SCIENTIFIC ABSTRACT PIROGOV, YU. A. - PIROGOVA, N. V.

0 .  ' - ';IA,A.; MAKAHOV, L.F. W~ I, ! I.,. .1.; . I ..:~, nf Iro bffe-tive !ieat and In*egra, umiriete-Ir I. it,"b! lily Dr rafra;-tory coal .nizo from higr-me- - ~ A. I n?par',1 by '--,e f1ame-iijiray ing mtt*-,.o(j. Tep-'aflz. vy-, . --mi . 5 -),-j a I, .,,-b9 Ja-F ti,5. V. ;,,, -.. In,,it ~ *.,, ki.',ir.' 1 ~,;' ~ Jo~t,,, - jr"t*~r.. ! - k "'N . 11, .'~.  2705-66. OW(e)/tPA b.44w. - (a) z,?-Aw(x)/aFw/uP(WZPA(w)_2/W 0 ACCESSION NR:'AP5021511 jjp(c) e/yd/WH,- UR/0131/65/WOD/98 0042 04 k ~66. 76. 055. 1 AUTHOR: Svirskiy, L. D - 1pirogov, Yn. 'A. Y7 " .. __, J~W3 TITLE: Effect of 8 m f t rs on the process of forming heat resisting. heat protectiqg coatW YV'J r - SOURCE: Ogneupory, 6, 1965, 42-46 TOPIC TAGS: refractory materials 11 refractory coating ~corundum0zirconium, :w~ zirconium oxide, aluminum, aluminum oxide, magnesium, spray nozzle " *A study was ma ABSTRACT: de of the dependence of the mean diameter of parti- cles (dm) of the refractory melt forming the coating on the distance (.1 ) of the nozzle from the surface being coated. With increasing distance, the layer is more and more formed of large particles. The final velocity with which the par- ticles reach the surface is a major factor in determining the adhesive sirength to the metal and other properties of the coating. This final velocity, vfin, was determined for different materials as a function of the pressure of the air inject- ed into spray pistol, P, and distance from the surface, I . The rate of the pro- cess differed for the following materials: sintered corundum, sintered zirconium  L 1705-M ACCESSION NR: AP5021611' dioxide, spinel, zirconium, and aluminum oxide. Results are exhibited graphi- cally. Operating parameters of the experiments generally were:.L = 50 mm; P a 2.4 atm.; -vc = 212 mm/min; and alpha - 900, where vc to the feed rate of the metal rod into.the pistol, and alpha is the angle of the jet spray to the surface It was found that with an increase in P and alpha and a decrease In A , the density of the coatings Increases and spraying losses decrease. The greatest adhesive strength was attained at alpha 2 900j a IS- 20 mm, and P = 4. 2 atm. Prelimi- nary heating of the samples to 160-200 C led to an increase in adhesion of the coating to the surface. At high preheating temperatures adhesive strength de- creased and this is explained by oxidation of the metal surface and by increased compression stresses in the coatings. These stresses result from the fact that the coefficient of thermal expansion of the metal is greater than that of the coating. Orig. art. has: $figures ASSOCIATION: Kharlkovskii politekhnichookii inatitut im. V. 1. Lenina tPoMechnic Imtitute. Kharkov) Ukrainskii nauchao-imaledovatellskii institut khimicheskogo maahinosit1h F.Guinn2ent, Fabrication) - 3UBWrr SM UU PlIf'r : 0 tj E F NR I ~:O Cy cmd 2 2 ENCL: 00 SUN CODE: 'MM, IC OTHER: 005  SV :R.SK 1Y I., kand . tekr7-j nauk; F Jl,~ Yu.A , I nz I.. a ~I 7~g *,he rc.per! ' e a c' ref rac-cry --ov., - R a metals, appl',ed 'iy tho, flarre methnd. S-k. 'I ke7-. "1 -35 3 I . Kh~,r'KOVRkIV polltekhr~c, Pskly I nst.' ' u, 3v~ rsxly' 2. UkrR' r.sk',y naucl~--u.- qz;-' e&va*e. 'sK-y Ms~, :--~ f-.- 'v& ~ 'or F1 rog v y  i C", 8~2-65 B10(a) ZSION M AP5ooA70 ganoy Pirogovi Yu. A. a arov, L. Pi t rXTLE: Effective heat conductivI and emissivity of' oxidation esistant, ceramic, -sprayed refractory-oxide ca~ ~na ioklkh_~Imperatur,.-v. Tqiomika V V POURCE 3, no. -, 1965, 64-69 PIC TAGS: refractory coating, ceramic coating, oxidation residtant coating -flame, prayed coating, coating heat con,luctivity, coating beat emissivity, aluminum-o4ile oating, zi I d1oxidd coating, QhromiM oxide coating, titanium rcon UM- A d1ox i Ite ccating! A Y STRACT: An investigation has buen made o/the ef"e-4,Ave heat con I 42uctivity and Otal ealssivity of several refrac~tory oxide coatin;S ~C-55-0.7 nn thick. Aluminum xide, stabilized zirconium oxiae, ziVton, :CitanTCmi dioxide, alumino-magnes I a spincl, d chromium oxide vere Tflarap sprg2__&5on uteel substrates. The heat conductivity was easured in a vacuum of 1,107~1 mm fig-or in argcn,at 4 pressure varying froir 10 to MM 00 11g, in the 300-900C rwget. III coatings had e. very lov effect"Ve hent conduc- 4 ivit~ vhich increased with. incretzing argon pressure end test 4- uvitv wag terials: V`ith a AUC ~Uxe icw~er7 tb~imill ~_Ma e - P -30% _:This-is-explained-by-tbe fact-that-inAbe riam a-s rayed convi card-IM)  IM -32652-6 V, i:~ACCEMION NR- AP5006 70 here is, no'-continuous contact- botween the -coating and the a tr te b w- ubs a r-nd et een In dividual particles of the coating. This, and the low heat conductivity of,the gas Yer in the coating pores, are the two main causes of the low effective heat canduc- ivity The total heat emissivity was measured on coatings 0.3-0-2 mm tbick, f I ane spraye; on a thin-walled stainletts steel cylinder .16 T= in diameter and 1?0 Trm 1 on g I 'Results of measurements made at tetperpturen up to 1200C shoved that zirc-,mitun IdioxIde has the bighes", and iohromium oxide the lol-rest total heat emissivity. Orig. art. has: .8 figues and I tab."Le. ASSOCIATIOB, Inatitut khimii silicatov Im. T. V. Grebenshebikova Akadari.i na-,.k ~Institute of thetChcdist~?of SIlicates, Acarle-V! of Sciences f-,SSJR WE 1OFeb6is VNCL, 00 SUP CODE: 0 F SOV: 002. ovirm oo6 ATE, PR&-,S: 3205  L 16298-65:- (bb)-2/. WF(b) , P&b-10/Pr-4/Pv-J4/Pt-1Q/PuA ASD(s)-3 -blWIMIATAR ACCESSION KRt AP4045453, S/0072/64/000/009/0031/0033 AUTHORt jrskljj~ L. D. (Candidate of technical sciences)" 1 2 kine4r) 44-t ti, tea- ings 11*Aae, t 12 as' I- tte-klo:-l keriki a. -,n`0' ~9- 6 7- k S OUR U f TOjPZC VAGI i ..oxide costiallb, refractury! ,mineral costfng,11ame sprayed:140ating, sprayed tatting structure, --i4prayod-- "sting -mechanical pr~qperty -.ATISTILACTi study, has~bisni m8,44 of the pbyvIco=ocb8n1za1 propettles -,of refractory coatings flome-s-pTayed on sbot-~blasted -plain or 'Mchrom-plated carbon steeli Sintered rods 3 =a In diameter' made of powdered refractory oxides or, minerals were fedat a rate of:200 to an/mini The pressure of.ocetylene snd oxygen -varied *from :0. 2 to 1.5-aid 2s5 to..8 stu*- respectIvely., Examination of this structuTs COOZ coatings consisted of ,of the coatings shoved,thSt Zr.02 ands 1/3  L ACCISSION ItRu 'AP,4045453 Partiallygused'verticlis w-** th voids" occluded between than, The CX -A1203 costing partially cry'stalli.2ad to -y "A12 03 $ the monoeXimic Zroi was transformed to a cubic modification and zircon doc6mPo3td to -c~ubl*-UO2~ and silica The GaZ03 costing. consists ~ tMos tly _~*Vcubic ZrO-o' Durlngsprayiug, coatings made of oxides of;~S, Ti2 ;,CT, or ilzenite were partially reduced 'to lower'oxides,and even to -metals and became vitreous. )Ln M93A12 intOTmet"lic compound vAs formed In the aluminsmagnesia-4pinel costing. Physicomachanital _.tpropsrties vere studied on.continge.lifted,from a copper subitrate, ~,All coatings,had open porosity which varied from 5%-in coatings of alu-uina(roasted ..at 145~(MO and of f or-sterito to 12% in coatings of Roasted aluminaYand sinteref corundum coatings had:thi highest ..microhardusse, 1093 and 1040 ltg' ctivel and,alia the high-: fez $2r&sPe ys .0a.t bond strength& 150 and 140 kg/cm respectively#' The elasticity modulus.