represented by straight lines, whereas at lower pressures experimental points lie below them; thus It is proven thereby that at pressures from 40 - 45 to 215 atm the solubility of helium fn liquid Card 1/2 nitrogen and methane can be calculated by the Krichevskiy-Kazarnovskiy  7 TI-IMEt df comp ounda of tile type 11% yvt.~Vl  NR- I.P4044972 WT Hall f- tTIO! C 1 A T F:),q Nor ukli HER-,  KqARAKHORIN, F.F.1 PETROV, V.M. Semiconducting proDertlea of AIBIVCVI tela 6 no.9:2867-2869. S 164. 2 3 type compounds. Fiz. tver. (MIRA 17:11)  SOURCE CCDE: UR/0386/65,/OO2/oo6 o262/o2(Y/j ALFMOR.- _Xurbatov, L. N. Khalilov, P. A. Supov, Ye. V. ; 11~.arakhorla, F. F. MIT: none TIME: The influence of auperhigh-frequency radiations on the electrical conductivit3 of P-type indium antizonide, IV 801.'RCE: Zhurnal eksperimentallnoy I teoreticheskoy fiziki. Pis'= v redak a Pr:llozheniye, v. 2, no. 6, 1965, 262-266 t iyu. TOPIC TAGS: radiation effect, electrical conductivity, indium, antimanide, field ef fect AMTRACT: The reduction of d-c electrical conductivity caused by s-aper-high frequency irradiation of a density of P = 10-6_10-7 W_Mrr2 In p-type single cirystalline indium i ant.~'monide has been investigated. The sample had a Hall carrier density of T x 1012 to 'I x 1014 cvi-3, I a HEL11 mobility of 2 x 103_1 X 104 cm2/volt-1. sec-1, and a specifl:c res::.stance of 4-100 ohm-cm in the: range of wavelengths A = 2-30 =i, at temperatures :)f '1-150K. The volt-ampere characteristic Is a straight line, the slope of which : ioe!- not depend on the current's direction. The curves of the temperature dependence's of *the response indicate that the upper limit of the effect (130-i40K) coincides ~-l -- I wit] the transition region of the, semiconductor from hole to electron conductivity. The effect is apparently neither bolometric nor photovoltaic, but may be produced by'.,, 1  7 ACC NR, AP5026403 the lirect influence of' the super-high frequency field on the conductivity of the samp:.e. Orig. art. has: 3 figureas (M) SUE IODE- SSQVSUBM DATE: 12ju165/ -ORIG IRE F 003/ OTij IGF: 002/ ATD PMqS  -- - - ~-- 1 11 ..- ! , .-- , . - - -- .c . X It - I - 11 - . .1.1 1 - Ir -, I i r - 4 , ~-  ~Uxv. we iaxe rpiq -LS n). 'ta 1 1 Or i g. a- has: 5 gure s WEV CODE! te aU7  cur . q cu,., J CIL i 1. ru~jf rjf 4t A7 ;f Fig. I. Phase diWams fif the Cu-Fe-S (Se;.Tel.systemst ------- ---- ------ Card 3/3___  13110 66 EWT (b)_-_jJpj.q) E T C F (T)AW(t -9p _)/E -ACC-RW7--A P 5 0 2 5 7 8 4 SOURCE CODE: UR/0363/65/0f1/009/l502/1S05 AUTHOR: Kharakh*rin, r. F.;.Gambarova-. D. A.; Aksenov, V. V, ~j- TITLE: Diffusion "d solubility of _go Id n lead selenije 7i 7 SOURCE: AN SSSR. Izvestiya. Heorganicbeni, ye materialy, v. 1, MI. 9, 1965, 1b02-1505 TOPIC TAGS: gold , lead compound, selenide, metal diffurion, solubility~, ABSTRACT: Gold labeled with Aulle was deposited chemically on p-type lead selenide,-azyd tne samples were subjecled tn diffusion annealing at' 860-5000C for 15 min to 20 hr. The distribution of gold was then deter-L mined by recordiT)g the gamma radiation of successively removed layers. The temperature dependence of the diffusion coefficient followed the equation D = 5.6 -2exp(0,75 )cmz/see The temperature dependence of the solubility of gold in lead selenide i was also determined, Solubility increases with temperature in the 350-j -6001C range. Above 6500C, the intermediate phnse A1J2Pb is formed. AsL 1/2 UDC: 546.917'23'L:S46.59  ACC NR, AP5025784 in germanium and silicon, gold in lead selenide has an anomalously ra- pid diffusion rat;q. for this reason and because of the relat-ively low activation energy, it is postulated that the diffusion off gold in lead selenide takes place mainly in the interstices. orig. art. has: 5 figures, 3 formulas. SUB CODE: 07/ SUBM DATE: 1SMay65/ OTH REP: 003/ OTH REP., 003, 2/2  k ~400~4-) F (b)/EWA(c) ]UP(c) RI)W/JD ACC NR. AP502570!. SOURCE CODE: UR/0363ji,-550i-J.