SCIENTIFIC ABSTRACT SUSHCHINSKIY, M.M. - SUSHILIN, V.A.

-Su'-~Hc' 0 INS r\1 PHAS TL BWK, -MAXIII-Xv SOV/4417 #Y.,~adizma.ya nauk SS-SE. Fizichs)3kiy -ya p!,--, oj;~tlke Nspt-ics Reaearch) Mase 1960. 273 p. (Its: Trudy, taa 12) 2,2t,-,0 cc-p7`-e5 printed. Reslp. Ed..- Skcibelltsyn, Acade cian; Ed. -f Publi-shing House: D.M. Aleks~yev; Tech. Ed.: G.A. A6taflyqva. . - '11 . . - ." lia qptic hysics, and chemistry. YORY" SE. 2 tn: LUM"- jE, Jr_t.~-,ncjt- for re--iearc era s GOVv-PAGE voltme.- ccnt-:d.nS ow abr-l-doged &.7" two CCMplete texts of dissertations for tbtL cf D--ct-or of Ph~'sllcs and M-st-l ematiefr~:wb-lzh were defended by three 1.n '-'~,'-7 at~ tLe Fizi(hf~~kiy in-,,t-? ut imer-d P.N. Letedeva AN SSSR -44 of Sciences MSSR). Each disser- ny~=lc~- '-t--stttl~te lnt~r-,i P.N. I eledev, ke*tA tatdaia Is foL,--,ied b-,.y- Iists of references. CT. Galan:~n, MI.D. ReEor---aw~~e Transfer of Rxcltv;;t~cm Energy in Lminescent SolVltionS 3 This 1& 9n of tLe authcrts Oj.ssertEtion for the degree of or and. Matha~mat.cr-, defei~-Aed at the l1bysics Institute imeni  SCAT/4417 F-bruaxy 2.7- IT",. The aut', or canpanis Th. F-Srater's 4gaaltun t:;e ciasi V-al !ntei-,l?"..ta:tl_*n. . Ele ex--miues two extreme cif -averaging Molecules!, a ttt~ S-q,~e tx-~;~;.3ftir by ths eciicc-Ax-atic.)n e,;, and hcrr t:,aey might be ;~x~ ai-c_,rd it_',j- c� stl.~~ng ecdDined met--hola ot -forzit' ca f q enuy of molecules; turate ydro-' of stt-t naTihthen~-al, an-1 unse, El h: smeter L dsrj.. j.ivi. ,4& der t. L j 3f caabined Csxd 21  SUSHCHINSKIY, M.M. Raman spectra and at 54-224 ,6o. (Wdrocar ture of hy ocarbons. Trudy Fiz.inst. 12: (WRA 13:8) ons-Spectra  NOIRUKHIN, Tu. I. Seconi-order n " 0" the Raman a-l-ctra of hydrocarbons. Opt. i spe.ctr. 9 no-5~0;6-58 N 160. n: (3klton (KMA 13: 11) (Cyclohexan --Spectra) e-Spectra) .I 1~ (Rama fect)  KUZK,;VSOVA, T.I.; SU45 HI_NSFIY-,M,M. I-- jLGL Computation and iattrprotation or the 7ibrational SPeGtra of isobutane. Opt. i ektr. 10 no . 1:41-47 Ja 161. (MMA 14:1) rpropane--Spe~tra)  doktor- ri) -matem.na-uJ-OBUKHOV,-.&.M. GILYA-Rovil X.S., doktor biolog.nauk; TAFT, V.A.J, doktor tekhn.naAk; uk; GUNBOTSKIY, V.G.4 doklor tekhn. OLOFINSKIY, N.F., kand,4-~& tekhn.na#k naI Scientific contacts WJ411 foreign c ntries. Vest. AN SSSR 31 co -!no.12:101-105 D'161. (MIRA 1-4:12) 1. Chlon-korreappnden AN SSSR OV). Iscience-Cf0i0o .-4-64~  B/030/62/000/01 01061007----~, I)204/1)307~ A11THOR: Sushchinskiy, M._M..L Doc;or of Physico-Mathematical Sciences TITLE: Molecular spe(troscopy .PERIODICAL: Akademiya naulI SSSR. Ves nik, no. 10, 1962,.36-45 TEXT: A semihistorical treatment'of concepts of the nature and of the in spectra. The interest is focussed on thus on molecular symmetry, molecular brational frequencies arq ialculated be obtained from auch spec;ra. The e, tical calculations and of methods of and refinements introduced into the creased. number of parameters from wh 'and the observations of ch racterist groups -of atoms) are descr bed. The ture with the spectra obse ved is tr Card 112 he scope and the fundamental rpretations of molecular he vibrational spectra and models, methods by which vi- ~and the information which may pirical nature of most theore- interpretation is discussed utter field:(ouch as the in- ch inforpption may be derived,. c8 associated with certain orrelation' of molecular struc- ated in some detail and is  S/03 62/000/010/003/007 Molecular spectroscopy ri D204%307 illustrated with examples; &xamples ale also quoted of compounds whose structures were de~eruined by REman spectroscopy, and a 'des- cription is given of some'applicationE of vibraltional spectroscopy, such as the determination oC hindered rotation:isomerism and tile study of compounds possessiag large mclecular weights. The basic theory isgiven of nuclear nagnetic rEsonance and"of its applica- tion to the determinatioxi'oC molecula:r structurea, and the useful- ness of the various types oC rotational spectra is discussed, ,quoting 6ome results. The aivantages and drawbacks of the use of molecular spectroscopy in-aialysis are listed, concluding that spectroscopic methods could be used for.e.g. the conti:nuous automa- tic control of industrial.iprocesses. Mere are 4 figures and 3 tables. Card 212  SUSHCHINSKIY, M. M.; ZUBOV, M. A. Relation between Randn spectra an4 eleetzon absorption spectra. Opt. i spektr, 13 no.168766-774 D1162. (KRA 16:1) (Raman effec  . 'i_ SIUSECIiIWSKIY, M. M. Zavisimost' - inteii6ivnosti k6mbi natsiohn~kh ot cbastoty vozbuzhdayushchego svetz 1 Kolebani,, parafinov. report suhmitted for the VU Europe n Congress i 22-27 jul 1963. 1 niy 2-- go p6rftdkii nizkoy chastoty v spektrakh Molecular Spectroscopy, Budapest  "Camawu- - I - I i I- - I I - MULDAKHMETOV, Z.M.; SUSHCHINSKIYJ M.M. Anharmonicity of certa# charact spektr. 14 no.6:819-9201,T-e 163. vibrations. Opt. i (MIRA 16:8) opq~"tru)  L 17790-63 3D3 Pr-4, ACCESSION NR: ~AP3005840 AUMOR: Zirnit, U.A.; qa!1qA'_6i_i1 Am_.U. Low-frequency vibrations ~f methyl. subalitutod lobezanes SOURCE: Optika i spektrookopiya,."Y.15, no.2*_l 38 190-194 TOPIC TAGS; Raman spactrul cyclohexane dei-ivat ve j rocking vibration ~v AbSTRACM The low-trequancy.,regi(a 91 the Ram a spectra of hydrocarbons is P r' tieulftr illtdroat, for III this ro(i! an there M" b0 Qvine-od alat only ord in%X7!:4f oi mfitign vibrati9rua but also rookb4 Vibrations rotation of Otte part of the MOW -a i1 t A A& 4d -v it It cart% I P__ i It t opm 1 13 a d I ar, tatorantiono, n*s, for oxampla, hyxrogan bonds, Despite ito Intoraot, -thits-rd'r"010'r" 11AD 110t boolk 1wNtalalvOly Aiivouttal twl OwAfla t oxporimmW diffloultlea. In tjj rosont work thoro wore obtained I Ito 1 -froqu noy (100 to 400 on* U p the Raman spectra of mothyloycloh(xane(and eig t other viethyl. derivatives of.eyolo- hexane (cis and trans forms of di.. 'and trimeth I cyclohexanes). possib16 Med sures were taken to reduce the ba(Pground. A lack screen was used to cutoff th~:'.. --halo -of, the hl exciting H line-, the investigated compounds were very.thoroug y Card 1/2 Al  L 1?790-63 ACCESSION NR: AP 3005840 purrified, etc. The radiation BOW 4 wits ra low ~ resouro mercury discharge tub The spectra were recorded photogra xhically (12 t our expanures) on a V 11 spe otr graph with a linear disnOrsion of .8 R/mm. lnt~nsities were determined with~re..'i ference to the 802 cm-1 lina Of a y , T lohoxajloy t L o observed- lines - are listed:- In. It tablo-togethar with -the -data-- from - 31to I itera -);- comparlson -shows -that about__ -ated lines had not boar, of the dote observed hiti orto. An attempt was made to tiXy the lines duo to rocking vibr itiows on t1t) baels,ol calculations of the i rocking frequency of the mothyl gr ) up. The aal% ulated values agree fairly well ;, with the frequencies of , Some 0 , the lines observed in the Raman: spectra. Orig.art.has: 3 formulas and 2 tables* ASSOCIATION: none D too SLUMITTED. 14DecG2 AM 06S 3 ' CODE. P11, CH SUB REP S(YV.- 0 ()(5 2/2 Ord C  I --- PROKOFIYEVA., N.I.; SVEIIZLO'V, LIM.; , If. 4.4. C&lculation of the intfgral intensi ies and depolarization in the Raman spectra of cyclohexaae and deuterocyclohexane. Opt. i spektr. 15 na.4464-470 0 ~63. (I-aRA 16.--U)  VOLIKENORITNTN, H.V.1 SLIM41IT&SKITI NJI- Seventh Earopean Cong=ess on'YAl Budapost, Opt, i 3pektr. 15 no.6 A.- Spect"ackpT at, -R~11 D '63. (MM& 17: 1)  ------ ------- L 10727-63 hWA(k)/FWF(j)/E,', T(1)/EW,-(q)/ (m)/BDS/FBD/T-2/3W2/ES(Q-2/ TT1)/E I'A P'WL WF(q) pc__L EEC(b)-2 AK-f0/ASD/E3D -3/RADG~iFC-C /A PIWL PC-L. PO-Vali-i F-Willipf, G)Arb/i~&Vjm ACCESSION NR: AP3003161 S/0056/631044/006/2'L93 /2194 h, AUTHOR: Danilltseva, G. Ye.;. Z~~ 0v, V. A. usbchinskiy~, -M. M. Shuvaf(rv~, Is ai TITLE: -Application of the laser to the study of arnan. spectra of dye powders ~ SOURCE- Zhurnal eksper. i teor. izikij v. 449 no. 6, 1963, 219372194 TOPICTAGS- laser applications, ~Raman spect a, dye powders ABSTRACT: A 6943 A ruby laser has been app to the study of Rarrian spectra in dye powders. A spectrograph wth a diffract on grating of 600 lines/mm was: used in the investigation. A lens f cused the la er light on the powder samples, which were plated directly before i he slit of the spectrograph. A low-power cryogenic 11 ~bnaser with 1-1.8 Wojoule pump ng power was used; 30-100 flashes were required for photogra :)hic registratigh at gap widths of 0.07- 0 . I mm, which constitutes 8 -12 c-~ 1 -1 in -the gi en spectral region. Tests conducted with a number of differe it powders -i eluding 4, V-azoxyanisole Card 1/ 2  1, 10727-6-14 ACCESSION NR: AP3003161 (bright yellow) and anisal-apara-a=ff noazbobenze e (red) showed that lasers are ,- quite suitable for studying Raman A pectra of dy powders. "The authors thank M. D. Galanin and A. M. Leontovi ch for the us of their ruby laser. Orig. art. has: I figure. ASSOCIATION: Fizicheskiy institu im. P. N.