-of ...the, coq~tings were lower by one order than those of sinter-' -It ran d a -alumina- I inol and CrO obatings, Except for's 'CO02~c0stim8i'all a sp ..coatings -thinner.'than 0.4-00*4~mm sustained without -failurec 120c3cles. ,of heating to SOOC in 10 min followed by air.;eogling to~,46C in 2 min., Orig. art. has: 2 figures and 2 tables$ Cord 2 /3   I  A Y 1,11 P-N., A.Ye. 'Ajjj,~'( IVA, P A. A, A-.: Ny 1 . Y', . A . 'NS Y AY A T. F. ; TC,i I . X, A' ;LG1TA_h'j* L N N A b 'Y -I Fl.,; hi. Fill V c I I.: KA21 It flay 'I'll.pivit tx ri I MI lh V~ oSR I V I t Ln y In- o y i ri:: , I tu t Urivni P1 r~g(,vri r 7 t4fly G) . Jt~c. 11-1. 11.11%iy In t.1 -,it vi I. j f ?.,t1 iy I)Wri.-,trijy ot -~' 4 1: j1 f 7 rill 1) 1y mt, i i t n. l, ly "1't -It',' -v Ilya ~Melli y it Jiy IT, li 11 1 y I na ti t1i t for Pr L r) 'K y rrf ij L.-~ I y ~II G t r. r Ni~iiKaya , BL rm t r v~t k vmtly int, L m I ~. robi o I ug I I I ~or I. I t,,rn 1,+~ s kayu a w It t.L3 1 ytt M. s vayi~ ~rlko) - I I na ~;y i4l 1~ 7 !j,c, 1 in.m I t 1-i riy i %e n ' r!,,, I e n ranw~ r n: rt~y ('or- pur4yh, Mau~ttwlli a -'M Wt wl~ ve rtlht~nv'l tv -t: yl~ for N't U~ V ov  SHAM~Sp [). 1_ . 14AS I fEYE'-'A , k. ih. ; ',%)RK( V"' IiMiKl( , ~ . 1- ; I I 1-Al' 4 A, A.".,.,; TUKIHAYFVA , A.A. Yeast Schlizosaccharomyces fombe in haxing. .-7V. ,I,' KaZa?-,:.. . Ser. bioll. nauk 3 no.2:20--.27 14r-A[  All" R o IF. ~T.  I,Q V/C~ I 'I ri CI yf~~ IRG. G.S., inzhener; PIROGOVA. F.I., inzhener. Pro(tucing alum i al'inker on a sintering screen. Mement 20 no.5:10-15 S-0 154. (MIJA 7:11) (Cement)  BAIANDIN, A.A.; SPITSYN, V.I.; IWDENKO, A.P.; DOBROSELISKAYA, N.?.; MUGLA.YUMO, I.Ye.; PIROGOVA, G.J.; GIAZUNOV, P.Ya. V~ Apparatus for studying heterogeneous catalysis at high temperature using radioactive catalysts and ionizing radiations. Kin.1 kat. 2 no.4:626-632 Jl-j~g 161. (MIRA 14:10) 1. Institut fizicheakoy khi-ii AN WSR i MDskovskiy gosud&rstvemiyy universitet imeni M.V.Lomonosova. (Catalysis)  KOLLI, I.D.; PIFIOGOVA, O.N.; SPITSTI, V.I. - -MENOWEllabor Dehydratinn of sodium paratungstate. Zhur.aeorg.khts. I n0-31 460-469 Mr '56. (KLRA 9110) 1. Laboratorlya noorganicheekoy khtmit Moskovakogo gotudaretvennogo univervitata imeni MJ. Lomonosova. (Sodium tungstates)  KOLLI, I.D.-, PIRDOOVA, G.H.,, SPITSYN. V.I. OMMON-OkWANO Dehydration of sodium metatungetate. Zhur.neorg.khim. 1 no-3: 470-477 Mr 156. (MLELA 911O) 1. Laboratortys, neorganicheskoy khtmii Moskovskogo gosudaretvennngo univeratteta iment 14.V. Lomonosova. (Sodium tungstates)  PDO-30VA, -~. 1-1 - , (PlUrl Sc i -- ( ) 3t': ` ~`~ ...O.wMm4L-aAAp)l Parawolf ranr~ to s. it : ~o s , 1'-, '7 -_i ',', (,:c) ~7, (),rd - - " Lei. I r. ~ ~' r : e r of' Labor ie,: s,,~ij,er Sta~o UrAlv L. 1-1. V. Loioi,,)so,;) , !I- - -~;- , (, S (KL, 4'1-57, 111 ) - 1L~ -  AUTHOR SPITSTN,Vikt. I., Correeronding Memb*r of the ?0-2-3~/62 Academy, and PIROGOVA G N TITU An Investigati_o__n~~o queous Solutions of Sodium Paratungstate. (Issledovaniy* vodnykh raatvorov-r-.ravollframata natriya, Russian) PERIODICAL Dokl&dy Akademil lauk SSSR 1957, Vol 11's, Nr 2, pp 1122-325 (U.S.S.R.1 ABSTRACT The mechanism of the reactions which take place ot acidification of solutions of normal tungstatea ie comparatively 11ttle investigated. Paratungstates develop in the region from pH 8 to 6. These are the very impor- tant representatives of the class of &quo-poly compounds. One of the authors expressed the opinion that in the mentioned prooose the simultaneous presence of ions of hydroxonium, tuagetates and soleoulos of tungstio acid play an important part, They Interact In the solution due to the formation of hydrogen bonds. The water plays a constitutional part in it. The authors studied the properties of nodiun-paratungmtat* solutions ad dependent on their conditions of production, heating temperature and duration of storage, The methods of dialysis CARD 1/4  ?o- 2 - 19/6:~ An Investigation of Aqueous Solutions of $odium fara- tungstate polarography, chromatography and light absorption were employed. After boiling the ipolocular weight of tho &alone minks to 1500-i6oo, that Is practically by half. This phenomenon is described by an equation. Ivaporation leads to the formation of arystalline paratungstate which again exhibits a double molecular weight in the solution. On acidification of a 1& 2Wo4 -solution by H110, the composition of the resulting anions depends on he PH and on the duration of reaction. It is only in the case of PH 7,0-6,6 that hazattingetate Ions develop i"ediately. At pH 6.5-6,1 first develop Ions with a molecular weight of 5.000 - 10.000. After !0 days it dearea~*~ to 1500. There probably occurs a desae~re- gation of the high-moleoular ions which first developed At PH 5,8-5,6 the molecular weight at the beginning rise* to the enormous height of 55.000 - 120.000, in order decrease to 14.000 after 10 days. This would cor- respond to sodium tungetate polymerised about 12-fold. The results of the polaragraphio Investigation confirm the above-mentioned transformation&. The hexatungstate Ion to in its structure apparently related to metatunge4a- to. Perhaps it Its structural part(unit). The kinetics 214 of the transforeatios of paratuagetate ions into those  20-2-35/62 An Investigation of Aqueous Solutions of Sodium Pa.ratuagetat*. of hezatungstate can also be traced by absorption spectra In the ultraviolet region (220-290 Freshly prepared sodium-paratungetate solutions give a sharply descending curve with an increase in wave leagth. It the solution Is left standing, the do*- aeudiag of the curve slows down In the region of 245-260 mAz. This maximum Increases with time and reaches a constant value one sontb from the day of preparation of the solution. For another year no changes ass U discovered. Analogous but faster phenomena mani- fest themselves on heating of the parstuagstate solution to the boiling point. After 3 hours the maximum forms I& the region 256-257 mA - Its height reaches a constant value after 10-16 hr boiling of the solution. The agreement of the light-absorption values of long standing and of heated solutions permits the statement that one and the same process occurs in both cases: the trans- formation of Ions of paratungstate into such of CARD 3/4  20-2-35/62 An Investigation of Aqueous Solutions of Sodium Paratungstato. ho*ungetate. The mentioned maximum corresponds to that. (4 Illustrations, 3 Tables, I Slavic r*f9renoe) A380CIA?101: Moscow State University N.V. Lomonomov (Moskovski gosuderetwennyy universitet it. N.V. Loaonosova~ PRISINTID BY: - SUBMIT=: 23. 3. 57 AVAILABLE: Library of Congress. CARD 4/4  B/020/60/132/02/45/067 B004/BO07 ALUTHORSt Smitsyn, Vikt- I., Academician, Pirogova, 0. 