- 6' 7 /009/150 AUTHOR: Kharakhorin, F. F.; Gambarova, D. A.; Aksenov, V. V. ORG: none TITLE: Diffusion of tin in lead splenide 7 SOURCE- AN SSSR. Izvestiya. Hearganicheskiye matarinly, v. I., no. go 1965, 1506-1507 TOPIC TAGS: metal. diffusion, tin, lead compotin(l, selenide. single crystal, electrodeposition Z ABSTRACT: Tin lateled with Sn 3+123 was electrodep_os.i-tod-on n-type lead selenide Ein stals.( Diffusion arini-aline lasting from 0.5 to _j:le cry 11 br war, carried out at 110-6800C In quartz ampoules filled with argon at 0.5 atm. Layers from 10 to 50 p thick were then removed and their radioactivity was determined. The diffusion coefficients are given by the equation exp (0t), CM2/sec (- kT Their values ranged from 5.5,10-12 to 3.4-10-10 cm2/5(!c in the teml-.)era- UDC: 5461.9171231:546-fill-121 1-/ 2  ACC NRt AP5025785 ture range studied. rt is postulated that the diffusion takes place In lead vacancies. Orig. art. has: 2 figures, 1 formula. W3 CODE; 07/ SUBM DATEI l5May65/ ORIG REF: 002/ OTH REF: 000 2/2  KHARAKHORIN) F.F., a)YAhJarsr'.'v, P.K.j PETROV, V.M, Alloys of the composition Cdo $C)511go ,To, Izv. AN SSSR, Noorg. mat. 1 nool212l67-2169 D 165's RA MIZ;' (Mi 1. SubnAtted Ju4- 6, 1965.  aft)hlliiT Ob 1 __:_ -1 J JW FACC AR, A 842 SOUnCR COM un/olVJ7657c;~T7/6i,5/ 11EV~Qi AUTHORS: KbarakbQr.*In. F. F.; Gambarova. D. A.; N-senay, ORG: None TITLE: Diffusion and solubility of _2~ei: In lead selenide ~r") - 4. SOUPOE: Fizika tverdogo tela, v. 7, no. 12, 1965,_A481-348L TOPVI TAGS: physical diffusion, copperlead compound, single crystal, sele-nide, semiconductor conductivity, Ao"-.Cilt ABSTRACT: This is part of a systematic investigation of diffusion and the solubility of impurities In chalcogenides of lead. The article reports the results of the behavior of copper in single -crystal lead. selenide at temperatures 93 -520C.- -The-teats were made* on lead - selenide previously synthesized by the Bridgman-StocKbarger method In quartz ampoules of i3pecial shape. The single crystals were grown 11. -- 15 Inn in diameter and up to 60 mm long. The crystals were cut perpen- dicular to the generatrix into discs 1 -- 2 mm thick. The measured samples were of the n-type conductivity with specific resistivity'V4. x 10-3 ohni-cm and carrier density -.4 x 10 18 CM-3. The diffusion coeffl-  1, 127111-66 ACC Ai AP500084-2 644 cients were determined with the aid or radioactive by z9veceoslye removal of layers. The results show that at 93 -- 520C the diffusion obeys the equation B = 2 x 10-5 exp (- 0.31/kT) cm, 2/seo, and apparently occurs in the interatices. The solubility has a retrograde cbUracter with a maximum value of 9 x 10 18 at/cm3 at ~800C. The'interstitial character of the diffusion is deduced from the large diffusion rate, the low activation energy (0-31 ev), 0r1g. art. bae; 3 figures and 1 formula. SUB CODE: 20/ SUBM DATE: OlApr65/ 019IG REF: 0061 OTH PEF: 011 FW  SCRASTLIVTY, V.P.; KHARAKHORINO F.F. Properties of ternary chalcogenide compounds of the AIB VIII X2 VI-type after centrifugation. Zhur. prikl. khim. 38 no.3%515-520 Mr 165. (MIRA 18:11) 1. Submitted October 5, 1962.  ~91-1 rl. WFPXM~ A -jP!ZP(F)/EW W/T/EWPW/EWP(b)/S.WA(c) (A) L. 115j.k-6 ACC NR AF6-001234 SOURCE CODE: Ult/0363/65/001/012/2167/21651 RDW/JD -13. AUTHOR: Kharakhorin,, F. Boyarintsev. P-e- t Lai -M. ORG: none TITLE: Study of alloys of the Cd,,, fig,, stem 0 5 Te sy. SOURCE: AN SSSR. Izirestiya, -A0;g~n?ches1Jye materialy, ljp(c*, v. 1, no. 12, 1965, 21.67-2169 TOPIC TAGS: cadmitun alloy, mercury alloy, tellurium alloy, semiconductor alloy, electric con(luction, photoconductivity, photo enif, pbotomagnette effect in~leter.-o0zil grovAh, absorption coefficient, temperaturn (leptwience, spectral Ain3tribi lort ABSTRACT: Polycrysta.111ne Ingots of the alloy Cdo c6lig, c Te were syntlesized from cadmium tcHuridq and mercury telluride and used i6 gro;~'single crystalA by Bridgman's method. The temperature dependence of t1lo electrical conductivity and. Hall civfficient were I determined. All the samples had -n-type conductivityat room temperature; at liquid nitro- I gen teniperature, most displayed p-tyffh conductivity.but We pureat. one3 had n-type condup'- tivity and-nacceptor concentration of 10 cm--30 The spectrid distribution of We absorption coefficient was measured on polished samples 0. 