SCIENTIFIC ABSTRACT NECHIPURENKO, V. V. - NECHITAYLO, V. F.

ZFMSKOV, A.A.; NECHIPURFNKO, V.I. Communist Party during tl~e period of tre front attack cf s-Dc'allsn. Trudy WIPP no.20:47-9i. 't 3, '~r-RA 1,1,,  ACC-NRs AP-6025595- -3100~-~100Y SOURCE, COD~i-UR/64i~/6~/000/01 1?[V'--WTORSt Vaoillkovokiy, A. A.; Nechipurenko, V. V.; Sokolenko, V. I. O'e.G% none TITLt;: Multilayer film Hall emf detector. Class 21, No. 183248 SOUqCE: Izobroteniya, proaWahlennyye obraztey, tovazmyye znaki, no. 15, 1966, 53 TOPIC 'LAGS: Hall effect, hf component AB -TPUICT: This Author Certificate presents a multilayer film Hall eaLf detector according to Author Certificate Ro. 119556. To use the detector for measuring high frequency power, capacitors deposited between the current electrodes of neighboring layers are connected in parallel relative to the controlling current in the loops joining the remaining layers of the detector (see Fig. 1). I L2 .1. 1 Fig. 1. 1 detector layers; 2 capacitor .7:E- L2+ Orig. art. hast 1 di W am. L SUB CODEs 09/ MU UTEs 05kpr65 I  RECHISTIK, _14.14. Sloctrowt,pnetic treatment of julco prior to evaporation. Sakh.pron. 11 no.9:40-42 5 159. (IIIIIA 13:1) 1. Wghavgkiy sakharW zavod. (Rysherka (GboOmssy Province)--Sugar manufacture)  ANUIS. Anatolly NLkhaylovich; BAIMNYARGY. Vladimir Daitriyovich; UNCHIST11, -AGIN Pew, '; BURKOV. V.L. redaktor; KMMYAKOVA, A.V.. reafflFVW--O isdetel'stva; RACHUNUIA, A.M., tekhalcheskiy redaktor (manual on the prefabrication of wooden houses] Sprovochnik po "evodskonu IsgotoyleniLu dereviawWkh domov. Moskva. Goolezbumizdat. 1957. 238 P. (KIRA 10:9) (Buildings. Prefabricated)  I , I 'IFC,[13TIK, V. 3. V. 'j. -- "ASPe~-*s of -.!-,e (growth and I-rrAuctiv,-ty of -3truc- . I ~ if,$ tural Oak PlLntatlonz n" Arttficinl M~n It,.-,her 7ornnezh Forestry In.A. Voronezh, 05-5. (Digsertation for the De,-ree of C ndi.-lAc ',n Aericultural 30. Kni'-zh. a,,,a k I 'lo 9, L956  ; ONU, C.; RUSU, Gh. Iliel TCMMEI, ANTONESCU, V.; CALINICENCO, N.t NEOITA,O Cl.; TIBU, M.; VZSCM, T. T., prof.; VISCRIAN, I. Pladioactivity of the minink region Rodna Vacho-Valea vinului. Studii fis tobn Iasi 12 no.1:31-33 161. 1. Membru al Comitetulul do rodactio 9i redactor responsabil adjunct, "Studii si cercetari atiintifice, Fisica, si stiinte tahnice" (for Vescan)  . . 0 .. -- -, ~~7 ',I I , 4, . I . . . ... I I  A UTHOR i Nechitalyuk, A.S. 90V/3-58-11-20/58 TITLEs A Student Preparing Himself for a 5sminar (Student gotovitays k sominaru) PERIODICAL: Vestnik vysshey shkoly, 1958, Nr 11, PP 55 - 56 fugiR) ABSTRACT: Last year, at a conference of social science instructors, the Docent S.S. gergeyev, I.I. Kazakov and others expr*ssed the opinion that it may be expedient to conduct seminars 4 hours in succession. In general the experiment proved successful, although for some subjects, the 2-hour exercise is more suitable. The author proves this by an example pointing out that the students have no time to prepare them- selves properly for a 4-hour seminar. Dealing with the im- portance of a preliminary preparation for seminar exercises, the author points out that the instructors arranged discus- sions with student groups on various subjects. Re finds that the student gets a peneral Idea of the work by abstract- ing the whole instead of only those parts which are Card 1/2 required to enable him to ropl.v to individual questions.  SOV/110-59-6-b/24 AUTHORSt Kuranov, I-V., Engineer and Nechitalyuk -, A.S., Engineer TITLEi Operating Experience with an Automatic FiowL ne for the Manufacture of Rubber Mixtures (0b op7ite ekspluatataii potochno-avtomaticheskoy linil po izgotovleniyu rezinovykh smesey) PERIODICAL:Vestnik elektropromyshiennosti, 1959, Nr 6, pp 22-23 (USSR) ABSTRACT: The first mechanised and automatic plant for the preparation of rubber mixtures was developed in the Uralkabell works in Sverdlovsk in 1953-54. This article describes operating experience with the plant and modernisation of some parts of it. The automatic rubber- mixing plant is illustrated in Fig I and all the main components are listed. The effective length of the line is 110 m, there are 70 mechanisms with 60 electric motors and the installed power is 650 W. The automatic -eighing-machine developed by the Uralkkbell works has operated reliably since 1954 and weighing errors do not exceed 0.4%. Formerly a skip hoist was used for transporting the rubber and some fine materials, Wre Card 1/3 sometimes spilled where they were not wanted so causing  SOV/110-59-6-6/24 Operating Experience with an Automatic Flow Line for the Manufacture of Rubber Mixtures defective output. It has been found better to use transporters both for loading the component and unloading the finished rubber mixtures. The original liquid- measuring equipment was found unsatisfactory and another one has been developed; it was described in the zhurnal NIIKP (Journal of the Scientific Research Institute of the Cable Industry). 1957, Nr 1-2. It is now proposed to introduce all minor components to the rubber-mixing chamber automatically in the liquid condition at a temperature between 6o and 900C. A special force pump will automatically deliver definite amounts of material with an accuracy of 10 grams. Operating experience has shown that separate lines are required for sifting and drying each white powdery material. Each such line should have two sifting mechanisms and one dryer. There should be two lines for carbon black, one being a spare or able to operate on a different grade of carbon black. Special attention Card 2/3 ahould be paid to the protective system and interlocks  SOV/110-59-6-6/24 Operating Experience with an Automatic Flow Line for the Manufacture of Rubber Mixtures to prevent plant operation if any component is defective. The automatic flow-line system is applicable to all rubber shops of the Cable and Rubber industries and its general introduction will result in considerable saving of labour. There is 1 figure and I Soviet reference. Card 3/3  MC TALYUK, M. 1. Stwgicoa treatmat of tubermdous mpywa. thirargiia 36 no.lt 1 56-60 Js 060. (TUBERCUL40M) (KMA 13 t20)  NECHITAYLO, A.A.,, inzh. Contact slides in the Shevehankovgkiy Openp-pit mine. Rmuch.zap. Ukrniiproekta no. 5 s21-28 161. (14DLA 15:7) (Nikopoll region-Loadslides)  PRYADKO, N.A., kand.tekhn.nauk; NECHITAYW, A.A., :Lnzh. Profitableness of diesel-powered trol-layim transportation in highly productive open pits. Gor. zhur. no,704-56 JI 162. (141RA 15:7) 1. Gosudaretvem2yy nauchno-issledovateltakiy i proyektUy Institut ugollnoy,, rudnoy,, neftyanoy i ~azovoy promyshlormostil Kiyev. (Mine haulage  DEMCHENKO, Vtktor Vasillyevich, insh.; PECHKOVSKIY, Veevolod Ivanovich, kand.tekhn. nauk; CHKRNEGCV, Aleksandr Alekaodrovich, insh.; WXHITAYW, Alaksandr AverlyaLnovich, inzh. ; KALICHIK, Georgiy Semenovich, insh.; ESLYAKOV, Yu.I., k6d. tekhn. nauk, rateenzent; SEVENENKO, M.D., insh., red.izd-va; STARODUB,T.A., tekhn. red. [Improvement of open-pit manganese mining in the Ukrainian S.S.R.) Sovershenstvoyanie otkry-tykh rasrabotok margantsevykh rud USSR. Kiev, Gostekhizdat USSR, 1963. 119 p. (MIRA A.-8) (Nikopoll region-Vanganese mines and mining)  PRIAM, N.A., kand.tekhn.na"; NECHITAYLO, A.A., gornyy Itizh. Trolley We tran)Fportat",n abroad (from foreign per'odica-1,q). Gor. zb-.Lr no.4;72-73 Ap 10. ' KI A I t : . (141ne haulage)  PECHKOVSKIY, V.I., kand. tekbn. nauk; CHY101FGOV, A.A., gornyy inzh.; 11FUITAYLO, A.A., gorny-f Inzh. Efficient means of draining pit arene of the NJkopol' wingwif-mo deposit. Gor. zhur. no.2:28-30 F162. (MIRA PO) 1. Institut gornogo dela AN UkT6SR (for Pechkovskly, Cherneg-w'. 2. Gottudaratyennyy riatichno-ifitilo(io%attilltikiy I F)royektnyy Inst4,lut upollnoyp nitinoy, noftynnoy I voy promynhlonnnoti llkr6.`lll (for Nechl tayli~ .  FIDELEV, A.S., doktor tekhn.nauk; ZIERBIN, M.M., kaM.tekhn.nauk; PRYADKCI, N.A., kand.tekhn.na?.jk; NECHITAY70, A.A., Inzh. Diesel trolley truck haulage. Ugoll Ukr. 7 no.608-40 Je '63. (!,' IRA 1618)  PRYADKOr N.A., kand. tokhn. nauk;.yflQHITAXWl'A!All inzh.; PUFALI, Yu.N.; 3UM)ioBffmf V.S. Use of autcmotlve 'ranap,3rt8'.I,,n in the building of strip mines. Ug~,Il 40 na.8z)9-41 Ag 165. (MIRA 18:8) 1. UkrNI:Proyek,.  