- ebedeva Akademii nauk SSSR .(Institute of Physics, Academy of E ciences SSS SUBMITTED: 12Apr63 DATE A N: 23Jul63 ENCL: 00 SUB CODE: 00 NO REF SOV- 000 OTHER: 001 iwa 212  I SUSHCHINSKIY, M.M.; MULDAKHWT)V, Z.M. -I- Second-order lines in ribration spectra of benzene and hexadeuterobenzene. 0)t. i spektr. 16 -no.21234,239 F 161~. (KIRA 17:4) 1  SUSHCHINSKY, 14.14.; KLILDAKII Second-order lines and deuterochlorof,rm J1 '64. , Z. 1.I. and vibratio anharmonicity of chloroform molecules Opt. i spektr. 17 no.1:45-50 (MIRA -17: 9)  AUTHOR: Sushchinskiy, M. M.; Mul4akhmetov, Z. M. TTTLE: Second erder oscillatory spectra and anharmonicity cf molecular oscillations CITED SOURCE: Tr. Kormis. po spek roskopii. All SSSR, vy . 1, 1964, 176-183 'TOPIC TAGS: spectral analysis, 0 cillation'sp~ctra, organic compound TWISLATION: A brief review is g ven of studies on second order spectra. The authors' research on the second oider spectra of cy_S~lohexane.jchloroform, benzene1 ariu- their (~eutero derivatives are described. A regularity wao observed in the be- ha-vior of the coefficient of anhat*moniclty and in the intensities of the second !order, lines. Mull fi-equencies chloroform ~nd deutero chloroform were used ih~ calculating the results. SUB CUM: NF, OC ENCL. 00 'Card 1/1  L r. U4 ACCtSSION MR: AP4044849' F -M 's. :AUTHORS, Prokoflyeva, 3 r -3 r- t e T-4 ard integrated and carbon tetzach-loride SOURCE: O~tika i spektroskop~ya, v. 17, no. 3, 1964, 374-380 TOP IC TAGS Raman spectrum., iine intensitv, electro optical para- I t r rA,71-1 c, r 1- d e, polarization ABSTRACT: -his is an extension -)c earl-ier work by t'~ie alithors ';f-33; 1. 15, 464, 3 16 ~7-,), -omp- 7i-~s ~DT- it an !ivdrocarbons, and 1 ar' !-e, '-~:i -',.:i i IT f-n I Q ~,-Ie ~Iuthors calculated Card 1/2  L 8705~651__ ACCESSION UR: AP4044849 bonds, the inteqrated intensildies, and the polarizations of the lines 1r. fAM? P:LT-in, Sne -~f -)7--fo-m, and carbon theory i(- r,~- emi 1 -,y calculation con fi rms the inr~ +-hat it ~ , eqsenttall *.,L lst-_- t")e first ap- m a' ')r 7a' T:heorv i!, ~hr, !.-.11-ilation of the L) a i L ncT,:x as P nor 1 1 v Drig. art. 'has-  T P01.4-Az EWA k I/ E~,,T(i 'I/ EEC K 2 _2 U R14 --ic di-S S_t 647- 4, Re AP4043665 T AUTHM Zubov, V. A.; gusha~inskiXj Mi~H,; Shvvalov, 1. K TITLEi Investigation of the!excitation threshold for stimulated Raman acattering, SOURCE; Zh. eks?er. i caor. fiz., v. 47, no. 2, 1964, 784-785 TOPtC TAGS: Raman sdatterin comhina-tion ecattering, atimulated Raman scattering, stokes lfn~, induced Raman gcattering A3STRACT; The threshold of orcitation of atimulated Raman scattering and perLineat lirse param i .. nLan a c a a:ar~ ar. amlaa A-a -Lte,rin& were da- _~y ternined for the following f[Eve compouddst li-enzene~11,3 p6ntadienel 9 --i'- 3-riethvi-1,3 butadione carbor, disulfide, in--q t, y r e n e ie T wals used as the source ot excitation (wave- t" a ro n;,, goo rhe spectra of -,,Pre recorded a 9-neccroaraDin, a,; I n, g adi~fraction grating _~,acr_romece with a lot! ui I :- a me t Crg of ~3 r - Raman acaztar.-g axi:Lted Dy P mercury line at the w--ve'ength Ca,d 1/ 2 SM, MAI~~MM4)759 N  L 894"5- ACCESSION UR: AP4043665 of 4358X. In compounds wit a relatively low excitation threa -old 0 and C-OnJU ated C- C bonds,. I t e stimulated Ramen scattering lines were Ln t cm- region. The materials investigated repcesent a new class of active , gtimmlated Raman ecatcerirg com- in which the pi-eleCtl-Dns are not in the cyclic systems. The for otl-~ulatad Raman scattering i~3 determined mainly by the I~;ne lntensitl ~f standard Rairan jca'L,'.e:ing an-11 is practically inde- .~en-4entt of the degree of azpodar " zat lcia. A ---.)-i!;ider~ble increase in in-ensitt; cf stimulated Raman scptteri-ig was observed for only -i a n z r e a s fs e x (i irar-ion en--rrgy ~%fer e t h r e 9 f; o 1 d va I ue . Two _3 !1 1. nulltaneoui;ly in the 9 t imu- -4 t autall- trk ::_j a t ASSOCIATION. Fizicheakiy, in in titut i kiT SSI;R (Phyai-,a Institute, Ace4emy of Sciences SSSR) A J P R, E 3 3 1 N C L 00 &A 00 i CaM 2 2  7. "~ACCESSION NR: AP4041128 S 0053/64/083/002/0197/0222 F ;:AUTIIOR: Zubov' V. A.;__~ushch nskiy, H.~~ 0; Shuvalov, 1. K. skiy" e JITITLE: Stimulated Raman scat erLng of 1 ght L r ng 0 a k. -4 ;'SOURCE. Uspekhi'fizicheskikh nauk, v. 8 , no. 2, 1964, 197-222 !TOPIC TAGS,. 'laser,, Raman efftetp Raman aser, stimulated Raman ,Iscatteringv Raman laser materal ABSTRACT: The current state 3f theorn Leal and axperim4ntal work aimed at achieving Raman-effe-t laser a tion is presented in a :,comprehensive review based ma nly on Western sources. The principal a perimental, results are cons dered for two casesl where the ~scattering material is locate inside a d where'it is located outside', ee~ the Fabry-Perot interferomete In the latter case, particular 9 tattention is paid to the type of laser emissi;n falling in the Sto~es'._ e ;and anti-Stokes frequenc g ons. Dis ussion of the latest expari- y r:g of semiclass-.a.'- iments is backed up by a the etical exp sition in terms 'ical and quantum interpretati ns of Ram n-affect laser action.' Card 1, 12  ZLINIT" U.A.; SUSIICHINSKIY, M11-1. Lo,w-frequency oscill~tiohs in thel spectra of methyl-substituted pentanes. Opt. i SP,31 tr. 16 no.1,102 3 My ;640 -w frequency s-il tions in t ape Lr) 0 1 ctra or ratty acius. Opt. i spektr. 16 nc.5:903-905 y NIRA 1?.'9)  L ihIB-66 ENA ~k)/F-DD/ENT (1)/EPF (~)/EEC (k)-2/T Scma/ 7~/EEC BP (k __~k~-2 T ~q- __q ACCESSSION NP: :,AP502172T M/0386/651002/002/0063/06~f 1 AUMOM Zubova; 11. 0 Gushchinskiy M M. ZuMYL V. A. TITLE: The co :lex line structure in stimulat attekn( MP el Raman sc q:of 1!ahlt 55 SOURCE: Zhurnai ekaperimentaltno~ i teoretich:~koy redaktaiy'u. Prilozheniye, v 2, no,- !~t "zk" P's'ma v 2, lq65,,.f3-67,_and in attacheek to P. 65 TOPIC TAGS: Reman scattering, Stckes line, stimulated emisision,laser, Raman laser A13STRACT: In investigating atimu'ated Paman 5attering in styrene, isoprene, 1,3- pentediene, berizene, and- nitrobenz( ne the autho 9 observed line splitting in the re- gion of the f irst Stokes line. T! is ef f ect wa very pronounced at pump powers just above the bhreEihold, when the lint was split f om 1-2 components into 5-6 com- ponents and the' separation of the outer compon ats changed from 1-2 to 10-12 cm-1 As the pump PoVer wai increased he number of components and their separation de- craased until c!61'y one line vas'o served when he pit.%p power was 2-4 tl'kes greater--.,,,. than the thre3hold power. The sp itting of th lines was found-to be independent of the nature 6f th6 apparatus us d and the opirating regime of the.laseri The ef_~ fect was attributed to the fact t at Raman scattering occurs'on molecules moving at- a high speed. '.At a relatively lor pump power the formation of a 1tepark" ih the Card I/ ~2  L 1418i..66 ------ ACCESSION NE: AP502172T ~n liquid is accompanied by a flov of molecules in several directions. 'As the pump. power is increased, these directio s are shifte closer to the plane perpendicular to the incident beam until only on line is obs rved. It is calculated that in ordir to cause splitting the vtlociti '-'s f the molec es must- be very high (about f 107-108 cm/sec). Orig. art has: 4 formulas d 2 fisuresi [CS) ASSOCIATIOIT: Fizichaskiy inotitu imeni P" 11, Lebedeva Akademii.. ilauk.- SSSR i en (Physi'do Institute, Acflde~ bf Be ekes, bsn) SUBMITM D: 25may65 ENCL: 00 ..,SUB CODE.- OPS NO REF SOV., oo4 OTHER: a2- ATD PRESS:   n- &ted emission, i 'tice Intefaction. 4d thank P. A. BpzhiiUr.,-jf, G. J~asoy in the 4ot-O' Ori and A. M. rokaorov for irtereGt 4 f 6rmUas. Card 21 ]MOM   L 047i,-~,-65 ErHT (1) /T TJP(Ckl ACCESSION NR: AR5012273 SOURCE: Ref. zh. Fizika, Abs. AUI-HOR: Danil'tsetya. G. Ye.; 2 TITLE: Investigation of the Raman CITED SOURCE: Tr. TOPIC TAGS: Raman spectrum, specti TRANSLATION: Methods are proposed powders, These mee-thods are designo powder dj~.persion, absorption of L intensity of the &-iman lines. Them scribed for studying powders in a ~ cury and cadmium as well -as a inuby ious methods for producing Raman si SUB CODE: OP Card 111 V. A.; Sushchinskly, M. M.; Shuvalov. I. K. ;pe,tra powders in a wide spectral region vyp. 1, H64, 696-703 'S )graphic ana sis ~or producing and analyzing the Raman spectra of! I for eliminating the effect which the degree of rht in the pjwder, and other factors have on the'. y and experiment are compared. Methods are de- 'de spectral range, using various lines of mer- -aser for excitatien of Paman spectra. The var- !ctra a-re c=iuared. iCL: 00  L33597-66 EWT(1)/T IjP(C) 3G ACC NR. AR6016206 SOURCE CODE: UR/0058/65/000/011/DO3'T/DO37 AUTHORS: L'vova, A. S.; Bushchins kiy, M. M. TITLE: -?