15-57-3-3515D 'Translation from: .:Referativnyy zhurnal, Geologiya, 1957 Nr 3 1* p 150 (USSR) AUTHOR: Zhuravleva, P. I. TITLE., The Geologic Structure and the ~011 and Gas Potential on the Right-Hand Bank Along 'the Kama ViVIBli (Between Sarapul and Molotov)'ZG_eologichesk'4e iitroyoniyeA perspektivy neftegazonoanosti pravoberiazhlya. techeniya .r. Kamy (Mezhdu Sarapulom i MolotovyzJ7 ABSTRACT: Bibliographic entry on the authorls~di.asertation:;for the degree of Candidate of,Geologicial and Mineralogical Sciences, presented to the Was* n.-io &dleg6fd27ved. nefi. ih-t (All-Uhian~Sdiazitiflc Geological Prospbeiting azid Petrcleum Inatltute)v Moscow,_1955-' ASSOCIATION., Vses. n.-i. geol,ogorazved. neft. in-t (All-Union. Scientific Geological Prospecting and Petroleum Insti- Card 1/1 tute), Moscow.    111LUERIM411; M1,911vILME1 Utz 4mvin 110-12-4/19 AUTHOR: Kulakova R V. Candidate of Technical SaJmaes , Kreyn, J3*E. Doctor of Kchi2ical. Sciences and Zhuravlova, RM.',i Ingineer. W --- ------ TITLE: An Investigation into the Decomposition of Oils,, Individual Groups of Hydrocarbons and ~their*ixturas 11h an Blectric Field. (Issledovaniye razldzheniya mAsbl,; -otdel'nykh grupp uglevodorodov i ikh smesey v elektricheskom pole) PERIODICAL: Vestnik'Blektropromyshle=osti, 1957 Vol.28 no.12 pp- 13 ~USSR):.') ABSTRACT: The reliable operation of oil-impregmt.-d and oil-filled cables is affected by the evolution of gas Ln the oilthrough ionisation. The article describes wor)v wita a "gassing" cell very similar to the old Pirelli cell; the Laner electrode is a tungsten rod 2 mm diameter; a-nd the.oute.r electrode is;tin toil on glass. Tests were made with atmos:~.6e_res of air, hydrogen and nitrogen; the results are given in Fig.2.~: Ritrogen gave considerable gas evolution and air considerable*~bsorption, whilst hydrogen was more stable. Accordingly, a hydrogen-atmos- phere was used in the subsequent work. After assessing the .influence of experimental variables,a study was made of the gassing properties of low and high viscosity oils from!'both naphthenic and paraffinic.crudes; the properties of the oils Cardl/2 are given in Table 1, The more viscous oils.did not evolve gas  110-12-4/19 An Investigation into the Decomposition of Oils, Individual Groqp~s of 1~ydrocajrbons and their- Mlxt.iffr6o Injan Electric .'.Field.- but the low-viscositylo-oils-were much mdre~~active. The'.curves .given in Fig. 9 show how the degree of refinement of transformer !oil influences the gas evolutione The results of gassing tests on naphthenic paraffinic fractions completely~de-asphalted,and freed of aromatics are given in Pig. 10i all were gas-evolving, but again the heavier oils1were more stable. The effect of adding aromatic hydro-oarbons in reducing the~gas evolution of the fraction is sho-wn.by. the data in Figc.' 7, 1he oils, W'er6 also analysed after exposure to iol3isation, which was found;to,~ause somewhat greater cozplication~of the molecules.* Because fractions from which the aromatics have,:been removed are more gas,~-evolving, it is concluded that the aromatics prevent gas evolution; further, that their addition reduces the tendency to gas-evolution. On exposure to ionisation, the dielectric.~properties of.almost jjlrt4e Oils bep~~ wgreg. The T.,afe 10 figures, 2 tables and eference w 10 are,9 c. ASSOCIATION: NII SUBMITTED: 'December 20' 1956 AVAILABLE: Library of Congress Card 2/2 Vic      - - - -------- ZOTOV, V.P.; SILUYANOV, V.G.-i GUGINA, AUERMAN'i L.Yei.1 ALEKHINA: M.S.; BEZWWV, A.D.; -BODROV., V*A*~f BUDNYY, A.V.j BURTSEV, Ye*L,;; VAYNSHTEYN V.O.; GAVRILOVP A.N.; GORBATO;'V.H.~; GRITSEENKO; NJ DOLGUSHEVA, L.I.; YEDYGENOV, K.Ya.; ZHURA)UE A S.S.; ZACHrSM; Ya.A.; IVKIN, A.P.; IZMV,, A,K,',I'ILIINSKIYj N.A.; IRINARKHOVA,' A.M.; KARPENK.%~A.; LYSOOOR'.P.M.'; LUPISI~-, A.t.; OLRYNIKOVj Vovoj ORANZHKFZWAi.'V,,R,; PETROV?: N.A.;,PYATIBRATOl,' :'M,A.1- ROHMIOV, A.N.- RAUBEJ P*V.j RYZHENKOj! L.P.; SEWKINT~A.A.l SHEFER, A4~P. G.IA.Ivanov; 6biti~~z7 NTO no. 10 s 39 162 (faRA 15:9) vanov, Georgii: lAkoylevich,,:' 165174~62) b  41.11srimll4gla"lll~:14111~kfirI W Isal atVIVA Wilsifill U I'll M.11110WIMIA 141111INIfil U 1111:111flit III U1111 H IllifflIC1111:11 I r[IIIIIIIIIIIIIJ H 1111111111111111111111111 HII 1111111111  -AUTEORS: Sokolova, Ye. B., Krasnova G. V.# SOV/156-584~- 32/48 Zhuravleva, T. A. TITLE: Synthesis of Mono-Alkyl-c yolohexanids of la's 5 position With an Increased Density (Bi ~iez m k mofioal ilt'jkl' si o~ . l geksanov sostava C -C s-povyshennoy"!plctno6t'1;yu) 15 18 PERIODICAL: Hauchnyye doklady vysshey:shkoly.,:Xhimiya i 1himichesk4ya, :tekhnologiya, 1958,, Nr 2,~pp .:330~- 334~:(USdn) 4BSTRACT: A hydrocarbon fuel with A maximum oal6'ifil r b ower per, unit volume and with good'oombuation 6~aracteristios ad n be obtained only by a.rational componen .t Eel ection of!i c om-:, ponents, taking into account the oompositio'n and.the structure. The paraffin-.and naphthens hydrooarbo~s the~'deneitie~iof which are increased owing to the branched structure are most interesting in this connection. "one-the first- I 4e isomers with quadrivalentlearbon atom6iiare most.inter6itin' 9- The increase of the number of lateral; 6hain~ and i" - ~pact position of the chains in'the polysubB~ituteVoyclohexdne homologues or the presence of a carbon~',atcm~,in the laidral.! Card 1/4 chain of the monosubstituis'd alkyl-cyclohexane's lead t4 a  I Ills 431MI111141 11114141111111 Lill 11111 H 11111111111 111111VIIII31 Will ltuiiiiii JA The Synthesis o.f.Mono-Alkyl-Cyol.ohexanei ef~& 'C -0 ~~-~2/48 :15 - 10 .Composition.With an Increased Density it t, htI;'Moltcuir eig4 considerable density.even,a a cons a a w It was the purpose of thin paper to produce,a,number b$. monosubstituted oyclohexai~e homologuesi,the batbon structure of which contains 1 or 2 carbon atomsj:Xurt~ermore the, evaluation of the influence of a branched structure owthe' density. Af ter presenting: a detailed- ex' ~ri~eAtal! parb! [thel al 1xiisiow 1 1) 4 new' authors draw the:following~fin cone mono-alkyl-substituted benzene homolog%jes ware synthetizedi and characterized according to their.m6in pby-sical andi' chemical properties; from:these 4new.donc-eilkyl-substitut6d cyclohexano'homologues'were produced by.oo.ta;lytic hydritiont containing I or 2 carbon atoms in the laterAL'chain.'5inew; tertiary alcohols were produced for the"firtt,1ime as intermediates in the synthesis. The maintIicn~d'final produces are the following: 2,4-dimethyl-1-4-cYolohex.Y1 octaneli 216-dimethyl-4-P3~OpYl-4-cyclohexyl heptane., !2i2,4,6-tPtra-! methyl-4-cyclohexyl heptane, And 2,2,5;itrJ,mdthyl-3-cyol6- hexyl hexane. The density of these cyclanos:amounts to!from Card 2/4 0,6392 to 00450. This surpasses considerEibly the density  The,Synthesis -of Mono.41kyl-Cyclohexanesl of &C -C 5, Composition With an Inoreased'Density, ~of the moiio-alkyl-6ubstitut6d'hoi~oloktt e of~ the cyclohezahe ' 2ml~~6r o'k' of the iti n same compos . on:with''a or y to: a ta ' r~eajle I n', oola-, extent branchedIateral 6hain. The d6~aity ~!ino ; sequen ce of the structtire.,ramifi;oatio'n'~an~ou nte~to.