1 - 0.2 inni thick. I'lic dependeam- of this coefficient on the photon energy In the 0. 13 - 0. 16 eV range permitted the calculiLtion of the "optic" energy gap, which amount9d to about 0. 07 eV at room temperature. The photocon ductivity, photo-emf, asid photomagnetic effect were also measured on some samples at r4~m L and liquid nitrogen temperatures. A change In the cooling conditions (immersion in water) I 1/2 UDC: 546.3-19'48149'4:3  ACC NRi AP6001234 showed that the photother-momagnetic effect prevails at room temperature. At 77K, the rotto of electron to hole mobility for a series of p-VW samples to about 80 ~ and the carrier life- time calculated from data on the photomagnetic effect Is less than 1030 sec. Authorn thank D. 1. Arnolld for his participation In the measurements. Orig. art. has: 3 figures. SUB ("ODE: 11, 20 SUBM DATE: HMO / ORIG REF: 001 / OTH REF: 004  L 18063-66 .F-rl (1 )/W (M)"ITAWP(t) ljpw JD ACC NR: AP6003361 SOURCE CODE: UR/03631'66/(102/0011003210036 AUTHOR: Kharakhorin, F.; Poluboy4rinova, H. F.; Vinogrado, V. G. _& zi9 ORG: noni--- TITLE: Effect of certain factors on the process of change of' the cond,ictivity sign during thgrmal tr atmentof n-InSb SOURCE: AN SSSR. Izveatiya. Neorganicheskiye materialy, v~ 2, no. 1, .1966, 32-36 TOPIC TAGS: electric conductivity, indium compound, antimon1de, metal diffusion ABSTRACT: The study was made in order to determine the effect o1 therA31 tLeatment under various conditions on the properties of n-type indium antimonide. Under suitable conditiork!~ of treatment (temperature, annealing tinie) In quar:z ampoules (in a vacuum, in hi~llum, kry ton, anti antimony vapor), the ii-InSb samplas wiLli carrier concentrati.ons of 10~3_1014 cm-3 change their conductivi-y to h:)le conduc- tivity over their i~ntire volume while keeping approximately the !3afile carrier con- centration. The complex process of n-p transformation of InSb." LhoughL to be due' to the simultaneoua and probably mutual influence of three factors, of which the Card 1/2 UDC: 546.682'861-162:!53?.311.33.  L 18063-M ACC NR: AP6003361 predominant one is the migration of rapidly diffusing acceptor Impuritlea over the surface and volume, the two others being the exodiffusion of antlaony gfvlng rise to acceptor levels In the sample, and the erodiffusion of IndlLum. From the rate of displacement of the front of sign change, the limits of tha diffustart coeffi- cients of acceptor impurities were found to be 2.5--7.0 x 105. On the t,asts of these values, it to concluded that copper ~s the main impurity responsil-le ior the process of conductivity sign inversion in indLum antimonide. Orig. art. has: 3 figures and 2 tables. SUB CODE. 11,20 1)UBH DATE: 26Jun65 ORIG REP: 007 OTR REP: 004 'Card 2/2 L  W-T "mwG(fl1)jj;.1P(t)Lh-rP -I,. 17t- Ab ijp~PL IM/ XrC NRt AP6oO724T SOURCE CODE: IM/03()3/6(~.1002/00.-/r);-'h5/Oi48 MTHOR: Kharakhorin, ?. F.; Glukhov, A. A.; Kuzneteova, Ye. S.; Potapov, V. 1. ORG: none TITLE: Some propertien of tellurium doped indium and gallbun arsenides 0) 17 SOURCE: All SSSR. Izvestiya. Neorganicheskiye~materialyl'~V. 2, no. 2, l9iS6, TOPIC TAGS: semiconduu-ting material, gallium arsenide, indium compound, indium arsenide, single crysti~a, electric property, activated crystal, tellurium activator ABSTRACT: Electron carrier concentration in relation to Te dopant content in the charge and Hall mobility of electrons in relation to the carrier concentrVon have been studied in indium arsenide and gallium arsenide single crystals/1!-rown by the Czochralski-Gremme.'