-Jl)ectrl of liquJ d crystals Infrared SOURCE: Ref. zh. Fizika, Abs. 1ID286 REF SOURCE: Tr. Komis,_Vo BpSkt4q~E~~ii._A TOPIC TAGS:. ir spectrum, crystal, liquid sta ence, radiation intensity ABSTRACT: The ir spectra of a number of subs line state and in thestate of an isotropic 1 ature dependence of the intLnsit 'in these st -culi absorption bands. A pe v iation of th pendence of the intensity is obs rved in the of abstract] S_R4 t. 3, vp. 1, 1~)64, 611-616 , absorption band, temperature depend-~~ nces in the solid and liquid crystal- uid were investigated. The temper- es was investigated for several curves showing the temperature de- quid-crystal region. (Translation SUB CODE: 20  ARBATI~~KAYA, A.il.; ZHh:1JJDi-:V,l -lIdll'T Low-frequency vibra[ional spect uulfate and Rochellf salt in ph no.3:335-337 My~jel'65. 1".A.; of single cj-jstals of e transitions. Krista-lografiia 10 (11,11RA 18:7) 1. Institut At-,  _7on-66 EWA(~)/iBD/9WT(l)~E;wP(e)./EWV (M CC Mts A-P5026319- EWk(h) SC lip( SOFMcE CODE: vR/o3f8/65/oo3/oo4/0336/0341 WH/WG AUTHOR: Zubov, V. A.;; Sushchins 7. M. M.; S uvalov, I. K. ORG- none TITLE: An investigation of sti ated Rnmen catte ring c SOURCE: Zhurnal prikladnoy spekt, oskopii, v. 3, no. 4, 1965, 336-341 - 3 TOPIC TAGS: -Raman scattering, St kes compone Raman laser, stimulated emission, x~e -laser 5"kJ ABSTRAM. An experimental invest gation was c nducted of stinralsted Raman scattering c in benzene, bromobenzene I :hlorob nzene, tolue e, pyridene, o-xylene, 'styrene, 7 1,3-pentadi,ene, 2-methyl-1 3-buta ene, carbonidisulfide, carbon tetrachloride and nitrobenzene. The dependence of he intensitylof thefirst Stokes component on the properties of the scatterer, the oncentratienlof.its molecules, and the intensity I of the excited light (from a Q-s iled~ rubA investigated. It was estab- p r:sli lished that, unlike spoilt eo R j;r, 'th ne intensity of stirmalated. scatteri n i and not a inear function of the intensity of the Rarnan scattering is an cn:onert 1 exciting light and the concentrati n of the sc ttering molecules. The exponential- variation is in agreement with a s mplified th ry developed by the authors for the case when the intensity of excitin light slig ly exceeds the excitation threshold* In the first approximation the inv roe of the e citat on threshold is a quadratic. UDCI: 535.32 Ca-d 112 Mifil ~GW   L, 20969-66 !ACCESSION NR: ARS014388 UR/0058/65/000/004/DO26/DO26 ;hUUKCt;: Kef.. zh. rizika, Abs. 4DI94 AUTHOR: Zirnit U. A..; Sushchiiskly-, TITLE: Low frequency vibrationi of liquid hfdrocarbonsV CITED SOURCE: Tr. Komis. po sp2ktroskopii.IhN SSSR, vyp. 1, 1964, 270-279 TOPIC TAGS: Raman scattering, nuclear pote~rial barrier, hydrocarbon TRANSLATION; Raman scattering spectra werelnvestigated in the low frequency re- gions.of a series of paraffin aad naphthene erivatives. A large number of the' lines found have not been mentioned in the I erature until now. A series of lines, in the 100-300 cm-1 region were observed-whi(h are connected with rotational brations of the methyl and ethyl groups. An attempt was made to establish ,, ~theo_'~' retical relation between the fr(quehcies of he lines found and ihe height of the potential barrier of the ini ernal rotation. SUB CODE: .j E14CL: 00 Card 1/1  .Z' _L 21TB-66 EwTW/w.1P(i1 P -ACC NRr- -A%011959- SOVRGE CODE1 UR/001065/016/003/0335/0337 AUTHOR% Arbatskaya,, A. N.; Zheli idev, I. irni%'-., U. A.- Sushchins ORG: Institute of CrZstallogra iy, AN SSSR stitut kristallografii AN SSSR)- TITLE: Low-frequency'vibrational spectra of riglycine sulphatj and rochelle salt io monocrystals during phase transi ions 0 n SOURCE: Kri8tallografiyao v. 1 0, no- 3, 1965 335-337 TOPIC TAGS: phase transition, n spectrum Curie point, light scattering, cAtal lattice vibration, quartz crysta-, crystal s try, single crystal a; ADSTP"CT: Raman scattering spectre of monocryst a of triglycine sulfate are studied near the Curie.temperature (+4900; and hose of Rochelle salt, near the 'upper Curie point (+249C). Accord3ing to the Gin burg-Levanyuk theory, the spectral I -structure of the scattered light slould change rkedly near the phase transitinn ~points of the 2econd kind. This chinge should b characterized by a decrease in the frequency of certain lattice vi3rations when the temperature is raised. At the transition point of the second kind the frequen of these vibirations; should become 4zero and the corresponding Raman liies intensify. Experiments with quartz appear to support the G-L theorir,. ~Triglycine sulfate undergoes a c a in oymmm6e upon passing through the L%wie i e 1poiht. A right-angle prismatic mon crystal was iluminated along the Y and than 3- obs rved'along the Z axis in both jalong the Z axis, and th? scattered light was cases. A line at 47 cid' appear:Jed the Raman s ctra when the direction of Jim Card 1/2 UDC: 548.0: 537  -L- -21-12~-66--- - ACC NRt AP6011959 illumination is changed from the to the X dir ction. Features of the spectra are C compared with published data in a table. In o or to observe the expected In=wwo 0 L~e! f e in scattered light i4tensity the temperatuxre the samplewas 4aried-41owly r 13 through the phase transition, b no change aobserved in the Raman spectra. t e8j I Similar experiments were coniduc lectrie salt crystals with similar z 'r t d with piezo 'o results. Orig. art.~haa: 2 tab Les. [JFRSI S] ORI SUB CODE-. 20 SUBH DATE: 08 Tun64 REF: 008 OTH MW 004 Cwd 2/2  L 30408-66 FVrF (1 IJP(,-,) ACC NRt AP6017864 AUTHOR: Zubov, V. A!-; Sushchinsk ORG: Physics Institute:;im. P. N. AN SE TITLE: Modern trends in Raman spectroscopy SOURCE: Uspekhi fizichpskikh nauk, v, 89, no. TOPIC TAGS: Raman spectroscopy, lEser applicat emission, ABSTRACT: The authors review recent trends in briefly mentioned in previous survey articles. for producing and studying Raman spectra. Spec tion of Raman spectra are divided iato two cate division of the signals'!received fr)m the scatt Ithose received directiy~from the ex,,itatiob sou for optical division. The operating principles as a basis for explaining their ad-vELntages and l are described for photoelectric reg'straLion of excitation and the theoretical supe iority of t' lis discussed. The greatest possibilities for p CODE: UR/0053/66/089/001/0049/0088 EaOV, I. K- R.'(Fiziche*s)dy,institut AN SSSR) 1966; 494.8: on, Raman.s.cattering, stimulated man spectroscopy whic1i are onily 'undameiitiill:~ new methods are describei ophotometric systems for registra- ries: 1. systems for electrical er (the signal to be measured.) and e (the comparison signal); 2. systems f each class of systems are discussed sadvantages.- Methods and equipment aman spectra generated by pulsed s method over continuous excitation ctical application o:C_the pulsed UDC. '535-36  L 30408-66 ACC NRs AP6017864 method are in high-speed Raman sm spectra is considered as well as I with respect to frequency. Equipn Raman spectra are described with I made with the improvement of conti stWulatedRaman scattering is discus ials in various states of aggregat experimental technology indicates for nearly any material in any sts are given on the spatial distribut the energy characteristics and non latest research in this field has emission to amplify light signals 28 figures, 6 tables, 21 formulas. L9 troscopy. The difference method for recording Rama e registration of spectra which are differentiated nt and methods using laser technology for producing rticular emlha.-gis on the pr)gress which has been uous gas la.-ers. The rapidly developing field of ed and research on this type of scattering by mater on is reviewed. The present state of the art in hat stimulated Raman scattering lines may be obtained e of aggregetion. Theoretical and experimental dat on of stWtdat3d Ramah scattering together with some o inear effects associated with this phenomenon. The pened up ne% possibilities for using this type of n a broad slectral range. Or.ig. art. hast (28] SUB CODE: 20/ SUBM DATE: none/ IORIG REF: OTH REF: 051/ ATD PRESS:5_0/,~ Card  L 38, 21-66 0WT (1) ACC NRi AP6024868 AUTHOR: Zubova, N. V.; Kuz'mina, Shuval3v, I.