SCIENTIFIC ABSTRACT SHAGOV, N. P. - SHAIN, S. S.

3/193/60/900/005/009/012 A004/AOOJ~. AUTHORI, Shagov, N.P. TITIE: The Utilization of Plastics for the Protection of Pipeline3 From Corrcsion PERIODICAL: Byulleten' tekhniko-ekonomicheskoy informatsii, ig6o, No. 5, Pp. 67 - 70 TEXT: The author points out that L, U _underground Dipe lines.,, subjected to soil corrosion and to corrosion caused by stray currents, have hitherto been.pro- tee-"-.ed from corrosion by insulation coatings on the base of~-bitumen, Since these coat-'ngs have proved not dependable enough, preference is given to polymeric~coat- ings, p3ssessing resistance to aggressive media,.high electric resistivity,-and mechanical strength. The author cites some plastics and polyvinyl chloride coat- ings used in the USA, in England, West Germany and Italy, and points out that in 4. e Soviet Union scientific and experimental work is being 6arried'out in the ,h - i . field of using plastic materials as anti-corrosion coatings1for pipe 1'-nes, partioui-arly by the- Academy of Sciences of the Kazakh SSR and thelinstitut Khirrit AN Azerbaydzhanskoy SSR (Institute of Chemistry at the Academy of Sciences of Azerbaidzhan SSR). The Vsesoy,-,znyy nauchno-issledovatel'skiy institut po straitell - Card 1/  S/i93/16 0/000/tO 5/009/0 12 Ai)64/AOQJ The Utilization of Plastics for 'the Protection of Pipelines From Corrosion, stvu magistralt nykh trabo6rovodov (All-Union Scientific Re search Institute for the Construction of-Main Pipelines) (VNIIST) of Glavgaz USSR has studied the possibili- ties of using various plaEtiCS, e.g. plasticized polyvinyl chloride, terylene, pclyethylene etc. for the protective insulation of pipelines. DiSeptember 1959 the VNIIST together with the stroitellnoye upravieniye No. 9 tresta "Shchekingaz- st-r-ay" (Construction Administration No. 9 of the "Shchekingazstroy" Trust) carried out experimental work in the application of plastic insulation on Pipes 529 nun in diameter, a Dart of the Stavropol'-Moscow gas pipeline. The material used for in- sulation was a p-)Iyvinyl chloride adhesive tape of 3OOtL thickness,, made by the Novosibirsk�y Ithimicheskiy zavsd (Novosibirsk Chemical Plant) according to the -M -811-59 MU-M-811-59) technical specifications developed -in cooperation with VNIIISIT. The Plasticized product for the manufacture of the adhesive tape was made of the 1](6 .-1 (FF-I) and nCP-2 (PF-4) polyvinyl chloride resins. The pipes were taDed wit.h the aid of ' the k -2 (IMPL-2) ins-ulating machine. It was ~f ound expsr ~I-nentally that- the optimum ratio 3f widt th of tape to pipe diameter flUcAuates in the range of 0.65 to 0.85 diameter. Before the pipes were covered with the in- Eulation taDe, they were cleaned cn two OH i1 -1 (OML-1) C -238 (S 1"238) machines. The sea,-Md machine applied a special priming glue, a solution of _n8 (M18) and Ca-,-d 2/3  3/193 0 00/005/009/012 AoQ4 i The Utilization of Plastics for the Protection of.Pipelines From Corrosion (1-220 (P-20) polyisobutylene in aviation gasoline. Besides, the No. 88 glue. dis- solved in gasoline at a 1:1 ratio, was also used. The standard insulat ion was applied with a thickness of 0.26-0.28 mm, while the reinforced insulation- in thjs case the pipes were taped with two layers of polyvinyl chloride tape was 0.5-0.6 mm thick. In the first case the-overlapping of the tape amounted to 10-12 cm, in the latter case it was 9 - 15 cm, The operating speeds of the'IMPL-2 machines were 0.926 and 1.7 km/h respectively, which was found to be the optimum taping- speed. The pipelineewas laid by the T-1530 pipe-laying machine. 