.mayer technique and, in the case or -GaAs, Uy-Fr'ientud crystal- lization. This latter technique was used to exclude interference of Si acceptor impurity (from the qua.rtz container) with electrical characteristics of GaAs. In the Czoclxalski proces,,.;, 99.999% Te was introduced directly into the melt. Hall coefficient and resistivity were measured at 300K. In both indium and gallium areenides, carrier conoentration increased w1h the- increase in Te content of the charge up to a certain value 1:11saturation" point), then leveled off. 11cwever, the "satura- tion" point was reached with ten times higher Te content' in InAs than in GIIAS. tqor~ 1/2 UDC: 546.682'191+546.681'191+546.:?4  J~_17407-66 ACC'NR9 AP6007247 Consequently, the limit (maximum) carrier concentration was about art order of magnitude higher in InAtathan in GaAs (f%,2 x 1019 versus 3.1 x 1018at/cc). These I data were in satisfactory agreement with the literature. Presumqbly, the "satura- i tion" in carrier concentration was reached at a point when Te atoms form clectricall~l inactive Te-Te bonds. The Will mobility in both arsenides studied displayed a i similar pattern of gredual. decrease with increased concentration. A wide dispersion! of mobility data at a given carrier concentration for GaAs crystals prepared by Czochralski technique and by oriented crystallization was explained by the com- pensating effect of the uncontrollable acceptor impurity. Orig. art. has: 5 fig%- ures. [JKj SUB CODE: 4;W MM VATE: l2jul65/ ORIG REF: 0021 OTH REP: 0071 ATI) PRESM Pore metal"q  XUT~BAT%O, 1-1 K~;A'JIAV, Pa.; (-4 oll t-typf) i.ridium mll.imonld.). llisl. v n~,.I. U.-ijr.eksper. i tcor.fiz. 2 no.6126-2- 266 S 165. (MIRA 18: a2 T. Submitted July 12, 1965.  KHARAKHORD1, F.F.: GAMBAROVAp D.A.; AXSENOV, V.V. Copper diffusion and solubility in lead selenide. Fiz. tver. tela 7 no. 1223481-3484 D 165 (MIRA 19:1)  --r TP E1ViT(-,r`,j'F Pit) A~X NRj AP601131 AlITHOR-. Kharakht,rin F F.; Kuzratgova, ye, S. p(jtflpt~v,, V. 1'..; GAkhov, -.A 0 KG: none A TITLE: Relation between mobility and concentration of carriiers in irdlum nracnide !?O~(~URCE: AN SSSR. Izvestiya. Neorganicheskiye naterialy, v. 2. no, 3, 5 1966, 461-463 TOPIC TAGS: indil.tm compound, arsenide, indiuri araenide, semi.conductor slagle crystal, electron mobility, carrier concentration i AFMAM Varlat"onp of Hall mobility at dtffe-rent car;~ier (electron) cc ~cexitrationa (n - ND 4- ZIA) in the 4-101-10"/ce range have been ut idicd at 300K tu indium arsenide, at; one of tho i;io3t promising AT CIDV compoundf;. The theoretical plot of mobility -ver.-u-B n wal ac,ilatcd using che r-ronkn formula for (11A I- f)) I.ItILI qpcn,,inted rat-Villn -WhIC11 'Cover concentratlon ~r ~1-cd and weO-rly. dcgen~,.rated ntat~?s, regpactkrety. C'urpart!;0a van .ii le. of the calculated data with the experimctital alata fro'n literature an with the authors' own (Intd. The latter were obtaLued with single 1/2 UM 546.6821191037.311.33 b  ............. A( NR. AP6011311 c, i ystals grown either by oriented crystalltzation or by GzachraLski- Gi 5mmelmayer techitique. Most of the data for the samples grown b Y 0 3 firgt techniqlie (n - 3-1016-8-1016/cc and mobility - 29,100-22,000 CU Z/vlacc) were iit agreement with the calculated data. Data obtained wi ~h the samples I;rown by Czachralski technique (n - 5-101-1017/cc an i mobility - 24,300-20,000 cm2/v/sec) were somewhat lower and the li:erature data wure coneLderabLy lower than theoreticaL. The di icrepancy betwe(n thecretical and some of the experimental data was at:ributed to a veriable degree of compensation by impurities. Orig. ar:. heat 2 ftguies and 3 formulas. [JKII SUi CODE: 20/ SLHH DATE: 12JtL!65/ OTH REFt 0081 ATD PREss:qj.