~K. ORG: Phvsics Institute im. P. N. ,institut Akademii nauk SSSR TITLE: Intensity distribution in i SOURCE: Zhurnal eksperimental'nDy 101-107 F __ V, 1; 1 i-_~ 11 W; 1~ SOURCE CODE: UR/0056/66/051/001/0101/0107 P.; Zubov, V. A.; Sushchinskiy, M. M.; ebedev, Acadqmy of Sciences SSSR (Fizicheskiy imulated Raman scattering spectra teoretiche!koy fiziki, v. 51, no. 1, 1966, TOPIC TAGS: raman scattering, optics laser., 1 ABSTRACT: The line intensity of st lated ;U skttering_spectra (SRS) was f st mula fu ctio a experimentally investigated as a fu ction of th~ c!sIng light intensity. The e sjx measurements were conducted in a re ion of int ti above and below the experi- a re ion T menLal threshold for a single flash. The intensity distribution in SRS spectra was investigated -for' several Stokes and anti-Stokes zomponents. The exi-stenceof a con- siderable wing accompanying each component was datected. A structure of the first Stokes component'of SRS was found aid was investLgated in the threshold region and below the threshold., Orig. ar"It. has: 7 formula3 and 4 figures- - (CS] SUB CODE: 20/ SUBM DATE: 2lFeb66 ORIG REF: 008/ OTH'REF: 002/ kM PRESS: Card 1/1 po~ I  1, 36014-66 E"-,,/T(I')/T IJP(c) ~~IjVr 1/WG ACC NR- APW24513 souROE com uzVo386,166/oc AUTHOR: G relik, V, S.; Zuboyt V* A Sushchinsk 6RG: ]Lhysj~~s Institute im. P. N. Ioeled-ev. Acad'e'a - .. .R stitut Akademli nauk TITLE: Possibility of observing induced infrajrQ light SOURCE: Zh eksper i teor fiz. Fis'na v redaktsiy 52-54 TOPIC TAGS: molecular spectrum, Ramn scattering stimulated emissionj spectral distribution Chirkay, V. A. ~es SSSR (Fizicheskiy in- ------- in Raman scatteiina of Prilozheniye., v. 4, no. 2. 1966.. ir radiation, ir quantum generatorp ABSTRACT: The authors discuss a new mechanism fot producing population inversion be- tween vibrational or vibronic levels of molecules It is shown that if certain con- s ditions for the possible transitions between mole ular levels are satisfied, such e that one of the levels does not becole populated n the case of Raman scattering of n light, so that the thermal distribut:on of the mo ecules over the vibrational levels 0 e may become disturbed and population :nversion may occur. The required threshold F 0 power is evaluated from the gain per unit length f the transition near the genera- tion threshold, and it is shown by pie es imates that the required minimum power is 107 ~/cmF for liquids and 1q4 c for bases. The latter is attainable wit a xenon lamp (power -10-*i w/crmfl, and e estimate molecule density at the upper leve lz?  ~CC NR: "6024.513 turns out then to be .1023 Cm-3. If ruby laser ~a used (power -107 W/CM2)0 induced Pi Rdman scattering can be observed in Txidso with a quantum yield of several times ten per zent and a molecule density cm-3 at Ihe upper level* The proposed ex- citation mechanism is realizable in p Inciple in, stals., too. Orig. art. has: I figtwe and 2 formulas. (02] 7/ 'ODE: 20 SUB C sm DATE: Amay6~1 om 003/ Oni MW: 003/ AID PRESS: TV,37  H SOMM OODE: LM/0368/66/ooh/0351/0353 AUTHOR: Berezin, V. 1. Zubov, ~. A.; Kato, - L.; Kovner, M A.; Sidorov* N 'K Stallmakhova, L. S.; Sushchinskiv, M. M.-I Turtin.-Yu. P.; Shubalov. 1. K. ORG: none TITLE.- Tntensities and line thresholds of sti sted Haman scattering SOURCE: Zhurnal prikladnoy speklrookopii, v. , no. 4. 1966, 351-~53 TOPIC TAGS: laser, stimulated etission, Raman scatterir)g, stimulated Haman scatterk% ABSTRACT: The relative values fcr the thresho d I for the intensity of the exciting light necessary to 'attain stimulated Raman sca tering in toluene, chlorobenzene, and pyridene have been messured '. Using a thec of SRS developed by P. A . Apanaseviih and B. I. Stepanov (Zhurnal-prikladnoy syektro kapii, v. 1, 1964, p. 202.), the authors derived the following fojmula 3 IB/I V where T, in the integr~zl Intensity of the SH9 frequency of.the ac-sttered ligbt, n is subscript B identifies these quantities Cmd 1/2 V 3 n3 /D" (1) 0 B. ne, 6I8 the line width,. vS is the index of refraction, and the benzene. The experinental values or  L 31134-66 ACC Nks Ap6ol2859 Table 1. Main parameters and oscUlation thresholds for SRS hl sly I Ilk r~l "2 13411 1.1 1 1 1.60 1 1 bFnzene ,3 enta'diene' If 12748 It, "l -P W -1.6 0.2 1.43 0.5' 0.25 a e -methyl-1.3-b adie e 1638 12765 7 1.3 0.3 1.42 0.5 0.40 b 3 7~de ~Carbon disulfide. 656 13741 1 1.6 3 1,63 1.6 2,24- f, 996 13405 2 0 7 06 1,55 0(6 0,66 styrene 1602 12801 3 09 06 1165 - 0.59 styrene Btvrene 1634 12769 3 1.6 0.9 1.65 0.9 0.90 toluene 1003 13400 1,~ 0,37 0.4 1.50 0,6 0.42 chlorobenzene 1002 13401 1 0.45 0.8 1.52 1 0,78. :brQmobenzjene 1001 13402 1 0.50 019 1 56 11.10.81 ,pyridine. 992 134111 1. 0.46 0.8 1:51. ,1~ -0.82 l/I for substances investigated.in the present paper andL in..An earlier paper by three of the authors (Zhurnal eke rimentallno~ i tePreticheskoy fizikis V. 4T, 19% p. T84) are compared vith the ~tehkse retical values derived by using formula (1) (see Table 1). The value of 1/I for t ; line Av a 502 cis I in benzene vastaken to e be unity. Since the values ot D( for a ruIV qsser source vere unavailable, the values of n for the D-line of so (nD) Ve-re Used in the cialculations. Orig. art has; [Csi 1T fornulas and 1 t%ble. SUB CODE, I - 1 ORIG RZF1- 00h/ ATD FFMid/2,10 20/~ SUBM DATZ  - L 09461-6 ACC NR: Ap6o24666 CODE: AUTHOR: Gorelik, V.S.; Zheludev, I. IS.; Sushchi~~iyv.. ORIG: Physics Institute im. P. N. Leledev AN SSSR (Fizicheskiy institut AN SSSR); Instituto of Crystallography AN 55SR (Institut kr stallografil AN S53R) k TITLE: Study of the Raman spectrum oJ,NaN02 singl crystal near the phase transition point. SOURCE: Kristallo.grafiyaq v. Ut no 4, 19669 -609 TOPIC TAGS: sodium compound, Raman temperature dependence, line broade ABSTRACT: This is a continuation of 3, 335, 1965)- and deals with the beha single-'crystal NaN02 in the temperatiz tion was paid to the small temperature (160C). The single crystal was a recta smallest side was oriented along the frroelectric photographed with a spectrograph, us n ictrum, pha e transition, farroelectricity, ci7stal lattice vibration earlier study (Kristallografiya v. 10, no. -ior of mos". lines of the Raman spectrum of interval Irom 30 to 178C. Principal atten- range (+ 2(0) near the phase transition point gular prism3 x 7 x 10 =, aut so that its axis z. The Raman spectra were the 4358 Amercury line for excitation. Card 1/2 C: 548-0:53~.~36  L 09461-67 ACC NR: AP6024665 Seven lines were registered, whose frequencies agried lished earlier. The Raman spectrum obtained near t,e noticeably from that obtained at 30C. The low-fre,uency fashion, while the higher frequency Imes exhibited served lines broadened with increasing temperature frequency lines was larger. Some of the lines van.shod A group6-theoretical analysis of the s')octrum for b,th parts of the spectrum is used to interpret the res tensity variations of the spectra agMe with the slection is duo to ordinary temperature effects connected w action between the lattice oscillators themselves lattice oscillators and other degrees of freedom o Professor P. A. Bazhulin for interest in the work able advice. Orig. art. has: 4 figurls, 1 formula SUB CODE: 20/ SUEN DATE: GZALr,,,()E Card 2/2 0 essentially with those pub- transition point differed lines shifted in linear practically no shift. All ob'. but the broadening of the low- with increasing temperature.; the high and the low frequency;~ Its. The vanishing and the in- ; rules, and the broadening! +h the increase of the inter- nd the interaction between th a the.crystal. The authors thank nd also V. I. Mursin for valu- and 2 tables. ORIG REFJ 012/. OTH REF: 005   6!6lfCliTplSKlYp V. IS -)USHCHINSKIY, V. "Manganese ( rganic synth( sis of branched oaraff in hydrocarbons ranging from Cl() t~,. C 22 - Moscow, 1955. Mn Higher Educ~tion USSR. 'Mose-ow Order of Lenin Ghfmicotechncl-wical Inst Imeni D. Ii Meildeleyev. (Dissertation for the legree of Candidate of Chemical Sciences.) SO: Knizhnaya j~etopisl No. L'16 42 IlLvember 14;5. Mr.)sc,--w  I - rln77r-7T- - - , " -- . - f, - -'~ -V '711 . I--- . ~ - .-- - - , Uf -~,- M-Mi ~ !~~ ~Tt - - . ~ -1-Iri -- I -- P , - : - -- - - -, ~. . - ~ . - 1-- - , :- z -- , -,-" - - L ~ 1-1 " ~T ". 't , Tz- fic. 1 ..tl Id" -4  ?AAtM-;;0,, IMOP'1419,W-~rd TJ C. At ~ was added a little Cfh. CM.C.,,C,, ;'--tI,m had commenced, gL sebi. W1906-5v-; L dit 74 AcOMe ia 1.5 1. Etto yva!s added a gave 63% tertbtrY alc -, CidtuO, ba 90-1 M SWRI bich hydrngenated oven Raney NI atm. to the -c b~ 86-7'. ,-o' 1,4312 t 7 i~ d5 O-q.' -ich Teat"! -ith HCI AE 0' gaVle the , 'J~ ride Irj,'j;h 7" -V rsl* ija5c,. d~ O_ga-17 b12 i -Itilied, AS (F--ted -ith 8 9. iig y0d~(i as a main prod an ';kfitz, bu 9"', 0' 1.4490, dw 0.80M, _L h h3r D 0- genatcti To )S-4 1,43-52 (1~ 0 7,912 Tmatment ()f I ?,Djj p ime with I ru Mg (73 a 2S abOvr. 9-Av, 142 g. aexen-J-a, b, 461, u,, 1.4&r2, d,, 0,8511 -)x, 1 ic,, ,i gave WSW and a Phydroxy acid, m. L41' - L 4 ~ 49 W111ch treated with RCI at 0* gave but 0.5% yjId Of the O~fve$Paruofirzz 4ihnVc and 90% ijic~joyide, tz- 1.4710. d:* I.M3, hydrogenation of the ak g;tve the .all]!!", -,1M1 d. 0,8393, identiAe a,,; 1, 2 "f C&Iarj* lj,~ ULG4.5'j ~ x17-1-+4Wx -Qz% !),v-7s. this W-S,Oaaaqo.,-~ g. I with 43.6 el-Idar wl Z#% rj-p., C,,H:s, his 9'2Z*, Irt I 4W--il z - !