'The author points out that the results of these experimental operations were quite satisfactory but emphasizes that a special machine should be developed for the taping of pipelines with polymeric tapes. It is planned to carry out in the next future experimental work on the application of polyvinyl chloeide adhesive tape on main pipelines 720 mm in diameter. Thus 60 km of the Dashava-Minsk gas pipeline are going to be_in_~ sulated in this way. There are 2 figures, Card 3/3  -1 I ~ 1,  (Pipelines) (Insulating materials) 13j, 11 1 111 pmpi, . 1.11 : !I :  ..---.-,--.. I :-- - -- - -------- ------------------------- --- - - - . '.. ii I , .; 1- 1, , I I ~ I 11 lf; i! i-I "! _:,;i , ; .1 : 1! 1 !~ 1 11 : 1: ! : I I i - 111111 1 111 * 11 1 1 . . I I  ! I - i I I I 'll I I * 1 11 it I , , I I * k i- - - -- - -- - - - --- - --- - - ---- - - I "I ~~, , 7 ~ I PrMi-11 ~pl 11 0110ITM-11 7  :1 - .:~ I I ! I-. -. 1; ~~ t !~.. t ~  I I ~ -1 1 I 1 1614 "m jaiii.- --- -166 m .......... -.. - , 1 '66661.6' I.. " ~ ~, 1;1- !i .iF I' ili'llili '11111, P" ".-III ..  I ~ !!! ~ 1. ii., 1. . . r , , ljl~ 1. 1: lij ~ li ; . i 1. ! r;1 . , 1 1 . : 7 . I . I 11111: 11111 1-11 !i 1 1'. ! .. - 1''. : : " : f I ,  NY L~ V K 1; r ey fi, i  j, 1, -1' ~6 ~-(Oft -L 1,763 3 R/EPF(c)/Ewp j/Eyrr M 4~ N Ak AA6096MI R1 AP3006185.* O/W V~58T AUTHORS: Takubchik TITM2 thid siabilitjy of sme po3.v !!~Mds SOURCEt Zhurmal prikl&&W khWii:-Tqk A963s:. 1584-* 36 no* 7 TOPIC UGS: po4a3.de1Wdeq acetio ia tAcbl cracetl a aldWWdej-- WWde hexalWdrobenzoin aldel7de.1-1-raostabill v ABSTUM To stuo the poasilolq~ effoot 6f:the i~bbtituent in the monmer aldelwds on the themostabilityNof , polyaldebydee, the Authoril"; compai4d ithe behiyi of polymers of acetic., trichloracetic,, arid. hazOWdrobenzoic adeby4i it 100c;, 'P*3,ympr weight decrement on heating was used as the measure apthemostabi1tty with the results shown in the table, in the Enclosure, The bexavdr~abezzoic aldebyde po3,ymer was the most resistant to heat, !the amorph6ili,po r of ace wl 2 aldehyde... the least resistant., The cWatallineito4xers weii4ore, Mo bjA13 than the amorphous or lose higWy orystalline polymeraj, degro iiof stallini V1OW _'being more sienificant for thermostabilitiy..than moleculatr weight fthe end blyaldek7de brbak-down is due primarily to deformation. 6curripg at~,t of p h, t,Card 7- _7 7 L  1~ 177�3.;,~68 ~A Ccwkm NR3 AP3006185 . *in, the stability.,of.which ~-:,Orj .is, dstemi"'d* in part,tr..the subititufmito gi 4A. has: 3 figuress 1 table. t 4SSOCIATIM! None SUBUTTED: OlFeb62 259403 00, CH NO W SOVS 2J. V 14 c6m   ~ ~ 111*111] 1:1 "-;!1111.11;! llllfl!!~ RI'll 114 lilt -  L 34142m65 iti CCESSION WR: AT4049846 T ~ it s the;.a:'c' r _it:~bi ~d t :t at h 6tic iieWoresent d b th f i l b icarbonate i , _ n ne a a s exp ~, ,e. y. ' ~ the polymer a cbmp'ositio !6f:the.,po y de nd thus prevents the subtidquent.acid.. ~ merlp~ owever, this d ur n s fou onl u i rid y a stabilizing,effecti g epdlymerizat ' nJ from the end of the chain, the~equivalent~a s'16rme hodne of aceft' iiacidj _ li~" t or 1 the neutraliz e dium- ation of which all:_O* so :the' ~ bic'arbonate ~ad l Ppq t is used up. - The substitution of t~e*~e-m;liac l etal ,hyar