3,,, Pikayev, A. K Glasunov, P. U. TITLEs The Action of Eigh-energy Electrons on Complex Compoundel of Platinum -A PERIODICALs Doklady kkadenii nauk BSSR, 1960, vol. 132, Do. 2, pp. 406-406 TEM The authors invea tigated the aftion of a beam of aocelarated electrons on the solid platinum compounds K2 [Ptel 6 ' ("4)21[PtC'61' X2rpto'41' (NH 4)2[PtCl4]' (Pt(NR 3)4]Cl2'B2o, cis- and trans-[Pt(NK 3)2.C1 21. The synthesis of these compounds and their analyses are given in Table 1. A I-Nev accelerating tube *rvod as radiation source. The irradiation cell is shown in Fig. 1. The xperiments were carried out in dry argon at constant temperature (90-950C for : the chloroplatinites, 145-1500C for the other compounds), at which no decomposition as yet occurs without irradiation. The metallic platinum separated an a result of Irradiation was gravimetrically determined. Table 2 gives the initial metallic platinum yield in atoms/100 ev for the ind!vidual compoundB. Card 1/2  ACC NR, A'17001780 9/IWID~/bb4/0023/0030 AUTHOR: Spitsjrn, V. I.; Pirogova, G. N. ORG: Institute of Physical Chemistry, AN SSSR (Institut fizicheskoy khiraii AN SSSR) TITLE: Effect of different types of radiation on certain properties of diamonds SOURCE: AN IAtSSR. Institut fiziki. Radiatsionnays Mike, no. 4, 1966. Ionnyye kristally (Ionic crystals), 23-30 TOPIC TAGS: diamond, irradiation effect, epr spectrum, optic spectrum, absorption spectrum, color center, crystal liMt1ce defect, temperature dependence ABSTRACT: The authorA inventigatod the optical spectra, the density, the lattice parameter, and the EPR spectra of Yakutsk diamonds irradiated with neutrons, elec- trons, 7 rays from Co6c, and x rays. The diamonds had different shapes, were mostly colorless, but some were yellow or brown. The various properties of the radiation beams and the different measurement methods are briefly described. Plats are pre- sented of the absorption spectra of the irradiated diamonds, of the EPR spectra, and of one infrared spectrum. The results show that the structure-sensitive properties (optical and EPH spectra) of the diamonds are stronqly altered by the irradiation, but the change in structure-insensitive properties (density and lattice parameter) can occur only if sufficiently large doses of sufficiently hard radiation are used. The nature of the various color centers produced by the irradiation (F-centers and R-centers), the various defectep ouid their teigerature dependences are dJscussed. Card  ACC NRo Orig. art. rw. 4 figures. am CODE: * 20/ SM DAM 00/ GRIG FJOI -. 002/ OTH RU: 006 8 1 :, Card 2/2 '.  SPI-ISYN, vijtt. I.; MIKHAYLENKO, I.Ye.; PIROGOVA, G.N. Catalyst activation by neutron bombardment. Atom. energ. I' no.6:520-522 D 163. ( M FA I - .. ~'   A - 4. viiu jk~,_T~AL 'UR/0289/65/000/001/0040/0047 R-5 '848 26-109441, 13j; AUMOR1. 641't4 V. 'akut1ft o n diamonds, AN Sibirsk*~.:otdileziiye. W WdmicheskUth nauk, no. Sari" 47 JWJQ TAGS: resonance) neutron bombardment, electron bomb~ment.'Gamhlj on' ~A J~~_ _Thj) optied pr* ties on atid electron spin resonane .a spectra, _* 6sorptl "'And densio of Yakutia dlamowd aWsed to slow aW mixid natfh-6ns, COO sammii rays, X-1rays, and accelerated electw'ono are reparted.- -:Absorption In the ultraviolet and visible i ~4 no r1anges were observed in the Infrared. Heating of the decreased after irradiation, -hTadiated &=0n& fr(M 200 to'1100C caused a ual d gratl ecrease In absorption, but com- plate- annealing -of Me defocts by the Irradiation did not occur. Mow neutrons (intqp*ated JluX of 2. 6 r= -17.5x~~O A/cm~ colored the diamonds green, YMe1n the pres- awe of 1% fast neutrons In thti flux#- the diamonds turned black. V&en expoised to last t- - trons "a of 0. 5 shic -6. 0 x j 624 ey/crn~ 0 the diamonds acquirod a blue color, vhereas, C,060 PMMA rVe (dcae of 9. 11 x 1,06 r) -made them bluiab-groen. ~ Ilia blue and green color diamonds wu stable atroom temperature and on heating to 400C. Irradiation of 2/2- --------  'SIM ACdkMON M APS017057 the ESR POrffzWW U maw ~e doe -of inami rav) at Toolm tmper tft deoWed aWre *and hating caused the MIR sighals 6 &same af.~ 'ne -density of4diamonds rrnmjkin~a! m-mm-hu -Aftwp-milaffm with slow neutmis (ftu~x of 3 x 1018 A(CM2), jast electrons Irl, i - ~--_.. Of line authors thank Is 6 x -6f -20~t. -104 A. c&lram of ibl) PresidWa of the YaliatsMy SUal MAN SM (YAblan Branch of the 80 AN SSM W1 corresponding ineifflmr of the ANSM, 'for providing the 7 of YalmUidiamondelorthfis work. nelFud Topectra were recorded by-P. X, IV lum-L 4 #prm and 3 tables. 17- of ~ftv_ nff "081,34W 7% ik, 3- t iA 4 U- -002- 005 NO a" amt  JR.  /t cr AtMiOR: PIRIGOVA, G. IN. TTTI..6: Dis3ert-atl-rz Disoertatsi' .) FERIDDICA.L: Metallyuvedonly-~ I Obrab(,tka Metall,,v, 1?5 , N. . 2, , . , ~ ) . "luveritinattrin (-,f Pai-atijnf;iitates,Cla6le(lovaniye par-lv Iframatov)-Carl(l.Aa,,t- -f Chemical sciencen. Mr,acow, 1'057. K)ac)w State Univuralty Imeni M. V. Lomnn,-~s v.  SPITSTN. Vikt. I.; PIROGOVA. G.N. Investigating sodiwi paratungstate solutions b7 the method of dialy'sis. Zhur.neorj,..kh1m. 2 no.9:2102-210fk S '57. (MIRA 10:12) I.Moskovskiy gosudaretvennyy universitet im. M.V. Lomonosova, laboratoriya neorganicheskoy khimii. (Sodium tungstatea) (Dlalyi3is)  SPITSTN, Vikt.I.; PIROGOVA, G.N. -_ . "': Stud7 of aqueous solutions of sodium parEtunestate. Dokl. AW SSSR 115 no.2:322-32,5 J1 157. (KIRA 10:12) 1.Moskovskiy gosudarstvenny7 universitet im. M.V. Iomonoaova. 2.Chlen.-korrespondent AN SSSR (for Spitsyn). (Sodium tungetates)  SPITSINO Vikt.l.; PIRUGOVA, G.N.1 ~UKRAYUNKO, I.Ye. Erfect of Ionizing radiati.r., on the cataly-tic dehydration of n.dodecyl alcohol. Isv.AN S,'-.SR.Otd.khim.n--uk no.9t.1515-1520 S 162. (MIRA 15:10) 1. Institut fizicheskoy khimii AN S63R. (Dodecyl alcohol) (Dehydration (Chemistry)) (Ionization)  SPITSYN, ViVt.I., s6ademik; F&1!AYUWQ, I.Ye.; PIROGOVA, G.14. Effect of Ionizing radiation on the eRtalitic activiti of aluminim oxide in the denydration of dodecyl alconol. Dokl. AN SSSR 143 no.5t1152-1155 AP '62. (MIRA 15:4) 1. Insti'tut fizichaskoy ~himil AN SSSR. (Dodecyl alconol) (DehfdrRtion) (Aluminum oxide) (Ionization)  --- L %I- SPITSIN, Vikt, I., almdemik; MIMAYLENKO, I.Ye.; PIROGOVA, C.N. Dehydration of primary dodecyl alcohol over esium sulfate. DakI. AB SSSR W no.5:1090-3092 0 161. MTHIRA 15:2) 1. Institut fizicheekoy khimii AN SSSR. Dodsoyl alcohol) Dehydration) ~  SPITSYN, Vikt.I., akademik; VAKSIM, Ion; PIROGOVA, G.N.; KIKHAYLENKO, I.Ye.; KODOCHIGOV, P.N. ---- Effect of different Wds of radiation on the catalytic dehydration of n-4ecyl alcohol. 1,okl. AN SSSR 141 no.5zll43-1146 D 161. (M IW, 14: 12 1. Institut fizichesl:oy khimii AN -'%SSlx i Institut atomnoy fiziki a Rumynskoy Narodnoy Re bliki (Decyl alcohO817 (Radiation) (Dehydration)  PIt(JG,)V, I.M.,d(-its(itit,kan(i.tekhti.tL&uk rorsion of si cylindrical sholl w--fikoned )y a nole. lzv.r', a - ucheb.znv.;rwshlnoi3-'.r. no.');78-82 '60. (ttiliA I ~: 11) 1. Vaesoyuznyv zaichnyy -olitokhnichaakly inatitut. (Tors Joil)  FIROGOV, I.N., kand. ekhn.nauk, doteent a~nd Stressed at te around a hole on the surface of a cylindrical shell at te caused by a action of a concentrated force. Izv.vys.ucheb.zav.; mashinoetr. no-110-7 160. (KIRA 14:1) 1. WOOD zacchWy politekhnicheskiy institut. (11satic plates and shells)  LTUBIMOVA, V.V., doktor ekort. nauk; NOVIVVA, O.G., kand. ekon. nauk; SEIRGEYEVA, A.G., imnd. ekon. nauk; IVANOV, N.P., kand. istor. nauk; OBDRINA, G.A., kand. ekon. nauk; KHLTNOV, V.N., kand. ekon. nauk; DANILEVICH, M.V., doktor ekon. nauk; POKATAYEVA, T.S., kand. Rkon. nauk; USOV, G.A., kand. ist. nauk; SALIKOVSKIY, O.V., kand. geogr. nauk. Prinimali uchastiye-, PESCHANSKIT, V V., kand. ist. nauk; ~IRQGQVA, I.M.; PRONIN, S.V.; USVYATSOV, A.Ye.; MAKAROV, V., red.; DARONTAN, M., aladshiy red.; ULANOVA, L., tekhn. red. (Real wages during the period of the gemeral crisis of capi- talismIReallnaia virabotnala plate. v period obshchego krizisa kapita.lizma. Mosk-ira, Sotsekgiz, 1962. 