74-47 BVT(I)/E%P(f)/T-2 FDMM SM805 00081 URJOWLWWWdb~ -- Act A@ So A. 0.1 Viorsheaboysidy, AUTHQRS# No A. N- I NfdKt4 Qtrkw ve ve aim Owl nom TIngs An 1410itics ffstm for free piston gas generators and fnw piatm copprsasa' class 46,, me. w7oa SMSt Inabretedyag praq. we obrastsjrg tovarMs snald, no. 19 19"s IU TW31 840 COMPrOMOVs coop maser doldip, Mark Ignition, algIne igrAiZign AB3ZWTt This Author Cortificate presents an Ignition system for free platoa gas PfWrGW9 ad free platm a% ips sore, aming spark discharps. The systen Includeq a power sqpplk wdts a blocking goverater with a trwatonwr and a negative f*wiback circuit using to 999 OR i6sitift 0611jo an Ignition coll circuit connut4ors a discharge Gepacltorj a contractor#, and electric qpark plugs (an fig* 1) e The system, improves tJw starting characteristics said reduces the wear at the spark phig electrodese The system uses an anxillary trUd*. The anode of the triWe is Connected with the lead elroalt, of the bleoking genwator. Mw grid of the triais Is connected with Via secondary vInAing of the blocidag gemoluter truWornar throu& Cold 1/2 VMS  L OG746-67 ACC N& 5367 rig" lo I. - blocking generator; 2 - ignition coill 3 - W61w call c1rm11* ammutatowl - d1mGhwg* amp contractor; 6 - ebmtric spark plugs; 7 - variable negative feedback alradtj 8 - triodej seGandary winding -of the tranatarmarl to 0 10 - reotifier; U - f11tw t /* of no =28 21/, ON VAINt Q.W"  ACC NI(: APOIUCiR S(WHU!" ")m, f,f~ (I 1'r-, 111r, f,(,(l W); Al Tll( Fit Mullshtilk-ov, Co. 1%. K.- I I t, I I I I I I ; I r i t NIII 111~1t-ILP II IIL 7 111 f I Sir IV, V. M"Ishinwztj IF f".. ')GI;, "I.'- I .I I WP A( 1, "flaust Flo O;lw~ !~tv T'I, SvMvIII, II'm ABSTRAC i Expci-irm-11t:11 Ill% Itl')lls If I'lle ;1'.A I"llp"I t Int 1-w; 11 tht, illoduling of vas-dvimmical to( sci Ill \haw~t v-,t(-ms (A 1,~ , till- )II FJ thl. ')1-I I'm t1 I rit, F-I -IT" I t j I Iq II p.V n 1, Ill. t I I ( - I( I , 41'i 4 - ( ~ I I , ,t t fQw i, devicu, and tho, o.-xpvr1mo.W:iJ Ill,- I!. . ~ It%, 0 ~1 1. 1 1, 1, o[ Uic various criteria indfcatc, ;Irllong othor!I, OF 'it (bo-re jw. ,I ("I- fl 1, .41 !1 sin)Har How of the gafi. The papel- W.1.1; presentol-d lo., A. 1. ,1 !hc cal-d 1/2 t ' DC :62 1, 43. 06  ACC Ni(! /~P(;010268 Kwir'kov Aviation Intititut(- (Kh;ir'k(p%~~kiy aviattiioniv,~, institut), 14 -f d (.1 (h i". ~kct. has 4 formulas, 4 hgurt~.,;, uid I tabie, S111 CODE: 10 / SUDNI DATE: HJuJG4 / 011IG JIFF: 002 C-rd 2/2 If *~ I  f. rr, e e A J-T c-.tf me *,e  w rt 4F-, -Ten,. z  S/135/61/000/003/012/014 AOV)IAIJ~ I Inductor for Preheating Welded Butts of Boiler Manifolds During Assembly on Site Diameter of mani- folds In mm Number of coilings in the inductor Mean annual lng current amp Transformer type Preheatihg time of butts for welding in sec. Time of pr,&- heating the the 0butts to 730 C in see 273 x 35 10 - 12 750 - 350 T,,'~'(TSD) -1000 35 - 45 50 - 70 273 x 45 10 - 12 750 - 850 7c A(TSD) - 1000 35 - 145 50 - 70 T77 x 50 1(, - 12 900 - L200 7Cj(V;D) -2000 60 - 90 9C - 120 426x 20 8 - lo 8oc - 85o -20M 45 - 60 60 - 90 325 x 18 j 8 - 10 700 - 800 :Tr_,a(T5D) -1000 30 - 40 45 - 60 Remark: The feed voltag e of the'network must be constant Card 3/4  S/135/6l/OoO/oo3,/b12,/014 AOC6/AOO1 Inductor for Preheating Welded Butts of Boller Manifolds D~ring Assembly on Site Figure: Inductor for preheating manifold butts 1 - contacts; 2 - inductor coilings; 3 - asbes- tos sheet insulation; 4 - rubber tubes for re- moving water. There are I figure and 1 table. ASOSOCIATION: "Teploenergmont&zh" Trust (Khar'kov) Card 4/4  POLTASREVSKIY, G.V., proizvoditell rabot- NECHITAYID K. Ya. Insh. Thermal treatment of the joints of the boiler headers during installation operations. Energetik 9 no.5:9-10 My 161. (KIRA 1,4: 5) (Boilers--Welding)  WRGIJ,XkUR5Aq N.A., ksarmi. sellskokhoz. nauk; NECHITAYLO.-I.F.; SEIIEhGVq V.M. Preparation of mamire-soll composts on narrow strips. Lealedelie 25 no.9:68-70 5 163. (MIRA 16:9) 1. V#~,Soyuznyy nauchoop-ja3l9dovatellskly jxwtitut m~-k-rarizatsii sellakago khozyaystval (compost)  'IECHITAYLO, ' . A. tIECHITATLOR Ii. A. -- "Physicochern-Ical Tnvp~~tivation of S0,4!wl r,-xl :~,ot-;!7!1~un Salts of the HiFher Fatty Acids." %b F Oct 52, Irst of rieneral and Inorranic Chrmintry iment 1. F. K-irnakov, Acad .1ci 117M. (-'qserta* 1,-.n for the Dek-ree of Candidate in Chemical ScienceO. SO: Vechernaya Moskva January-Deccribrr 1952  AL- S-S-S-R- U. a atial I weve decd. fur pww No OW K bwate. "IT64ste, pohnitit" "W domrste lpryft COW14was of tow ftay C'Yow. Mp va', an gem an tow III NNW M; tbm. with K pshokste. than is a dif- krrokv of the pordsom of the iberveogrome bromove 40 and M, on wb"bw the Soap has lives drild at 105* fw OvertIC91,".Tbe Portion of tin I' p s betwora 70* wul n)* is "pendt t W It* as"bed of *ying. uvW the rate of brating in the eme. to the "win of the "is wMps, the a". of. has wy Ikib god on the Obaft Irma- sitkins. AU the No nap exhM 7 $ at PhAws. lotbe"! so K no". IlIffe: is =mloth~' phose, I tranxition ton". With I K WAd. Wt.. Not a t%MP Of the Character of IN tbrrmqpsn. No NW K no" 44 tow mcne fatty " difte in both the mo. of phoors mod tin I ban tow". Am". K sam" oweit bkbw tbas The "W" .. a %*& wato M Tban  "ITPILOP 1'i Oddlt.- 0. ]IL Ravich and M.-A. Neciftlim. Mitsk. S.S.S.R.; 117,'W72(190); d. 40 , - t ad. wW*-ftre44;(b toqk a ta driest which was 2 num. hi &04 at the 4XIC. I *OW C&derd Istamtse a fundlimg(pres"I foe l 190 %l 6 6 W at sodl (Ifitfiate at So ) $bowed dfiftfl- my How pm" M*Wild by a pkuott at dfi OttuWC ~ TU spe e dhdtitse pnoum come"mading ' t 'I othisplatematlVandW His lamate W. 1d" Iffitfiftwille.2w. 3W, 140- Sturate 2m - Q 4 0; almW 1015,Q eta. The a;;W saps wcm.- a W ~ ~~, tw a *hick 6 a!t="tg 4 OF'-~, t cm ON Fee tw We t i dur t lu f W ~ as =1"amoomto"hle pm I OC ecta t o . CT grap a fmwfm of pmmm at is* Mo- a ftbo clifin et of tbe auw T C 0 dxmvd 4 Pramfilau float portlin fbin to c- followed by a hadmutd portion. . haige I at I&* aa4 700 c *eg tus" cuo .. . , OM 130- m7daWa SW. 65.- petwime I=- W. dearaft 14i: 'Trij, t m cah"t at W.  N F-C Vill rh fb =TIC at"Im-OUN&UM and 96ftalm a" of Itld-Mmt. ONOW Ob- sG-vcd wb!!n owp U hated. In th Ismestiplim wm ptudled th,.-. phys.-cberm. Pcoperties of Rik AM K malts of b1glim latt r mrMs (wept) and Um k0acts of the length of C chals, natirm of cAtIon, and presence of double bands on thestpropriles. The wits staMed were 1u and 9 laursts, mysislitta, palmilikle, steuxle, anif Ns atrate. The sells were rmystd, from alc,, dri"I at 105'. and 'mbJectid, to theramraphic analysis. Ali of the Mik empds, mw$ buratv bad 0 OWAses, ilia 71h bOrs isotople 11". NA laums had one mildni, pham, Tht ptue-transluou rmp. IkWU of all those cmixii. were v Similar WO we" ad TIW gem d Irani- affected by the wA. wt. of the cam don to = lwto* liquid. m.p., Emsai inal. wt. dtavased. The thermogmuz of Ma Mate had the same of nops but Ili -.hap* was different. * The ther"WaAms, of tU X aompas. diffend trvm thise of the No adu hs the no.. of phum and the transition tamps. Thenammitilsaftal(W K sAlt *&mogmmm to each other Is Much las than b Mat of Um Me Wt thernsocranw. ?U trandtim, twh of thd N& md X mile, were reywoll4-- Tbt depm ;I I- to recordin, at the therasovans) am am =1MV.. Owed the p dructure. particularly of No alaam M. Haab N. -CAM"  of low hm mad A" G Awo"MP_05~ G K d P"t. U&M . - 0. of phm ul-l- md dole V =x hie fmu. &A MwUuctum. TIxe P-1 mic U &r t6f"Wilmd by dm tWG (d NW, UtTrWAte is Mj,:"jW ate Tlt Ito ulat ao doopud Cwns '.4 m at ju U= "ll the td C tmk 1*1 NQ 4 u i trot W bra OWPG C . ftmj tueIdcntW - yocm* of Phu" I okaw the dU c tfr s , At 04 f naW only by Zae of wor of a allirmad1w. at O"C- d OW highest temp. of the liquid-myst. Ph-- 9 L diffellOCC Of W"- 2=P* I alk r F - or tum is c6sirred. 3c omps am ChSM- st"icture k dwrCWUUC- An NA Lnd type as a cMtak of t 4 wa ay tedled bw form(im of i't'" i t; - -n cesult of wghA-P. phase . st"" te hs of the fibmW str-fam I ' -t- d-- tht the idth d d 1 = - t.. an _jttftL. Irom If& bamte to X& SEC*Mtc, OW 1 t"ct A- I the fib ChAt f , j C eft deasues ta( the P"se= of IL Co'no or MAL A-ta us Is b.14LIM I bidati f m Of lAW" t am = t the stmduce. of, Na a a,"tai4k, am kU slAqAy by bMing of fibelll- immift it trvcwcV am obtsfaed d tbxt foc kra pa-We 2 ET ed fee Obtafalog the an the caum. OC the Win- us ndin id YJ depe g AY C__ EUrUIA 60 :~4   TOFOHIYIT, A.Y., akadealk; ROZIKBZW. L.M., MERITATLO, N.A.; TIM ITJVA, U.N. .