ip~ oxy erm na groups~o w, cetaldehyde d' polymers by CH3COO - )- (C~R~) CO- An - (CH3) -Cc I 'I ' 6 5 3 CHii~,CR'O (wherel OH, CN and C "12 th i rea es , erma stabil C CH=CH 2) groups in _. s he- ~ :' ' y of., ers ~ considerably. lds.! t I ~ fo rmu Orig. art. has:-:3 tables, and! 4 ASSOCIATION:. tdan6v Lenin radskiy gos da*rstvennyy,,uniVersitet:i A- :M q) U 1 11 (L p_nt~ t;; .. ingrad state 1 university) D 2 TT 4.q "L 0 o0 , ; C SUB ?PCL 62 8J SUEMI : ' 0 un PIK", NO REF SOV: 001 . ~b~x T I-CeIrd 3/3 TT. 7' j ! - T If F  ; I . I , I i i : I I I I I , I I I z I I I ! t - ; . ! ; I , I , I q I . i - I - I I r . ! . ~. ! % : i  41915 'T. S/191/62/000/011/009/019 B101/B186 AUTHORS: Li, P. Z., Lukovenko, T. M., Yakubovich, E I., Shagova, E. A. Markovich, V. E. TITLED Determination of the linear expansion coefficient of glass plastics PERIODICA T 0 'U: Plasticheskiye massy, no.,11,.1962, 36-!!4 TEXT: The linear expansion coefficient a of a glass~:textolite from phenol formaldehyde re3in reinforced by 65-70% glass~fabric was determined in the -4emperature range 20-4000C. The resin combinations of 70a ~A-6 (ED-6) epoxy resin and 3(Y1- phenol formaldehyde-resin,, phenol formaldehyde resin with Dolyvinyl butyral 1:1, or of Dhdnol formaldehyde resin wit)a fur ural acetone resin 1:1, tested for comparison, showed.no essenti'al differences. The rela;ive elongation 61110 of glass textolites was not .found to be a linear function of temper ure. a for:30yo resin content 5-10 /0C), it ap roaches that of iron lies near the a for glass fiber p for 45-155% resin content, and that of aluminum for 78 resin content, whereas a for pure resin is 80.10`0/0c. Glass textolite *shaped in Card 1/2  s/igi/62/000/011/009/019 Determination of the linear ... B101/B186 vacuo and molded glass texiolite differ in that the 61/10~-versus-zempera- ture curve for the latter shows irregularities above.i060C, duelto after-hardening of the resin and loss oil volatile components (the loss in weight being greater than with vacuum-shaped textolite).. Therefore vacuum-shaped glass textolite offers higher heat resistance and mechanical strength. Glass textolite heated to 300 OC~and cooled in the exsiccator showed constant relative elongation owing to the elimination oil moisture. The bending strength of vacuum-shaped glass textolite:after heating to23000C rose by 15~/a to 2000 kg/cm2, at 3500C* by lp% to 1900 kg/cm . The bending strength decreased above 4000C. 'There are 6 figures and 3 tables. Card 2/2  . : I '' i 1 i : I' i ~, 1; 11 ~i .Vii,'r ,., , - T1 W : i . .~ P 1 1 1 1  . :j , , I 7, .: ; ; t~ --.-T  .. is - t 1'~! -- f : - I I I " I I -Ii,, .. I ,  ~ I . 1 11 -1 1 1. .. ,  . I "111 11 1 , 1. , , . . . - TH-717r-- Il TV im 7-TrIT11:001'Rill ~rl , ~1111   I I . . I lffltc!6.~.w. I . 11 if 1,!r, - ; , I I , - - . i I  ; III .... .. .... ~V I ~? , I J.,  I ! , ! -I - u Ii - :1 -1 -11 1 7 . ,.I I I ,~ 5111 ~ I II I ~ i .  MUNWRV"--~ I . 11 . ! 1111 1 P 11 1 1 . 1--, 1 . -~. k~ljj- - ;I ---- 7-7- , , , 'n", mit, , 1,  I- I ! ,.