SCIENTIFIC ABSTRACT SAKHAROV, V.S. - SAKHAROVA, L.A.

   VERIIMVSKIY, D.; VOLONTIR, I.; GLAZUNOV,:K.; KOLESNIK, L.; LUKASH3VICH,  KARASH, S.S., akademik; KALITSRV, A.M.; VLASOVA, N.A.; PASHCIDMKO, Z.K.; ROZRANOVSKIT, S.Yu.; MAUTKR, F.K.; KOKMYA, Te.A.; KLTUTEV, G.A.; BURTGIX, V.A.; SHLRUM.. A.I.; RUKI. Y.A.;,ROKAMOV, I *D.; AVTONOMOV, A.I., otv.red.; KUKHAMEDZHANOV, M. red.; RTZHOV, S.N., akademik,- zamestitell glavnogo.red.;.ALIKOV, R.A., red.; DABADATEV, A.D.. akademike red.; DZHALILOV, Kh.N., Imnd. ekon.nauk, red. YZR~MNKO, V.Te.. akademik, red.; ZAKIROV. K.Z.,.~ ~akademik. red.; MANUMOV, N.M., akademik, red.; NABITAV, N.H., skademik, red.; SADTKOV, S.S., red.; TOGOTBV, I.N.. kBnd.ekon.nauk, red.; TAKHONTOV, V.V., red.; KURANOVA,.L.I., red.izd-va; RAIJIKANOVA, M.D., red.izd-va; BARTSEVA, V.P., tekhn.red [Cotton] Khlopchatnik. Tashkent. Vol.3- LStructure and develop- ment of cotton] -Stroenie i razvitie khlopchatnike. 1960. 402 p. (MIRA 13:10) 1. Akademiya nauk Ulzbekskoy SM, Tashkent. .2. Akademiki UzSSR-(for Kanash, Mukhamedzhanov, Zakirov. Nabiyev). 3. Vsesoyuznaya skademiya sallskokhozyaystvezinykh Len~na (for Kanash). 4 TSen- nank imeni V.I I trallnaya selektsionn ya stantsiya Vsesoyuznogo nauchno-issledov6tel',-, skogo instituta khlopkovodstva Uzbekskoy akademii sel'skokhozyaystven-. nykh nauk (for,Kanash). 5~ Tashkentskiy sellskokhozyaystvennyy insti- tut (for Kalltsev, Shleykher). 6. Institut -enetiki 1 f12iOlOgii rasteniy AN UZSSR (for Vlasova, Mauyer, Klyuyev, Rumi, Roman6v). (Continued on next card)    S/747/62/000/000/ D243/D307 I "akha-rov,--3L-V- atonova R. N. and Ali TI'JHS : -- 0 -- Viansurova'L V"V. P1. ~~Ti~chcrbakov , v 1-~. TITL---'; ICYTOlogical proofs of the physiological protection of autote-traploidu of buckwheat (Fa-opyrum esculentum.moench).., from the effect of ionizing radiation soulicB~: Radiatsionnaya genetika; sboilnik rabot. Otd. biol. nauk AN SSSR. IN00cow, Izd-vo AN SL;SR, 1962, 346-357 TEXT: The results are summarized of a com Iparative, cytogenetic itudy of the effect of different types of *radiation on diploid and at.(Pagopyrum esculentum,:,k. autotetraploid plants of common buckwhe moench), using dormant sceds~keptu-under identical room conditions or the same period. The higher oensitivity of.diploi'd forms-to both and x radiation was confirned, diploids showing depression'-of er.10 11cr of -ro'.."th af t radiation, and the autotetraploids after-, 30 kr. Cytological examination showed that the percentage of ab-,.,., errant cells in nonirradiated controls was equal (2.2%) in :both ~Card 1/2  S/747/62/000/000/024/025',,i rly~ v %,Olo.-,4cal proofs of ... D243/D307 -L brms and that this E;ituation was uilchang ged after irradiation. 'ds si IT e tra,,l oi aowed a.sm-aller.,percenuage; of aberrants after 0 5, 1 -Of' 5-0 ~-flid 10.0 hr of ~' radiation. This is discussed in relatio~~to 'Pilysiolo-rical protection.and.-uaG confirmed by.the authors' experi- ments re,;orted Jn, ~ter detail else,- erel(Biofizika, 196 0 , 59 h no. D56-569). The 4x forms uere shown to. be,twice as stable as Ith h4gh'speed e tr 2x forms to I _n a ons-. The effect. of r radiation and, sub sequent storagevas examned by storing the seeds for periods of 6 and 12 aonths after irradiation. After '6 months, the irradiated- seeds of 'both forms shov,,ed a rerrular, steej rise in the percentages.'