SCIENTIFIC ABSTRACT SLONIM, E.YA. - SLONIMSKAYA, I.A.

-- - ---- ---- - --- ---- f --- - --- - -- ---- - - ------- (E@ I w -2.4 J- 1\  R% 6, e Z... skolvl4ol 6 *A ) el 6 Vo4  SLOIII M, E. Ya. Use of concreting trestles in constructing the Bratsk Hydroelectric Power Station. Mat.po stall.konst. no-5:137-156 159. (HIM 13:8) (Bratsk Hydroelectric Power Station) (concrete construction-Bquipment and supplies)  SLOTIT1.,I, B.ya. Using electronic calculating machires to work out bWge dcaij.;ns. Transp. stroi. 11 no.808-40@Ag 161. (IMA 14:9) 1. Glavnyy konstruktor Otdela mcistov Gosudarstvennogo proyektnogo instituta Proyekt$tallkonstruktoi7s. (Bridges-Design) (Electronic calculating machines)  SLONIH,, E.Ya., inzh. Suspended crossing with latticed cable-suspended girders on the Bukhara - Ural Mountain Region gas pipeline. Stroi. truboprov. 7 no.10:5-7 0 162. WRA 15:11) 1. Gosudarstvennyy institut po provektirovaniyu,, isaledoveatp i ispytaniyu st4lLllnykh konstruktaiy mostov, Moskva. (Gas, Natural-Pipellnes)  I: IT 1 111. @ laclate-J -1-r--phogranulomatos"s of the stomach and the small intesLines. irkh. pat. 27 no.3:F:--82 'C'5. ( M I RA 18 1. Kafedra patologicheskoy anatomli (zav. - chlen-korrespcndent AM SSSR prof. A.I. Strukov) i kafedra gospitallnoy terapil (zav. - deystvetellnyy chlen AM SSSIR prof. A.L. Myasnikov) I Monkovskogo ordena lpnlna meditsinskogo Instituta. imeni Sechenova.  @119ac NOtW tolubility 0! plAylm* I. PhnW. III of rubtrtj@f ddtork h W am g c COMPWtift. ti. P- KII'M'SrAxt awl YU. Khf4s., 100, 30,781-Mir-"M work wAq morto I uuL. iin nitturni ruljtKir, HKIJ (bouplivne), 61(4410 and H".10 (but4dkw. atyrono). WA SXN-18 (bul4WW.8 Wylcallrilo) ntlAber. Itis!ktadthttaidoadofrubb other afzw;rph(ju* polymers) may ba regard(A m mutual Molution of two liquid phooca, oubject t.0 th,)rmDd)marr)1u laws. Tho MondA studiod Wl into two groups 4ceord41g to the charsew of dependeam of the nwehAn"I propart" upon, 'h. mtio- of the that tho nuoinalion otmerved in tim prorwrt" of tho bln-kdd basod on SKS-30 null SKB is govetood by the snir@rregutmrity of the two-phow structure of such vulcAnLwd robbers. It in ahown that tho T propwt* of the bloodis am determined maLnly by ' w f the behaviour of Via unvdlaalivA rubbm them. solvee, and not bi Cho M404 i"knt& The vompatibility of two p6lyr6eiio@xnuab be regarded frorn @wo angles. The inacroscopla compatibility may be athleved practically at all tinwo, pro =" id only that the polyrnar may b6 put into state. Compatibility in mlero-regkms. is. the  WN T-@ mutual M)Iubillty or the polynwrm. Is &tOriplood by their thfirinedyntunie projw,livA "il may kiot coinridc with tht- it,pero-cufolk -! ibiltly. Tht- r@ivwtl --for- ilia-divGrgulwa, bility IA the chain jitrattum of tho nvolu. cules, ard tho rrltfvd high vlm..@ity vf & I'Llymers with high inobility of mnikll puirllon@ of th- fl,@xihlfs  SLONIM, I.I. Nuclear magnetic resonance in high polymers. Analele chimie 18 no,l: 29-81 Ja-Mr 163. -  -URU'IHIIIIN. 'I'. -, SLONIH. 1. 0 A@ (Across the lakes of our countryj Po ozeram mahel rodiny. Moskva, Opo. Azd-vo dettakoi lit-ry Hinisterntva prosveshchenila RSM. 1952. 104 p. (KIRA 7:7) (Lakes) (Physical geogra:?hy)  SLONIM. I.Ya. " @:.