- ~w, 'if ~  A/ AUTHOR: Karamyan, G.A., Shagoyan, R.A., Engineers TITLE: Experience in the Manufacture of (Prefabricated) Concre.te Trough-type Canal Parts on the Sites c~L the!"Armvodstroylt Trust (Opyt izgotovleniya betonnykh lotkov-kanalov na poli- gonakh tresta "Armvcdstroy") PERIODICAL: Gidrotekhnika i iMelioratsiya, 1958, Nr 6, pp 21-27 (USSR) ABSTRACT: In accordance with the 6th Five-Year-~,lan, efforts are being made to complete the construction of the_Talin, Arzni-Shamiran and Kotayk irrigation systems. In 1957 in Po-operation with the Armenian Water Engineering and Reclamation Institute and the Institute of Designing "Armodproyekt", the "Armodstroy" Trust opened up construction sites for,,the manufacture of prefabricated troughs for irrigation,system's.7 The technology of the manufacture is described in detail (figure 6,7,6). The by a-portable vibrator mixing of concrete for troughs is done , 1-116. The manufactured troughs have'a diameter of 0.7 m, a length of 1.4 m and a width of 7.0 m. 4sts.'with regard t& their frost-resisting properties were successful. The following conclusions might be drawn from the experience gained: 1) prefa- Card 112 bricated troughs should be used for linings. of canals,in,order V F  99-58-6-3/11 Experience in the Manufacture of (Prefabricated) Concret( Trough-type Canal Parts on the Sites of the "Armvodstroy" Trust to reduce the number of seams; 2) the..use of.prefabricated troughs excludes theformation-of longitudinal seams. With vibration platforms and separate steaming chambers, it is possible to manufacture troughs, plates, markers, water. t roughs, water-discharge sluices and-;:other prefabricated goods on the sites. The.construction;lof metal forms for molding the troughs, as applied on the construction site of the Kotayk irrigation system, assures the, stable connection of the form to the vibration platform, the Ieasy mixing of the concrete in the form, and the extraction of the trough. Spe- cial markers are used for.butting the;troughs. They are manu- factured in forms similar to troughs,:~but have diametrical wall-like stopping devices. There are 6 photos and 7 figures. AVAILABLE: Library of Congress Card 212 1. Canals-Concrete-Prefabricated I !I.,;! 1p-: 1!!11~ ill 1!!c vi I I I I 1!~  .. . . . Ili. -M : Aw- j I I f" -m- 1 , 11  KAKAIISKIY, Grigoriy Nikolayevich (deacased]; TOLSTIKIIINA, Katillda Moiseyevna; TOLSTIKHIN. Nestor Ivanovich: MASIMOVICH, G.A., prof., retsenzent; SHAGOYA S,'A.K...-Prof., re:taenzent; OVCHINITIKOV, A.M.. prof.. nauchnry red.; FILMOVA, B.S.$ red.izd-va; GUROTA, O.A., tekhn.red. AHydrogeology of the U.S.S.R.] Gidrogeologiia SM. Koskva. Gos.nauchno-tekhn.izd-vo lit-ry po geol. i okhrane nedr. 1959. 365 P. (KIRA 13.2) Ofater, Underground)  -7fc-,l - ---- --l-l- .1 . -:i--A-!~ I ` I -. ~ - ~ I ~ ~;, l ~ . - il. ~ HI!1.111.11 , '. - : : . , , I I 'rimr, 1 i,i-r-- 1 -- - - ! ~ . , ; ; 1 , rf... -, 11 ~ . . 1- 1 i - I I rirr",  ! ;ill ~ i:) i i-..f r p! I. . . i ~ !1 1.1 -~ ~ -q 11-1 - ~ :!!. I 1 0;9; !.ifl . I ~ , . . 1~ I!, !'Hid, 1111,11 il;;, 'T P : . I  . Q : ~- . ;;r . ~ TTT-j -,,, -  I Ir -------  L 0 A'~ i AUTHOR- Shagoyants, S.A. 132-10'10/13 TITLE: About the Tasks to Be Carried Out by the North Caucasian Hydro- Geologic Government Station (0 zadachakh Sjei'Yej~d'-K*vka*skoy gosudarstvennoy gidrogeologicheskoy stantaii PERIODICAL: Razvedka i okhrana nedr, 195791 10P P 52-55 (USSR) ABSTRACT: The basic tg-wk of the North Caucasian Hydro-Geologic Station since its establishment in 1945 was to study the underground water conditions of the Terek-Kuma artesian basin, to establish the operational process and the efficient use of artibsian,wells, the,filtration coefficient of water bearing ptrata,.output cap Ia cities, radius of influence of drill holeaq and high capacity, filterless wells. Observations made since 1945 showed gr6at constancy of the water table of this basin,, with fluctuations amounting. to only 0.1 -.