.:_ of c1l-lromosorwa aberration. This was more marked in the 4x forms.. Both,-t-orms dossess mechanisms which interfere with the conversion of polential- into actual chromosome aberrations and these protec_~ tive mechanisms are particularly effective in tetrapl6id forms. There are 3 figures and 2 tables. JL6 jJC 1ATIO.DT. inutitut biolocricheskoy fiziki AN SSSR, Ploskva, .(In-:. :.stitute of Biological Physics, AS USSR, Mo'scow) Card, 2/2 4M      Q   M     F ACC NRt AP7003003 SOUR IGF, GODBI UH/0413/6Q-000-10-2~jo Kulibanov, Yu.,M.1 popovs S. A. j Ryabukhins 04 Vs; Sakharov,, V. V. ORG: none TITLE: A dovice for regulating the working regime of a marine diesel. Class 60 No.'-189689 Za-nnoun.cod by Leningrad Instituteof Waterway Transport (Leningradskiy institut Yodnogo transporta17 SOURCE: Izobroteniya, promyahlennyye obraztay,,tovarny7le znaki,, no. 24, ~1966) 1-U TOPIC TAGS-., diesel engine, marine engine ABSTRACT: Thia Authqr Gartiticate presonts a davica for regulating theworking.regime of a marine diesel when the ship is traveling in.narr.ow channela. The device contains agauge for measuring the rpm in relation to the channel depth. This gauge acts on the directing mechanism of the movable ort for the shaft of the fuel purp (see supp Fig. 1). To simplify the construction and to lower the operation cost,, centrifugal weights serve as the rpm gauge. These weights operate on a movablespring-loaded clutch connected bya mechanical tie-rod to:the distributing valves which motivatee the.dire'eting mechaniam. The directing mochaniBm may.constitute a hydraulic servomet Card 112 UDC: 621.436-545-74~-552     (Fish cutting)             TI L 27825 66 EWT(m)/EWP(t)A ACCZ NRlt AP6015681 .RESOURCE CODE:-'.-U~R/0413/~0/000/009/0078/0 -INVENTOR: -SakharoV, ye. S. ;'.'Frenke-l' P. G 6 Edeniskiy,'.V6 M.-  34IRNOV, Sergey Mikhaylovich, kand. tekhn. nauk, dots.; GRIVIN, Vladislav Volldemarovich; YELIN, Allbert Vasillyevich; R-4- I- lf~ -4 1         ACC NR AR70041~t r/V) SOURCE CODE: UR/0,l69/66/000/0l2/D0i6/D0l6 AUTHOR: Liberzou. K. Sh.; Sakharov, Yu. I. -TITLE: Transistorized magnetic inverter with frequency control in equipment for magnetic recording and multiplexing of seismic signals SOURCE: Ref. zh. Geofizika, Abs_ 12D102 REF SOURCE: Tr. Kuybyshevsk. n. -i. in-t neft. prom-sti, vyp. 310 1965J 232- 242 TOPIC TAGS: geophysic instrument, transistorized magnetic inverter, seismic., pros.pecting, recording, signal multiplexing, multiplex ABSTRACT: Transistorized magnetic inverters with frequency controlled by the magnetization of intermediate. transformers can be successfully used in equipm e; nt for the seismic logging surveys of wells as a frequency modulator for multiplexing the communication channel, as well as in an.atomatic and remote -control systems of petroleum equipment. Analytical, expre ssions for the basic characteristics of. -low-speed transistorized magnetic, inverters arepresented. Computational and experimental data are compared. A.. Lozinskaya. [Translation of abstract] [PW UB DE: S 09, 08/ Card UDC: 550. 834          SAKHAROVP ZqA..; MUCHAI IKOV, P.V.; GOYEV, I.I., otv.rod.; KECHRK ZYAN, (Stalingrad Province--Gas, Natural)     U v /1.13 P. -7 Ug -,v W KW9 U S. ter 7" 954 7 Ud I dm, 5m aim ~wjdbout d and Wjo--~iTbe~JoUdwlog deg obt* *'~'MesSCHiCH id. CH.