@ @ Origin of the names of the cities Demidov, Tutayev and Chekallu. 1xv. Veen. Geog. ob-va 89 no.2:149-150 Mr-Ap '57. (KUkA 10:6) (Names. Geographical)  So Vecr---r---,--- . @, t-, - @ -)Z@ %@ Sum 71  CA9 N I to 4 41 dw difulgim "odkima at V. clomossawl and I A. Nowsu. J*jp*A=qd,' No&& J.J.S,11 so, -f pArvurt a"- late l"I's Arm'.1, jowl Vir P%Rf. , 4 a be pmtodvfj@ .# #. food" "moo . ***wogp Is.-Vit sborp .6mrAw look. (FA 17, MW a, ). tbft im- riftimiall 014b Owth" fbi" Imp. T=O, 1. Itwhip. r1m, some plivotontomm weii www"d W146 " In M11 Itula. of M*), 1"ATOOP) mvrW* I" Cjl.aud P-14yviallsor, let 11,40. P.m l1w toilet 4914fol, 1011#01 11mr. W& 1"06.01 01.461 76'. 1%rol.116 too w1w of olumat Woo'. No "lim. is 44..Ivl fim pooll bw@jlpggw In isavlaw. '11to Ill 1) cwvw with. Mon. , " ,by a idaswu not". ww , V- 4 City. k do Ommimmig ORk 4AMI. This "Oly Oub- W lbr mall, of. of 161WAS, aposso Willis i mien cutitc. as work drtm. we 16 dttijiftifOld 40 fboolog 09 f940 jOn 44 lift&% in diff PlftPWf , k4low. ll- be 4,04AL Ow'"r .4 lb. miw ad& I.) The l4ruip. 016.0 th sbw I-Ir"We i .&, obwevaLk login. IN Ike am --I witimalluillr1w "It tftpwAb to Its Wor wilrilkwomm imp. (-#4*). 01*7 pam" wxvbm*ww ad vitiWadam Aidvmvd by Kwgk aW Momk=W (CA - 46. WOO. now door to isolowwsion bttwmu wSommu of 41111luml mob.. the allies, to fma in- mour ad time r4mirtim r4oidity cd The cbAi-m. The 2ad mftii- anum istwWrallywevabral in vinyl Imlymm. N.Tbm  The ambedw wow of Peewee (ndeadw wow Mod floir =415! T4, =b0=1"la. MOWN (jai. MS. Chm . .". W. U.SALK.. A&L Xsub S.S.S.L. Owd. Kum. X04 IM Re- ID - Press amme d die v6mo*j awl al 41ha dMhW= c=d. D of bal. &,d On, Wommin In a bAW of Noa 10, a &/L M&O. On mod. we. JW - 3-0) -Wdml op. Val. 44 dw md- Wv(W6W V - p K4. ask ratio bid W d @ "r va) Sao a".. for acUee 41:1, am mma AM a plafrill filon tim . ti;f1fawb/. . AWS oee. Its. i.e. tbr mools. We Very morbodly dompoled. Doopke dw -Y erval dif- Ul tille 10101. Wt&. Me FrWbKt* 49 P@6@Y ININIVOlYlis K.Ir T"Y , Mal. *u.. Af - ..%0 MA 9W. reap.; th.- "Oft IMF the products am 3.2 mod 4.0. rwip- the prmfucts 60 meaek-W. X. lum  00000*00000000 000" 10*040000000000 so, *11 11 pa IS I I I I I - 1 11 11 !; 11 14 0 @ Is Zi LON I A, I Yc- :: ,, ____ 1. so a 00 Role of D60164"m sV( 00 (in V ChIMIlln .41141 1. YA. Sis"31111. Calwilil Kht"al i Prenc- MAr.-Alsor. 11MA), P. 112- M ,%xlrwn mml.ml. ftw dw al.v%r mf 4 L-mfii@ 00 11.4-111 M-PF411139 fil thf- %tflKlUfC (Of 11- IIN1194 M %flu If MO Istrim-mi, (it Minim 1A.-Oi plat r. 5! ref so J oo -1 00 a 4$0 it A bllAtlUP(,ksL Ullit"Lall Ci4lSwicalpow zrz= u 31 .0- is a Kw a )!.Asafit is #49 w a JWWJA 4 3 0 IF ol 0 0 0 0 0 0 IS 0 d *0000 0094 0 0 0 0 * 0 : : :.: 00 so 0 dlkdb 0 0  Io bwtdm w M@ pobmn. 1. N"Mmwm w 4w- sudwo". a. V. Cbmwww sod 1. Va. am". Mut. Pa. xhim. 26. Is" IM).-Am dmmih-d for dwhoin --w6,u -,,b-=p6"= - 10 ollmawn 4doers"I onekdmtodwvam- fkains. TfA dMkdo wN pumft said kalw": dif. F in m dws I* & x 10-4 @ be nowww t- emp. UP p tbw ad so"., -ed -4 Wob A of thb bw hod@ to a mmigoOke w *0 odo d D 0 obbiew bF - hoob 16mrs D, w M(l + 460/2DO), wbm I is tha time. it & is am. at si @-. we dm W.