- Differential thermal analysis of the coordiaiLtion of urea with ")-parafflne. Dokl.AN SSSR 98 ao.2:223-226 5 154.(KLRA 7:12) 1. Institut n~fti Akademil aauk SSSR. (Compounds. Complex) (Ursa) (Paraffins)  NECMMYLO, N-h- Subject USSR/Chemistry Card 1/2 Pub. 152 - 8/21 AID P - 1578 Authors Vinograaov, 0. V., Nechitaylo, N. A., Sinitsyn, V. V., and Aleksashin, V. I. Title Study of the structure of plastic lubricants with an electron microscope Periodical Zhur. prikl. khIm., 28, no.1, 52-64, 1955 Abstract Commercial lubricants prepared from synthetic fatty acids studied with an electron microscope did not show a definite structure. It may be assumed that the dispersed phase of these lubricants consists of very small microorystallites with an Imperfect crystalline lattice. In Na-lubricants made from castor oil, and from cotton seed oil, ring-shaped soap particles were detected. In the dispersed phase of Na-Ca-lubricants, the coexistence of two solid phases, Na- and Ca-soaps, was detected. Al- and Li-lubricants were also studied. Seventeen  Zhur. prikl. kh1m., 28, no.1, 52-64, 1955 Card 2/2 Pub. 152 - 8/21 AID P - 1578 photos, 16 references (5 Russian: 1939-53) Institution: None Submitted : P 23, 1954  TCPCHIYEV. A.V.; ROZINMR0, L.M.; NECHITAYW, N.A.; TFJ=ITZVA. To.k. Differential thermal study of comploxing In tho system:urea -X-paraffia. Zhur.nmorg.khim. 1 no.6:1185-1193 jo 156. (KLRA 9: 10) (Urea) (Paraffins)  R02MMXW, L.K.;TZRMITZVA, Ye.M.;NBCHITAYW, B.A.:TOPCHfflV, A.Y., akadealk. Thermal stability of complex compounds formed of n-paraffins mid uroa. Dokl. AN SSSH 109 no.6:1144-1147 Ag 156. (KLU 9: U ) 1. Institut nefti Akademit nank SSSR. (Paraffins) (Urea)   AUTHORSi Nechitay I o, N. A., R~,ztmber~: , L. Y. 2 L 24/51 f (--- - nI T- c.-.ij,v, A. V., r P j eva , Y Tor TITLL- I tives t iga t or. f Sp3l,.--z o:' t.e C3o and C~ 'o - C ~2 ' 1,9!i leucvar. iie s t em H a ra f i r,,c vy kY. uf-' evrI - ic,rodov C2. - i C"o PLitIOLICAL: DoK ladj AN SUR V, I I t, , N A BS T RA C"r Th- hycrucart)('Its 1--h forn t.", i.ctro'~!ur, arc i ng ', c, t h k-i r chem I C i I I ~~'It I r ~;t2t erct, L-n~-o us. rzaa I or.,, ::,a i n hydrocarbci.s uf C 17 A36 ford:, ti.- ,!* ~.air. .art. :r, small uantiti~~s branched tVdrucarbona, cycloparaffins, and alk,-l benz,nes ccc,:-. There are no erfect separation teV-da fur hydrocarnon.,-; ir. t'-,e mentioned t1pea. Therfforv the ii.dustrial exi latut-,on (A' t'if, , etroleam , Araff i:..~ t~ UoL- or(,,ur~-.c sy.,thesis is cnsiderably com- plicater-1. A ~etai,,--d study of t~.c properties (,f ' rdividual H - paraMr,F as w, 1 -1 1- cf* t~.~, i.,.tt-rac*.i~r. vw-t~. eac-. Clt-.er 3.i,d A;!~% the hydrocarb..no (," othtr classes is necessary fcr the identifi- cation and ietec- io% )f tf., ~..irity deCree cf tr.e s., r.tnetzed hydrocarbons etc. After a anort review .,f t?-~C- a,*.:~Cra f ind that tl~e birary S,,Btei-s researched ai~ to %ow do not c,.rtan t~,p entire com,on- rt rargp of tLe petr~leu:- piraffi:.s . Th(. iL,- C pos3ib I.ity r)f a '.1iminat :f irs~q -,c-.irr~nc4~ bard 1,14  Inve5tigation of Syst !aw o.1 t lie H -P:iraf fir.- Ii, druc i rb r.B u -i -24/ 51 C2o C30 and C30 - C32' of man if o I I ~ %as e v:Ari at ic,:~s ir. t:;(-- sc_ i,, :it;* e extremelj tht- irter;.ret-itior. A' tr.e physical -ch,~ml cal obtained bj the clai~uic aiethoda. Ir ;:reserit pai,pr tKe inve3ti- gation r-i,Its rf t,.c- stage dia.-rar:.s ..*' t:.e binary the H-paraflf'ns CIOH H62 and C I :2-C30 50Ht,2-C.4246 arv given bj means of the differertial-thermal aLL the ~.ti-rostricture There are no corres~or,cine data in t.,,e r~_,feruzxes. Ei~oaan -Ind triakontar, were prodiced accordii.6 to Kolbe oy ~lec~rcsynthesis. dotriakuntan according to Wu-!rz, t-.en several tiates ~urifit-c;. warmine,- ai.d moderating curve3 w-rt! detected r).j ~;.uans of ~~ic,tu- registerine ;.yrometer Lf Kurnakov. Fr,_.:, these c.Arves t~,en tIje m e 1 t i ng t c! -_-i ierut~res and t'~-Qse (-I' t!,e iulymor;~!iuus can be found. Table 1 3 WITs tht- t~..y~rat.4re -f t-e varia- tions ir. the B,Btf!ri T-C20H42 - r.-C5,H62, wl.,~reaa f'-g.Are. 1 a state dial ram. Th~' 3j8teM 18 (-,It~!CtiC. 11, all of 6(,- 1001/". triak,~~Aar. ar. effect c-c_irs .bite covicial, ~t t%t- Ivarm.ne- aTIO muderut-ni, c,rves w~.ici. _,crres;,c,.,.ds to a ~clym6r;ncus : o rma t , or, o I' t ' ~- cc, ric (,rr, _ r"' hj druca rb ':. : t 33 , .'. F~ ~' _(' r .',Is es 5 it was _,x~f-ctec, ,it?, tw~ increase of tt.e tria~urtar. the observed micrrsi3tructAre in the ;,clarized it car, be as- Card 2/4 sumed t h,% t t h - phas P t rTi na i t i ur. f ouna , t 2 0 - ')cD b (- 1 u i.e t,,) t Ile  I nve~ ii7at I or. Lf Sys of' tl~e H rrif fiy~- :i, lirOCTI 24/ 51 c2o C50 arld C 50 C 32 - tj p o f' i r r -v - 1-3 1. f o r::,a r.,i w,. .f: r. ;i - e ~ r, a (, r"v caae of' H-paru,,: fit- Ih-Ir lorl,: chqir. to 2,'-C at mn). trannIt.,_r, r'l tly is ln:i~~ite of its irrs-vL-ruibility C4, f"low onon W, ~cn Ccar in the case o r a r -A t i c, r. c u , ~s u rv in . If ; _a 1 ui n i o n1 s t. a about this. Por pure eiko3an ., hpas w-rk-- found. This corresl-nds to iloff;;ianlu aL39umpt ion( referei,ce 15) that in the case of individual H-ijaraftin-hydrocarbons witlonly 22 and more C-atoms in the chain "turning- transitions" ("vrasn- chatellriyye perechody"PI) occur. The n-a-modificationu of the tria- kontan and dotriakontan form an uninterrupted series of solid solutions . With droppin.,, temperatire the u-solid solition passes over into a I -solid 8olution w;.ich is formed by polymorphous carbon modification wh1ch are ot,ible below the transition joint. There are 2 f igaren , 2 tibles , and 2o references of' vii-ch are Slavic. ASSOCIATION: None Given. PRESENTEDt None Given. Card 5/4 bard 4/4  AUTHORS: Topchl~iev, A. V. Member f tn,~- All USSR, 20--4-W52 Nochithzlqi, V. __A. FRozenberi,, L. M. , and Terentlyeva, Ye. M. TITLE: A Study of the SyBtem,3 of Normal Paraffinic Hydrocarbor.e C.,- C and C - C (Issledovaniy" siqt-~m n,,rmallLikh 10 34 30 36 parafinovykh ut,,Ievodorov C - C, i C, - C-, 30 11 110 ~6 PERIODICAL: Doklady A.N BSSR, 1957, Vol. 117, Nr 4, pp. Q9-6'i (USSR) ABSTRACT: The authors studied (reference 1) the ~haae diaFr&ms of the systems of n-paraffin hydrocarb ns of high molecular contents. The treatise discussed here mentions further systems by means of the differ+intial-thermic method oi- of the micro- structure method. These diagrams have not bfter- leicribed for binary systems: triacont&ne-tetratriaeoritane '.C,10 H62- C,4H70) and triacon tane -hexa t ri acon t tine (C 30 H62-C36 H,,~- rho experimental products were -roduced s.-jr.thetically tind severals times recrystallized. As is well known all n-paraffins have reversible polymorphous transformations, whose temperatures as well as the me1t1nF temperatures Card 1,14 could be determined from the warminK curves. The thermograms  A Study of the Syatems of Normal Paraffinic C., C and C -C.,6 M ~O I 20-4-23/52 were r~.-cor-it,d 1)y tim pyrometer of Kurnakov. The data Livn in table I and 2 are the average of several determination8. The warming curves of the mixtures of the sygt;?ms inventiLvated were perfectly identical with the cooline curves. The renults of the thermic analysis of the binary system triacontane-tetratriacontane are given in table 1, Its phase diagram can be seen in figure 1. Both substances form a system with continuous solid solutions (figure 1). The polymorphous modificalions of n-paraffins which are eliminated from the melting mass during the cristallization process are denoted with a. They form a continuous solid solution which is also marked with a. After some lowering of temperature the a-solid solution changes into a continuous solid solution conaist-ng of ~3-modificationn. Th(q remain stable in temperatures as loll as room temkerature. rho O-eolid solution suffers no ohdnges at IL"er teml,pritures. Th-) almost straight liquidus line Card 214  A Study of the Sy9temo of Normal Parurfinic Hydrocarbons 20-4-23/52 C30-C34 and C 30-C36 proves that when the second componcint 13 added to ~t hydrG- ca-rbon wi th higher melting point this point 143 only slightl, lowered. The temperature of final cryntallization i:i luwqr,,i more remarkably. It is very difficult to judle or, tt.e state of purity of the n-paraffin pruparation,3 b.,, th- JAermination of the melting point and the solidification point bj ireans of the capillary method (thermometrically). It is hardly possible to state the begin and the and of the crystallization. The point of polymorphous transformation ouffors i much .stronger lowerin#- of the temperature of crys'.allization when a second component is added. The trans,tional temperature is much more susceptible to the admixture than is the crystallization temperature. Table 2 shows the results of the thermic analysis of the system triacontane-boxa- triacontane. Its phase diagram can be seen In fieure 2. This system is %nalorous to the precedin~7 one. Here, too, the liquidus line is almost straight. Thus the n-paraffins discussed above form systems of continuous solid solutions which In solid state suffer the first type of transformations Card 3/4 according to Rozebom.  