-app;roximately ~3% for the synthetited hydrocarbons.,The iziore as 11 of:the ~i h t S' calorific valueper unit'volume conn66ted. v t i i .6f considerable practical in'terest.~Thekii.are~ 1,figure and 6 references, 2-of which are Soviet~- AISSOCIATION: Kafediatekhnologii iskusstv4nnogo zhidkcgb~ ~GpliV& it, !gazpv Moskovskogo khimiko-tekhi~logichtsko,~o irstituta im.~M.. Mendeleyevm. of ~ Nchnoloa -of !'Art 141 0~; iii.1,140*110e and Gases of th6 Moscow1nstituts of~Chemidal Tachnold gy imeni D.I~Mendeleyev) SUBMITTED. October 3, 1957 ..Card 3/4   li6i, ih 1-1i .1 Lai TITLE- ThaU dle;~fk` 414)kitPJ~~!~IW djbi4.1140614)4 di4ilv till . ii 414 4k brntvA bridges d1outing mepixato mctLmzMT! X. V, SOURCE. cpO~,', Wu_ GS- ddc IT, TGPTCTA trio i ~E4 i` 1"i ili A,04pli-116V I u A,I~A Itt! )!~I d component measimement; qqq.F program. IIL q= 714 t Ala- Al Mdependent meaff-areinent-9 -namlid.e, rtlm-tsio~ aa(rl-e, acth q) II.-I'ld .1clivIe 'compl-, liattll,   BMWITTM. V11101R., O(Do. 1d" trip -pip . . . . . . . . .... I ".1    34751 S/02 62/142/003/018/027 As-, P~ '2 0 B 1 ZB 11 a 37,7700 AUTHORS& Odabashyan, G. V., Zhugavlevag T. All and Petrov9 A. D:.P'~ Corresponding Member of the AS USSR TITLEs Study of the addition reaction of dichlbro silane,to alkenyl silanes PERIODICALs Akademiya nauk SSSR. Doklady, v. 142,' no. 3 1962, 604 - 607 TEXTs Silicon hydrides and alkenyl silanes react easily and with good yields in the presence of platinum hydrochloric acid,un~ter comparatIvely mild conditions following the schemes (a) X Si(CH CH-CH + HSiX - OX Si(CH CH CH SA 3 2)n 2 ~ i II I 3 3 2 2 2 3, (b) X Si CH + 2HSiX ? x ~il CH Off, 2 2)n'CH-CH21 2 3 2 r(CH2)n 27 312 (X CH C H C H C H99 C 6 H Cl; n 0, .1)'G The pasiibility of', 39 2 5" 3 79 4 5' producing organosilicon monomers by adding dichloro ~Ilane to alkenyl silanes in the presence of platinum hydrochloric acid, vias studied in this conneotion3 H 2 Sici2 + 2CH 2 WCH(CH 2) S ix. C 1 S i ~c HxH 2 ('H2 )nsix3j 2 n Card 111.F ".j _i.--____~  S/02Q/62/i42/003/018/027 Study of the addition reaction... Blo6/Bilc 50-ml (X CH CI; n - 0, 1). All reactions were conducted in a 3' C2H51 steel autoclave. Table I shows-the reaction conditions a d-yiolds of reaction products. The structure of alkenyl silanp~largely affeots'the. yield of addition products which decrease as the numl~er of electronegative groups on the silicon atom of alkenyl silane increases, an'd.also during the conversion of vinyl silanes. into aliyl silanes. :According to A. V. Topchiyev, N. S. Nametkin, and S.~G. Durgarlyan' (Ret.~.18t DAN5 jJO, 105 (1960)) it is vice versa when trichioro silane ii,adde d.to diallyl silane in the presence of platinum hydrochloric acid.', Addition of : V/r dichloro silane to alkenyl silanes takes place etepwfoes Tirst, one,Si-H bond reacts, then the other with the relative reaction rate of,the first,. Si-H bond being higher than that of. the.second oneo This behavior agrees with the data given by two of thelauthors and V. A. Ponoaarenko (Ref.' 20:9 DAN, 1261 -1009 (1959); Ref. 211 DAN, MO, 333 (1960).) on t~e addition of silicon hydrides to olefins, and may be used for the, synthesis of organo;, silicon monomers with various bridge bondst a SiCl + CH -CHSix H(Cl )SiGH CH six H2 2 2 3 2 2: 9. 3 (b) H(Cl iCH x + CH *CHCH six 01 Si(CH oil; SiK3)(CH a Cii six )23 2CH2S' 3 2 2 3 2 21 2 2C1 2 21 Card 2/ 6   Study of the addition reaction... S/020/62/'142/003/018/027 B106/~Ilo ompound p,oc/mm HS pp 00 201 d I 4~ 20 R Cl2 Si(CH 2 CH2 SiCl 3)2 140-142/6 58-60 Cl Si[(OH CH Si(CH )Cl 2 2 2 3 212 165-166/13 80-81 Cl2 s i EICH2CH2Si(CH 3 33 2' 135/17, 66-68 Cl2 S i .[(,H2CH2Si(C2 HOP121 2 171-172/8. 29-32' Cl2 Si LCH2 CH2 Si(C 2 H5 )312, 176-178/6; o.9639 T-4775 113-~15 Cl Si(CH CH CH Sicl 2 2 2 2 3 2 172-173/12 28+ 1.4160 !:.4934 92.85 H CH CH Si(CH )CI Cl2 si LC 2 2 2 3 2 198-200116 47-48 ++ ++ Cl2 Si [CH2 CH2 CH 2S i (CH 3)312 i2l-122/4 0.105186 l;-4560 95-44 , (C H ) SiCH CH SiHC1 2 5 3 2 2 2 109-111112 1.00:66 1104650 66-83 Cl2 Si[CH 2 CH2 Si(C 2 R5)351 165-167/10 0-9573. 1'.4680 .$4 10) - (CH2 CH 2CH 2Si(CH 3 ) A i . CH CH CH Si(Cl )2si I I ) 1 2 2 3 16-118/8 0-7960 1 1,4410 95-77 (CH LCH CH Si~CH 3)2S' 2 2 3)312 101- 103/14 0-79 52 1.4402 86. 2 %jara 4/b  ....... .. 62/1421003101 Study of the additiwreaction.... B106/01ic 7 + solidification pointl ~+ rcooled liquid. Ye. D. ih -i i's 4 for the supe 1ub u mentioned., There are I tableand 21 referencees 161Sovidt -and 5 non- Soviet. The three most recent references to English-48ng%xage public4tions read do followst -L-.A4 Sommert F. A'* Mitch, G. M., Goldberg, J.-Am..Chem.!SQ;^-1 71, 2746 (1949); L., 11. Sommer, G. R. Ansulq J. Am., Chem. Boo., U, 2482 _R;55); P. D.-"Georget H. Ptoberi.-I. R. Elliott, Chem." Rev.,j 569 1065 ~0954 SUBMITTED: October,,20, 1961 Table 1. Addition of dichloro silan to vinyl a*nd a1*1 Alaries in;t'he" .Presence of 0.1 ml of a- 0. 1 ~N solution of H 6H;d ka~ ~s~opropyl,; Ptal 2 6* 27 alcohol (reaction time 1.5 hrs.from the~beginning of heat ifig onward).- Legends, Les t, (e) maxiinum (a)~Jnitial p*rdductaj (b) amount I (o) g; (d)~ mo* reaotion-temperaturej 0 ' (f),maximum pressure rom atm; (g) isolated f reaction productal. (h) yieldsi,* calculated for the alkenyl silanes added; described in publications. Card:     1. .-HUHM111 11 RIM U-4; /General Problems.of Fatholoays Tumors Abs jour Ref zhur EL61.1 116 14) 1958, No 66DO4 ii Author Inst Title Conti7ibut &i--t6`thfj 'rpioloor! of Orig Pub YOpr- ~':onklolo'g;ii IM: j: 3~Hd 2j':, 16~-16� tih. (160",bbB r~vatj hs) J~ja ib~ tt%kt Abstract B6ih, ~he Con uoui (1 0 1 erMi observations) administrations of sinestroi (I) to eas.' trated nale rats were accompanied by the'!appedrance in the nrz ry glan(l (MG) of hyperplasia of the'; nwitapathy type. The dynamice of the process were traced froxi 6421nitial tis- sue reaction to the development of the.MG:cimd4e~. Various foms of the multicentric!epithelial prolifordtion vere ob- served; the appearance of;the peculiar aden(=tous prolifer- ates2 so-called cribrlfor~ structures, Ih the~ductji end casts was characteristic of the:later stages:af the~expevimint hn4,,: as a ruleo preceded the development of wncu-r~ Ccuicer of' the M was found in 13 cases; it was found =Ly in 5 of ~180         IW W V IN 11 is isuI it 11 00 X ~00 00 a 00 00 4 w ~V.: ~d-j. -146c' it b_ 00 I't .0 Go was 4.00 4t0 600 -boo ee 00 !We A $9-It mITALLUPWAL LJYE*AIL*t CLAISIPWATICS 0* 40 to -n Kit flit Ito Inc it 111 0 4 0 F 0 60 & w0 of 0 060 000 0 v 0. 0 0 0 0 0:0 0 O's 0 re 0 :k: -440"-f- 0,0 6 0 4~ 0 0 0 0 0 0 0.0 0 0 :t.