- sw 613tioric iCH: CHI)s YCH4 :HCH:CHt d%McE vb6ijim dimek an CH.Cme., ...... MMOU A il~.i.", AjCR-CKMe&nd-.M6S lkt, Rtkfi: c1l, and a id Lk ITT, i A W;' "Ka a k [let: rail lClItICHS mmer, and' Mi lo6al jAynier; ,l Cut hard-610iles It Il Cffs)4 bmw di Pmm it' a   7 :~ . -.-- . - z~l - ~ - - - ,, -  WARI Xb Una i ca CA a- 7.~f z7, -3t -,t4, ~,cA  7~ "t And daWU=F, k ell er, to I eic lid POIYMef3 i t ti czfAr.. HI BUIRN .UCH2lorMH,%'l- ~Joolyrpien iier~ dbt-fomed ftm, tMesSiCH,'CMes, EM6SICK-bime a at I Ito. Prmum,-Weaffialftcil:*Cme, Ri;gl- (:CHS)Pk;, Cmem CJK* CHM7 (I Distin- :7-7    SOV/20,~126-4~,8/62 Polymerization of Vinylaromatic Organonilicon Compounds. The'Derilvatives of a-Methylstyrene Polymerization was carried out tinder an excess pressure of 6000, in the presence of initiators of the radical type: azo-isobutyric-acid-dinitryl (AM) and the tertiary butyl peroxide (TBP). A compa Irison of the polymerization results- with ADN and TBP beingpresent, showed that the polymer develops, morequickly in'the presence of ADN.(concentratiqn a U 0 .1 0.3 mol-lo at 80 ) than it does when TBP is used at 130 .,In- the first case the molecular weight of the polymers is higher (Table 1). The values of the viscosity characteristic of.the, ~a-methylstyrene.-polymer-and, silicium-substituted a-methyl- styrenes decrease in the transition from the polymer C 6H5C=CH 2 to the polymer (C 2H5)3S'C6114C=CH2 and to the other.,:- CH CH 3~ ~3 polymers (C H Si CH C and (C H )_SiCH C11 C6H C=CH 2 5~3 5~ 2 6H4C=CH2 2 5 3 2 2~ 41 2- 3 CHA The, thermome.c.hanical properties of the polymers change in~tbe.,, Card 2/3 same sequence (Fi~g 2).      37761 S/66 61/ooo/006/035/081 -102, UT--O-7ZS: Polyahova, 1-11 Korshak,:V V Sakharova, A. an A ----------------- Taiabovtseva, Ye. S. 'TITLE: Fol,,--erizati,on.of silico,-ole'Lines under pres.sure Jcheskoye primenenJ ye kre-mineorganiches- .101- iya i prakt- CD kikh soyedinenilr; trudy konferents-ii. nb..O': Doklady, d i s, I: U S S I I resheniye. II Vses konfer. -po 1-himi -J pralk-t -arim. kremneorg. Soyed. Len., 1958. Lenin-:,--rad, I--d-vo ~i)T SSSa, 1961, 163-172, r'j- T: -ol' -4c monomers The polymerization of more than 100 silic6 efin-L has been investigated by the authors ar-d:a series of. rules was es - -ablished. The polymerizations were carried out under 6000 a-".-m. uge) at 120 -1300C in the presence of tertiary butyl per (ga oxide. arallel exDeriments without pressure were.also performed. lkeny! U silanes with double bonds in ct-,, 13 r- and F--positions with res- -oect stigQ'd'. (X- - a 1 k o the Si atuom were inv( enylsilanes polymerize S oils. Using 1% mole of initiator the po ly-7 n. t: o colorless, viscou Card 1/4  S/661/61/000/000 6/035/031:~ Polymerization ol.-;;~ silico- D205/P302 merization. coefficient of triethyl vinyl silane equals 18. On intro_~~;' ducing substituents into the vinyl group.'Uhe.tendency to,-DolymeriIze decreases, depending on the structure and.nature of 'Uhe,subst(.itu-',:''' ents. Regarding the compounds as substituted ehtylenes it can be said that 1,1-disubstituted ethyleries are polymerized easier than u the 1,2-disubstituted. The introduction of a phenylic radical cre ates steric hindrance to polymerization. 