A S*udy of the Systems of Normal Paraffinic Hydrocarbons 20-4."0", C30-C34 and C30-C 36 Phere are 2 figures, 2 tablf-!3, and 8 references, I of which is Slavic. ASSOCIATION: Institute for Putroleum of th~- IN USSR (Inatitut nefti Akademli nauk MR) SUBMITTED: April 11, 19,7 AVAILLBLE- Library of Congress Card 4/4  'F N. A., Trlri?IYFV, A. V., 1?0'.7FINDIII(l, .1,. 14. ni~,l Y71H TTAYTII. N it eprir,it I cr, X ": e ' r ~ e- krr-ji rl ,tion and tmnlea of the HUi~ Molecular WeleAt Fraction of !ollectlon of Papers, Moscow, lzd-vo AN SOR, 1956. nOpy. (Inta nertl) -lection of papers publ. by AU Conference, Jan 56, Moscow. The temrerut:ire nv.,,es !'(,r ieL- mp pi-, rFi rr ~ r. s t -de r,e le I e rn! - orl memiti ~:x !'!'e re,, t) -i. t, ,:vt it .,it TI.ey -in t e used f',.~' ler~~ rmn: iren ~C, ri I;e~,e ;f, ! I~L3 t~slt; , vf. 1-1~ .:.Cft 1:11 . u . e:-. .M, C wn f it ~j 1'r m tiie ;Y-oz,,,y-f lzra"f., fi,, ren .:,i el..V r-eu- t S ,e r-n,.  -AUTLORS. Kitv~' ~,y, A - 1 Yu. V. N.A. TITLE. An Inve6t.'gat.'L,~,n ~,f Solic, (Issledo-ranlye tverdykh :~astvor_)v nekotory~,I. n-paraf inc,v) PERIODICAL: Kristallografiya, 1958, Vol 3, Nr 3, pp 298 - 303 (USSR) ABSTRACT: X-ray and ti-~-rmci.-ra- I.ic analysis of tie b~.n~iry systems formed from the araffins v,,_'t`. C C and C vere .ade. v 18, 10 20 Regularities followed fron, tIx- t`_eory 3~ close pac-irl. )f molecules were establisl 'ed and an _~rthcrhombic phase was found in C - CIO In i(lentical c,riditions the solubilit,i of 18 r- molecules wit.- longer c,.ains ir, 16-c.-, --.a:. of with shorter chains. Tl,e 'I.-_-etical c,~nclusi-,n ~n 1mTr3sl- bility of a c7,rtinu-Tjq rar.Ce 'r-s odd and r;ven ~-araffir,.- was X-ray ~)owder i;prr, take", ~,t and at temperatures from --'0(, C '-) to tt( fflpltifi(~ was found tLat in tl.e syster;~s C, C, c~ a nd r, ~Ic C 1,--) was no continul--ug ranje jf s~,IiJ sol~iti-ns. Tl~e C -0 system also showed no ---ontinue-is ranE:e of solid solutions Ca,rdl/2 in spite of the isomorphism of the crystals Cj~H,3 and 11  710-~--! -?/3c- An Investigati-)n of Solid Soli*-'ons ~.f '-',-rtair, n-;;a~raffins C H , which are tri-clinic with- very similar dimensions 20 4,- The re~7,ion from 8% C, 0 t) 81% C 20 was arthorhombic. C and Phase diagrams of ti-e systems C- 2 C 13 14 c are ziven The increasrd sclubility ~)f sh:)rtp:- 14 - C, molecules in a E:.,ven solvent ~s expla'-ne! by the lesser disturtance to t~.e c,,iised '11-Y holes in the strjcture ~,ompared t~~ that ~a,~sed by extrn gi-ccu;s intrudinE. There are 5 f~Fures and r-f,~ror:ces, 6 of w!~ict are S~v-et, 2 English and 1 Fren-h. ASSOCIATION. I ns t i t a t e 1 o me r. I" ~ - , " 5:: i r, ., i-yed~rncniy, nefti (Inp,*-,~t- C~~:-,pcurds-C Institute) SUBMITTED: December Ca-rd 212  IINCHITATLO, 11-n. ; RAVICTI, G.B. One-componnnt and 'Amary Ryntems of drocarbons. Itogi noLuki: Xhim.nauki norrial paraffinic hy- 4:180-207 159. OCRA 13:4) (Hydrocarbons)  5 (3) AUTHORS: Petrov, Al. A., SerCiyenko, S. R., SOV/62-53_~-22,"~ Teedil ina, A. L. TITLE: Synthesis and Properties of the Monomethyl-autatituted Llkanos of the Composition C 12-C 16 (Sintez i avoystva monometil- zameahchennykh alk&nDvsostava C 12-C 16) PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh nauk, 1959, Ur 6. PP 1091 - 1097 (USSR) ABSTRACT: Since the hydrocarbons of this structure are not yet suffi,i- ently investigated, the synthes13 of the monomethylated al- kanes with a boiling temperature of more than 2000 was investi- gated. With this monomethylated alkanes one may synthesize all theoretically possible isomers (there are only 29 compounds). They are furthermore of interest because they have thermodyna- mically stable structures and meet with all technical require- ments of motorization. The hydrocarbons were synthesized ac- cording to Grignard's reaction (magnesiumbromoalkyls w1th me- thylketones). in this reaction the purity of the compounds ob- tained depends in a high degree on the purity of the initial Card 1/4 substances (alkylbromides). This fact was especially conaiiered  Synthesis and Properties of the Mono=ethyl-subst!tu*f_-! Alkanes of the Composition C 12-C 16 in the present investigation. The methylketones were ,btalned by decomposition of the corresponding alkyl-acetoacetic acid As intermediates tertary alcohols were at first obtained which were dehydrated at 2800, redistilled I and hydrated in the autoclave on nickel at a temperature of from 150-17GO. The tem- perature at which the hydrocarbons obtained crystallize was de- termined by plottingthe heating curve by means of the photo- -recording Kurnakov pyrometer. The purity degree was determined by means of a special thermographic device.N. 1. Lyashkevich, to whom the authors express their gratitude, carried out the measurements in the laboratory for petroleum chemistry of the institute mentioned in the Association. The purity degree :,f the synthesized hydrocarbons was 97-98%. The thermogram was re- corded by a special aluminum block which was designed in the Institut obahchey i neorganicheskoy khimii AN SSSR (Institute of General and Inorganic Chemistry of the AS USSR). By this au- tomatic recording of the heating curves the melting process could be fixed exactly (Fig 1). With almost all compoungs ob- Card 2/4 tained two stages in the melting process (-46 and -45.4 melt-  By-nthesis and Projerties of the Monc,methyl-subatltu~"A Alkanes of the ~ompositi~)n 0 12-C16 ing and cryatal 1 isation temperature were o I c. ~~ rved . The perties of the hydrocarbons are given in a table by whi(,h !I is shown that the density and the refractive index scarcely de- pend on the position of the outer methyl groups In the mair chain, what is well in line with data by Tatevskiy (Ref 1". The crystallisation temperature is, hcwever, strongly Anflj- anced by these methyl groups. The change of the r,.rjstaIl4.sa- tion temperature at the transition of one ham,)Iue to the other, and of one isomer into the other is not steady (Figs 2,3 with comparative data from Ref 10). This unsteadiness is esusel ty the presunre of either an even or an odd number (;f hydro(_arbrnb in the mair chain. The transition from an odd to an even r.umber of hydro,:arbons exerts a parallel influence on the meltine point, the reverse transition, that is an increase in the lecular weight, exerts an antiparallel influence. The laws holding for paraffins, o1ofins, and greases, which art! well known, may thue also be appliei to ramifi-dtod a-Jarics- The cryotallioatien procues of the latter t,,kea pla-, ~.j f-rmi:lc Card 3/4 sach crystala as exhiltit the shortest posqi~le -'air..  Synthesis and Propertiee uf tha Monomethj1-2ub9t'1t1;--' S '- *i/-~ , - -') -, '.