*;o 0 0 CC* 0 0 000 ee 'at  mil n iiiij "INAII if 'mi 04 0 # 0 9 0 0 0 a 6 00 0 IS 0 0 0 e 0 0 0 0 so o 0 it v It v P. v os~* 9 1 T. I 1 .1 1- M ti it tv'l I; 00 -00 so and' dolition th"liws TU kdamubtUly W pOtelk fo Ria", V., N , 'Skliohw. J. ("AM. IN4 'am-Pir 44,111ii-w firuitt. at 704nnh ppr1irs W Us)', 11 vilti PdI I WIC $Is*. Iliv 1we", td q"(1 11m. IMICAt44 'K, I 00 v%hat but Mkic With day ruili,il. Vali'laoil"Ititsk-i ki *A%UtW ONO** An'l OtdMI11111 1401ifings %h'IVO temps. (4 W-41111'~ 00 8 -041 '410 000 c0 0 0 o:'3 zo 0 91 no -joo or _i "'40 stt&~LURMAL Lilt* TU#t C&AIII FKAtOOK It T q 7 AA 4 1, N 66 0 0, a p up a at it of III if a It It 11 A 1 14 0 A 0 09 0:0 0: 0 0 0 : 0 0 *I's 0-0 o iis, 9 0  W Hit . , U-BI I hAnt 11 W, Illiumilmlim to 0 IF a 0 a.1 It 11 It a it v a it ;41 a it 40 62W I IL D. N *0 A Hwkw. J. cf. C. A. 29,71014 I.-Un4i dim T. 0. lo danor of so 2 cpj 00 so A .00 to 't see 00 -60 of gas see boo MULL!! ~CAk L!T!,#~Ugt CLASIO)CATION boo S014*0 -it cmv ant 0.. 114 AT 00 Al ad 4 1 ~ I I * I s alai 3. 1 .00, 0 b if W K K d It A 19 0 a, I FA 0 0000 Al 6 0 0 0 0 9 a * 0,40 00 411 0*0 9 0 1111 0 0 0 0 0" 111 oooeo~ 0 * 0 0 & 0 0 00 0 0 414 01* 0;0 4 10 ip, 0 0 0 41 0 49 0 oiO 0 Oil*  - - - - - - - - - - - - - i Ira., Nj 711 w 'u w 90000 n_ .71"!Ir I ..'.. - . U IS 11 w 14 1 IN 7~ I, V w IS It m N 41 "It It 0 41:0 - CA A.111.1 A ~ m 9 Ot 4. 0- 1.~. h-i-A-P, 4 A ...... _t -,IN ~ 11-1 L'M" ~! 11 '~Of"dt*ACOfiWAb#tAtb6d.! I.C., ! . ~ I 00 A 1U k&UW&bW log tims). cf prgmding 4t"tHrt~--'qtwfi Pyrites have a I~ IjrjfI6 "p. tun wdIjjwy+y;Ite. the V%IUMrAsz1vxfrt*n22A'to242'. *00 ph*Ive In air mixts. tNm tvdjumy pOtts. As the w; ch %to inmasest the explinivrness d the air in(m. dkl. crtafts. It 'kC 1'ri'mirt see- zo 0 00 see es Are 0 see see ISO jL-414.1~L ACIALtW6VAL LFT#n&Tt*g C&ASIVICATIC41 C-1 lk Irv, 0 A 4 3 6 Pw, IF 0 0 a 0 0 4110 * 9 0 40 0 Go's 0 0 0 0 Ole 0 1 IT 0 0. 0 00 a 0 0 0 *'o 06 ois 610.6 * 0 a 0  1"o sip! 16 go 4 at IkIII-I L -k A-k JA -A ~v 00 A a, I -00 7%, 6 cor"dom of hvc, tM We aed load by a Idu 1)13 of I vitmIlmunwk. acid in mdfwk acid, F, YUJI110"ov, V'172 101104); d. C.A. 3Z. 02191,-~Cokl of Fe eon t as CV whe"thr avio rim- $0 a Vif lains 141001 it attacks PC for a time and Ihm the twelki tw- auivation enmes pawivattd. It this, " is hot, 11 Itinwst at tjnmi anif the Ft is then not can x1ed 4 mW acid. My"ins the Pit thics MA chanile Its t*hdvkf w. W~Mj SCUIS., Pb is %IfWgly %WtVAkd by 110)~ ~fumc, Wh.: Xf. Lviedoef ago 09,3 as* roe fee" coo too ties, tte T 9. S L 4 OfAtLGIMICAL Ltf#94TWI CLAjjIFjCAfOCI4, 3 age -is I w a go T_T u wr 000 As 0 It 2 'a It KW 6 1 Im 0 ip see 0 0 0 0 0 0 41 0 0 0 0 a 0 41 0 0 Is Ir 00' ; ~ * 6 0 9 v 016 9 0 so* 00 * 0 0 0 0 0 o o 0 9 so o 0 0 0 o Ole 0 at 0 0 0 Ip o 0 0 0 00010 04:01 r  11111i 111,11111"11 1: AUTHORS: Tinyakova, Ye., I., Bogom 01 nyy, 7.Ya. , sov/62-5'8.9-1,2/26, Zhuravleva, T. G., TITLE: Reactions of the TriazeneS With Die~n~ols and Acida ii~ 'A n- bydrous Hydrocarbon Media (Reaktsii 'tri.,..LzenovSdiyeholami i kielotami v uglovodorodnykh be~vddny~h aredF-kh) PERIODICAL: Izventiya Akademii nauk SSSR. Otdele!hiy(3'khinicheski..kh nauk, 1958, Nr 9, PP 1094 1098 (USSR) ABSTRACT: It has alreadybeenfound that the decb.6positionof il~iphatic- aromatic triazenes in aahyftous,, media 113 acCelereit'ed by the catalytic effect of dienols~"d acids or acfd:~. containing substandes.,T,he decomposition of.triazene,s ca.n also be definitely accelerated in anby&rm . . hydrocarbon mpaip in tlip nrpRpnrp nf Anidn.' Thin: rp,-tntinn is not' a  Reactions of the Triazenes With Die'nols and Acids'iri SOV/62-56-1 -12, 9 '126 Anbydrcrap Hydrocarbon Media in the alkylation,or arylation of dienol g~rOUPB.' It 'WA 3 found that in- anhydrous hydrocarbcin'~~me(lia' dio'xymaleic acid and its. diethyl eater and ascorbic acid accelera:te the decomposition of the triazenes. The :-eaction i accompanied b the formation of nitio~ gen and; the alkylation (or arylation~ of the oarboxyl and diano'. g:roups. The, authors found that the decomposition reaotion of triazenes under the effect of acids can be used -for the volumetric" quantitative determination of carbox'yl groups (especially in polymers) in anhydrou:s hydrocarbon riedia.There are . 2 figures, 3 tables, and 8 referenceso 4 of which are'Soviet. ASSOCIATION: Institut vysokomolekulyarnykh soyedin6niy Akiidemii nauk S,SSR anstitute of High Molecular Compounds AS 083R) SUBMITTED: January 3o, 1957~ Card 2/~  5(3) 9-n~4-~Q/77 SOV/7 AUTHORS: Tinyakova, Ye. I., ZhuraVleva T..!'!G. TITLE: On the Decomposition' Mechan:Um of ~!Xsoprbpylbienzene flydrogen Peroxide Under the Influence of SdIts o~ Metals of:i~arfable Valencies (0 mekhanizme raspada gidropexekisi izoptopilbenzola pod v1iyaniyem. soley metallov perpmennqy~valentiiobtl) PERIODICAL: Zhurnal. obahchey khimii, 1959, Vol 29., ~Nr 4~ pp 142-1269 (USSR) ABSTRACT: The study of the effect of these aalte!on the deco~positicn of. ' : o'rtan ce on acco of the hydrogen peroxides;is of great imp role played by their in the oxidation, r;olyw-,rization., . imd other radical proeesses.1t is known that,valts of Walkindiin their lower oxide- and oxide,forms accelerate the decoza~osition of bydrogen.peroxide eatalyticallyi'The d6gdmposition~of hydrogen peroxides in aqueous sQlutions below 5V,, and in bydrobarbon , - -,y under tho! influence solutions below, 90-'100 takes plice oW l + 2 of ferrous salts, hydrogen peroit& =A salts Ve: ;~*bdj ~ '~! Th:hydrocarbori Polu consumed in equivalent quantitiels, tions . the catalytic splitting of hydrogen peroxide underthe in- fluance of small amounts of ferric salts takes place only at Card 113 100 and up, whilethe reaction takes place instantly"even at  S07/79-29-4-r510/7~ On.the Decomposition Mechanism of Isopr'opylbenzeno Vydrogon Poroxide Under the Influence of Salts of Metals of Variable Valencies -70q if the ferrous salt is used (W, I).- The decomp8sition- of hydrogen peroxides is also adc6lerdt-ed`by the salts of other metals e.g.-by thefiaphthenates of.06 G4 LI Pd, Mn, 'lib, Ags Cr, .4 .0p i Ni I and F61 the activity of the:"metiLls, drops i" that',series, from Cc to-Fee For the mechanism of~ihe effect of these:m,etals the following scheme has,been suggested (Ref 1): _~.* Roe +1 + Men ROOH + Men +,HO-, (1) n+1 n + ROOH'+ Me ROO, + Me + H (2) t-alte~mativelyl Hydr6gein peroxide'thus piays the par an oxidizing and reducing agent.. This hasy iio,~veverj not yet:been proved by experiments" In the present: paper the experimental data regarding the decomposition of'ilaopxop~ylbenzene hydrogen peroxide in the presence of the'naphthenatea of the metals Un, Gul Co, and Pd in various solvents are; given. The. results confirm the validity of the suggeste4sc::iemd. Tables'and fig- ures-illustrate these results. There '* are 3figures, ~2 tablesp and 17 references,4 of which are Soviet. Card 2/3   S7,2 pj 67919 a t ZA 2 ;S9V/ 0-129-~-5-29/64: LUTHORSt Tin-vakova, Ti. :1. Dolg~plosk, B. Correspondingli Member> AS USSR's Zhuravleva,;T.