-z~- C,,d 2 Z 2  L 32043-66 E7,,,r(m)/5IP(t)/ETi IJP(c) JD ACC' XR: AP6013335 SOURCE CODE: UR/0363/66/002/004/0582/0584 AUTHOR: lCiaralchorin, F.F.; Kuznetsova, Ye. S.; Glukhov, A.A.; Potapov, V.I. 9. ORG: none TITLE: Purification' of arsenic by sublimation SOU'ROE: AN SSSR. luestiya. Neorganichaskiye niaterialy, v. 2, no. 4, 1966, 582-584 TOPIC TAGS: arsenic, jublimation, metal purification ABSTRACT: A process and the corresponding equipment have been developed for purifying arsenic by sublimation. Usually, one or twosubliniations are performed, Impurities of low vapor pressure such as copper, Iron, and aluminum being thus removed. More sublimations are required to remove impurities having a substantial vapor pressure (zinc, cadmium, sulfur, selenium, tellurium). The process avoids contamination of the arsenic by eliminating its transfer from one ampoule to another. Radioactivation analysis has shown that after -j-5 sublimations, for a threefold decrease in the total impurity content, the amount of sulfur deex eased by a factor of 6 - 10. Arsenic obtained after five sub- limations was uset. to synthesize indium. arsenide with a carrier concentration of .1 x 10160,11-3 .11-,d a mobility of 29, 000 cm2/V see at 300K, whlc~ also indicates that the Card 1/2 UDC: 546.19  L 32043-66 ACC N'R: AP6013335 0 , total impurity content decreased by a factor of about 3. Orig. art. has: 4 fig. and I table. SUB CODE: 11 / SFj-B-,%I DATE: 14May65 / ORIG REF: 001 / OTH REF.- 002 Card 2/2 "-~ . - ~ I--- I ~ - . i . I - .. - - - - I  m L~WP I IJF (c) IWWIJ D ACC NR: AP6013355 (N) SOURCE CODE. UR/0363/66/002/004/0772/077,1 ILUTHOR: Annamamedov, R.; Berger L. I ; Petrov, V, M.; KharaUorln, F. F. I ~ ORG-. 1n;3tituto of Chemical Reagents and lilgh-Purt Substances, M scow (~nstttot', klilmidi-eTki di reaktivov I osobo clifstykh veshchesM TITLE: Optical and photoelectric properties of the ternary semiconducting compounds Cu3&-tSc4 and Cu.,SbSe, - -4- -1 -I % iOUI&-."V~N SSSO Izvestlya. Neorganicheaklyc materialy, v. 2, no. 4, 1966, 772-774 1 TOPIC TAGS: copper compound, arsenic compound, selenium compound, antimony corlpound, semiconductor crystal, photoconductivity, forbidden zone width ABSTRAG M Continuing their systematic investigations of ternary semiconducting compounds of diamolAlike structure, the authors undertook a study of the spectral distribution of diffuse reflectim; and photoconductivity of the compounds Cu AsSe and Cu SbSe , polycrystalline samples 5eing used, The apparatus for measuring t9e diAlbution1f diguse reflection ,u)d the spectral distribution of the photoconductivity Is described. The shape of the curves of cafflise reflectior. show that the compounds studied are semiconductors. At rooin temperabire, the forbidden gap width determined from the start of the linear segment is 0. 88 eV for Cu32'5SC4 and 0.31 3V for Cu3SbSe4- Only the latter compound displayed photoconductivity; its forbiddea gap width at 77K Is about 0 65 eVj as determined from the spectral characteristic of the photo- ,Ity. Tho results indicate that the replacement of the relatively light arsenic atoms by, UDC 537.311.":13 ACC NR: AP6013355 heavier ttoms (antimony) in the lattice of an A3 'BVC4Vk-tyPe compotuld lead3 to a decreaBe of the forb *I Iden gap width. The authors are sincerely grateful to N. A. Gorimova for Interest in tills w)rk and to L. A. Zheleznaya and S. N. Mikhalova for participating In the experiments.! Orig. ar;. has, 4 f1mwes. SUB COT I] 2/2  ~-66 EiT(m)/T/'rWP(t) UP(C-) JD~ r-'XCC NRI AIP60114Z2 SOME CODE: UP/0070/66/OW002/03WO55~4- AUTIM Bovinat Lo Aoi Vinogradova, Vo Go; Pq14bqy&rA!t~mtqL_4 ; I " Ye. A. Khaiskhorin, F. F. ORG.. none TITIE: Sectorial strw,,ture of sipgle crystals of indiual antimcnide dqped'vLth- Re :anium SOUICE: KristaUogr&V,ya,, v. Up no. 2j, 1966., 352-354 TOP',C TAGS: indiurm cotqxrmd,, antimonide., electric conductivityp thermil emfj, crystal stricukep single cryattil, semiconductor conductivity, crystal grcuth ABS'IRACT: The authors investigated the transverse inhomogeneity in the conductivity in iingle crystals of :Imdium antimonide doped with germanium to an excess-acceptor d ;I ity 1;DI2--l()2.4 cprfle en. The crystals were grown by the Czoehralski mathod in the 11U] and (21111 directions at an Inert gas pressure of 600 am 11g. The conductivity inhcmogeneity wao detetuined from the sign of the thermal emf measured at Uquid- nit,:ogen temperature. Most crystals grown in the (111) direction had n-type regions in i:he center and most frequentty in the uppermost section of the crystal. With inci:easing crystal lenethp the entire section assumes a p-type conductivity and onLy a nerrow ring of n-tyj* (0.1--0.2 mm) appears on the edges of the plates cut from the Motel. In the ('11) direction only peripheral n-type regions are produced. The results are attribited to the banding of the crystallization front and to varia- LCa d 3/2 1XI'll M  L 2671-2-66 ACC M AP6011-482 tion or the ratio of tho effective donors through the volume of the ci.1-stal. It Is therifore concluded thw!, the inhomogenelties in the conductivity type In the trang- verw direction of weak:.