- - I- ~" ,, - Alkanes of the Compoaition C 12-'16 There are 3 flgLres, 1 table, and 11 references, 5 ~f are Soviet. ASSOCIATION: Institut neftl Akademii nauk SSSR (Petroleum lnqtltl~,"'o r ~1,, Academy of Sciences, USSR) SUBMITTED: September 9, 1957 Card 4/4  - m. I .. , , I ,  50), 5W SOV/62-5)-8-13/42 AUTHORS: Petrov, Al. A., Sergiyenko, S. R., Tsedilina, A. L., Rechitaylo,-N. A., Sanin, P. I., Nikitskaya, Ye. A. TITLE: Synthesis and Properties of the Dimethyl-substituted Alkanes Having the Composition C 12-C16 PERTODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimichookikh nauk, 1959, Nr 0, Pp 1421-1424 (USSR) ABSTRACT: The present paper discusses the synthesis and properties of some of the compounds mentioned in the title. The properties of the synthesized materials are given in table 1. Nearly all substances crystallize at low temperatures; only 2,4-di- methyldecans and 3,5-dimethyldodecane vitrify at much lower temperatures than do their isomers or adjacent homologs. Besides reference 3 investigations aiming at an explanation of these phenomena have also been carried out by Petrov (Ref 4). It was assumed that the characteristic feature of vitrification of the two compounds mentioned is due to their structure. Various investigations were carried out to prove this assumption (determination of viscosity as a function of tem erature (Table 2) and determination of molecular weightl. From the results it is seen that the influence of Card 112 the structure on the vitrification effect cannot be limited.  3OV/62-5)-8-13i'42 Synthesis and Properties of the Dimethyl-substituTed Alkanes Havinoz the Composition C 12-C16 It was only poscible to establish a certain dependence on the branching degree of the compounis. "here are 2 tables and 5 Soviet references. ASSOCIATION. Institut nefti Akademii nauk SSSR (?etroleum Institute of the Academy of Scionces, USSR) gUBMITTED: December 10, 1957 Card 212  S/ 19 1/60noo/1007/00~.',~ B004/BO56 AUTHORSi Tolchinskiy, I M , Nechitaylo, 1; A., Tcqcrij,~-;, A V TITLEi Some Thermal Properties of Polypropylene P PERIODICALt Plasticheskiye massy, 1960, No 7, pp 3 - 8 TEXTi The authors investigated the effect of the amorphous frar.-tion con- tent upon the temperature and thermal effects of melting (and crystalliza- tion, respectively) of polypropylene Polypropylene was synthetized from the propane-propylene-gas fraction by means of catalysts from triethyl aluminum or tri-isobutyl aluminum, and TiCl3 or TICI4 The heating (Fig 2) and cooling curves (Fig 5) were recorded by a photorecording Kurnakov pyrometer Measurements were carried out in a Dewar (Fig 1, total view of the apparatus) In all polypropylene samples, the authors found the same cougse beiog taken by the curves with a weak end8thermic effect at 0 135 - 145 C, and an intensive one at 150 - 160 C. These effects could not be explained by polydispersity, because during fractionation by means of boiling heptane (carried out by L Sidorova), the low-molecular Card 1/3  Some Thermal Properties of Polypropylene S/ 19 1/60j~O'~'Oo/'Oc - 'c'c. BO04/BO56 fraction also showed the two endothermal effects The authors assume a non-uniform structure of the polypropylene, which may be explained only by separating the crystalline part into isotactic and syndiotactic fractions and by their X-ray examination The thermograms of the amorphous fraction showed no marked effects (Fig. 4) because of gradual softening The interrelation between thermal effect and degree of crystallization was Investigated by measuring the surfaces of the peaks of the thermal effects Measurements Were2well reproducible. The measured values deviated by not more than +0 1 cm from the mean values The effect of the cooling rate (0-5 - 7 61rC per minute) upon temperature and amount of the thermal effects is, as may be seen from Table 1, below A comparison between the thermal effects of samples with 7,9% and 20 3% amorphous fraction (Table 2) with a low amorphous fraction content gave a larger area of the peaks, which did not change considerably after repeated heating The amorphous fraction was now extracted by means of cold toluene, and artificial mixtures with various contents of amorphous fraction were produced Whereas the melting and crystallization temperatures of the Individual samples remained un- changed, the area of the crystallization peak depended on the amorphous fraction content as shown by Table 5 Card 213  Some Thermal PrQ,urti-j 1ene c/191/60/000/007/0021/0"/ B004/BO56 Table 3, Change in the area of the For synthetic po1yprcpy!e!-.e saz, crystallization peak with the the same dependence was found amorphous fraction content in (Table 4) The X-ra) pictures showed rtificial mixtures that all samples ha~- the same Morphous fraction Area of he structure (example, Fig 6) The : content peak M~ data from Tables 3,4 are graphically cc I represented in Fig 5. and the charge 0 0 35 7 in the area of the peaks at 0 - 10%, 10.0 24.6 10 - 20%. 20 - 30%. 50 - 40% 20.0 21.0 amorphous fraction content is given 30~O 18 4 in Table 5 It follcws herefrom that 40 0 16 0 at low amorphous fraction contents (of up to about 15%), the degree of crystallization can be determined with sufficient accuracy using the differential thermal method The authors mention papers by Z A Rogovin and T V Druzhinina, as well as by V. A, Kargin et al There are 6 figures, 5 tables, and 19 references, 8 Soviet, 7 US, 1 British, and 3 Italian Card 3/3  aft; J;t-T-w 7-15 J. , I.. !Nolzvl3om ..t-.42 .-,Rj I jtqs... jw ... I pm -tv ----------- 91- -IT" V.4, .1, 1. "MI, to ".go .9" qz jj--4 -n o.lgv -&-v . ..... Tj" d.. POW it" -CC '01 ING I'",. ILI ~--V4 4' J. 'Fiala 'awlaff O't IOVA  s/i 9 1'6c,/ G6c, -, i - r BC) 13/ BO 54 AUTHORS-. Nechitaylo, N. A., Tilchinakly, 1. M., Sanin, 1'. TITLE: Use of Thermal Analysis to Study the Destruction of Polymers PERIODICALs Plaaticheaklye massy, 1960, No. 11, pp. 54-57 TEX'ri The present paper givas heating curvgs for some polymers in the 0 temperature range of from 20 to 800 _ 900 C, and discusses the possi- bility of using thermal analysis for the study of destruction processes with the aid of the results obtained. Three polyethylene samples and one polypropylene sample of high molecular weight were investigated The heat- ing curves for the samples were plotted by a Kurnakov automatic recording photopyrometer. On heating the samples in the absence of oxygen in vacuo or an inert gas medium, only those thermal effects were fixed which were connected with the melting of crystallites (Fig. 1) It was found chat the transition from0the elastic-amorphous to the viscous state took place in the range of 350 - 5500C, and - as expected - was not accompanied by a thermal effect. The curves plotted on heatihg the samples in the presence of oxygen looked differently (Figs. 2 and 3). Both endothermic rind exo- Card 112  Use of Thermal Analysis to Study the Sj i q I/ 6G/ ~J("G/ o I I Destruction of Polymers B013/BO54 thermic effects can be observed on these curves; they corresponi tn t~'F" reactions of oxidation and destruction of polymers. A table gives the temperatures of phase transformations for polyethylene and p,,Iypr,,pylf,n,, samples The more or less similar thermograms (Pigs, 2 Find 3) indicate it similar character of high-temperature oxidation and destruction of the polymers examined (Refs. 3 and 5). The thermogram for the amorphous pcly- propylene fraction has a slightly different form. Except for this frac- tion, all thermograms show 0more or less distinctly marked exothermic ef- fects in the region of 200 C. On the basis of the heating curves examined, thermal analysis seems to be a suitable method of studying oxidation and destruction of polymers. It may be assumed that with the aid of thermal analysig it will also be possible to determine the efficiency of st,'tbiliw"~ cf the antioxidant type This should facilitate their efficient '!hci,.;e for polymers of various types. V. A. Kargin and T. I. Sogolova are merti-~ned There are 4 figures, I table, and 14 references: 8 Soviet, 3 US. I British, and I Italian. Card 212  S/076/60/034/01 2/00-6/027 B020/BO67 kUTHORS: Nechitaylo, N. A., Topchiyev, A. V., Rozenberg, L. M., and en T- yeva, Ye. M. TITLE: Study of n-Paraffinic Hydrocarbon Systems PERIODICAL: Zhurnal fizicheskoy khimii, 1960, Vol. 34, No. 12, pp. 2694-2703 TEXT: Using the thermal and microatructural method the authors studied eight phase diagrams of n-paraffinic systems: C - C32, C 30 C34' 30 C30 - C36' C26 - C30' C22 - C30' C20 - C30' C22 - C26) and C 18 C 20* The following n-paraffins were synthetized according to Kolbe and Wurtz: octadecane C1. HW eicos&ne C 20H420 docosane C 22 H46t hexacosane C26H54' triacontane C 30H62' dotriacontane C 32H 66' tetratriacontane