~Gej Kovalevskyl, :R;. N., Kur4n'kina, T. N. TITLE: PolymerizatioaA.0f Die'nei and Olaf ins';'Zoder, the Action' of and a St~dylof Cobalt Oxides,and.Diethy~ Aluminum H*Iidesj~ ' the Structure f Pol more 0 PERIODICALs Doklady Akademii nauk 88SR,~11959, Vol, 12 9, Vi 5, pp 1068 1070 (USSR) ABSTRACTt fi The authors. s-upply data,concerning them pol~aerization 0 and 2-_3-~di.~ dieness butadienelisoprene jpentad164e-1_3 methyl.butadiene-1-3t as woll'ad oleftne.ila-butenej~s'tYr6ne &It oxiaes~ and a-methyl styrene inUe presence ao~ (Co 0 -Go 0 f 6), and diethyl aluminum;:ohiorido or di- 2 3 3 4f Re ethyl aluminum bromide. 'The catalyst contained either: 71 43% I 'ra t6 ao Ibalt o xide ~on or 6.7% of Co. The la Itter content re If aluminosilicate. Polymerization was carried 'out b tW46'n, 0 and 4100 in different ratios between'~cobalt~oxid: an d di- Card 1/4 ethyl aluminum halide (concentration',,O.5.4-5 of weight per  V919 '5 Polymerization of Dienes and,Olefins Under:the -SO:V/20-129, -20/64 9 Action of Cobalt.Oiides and Diethyl A!"inum na I a i i Vi Study;'O'f an ,the Structure of PolXmero,,,, cent referred. fo the:mohome n'an I humidity were -r Oxyg" u kept off. In the'polymers prod cod the content of 1 2-1 3-4- and 1-4-ois- and trans-members:~,*Ias let6rmined by.IR': spectroseopic,meai3urement (spectra taken by~:N.' V. Mikhaylo- --.!a Zhe unsaturation was determined!6ti IhO basis of ~the reaction with iodine chloride (Ref The:, vitrif ieAtion; temperature wash. determined according to Marey ~(Ref ;8). Table 1 gives the results along vith ~the m'lecular V'eight. Under mentioned conditions butadiene is rapidly polyterized already at ~00. Cobalt oxide on aluminosilicate retaift pov- merization to some extent. The polymers obtained exhibit a degree of unsaturation' which is 97-3-95f of theorjr-~, This points to the absence of: secondary resotiozis with the double bonds of the polymer. But,adiene polymers have a fairlk regular microstructure On cobalt oxi4e iiithout carrier the amount of the 1-2-members was 5-8%i th~ total amount of the 1-4-members was 95-92%, with the mo6tlpart being Card 2/4 in the 1-4-ois-position. By the use o .f cobalt oxide on  _j Ut IFIIIII lilt XIMUll. 111 -111111111 filial E1111114, of4WIM111 67919 i9~-5; Polymerization of Dienes and.Olefins~Unde r the 7/M.'1 ~49164 Action of.,Cobalt~Oxides.and,Diethyl'~Aluminum Halides ~'~and'a Stud~~ of~ the Structure of Polymers aluminosilicate, them of t el~-2-piambers in;the chains rises Due to~ the hig*fi-content of; f-4 -iae6bers. thi. polybuta- diene has a:low vitrification 'tem~e, down 0 -1 iavzri t 150).. Isoprene,is,'p6lymerized more slowl band tl-highsr~tem pratures Y ~ a p~ (at ibout,400) as compared to butidieno.'~Here tooj,~tW proceasrune more slow 'ly with the uiIe oValuminosill 'icate as carrier. It may be observed from table 1;that.both tha, microstructure, of polyisoprene~and-the vit-rificatioh-ttiimper- IkI ature are not changed appreciably by~, th.e~!oondentratio a :of the aluminum-organio oO;m o'nd nor by,the'ritio betwalen2~oo- p u balt oxide 'and aluminum~diethyl halide. Fairly large,am!ounts (17-18%),of-isopropenyl side- roups ncrdase the vitrifica- g b tion temperature of tho polymer considera; ly. The total- con- tent of 1-4-members is,about 80%, their ~sjorlpart is in the trans-position. A further strong.r6i'ardafion of pol~,Meri- zation takes place in the transition! to h!lgher'dienlts. U_ t; butene is not quickly polymerized a ~ro,)m: temperature and does form no more than a caoutchouc-like subsi;ahce. Neither styrene Card 3/4 nor a-methyl styrene are polymerized.by the procedure de-~ i W 1    4 111#3149 UMMIUMT1 I-INM H 1117MI Jl 11111 P H1111h MIE1101111 I 11141311 Hil Hil U111 I Hill] 111111 Will I'l 11149AH11111 11011111111111111 Iffiffil All 11 full IMI 111 HJUJI1111A Ifuldualillf _1U1MBU NIP: t4 I-is ox g F - F ! A~ VP 94. Ir Eel qw ML 1k ....... 14      Mr~vw ibigo/wow/ow/ ACCESSION XR2 -AP4030352 OagA)46! avlevaj,''T6 G.; Dol&~611 Bka a., AUTHORS Milovskaya, Ye. B.j Z hur I.jj:vGqqlov4 polar monomers induc6di by Alk' r9__. s Radiol,polymori atio~: of, 3 souRCE s Vy*sokomoleku1yarny*'ye a ine j. v* 41 no; W-46` J~; hiYa i MFIG -TAOS: p*3,vmerizations',redicallpoly~~kizatioii$ pbl*e-ri"tivIn ini~iatoij. :alkylaiuminum compound, - triatilylaluminuml: triioobuty.1a1iAmindr4, polar moliOmae pordxide oo acrylonitriles ben vinylac etate, mothylmstha=714 'ABSTRACT% Polymerization of the polar monomers viny1doetalial 1AVOlmot6crylate and acrylonitrile was conducted in the presence or the (005) benzovi::;: benzoyl peroxido as initiatior. - Th p3lymeirization of peroxide or Al(iso-.C 4 Hq)3 in 8-9~mole/iitqr volutionsAn behaem, Xwal! vinylacetate,was conducted 1-found that the optimal conditions yielding polymers with speWic. ;V'i 6.68 and 0.85 were 1 moleep of AI(C 2H5).3 (on the basis of the 1.034u= 69 Al(C H5 to.'benzoyl peroxide and t6mporaturos of:-25 a~d'00. The V;olym so ariza 2 )3 ic ofd: 1/2 MINI=  .4, 1ACCESSION NR: APhO30352: tibn of.methy1methacrylate took place in a-3 mole/liter i 6olutibh in di VrIf 0 -7-9 A ide aV -2G and in a mo e iter solution in~xylene at~ ~~4 20C~(the polymoAzAion in xylene proceeding at amuch faster rate)* The Polyrt in of, aci7~6nit~ile~,- was conducted in 2-3,5 mole/lite' solutions in dimathyUin r -mEmddo. SatidX4cto~T~ results were obtained only at 20C. It was observed that!here the moleculhr weight, i eac re- ir hed a high value within a few hours and remained pka~ticall~ unchanged th6 after. The authors show also that polymerization does ~bt cc6uz; in the absen6e benzoyl peroxide and that it is assential'to bring the ~a2lWlaluriclnum portibn. 0 f the initiator system in contact with the: monomer befote addirig the benipyl. 1 peroxide. Orig. art. hasz..2'charts and 2 tables# j: ASSOCIV ION Institut v erd~ AN SM (Xnsti~~t 0 :of y*sokomo1eku1Yarn;V*kh boyedin High-.Molecular Compounds AN S$SFL), SUBMITTM: We't)63.'. DATE AGQt 07X464, T,i~,C, 00 -004- 006,': i;J! SUB CODEt: CH No kty 80V 1. Car    SOV/144-m-58-id;-15/17 AUTHORS: 0a1 S d Feklmr, I.I., Candidate:of Techni aences, celit- and Zhuravleva, T.S., Senior iectu' . er r TITM Use of a Differential Circuit Witl~ Selniconducti~~ Hall E.M.F. Probes in Industrial (Quality) Control of Permanent Magnets (Primeneni7e different sial I noy 1,skliem-y vklyucheniya poluprovodnikovykh da.tchikov E ~D 4 ~. LM :~lla dlya promyshlennogo kontrolya,post9yamnykh ma&iituv) MRIODICAL:Isvestiya Vysshikh Uchebnykh ZaveUni:y, Elek-tromekhanika,, , 1958, Nr 10, PP-151-156 (USSR) ABSTRACT: Magnetic properties of~permanerlt ma gn 8 may vary considerably due to even small dep~titures from chemical composition and the conditions of: theroial treatment.: It is known that even in magnets fiom one melt the values of remanent induction and other pavami,.-ters may vary 'L 20% 7 between 15 anc o. For this reason .100% control of ' magnetic properties of permanent maga-'.