8-alkyl'~silanes polymerize,.-. e than the corresponding 0~-compounds, forming low-molecular 6ils.:, Ss 0 pas- in order to verify the theory according to which the SIL atom sivates,the double bond in polymerization, the polymerizations of CCH=CH and (CH ) CCH CH=CH2 were run parallel to the . polymeri_-. - (CH 3)3 3 3 2 zation of the corresponding silico-olefines..It was f ound that thel: alkenes polymerize less readily than the sil-ico-ole'Lines, Contra- ry to the theory of the negative influence of.the trialkyl silyl... group on polymerization. Coraparing the polymerization of buta-diene or styrene silico-derIvIatives with that of their unsubst'-ituted an.a- lo-ues it. -vias-found that the silico-derivatives polymerize easier, as tv:as the case %,,.,ith olefines. Trialkyl silyl alkadienes.with tri- Card ~ 2/ 4  S/661/61/000/006/035/081 ?olymer4zazion olF D205/D3O2 a! kyl Substituents in the '11-positio7n polymerize wit_'aout Pressure, givi"- oil-like polymers. Polymerization under -oressure drives solid ;U products. p-Trialkylsilyl styrenes also poly'-!Ie_-~ize vilthout Dres sure, th.e. application lof pressure increasing the molecular weight, of the polymer. Copolymerization of o-trie-th y1 silyl styrene , w it h styreilc procceds, With Or Without pressure giving. a copolymer,wilth. 1 4 _.M1". rantio, 1 :2. Polyalkenyl silanes polymerize as a rule in-to, space networks which produce transparent solid olymers. R Si-: (C.~- P C(C,--,, )=CH is an exce tion~forming one-dimensional p9lymers. Z ~3 2)2 p Dne polymerization of monoalkenyl hydrosilanes of the R R'SiH type 2 where R CH C2H cl, OC H RI CH CH=CH OCH CH--CH C 3 5 2 5; 21 2 2 'H2 C till (CH )=CH was studied, using tertiary buty! peroxide and pla 3 2 ized carbon as.init-iators. Depending on the initiator, various polymers are formed. It was estab~Ashed by infrared spectra that the polymers formed using the tertiar butyl ;peroxide under pres-w- 01 Y sure (6000 atm.):pres-erve, the Si-H.bonds, in contrast to..those,for- ng the tendency towards polyme i Med on,platinized carbon. Compari. r Card 3/ 4  S/661/61/000/000' 6/035/081 Polymerization o.L, silico-... D20 /D302 5 zation. of analogous compounds.of Si, Ge and Sn~it was, established- that the polymerizationability Iof vinylic compounds, of ~the type R MCH=CH (where I.I=Si) Ge and Sn) decreases in the series CH 2 CHSJR > CH =CHGeR > CH =CHSnR X. A. Andrianov (Moscow), D. N. 3 2 3 ~2 3 Andre_Yev,(IKhS,AN I_IYSR, Leningrad), A. A. Zhdanov (INEOS AN SSSR, r Noscow), P. V.:.Dav,rdov (Hoscow, S. G. Durga 'yan (INXhS.AN SSSR,.: Moscow-) and A. I. Dintzes (1-10scow) took part- in the discussion %-.,hich follo,.,-,ed. Andrianov expressed the ooinfon that the conclu- sion of the aut'aors that -U'-,--e Si atom does not passivate the poly- merization. mechanisms, observed by the autliors, betvteen the pro- cesses at 6000 atm. and atmospheric ;jressure, were of the _~ Umost importance and mmy exDlain. the disagreements betaeen, thiu wo-rk and -hich Andrianov referred-. There earlier qbservad).ns zo w are 5 tables. ASSOCI~TTO": T-S ti-tut e 1 eme n t o orai c h e sk ik, h soyedineniy 1%.kademii c~ 12' 0 C 0j.., '_T,,0t--vUte of men,,ai Organic. nounds o I' I, A c z-.. d -6' Sciences USSIR, oo s C 01-1) Card 4/  d -777 _7 0/66/0,03/010 O-C B/06 -B10 1815 R s HOR a aro k Chernys ev 1 Pol ya k 4 h v- -"A Krasnovia'' 4"1 Kore 7f.