-_-led 10 3C, 2.2,3,3 5,5'-60, %W 1.446( ropane with -13 9. ldi: and -JC-.2- gjqI-3-cLlOrDv ~~`,-InE n'60 1.43W. d.-. 0--7,43, -~Yhkk'. 7e gmmd 'to b- IT'--4* z E71~42do. d-- 0-7621- 2.2,3.&-Teiraintthy[-3~~e~- 61 2-2 g. 'Nfg gzvc; an e!li4 aae, hi'd- 27 ~.,i b, 641-8*, r*D 4521 d,~- 0~5" which (11). hip j -go pxepd. as follows' 4'- - ~ Ll was a] _4 'b~ S7', nV 1-4370, d~ j),84t3;3. prepd. bj ""n" ,v, hydrogtrau "f tr,-ttcd 4 d:a 13%1~1110~ yieldivg tilt C'Woride. 0~ to i -Ith I in the preset - E,5,dv~-' 15,218 d-, O-qG6&, wh b". '14-t-) 0 Ref, dou j5C-;,7CO--ZAC and e,4 g. - 9 rPIT'. IAC";71 d- D tie-ftv-- Ct. ~ , ;,, - , . : t i,-, j iltb vvt~ 12', 4*S  of  I V 2- USSB/Organic Chemistry Synthetic' Organic Chemist 3-2 Abst, Journals Referat Zhur - Rhimiya, No 1. 1957,t3 Authori Petrov, A. D., Sush Institution: Academy of Sciences Title: Tertiary Mono- and Difl V, L., ~nd Shebanova, M. P. Original Periodical: Izv. AN SSSR, 1956,~No 4, 510-512 Abstracts The condensation of ter;iary mono- i CHCH2CI (1), CH2 = CH2G12Cl, and Ca~, of Mg has been investig ed. It is to Itimes higher than irith the cor starting (CH3)CC(CH )2F (,-)j (CH3)~ (CH ) CC(C H7) (CH CH -C &]d L( 3 3 3) 3CH2 us ~reactor and ondenser)j - apparat ice and acetone; anhydr us HF is ch tion of the olefin is s arted (mixi: The excess HF is removi by passing Grignard-Type 0~ntheses d difluoroalkyle with CH2 a C(CH3)CH2C1 In the presence hawn that the yields are 2.5 sponding chloroalkyls. The CH3)2F (III),.: C( "C)F are produced in R3 e reactor is packed with dry ged at -400 and dropwise addi- temperature is not over -300)- stream of N2 through the reaction Card 1/2  79-2-42/58 AUTHORS: Petrov, A. D.; Sushchin kiy, V. L.; akharov, Ye. P.; Rogozhnikova, T. I. TITLE: :E~ynthesis of Branched A iphatic carbons of the C10 - C15 Composition ~ Z t I by the Grignard and Gri ard-Wu actions (Sintez razvetvlennykh alifaticheskikh uglevo s rodov sosta v C10 - C15 po reaktsiyam. Grinlyara i rjrinlyara-Vy-urtsa) PERIODICAL: Zhurnal Obahchey Khimi 1 1957, vol 7, No 2, pp. 467-475 (U.S.S.R.) ABSTRACT: It was established exp rimentally t at allyl halides even with highly branched ketones react normally. is fact makes this reaction suitable for the derivation of ranched hydr carbons having one or two quaternary carbon atoms. It is a own that Mg alide isobutenyl reacts even with higbly branched ketone resulting ; the formation of homologous tertiary alcohols. 'The condens tion of sat ated tertiary alkyl fluorides was real- ized and by the Yavors iy method us ng allyl halides. The fluorides compared with chloride of analogo s structure gave 300% more hydrocarbon yields. It Is shown t at the hydr carbon yields (hydrocarbor-: eynthesized Card 1/2 by the Grignard-Wuertz method) inc ease by the introduction into the alkyl  SUSHCHINSKIY, Ye.N,,~, entomolog A fly in tb-w ointwnt. Ag 163. Uishch. rds . ot vred. i bol. 8 no.8t63 (NLRA 16slo)  SUSHCHINSKIY. Yelio- i 0 1 -- Suc,,esstul coope-ratLon of Ss-l-antL-sts jith agriculture. Zashc!h. i-asl'.. ot vred. i boL. 9 no.106-58- `62+6 OIUM 17-34)  VASILI)M,V, I.A.; PETIIZHAK., K.A., Determination of absolute counter. Prib. i tekh.eksp. 1. Leningr*dskiy takhrologicheskiy (Nuclear counters) SUSHCHKOVSK Y V.D. SU~"CHKOVS" Y V 'D* activity means of an end-window ans activ_t~ - 6 no-4: 9-42 131-Ag 161. (MIP-4, 14:9) ,sp_ 6 no 4- 9- RaTd-M-Me Logiche ~y st. (Radiati --Measurement) 9 ti  3UTO-XCF,LjK, A. S. A. S. SUSINCIMY11 ."Sa-licon s abilitrons.'t I- Sc2'~entific Session Devoted t'o "Radio Day", May 1958, Tru v-izc;at, I'Iosc~w, 9 Sep. 5b The state of the devalopme both domestic industry and in t Parameters and characteris put on sale by the domestic ind stabilitrons now in production SG-2., SG-3. in their stabilizin dependence of the voltage stabi ducing instruments with a volta or less than in voltage stabili- Results of investigations ments are presented (according s of stable volt analogs on a silicon base in foreign literature is discussed. cs of 7 - 12 V silicon stabil-itrons, already try, are presented. The silicon not yield to the voltage stabilizers properties. However, the iemperature zation is 1 rger. Prospects of pro- tenperatur behavior of the same order rs are anaill, zed. the time c ange of voltage in instru- data from he literature)  2237 sushchlik, LE, Sad KuLkhoza Imeni Lenina. (Shkotov kiy Rayon). Broshy=a Podgot. K IZD. A. I. Lebedevym. Bladivostok, Primor, K.N. IZD., 1954. 27s- s. IU. 20sm. (UPR. s.-Kh. Propagancly Primor. ER Ayev. UPR,, So'. Isko-o Khozyaystva). 3.000 0 0 EKZ- 35k.- (54-55982-)P 04.1/7st (57-341)  AlZT2iWG) D.Ye.: BEL-,,,VTSEV, YtI.N.; LLRDUl,.'Oj', I.N.; BORISENKO, S.T.; BULYR, G.A.; GORLITSHY, B.A.; DO GAN , M.1.3 ZAGORUYKOY L.G.; KAZAKOV, L.R.; IALYCYFV, G.I.; XARASIK, M.A.; KPLUAll, V.G.; KISELEV, A.S,; RAGUTIE', P,.K.J LAZAUDIKO, Ye.K.; LAZARENKO, E.A., LP.*.'I~ SKIY, E.M.; IAPCHIK, F.Ye.; IJAStKOV, V.A.; LEYMESHTEYlil. RALAKHOVSUY, V.F.; NITKEYEV, M.11.; PRUSS, A.K.; SKARZHllj'3KIY, V.I.; SURIDIN, S.A.; SOLOWYEV, i . ' 'I 'EPLITSKAYA, N.V.; .I.; STRYGIT', A.I.; "Ll F t4,4UUl' ) I FEUfUSHE4, S.Ye.; F011INKO, V.Yu.; HKOLA., T.N.; SHTM,1OV, A.G.; YAROSHCHUK, M.A.; ZAVIRYUKlliltfA, V.N.., red. [Problems of metallog genii Ukrainy. Kiev, 1. Akademiya nauk ny in the UkJaine] Problerry metallo-- Naukova dumk4, 1964. 254 P. T (MIRA 18.1) Kiev. Inst~tut geologichnykh nauk.  C^' PHASE I BOOK FITLOITATICS SOV/5078 Aladenlya nauk URSR, Kiyev. Instytut'elektroz varyuvannya Voodrenlye novy" agoaobov avarki v promyshlennoat'. abornik statey. VYP. 3. (Introduction of New Welding Methods In Industry, Col- lection of Articles. V. 3) Kiyev, Cos. Izd-vo tekhn. lit-ry ucrzu, 1960. 207 P- 5,000 copies printed. Sponsoring Agencyx Ordena Trudovogo Xmsnogo Znamani Institut slaktroavarkl Imeni akademlica Ye. 0. Paton& A"46211 nauk Ukralnakoy SSR. Ed.: IL Pisarenko; Tech. Ed.: S. MtUSOVICh. PURPOSE: This collection of articles Lis intended for personnel in the welding Industry. COVEMEt The articles deal with the combined experiences of the Institut elaktroavarki Imeni y&. - 0. Patona (Electric Welding Institute Imeni Ye. 0. Paton) and several industrial anterpr1ses In DOITIng scientific and engineering problemu; In welding technology. Problems In the application of new methods or Me- o3lag welding In Indust" are disc osed. hanIxed welding and I.crr u ftis Is the third collection f articles published under the same _.'r title The Foreword was written by B. Ye- Paton, Academician or the A;ademy of Sciences Ukrainian SSR and loenin prize winner. Tbare are no reVerencea. TAU3 OF CONTMM: re t hnIcal Sellencefil, 1A h I _ ' ! - -Z; ' "r ':c sh - __9' A ~ t . : 1.d. ~ I . hnIcal Sciences, r g jli d _l. Bloc stitute Ilmenl Ye. 0. Patonj. z zh.'~jULk.ty-IC&ndldate of Technical Sciences, la ! look I nauchno-inalodavatel-skly trubnyy instItut t, t, p ju 4 (Ukrainian Scientific Researc h Institute for the Pipe Industry)J, and j__A.__Zrjkk& ( Chief Engineer. Chelya- _ b1nekly truboprokiLtnyy zavod (Chelyabinsk Pipe X111)). leis Processfor h-oducing I.Lrge-Dlamaeter Straight-Weld &m'MkU__w T-- I ft- inear-1 I D X Rabicin (Candidate or technical Scion f. NEtc car, Electric Welding Institute Ise Ye. 0. Paton] V. A. Verchenko ,zoginear of the Trust 'Prodmontazh" jTruat; for Installa- tion of Food Indust stabliahzent3)1. and ~ .