- 0.2'm. Introduction of tap operatIon of free flowing artesian wells was of great economic importance not only for the 1,000 wells of the TerekIrKuma b .as in, wher.e 1-2 % of the artesian water was used, ~Walso for other artesian basins of the USSR. Several problems pertaining to the,operat- ion of artesian wells have to be solved, such as the plugging Card 1/2 of filters by sand, the operation of filterless wells with high IT, TV  L't I . ! ~11 Mr-TH2i-- ~M v ~- 7111 - ~170~-Pfm   ii I II A 1 1; ZAYTSFV, G.N.; POGORELISKIY, N.S.; SMIUOV, A.A.; FOMIN, V.M.; STIAGOYANTS, S.A ...... ---- --- New data on carbonated underground water s in the region of Caucasian Mineral Waters. Sov. geol. 4 no.1:89-97 Ja 161. :(MIRA 14:1) 1. Ministerstvo geologii i okhrany necir SSSR,,Vsesoymnyy uauchno- iseledovatellskiy institut gidrogeologii i in:z:henern'oy geologii, Glavgeologiya RSFSR i Severo-Kavkazskoye geol:ogicheskoye upravleniye. (Caucasus--Mineral waters) Mao" SJU H! MIN p AR oil 4, kj;l  dl K=LTOV, Petr Platonovich; PYKHACHEV, Georgly Borisovich; T01STIY III, N.I., prof.9 retsenzentl SHAGOYAVTS, S.A., prof4, retsenzent; DA~ senzent; VIDOVICH, V.I., dots., retsenz nX-;-iSATVR7j K.G..~. dots.., ret NOVOZBILOV, V.N., dots., retsenzent; PAUKERf N.G,.. stalrsbi7 naueb. sotr., retsenzent; KRASILINIKOVA, N.P., ass., retsenzent; ABRAMOVA, S.K.y otv. red.: SIAVOROSCV, A.Kh., red. izd-va; ILIDISKAYA, G.M.', tekbn. red, [Dynamics of underground water] Dinamika podzem'nykh vod. Moskva, Gos.nauchno--tekhn.izd-vo lit-q7 po gornomu deluo 1961 514 P. jMIRk 14-~12) mter, Underground)  BOGOMOLOV, G.V.; VALEDINSKIY, V.I.; KOCHNEV, S.S.; MANIS, M.N.; PANTMYEVA, Ye.N.; POPOV, Ij.; SYROVATKIN, V.G.; YOMICHEV, M.M.1 BOGORODITSKIYY K.F.; DUKHANINA, V.I.;,KWINTSEVA, V.V.; MAKARENKO, F.A.; POKROVSKIY, V.A.; SILIN-4XKGHURIN, A.I.; FOMIN, V.M.; SHAGOYANTS, S.A. Illia Illich Kobosev; obituary. Trudy Lab.gidrogeol.probl._~ 42:101-102 162. (MIRA 15:8) (Kobosev, Illia Illich, l9b&1961)  - --~11 I ~ 'I I 111, 11, 11 -1.   J.-Yamiya-LShahun, M-1, slesaxi-aborshchik; SADOVbYAYA. V. [Sadouskaia, SHAW V-1, I-omsorg.; VOYTEKHOVSXIY, M.N.; [Voiteakhouski, N.M.]. uchitell (derevnya Y. Stseblevichi, Zhitkovitskogo rayons); BILIDZYUKBVICH, E.; KRYYOSHEYENKO, Fetr [Kryvasheenka, P.], elektro"moater; SHARMV, Anatol$ [Sharaieu, A.] (derevnya Tudorovo, Shklovskogo rayons); ABRAMERKO, Valentina [Abramenka, V.1, uchitell;: FRO1,07. Grigoriy [Fralou, Ryhor] (g.Krichev) Let's talk about happiness. Rab.i stal. 36 no.10:18-11) 0 160. (KIA& 13:10) 1. Zavod bytovykh priborov, Grodno (f or Shagun). 2.: Fastrika -IKIX.O g. Vitebsk (for Sadovskaya). 3. Yasilevlchskaj~a dor~6zbjiaya remm'tn0- ekspluatatsionnaya stantelya (for Krivosheyono)., 4._ Borovichakaya arednyaya shkola Forechnenskogo rayons, Gomel'skoy oblasti (for Abramenko). (women-Emnloyment) I - H- !7.1~  .. I~ 111, !1 11 .1!!: 1 1~1 1;1! p jl~:. !1 11-11 jtj!,:p!; v . I. . I 111 111,11 lim, c'.1, ~ , ~: 1 .1   I VIM- N III Ifill 1111111P.- ftwqlfil&;&U~~ :--Pr- !, Mr 7~~= ' ` i rJ"! 1 1 ; " ! I 'T' wr TIP - I . '! 1, 11 .1 " " Fli I R FF,~  I I I I I I , , . , ,; i - ! 1 -, I .I I . : I F, r, I z1. ; . i : . t:, i . , , 1 i : 1 1 ! I I I! 11   : . m 1 1 ~17 1, 1tv- I A V " *, 11! ; : I ...