-ts is desirable. Under the conditions of mass production of permatent magnets of only one type, the quality control should be fully automatic. When permanent m~ignots are produced in Card small batches full automati on ofthe juality control is W  ~j,830V/i44-~-58-10-45/17 Use of a Differential Circuit with:Semiconduet~inE Hall E.h[.F'* Probes in Industrial (Quality) Control.of Permunent Ma &me t s; too expensive* In such;, cases it is,! necessary tq~ have simple and reliable instruments which give highlyw~ q reproducible results, in7 non-automatip qLxality Control. There are two widely used non-autoni~tic,'methods in' quality control of permanent masnet~ ' the, ballistic method and the -use of a, f lumneter.~- ~~' Both these 6-.tho(ls are not very accurate and the instiumentaused are easily damaged under industrial conaitioins. 'The Novocherkassk Permanent:Magnet.Faotoxy asked the'authors to develop a ~ simple ands reliable ir~3tiument for 4uality control of magnets under industrial, conditions. Sur4ey of the subject showed that the.most~! suitable method t i' seuicond; would be one.based on the Rall effec n uctors. There were.two possibilities: .:either a, direct-re'ading method or a di:Cferential (comparisoii) otie. could be used. The latter was chosen because it liad oei7~ain ad4antages to be mentioned later, oyer the direct -reading method. The comparison method requires a standatd. Thig ;Standard, was a magnet -whose magnetic propei-fteli were at the lower Card -2/8 limit of pennissible values., On telatins, the induction  la-S-1 1A V-Pt rljlil.14~911 I I It H1,111111 if 1111 4PIl HIR Wil AIIII I I Hill 111111 ;fill I IIIIIIIIIII fill] I I I I lifill IHVI III I NIUE IIIHIMORIN SOM'' "-58-10-15/17 Use of a Differential Circuit with Semiconductin,3~Hall E M4rj. Probe s in Industrial (Qualit7) Control of Permaneat Magnets, of a sample should be always equal, to or Sreater~than that of the standard. The diffenti~l -.3'.'rcuit using two Hall emf-.probes is shown in Fig 1.1~~Each of these'iprdbes has an independent power supply. The pozer supplies may use either dry batteries, for ekam~ple~those 'of, IKS-U-3 "Saturn" type which supply .6 V e ach and are /hour capacity or the usual 'DGTs-.'based' of 3.2 amp rectifier circuits. Each semicondu'etiad probe was ih the form of a rectangular plate. A' lli ter: and "a rheostat (Rl and R2), viere include,rl,.in e,ac~h probe ~ circuit in order to control the, working ourrent.;through, tlie probe. The working current has: to -be chosell with~ care. If this P -Jvity is lows (tj~e current is too small the robe sensiti. Hall emf is too small for reliable.~ reading). At, high currents heating of the probes uj-3LX di stcrt the J~zear dependence of the Hall: emf on the worling, c-urrent!. The working current must be also of such value as to, Avoid the pointer of a. iiull indica:~,or going beyond its 'scale Card 3/8 limits under condition& of unbalande' Each Hall probe  OV/ -414"58-10-15/17 Use'of a Differential Circuit wit h Semi,~.- onductibg Hall EX F!'; Probes in Industrial 1. (quality) Control of Perm~afi6rtt iWi -.ets circuit includes.alsoia low-resistaa~pe rheostat between contact the worldng contact of the probe ands the ~~Hall emf; ~ These rheostats am ahoi-,n' as rl and~rp in Fig 1. They are used to set the null. indicator ~~o ze r~o in them absence of magnetic, fields.. The apt4retus; for quality control of permanent mag~-ets consisted of ~two part,s: .(a) the differential measuring cirduit with:two (10 null- indicator Hall emf probes. described above, arid! (a tube amplifier or a galvanometer) Fig ~2 showi the front panel and Fig 3 the interior of the in.stnu~ant. The Hall emf probes were! mounted in ~.qlots in V-sl~~ped~ magnetic conductors, The atandard:atd thel~tested magnets.were placed in the socket&:An suc4, a Way as to close the magnetic circuit of the Vishtped condu6tor.i The magnetic circuit in the ins *truw~at ruity be made~in~ exactly the same: form as, that 2'X1 wh~dh the, tosted imagiiets are to be used. eventually - The fr6ht pai16 1 contains also a.milliammeter, a switch by mp6ns of which this milliammeter can be used to measure !tho rkLng diiirrent Wo Card 4/8 in either of the Hall proba circuits and; four handles!  0,45/17 Use of a Differential Circuit,with Semico'nduct If 11 E. ihg Probes in Industrial (Qualit Control of Pe rka ne rt Ma gne t sI 2) The magnetic, of the rheostat slides (rl, r2, Rl,~R V - induction of the standard magnet is 1~~coinpaibed with that of a tested magnet,by means of the ~two Hall emf ~iobe~ shown in Fig L. S6parate power. supplies!:of the two probes ensure that the internal:resist,;MOe~s of tho Hall probes do not affect the voltagl~e: across the M The null indicator shows the differencri be-lb-veen the 111a11 emf Is induced in the two probes. Tite null indicator ~may be also made to show the differe'nce';"Le-1vj6e*n the Hall currents. A special circuit was used t allow fo:~ the fact that even in the absence of a'm'aEpietic field1there usually exist small potential differ~en,,.els between' ~the I Hall electrodes. The. procedure in! the uze or the- instrument iB,as follows: The null'indicator zevo position is set by means of the rheostats r, and~r2 the absence of a magnetic field. TWO Identleal standard magnets axe placed in the sockets of the,': instrument and the null-indicator is,s-3t to zero again. Card 5/8 This is done by adjusting the working current by,means  -SOVA44--~58-10-15/17 .1 B.M.F.~t Use of a Differential Circuit Ath Semiconducting H~l Probes in Industrial (Quality) Control: of Permal'nent~:Magnets of rheostats Rl and R2- The stand a id Eaid:the testedJ magnets are then:compared as follows: One of the standard magnets is ~removed from th6 ~ right-hand docket' and it is replaced by~the ma&uet toi:be tested, leaving the other standard mgnet in~the left-haild socket.;' If the induction due to th6tested magnet ib.not eclu4l t'6 that of the standard magnet, then tfiO TLUII indicq*or will show the ma&Atwle aad the sigri:of the difference of the Hall emf., ls'indueed by these,two maGnets. The lfall~ constant of the material:used for the pro:bes Willvary with thetemperature of the surround-ing medium but~'this does not affect the instrument readings, since in the; differential circuit used both probes exe affected in. the same way by the ambient temperatuic.- In the case~of, varying external temperatures, all:that is necessary is a check of the null indicator zero:ih the absence. 'of a magnetic field and when t o identica'l jtcttndard magnets w are in the sockets. The instrument wov.1d ha-lie been much more compact and much lighter had it been possibi6 to' Card 6/8 use a null galvanometer with a small iiLternal resistance,  SOV Use of a Differe-atia'l Circuit with Semiconductizie; 11a11 E.M.F.' Probes in Industrial (quality) Control. of Permanent; Magnats a small external critical resistancel a sball time constant and high.