558 p. (MIRA 16:3) 1. Akademiya nauk 3SSR. Institut mirovoy ekonomiki i mezhdu- narodnykh otnosheniy. (Wages)  AUTHORS: Krasovitskiy, B.M., Pirogova, I.N., Tsarenko, 33.V, T= Vat Dyes Made From Pyrenic Acid PERIODICAL: Khimicheskaya nauka i promyshlennost', 1959, Voi 4, Nr 2, pp 282-283 (USSR) ABSTRACT: The vat dyes were prepared by the condensation of pyrenic acid with ortho-phenylene-diam,ine and 1,8-naphthylene-diamine. The separation of the dyes into cis- and trans-isomers is not possible, which shows their homogeneity. One dye Is an orange powder soluble In concentrated sulfuric acid, pyridine and aniline, the other a dark-green powder soluble In the same media. nere are 2 non-Soviet references. ASSOCIATION: Khar'kovskiy gosuda:~stvennyy universitet Imeni A.M. GortkDgc' (Kharlkov State University Imoni A.M. Gorlkiy) SUEKF=: September 15, 1958 Card 1/1  PIROGOVAv K.To.i KHASNOVAI V.G.1 SAKOVICII, I.V.; LYASHENKOI V.Ye. 9 Sudden death in virus influenza AI . Sud.-med. ekspert. 3 no-3:25- 28 JTI-S 160,, (KMA 13 t 9) 1. Rafedra audabnor meditsiny (say. - dotsent K.Ye. Pirogova) DDepropetrvvekogo iwditBinakogo inBtitute i Institut opidemiologii, nikrobiolo ii i gigi imeni Gamalel (dir. A.S. Gromov). I ,,,Arny (MATH-CAUSIS) INFLUF  PIROGOVA. L.A. Remote pathohistologic&l modificatiom in the p&latin* tonsils follow- ing gpLIvanocautery and tonsillotovW. Test. oterinolar., Moskva 15 no. 1:55-59 JanFeb 1953. (CINL 24:1) 1. Candidate Medical Sciences. 2. Of the Department of Diseases of the Ear. Nose. and Throat (Head -- Prof. 1% A. Lukovskly) and the De- partment of Pathological AnatooW. Dnepropetrovsk Medical Ins tituto.  PIROGOVA, L.A., kand. ned. nauk. Unner respiratory and Rural changes in leukemias. Vest. otorin. 21 no.2:41-49 Mr-Ap 1119. (MIA 12:4) 1. Iz knfedry boletney ukha, gorla i nosa (zav. - prof. V. G. Termolayev) Leningradskogo instituta us overs hens tvoyan iya vrachey i gamotologicheakoy kliniki (znv. - prof. S. I. Sherman) Leningradskogo instituta nerelivanlya krovi. (LBUKINIA, nathol. otorhinolaryne,ol. organs (Ras)) (OTORHT,IJOULRTHGOIA)GIGAL DISBUIS. etiol. & oathogelh. leukamin (Ras ))  -, . - t%. , . . . : z t ji, : - , , , I - - . I li - , - , - . ! t : ~ . , ( , I , ! . I . - . I . . : - . I . I  SHAPOCHKIZIP V.A.; FIROGOVA, L.B. Effect of temperature on shear under pressure. Fiz. met. i metalloved. 13 no.5--'/,')5-"187 My 162. ND'A 1":, 1. Irwtitut fizlki vysokikh davloniy Ali SSSR. (Shear (Rechanics)) (Mbtal.s, Effect of temperature on)  85971 vil Q s/ia6/60/010/005/024/030 E193/E483 AUTHORS: V-sreabchagin, L.F. , 5-bo-pochkin. V.-A, and Pijco&qvq,, L B TITLE: On the Residual Strengt u(Resultant) Fr Shear Under 0m High (Hydrostatic) Pressure PERIODICAL: Fizika metalloir i metallovedeniye, 1960, Vol.10, No.5, pp-783-785 TEXT: Although strength !nd plasticity of metals, subjected to ultra-high ( > 100000 at=4 hydrostatic pressure, are considerably higher than those displayed under normal conditions, the permanent (residual) gain in strength and plasticity due to the action of hydrostatic pressure is smsill, except in cases when the application of high pressure brings about phase transformations or other Similar changes which may profoundly affect the mechanical propertlim of metals. The present authors studied the effect of high hydrostatic pressure on the properties of commercial grade iron and steels 3ON437A (EI437A),,4 e,nd 45. -1 Experimental specimens, in the form of thin (less than 0.3. mm -thick) round discs, were subjected either to the action of hydrostatic pressure (100000 to 300000 atm) alone, or were sheared in torsion while under pressure. For the Shear tests, the specimens were plac6d between flat faces of two Card 1/2  777 M -,-E 'A X~ -02 tall A RE ~Rk INAVO ki - R WIN .1 ~.T &a 4 _bt dialn JV% IB% of CUAM ;on,- -tim Im 4*0 hied 3W ebarp-l"'m TM Zan.;' Wlu lastid - 13-W "fim of tu tmu r4m Cao Ja prWacts "S 33 forp" bi 22M, U ja +1 1 (),ly ibe +16-um~ -Dm mum of flat hAe tmctiock was -am$ W" Lbe t Aknod itu WIG ci h to SkEh'wss within 3."-0 W with crflUb The ~mW%,,&xmqvdycr3s1- plex const--ft -sMCA *er suo -bad CIC lerrUtso Abe a 11tue bmini". jW._W_ AM W"111 b" twm "3vc of bufft j;7j MUM,,,  4-o TEXT re-gs. ve t r ir. r,s t ~ C Itj f t o r) - , % -i ! e t o i r t e r t, ~ - i r s p ~~ h 6 V K6 nn ~'~\ " ji ~ V X 4 V ve r P tes ted i ~-~ i n g. zz p I 't v 1 f- t LA r, tA C I. S~irf e. -e- W-As Pistong were tes tei t., -L -n j I. r e ~i n re, ire Inc t h -L-f rmp r -t -i e v r,i r!, t t 7 svn p t, w i s n 'e v-, I x P.m. ned f r r K ?i r, pt e 0 K 9 cm r. the f i rs I, -i R r e g f. n 47 tj J 0 (111. wpiF o~ -tn! C 9r Prpsii.re r ."t. jyi!l r .3 1, r r, -t e. pt i t I t r, e -L (:r! r s v- trf-nFt~~ th- 1. *.h iezrerts-,riF :ctpi' t c ntent 7~-r br,~-Akirw ' It Cprd ' I  Con t-% - t c r-s!, . v- ti tr-n., t~. 14, b to r -usa hm p te er. Fir p 1 1 e i Tr,#- h,~wh-i For, en ! 1 ~i L -i r -id c c,j ' I b,!- Pi: I - I tc VK4V 9 t r i r Mi.. ,,. s r..i -r-i.,Y,, r i ,9--,re cf 7 k F -m A~; i c,~ r. f t, r ,p V~,,V Five- effectsl the bre%knw c,,%i -)f t 1 0. VK, T,%S I ~, A;R!3 n~, j KC' I t w -i -q f c - n i b~ %: i c r -a r F. -3 to! q t i t tl.e ~ e v IT r ~, e r pi r 17- t r, A ~ . rt* s r,! s t - r r r. t -i re. i --i, -t r -,.rts y.eS 'I MAX !'-I 1~-- I VK4V 0. i -,n VK-V R i n ~ -i r) I -,r, n- r K 3 xf. T rm P 1 i 1 t I C,n 9 ply] F r 1 r- n i, o! k I c T -i r, t -, - er. s t r i, ~ r Aere 7--ig r-a f 7- -, V . vK- V n r i t -,n f K,07 cm e e r. f w o r p ~k L 't t K Tj f r e a s e -x t , i r, c r e -i9 n v r e !F -9 ~. r -in L D r -t ry m -q s i s t pit A t -i r~ ft b I o .1 r. v r o- f, f- 7- .1 :- " I  SHAPOCHFJN, V.A.; PIROGOVA, L.B. Determininp shear strPEFeE undor the effect of vressurp -)n rinp specimens. Fiz. met. i metWoved. 12 no.1:148-149 JI 161. (MIRA 1,$: 8 " 1. Institut fizlki vysokikl, davle-)iy AN SSSH i hafPdra O-imii I fiziki vysokikl) davlenly rosudarstvennW universiteta. (Shear (MpchAnics)) (Metals--TestinF)  VERESHCFAGIN, L.F.; SRAP~'CIIKIN, V.A.-, PIROGOVA, L.8. Contact strenEt)-. of hard alloyr- of brand VK. Zhur.tek~. fi7. 