$ doped single crystals are due to residue.1 doror impurities. Orig, art. has: 3 figm-es and I formula* SUB (ODE: 20/ MM ILATE.- 07jan65/ ORIG REF: 001/ OTH FZF.- 002  L 42161,66 FVP ( j ) /EW ( m) /T M/Ml /168/005/1(- ACC NRs AP6021608 SOURCE CODEt Uq0020166 )82 F108_4 AUTHOR: Terentlyev, A. P. (Corresponding member A11 SSSR); Rukhadzep Yes G.; Kharakhor V M - =X_~. F. =An ORG:- D40scow State University Im. M. V. Lomonosov (Moskovskiy gosudarstvennyy univer- sitet) TITLEt Diffuse reflection spectra of polychelates SOURCE: AN SSSR. Doklady, v. M80 no. 5, 1966, 1082-1084 TOPIC TAGS: chelate compound, light reflection coefficient ABSTRACT: Considering that polychelates (high molecular compounds containing metals) are finely disDersed colored compounds sparingly soluble in organic solvents, the au- thors chose the method of diffuse reflection sDectra to establish the oorrelation be-., tween the structure of a chelate or polycholate and its optical characteristics (re- flection coefficient).(b CODDer chelati4wererinvestigatod. ~) The spectra were taken witl the instruments SF-IOV(visible) and IKS-12'~Tith an IPO-iZlattachment (infrared)v and )i found to be nimilar for the monomer and corresDonding__ Lolnor. I Polycholatos obtainod at higher temperatures were found to have a mode regular network structure than those, obtained at lower temperatures. It is concluded that the study of diffasion reflectiot spectra constitutes a reliable method for identifying the structure of the chelates (network, linear) and determining the degree of its perfection. Authors thank 0, D. ~ UDC:  L 4216-L-66 ACC NR, AP6021608 YGS!Y,�5hv-1U for participating in the wcperimentsp and Z. V, Zvonkoy r.J -V, M. Vozzhennikov for a useful. discussion. Orig. art. has$ 3 figures and I table* SUB CODEt 07/ SUBM DATEI 24Nov65/ ORIG REF: 006/ OTH REF: 001  i. oqW-L EWT(m)/EWP(t)/ET1 IJP(a) JD' A C NN Ap6o23914 SOURCE-CODEs UR/0363/66/002/007/1200/1205 AUTHOR: Khfrakhorin, Fe Fat Aksenovq V. Vat Gambarova, D. A.; Khrustalevp B. P.; Kull bich S-Re-K-.- ORO: none TITIE., Qn the mechanism of change of the conductio'" n-InSbZP-aper presented at the All-Union Conference on in Loninryrad on 2 December 1�6h/ /7 sign during heat treatment of Diffusion in Semiconductors* hi 36teritly, v. 2, no. 7. 1966p 1200-1205 TOPIC TAGSt indium, compound, antimoni'do, semiconductor conductivity ABSTRACT: An attempt was made to identify the impurities in~' &Sb1o'n the basis of theii characteristic omissions and half-lives following heat treat~_onCof rnsb in quartz ampoulos activated by a flux of slow routrons (0.9-2.4 x 1013 n/cm2 noo) in an atomic Pilo. It was shown by the gamma-anootroscopic method that the radionctivo, impurities 14a24, Cu64 and S01 migrated from ihe neutron-activated quartz into n-InSb.. 7no,exper- imantal data indicate that the chief cause of'the change of the conduction sign.during heat treatment of n-In5b is the diffusion.of copper. It was shown that vacuum annoal-~' ing of the ampoules prior to the activ4tion decreases the activity oi! the 11-InSb sam- ples by a factor of 20 to 60. Authors thank L. A. Bovinap M. F. Poluboyarinova and V. 0. Vinogradova for their assistance. Orig, art.-I~-a-al 6 * SUB CODGI 20/ SUBM DAT31 - 270ot65/'ORIG W1 -oog/ (YrH Ruo ow ~._Co_-) ILI net MD.