-voltage., sensitivity. Siic-h! galvaxiome~ers are. not at the, moment produced by tlie' Sovie't. Industry and. the authors had to.use an electronic ;'tube: ~ 11 indicator nu which Made the circuit' much more complex and the instrument larger'and heavier. The instrument des.d.ribed has the foll 'n advantages: (1) simpiApity of setting and operation; 2) a high degree of:repr6ducibilk6y; (3) it is possible:to test magnets uiAer the~conditsions in which they will be later employed' 14).within certain limits, the geometrical dimensions of the- tested magae~s do not affect the results; (5) variations of the am,bient temperature do, not. affect the instrument, A rotot-ype~ of the instrument was made by V.I.Bogach and B.A.Antonpv, of the Theoretical and. General Blectrotechnology Chair~ at the Novocherkassk Polytechnical In'stitute. The Director of the factory laboratory VON.Titarenko and workers of the Novocherkassk Permanent Ma'&met Factory Card 7/8 helped greatly in~testing the prototype under industrial   A0- NM AP6014901 SOURCE CODE: UR/0076/65/039/012/3118/311.9 J~ AUTHOR: Zburavlevs. T, S,; Sbigorin, Do ORG: Moscow P6si~'~C~emieal Institul.8~ imq~ L. ya JjLrpgv (Mosk6vakiy. fiziki-kbimicbeskiy institut) TITLE: Generatio~ of the radicelslof.a matrix using aromatic etbynyl derivatives SOURCE: Zburnal fizicbeskoy kbimil, V, 39P no* 121P 1965P 3118-3119i TOPIC TAGS: luminescence spectrum,-radical concentration, ebbybyl ABSTRACT: The article describes the use of electron ppransgnetio;- resonance and the luminescence method to generatetbe radicals bt a: a matrix at 770K. The use of etbynyl derivatives as,luminopbores;i Interesting first of all because of the high reaction capacity of the C ~ C bonds, and also because of their ability. to''form'r -comRlexe'sj between themselves end with the molecules of otber-comp a. In the present work., the' luminopbores used Iwere aromatic derivatives of~etbryl2o_ pbenyl, etbX1,obany_1_,j di phe Zlanatyl -4 (concentration of.~ 10-1 to; 10- gram-moles/liter in a standard metrix)i The above luminopbores were found to be luminescent under the conditions of the e"eriment (the, Card 1/2 uDc: Qa~.:L5  L-56957--66-- ACC NR6 AP6014901 region of approximately 3900-4500 Ag% 2 see);:eIorresponding observations were made of their triplet electron~oarsmagnetic resonance signal., with a. g-faotor approximately equal to 4*~~ Orig, sist, boa: none* SUB CODE: 07/ SUBM DATE: 26M&3r65/ ORIG M: REP: 003 2/2, gar  67096 soy/144 -5 9712-15 /21 AUTHOR: Z huravleva,'T.S.* Senior Lec turer. ..TITLE: Secondary~,Hall Effect 7N PERIODICAL; Izvestiya vysshikh..u-'-hebny1ch~ zaveden'iy,, 'r-, 1 c k t, amekhanika, 1959, Nr 12, Pl)~ 135-140 (USSR) ABSTRACT:, The system considered is shown diagranurat ic ally in Fj..9 1. l ht-tic A semiconductor plate is placed in a 1)6.rper~dicular mag (see the figure) 'and a D A: to the field n: enif is aplY ic p by meaus of. two. electrodes fixed 'V6 it it shorter edges, Another.pair or electrodes is fixe(- ta~ the 1Q*tx'&:erl edges of the plate. An eraf, e2:appears lacross these electrodes. That is given by IJB: e2 R ~~d F where: RH is: the HaIL cons'ta:nt, .:Ij is the curre ing intro tli p! t' fr m nt f low e A e the source, ' f i ~th n t i Id i V i &/ cr"I e c n se e B s e mag d is the thickness of', the plat6 ~411 C111': t Of F is* a quantity depending on 'he' dambqsions Card 1/5 the plate.  Secohdary Hall.g.ffect nnected acr 1116 1~6utp~xt- 'if a resistance is co 05s, electrodes of the sy ent , I' i.-v ~iroduced;121 stem,: a curr the circult. and-the ' qua t ion of tile system i~q e 4, U (2) z~2 7 2 where e is the.Hall emf at:lthe u p S 7 20 when open- C ircUit ed, ~ istance,- U is the: voltage ac~068.L hejoad.. reg t 2 (2)!, ~~cani 2/Thi: E% By introducing X rH/r~o and 1 2 JJ . 1 , e be 'wr:Ltten as Eq ~(3), wher rFj i th6' 1a ad xesista~nc e 9 is the resistance of the system aa;,seen from. and r20 . the output torminals in the. abselIC6 of ~jthf~t tnagnotic ;field. ' ~ ! inp~ut If it is assumed that the input curre~i~ 1,1~ and the voltage U, are constant, while the outpui~ resist aace r H is a variable (tile magnetic. field B 1)4iiij! constant), a linear relationship between U9 and~~ I.> is; obtained.' This is illustrated in FIS12 for three~~different values' of 13. In practice, however4 it is n6+. 1:,os'aible toiueep ' Card 2/5 Stan both the input current and voltage of. tile ~Ystem. Coll  67896' 4-5911-12-15/21; SOV 1 Secondary Hall Effect one of ttlene JS USU611y Vakfable 0 ild this results in a coupling between. tile input I%rkd dutput of the system (transducer). 13y' cons ide~riilg : Fig* 1-y it: can be seen t1 ogethe-r with the jatL itjPjjt 6irront I I i! magnetic induction of thecontrol, field,j)rcfdv1.cP- the fia,11 L emf at the output terminals,:.This is referred,to as the primary eMf L Le2' However. since La current flows~ i L11 iZ~ the output circuiti its- interaction C L field produ es.an emf (!I , at the ihput~ e r n3ina Is Olis can be referred to as the s e c ondary 'Ha 11 enif The act~Lon of this force tends,to increase the potential diff ere~nc'.e at the input terminals of the transducee~4~ Vie, secondar'y Hall effect can be explained,theoretically. ;The: operation of the transducer can be deac4llbed1by Eq (T)L An experimental inveatigatioh of the s)~,s~teni qas ~carried out. The measurement circuitis shown diagrammatically, in Fig 4. The input of the investigatedi -transducer wa Is t connected to a battery and the input cueren could be controlled by varying the.resistance betweentthe battery and the transducer. The input voltagelt,!C) the'transducer Card 3/5 was measured by meaus of a mV-meter. A resistance b ox: L  6*6 -1:2-- 15/21 Secondary Hall Effect was used as the load of the: output.~cir~c"4it~~4n'd the f yl~~ me aris o' voltage across the, load. was measured b' I mv-meter, The first set of measurements~ was carriedj.~ out at a constant input current, const~aillt 71agnietic field. and a variable load- Purther measurem'ejits were carri6d out at a constant input voltage: and a &Onstkni field, a:nd; 'this ~ciise, tho: a variable load. It was found that in relationship between U2 and 19 wash ponl~hie-ar. Tbo. Flown irl:~ Fi5 '54i and 5b; results of the experiments are. ts sh6wed that in the pres cB 'o f a load The experimen on across the output terminalsiof the tran~du,-.er, an emf~ f appears in its. primary circuit;. this eh'41' te~rlds to ch n1ge the electric field of the primary Hall~ tinif The sec611dary emf varies with the changing output current.