32 no.2-233-237 F '62. (MDL, 1---:2) 1. Institut fizi~i vysoki~Y davleniy AN SSSR, MoAva. (StrengtY of materials) (Hydraulic presses)  M S/126/61/012/001/018/020 dA4 C 'r, 2073/9535 AUTHOM Shapochkin, V.A. and Pirogova, L.B. TITLIt Determination of the &hear stresses on specimens under pressure PERIODICALt Fizika metallov I metallovedeniye, 1961, Vol.12, No.1, pp.M-i4q TEXT: Bridgman and Vereshchagin found that with increasing hydrostatic pressure the shear resistance changes and increases by several times at pressures of the order of 50-100 thousand atm. In these experiments circular plates were investigated and the distribution of normal pressures along the areas of contact were assumed uniform. It was considered that the shape of the *pure* of the shear streasea Is triangular or occupies a position which is intermediate between the triangular and the rectangular. Since the real distribution of the normal and the tangential stresses differ from those assumed in the calculations, a certain error was introduced. For roducing this error and for evaluating it, the authors carried out txporimonts In which the shear strength under pressure was determined for ring specimens made of commercial iron Card 1/5  W Determination of the 94;V S/126/61/012/001/018/020 E073/3535 and niobium. The tents vore carried out on equipment described by L. F. Vereshchagin, Ye. V. Zubova and V. A. Shapochkin (Ref.4t PTE, 1960, 5).For producing hijjh pressurespistons of the carbide SK6 (VK6) with a ring-shaped face were used. The external diameter of the ring equalled 10.2 am, the internal 9.0 mm. The specimens under investigation were cut from sheet metal 0.04 mm thick. They were ring-shaped with dimension* corresponding to the dimensions of the ring area of the piston. During the tents, specimens of the investigated material were placed between pistons on ring-shaped areas. The loading was in steps when the normal pressure reached a certain value torque was applied. Turning of one piston relative to the other was offectecl until the torque reached its maximum for the given normal pressur4i. In th I experiments the mignitude of the normal pressure was 100 000 kg/cm and of the torque 1000 kg-cm. The experiments yielded linear relations between the torque and the axial force, which were -the same for commercial iron and niobium. Since the ratio of the width of the ring to its average diameter was below 1:10, a uniform distribution of the normal and the tangential stresses throughout the width of the ring could be Card 2/5  Dwtermination of the shoar S/126/61/012/001/018/020 25,926 9073/9533 assumed with a sufficiently high degree of accuracy. In this case the dependence of the shear strength on the normal pressure was linearl the value of the shear strength was 15-20% lower than that obtained earlier for cli-cular specimens without a hole and 40-50% lower than the values obtained by Bridgman. Am a result of the non-uniform distribution of the normal and tangential stresses on the circular contact area the measured value of the shn :trenith will be excessively high; at pressures of 50-100 thous d g/cm the excess value reached 40-50% in the case of BrIdgman and 15-20% in the experiments carried out at the Institute of High Pressure Physics AS USSR. L. F. Vereachagin and V. A. Shapochkin (Ref.5t Inzh.-fiz. zhurnal, 3, 1960) found that the non-uniformity in the distribution of the normal stresses along the aEea of contact decreases at pressures exceeding 100 000 kg/cm . This should lead to a decrease in the error of calculating shear stresses. There are 2 figures and 5 Soviet references. CAbstractor's Notet Conplets translation.] Card 3/5  Determination of the @hear S/126/61/012/001/018/020 25926 9073/9535 ASSOCIATIONi Institut fitiki vysokikh davleniy AN SSSR (Instituto of High Pressure Physics AS USSR) and Xaf*dra khImit i flatki vyaokikh daylenly MGU (Department of High Pressure Chemistry and Physics, Moscow Ste.te University) SUBMITTSDi October 1',', 1960 Legend Fix.1 Dependenco of the torque. M. kg,cm, on the pressure of the prises, F. tons for ring specimens. 0 - niobium, 4 - Iron. LejEend FiXt2 Dependence of the tangential.itre %8I.T.10-3, kg/cm2 on the normal pressure. p-10 k;/8 for ring specimens. 0 - niobium, iron. Card 4/5  er  VP i6n. r ht"Ir7 &4 vsw Won sl!&~; 'y ~ . , te on the cvnnpn.-pr.tlw W(to Sep -0s, frNit hhkY to tensber reewdin 11 SiOft A, 1411 rKl o C O f4 o Y4 s so Q ( R ;, 7 g , PCs Alialypri ;wv W;~ til" 0" CMIP4 at Ow waters at . . the IXKUFM ti tht.40 r-NxdWg Cl~ 9; pH a 0'! , IN " r~ X(h NO, :40~ MI., a 13  VIROGOV, M.N. Lengthening the life of spotlights. Tekti.kcino i teley. 4 no.10:70 0,6o. (HrRA 13: 10) 1. Leningradsksi-a studlya kinokhroniki. (Mot I or-pict uras-- Light i ng)  PIROOOVA, M. V. 7=i/Oceanography Marine CcnLposition Nov 48 "Upper Boundary of the Hydrogen Ou.1fide Region in the Eastern Section of the Elack Sea,O Ya. K. Gololobov, N. V. Pirogova, Oceanographic Lab, Georgian Sta VNIRC, Batumi, 3~j pp RDA Ak Nauk SSSR" Vol LX111, No 2 Presence of hydrogen sulfide in deep water layers of the Black Sea is attribute,; to reduction of sulfates by bacteria, forming carbonates and hydrogen sulfide. Its absence in the upper layer is caused by the large amount of dissolved oxygen. A relief map of the upper stilface of the hydrogen sulfide zone Elves the sea's system of currents and a possible method to estimate their loc&l strength. Submitted by Acad D. S. Belyankin 17 Sep 48. PA 55A9T77  MR/Hydrology - Hydrochemistry Dee 49 c1 *Variations in the Hydrochemical Regime and Raw F- L^ Material Basis of Lake Paleostxom," M. V. Piro- Lr\ 1-4 P OP21iroda" No 12 Ma lake, located in Kolkh'd depression close to Poti on the Black Sea, has total area or 18 sq ka and aversV depth of 2.5 meters. Observa- t1atts carried on over number of years revealedL &me interesting changes. Water is gradually increasing in salinity and at same time amount or soluble oxygen in the vater is also increasird 155T" MM/4ydrollogy - Hydrochemistry (Contd) Dec 49 (in mom sections content is 10D%). Rovever, recent chemical tests of the vater revealed its caqposition is very similar to fresh vater of IMX Sea. A cnanne.L connects the 1&kv abd the SM, and the f isb catch in the lake has decreased slace this link vas opened.  W&Wi cc  Dommuhhodo W oz#dWbWty of natwal walas M Pbv~M Da"y Akad %!abk 5 1; .5 R TS. 841 4f IV.41 IPaMil"IF (mil of 0. nemsmary to oxiditc the arg mat- tet dimWvtd in I I of the natural waters) as d"d by the Mopintsev method (C A 29. W.W) a Im, k- - mAnt, I, .waml pubstappm off UnSfIrvird It th. Umple, .,f~ pr, If.Aled with alkali .2 "it NO'; \4011 1., 1.11 .,.1 ~... 1.4-, .S. h 10 "Ila boilint, followed by &Act tOruti'lleAll-, Ol. 11(1. mW the umm SkOldlitiCy INIUMIMIF Of 011dAtIOM M -stral main asuch higher t"1111A are ObIARIMI AlvkMt -. ~; ol total d&oW%vd matter and '11& .1 O.l dt, -ITOd FUA(tCI. Oth - Yllit-al 04111111" Of DIAA ~WA -J~ I-r- I CGII On known MAIM41% 111CIN-0c k5 W`, bohydrates. 1%, We tauf~m, ami 'k.$ 'W", 1,11v C. M  PIROGOVA. N.V. Chemical exchange ~3etween the bottom and the water In the Black Sea. Gidrolchim.mat.. no-21:10-18 '53. (KLRA 7:3) 1. Gruzinskays nauchnaya rybokhozyayi3tvannaya stantalya VNIRO Batumi. (Black Nea--Hydrolorgy) (Hydrology--Black Sea) tud' i-d t.:)e cneird ca i a.,,l c ,a - a r- in r r *..'?1123, 1! 'aii ~5  .I I TRETIYAKOV, Ye.P.; PMD30VA, V.I.j GOLIDIN, L.L. Conversion transitions 03 companying the oc-decay of Th 229 , and the level scheme of Re . Izv. AN SSSR. Sir. fiz. 25 no.2:274- 282 F 161. (MIRA 14:3) 1. rptitut tooretichaskoy i eksperimentallnoy fiziki AN SSSR. (Thorium-lootopes) (Radium-Isotopee)  Abs Author 1 ns t Aos t ra Lr. . Ca rQ  S/046/61/025/C12/C12/:'6 B117/B212 AUTHORS: Tretlyakov, Ye. F., Pirogova, N. 1., Golldin, L. TITLE: Conversion transitions accompanying the ai~ha decay 3f Th and the level scheme of Ra 225 PERIODICAL; Izvestiya Akademii nauk SSSR. Seriya fizicheskaya, v. 21, no. 2, 1961.. 