C 34H70' and hexatriacontane C 36H 74' The heating and cooling curves were taken by an automatic, photorecording Kurnakov pyrometer. The temperatures of the Card 1/3  Study of n-Paraffinic Hydrocarbon Systems S/076/60/0't4 '01 2"006"02- , B02G/BG67 phase transitions of the hydrocarbons synthetized are given in Table 1. The phase diagram of the systems C7 - C C C and r.' - C" are t ,0 32 30 34 50 ~6 shown in Figs. 1, 2 and 3. In all systems homogeneous solid solutions were formed. The systems C 30 - C20 (Fig. 4) and C 22 - C (Fig. 5) form 30 eutectics (Fig- 5). The temperatures of the phase transitions obtained from the results of thermal analysis are given in Table 2. The system C26 - C30 contains series of homogeneous solutions (Fig. 6 and Table The phase diagram of the system C 18 - C20 Is given in Fig. 7 and the results of the thermal analysis of the system are given in Table 4. C 261 which was synthetized by the authors, is a two-phase system whose mono- clinic component predominates. The presence of a component with triclinic structure C 22 - C26 essentially influenced the results of thermal analysis and thus rendered certain parts of the phase diagram indistinct. The experimental material on binary systems of n-paraffin8 obtained as well as published data prove that the structure of the component is the decisive factor in the formation of systems. The ratio of the chain lengths in the Card 2/3  Study of n-Paraffinic Hydrocarbon Systems S/076/601/03 4,'0 1 2,'0c6,'027 B020/BO67 systems concerned is given In Table 6. According to the theoretical concepts which were presented in the papers by A. I. Kitaygorodskiy the phases with different structures cannot form a series of homogeneous solid solutions. Actually, the a-phaaes of both components are Isomorphous in the system C 22 - C,,, the hexagonal a-modification of triacontane, however, is stable only at temperatures above 58-59 OC. Below these tempera turee the monoclinic 0-form of triacontane which forms a eutectic V mixture with the hexagonal a-form of docosane is stable. V.M.Kravehenko and S. N. Yefremov are mentioned. There are 8 figures, 6 tables, and 30 references: 11 Soviet, 10 USj 4 British, 1 French, 1 Dutch, 2 German, and 1 Austrian. ASSOCIATION: Akademiya nauk SSSR, Institut neftekhimicheakogo sinteza, Moskva (Academy of Sciences USSR, Institute of Petrochemical Synthesis, Moscow) SUBMITTED: March 10, 1959 Card 3/3  NECHITAY14,1.A.; SANIN, P.I.; TOLCHINSKlY, I.M.; Prinimali uchastiye: ~DZYUBINA, M.A.; SHIROKOVA, L.A. Melting heat of polymers. Plast.massy no.9:3-5 161. (MIRA 14:7) 'Polymers) (Heat of fusion)  -~ 7 --. S/191/62/000/007/001/011 B124/B144 AUTHORS- Nechitaylo, 11. A.,Polak, L. S., Sanin, P. I. 11-ILE: Effect of gamma radiation on polypropylene in the presence of ionol as stabilizer i-~'RI,-,DI,;AL: Plan,~icrieskiye massy, no. 7, 1962, '1-11 T-'-'A-,: Camma-'rr~tdiated isotactic polypropylene with and without stabilizer was stuiied by Infrared spectroscopy, and by thermomechunical and thermal differential qnalysis. lonol (2,6-di-tert-butyl-;.-methyl phenol) in concentrations betweei, 0.11 and 5% by wei ght was used as stabilizer. Polypropylene was irradiated with Co6o both at 10- mm H(; and at atmospheric oreasure, usin(, a dose of 1.1,10 16 ev/cm 3.eec, in the apparatus of the Fiziko-e-riimicheskiy institut im.L. Ya. Karpova (Physicochemical Instituto imerti L. Ya. Karpov). The infrared spectra were taken wIth the 1-i~--14 (IKS-14) spectrograph, and the thermomechanical curves obtained with ft loading of 100 g/4 mm2 at a heating rate of 60OC/hr. The intrinsic viscosity was determined in Decalin at 1200C; the.thermal Card 1/3  'or 1/011 S/15 62,'COC,/OG7/ a Effect ofgamma radiation on ... B124YB144 differential analysis was carried out by N. S. KurnaKOV'S pyrometer %Ith the use of a combined Pt-Au-Pd tt.ermocou~le and a weighed portion of 0.1-0-15 9. -,he infrared spectra were taken on tablets pressed at room temperature and on films obtained from the melt. The absence of the intens;ve band at 1720 cm- 1 in -the 9pectrum of the ionol-containing polynropylene films irradiated proves that ionol inhibits the formation -)f Oxjjen-containin6 groups and thus stabilJzes the polymer irradiated. Tpecimens irrauiated Nith 50 Vir without ionol were insoluble in Decalin at 1200C, whereas those with ionol were readily soluble even after doses of 100 and 20,-. Mr. This proves that ior,ol inhibits the crosq-linking r,f ioleculeg, which is confirmed by the thermornechanical curves. The zr.*..- %sic viscosity drops with Inrreasin,, irradiation dose. Without thp sf)ecimer, heated in argon showed a decrease of the melt- inr f,eatint~ in air was attended also by strongly exoti,'ermic reactions reaching maxima at 190 and 2170C. These reactions disappeared on addition of ionol, the melting point then rising by about 100C. The formation of various oxygen-contain-ing groups or peroxides on heating in air is inhibited by the antioxidant, ionol. With increasing irradiation Card 2/3  3/19 62/OOC/OC7/Orjl/Gll :.ffect of gamma radiation on ... B1 24X144 po:ypropylene without stabilizer shown a decrease of melting point ,,r.1 of ths? arQa of endothermic peaks correspondinc to the melting heats of Toly,,,ropyl-ire. Finally, an intensive exothermic process takes place , p-'~rlt; trie reaction hoat of this t:,p meltir'F process increases with n#:- irrad i at ion, dos e. Sith addition of ionol , the moltink,, h,3at of ;~-y-ro;7yleno inrr~ia3e3; no exothermic reaction Fibove the melting point ;~Iace DNin,, to inhibition of tr.,- oxidation ;rocesger; the meltng n* Ir,)p:-, t-it ~-,til. li,~s 5ome degrees above that of nonntabilized 7olypropylene. I Ihe optimum iono! concentration is atout 1.5%. On irradiation of polypropylene, the meltinc point drops as the amorphous proportion increases. C. L. Slonimskiy is thanked for the therrromechanical analysei;, and N. 114. Rytov and M. A. Dzy-ubin for assistance. There are fit-uren and 4 tables. The most important Engliah-lanfage references arei 1'. ~.awkin!4, (it al. J. Appl. Polymer Sci. 1, 37 (1959 1 W. 11. Hawkins et al. J. Polymer Sci. 28, No. 177, 439 (1958); W. H. Hawkins et al. J. Appl. Polymer Sci., 1, No. 1, 43 (1959)- Card 5/3  -NECHITAIW,, N.A.,, -karid.khim.nauk The use of themograpby. Test. AY SM 32 no.12:101-102 D 162. (KMA 15812) (Thermmetry~--~grevaes)  ~f E C' ~ i T t1 YL 01 Al p ~ * IDSVMMD, L.N., WMWMAO S.S., QUJM, O.D., _mMildt, A., immrnv&, n.N., mmm, mm., smv, p.r. Is"Gulp" etaulma Gaw"lues of sidom tfwu~ of a oa2phwvw nom all In Um =11 ftrw% to be summilOW for 'the SUM 44A fttml~ 0 ow wo rnfhftr% I&" imo 63 7 1 I  ACCESSION NRi-AP4028542 3/0191/64/000/004/000)/OW6 AUTHOR34 Wschit&ylo,, N.A.; Sanin, P.I.; BeTsat Tole; ?Okatiloo 1*A* . .1 1--.-.,.-.------- TITLE: Stability of poiy-j-'sethylbutens-1 SOURCE: Plasticheakiye maegy0o no. 4g 19640 )-6 TOPIC TAGS: polymethylbutens, stability, differential thermal analysisp nothylbutene polymerization, thormogran, exothermic effecto endotheripic effect, amorphous, crystalline, isotactic polymerp stabilizer, polymer oxidation ABSTRACT: The stability ro atmospheric oxidation of P01Y-3-methyl- butene-1 was studied by 04.fferential thermal analysis. The polymer was produced b 1 mril:.ation of 3-mathylbutene-l,on'the Al(C2H ) I TiCl system (1350:11. 'ri.9 thermogran of the polymer sample in &W showi a series of ex*Ub-irnic effects above 120C and an endothernio' peak at 26OCe In the thersogram In argon the exothermic effects are absent but there Is a sertes of endoth4ruic effectepassociated with changes in the structure of the polymer macromolecules. Card 1/2  .0 ACCE55ION NR: AP4028542 Comparison of the amorRhous, slightly crystalline and crystalline or Isotactic fractions (structures confirmed by x-rays) or the polymer shows thelhighly crystalline material in oxidized most on heating. The--a"ect of the addition of various amounts of ionol (2,6-di-tort..' ~,utyl-4-methylphenol) was studied, and it was found that-the intensity of the exothermic effects was reduced with increasing amouqts of stabilizer, up to'2% ionol when there is almost no oxidation of the polymer., Olig. art. hass figures. ASSOGIATICK: None SUMITTED s 00 SUB CODE: CH cmd 2/2 DATS ACQs 2SApr64 ZNCLs 00 PR RV S" a 002 MM 1 403  ACCESSIONINRI AP4044556 8/0204/60004/004/0630/0657 4UTHORt ;Nametkins N, S.j CternXkshevax To'l.1 Prituls. N. A.1 Machitsyl .;:TITLOt B*nthsFais of organosilLcon compounde.with pheftyl,ane arbon and! ~'p �fullonesilexano groups 'and thernoanalysis 'SOURCEs ~NeftekbinLyag fo' 40 n6# 4# 19640 650-657 TOPIC,TACSS silphanylens, p bia(methyphenylsilyt)bensansp silpbany-, :14ne:structurap silphanylans thermal transformation, oLlphenylefte iABSTRACTO A-Aumber of silph'anylonse of the typf Vherw A is' 0 or-(CH2)--with n Is 2.s 3 R And R are C911 or A Is (Ch-z)gt,:nd OAS C6H5. have been prepared from p-bis(votbylphanyl- sityl In which silicon atoms are linked with bromine vLoyl  =9e.65 CCESSTON KRI A?4044556 radicals or hydrogen 'atoms, The- study was conducted bl~"Usa sllpheny.