- -1.14; 1 i I - I I I . i I ; I I ll!l 111 !1 p - !, : ;-. ! 11 : - I , - , L . . I  USSR General Problems of Pathology, Immunity. U Abs Jour -qef. Zhur B-Lologlya, No. 3, 1959, 13421. ;lu4- hrr . U Gostev,V.S. ShagunOva, N- A. Inot TiLle The Quantitative Reaction of Specific Bonding .%,hich Were of Nitrogen by Protein Antl-Gens. Sorbed on Dermatol and Paper. 0 i, Byul. ek~,~-oerim. biol. i med., 1957, 44, No. 10, 121-125 U antitE alysis of the serolog-. A -s rti c t Uethods of qu. ,tive an, ical interaction of sorbed antigens (A) were. developed. Protein A (glo-Ouline of human carci- nomatose Useue, serum, etc.),-adsorbed on derma- tol or paper, by contact with- corresDonding antiserums bind a considerable'amoun~ of -orotein. For determination of the amount of s0ecifically Card 1/ 3 Problenis of ZP,_-tholo~~. Imi,,Iunlty. Abs Jour Ref. Zhur BloloGiya, jjo. 3, 1959, 13421 Dound proteins (antibodies), it is nacessary~~O subtract N from the total - f,protein UINT, U increase o ahichl by contact with adsorbed;A, joins with norinal Eerum. Technica-Ily the most difficult is 101 A. I;' the reaction with dermau lore- convenient is the preparation of -4, !which are fixed on palper after their preliminary corifoination wilu-h bI_S_: liasobenzidine or dif)n-isidine in azo, dyes. How- evcr, with this, the --protein denaturizes to a certain degree. -7,11-is may bewolded. by its f1i X_ ation on paper by means of its .113aturation with a solution of Protain -Il'l, dr.,~,rlngp rinsing and again drying. "Paper" A preserve,,serologic activity for n duration o~ several months. De- termination of Droteln of the antisera, specl- Card 2/3 2 US,C:R !_Icneral Problems of Immunity. U Jour -3ef. Z'Iaur Biolo6(-Va, No. 3, 1959, 13421 fically bound by "paper" A, &,ll 'ows characteri- zing quantitatively tho degree of im:oLinoloGic affinity in the systord of an A-antiboaey. ve D. Nikitina Card -3/3 SIIAGUNOVA, N-1. percent titer complement fixation reaction with Drotein anti- gens absorbed on -oaDer and its applicRtion in the absorption of anticancer sera (with s,mmsry in 3nglishl. Biul.ekspa,biol. i med 45 no.3:1?2-127 KrI58 (KRA 11:5) 1. Iz laboratorii immunokhimli (zave prof. V.S.:Gostev) Instituta eksporimentallnoy biologii (dir. _ prof. I.N.' Kayskiy) AMN SSSRS Mt)gkvn. PredstVAIenn deyntvitall-sym chlenomIMN SSM U.N. Zhu kovym- Verezhnikovym. MOPLASMS, immunology anti-cancer immune sera, complement f.ix,)tion reaction with (Rus)) (COMPLEMIT, fixation, use in an lication of.ranti-cancer imaune sera (Rus)) -F 7 7 r, TH =7 1~~ 1: 4.  I I 111 fil SRkGU]rO'I-k, N.A.; GRIGORIYAN, D.G. Determining the serological activity of desoxyribonucleoproteins of gas- tric cancer tissues in man by sorption on cotton fabric. Biul. eksp.-biol, i med. 46 no.11:84-87 N '58. ~(MIRA 12:1) 1. Iz laboratorii immunokhimii (zav. - prof. V'S. GoBtev) Instituta eksper- imentallnoy biologil (dir. - prof. 1.N. MayBk~) ANN zSSS.R, Moskya. Pred- stavlena deystvitellnym chlenom AMN SSSR N.N. Zlmkovym-Verezhnikovym* (NUCL30PROTEDIS, determ. desoxyribonucleoproteins. determ., of serol. activity in stomach cancer by sorption on cotton fabric (Rus)), (STOM&CH NNOPWM, immunol,, serol. activity of desoxyribonueloproteins, determ..by cottoa fabric sorption (Rua))    CPU ~fll-ll : ji!,t!j vg!! " I ~ 1 11 , I f I :! -'l , ; :~i  NR-"'AP30033b7 ACC)ESSION . . UBMTTED: 190ot62 Nc 01, :' 00,.:- SUB COD REF~ SOV: 004 .OTHER: - ' Al A- Card  1 i1 1 , I -: ; ~ 11 1:11 j! ~ JHI -li 1, : 1 , 1 t i 11 ., I . Pj 1, ':  p I q D/00'37004i/0052 at kxn uctd* l p , . ~6~e iii Wie are !Ij we r~ a ~j 0, e vi~r ation du 6 It arles:. Thi' viiiiI !I efits'& t e = ~ ad:' tThe- eff 0U-   ors~jj. twas f oi a stat 'Owo" i e g~ln i w r Y, tempdkatdr  , ' blgA -b Warl o ps P : L de r , e e ir ency f," T~-. o I di I 9 w. % t i figures i, a .