274-262 TEXT: The present paper vias read at the ICth All-Union Conference cn Spectroscopy (Moscow, 1960), and also at the 11th Annual Conference on Nucle- ar Spectroscopy (Riga, January 25 to February 2, 1961). It presents test results that have been obtained by the authors by using an advanced method of studying the spectrum of zonversion electrons of Ra225. The investigations were carried out by using not only a-e K but also y-e K (spectruir. of conver- sion electrons in coincidence with gamma rays) and a K-Y coincid(?nceB ',gamma spectrum in coincidence with the electron line). The conversicn electrons were separated by means of a torroidal beta spectrometer of high intensity Card 1/ 7  S/048/61/02'/002/G12/C'6 Conversion transitions B117/B212 (Ref. 4,. The gamma quanta were recorded by means of a scintillation K-aMma spectrometer, which consisted of a NaI(TI) crystal, an amplifier, and a 229 isotop one-channel analyzer. The measurements were made with a Th e whicw- had been obtained by chemical separation of thorium from U233 that had beer. stored for a long time. Two test series have been made. Fig. 31 shows the internal-conversion electron spectrum for one of the series. A list of the conversion transitions obtained by analysis of the conversion lines cf Ra 225 is given in Table 2. Based on the results obtained, a new level scheme has been suggested for Ra225 (Fi5, 4). The data found during the investigation of alpha radiation of Th2 (Ref. 2) are given on the left side of the scheme, while on the ri6ht side, there are the level parameters which had been found by analyzing the conversion-electron spectrum ~It f-.l- Iowa from Fig. 4 that it had been necessary to introduce a new level around 25.3 kev belo a This necessity arose due to a 25.3-kev transition with high intensit; (~O'%) that was in a cascade with a 17.3-kev transition. Besides, the investigaticn of e K_ y coincidences showed that conversion electrons of 25.3-kev transitions (Fig. 1) and 42,7-kev transitions coincide with garma quanta of energies of up to 20C kev. The necessity of ~ntrc- Card 2, 7  S104 61/02-/0C2/C12/_-~ Conversion transitions B117YB212 ducing a level below that of a. agrees with results given in Ref. 3, Apart from the above mentioned level, also a level near a214 had to be introduced. According to measurements, this level energy is 210.7 kev, with respect to ao. Several cascades confirmed this value that had been calculatel fl-r a direct transition: 17.3 -~ 193.4 a 210-71 86.3 + 124.4 - 210.7; 56.6 + 154-2 - 210.8. It is pointed out that the level Introduced does not contradict the existing Tt.229 spectrum since the resolution of the aldha spectrometer used was not high enough to determine an expansion of the a214- line by 1 2 kev. The energy of the 86.3-kev transition is almost t~.e same as that cf the a86 to&nsition that had been observed in the investiga- tion of the alpha spectrum. It had to be classified as a transition from the 210.7-kev level to tho 124.4-kev level since it coincides almost completely (about 80Y.) with the XK-radiation. On the assumption (Ref. 2) that the a214 and a246 levels are the first two levels of the rotational band, a transition of the type M1 + E2 must take place with a considerable intensity. In fact, such a transition was established. Its energy is 32 + 0.7 kev and its intensity is about 5-%. Spins and parities of levels Card 3, 7  S/O,.8/6 1 /025/0C2/C' 2 Conversion transitions B11-1/B212 (ao and above) have been introduced on the basig of data on the multipciar- ity of transitions and in%ensitiee. The a 214 level with a spin 5/2 and a positive parity is taken as starting point. Studies of the sTin and the parity of the level (a_ 2,.3) and of the ao and a 20 levels and their assimed 9~ln values led to the conclusion that the (a- ' level has a s.-in -f 25.31 229 or 3/2 and a negative par:,,ty. In the alpha spectrum of Th no trans,.tion to the ('-25-3) level couA be found. This forbidden transition fcr an alpha decay seems to be due to the fact that Its parity is opposite to that 225~ --yayev of other levels of Ra The authors thank G I Grishuk, V F Kc, Yu. N Chernov, and S. V. Kalashnikov for assistance in the exierments G. I Novikova is mention-ad. There are 4 figures, 2 tables.and ? refer- ences: 6 Soviet-bloc. ASSOCIATION; Institut te,)reticheskoy I eks peri mental 'noy 82ki Akademii na,,;K SSSR (Institute of Theoretical and Experimental Physics 2f the Academy of 3ciences USSR) Card 4/7  S/04 61 025/002/012/016 ~ Conversion trans itions ... B117 Y321 Legend to Table 2: 1) error (kev); 21 intensity with respect to the alpha C decay 3) multipolarity no. n.- F. kov rpem- CUT"I M kov I rpm. NOC 16 wwrb Or. SOCUTe"110 , T myn I I f 0 ,V VI T k*V O-PICUAgh, ' X Tb ., b % % -3 17 3 2-1 7 'l 0.3 30 5 1 3 7 .0:2 3 o 11 25.3 o, 1 70 El 14 1 A3,0 1 0,2 3 1 :12 0.7 5-4-3 M I + E2 15 154,-) 1 0.2 4 111 42 7 0,2 26 91 to 5 14 1 0,2 6 A/ I 5fl: 7 0,2 3 At t t7 t79 9 : 0,5 0.5 ".!1 0,3 3 1111 + 92 18 193 4 0,1 to 75, 1 0.1 1 8 E2 19 10 0.1 10 it I 9 86,3 0 t5 311 20 '-' 70 1 0,4 0,7.0, t 0 107,2 0:' 3 1 21 / # 2 2. 0,3 0,3-+-0,l 1 124. 1 1 0,2 Q At I 2~1 t.0 OJO-+-0,051 Card 5/ 7  Conversion transitionB (9 C~160 fl,4 Card 6/7 C. ~, S/04aj6l/025/00n/-12/016 B117/3212 I.S If# f, 4 tJZ4 + Is- JFf 4  Conversion transitions afm WOO 6 Of7f OW of 're - I I uj xf. of, f-I I Card 7/7 S/04 61/025/002/012/C!6 B117Y3212 + + (.70) 4J.6 4 IS.3 1/t mv 44 -  TRITIT,&KOV, "O.F.; AJTIKINA, M.P.; GOLIDIN. L.L.; NOVIKOVK. G.1.; PIROGOV A. N. I. Spectrum of internal conversion electrons accompanying d4-deca7 233 229 of U and the energy level diagram of Th . Zhur.eksp.i toor.fis. 37 no-4:917-927 0 159. (MMA 13:5) (Uranium-lantopes) (Thorium--laotopes) OllactronB)  GO L'D IN, L. L. - W)V I KOY,t. G. 1. , P I ROGOVA, N. I.; TRITIJAKOV. ' a. 7. Alpha-docay of Th?29. Interaction of nuclear l"vals. V-.t---. nkgp.i toor.fir. 17 no.4:11~~-1157 0 159. (KIIL't ll-~) (7h,rium--D,qc-a-,)  FIROGOVA, N.I.; XRSHI.ZR. B.V. ,--O--~'Preparation of anhylrous lithium iodide.-Zhur.prikl.irhim. 29 no.7:1128-1129 Jl '57. (MIRA 10:10) (Lithium Iodide)  , Vol. 3- 67); 40 14(19 3 Nc~ 4 cl act . _ . . , , --7--Asa 4.a- till- *at%- VMS 00 " Ttnru -lame Inatit'Ac f h kt t t, sov tin o =m W b y mp"2ted VMS i&nti[W by lalf-lift s y "' u~ ft ti ilia pDactions Sb n Js,p) ' "'Y Fou 0 0" 040 A 0 010 Ab 6d t b I f . . e. , n wns o o 4 0#4 value 0,05. JM Ften~w 7-4qA  In r c Iy '17  1 AM &od maw dorb vb~ waMW a dxW =-k dwfv. (m bdow I. Be mioft-~tmcoff so" - P::r,4 = ate A nmA v i w= A& mb an"= d am sm"Mumb so moswowd A. xbdanm ?Able VOW. tm,in um. U. a"_ cb9m.) Be ivis-mito A- 46. "W.-A"o. W 10 g. M.C14 tin 120 1. Muccoc"Am so a I m 0 tome. of am Ed. CN6:- complolm a" SA W= sm 0% N loish vv~ t.!6 bW =="*T 91 IAn - W" Wait HCWI OW "I Too ON W" %filk ow serM AULODO-s- W" PkNnh wave it sm Hill, wasumum b Amo at dwead %=p. It Is p=" 1o 666" alp& 3"0. 'A-bm bMd on I&W k I ism some It SO.&SMS4411 elojopropomor6ovy".1opi M. 179'. a. ageism of dommlymnall doW. 1. A. D'yokomm. 