~ Finally4:.'a i Hall transducer which operates with a loadA's a nonlinear, element d 5 reforenco of '~,4hic'h There are 5 figures an 3 are Soviet and 2 Germana ASSOCIATION:Kafedra teoreticheskiy~i obshchey elekir;16tokixn~ iki, Novocherskasskiy,politekhnidh eskiy institul: '(Cha.ir of ctrotechnics',T~of Theoretical and General Ele Card 4/5   S/144/81/000/09~6/004/0041 D207/D306 'AUTHORS: Pekkerv 1.1~g Docenty Candidate of Technical, Science.a, and Zhuravleva T*S#j Senior Instructor TITLEt Summary of the conforence on methots',and ins, truments .1 for.testing,of magnetic materials -PERIODICAL: izvestiya vysshikh uchobnykh zavedeniy. Zleiktro- mekhanika, no* 60 1961# 109-113 TEXT: The. conference was opened by Professor Ye. '04, ShramkoV9 Wh formulated its rpose and main problems. in the field 6f raaij~~etic measure- pa 1 - ments. It was necessary, he seAd, to. elaborate unified ti3rminology, ELS. it contains at present great differences. *Three main proTole:ms require, rapid solution: 1) Development of normative characteristics for different conditions and tasks of testing ferromagnetic materials; 2) 'The instru- ments for testing of ferroma etic materials are produced ft insufficient.~ quantities and qualities; 3r1t is necessary to cre Iate devIices for deter- mining basic properties of ferromagnetic materials with high accuracy and,* rapidity. Measurements should be based'on the principle of compensation. Card 1/7  '7 -7 0/006/0'04/004 S/144/61/00 Summary. of. the confe rence D207/D306,. The.first group of lectures was on.methods, of measuremdnts' u-nd inat"'eiRts for this purpose. N. .0, Cheraysheva (VNIIU),apoke on t~e increase of roducers2 responsibility of producers for:the quality of production. ir' should publish catalogues specifying average properties of uaterials F,F,O- duced and possible deviations. GOSTs. for magnetic materiali do not contain' so.Jar any developed sections on methods; and instruments tor testing mag- netic properties of materials, nor on admissible errors in weasurementip Methods of standard testing for all magnetic materiali prDdulded In theil. Soviet Union should be developed. There are not enough instruments tor q carry out testing, especially in factories producing such materials 'Oe N. AYtgauzon (NII Chermet, Moscow) spoke on the au~pmatioz 04 magnetic measurementsand the choice:of parameters to characteAze the material; in~ different working conditions. Special emphasis was laid on standards1or' conditions of measurements. 1. 9. Rozhanovskiy(Kiyovski), P'olitekhnicheskiy institut) discussed unification of Imagnetic character iintiLcir In -variable magnetic fields. It is suggested feeding the magnetization ci rcui t of a ferromagnetic specimen with a sinusoidal voltage and then, to, determine reversible and irreversible energetic processes from first harmonica Card 2/7  "tllmilli 'i'lutim, S/~44/8i/OOD/006/004/004~ L f th f ce S e con eren e** ummary o of distorted cur-rem. Professor M. A. Roz;enbl at (Institat a-vtomatiki tel6m4khaniki M SSSR) criticized the above suggestiouil showing that sixchj~ a basis for the unification of characteristics is not'.Iacce~tublo, as~:it does not reflect the peculiarities of differentworkiiig cotidi tionso N. At Semenova (NII Cher-met, Moseov) spoke on the mea~urvmintx of ma6eti 10 characteristics of alloys with high permeability in IdIitfore'n't conditiors of magnetization. It was stated that different condi ii oils: change thel" curve of dependence of permeabiliti'in field intensity. The: second Iri po rt of the sameauthor was on methods of de 'termining initial permeabiiit~jof ` M'04irn magnetic alloys. R. I& Yanusq, -Yu. A Vdovin;;4 ad bruzhinin (Inatitut,fiziki metallov av*-rdlovskogo filiala AN SSSR) discussed the results -of study oncreating and testing, in industrial co,~nditionsj iauto.! matic devices for the industrial control of quality. of electrotechnical sheet steel. P. P, Markin:. (Poli tekhni dheskiy institut, Ni6voeherkasik) , spoke onthe electronic ballistic galvanometer vhiW~ he in'vented with: the same sensitivity as the-'pr-psent GZ39-47y simpli6 Lnj'bAndling and rapidity of measurementsc 1. 1. Pekker and P. P. Markin (Novo charka"iskii politekhnicheakly institmt) discussed a ferro-*tester~~'for constant maipets .a semi-automatic device which permits representation of a:-hysteresis': loop Card 3/7  :00 S/144jq CO/006/004/004! Summar-y,of the confe rence*69. D20T/D300 .acres of a permanent magnet to be. obtained:on.the n of' 7 elfiaironic O's ci I loe- in t6d6 of oonir:01-7~ grapho Sh. I. Zusman (NII chermet? Moscow) discussed' eU ing the thermal treatment of magnetic hard alloys vt th t:ho: aid of co.ntinu-' ous observation of hysteresis loops on 0 an'oscillograpb ser eon, in tho,~ temperature intervalt room temp.,- 900 C, Ye. N. Chochurina. examined the work of VNIIM in the field of methods and instruments for !'testing normal specimens of, ferromagnetic materials in the frequency region 50 cycles megacycle and in conditions..of complex magnetization. S*.Mo Nizhniy and Ye A. Dudni tskaya spoke - on devi ce I (Y5Ol7)'U56lT:, - (in.' improvement of U52;) - an alternating current bridge for determining inductance: ind equivalent resistance for losses (as'.a function of msgnijtic~ field initensity or magnetic induction) of coils with specimens of feiroinapetic materials in ring form as cores. Frequency region; 400 - 10,P00 cycles. 1. 1. Kifer and TsepIyayeva (NEIP Moscow) examined a method of d4termining:, characteristics of cores of ferro-sounds) shoving the' dependence of the second harmonic on magnitude of a sub-magnetizing fielff and the amplitude of an excitation field. Ee So Vasilevskays, G. N. Pivigina, L. No Syrkinal V. I, Telyatnikov and U, A. Shamavskaya (Leningrad)~Ioakid at methods and Card 4/7 j  S/144/ol/C,00/000/004/004 f the co D207/3),106 Summary o nference.00 instruments Io r measuring dynamic magne tea tri c ti on :pftirvx3eiers~ baaed:on the theoretical study of transition processes in,a miignatostrictiona vibrator with pulsed excitations. Ls V*.Ifiteltmanl(tenijigrad) examined two-coordinate automatic broad-band recorders for m6almrifig parameteris of ferromagnetic materials. Yas' P. Tsar" (L'v6v) spoke 6 a device: for the oscillographic observation of hysteresis loopa:41't high and low frequencies of magnetizations. P. P. Markina. discussed a device for tea t- ing magnetically soft materials. 0o As Herashchenk6l F. I. Dekhtyarienko; and V. P. Karpenko (Kiyev) looked at an analysis of;automatic regulation circuits. of a differential, calorimetero A* L.. Grokh,ollskly (Novoakbirsk) discussed devices for measuring magnetic cha racteristies '~of ferroma&etic materials in the frequencyregion 100,'kilo.cyclas 1,00 megacycles.. J. 1. Pekker and V. X. Titarenko dis ssed some Cu a Problems of te6nical control. of permanent magnets, It is suggested basing such icon Lr OA :on Ahe iro rkiig point of the characteristic or on a given segment of the~demiagnetiz&tlou curve. T. S. Zhuravleva spoke on new instruments using the Hall, effect in semiconductors, for testing permanent magnets. G.. Kh, Valyamyao (Tallin) lectured on a permeameter for continuously measuring magnetic propertiea Card 5/7  S/1,44/61/C,06/006 .004/604 'Summary of the cvnferencee!P6 D207/D306 of ferromagnetic materialse N.~,Ye. Fevraleva and S.'