~~t-,-Peti6 VITLE i stigdtfdn-~-, t h on,-,Of;,- organome :_'~Jnve into, e.",p o mer za -613 styrene: d6r PERIODICAL i Vvsokomtolek'ulyia-r-,nyye,:doy6din'eniy-a~9~ 1~,V-*" 6139 15'~:.---32 19 H 4 ere'R CE -:~'or~'CA ~Polymerization:*waa.ma e-o CH.6 f 0 21 6 7 IV t or:~_ 0 M Sig 6r'Ge wi h. __'wi oit sure - at:~ 60 C in- h~ Sn ence~.o -.azo pres pre - nitri e.-.'.'Resud-t~ isobutyric-di i reds 100, m onomer, hr m -6oo (CH3)jSnCfH,CH.CH-- 0' 6. 72 -505 ..2 ~ 6 0 8, ...ditto - : 0 9 7 a H Slic H Cilfoly 6 6 66 2 10 4 w"2' ~ 3 6 2 5 . - I o.- - d*tt 3 '(C H GeC NJ lob 2 2 5 3 _ 7 ditto 7 7 T 10 4 00 - ;41w,, (C- H ic. H C& ClH nqp ,ub le 6 4 2 5 -C d .ar 3 ditto7 j        I--- I - - ~9   S in 129-58-5-15/17 Bcientific-Tec'nnical CanfeTence on Metallography ahA~Hezit Treatment, YJ-,arlkov used. The operation of the gas cyaniding furnace is considerablymore convenient than that of.the liquid cementation bath. Also,gas cyaniainG has a higher productivity and is more economical. The surface layer -gas cyanid' has a higher wear.resistance ~produced by ing and has better anti-corrosion properties than that obtained by liquid cementation, A. V. Sakharova (Ball Bearing Works) reported.on a new --f - - high eed metti-oT o gas cyaniding of tools made of the SD steels,R18 and R9.. The -orese e of a liquid carburiser, ~vrhich evaporates at 520 to 5609CC and7in decomposing, forms gases,from which, during dissociation, active nitrogen and carbon separate out simplifies considerablyi,.'.- the processof gas cyaniding of tools. As such a carburiser an.organic substance of the aminoalcohol type was tested. The data of the experimental work and~of the Works' tests confirinea the possibility of obtaining a cyanided layer in current type equipment for -as ease Card hardeninjz, j in the ca--e of feeding of the liquid carburiser 4&/-20 - frora adrop dispenser into the retort o the furnace.  3Pq--58-5-15/17 -Scientific-Technical ConferenGe oz Metallography and Heat Treat-aent. Kharlhov The quality of the obtai ned hardened surface~layer satisfies the requirements tabe met by the ~ cyanided. layer as regards depth, micro-structure,and micro-hardness., Candidate of Technical Sciences V. A. Ull yanov (ICharl kov Motor Road Institute) reported on e-xperiiciental results and prospects of industrial aPplication of Cr-TI alloys. for cast components operatinG under conditions of -abrasive wear. Resolutions of the conference contained recommendations relatini-, to more extensive use of-high fre ency heaulDz qu of steel for heat treatment: introduction in-to:Practice of two-frequency hardening of gears; case hardening with direct (JI-I'llediate) hardening according to the experience of ZIL: high temperature. tempering ~annd also extensive introduction of,high temperature gas cyanidinp oil co-qDonents (KhTZ experience) and lov Oemperature gas c---anidin- of,tools (GPZ experience). Furthermore, bri --ht: temperinb- of steels: in el-kali baths hardening and brie Card- tw~ in accordance -i~.-ith the results obtained by the Mletals Technology Chair of KhPI should be e,-xtensive ly used,  w    m   ni  m  m