1bW- ftjCNm1m4Omd- CJit:CIICH&OH to Sm OL rdhains C16: CHCMMI pvt N MW the - mixt.. tmUd *vm1*1 Ville 940H FWW 7% (Pk#C. N INN, (Imm a"). "W ait momber or " =1 "r ted butimmin IlIs% phcm. 0 &JIM. be. IND". be 10-414 J.fflie wbkb. ""led Witio 1116o, (boo a. 84%~AM ----~HC)j,Ojj. b., Me. d-.- I~M. V IMI 140'); the &k. wftb.KMDOG Pvv % S."Phowykysipo"amorbendoc acid M. wbm At all was OFAIvud; the latter a fat-liff 8W- a" IW Tbg sk. JAW to lei" a a. ide wkh Mt. ykMtnf d- o and own; umdor the bom toodnouss. ON" sar"s ;woly: oody &owl amu. of cmit pro& MW IW-4*. cents. a little Ik wm obtaimd At- a Own of the sk. with XIISM Vave am sm- gm- 0. M. KGROLS101011  L 36510-66 EVq(1)/FVT(m)/`:',VP(w)/ 1/_--'AV(t)/ET1 1JP(c) RINY/JL) `4 """ 0 A7C NR7A ACC NRI AF6013464 SOURCE CODE: UR/0139/66/ODO/002/0133/0136 All"IOR: Shalimova, K. V. Di maj I.; Pirogova, N. V. ()RG: Moscow Power Engineering '.nstitufe (Moskovskiy energeticheskiy institilt) TITLE: Electric properties f polycrystnUine film of zinc se lenide of cubic mWi- fication I/ SOLYRCE: IVUZ. Fiziks, no. 2, 1~)66, 133-136 TnPIC TAGS: zinc compound, selenide, resistivity, temperature dependence, polycryst&l- line film, semiconductor film, activation energy ABSTRACT: In view of the discrepancy between the results obtained by different au- thors on the electric properties of zinc-selenide films, the authors have measured the specific resistivity and its temperature dependence for films made by sublimation of the original powder and also by sputtering of the two elements separately. This resulted In samples that differed greatly in their properties. The preparation of the films is briefly described. At room temperature, films obtained by supperting annealed powder had a resistivity larger than 109 ohm-cm. When the composition was enriched with an excess of selenium or zinc, the resistivity decreased by as much as three orders of magnitude. Films with excess zinc had n-type conductivity, and those with excess selenium p-type. The temperature dependence of the resistivity was mead sured In vacuum in the temperature range 300 - 700K for different substrate tempera- tures prior to deposition of the film. The increase of resistivity with decreasing Lcqird__ j./2  L 3t)-)10--,(,6 ACC NR, AF6013464 temperatures is approximately the same for e.11 substrate temperatures, but the activation energy was found to depend strongly on the manner and temperature at which the film was produced. Film prepared by evaporation of the individual elements were also tested. Differences between the evaporation conditions and their effect on the tenperature dependence are briefly diacussed. Orig. wt. has: 3 figures. BUD CODE: 20/ SUBM DATE: UJula/ ORIG REF.- 002  PIRDqqVL,-h.V. vine structure of ab3orti--n spectra of polyr -. -z;talline CdS films. Dokl. Ali' SSjR 139 no-5:1159-1162 Ag p 'A. (KMA 14:8) 1. Predstavleno Waidemikom V.N. Kondratlyr-,% (Cadmium sulfide crystals-Spectr f*  L 243%-66 W(I)/XW(S)/JiTCif)/AW(N)A/JWP(t) JJF(e) W/;D/00 ACC Nfl: AP Cob&15 .fSOURCE CODE: UR/0139/66/066/Obl/0136/ol4i AUTHORS: Sballmova. K. V.; Spynulesku, I.; P rogova. N. V. ORGI Magnaw Power RnStagaring Tnat hesk?y itutg (Moskovskiy energetic Institut TITIES Effect of the conditions under which thin film of zinc telluride are obtained on their etrin Dranaxta" -A-7 SOURCE: IWZ. Fiz1ka, no. 1, 1966, 136-141 TOPIC TAGS: zinc opupound, telluride,, resistivity, thermoelectric power,, semiconducting film, temperature dependence, semiconductor carrier, stoichlonetry, crystal structure ABSTRACT: The authors report on the results of an investigation of the resistivity and thermcelectric power of several sublimated p-type cubic-modification zinc telluride ranging in thicknean.from 10-6 to 10-4 cm. The investigation waslActivated by the fact that the contradictions In the results obtained by various authors were Card  L 2636-" Acc NRt Ar6ooft15 0 apparently due to the differences In methods of preparation. The ;samples were prepared at different evaporator temperature,, different d1stances between evaporator and substrate, and different degrees of vacuum In the working system. The Initial powder was sublimated on glass and quartz substrates,, which were either unheated (35C) or heated to 100,, 260,, 200,, 250.. 300, 3509 400, and 4500. The powder was sublimated In a vacuum of 3 x 10 5 and 3 x 10-3 mm Hg- The -and the thermo- quantities measured were the specific resistivity, electric power. The sign of the carriers was also determined. The resistivity was wasured as a function of the thickness of the sample, of the substrate heating twamperature,, and the evaporator temperature. In addition, the temperatuz* dependence of the conductivity of the ,layers obtained under different conditions was measured. The results showed that the coefficient of the thermoelectric power and the resistivity of the films depend considerably on the method of prepara- tion. This Is due to changes In stoiabiometry which occur under .various conditions. The results also show that the type of crystal ,structure also has a pronounced effect, but heat treatment itself Card 2/3  L 24364-66 ACC KH: AP6008115 does not. The thermoelectric power increased when the films were heated In air (400 -- 4400), reaching In some cases a value 1000 -- 1200 jLV/deg. The electric conductivity had an Irregular temperature variation, but in mo t samples it increased with increasing tempera- ture. Orig. art. ha:: 6 figures and I table.. ' SUB CODEt 20/ SUBM DATEs 16Jan64/ ORIG REF: 009/ OTH REF: 001 Card.  PIROGOVA, N.V. Reflection spectra of polycry-st&U-ine eacbdum sulfide fil". at 77.30 K. Dokl. All =R 139 no.6:1433-1415 Ag 161. (KM 14:8) 1. Predstavleno akademikom V.N. Kondratlyevym. (Cadmium sulfide--Spectra)  SHALDIOVA, K.V.; PIROGc)V,,, 11.v. --ffect of temperatu:-e on tre cti--al absorLtioja of poly - rysta-11 in-e cadmiun 5ulfiae layers. Dokl. V1 s-,SR 139'no.4:~38-94.1 Ag &I. (MIRA 14:7) 1. Moskovskiy onargoticheakiy institut. Predstavleno akademikom V.D. Eondratlyevym. (Cadmium sulfide--Spectra)  PIROGOVA, N.V.. KYOKHLCV. M.Z. Radiation spectrum and temperature of the arc column In an arc valve. Inzh.-fiz.zhur. no.2:51-56 F 160. (KIRA 13:7) 1. Anergeticheekty institut AN SSSR Im. G.M. Krzhizhanovskogo. Mosirva. (Electric current rectifiers--Spectra)  25864 cf, y / 70 S/020/61/139/004/024/025 ~L~ B127/B212 .26 .2 1,( ? 0 AUTHORSs Shalimova, K. V., and Pirogoval N. V. TITLEs Effect of temperature on the optical absorption of polycrystalline cadmium sulfide layers PERIODICALs Akademiya nauk SSSR. Doklaay, v. 139, no. 4, 1961, 918-94' TITM In earlier papers. the absorption spectra of CdS layers had been observed at low temperatures, and three absorption maxima were found at the wavelengthat 340, 420, 500rnAi. The authors studied the structure of long-wave absorption maxima for CdS layers by a photographic method. The spectra were recorded with a VO-84 (UP-84) camera and anH(n -51 (ISP-51 spectrograph. Studies wer,.~ conducted at temperature decrease from low temperatures to liquid-nitrogen temperature. The substanc.