- M=61353Z.3* .0  KEARA IN, L. L Charles Derwin and tearist censorship. Trudy Inst.latoest.i takh- 31t82-101 160. (MIRA 1318) 1. Mazey istorit religii i ateizen Akadewlt Nank SSSRe (Censorship)  "* L. it. K-iAL I Dissertation defended fur the degree of CandidaLe of Ph-ilusophical Sciences at the Institute of Philo5ophy IlGonflict Jver the Atheistic Ideas of Darwinism in I~ussia in the -'econd Half of the =~--Aurt of the XX Centul-j.11 Vestnik Akad. Nalek, 140. 4, 1963, PP 119-145  KHARAMORKINA, K.D. - . -- 25 ---Ilygienic evaluation of meat jolly. Trudy LSGMI :118-126 '55. (MIRA 12:8) 1. Kafedra gigiyony pitantya Leningradekop sanitarno- gigiyanicheskogo meditainakogo inatituta (zav. kafedro7 - doteent %.M Agranovskiy). 'k 500D, kxe.;, ' jelly, nutritional value (Rue))  GESSEN, A.I.; XLYGA, L.P.; KULUKHOMNA- Y.D.; CHISTYAKOVA, A.K. .-.Wwwow~- Hygionto charuc tort stic a of witritiori at trade schools. Trudy LSOHI 31:129-110~ 156. (KIRA 12:8) 1. Xafedra gigiyeny pitaniya Leningradskop Banitarno- giglyanicheskogo meditainskogo inatituta kzav.kafedroy dots. Z.H.& anovskiy). FSC11OOLS' trade schools, nutrition (Rus)) (IRMITION, In trade schools (Run))  AGRANOVSKIY, Z. MO, prof.; LEBEDEVA, Ye. A.; MAYKOVA, 0. P.; laMMORKINA, K. D. Nutrition in old age as a hygienic problem and methods for its .combined study. Trudy LSGMI 67-8-17 162. (MIRA 1527) 1. Kafedra gigiyeny pitaniya a klinikoy alimentarnvkh zabole- vaniy Leningradskogo aanitarno-gigiyenichefikogo meditainskogo instituta, zav. kafedroy - prof. Z. M. Agranovskiy). (NUTRITION) (GE RIA TRICS)  MURAnORKINA K. D. Characteristics of carbohydrate metabolian in old age. Trud~r LWU 67:54-W 162. (mim 1517) 1. Kafedr9L giglyeny pitanlys, a klinikoy alimentarnykh zabols- vani3r Leningradekogo sanitamo-gigiyanicheakogo meditsinskogo inatituta (zav. kafedroy - prof. Z. M. Agranovskiy). (CARBOHrMATE METABOLISM) (GERIATRICS)  KOSHINAp Z. P.; WKOVA, 0. P.; XHARAKHORKDIA K. D. .4 . Assimilability of proteins, fats and carbohydrates in old age. Trudy LSGM1 67:105-3-13 '62. (MIRA 15:7) 1. Kafedra gigiyeny pitaniya s klinikoy alimentarnykh zabole- vaniy Leningradskago sanitamo-gigiyenicheskogo ireditainskogo instituta (zav. kafedroy - prof. Z. M. Agranovskiy). (PiOTEIN METABOLISM) (FAT METABOLISM) (CARBOHYDRATE METABOLISM) (GERIATRICS)  KOSHITIA, Z. P.; LEBEDEVA, Ye, A.; YAYKOVA, 0. P.; KHARAKHORKINA, K. D. Metabo3ism in old age with a dletary ration of products with a limited cholesterol content and plant oils partially replacing animal fats. Trudy LSGMI 67i121-148 162. (MIRA 15:7) 1. Kafedra gigiyen3r pitaniya s klinikoy alimntarnykh zabole- vaniy Laningradskogo sanitarno-gigiyenichoskogo meditsinskogo, instituta (zav. kafedroy - prof. Z. M. Agranovskiy). (CHOLESTEROL) (NUTRITION) (GERIATRICS) (METABOLISM)  KOSHINA) Z. P.; LEDEDEVA, Ye. A.; MAYKOVA, 0. P.; KHARAKHORMIA K. D. --- ---- -1 --- . - . V - -- Metabolism in old age with a dietary ration enriched by soybean phosphatides. Trudy LSGMI 67:149-174 162. (MIRA 15:7) 1. Kafe~1ra gigiyeny pitaniya e klinikoy alimentarnykh zabole- vaniy 14iningradskogo sanitarn-3-gigiyenichaskogo meditninalcogo instituta (za-r. kafedroy - prof. Z. M. Agranovskiy). (SOYBEAN AS FEEDING STUFF) (METABOLISM) (LECITHIN) (GERIATRICS)  LEBEDEVA, Ye. A.; MAYKOVA, 0. P.; KHARAKHORKINA,-1-1), Metabolism in old age with a ration containing an increxsed Trudy ISGMI 67: quantity of milk, milk Products and vegetables 175-196 162. IRA 15-.7) 1. Kafedra gigiyony pitaniya a klinikoy alimentarnykb zabole- vaniy Leningradskogo sanitarno-gigiyanichaskogo meditsinskogo, institute, (zav. kafedroy - Prof. Z. M. AgranovBkiy). (METABOLISM) (GERIATRICS) (NUTRITION)  MUJMMKINA, K. D, -, .. ..... 1----.