~ mthermal stability,,tMand because or- Asnes-were expect d tojaxhibit higN their possible us: as\\71ubricants he*t-transfe alland fluids ford .,:vacuum diffusion pumps The structure of the compounds Vag confirmed! !.by IR spectral anslyM~ 'The 'thermal conversions of the 1.1ilpheny- 1,1eass werw.--t tu6Le d-- in---air--wi th --the. Kurkskov pyrometer equipped with ilautonatic recording, The-results of -derivative analysts,sre given In Table I o f the Enclosures. 6rLg. art# has# lis figures. and I table. 4 IMATIONt 1ustitut-neftekhImtch**kogo sintoss; in, A, Y', T 'Asio opcbiy evi - ~AN 8SR!'(1astitute of Petrochemical SynthealslAN $901) S ZHCU 01" 11SUBMITTEN 090SC63 ATD PRESSi M4 ~JUB CODZ# CC# 00 NO REP SOVt 004 OTHERt 007 2 /* -3  L IU98-65 ACCESSION Iiii AP4044556 ENCLOSURE 01 Tabl4i 1. .7convoTsions of silphenylenes from date of derivativs tqerao- grivinstric analysis compound Tespefature, ,C Ulting First Exo- Second Zxo- Endo- thermic thermic theftic effect affect 0 ct- Clio It 446:1-M (CIIJ) C 0 Cl J, 62 21"1 IS: II: r11, 4627-M G1,44 c9ift so (JIS Coll) 4 Ohl J1 X - 0 61 (C411. 640 366 16.1 A .3 -3 k ----------- -------  ENT W /E PF (C )/E K fn-)-21EWJ-'(j PC-4/Pr-4/?U-4 Accassim YRj AF5018034 UR/0191/65000/007/0007/0013 1.122 678,742,3:621.039,83t61$.021.122 _A.; Sanin, P. G~~lden~~A~.t,; Polak, L. 84 TITLZs Effect of'stabilisers irradiated is polypropylet 'SOURCS: plasticheskiya =GeV, no. 7, 1961, 7-13 -:A T TOPIC TAGS., polypropylene, ionizing radiation,-oxidation inhibitor, phenyl- naphthylaminap ionol, polymer stabilizer, gal formation 6D- ABSTRACT.- Polypropyltne (14W--,224$0G0)_wss irradiated with a.Co urea in- phenyl- ampoules at about 10" mm Rg, The stabilizers chosenwere W-naphthyl- amine (0edx6ne D), 2-mdrc4ptobenzimidazole, and barium di-n-octadtcylditbio- pbosphat6; for comparison, experiments.were made with ionol. Thermograma were recorded automatically with a Xurnakov pyrometer, and the temperatures of the tharm.aleffecte observed were studied in relation to the irradiation dose and the content of stabilizers. The endothermic effects on the beating curves cor- respond-to the malting of the polymer samplest and the exotheindc ones to the reotctjo4s of oxidation df polypropylene, 'The degree of oxidation was determined. f by infrared spectroscopy from the content of carbonyl compounds. on the basis- Card 60041-65'. A=SSUV WR: APS01803A of the quantity of carbonyl groups formed the various experiments, the Most effactive oxidation Inhlb4tora are pbenyl-~-napbthylamine and ional. The In- triusic 4iscosity of the samples was studied as a function of the-irradiation dos a. The protection coefficients, energy,transfer;factors, and intrinsic W, viscosities of-polypropylene irradiated inair were determined, The number of breAks in the primary molecular chain caused by the ionizing radiation was correlated with the reciprocal.molec'ular weight. The addition of 27. ionol is sufficient to prevent cross-linking in the Polymer at a dose of 70 mr. At 160'-~.- and 250 mr, 5-and 8% ionol, respectively, is needed to prevent.gel formation. authors thank M. A. DMbi;.for considerable assistance in the works" bast S.figurest 6 tables# and 2:formuldo, ASSOCTATTON: None SMMITM: 00 you: 00 SUB COM100i 110 REY SM 006 OTHEM. 010  AUTHORI Sher# VoVo; Melent'yeva, No.V.; Nechitsylo, No A.1 Sanin, ~_Iftttg -ef f ect -of --thermal-: conversion of.--metal dialkyldithiophos- 0hates Ott' their effectiveness as hydrocarbon antioxidants V,.51 no -405 SOURCE: Reftakhim.iyag V39 1965j~ 399 J 1OPIG,TAG,St lubricant additivej antioxidant, metal, dialk I - inhibitor ~thiophosphate, oxidetiWa ADSTXACTs~ Haig particularly those.of -1 dialkyl dith Lophosphates, ! j.zinc# are antloodants of Ihydrocarbons and find application as lubii-~ ' J such as various phenols, lcant.addgtivftjo~l Unlike other antioxidants, ~imetal dialkyl dithiophosphates not only inhibit the initiation of toxidat'Lon (extend the induction pariod)t,but also continue to inhibit. fthe:propagation steps of Oxidation* Preliminary experiments had shoun fthat the:specific action of metal dialkyl dithiophosphates depends the formation Of secondary products, In the present work, the ' antLakiditive effectiveness of several metal dialkyl dithiophoophates Card 1 7 . ~cc E 9 -, MO N CCE ION MR3 AP5016842- was examined an a function of their prior heat treatment, it was found that nickel di-a-decyl dithiophosphate acted most effectively ' as -att antioxLdnat for a mixture of alkanes and cyclanes when -:he a ti id h d b k f h 5 1 n ox : ant a eon or our a at 180C -und ept er nitrogen. !Similaklyg xinc diisobutyl:dithiophosphate was most effective as an antioxidant when prior beat treatment had been conducted at 225C; higher or lower temperatures decreased its effectiveness* Other [ compounds of this type exhibit sLmLlar.behavLor.' Heating of the ' , compounds in air proved as effective as heating under nitrog no! 4 -It was concluded that metal dialkyl dithiopho'sphates are changed b y heat treatment into substances which combine with oxidatlon produe of hydrota boas to form effective antioxidanta. Orig. art. hass 4' f igure a ASSOCIATILON1 Institut neftekhimichaskogo.sinte.a. in. k. B. Topahtye4& SSSR 51notitute-Of Petrochemical SZnthesis, AN SSSR) SUBMITTEDs 036064 ENCTl 06 SUIS CO6z u is P I I., 'NO REP SOVI' 006, OTHERI': 004 ATD PRESSt 032  L 11819-M mr(M)APY(n).2 UP . SWA Wzm(il wdm ACC N#s Apwo24w (A) SOWCZ COMs UR/0l92A66/0oo/bm/boyr/bWA AUTMOSS rp Polak,, t'. S -J OW i none TITLEs Dihydro3Wphenals-stabilizers for irradiated volurcul /fj jox, SOURCM Plasticbes" Moy"Jio- if, ~966# 37-U TOPIC TAGSe polymer, polypropylene, radiation damege, radiation effect, poly- propylene AHSTRACTs The stabillsing action of hydroquinone# 2-mthylhydroquinons,, 2-tert- butylhydroquinone, 2-tert ootylhydroquinonev 2,5-di-tert-butylhydroquinane, pyrocatechine, 4-methyl pyrocatechine, /.-tert-butylpyrocatechine, 4-tert-octyl- pyrocatechines, and 3,5-41-tert-butylpyrocatechins on.tAe stability of Irradiated polypropylene won studied.A 3he initial po opyle"'had a molecular weight of 390 000 and was irradiated with C060 Y-radiation of 1.5-1,0 M roentgen intensity@ ThernoWforentle'r-c-tnalFaTe curveao IR spectra, and viscosity for Irradiated poly- propylene specimens In the presence and absence of air (and containing varying amounts of different dihydroxyThenoln) are presented In tables and graphs (900 Fig. 1)o The nimibar of chain ruptures produced by the radiation vas calculated after P* M. Black and Do J. Lyons (Proc. Roy. Soc.p 2530 322p 1959). It me founi VMC& fi",742.3t6".048.5  M m -o- A time sib b UNWO FIC. 1* TbersoCmKt obtained during Uw differential tbarml analysis of polyprofflaw (irradiated in presence of air; radlation dosage 40 W)e a - iMtW polyprafflowl b, - after irradiation containing 2-tert- u1nonal a - after Irradiation containInC 4-tert-butyl- a that 4-tert-butylWrocateddam, and 3,,5-dL-t*rt-bUW1PYroG&t*Chiw Were the Most effecti" stebinsing agents. A conclusion Is reambed that drMaphowls stabilize Irradiated polypropylene b7 Inhibiting Its reaction with atmospheric oqlen, The 410thors thank N. A, Dzymbin for his aid in the "mt Vorkc, Orld, art. Wws 6 tables# 3 graphag and I Oquotiono M-Om- SM VM# ams/ ORIG Ws OMV - ON Wo 003 ,0----A -&AS !6wj L 13819-66 ACC M AP6002480  L 32663-66 EWT(m)/EWP(J)/T IJP(c) W4/RM ACC NR.AP60156~~-3~-(-A-)----S-OHCT-CODE: U1UtUTWW008-/-UU5/0888/089T-j -7 AUTHORi Nan tkin, N. S.; Nechitsylq, H. A.; 9!