~a required was produced by sublimation in vacuum (10 -5 mm Hg), in argon atmosphere, ELn! with hydrogen sulfide at ') 5 - I mm Hg. The substance was sputtered on backings of 1jartz- and glass plastics so that no impurities could deposit . The layer, which had been sublimed an that backing, preheated to at least Card 1/3  S~58 02 61/139/004/024/02c, Effect of temperature on the optical B127~B212 3000C. showed green luminescence. The absorption spectrum showed a complex structure at 77.3"K. Fig. I represents the microphotographe of the spectra. Results clearly show that the absorption band of the spectrum in the range 4600-5070 1 lepenis on the mode of formation of eamples. At low temperatures, it is closely connected with luminescence, The substances studied displayed one or two maxima which depended on the production technology of preparational they were, however, independent of the layer thickness. There are I figure an~ 6 referencesi 5 Soviet-bioc and I non-Soviet-bloc. ASSOCIATIONo Moskovekiy onergeticheakiy inalitut (Moscow Power Engineering Institute) PRESENTEDt March 1', 1960,by V. N. Kondratlyev, Academician SUBMITTEDo March 15, 1961 Card 2/3  q,,4/70 2 7265 JZ 4. :? Ll,,~ / (eA~ 2010,1110) B'O /B 2 0,9 ATJTHORi P , rcg)va, 1; v. TIT LL F-. n ru PERICLICALi A k a m i y ri n E, u k 5 S S R D- K I Fo iy n TEXTi I n a prev i ous pa T er t y K V S a a N V P 1 r c g - DA N '3) IN f e a b 3 1 p o I y ry s -, a 11 1 n e C dS f 1 M 3 a r a e m c- r a r nave one or two maxima ieponiing ~,r, 7- I o c r a s i n g t e mp,, r a t A r t~ t ne lorg wave max im,jr. ,s spl,*, ;r.~ whij- that of th,- sticrt wav--s 18 Sh"f' "Ll -ward sri-r' w;t%,. a m0 t =,~s a t n t 2 r n ro -14,1 c i s r. n s r j a: :r, i n ma t i L5 w r obtained by spa' r ri,- s L, Ll Hg t n argon atmDspner- a 7~,~ n H S qtm-S~t.-r- 'k. S wq a I a:- am T t, z w r. A  r. 1, r, s r F3 r 7. t T. r. mo i a f Ej 16 a s a a ,,s IL T n e tF, r. %j f. r L i ad d i t i n i~* c, r, xi cr 9 m- n it r 0 a hc~w p I h n J, Th i '17 1 _m i r: -s ~rjc- ncr a rs r c r, Y. rt .9 C 0 ara -0 'C s Et v t a j.,Js a rA w r. ,en i nos -n - t-mperat ur,~, n r 7 h -im r. - S t m-.9 a :,. cr ea s -il n ~q t- m r,3 r - bas- h ? q j re a t i ons h b e t 'a eo r. s i r :'a r, :L i a r Ic 7 h e x i a *. i -.w a t 9 r. t a f, A -rL- ri i r - r a 9 o ri i. a, i w a a f c u r, d c t a i m ha. "M~ ab s s A 7, a r 2 1% Pmi Prat -r-s r. d e E, t F - r K s 3ml 9 i: a r i - r t t,m e r Ei r -a I 1 4  "s F.ne structare , f t emp era t ur - f r )m e r. iu t - r ma x mi, and I uzi nc-s cenc o t erom~z3 t r gh " Thps- ta:i~-q It e I' a bs or t i or. of t h at as L i roz i x, ~ss 9 t ion ec tror, i a '. r a n s f r - e i f rc m 4 r., rma atim to I ~s ex -its Z I,-, r. 1 "V~-11 9 ar 1 ight Ihe former level is spl:t i nto a I At I i -i the crysta' latt ice , wh, reas the I a t 1, P - I ~ , - :-. -a 1, - Pffo---t of the tas,~ i r, ~, a r -, -, g f h- 7- - manifes' first :;f all r. a rt t i s pc9itior. Als.- 'he affected by th,, alter-d t.-at ing ~mp-rul d i f f - r~ n c e 9 c f a amp I e-t a 1, -a t t u,~-r ff r. ri r by tho a-thar ~s ascrit-11 o r. - Pr.*. ra c r. f f-x -ss q :i.s r q r s ru c t u r;~ A ? I A - e 7 r . ry 9 f I d:1 a i r,g a M -3 S i t r Fi r -  F . n r r,, that CIS !'i ',mi navt i nexao3 nil ,i*,* r. 5 Plt t, p r . r,~: In 4 r. r Ek S T., r,, this mzdif i -it -. -c. ~,C- ;r I t. , 1. r for guidar-e and aiv-, ~,r*,!--: n;~r rt4er-r.-esi 2 Scv]t* _c Hi~SEML! Mar-n Say ITT LL I Mar-n A IL Carcl 1,'4  ?865 S/ 020~61/13 9,~')06/02 2, ~2 2 C B 103j/'B 10 1 .,"TH-R Firogova, If. V. :ITLE: Reflection spectra of polycrystalline oadmium-sulfide films at 7'.30K PERI~':)ICAL: Akademiya nauk SSSR. Dcklady, v. 139, no. 6, 1961 t 1413-1415 TEXT: The authoress continued her at-ady of the spectra of polyorystalline ,:admium-sulfide films in the 5000 1 range (Ref. 1: K. V. Shalimova, 11. V. Pirogova, DAN, jd, No. 4 (1961)1 Ref. 2 : N. V. Pirogova, DAN, N-. 11961)). She obtained new Jata on the nature of impurity absorption of US. She clarified the spectral distribution of the reflection of thin CJS layers and its dependence on the production conditions of the US preparations. So far, it has been unknown whether the number of absorp- tion bands is equal to that of the reflection bands. If this in actually the ~aje, it would be poesible to determine the absorption spectra of US powder from their reflection spectra. The authoress studied the refleotion spectra of US films at nitrogen temperature on the same 3pei,imers ugei in Ref. 2 for studying opticai tibsorption. The experiments 'a rd  28655 S, 020161/ 1 ")/CC h '~22, G-- Reflect,or. spectra of polycrystalline ... B103,'B101 ah,,%ed that US films sputtered in various media onto cold I tick., ng,.,j exhib Ited no reflection fine strj cture in the 460-490 mA rane~u. TI.is fine ,qtr,icture is displayed only by specimens sputtered onto heatej .a,:k-.nFs. I to 3000C exhlbit only Ir general, specimens sputtered onto backings heated )t-.e reflection minimum at X -4777 ~. This minimum is even si,uAn by such preparutions as do not exhibit any bands in their absorption spectra. Th6 n,,jmber of minima increases at ,,igher temperatures of t~e backinp, at abDut 4~0-'00')C there are f4ve peaks. From the fact that in ceveral s *Jec iir ens t~,e reflection spectra correspond to the absorption spectra, it is ~11,: I,idwl that the nature of the fine structure of US reflect, cn lar.Js is similar tD that of its absorption bands. K. V. Shalimova, Pr~Jesjqar. --a tnanked for guidance and advice. There fire 1 figure and 2 S,vlc-t refor- enles. PRESENTED: March 17, 1961, by V. IT. K ndrfit'yev, AcaJemician S7WITTED i March 1, II)CI CATJ .'.  TOLSTOT. Tu.G.; PIRD -GOVA. N.Y.; KAMENSKATA, V.P. Various questions of thm tachwlogy and current - voltage characteristics of gormantun pow,%r rectifiers. Isy.vye.ucheb. I&T.; fit. no.5:35-40 ' 58. (NIRA 12:1) 1. Inergeticheskly Institut imeni G.M.Krzhishanovskogo Al SSSR. (Germanium) Ollectric current rectifiers)  TOLSTOV. Yu.G; XMMISXAYA. V.P. ; PIROGOVA, q V Deteruining the opernting pmrazaters of germanium rect if tars. Izv.v7s.w-heb.%;av.; fiz. no.4:17-42 158. (MIRA 11:11) 1. Moskovskiy finergeticheskly institut imeni G.M. Krzhizhanovskogo. Oftectric current rectifiers)  80276 8/1 70J60/003/02/09/026 0 B008/BO05 AUTHORSs Pirogova, N. V., Khokhlov, M. Z. -- P~ TITLEi Emission Spectrum and Temperature of the Ar-- Core of an Arc Valve PER10DICAL% Inzhenerno-fizicheakiy zhurnal, 1960, Vol. 3, No. 2, pp. 51-56 TEXTs The d.c. arc of E. Mark's (Ref. 1) valve was investigated. The dis- cha.rge spectra were recorded by means of a spectrograph of type "KS-55" in the wave band of 2500 - 9000 A. Within the current range mentioned, the gent-rf~.,11 character of the spectrum is conserved, and contains only the epe~;tra of the air componAts since the metal vapors are blown out of the discharge 7c+!. Fig. 2 shows two amall sections of the spectrograms recorded (the arc axis is perpendicular to the spectrograph opening). One shows some multiplets of the nitrogen spectruz in the infrared range, the other one the edge of the Aalld -1 Xt at 3914 A. The atomic are spectrum consists of lines of neutral L 2 nitrogen, of oxy-Aln, and of hydrogen. Table 1 shows the transitions which Card 1/3