! G. Taranov (InsUtut yev). sp be foi- measur ng; elektrotekhniki ukrainskoy, AN Ki oke;on a devi t induction in magnetic systems: h an air gap of OJ6M bind care: Limit of measuring 3000 gauss. I. I*. Fpkkert, A. D. Domanoi -N. Fo Shmo lov:'and- I y I A. N. Komo-y- spoke on an automatic, device for tostini porma~n.eat magnets a ;c- cording to their magnetic properties: I The control of ma&nets used in electric energy meters, by comparing demagnetization curves oftested magnet and standard magnet. T. I. Vdayutin and V.,11. 'Yurchenko discussed measuring characteri sties. of ferrite cores in quasi -~~Htii.tioinary regimes. E. M. Ifushkarden spoke on a device.for measuring coinplox magnetic per- meability of ferrites in a radio frequency.band. Y~. ~Gurvich and L. Shchukin. examined thq choice of'a system of parameters a6d.methods,df measuring large quantities of ferrite'cores with a hysteresis loop, used in automatic digital computers. L. I. Habkin:'and N.P. Gorya6hev examined pulse measurements of ferromagnetics. A4 Z. 7eksler spok*,,'on the determination of a magnetization curve in pulse regime. :'V.. V. Bardiih lectured on static and pulse parameters of magnetic cores with rectangular hysteresis loop. Yu.. I. Vizun spoke on instraments for investigating Card 6/7   -- -- ------- s/144/60/000/009/007/067: E073/K35 va T.S.q!and! apovalo AUTHORS: Zhuravle sh V? TITLEs ~n:Hoqg7ra~ t4 the Field of Dielectriasi and Semi conaue Lors PERIODIGALs Izvestiy& vysshikh uchebnykh zavedenly, "0. No. 9, pp 161-152 TEXT: Between June'12 and 18, 1960 the Thfr,d later.-College Conference on developments.in the field,of dIeleatrI6sVtnd semiconductors was held, with the participa-tro-n~oVl Ue-r! 1200 ,;I7r9=s-enT-ati`v#s of various colleges, researoh or r epr ganisations and industr'. There were ten sections of thd conference, namelys physics of dielectrics; Inorganic dielectrios; "organic dielectrics; effect of radia ,tlon on dielectrics' and: s,emiconduotors; ferroelectrics. and ferriteai!~'- crystals and aryst~Lllzatlon; physics, of semiconductors..; semiconductor diodes, and ~tramsistors,; luminophors.and photocells.; semiconductor re ancea. and thermoelectric instruments. A'total of 178 pap~ers- Vere discussed. V/ The following participated in the discussions: IAPsd~mician L.I. Bergq Corresponding Member Acad.&A. USSR B.M. Tal Gard 1/1+  144/60/000/009/007/007 B073/8135 Inter-College.-Conference on Modern Nvelopments,J.n th~ Yield . of Dielectrics. and Semiconductors .Professors.N.P. Bogoroditskiy,~ DA. Hasledov. N. 0 Drotdoir,. AM. Kaza I i~ ~ev 13.9. Tarey*ev~~`77 =.-,eOiG9 V. PasXC&ov and others, During the-Yl-rs-t--~I~~ry mee-Elng' Professor-R-ororoditskiy read the paper on "DialectTir;o and semiconductors'in modein engineering". In his 'paper 7R.1e-^-tr*aq* and CybeznetLW1:' Academician A.I. Berg tried to stimulate the:' t the ssientific activity of.=LversTf.-fferionnel, stattrjg~tha tempo of the~progress in research work-laga. behind that of thei d9velopment of the Soviet: erjonomy as :a Vhole, ' jt is~,partieuiarl~ important,to extend the.vork on semleonductors,." Organisationil- problems became decisive in. the developipent of~ f-he rational a 0 s, ~Part;t' "onomy and in this-respect oybey-n6tic.-Al wpoita In the conclusions, he empbasTsid-Fg-arn-f-he . impprltaa6e of research: for the development of semiconduc;tors. In his'' pa~peir "Properties: of certain AIIIBV. semiconductorall Piolfessor D.N~ . Na~ledov ~ftjdngrad Inst,lLatR of Physlg~s. and Te~?~hnolo&y,~ Acad,Sel, USPA) (,O~ .rib ex ed the work of a team of scientists on the electxlc~ Card  S/144/60/000/00900?/007 B073/3135 -Modern:Dev lopment~. In t)16~ Fi Inter-College-Con_rer4nce~on Old o Electronics and-Semiconductorg properties of modern semiconductors and the possibilities of th'elr ..praeticalutilization under:Andustrial,conditiow~;' Ile; emphasized particularly work on the very promising semicondUcItors '; of t h etype IIIIBVI primarily InSb%nd GaAs;.*t, In InSb compounds the electron ..mobility at room temperature 170f.the order of 60 ON c! 2/se~,,.': T.S. Zhuravleva (NPI) presented aLpaper on "Phys ic_& c f Semiconductors1t, dealing with,galvanotagnetia. phenomen~i and their application formagnatic measurements, In the Sa'."tion on 6emiconductor.diodes and transistors,~ G.N. ShaDovallov (NPI) resented a paper "On the temperature regime or zqn trAnsitioni," asts of DocentA.F. Gikis.and the author). A,papTf on Vae M sta,!'Ie and the tasks:E=e f:L ld of manufacture of electrical insulation in the USSR,was presented by.the Chairman of the State Committee of the Electrical Industry, S,,A. Yamanov he reviewed foreign developments and the tasks,fa=cng t industry ill-. field. He paid particular attention to problems. :of improving industrial insulation-materials and he outlined the Card 3/4     JJ/ 1, 8/046 %1/0,,i7/toi/026 of,gamma- d' S 06 t, J:_ 11 a a 4tsd -1*:14 ~pO~ tr There ate '2 ligures.and 2 table 7 egrdl polver!of 4d' Table I Legend: Int irradiation -,~ji 0; ra 0 W point (in C). width determined from the fir's ~erl;viitivi of th 0 r.0i.1.112'. 4, mine;.becausf absorption curve. numberi~of lines hard to,'detet 1,~~- , ,,I it M 'd methy superposition of the spectrum of not,'completely, 44139riia i 7 acetylonel spectrudwais nit n at, a 0 -found eve a dose ioti -jr dJ:: :t eopor. spectrum obtained at f4i r4d 6 a\dose of compoun umed rididal 4s,: (2) ass M:~number 'cif, lines ~'4). overall' j*idth- of,spectruint oet -7 'Wid h:"' table.20~ Legend: Inteoral'po*er of iiradiaii6~i.~ I ad i~ t D. t ;curve'' determiAed'from the firOt:derivatiVi 'of he ab'*'O"r'p'ti4h.; j i"4iia .of the preieit 6uthors.-'*:.-(,I)':i'n,iti~i~,~o,MP04~d'~f':,I"(t)','iieumed~ritdipiili,/,.!':~s Vf (3) numberjot 1' ineeJ 'o4erall,'vi'dih of'.118PS t"0166 '4 tv. T  S/046/6~/027/001'/926 43 E.p.r...Spectra of,gamma -irradiated Bi 001 8~,~ ell 00 11-CH-0 4, cur-CH-0 x-c-d '6(8) 2,0 cu If-qE4, IH$G=cH._:CH 5 U+i 5 640 Uble,2 ' rd- 4/4- 7  I UWA V VM_1 my"" 8/00761'64/038/002/046910471 ACCESSION NR: AP4019525 AUTHOR: Smirnova, V. 14; Zhuravleva, To Sol Shigorin, Do,; No; Crachava, Yee' Pei Shostakovskiy, Me Fo -------------- TITLE: EPR spectra of some diusubstituted acetylenes upon wipo'sure to gamma rays :1 and to light SOURCE: Zhurnal fizichaskoy khimii, v. 380 noo.2v 1964~ 469471: TOPIC TAGS: methylphenylacetylene structure, ethylphenylacetylone structure, dimathylacetylens structure, electron paramagnetic resonance, acetylene,:alkyl radical, acrylic compound, methylq EPR ABSTRACT: This is a continuation:of a work by~ the same, A~uthora' '(AN SSSR~ Dok! 140, 149, 1961) where they described how a:number of acetylefteb of the RC z cit type (where R is an alkyl radical) ypon exP;osure to gaawka radiation form:radicals where the unpaired electron is delocalized by the triple bond over ihe whole eaent work transfers the above study 6" molecule, The pr 0:'Ar - CIS C - R arylic compounds,.of a.different structure.. The object of the study were: methylphenyl-'71 acetylene, its deuterium tagged.form, ethylphenylacetyliene and dimethylac0tylenes Card- 1/2