~ 7 ESS  1j; 11 40 L 024o,,-67 E-W (1) GD r-AMINRt AT602232); SOURCE CODE: UR/0000/66/ooo/ooo/0009/0014 AUTHOR: Vaganov, V. I.- ~,juz nin V A-- Per shenkov,. V, S.; Shagurin, I ORG: None TITLE: Possibilities for using ~LiZLIRLor. _I in low-voltage P~se.circuits SOURCE: Vsesoyuznaya nauchnaya. sessiya, posvyashchennaya Dnyu radio. 22d, i 1966. Sekts-iya mikroelektroniki. Doklady. Moscow, iq(6. 9~14 TOPIC TAGS: thyratron, scm1conductor-de-,rice, pulse generator, flip llop.circuit, microelectric circuit ABSTRACT: The authors consider the Dronerties of th~ +IW~ristor', a samic6nductor device with S-shaped voltage-.current characteristics, and discuss the possi-1- bilibies for using these devices in low-voltage wicroelectrojiLc puls,~ circuits. A theore~icakl and experimental analysis of the-equivalent circuit; for tile thyristor ohows that the,output reactz:Lnce of the device~is afrequeney dependent nonlinear inductance, Flip-flop circuits based on serles-parall-el connectiorl of dynistors and diodes are discussed, These circai inate the dis~,_d-~,an- tages inhererit;, in a simple dynistor flip-flop, 1. c. a consia,crable increase,in the input impedalice of the cit-cuit when the dynistor is open, and are al3o con- siderably simpler than transistorized flip-flops, albilorgh they have fewer logi- Card 1/2 ACC ~Wt AT00223',91 cal possibilities and aye ;0:,~ subJect to considerable disadvantages associated with the complexity of mXtelling. A detailed analysis of the,simplest trinistor flip-flop (a trinistor in series with a resist;o.r) shows 'that it" is corisiderably have -the dis- simpler than the corresponding transistorized circuit and does not advantages shown by dynistor flip-flops3 but still has fewer logical possibili- ties than circuits with transistors. Two flip-flop circuits based on series- show ~appreciable advantages parallel combination of trinistors and transistors I over simple transistor circuits. An analysis of the possibilities for us ng trinistors in functional logic circuits shows -that they. have -the advantage of forming the front for the output signal independently of thexise time of the input signal, although the greater complexity of trinistor circuits.makes them less promising than transistorized logic elements at the present time- Saw- tooth generators based on trinistors =q extremely simple and give a nonlinearity 'istcr of less than 1% in the output voltage. ki experimental.'inve6tigation oftetr flip-flops shows that 'the dynamic properties of these circuits are completely de-. termined by tetristor parameters and,are nearly independent of Iother circuit.pro- perties. A method is proposed for direct matching of fliP-flops based_.On thy- ristors. Analysis ofexperimental da:ta shows that the most promising:fi,elds'for: high-power use of thyristors in microelectronic circuits are storage dev;ices, its. The thyristor with best prospects for pulse shapers and oscillator circu 'definite development is the tetristor and thyristor-transistor combinations have