~rAar'ysnq S. G. I-e- - - ---- - - _--_j Khotimakiy, V. S. ej ORGt Inati.tute--of.Petrochemical Syathosksj__~N WSR-(Institut nefte- khimicheskogo sintean AN SSSR) TITLEs Thermal stability of polymer from vinyl derivatives of silicon SOURCEt Vyeakesiolokutyarayye seyediusuive, v. 4, as. 5, 1966, 444-492 TOPIC TAGSs polymer, silicon, allans, macromolecule, thermal oxidatiosib oxidative degradation, T-AjFoPf"oq4. 7WfOeMMA. Jr094M.U.,0 r? ABSTRACTs A number of secromolecular organeellteoft polysarsqhas been synthesized from silicon vinyl derivat-lies. The stability of systho- ~129d P01YVIUVI silanes was analyzed by the differeatiel thermal metbet The tabilLs r effect on the process of the thec!joexidatlye dearada- tion9f the polyvinyl trimethylelleme'vas shown. OrIg. art. bass 4 figures sad I table. (11T) SUB COM 11, 07/ SUBM DAM 20Hay65/ ORM 99IFS 004/ 019 9971 001 Cord III UDC: 678.01:5"78-84 ~' L   NECHITAYLO, N.V. Control of venereal diseases In Burma. Vast. derm. i van. 38 no.10:79-81 0 164. (KM 1817) 1. Rukovoditell gruppy Govetsk1kh spetsiallatov v Sao San Tun goopitale (UrmaT-.-  NECHITATLO,P. iazhener Autonatto car for loadinp eoftl. Hast. ugl. 4 nn.4il9 Av I~rp, (Coal handling minhinery) Ofift A!(,)  NECHlTATL,O,' S.K. Principal characteristic@ of the geological structure of Gorkly Province in the trans-Volga region. Tridy MGM no.8:234-21,0 057. (MIRA 12:2) (Gorkiy Province-Geology)  Vi entrFol r a orr  -~gGRMYW, 3.K.; SUVOROV, P.G.; KHOKHWV, P.S. Basic geological characteristics, and oi-1 and gas potentials of the central parts of the Russian Platform. Trudy MGh-I no.10:142- 157 158. (KMA 14. 5) (Russiar, Platfam -Petroleum geology) (Russian P3Atfom -Gas, Natiral-Geology)  N.MCHITAIW,- "_; VNSXWVSKATA. N.M.; SKVORTSOVA. Te.N.; LTTMMICH. Te.K., usuchnyy red.; KULIKOT, X.T...Yodushchiy red.; GONADIYZVA, I.M., tek-hn.red. [Kateriala on the geology of the Go rode t 9-Kove rnino tectonic zone) Katerialy po geologii Gorodetako-Koverninakoi tekto- nicheakoi zony. Pod red. I.K.LlutkevichA. Leningrnd. Goa. nauchno-tek.hn.izd-vo neftinnot i gorno-toplivnoi lit-ry, Leningrodskoe otd-nie. 1959. 126 p. (KIRA 12:9) (Oorkly Province-Osology, Structural)  IMCHITATW. S.K. Geology of uplands In the northern part of the A1at;rr'-&ork7j zone. Trudy YNIGM no.13:216-236 159. (MDRA 13: 1) (VO19a Ta1167-0601097)  A U2110 R: Nechitaylo, S. K. SOV/20-128-3-45/58 TITLEi Recent Data on the Exiatonce of a Basement Prominence in the North-western Part of the Gorlkiy Oblast' F~-*iIGDICAL- Doklady kkademii nauk 33SR, 1959, Vol 128, Nr 3, PP 596-599 (USSR) ABSTRAM Near the village of Novopokrovokoye (60 km north of the town of Gorikiy), a borehole about 450 m deep was drilled in 1949. At a depth of more than 215 m, a breccia mass was found quite surprisingly which mainly ~,onsisted !' 6neiss splinters ar.-I -fragments, and vas about 180 m thick. Pelow that, the bcr-hole passed through solid loam, in some places passing over into argillites, for about 45 m. There are no organic remains in these loame so that their age ia uncertain. In 1951, the 4uthor noticed a similarity of the silinter~ aaa -fragmti,ts with the crystalline basement r-._4- -iio~uv, rt!d b., bori,16.9 X.-ear the town of Balakhna (40 km s(.;ith _f Novoj~ocrovskoye). The angular shape of the splintera sig.-cota a Ehort transport distance. M. M. Veselovskaya (19r2' arrived it similar conclusions rith respect to a breccia from a borehole 10 km Card 1,13 south-west of Novopokrovskoye, and assumed a basement prominence  Recent Data on the Existence of a Basement Prominence S(,V/20-128-,"-45/58 in the North-weatern Part of the Gor1kiy OblaBtl of the Russian Platform. Ye. M. Lyutkevich and D. .1. ?rukht (Hof 3)asoumed an old gneiss range In the Gortkiy-Oblaat. Geophysical invotitigationo by V. M. I(YMILIIOV, T. 1. 1'jtUVf1 lkl,l P. S. Cherepanov established an intense magnetic maximum Arith an amplitude of 900 r in the region of the village of Vc.:,~iiovc. At a depth of 432 m alreadv, tl-o borehole got intu a t(--tcniczilly very much disturbed, archaic gneiss mass. This gneiss layer waj not pushed through by another boring of 350 m. This exceptiDrially high position of the central part of the Russian Platform 7as designated by the author as basoment prominence (Fij; 1). -he gneisses are so much changed 'hat ~-Y;e type of rock canno' 1e determined even under the micrcecone. 1'esides the secon~lary changes, an intense dynamometamorphism. is character13tiC O~ these gneisses. Intermediate layerg of a t-ctonic breccia a7s-) occur. Both aspect and petrographic composition of these crystalline rocks suggest that the borehole pushed through a zone of tectonic disturbances near the village of Tonkovo. It seems that the gneisses are also changed hydrothermally. With respect to their genesis, these rocks are - according to data Card 2/3 by M. M. Veselovskaya - para-rocks which were microclinized  11 -3-45/58 .,ec,:nt Data on the Eaiatence of a Basement Prominence SOV/20-128 ir. the North-mootern Part of the Gorlkiy Oblast' during the latter stages of formation. There is no trace of volcanic rocks. The appearance of garnet at various depths points to a sedimentary origin. No Paleozoic deposits were found in the region of this prominence of Vorotilovo. But 50 km south of Tonkovo, in Balakhna, a sediment mass, 1800 m thick, of the lower Cambrian, Devonian, Carboniferous and Permian periods (Fig 2) lies on the platform basement. The Vorotilovo prominence did no longer exist in the relief of this part of the platform after it had been leveled by sediments of the Bathonian stage. Devonian on the slopes of the prominence may be interesting for petroleum prospecting. There are 2 figures and 5 Soviet references. ASSOCIATIONi Vsescyuznyy nauchno-issledovatellskiy goilogorazvpdochnyy neftyanoy inotitut (All-Union Scientific Research Tnatitute of Geological Petrolcum Prospecting) PRESENT-0t May '117, 1959, by 11. M. Strakhov, Acart,mtciin MMITI-Z: April 23, 1959 Card ',/13  --]iW,AUTAYW, Sergey Kirillovich. Prinimall uchastlys: SKVCRTSOVA. U.N.. &31og; POPOVA. L.T.. goolog. CH&PIKOV, K.R., red.; DJK[ffl MA, T.A.. vedushchiy red.: QUINA. L.T.. tekhn.r*d. (Osology, and oil and ps potentials of Inadequately inveatignted areas in the northeastern Russian Platfortal Geologicheakoe stroenie I perspektivy nefte-gazonoonosti novykh ralonov severo- voutochnoi chasti Rueskoi platformy. Pod red.K.R.Chapikovs. Moskva. Gos.wuchno-teV-hn.izd-vo neft. i gorno-toplivnol lit-ry. 1960. 177 P. (.1CMA 14:1) 1. Chlen-korrespondent AN SUM (for Chepikov). (Russian Platforim-Petrolaum geology) (Russian Platform-Ges, Hatural-Geology)  fl- . . , , ') , , . . . , - I . . !I,. - , * - - . . . I . I . 1 7 - . -- . - 7-: -- -! : . : . J1 , . - .  L 54736,w65 E"WG(J)/EKr(m)/EWP(w)/EPF(c)/EYiA(d)/EPR/T/EriP(t)/Erp(b)/EtiA(c) W-4/Ps-4 IJP(c) JD. ACCIZ510H HR' --AP5015444 UR/0185/65/0l0/006/o676/o68i AUMOR: 1reavyats1W. S. H. (Treavyatskiy, S. G.); Nazarenko, N._I).; Dubok, V. A Nechy-taylo, V. F. (Nechitaylo, V. F.) TITLE: Production and properties of magnesium-oxide whiskers SOURCE: :~Ukrhyins'kyy fizychnyy zburnal, v. 10, no. 6, !965, 0'76-681: TOPIC TAG3:_ magnesium oxide,'magnesium-oxide.vhisker,~whi,sker graving, whisker growing method, whisker property#- whisker tensile-stre ngth ABSTRACT: A method and.equipment.for graving mae e whiskers from the ;nesiu4~xid vapor phase have been deielon~A and the tensile strengthVZf the obtained whisy#6 has been peasured. 99'.5%-- ;-ekkagne3ium. oxide in a graphite crucible wan plafed in a tubular furnace evacuated to a residual pressure of 0.1-1 mm Hg, heate 11n about 1.5 hr to 2000C, and held at this temperature for I hr. The whiskers grown on -the 6raphite'cover of the crucible (at about ioGo i 50C) were B-13 mm long and varied from 1-5 to 20 u in diameter. No noticeable difference between the purity of the whiskers and that of the initial magnesium oxide vaa detected by   16CHITAYLAN, A SURUB, L.V. , imh.; - Y., inzh. CIN-~$ for automatic reclosIng and .7dtching-in of auxiliary pow.supply for substations with two triple-wound,plectric transformers. Energetik 10 no.3LX -30 :-x 162. 15:,''~ (L-Aectric suWtations) (Electric protection)