~trgnorod- ~ii' jKjzJ.fomerlY Chief gineer of the Bol'shavik an Experience In the Successful Welding of Aluminum and Its Alloys AaSpnbe 0-[Engincerl. ' N A_j zagineer) , tia-rift-A A Lc Welding 4Ay,us'~_renko fling ear, Elect . ~. ton]; 1. a. - - [Chief XOchasic, B*190rcdskiy toomentnyy tavod Belgarod Cement ?'"01- A-L 1AMY-tChief of the Welding Engineering Department, Xrasnoyarokly zavod "Slbtyazh="hw (Krasnoyarsk Slborisn Ut&YY ftch1norY Plant)], ari V. a- Xotlyarov DGVuty Chief Process Engineer Syzranalciy zavod 'Tiiihmash- !3yzr&n' Kd&vY Machinery Plant5l. Rlectros2ag Welding or X&rge TYP6- 35L Steel T16-Ringg for Cement; 1.1ina b ad d P fCandldate of Technical Sciences, Electric In. ~T~ ute lmeni Ye. 0. patool, A._j,_AjAkj&'UX Truest Urmlltal'iconatrukt.lya (Ur.2 Fabricated -Steel kon:ttrullittwelW 3. Tu. Rabipovich [Treat Dneprostal - a Ym(Dnept' Fabricated-Steel Trust)]. ZXPerlenc in the MOchaniz4tiOn Of Welding j0perstlonal in the Srgc- tion or motialic structures for a Slast-Purnace Plant 154 i 194  25 (i) AUTHORS: TITLE: PERIODICAL: ABSTRACT: 67701 SOV/125-60-2-3/21 Voloshkevich, 111.Z., and S4�494 4ka On the Accuracy of the Ditensions of Work Welded by Means.of Elect,ro-Slag Welling ,( Avtomaticheskaya svarkaq 960, Nr 2, pp 34-4-3 (USSR) The article cortains deta led information on the methods of accurate coupensation or displacements of parts be- ing joined by the electro slag welding process. The essence of the method is ~~e creation of a constant moment of resiEtance to t e displacement, by the weight of the parts aid the use f supports (shown in diagrau Je figure 2). The method is ractised for welding the s tires of cement kilns on rection sites, and was applied for welding thE 400-mm. th ck and 900-mm higb kiln tires 11 ol the Vollskiy tsement zavod (Vollsk Cement Plant). The pertaini~6 calculatio s are giv-en ana expr91=ne)y j diagrams. Aftel test welding of a full-size specimen., Card 112  VOLOSEKEVICH, GA.; KHELUNDZHI V.M.; SUSHC~K-SLYUWMO, I.I. Reconditioning the st 13 no-7:76-79 Jl 1. Orden Trudovogo Kr Ye.O.Patona AN USSR. (Powrer presse (Blectr d of athree nogo ZnamenilInstitut -Maintenance welding) ton hammer. AvIlomeavare (MIRA 13:7) elektroevarki ims and repair)  S/125/61/000/008/006/014. D040/Dll3 AUTHORSt Sushchuk-Slyusarenko, I.I., and Postovalov, Yu.I. TITLEt The manufacture of a welded cylinder for a 7000-ton hydraulio press PERIODICAL: Avtomaticheskays. sfarka, no. 8 1961, 62-64 TEXT: On account of the frequeit breakdown and consequent pre-schedule withdrawal of the cylinder of a 7000-ton prass installed at the Nizhne- Tagillskiy metallurgicheskiy kombinat (Nizhiiy Tagil Metallurgical Combine), efforts were made to improve the system us9l for preparing these cylinders. In order to increase the life of the cylindars, it was decided to join the shell to the insert bottom by electroslag wBlding and to use 35 steel for the preparation of both parts. Previously empl)yed 35HM(35NM) steel was found to be insufficient for this purpose. Close attention was paid to the condi- tion of the welding equipment; : 'n order to prevent deformation of the copper tube through heating and to guarantee the a,,curate positioning of the elec- trode in the gap during welding, the copper,current-conducting part of the tiD of the welding torch was fi,ted with st e1 stripse A water-cooled slide Card 1/3  S/125/61/000/008/006/014 The manufacture of a 'Welded cyllnder... I D040/Dl13 bar made of copper was used to Welding was started in a pocket welding up of the sea!'n. This po down on time used at *the beginn ticular attention was paid to k was considerably.redu ,ced owing traction. After welding 2.5-3 the withdrawal of iron oZcides. out with the aid of a n CS -10r- (AN-8) flux. The followinp! sys electrode wire - 195-200 m/hr; mm; speed of transverse oscilla;ions the electrodes were '-'eld near ing process - 2 3 hrs.. After a , ed cylinder. It was.decided to za7od tyazhelogo mashinostroyenya back into operation. The repai- than 50,'000 rubles and considerably old the sla and metal baths in position. which was enlarged in accordance with the ket helped ;o reduce metal wastage, and to cut ng of the weld, In the welding processy par- eping the s..ag bath at a certain depth, which o the reduction in the gap due to metal con- of the wel , the slag bath was removed for The welding of the circular weld was carried (Sv-lOG2) ?1ectrode wire under an PH -8 em was used voltage-46-48 V; feed rate of umber of el?ctrodes -3; slag bath depth-45-50 of the electrode - 39 m/hr; time in *1ich !he rims - 5 see; duration of the entire weld- rear' s opera .ion, a crack appeared in the meld- have the cy-inder repaired at the Urallskiy (Ural Heivy Machinery Plant) and then put work on th? cylinder helped economize more reduced1the idle time of the press. Card 2/3  The manufacture of a welded oyl~nder... There are 3 figures. ASSOCIATION: Ordena Truclovogo Crasnogo Zn Ye.0. Patona AN U)SR (Elect the Red Banner of-Labor" im. Slyusaienko, I.I.); Ordenov vogo Krasnogo Znaneni zavod the Red Banner ana the Red B SUBMITTED: JanuarY 31, 1961 S/125/61/000/008/006/014 D040/11113 eni Institut elaktroavarki im. c Welding Institute "Order of e.O. Patona AS UkrSSR) (Sushchuk- nina, Krasnogo Znameni i Trudo- almash ("Orders of Lenin, of ner of Labor"- Uralmash Plant) Card 3/3  DABAGYAN, A. V.; ROZMERG, 0. 0.; SUSHC -SLYUSARENKO., I. I.; USHOt GKMLII, S. I. Vibration strength of welded hydraa ic turbine shafts determined 7dra i by modeling. Avtom. evar. 15 no.11:37-43 N '62. (MM 15:10) 1. Kharlkovskiy politA okhnicheskiy Lnstitut imeni V. I. Lenina (for Dmbagyan). 2. Ordena Trudovog) Krasnogo Znameni Institut elektrosvarki imeni Y . 0. Patona I UkrSSR for Rozenberg, Sushchuk-Slyusarenko) 3. Kharikov ki3r turbinnyy zavod imeni S. M. Kirova (for Go n ). -Weldi ng c turbines~Models)  L) AUTHORS: Voloshkevich, G.Z. TITLE: Electroslag weldin turbines. PERIODICAL: Avtomaticheskaya s 32959 25/62/000/001/006/011 6/D113 sarenko, I.I.; Khrundzbe,V.14. of the run ers of radial-axial hydraulic rka, no. 11 1962, 46-58 TEXT: The authors describe a te hnology whl h they developed for manufactur- ing a 120 ton runner for a 225,000 kw turbine for -~',he Bratskaya GES (Bratsk Hydroelectric Power Plant ) by joining the separately-cast blades to the upper and lower crowns by electroslag welding with a consumable electrode- holder. The runner could not be cast in its entirety because its shape was too complex to permit obtaining ). high-quali y casting of the required pre- cision. The Water Turbine Offic(3 of the LenLngradskiy metallicheskiy zavod (Leningrad Metalworking Plant) h,d originally suggested using electroslag welding for joining the blades t) the upper 3rown, and manual welding for joining the blades to the loaer ;rown. The blades were held in position while being welded to the upper roun by nor al n -shaped clamps joined to the blade by heavy welds; a -Dro-o)rtioned cou teracting moment was aD-olied to the blade edges during welding b pre-tensio ed spring clamps (Fig.2). The Card 1/  Electroslag welding ... 32959 S 125/62/000/001/006/011 D 36/D113 general arrangement of the blade and upper c cy- is shown in Fig. 4, in which(l) are the spring clamps vie] ded on to givei, points on the blade, 2)are the normal H -shaped clamps for holding the lower end of the blade,O) are glass fiber inserts for insulating the consuriable electrode-holder and(-')is a clamp which is welded on to the blade and -1rhich thrusts against a boss on the crown. The latter clamp prel-ents the blade edges bein.- displaced in the upper part of the butt. The position of the outlet edge of the blade was U, taken as a base for tile assembly The welding conditions for welding the blades to the upper cro-,-,n were as follows: welding voltage 43-46 v; fe~3d of 0 welding wire 160 m/hr; number of wires - 2; epth of slaS Pool 45-50 mmm. The welding was carried out with an A -545 (A-5 15) welder, A H -a (AN-a) f iux, E'B -10 1-2 (Sv-lOG2) welding wir(~ and an 8 mia thick consumable electrode- holder made of eT.3 (St.3) steel One butt -,ook C' machine-hours, the total 'time required to assemble and weld one butt Deing 3.5 hrs. 3efore -i-.eldiinp on the blades to the lower crown the edges of the blades were trimmed by a special P -930 (R-930) device, In which the cutting torch could move along its axis along guides parallel t the genera rix of the internal coni,-ai surface of the crown and at the lame time tutn about tile runner axis. ".1"hen Card 2/ ~ ~  32959 S/125/62/000/001/006/011 Electroslag welding ... D036/Dll3 assembling the lower crown and blades, the lower crown was clamped by thrpa struts of refractory steel (Fig.1) in order to preclude geometrical dis- tortion caused by welding stressEs and subsec 'uent heat treatment of the two halves of the crown. For weldint the blades to the lower crown, a manipu- lator held the runner at an anglc of 450 to the horizon. The welding con- ditions were as follows: welding voltage - 14-47 v; fe of welding wire 177 m/hr; number of wires - 2; bian f weldi ng wire - ve-10 1- 2 (Sv-10G-,-) depth of slag pool - 45-50 mm. In 6T03 (St..) consumable electrode-holder 8 inm thick was used. The weldinE took Vro machine-hours and the total time required for the assembly ard welding ol one butt was 3.5 hrs. An accuracy of 1 mm was achieved in the radius (if the inner surface of the crown after welding. The concluzions are as follows: (1) A flexible attach.