possibilities. UB CODE- oq/ SUBM DATE: 05Apr66  LOMACHENKOV9 S.Ye~y inzh.; CAJTM, B.G.p kano. teklm. no*) K A Otv red.; ACHKINADZE, Sb.D. , inzh., red. P Jj&SIAVSUr, G.M., tekbn. red. [Portable electric spark systems; vork of the Research Branch, of-the State Planning institute of the Ministry of.Transportation Machinery Manufacture] Perenoarye elektroisla~ovye ustanovki; opyt raboty NIF GFI KrM. L661~9 1952p ;11 p.,,(Informatsionuo- tekhaichoskii listok, no.23(361+)) (MM 14.'7): 1. Leningradskiy dom nauchno-tekhnicbeskoy propagandy.-Z. Glavrqy inzhener Leningradskoko doma nauchno-tekbnicheskoy propagandy (for Shagurin) (Metals-Hardening) (Electric apparatus and appliances)   SHAMARIN, A.M.j inzh.; SHAGURINg K,A,, otvaed,; VERZHBINSMA, I.I., inzh., red.; FUGSR;-D-,F-,#-Ukhn,red. Ema=facturing hard-alloy end mill witla -acrev tipall-Opyt isgotarle, niia tverdoopl&mWkh kontsevvkh fres a vintovymi plastinkazi, lanin- grads, 1954. 9 P. (Informatsionno-tekhnicheskii 3iatokv no.30 (603)). 1. laningradakiy Doim nauchno-takhrLicheakoy proppigandy.. 2* GlaviVy inzh.Loningradskogo Doma nauchno-tekhnicheskoy~propaga=V (for Shagurin). 3* Leningradakiy Dom nauchno-tekhnichoskay propagandy (for Verabbinaka7a). (Ketal-cutting tools)  :; : ~, ~ I ~ J~ 1; j I %I V I- '-'- z : d ~ L I I I ~ a '. ~~! 1, -.- ".." -. , ,... ..!. .. ----j -.r- - i i1 I 'I . i , i Ill, 1. i Y I I A - I i ; F 1111fili:lki ifl;IF :~ : I ! ': I I I] ~' 1,  MIRLIN, David Naumovich; 1OFFE, A.F., akndemik, red.; SOMINSKIT, M.S., kand.fiz.-mat.nauk, red.; MASLAK07ETS, Yii.P., doktor fiz.-mat. nauk, red.; SMOLENSKIT, G.A., doktor fiz.-mat.nauk, red.; SHALYT, S.S., doktor fiz.-mat.nauk, red.; R3GEL, A.R., kand.fiz.-mat. nauk, red.; SUBASHIYICV, V.K., kand.fiz.-mat.nauk-, red;; SHA'O K.A-, lnzh., red.; ACHKINADZE, Sh.D., inzh., red.; FREGER, D. tekhn.red. [Semiconductor bolometers] Poluprovodnikovye bolometry. Leningrad. Leningr.dom nauchno-tekhn.propagandv. 1957. 36 p.. (Poiuprovodniki, no.4) (MIRA 10:12) (Bolometer)   1 ; ; . 1 1 . ; I - , f -~ , -~ ~.U ". ~! ~ z .. .: ~ ~- 1 -.1 1 1 , 11 .. 111 1 '. . ~ I' , . :; 1- I'll 1, ; .,9 TT, : I; ", : I : V . I ; , !: 1: M, .1 i'l ~, ! 1 11 LU . I ~ ~; 3. ~-TITF .1 - r1l, . . . .1 : 'I- , I : ! i : : " r, , .  ; . . .- . -11 1 L614mimm.6m. m  I -~: .. - .1. - z . , , -, a'- -- I ME . I i1 .1 ! 1 ! ~ I ~1;Au -1 ~~ !I.:, I I ~ :11, li' 'I Ili 11. 1 IIHI I '11-rii~ 1,1011'. [TJ i~ I I I. z i . ; 7 ! iti- -It: ..11.-:I,   P 1"  - I . I i I '1l 11 1 11 !) - 11 , " 1, I'l - V V! - .; t ri -1  SOKINSKIY, Monas Samuilovich, kand. fiz.-mat. nauk; IOFPB, A.F., akademik, glavnyy red.; MASIAKOVBTS, . Yu. P., doktor fiz.-mt. nauk, red.; SMOMSKIYI G.A., dok-tor fiz.-mat. nauk, red.;~SULTT, S.S., doktor fiz.-mat. nauk, red.; RWjILI, A.P., kand. fiz.-sat.,nauk, red.; SUBASHIYEV, V.Ko, kand. fiz.-mat, nailk, red.; SHAMIN. K.A. luzh.i red.; ACHKIXUXZB, Sh.D. i=h., red., *"-'t'qkhnO red, [Photoresistors] Fotosoprotivioniia. Ieningrad,' Ieuingr. don na=hno- takhn. propagandy, 1957. 54 p. (Poluprovodniki, no.6).(MIRA 11:9) (Photoelectric cells)'' I'' 'I HIW 1:111,11   M~ -,I Ak-bhomtioai P, eV:I Ows ~~-Feb& 1954 A341 find Slnzh~ S. K. Borel's theoreni on and exc-eph.)nal values of entire and meroniorpWc fjtdn~ tiona, Math. Z. 59,,,88--93 (1953). Let J(s) be an e ti fun ti ~n *of finite order n re C 0 :e exceptionai ue if number a is, a Borel I val log+ IS (r, a) log log k(r) lim sup