- Oxidative procesees in the body in old age. Trudy LSGKI 67: 93-104 W. (KMA 15:7) 1. Fafedrs. gigiyany pitaniya s klinikoy alimentarnykh zabole- vaniy Leningradskogo sanitarno-gigiyanichaskogo meditsinskogo instituta (zav. kafedroy - prof. Z. M. Agranovski3r). (OXYGEN IN THE BODT) (GERIATRICS)  LEBEDEVA, Ye. A,,; HAYKM, 0. P.1 KHAh- 'RKINA, K. D. Rae ndationm for the rational organizattion of nutrition in I I I- old age. Trudy ISGMI 67-0197-201 162. (MIRA 15t7) 1. Kafedrn gigiyany pitaniya ig klinikoy alimentarnykh sabole- vaniy lawLngradskogo sanitarro-gigiyenichoskogo meditainBkogo instituta (zav. kafedroy - prof. Z. M. Agranovskiy). (NUTRITION) (GERIATRICS)  U!t Agranovskiy)  L 31002-66 giT(1) SCTB DD ACE-NR: AP6008101 (A SOURCE CODE: UR/0244/66/025/001/0079/0081 AWHOR: Smolyanskiv B. b. ; KharakhorkiLa,,.K,.. D. ORG: Chair of Nutrition Problems (Kafedra gigeny pitaniya); Clinic of Alimentary Diseases, Leningrad 'Eanitation- aienic Medical Institute (Klinika alimentarnykh zabolevaniy Leningradskogo s tamo-g enicheskogo meditsinskogo instituta) TITLE: Chemical composition and ascorbic acid content In vegetables growl' in soil and by the hydroponic method 47/ SOURCE; VoproGy pitoniya, v. 25, no. 1, 1966, 79-81 TOPIC TAGS: plant chemistry, plant growth ABSTRACT: This stud), was undertaken in order to fill a gap in the literature on the comparative nutritive values of vegetables grown in soil and by the hydroponic method. The study wee made at a Leningrad Oblast sovkhoz. The hydroponic test series was based on it medium of inert keramzit or quartz gravel containing calcium, phosphorous, magnesixm, potassium, sodium, nitrogen, Iron, zinc, copper, etc. Speci- mens of tomatoes, cuc:umbers, cauliflower, green onions and parsley (grown simul- UDC: 613.262:577.164.2 ,Card 1/2  r, 31002-66 ~ACC NR: AP6008101 .taneously in soil and hydroponically) were tested in the spring, fall, and winter !for chemical composition (acidity, dry residue, sugar, ash content, calcium and iphosphorous levels) and for vitamin C content; the results of this comparison are i 1presented in a table. It is concluded that both methods of cultivation produce Ivegetables with essentially the same chemical composition, ascorbic acid content, land organoleptic properties. Orig. art. has: 1 table. [14] 'SUB CODE: Q6 j7.2 SUBM DATE: 13Apr65/ ORIG REF- 001/ ATD PRESS: )r jCard 2/2  TEMBOHEIKO, T. G., gornyy insh.; N'IARAKOZ, A. 14., gornyy inzh. Effect of the accuracy of neat calculations for the aIr in, longwallo on the productivity of cooling a ratu 4)9 Ukr. 7 no.4:13-14 Ap 163. Prm 1z: U o1, (Mine ventilation)  KHARAKOZ, A.V. Insects of the herbaceous vegetntlon of the Veliko-Anadoll Forest. Nauk.zsrp.Dnipr.un. 48:151-164 155 (MIRA 10:11) (Ollginka District-ForeBt insects)  KHARAKOZ, A.Te.; GCvJBEVA, A.F. lilter-prems waste of sugar factories in Kirghizistan. Izv.AN Kir.SSR.Ser.eetA tekh.nauk 2 no-3:73-78 160. (MIRA 13:9) (Kirgbizistan--Sugar--By-products)  ACC NR, A17001351 SOURCE CODZ': UR/00C0/6('V6,- 3.00101W~10150 AUTHORt Bloshinskiy, S. V.; Kharzkozp A. Yo.; 03ipovat T. P.; Abrarov-_, V. F. CIRG: nona TITTZ: Carbonate mothod of aeparating raro earth olomonts SOURCE: AN KirgSSR. Institut noorganichoskoy i fizichoskoy khimii. Issledovaniya po khirrdi redkikh i soputstvuyushchikh im elomentov (Studies in chemistyllf of rare and othor accompanying elements). Frunze, Izd-vo Ilim, 1966, 144-150 TOPIC TAGS: carbonate, rare earth element A'-?Z'rFJ%CT: A m othod was developed for directly separating rare earth elements from acid extracts of ore ILnd concentration "tailings)" omitting the stage of precipitation of-iron and other associated elements. Tho method is based on the difference in the precipitation PH of carbonates of rare earth elements, aluminun, iron and other ele- Men.T.s, and the copiecipitx~ion of the rare earth carbonates with aluminum hydroxide. Ezcperiments on artificiiil mixtures showed that 98-50% of the rare earth elements are extracted at PH 5-5o and 99.40 are extracted at PH 6. . The method can also be used to separate largo quantities of iron and aluminum from rare earth elements. OrigJ, art. hast I figure and 2 tables. SUB CODZ: 07/ SUBIM DATEt 15kir66/ , CIRIG REEF: oo2  DRUZHININ, I.G.; lalARAKOZ,. Ajq.; ZINOTOYEV. I.A., red.; SEMIKINA, - ~ T.Yop , ANCKHIKA, X.G., tekhn.red. [PhysicochodLcal characteristics of the peat of Kirghizistarj Fitiko-khimichaskais kharaktoristika torfa KLrgizii. Frunze, lzd-vo Akud.nauk Kirgisskoi SO. In-t khimii, 1959. 95 P. (MIRA 13:7) (Kirghizistan--Peat)