- ment by spring clamps may be used in additiOTL to a counteracting momenf, for obtaining accuracy of the measurEmentsafter welding, in addition to a counteracting momant; (2) The .1recision of the dimensions of a welded-ca-st runner is determined by the precision of the blade blanks. A considerable number of errors in the blade di]ensions can be comDensated for during the assemblyi (3) Use of a flexible attachment for manufacturing the firsi; welded-cast turbine runner for tle Bratsk Hydroelectric Power Planb, allowea Card 3/1  32959 S/'125/62/000/001/006/oil Electroslag welding ... D036/D1l3 the accuracy of manufacturing the runner to be increased several times in comDarison with a solid-ca3t runn ri (4) A Is e cial gas-cutting apparatus in,~, th b - ot._ed with the low -own.! should be used for trimm e ade edges _~ne _. er n-- (5) Welding the lower ci ~e blades sh3uld be carried out by thti electroslag method. The costs of making T-joints,with a conical axial SLL-r- face dG not exceed those incurred when weldin- thd blades to the upper -trown- There are 11 figures, 2 tables and 3 Soviet r3ferences. ASSOCIATION: Ordena Trudovogo Krasnogo Znameii Institut elektros-axli im.. Ye.O. Patona AN USSR (Electric gelding Institut,~- "Order cf Red Banner of Laborl im.Ye.O. Ton of the AS UkiSSR) SUB:.1ITTED: January 31, 1961 1 bard 4/1 It  SUSHCIiUK-,c')LYUARENKO$ I.I.; LYCFKO, I.I. Characteristics Gf the melting of ~ electric slag Qelding with a cqps-w svar. 16 no.8:79-82 Ag 163. Ltion cushions during electrodi. Avtom. (MMA 16:8) 1. Institut elektrosvar~i imeni Ye.q. Pa:tona AN UkrSSR. (Electric weld~ng-Equipme# and supplies)  SUSHCIIUK-SLYUSARENKO,,I.I.; VtSYUCHKOVp V. . r International exhibition of weldi g equipment in London. Avtom. svar. 16 no.10:90-96 0 163. 1 ()URA 16312)  SUSHCHUK-SLYUSARCINKOP I.I, Deformation compensation 17 no.1;28-33 Ja 164. I.w:.. .- 1. Im9titut elektrckvark~ in ele c slag welding. Avtom.svare ilri (~ff.RA 17:3) imeni IPatona MI UkrSSR.  SUSHCHUK-SLYUSARENKO, I.I.; Providing for the di during electric slag 1. Institt~t ele Slyusarenka' Kh 0 (for Shekhter). NDZHEJ$ V.Mj'; SHEKHTER, S.Ya. nsional acc acy of cylindrical articles elding. Avtrm. svar. 17 no.2:77-80 F 164. (MIRA 17:9) rki im. Ye~.. Patons, AN UkrSSR (for Sushchuk- ). 2. Komm arskiy metallurgicheskiy zavod  L k 'E ((f- M Pf-4 JD/HM A L71H 101 RVoloshkevich, G. Z. Sush huk-Slyusarenko, I. I. L 01 1. 1. TITLE: 7.1ectroslag weldinng_ ith a'parllally consumable 31ectrode tip SOURCE: Avtomaticheskkya s--arka, ~0. 11, 1964, 82-85 TOPIC TAGS: electroslag we1ding, ireldingelectode, eiectraslag melti ABS.rRACT: In present 'electroslig welding pe*ce-sses aeams are WiLded Ath quantities of weld metal erceedLngr 1000 kg. andiwelding times extending to 30 to 40 hours. The Institute ofiglectric Welding has developed a'coiled wire electrode tLD the end of wiich is allowed to melt into the wld metal (C. 7. Voloshkevich- -Flec~rode for Slectroslag, Weldinsf'. dc3cription of inv2ntion, author's certifLCGLe '40 1311847, Ryjlleten' ~zobr2teniy /-Fu'letin Df Tn%,enti-~risT 4o i8. 1960). Instead of USLnj adjustm nt de,ice.,, the pr)per Eeeding of the electrode wire is governed by the L'act, that the electrode tip almost reaches the slag bath, but as a rule does n3t touch it. When the and of the tip become exce9sively eroded, the level of the ,;lag is raised 9light',y and the worn end ~'l ne~(ed off. C~perating time of tir, tiP dep~erufs on the length Card 1/3  L 33543-65 _AOGES541OU 149'. 05WRIV of the melting part (lifetime ca)~ be J~(jjjjaje4 considerably.44 COMPAEV ~W that of constant-contact control 'tips). 7 The new method differs frog welding with a consumable tip in that the par"~311Y Melting fiIP i9 simple ~n make and needs no expensive or scarce materials. After 3e%erai welds the e-lectrode Lip IS fesLoied by manual' y nPw -e,Iarea,_Ie en! sec-.(- ~s much simpler than maintenance of a Fr..r -(-mpa-~at i ely par, iaily Me!t In?, tLPS. MeLI.Lng Can Oe aCCUM- !o the slide lar. i tO 11319C S,il-e L-ar w-,,,h cespec.- to the feede, mechanism carriage and the tips. During melting of electrode wire the current-carrying plate of the bottom tip is allowed to overhang1the slide bar, since eircessive departure -~f of the electrode wire from the al de can resul~,t in Locez! incomplete melting o f he parent metal edges, The etectrode wire can be ~:ept close to the bar rho Mpni.-Icus ;-)r, zhe gurfnee of the slpv if the plate is toward t he Lriside oE the welding space the level oE the slag tatrL surface can De -w I he 7~:D t hP 8, e 1,ur the Rnd ?F the tip ii ~rodvad much more y and rcquireq more frequeht ronlan-p-mant- A stf Ap of metal 4 to 5 wide is welded on thip other side of the tip to strengt1han it. The area of 7, P ary.. VG~ "t-v, -~nriitions and chould  3 --6 ACC 'J'S S 10 N' '.."RA be LBO to 200 m,,2. The fusible length of the t4p is calculated to be 15 to 20 mm per mete? of aeldment. Wben welding with th4 partially melting tip there is a sharp ir,.-,r-ea!3e in the quantity of molLen filler metal when the tips are being meited.(~? Electrosiag weiding With a consumable tip is considered n this papeE ORIY frf-m he s t andpo ;in[ of the quent i t y and the rate of feed of the electrode wire. --i, ~! Ins - a,i,e 9 when he t i.p ,,3 being raelted (onc-t per 0.8 to I meter -fife te P~'! 31," cr-a(-k.%. Howe ve r A P T a-r, -~8 -Arx formarion indicaces Lnat a brief ISSWIXTiON: institut elektr-osvarki Ira. Ye. Z;. Pat,oza Ci VKr6.SR ~in5titute -i' Electric We-Irling, AN U M. S. Ordzhofiikidze, -EU=SU SUBMITM: 22Ma taiu1j: QU SUB CODE: M, M Y64 NO RhT Sm. C,~~ OTT=; ~ow C  L 24439-m66 EWT(m)/FdP(v)/T/ENP(t)A~P(k) ACC NRt AP6012279 (N) SOURd UIR/0125/65/0-00/011/0025/0027 AUTHOR: Sushchuk-S usarenko, 1. 1. Lychko. 1. 0RG: institute of Electric Welding im. Ye. 0. Paiton (Institut elektrosvark AH UkrSSR TITLE: Optimum conditions for elect-oslag welding where accuracy'-is required in the dimensions of the finished product SOURCE: Avtomaticheskaya svarka, no 11, 1965, 2 27 TOPIC TAGS; electroslag.welding, st ctural stee., welding technology ABSTRACT: The authors study consuma)le-tip elect slag welding to determine optimma conditions for a high quality joint i-ith maximum ccuracy in the predetermined dimen- SLons of the finished product. The )asic paramet rs considered are voltage, fe-A rate of the electrode wire (or: welding sp!ed), number electrodes, width of the weld gapq depth of the slag bath and thickness of the cons able tip. Since the depth of the slag bath, thickness of the tip, and to a certain extent.the weld gap are independent of the other welding parc~meters, the;e factors we re assumed to be constant. It is shown that an increase in the feed rite up to a certain critical limit does not pro-. duce cracks in the joint,even when tie counteraction is high. Cracks appear in the joints at rates above this critical Limit which decrease as the counteracting moment IC: 621.791,756 Card 1/2  L 24439-66 ACC NRt AP6012279 increases. A critical feed rate of .20-140 m/hr (for thicknesses of 150-500 mm) Is recommended for preliminary calculat.ons on the asis of the experimental data. The following parameters are*recommended for maximum ccuracy in the final dimensions when consumable-tip electroslag welding I; used for j ning structural steels In thick- nesses of 150-500 mm: welding speed--0.5 t 0.02 z/hr, voltage--46 ' 1 v, width of the weld gap--28-30 mm, depth of the s1 bath--45-50 mm , width of the consumable tip-4-6 mm, distance between eledtrades--50-30 mm and n e c rodeo--n = (6-40)/d where 6 is the thickness of the metal in mi. A11-8 flux should be used. The temperature field is measured for determining deFormation du ng welding and a diagram of the qua- sistationary temperature.field is giren. Orig. has: 2 figures, 4 formulas. SUB CODE: '13/ SUBHTATE, l4Maj65/ ORIG REF: 004/ OTH REP: 000 Card 2/2Jda-  ZHDAI--.OVI, Nikolay Yefirovich; SUJHCUhr-SIYTJSLI14NKO, Z., red.; SERGEYZV, V., teklin. red. i [Organizational work is the most imp5rtant problem; from the present-day experience df Ukrainian -xade-union organizations] Holovne toper - organiZ&tors'ka robo'A; z dosvidu roboty prof- spilkovykh organizatsii Ukrainy. Ky v, Derzh. vyd-vo polit. lit-ry URSIR, 1960. 46 p. I (MIRA 15: 1) (Ukraine-Trade uniops)  MOSKAILETS, Konstantin Fedorovi,.h [Moskaleta K. ;-SUSHCHUK-SLYUSAREIIKO, Z., red.; KCPITKOVA, N. [Kopytkova, H.], tekhn.-red. [Trade unions of the Ucraine st __--~e for the carrying out of the seven-year plan ] Pr f ilky Ukrai v borotibi za zdiisnennia sewichky. Kyiv, 1):r h.vyd-vo po t.lit-ry, 1960. 89 p. (MIRA 13:6) n (Ukraine--Trade uni~q) (Efficiency, Industrial)  CHUMACHENKO., I.N.; RAKBYATEZH,'NOV, U.; 5.t N.Ye.; PONOPA'REV, V.G.; FOKEYEV, PROTIKOVSKAYA, S., rtd. (Recent developments in the use Novoe v primenenli milnerallnykh I vo "Irfon" 196/.. Al P. ENIT-SA,. B.A.;. KUZNETSOVA, I.; ERGASHEV, R.; mineral fertilizers) brenii. Dushanbe, Izd- (MIRA 18-1,)  SUSHENIYA, L.K. Quntitative data on Nauch.dokl.vys.shkol; 'iltration fe ding of planktonic crustancennse biol.nauki nt.1:16-20 158 (MM 11:8) 1. Predetavlens kafe0roy zoologii universiteta im. V.I.ILenina. (GLADOCFM)l Belorueskogo gosudarstvennogo I I  I - - -- SUSHIUTSEV, S. I Each violator should be sum oned. Za bezop.dvizh. 3 no.10:1-2 0 160. (MIRA 13:10) 1. Nachallnik 5L-K, deleniya Otd la reguUrovaniya ulichnogo dvizheniya g. Moo (Ylaffic violatIons)  AUTHORS: Sazonova, I.S., Khokhlova, T.P., Sushentseva, G.M.9 and Keyer, N.P. TITLE: Catalytic proptrties of t tanium dioxide and its solid Bolutiont PERIODICAL: Kinetika i kataliz, v-3, 0.5, 1962, 751-76o TEXT: The authors investigated he 'catalytic decomposition of iso-C H OH on TiO and its solid solu i6ns with Wo and Fe 3 7 2 3 203 The decomposition was followed by the measurement of electrical conductivity of the catalysts. The reaction was mainly dehydration of the alcohol with the formation of ~4-99*.6% C34' 5-0-45% H2, and small amounts of Co, CC2 and 02, ~ It was carried out at 16o-455 QC with 9 ml of catalyst and lobed rates from 0.1 to 0.6 ml/min. Results: dissolution in TiO Of W03 (0-5-1-0 mole %) decreases considerably the ictivation energy of its electrical donductivity aud increases its cataly ic acti'v'ity. The readtion temperature and the activation energy decrease markedly, the reaction rates at 200 *C being greate by 4-6,orders of magnitude Card 1/2  S/195~~2/003/005/005/007 Catalytic pr Ioperties of ti ~Aniutn ... E075/E136 for the catalyst containing-'dissolvedl"03. Ti02 with dissolved Fe-)03 has a lower electrical conducti ity ana catalytic activity than pure Ti02, but the changes produ ed by the incorporation of Fe0_03 (1 mole ~o) have smallir absolut value.s'than the changes produced by the incorporation Of W03. Addit.ion of Fe203 (I mole to Ti02 containing W03 (1 Pole ~o) can els cohipletely the catalytic and electrical changes produ?ced by th addit"lon Of %103 alone to Ti02. This indicates that the mechanism of action of the dissolved oxides is electronic. The.,*nfluence f the electronic structure of Ti02 on its electrical properties andichanges of the electrical conductivity of the catalys s during adsorption of isopropyl alcohol and propylene and during the dehydration reaction, indicates that the mechanism of the reaction is electronic. There are 7 figures and 4 tables. ASSOCIATION: Institut Kataliza SO AN SSR (Institute of fatalysis SO AS USSR) SUBMITTED: July 1 Card 2/2  5ul t" BAKAYTN, V.P.; BTJBOK, K.G.; DROZDOV, VJ.; DCRC KARGOPOLOV, I.G.; N LOMAKO, P.IF.;,MnM OL'KHOV,.N.P.; OSIl PODGHAYNOV. S.F.; I SHMYNIN, A.P.; SPI'V SYMW, P.S.; TROIT SHEKTAKINO N. I. Nikolai Konstantino Mr-Ap '55. (Chaply,g ARM, L.A.; BUNIN, A.I.; VoRwylff' K.V. , M.S.; ZUIRILOV, S.V.; IGNATIYW, Z.A. IN, D.N.; KOMAROV, A.H.; KURILOT, )(.S*; A.S.; HI AYLOV, K.M.; NRMTINdVg.B.A.; T.V.-, PAXH(V(Yvv Ya.P.; PLAKSIM, LN,; LWlK,.I.I.;-ROZHKOV, I.S.; SAVARI, le.A.; Ya.'-q,; STIIGIIT, I.A.; A.V.-, USHIKOV, K.I.; KHARMM'U'&- 4OV., AM.- L Claaplygin.!TSvet. met. 28 no.2:-57-58 (MM lo: 10) Nikolai Kou~tantinovich,' 1911-1955)  u u U I D t! L' 1 V I I u -j :; u b a u u d t! d i, C 5 u u I a i re 2 ; I vL~ m3 s s aD z) ns L, n o- D.,. -L1 j J 1: 6 Ti C L u ;A L Li &.1 d U. s. 2 i L t! 0 UV A i T! Li t~ 0 t~ b b c, u v x t- a b D D 0 UG L, :z co U; t, 0 A 0 -Y, Iq , ~4 a v & 0. . L s I U, p 6 H v ~j 4AO-JP31PUY ti vi L 1111 /800/1 t 0 'l-i S 9 1; 0 9t6OZO~d` )i N NO I S aDDY 7  "RM09V C,j -d 2 /2  !U~YYER, N.P. SAZQNOVA I.S.; KHOKHLOV4, T.F.; SUSHENT Catalytic properties ol titaniup di ide and its solid oolutions. KinJ kat. 3 no.5:751-760 RrO It2s (MIRA 16:1) 1. Institut kataliza S rskogo otd~leniya AN SSSR. (Titani oxide) (Sqlutions, Solid) (Catalysis)  A,GCF,--SION NR: AP4017637 S/0190/64/006/002/0258/0264 AUTHORSt Pudovikp A. N.j Hwatovap A. Aq Sushentsova,, F. F.1 Zorevap No Me TITLE: Heterochain polymers with phosphorusand oxygen atoms in the main chain. Polypliosphinophosphates and polyps-- hinates P, SOURCEt -Vy,*.qokomolekulyarrq*ye TOPIC.TAGS: polymer, polyconda alkylphosphinic acid ester..-all~ ethyldichlorophospli.ine.. polyphm polymer ABSTRACT: This investigation invo polyphosphinates (PP)., the polymer 0 0 0 with radicals containing from 2 to Card, 113 dineniya., v.1 6., no. 29 19649 258-264 on,, phosphirtic acid, alkylphosphirdc acidj, Sphinyl dic~lorlde,, phosphoryl. dichloridep ()phosphate.,~polyphosphinate., heterochain ad polypho4,hinophosphates (PPP) and chain of s&ich consisted of links 10 0 nd 1 carbons, These polymers were obtained by  ACCE33ION NRs AP4017637 polycondensation of alkylphosphinic ric-, alkylphosphinic-, and arylpho conducted for 4-10 hours at-a gradu molecular weight, softening point, water and in organic solvents werei which contained 4-8 carbon atoms pe: were insoluble in organic solvents. 14 per link resulted in the formati, possessing a low melting point from and haVing a low flammability. The raised the melting point by about 6 hydrolyzed by water (even at OC). I allWlphosphinic acid esters and of yielded only products of low molecti ride was required to bring it up to polymerization reactions were of thi increased with temperature, as well ZnC12, and AIC13, Orige art. hast acid esters, ihinic acids . temperatur id solubility, Urmined. ~ link, disso! An increase t of polymer .30 to -50C. The the mo second o Ls in the dharts, th dichlorides of alkylphospho- The polycondensation was rise from 120 to 200C. The of the obtained polymem in yas found that the PPP compound4 ed only in water and alcohols and n the number of carbon atoms to soluble in organic solvents, Lisplaying good adhesion to glass,, an aliphatic radical by benzyl and PP compounds are rapidly Llar ratio of the issuing was 1:1, the polymerization 1-712). A 30% excess of dichlo- was found that the investigated and that the reaction rate ience of such catalysts as FeC13J, irmu.Las.. and 3 tables. C~,d 2/3  ACCESSION NRs APhO17637 ASSOCIATIONs Kazanskiy gom State University) SUBMITTEN OlDso62 SUB COM CH uni DAT::Qt 23Hu XO SOVI 003 imo V. I* Lonina. (Kazan' ENCL: 00 OTHERs 003  SUSifXVSKIY. M.G. - I.... .. .- Letters from the Bruss,5 a World's Yakr. Zhivotnovodistvo 20 nro. 7:79- 93 Jl 158. ( agricultural ~xhibitinna) 01MA 11:8)  r AUTHOR: None given TITLE- Dissertations PERIODICAL: Stanki i instrume*t, no. 8, 41-42 S/12 611000100810061006 D041YD113 TEXT3 V.P. Grechin presented ;he disserta:ion "Heat Resistance and Other Wear Resistance Factors of Cas-, Iron and Alloys During Sliding Friction" at the Institut mekhaniki Akademii nauk USSR (Institute of Mechanics of the Academy of Sciences Ukrainskaya SSR) in order -to obtain a doctorts degree. The following dissertation were presented for a candidatets degree: "Investigation of Small-Module Gear-Shapers- by Yu.R. Vitenberg at the Leningradskiy institut tochnoy mekhaniki i optiki (Leningrad Institute of Precision Mechanics and Optics:; "The Effe t of the Structural and Techno- logical Factors of Spot-Welded and Seam-Welded Joints on the Distribution of Stress Caused by Load and om the Fatigu Strength" by B.B. Zolotarev at the TsNII tekhnologii i mashin(stroyeniya TsNII of Technology and Machine Building), "Investigation of S(rew-Nut Pai s During Rolling and Sliding" by Kumar Basu Sushil at the Mo!kovskiy eta koinstrumentallnyy institut im. I.V. S ow Institute of Machine ools and Instruments im. I.V. Card 112  Dissertations Stalin)c "Investigation of the Surface Ac Ma,~hining Hard and Brittle Mat~rials Usin thod" by'A.Ya. Vladimirov at tie Leningra optiki (Leningrad Institute of Precision Some Technological Factors on the Surface by Means of the Disd, Periphery" byB.B. T instrumentaltnyy institut imeni I.V. Stal Tcols and Instruments im. I.V. Stalin)-, 11 Synchronization of Gear Changiag" by'I.M. Lenina i ordena Trudovogo Krasnogo Znamen ch~~ im. N.E. Bavmana (Moscow "Order of Le Labnrll Highez- Technical S~.hool im. N.E. E inz Process with an.Oscillati Motion" b aviomecha,:~cheskiy institut iscow Autom ter's note? complete translati Card 2/2 S/12 61/000/008/006/006 D041YD113 iracy and Smocthness Obtained by the Ultra-Sound Vib,.,ations Me- ikiy institut tochnoy mekhaniki i )ohanics and Optics); "Effect of juality Obtained by Plane Grinding )itskiy at the Mcqkovskiy stanko- ia (Mn,~^mw Trs+jinite of Maohine ivestigation of the Automatic Chovanov at the Moskovskiy ordena Vyssheye tekhnicheskoy uchilish- 'Ln and Order of the Red Banner of iman), "Investigation of a Grind- 'TsAo Shih-Shen at the Moskovskiy hanical Institute). EAbstraa-  susHnirl, V. A. Ge o1 oa IlDirections for Measurinr Dynamic in the Petroleum Industry VNIIT-B 11 Gor -c Azerbaydzhan, No 1 and 3), to- Summary 11o. 60, 26 RaY 52; BR-5205 is in OU-1011 2clioreterz,", "Safety TechnicLue racts Of 1fctures in Russian and I izdat 193  - - - - - V 1-1, 1. 1. Yeasurement of derth pressure in j-etrol i gorno-toplivnoi '-,it-ry, Azerbaidzhans wells Bak~, Gos. nauch.-tekhn. izd-vo neftianoi otd-nie, 1948. 81 p. (50-2-2-505) TNE71-377