-.7 ow rtims wkbb 2% ubm D 10-1 sq. co./mc. is skon M. bw a ;-Z eW. A pormly sm- smt7@mm" d somiog dw emplL dm is prop@: so - c -10 atft w pbo"lly is I , LUND -000 Is mi- kw assawt  d M-W r a do Zh-- Fo- 6 4116i-W" OW Np C-A - 4 - We. 'p. of viovi ,jjW yug. fa.). the dWv�i 2).nd"O". Tboo"OM wwrj@ lot Of at bylbomMm =(1)-_ Itedled were paympf"30-01 pajy'jort mcwtowl mcclats. 11 =.i,.Ip at babe"". An ;i 940P rt.ftot-, , tmk 1b. ch.. .1 . tium it yp" rm*t For 1 1.0. J.D. 0 M. aA. rear. T ().9, Ij x lu-194-cm./mc. at M. 33. 43. 41. 4%. 7V 11011- The dam at b" to". art ItI40AMAk MAW brat4n*tmow. -Weellim, o- W we TM A.-W tms mvwv&k. Mimilma we am obmvA for the 416W ekbough smut we Irlm mwbsd. This asomak- 0 iscontrwy to Itimstaim's low WA Is"PhAmod by a dumv of state of do Wink. of mifille. peonwriamahme 6 Wk,&d. mgpvptim k; iosplifolik. A cbmW ad AW of 'Aq ftftv fad"d l1w, temp at whirb p the loob. "go. In. is rkw I The su- binalb. for vork pal, - umrs low pootm,"ift ad bia-hr- brutel, tort .a od j ... U. k, W. w Mwft &gem the Wirntifivalkas of PnIvnwr abi" tranatersalmas with = .4 it. Aq kind. Ike ft ANG-40 1. 0 Md. propffly lsuam silk OW ajq.%mnc* of b the! P.Aryvmf Chain. . -.Lf. ..  68316 24.32-0o 14U MOR Slonim. I.Ya. TIT LE t Deteraination of Particle Size from 3cattering of Ught I. Formulae trid !1mirimm; for GaIctil,tion of Pirtiel') Radius from the Optical bem;;Ity aal fr(j;i Intomity ol' je,.tttered Light. F.IA I OD I ,'AL 01-tika 1 1960, iol 8, ':r 1, pp 98-108 (,jbwill y of Lcit@orit16 of 1I.,-ht (iof 1, Is usod to @qjaca 6@GT. @;hifrlnls tlicor, TI If foriaulao uiyi to -omitruct nomo,^raum. (Figs 2-5)' -jhich can ba uasyl, to determin,,Yd ;)-.r-I-.ICI0 sizo 1- rli@4,3r;,-z) jystrP,.iz In vhich olactricqI propertil)s of tha pArticl,%i differ Only u lithlo from the corr,3;IonaInj, propertioz of 1-11,1@; ...'s3diwn. Thi @apar I!i ontirely th3oratical . ThOrO :ire 5 f i 6-ur -3j , I t,--.@ 1,3 an-! 1 .3 rof evoncos , 5 of whi ch v ro j jvljt. 5 I;niSlish, I Gormar tmc! 2 tr,@n6lationt; friv, :'usrian into 1. Sn 'oril 28, 195@1  68890 119_1@ 3900 S/051/60/008/02/017/036 ME2 AUTHORS: I.Y dIman @N. fin/dENfinova, Z.M. TITLE: Determination o' Particle Size from Scattering of Light II. Determinat in of Dimensions of Polychloroprene L-fex Using Optical and Electron Microscopic Methods PERIODICAL: Optika i spektroskopiya, 1960, Vol 8, Nr 2, pp 243 - 246 (USSR) ABSTRACT: In Part I (Ref 1) SlonIn deduced formulae for calculation of particle radii from the results of light xcattering In a monodisperse system (all particles are of the same size). If these formulae are plotted to a polydisperse system (particles of different sizes) a certain effective mean value of the radius (a) is obtained; It representt, a mono-disperse system scattering the light i1L the same way as the polydisperse system under investigation. Two forms of the mean radius are employed: a mean-number radius a and a meanxight radius a. n a3 I an 00 Cardl/6 @Zx) 11@  68890 S/051/6o/oO8/02/017/036 Deteri.@-L-,@tion of Particle Size from Scatf'014232i Light II. eri g Detertratiation of Dimensions of Polychloroprene Latex Using Optical and Elt:(;'Lron Microscopic Methods and Z -j a6 -1/3 aW - (2) a3 :L I where -%)I is a number of particles with a radius a i For particles Whose dimensions are small compared with the wavelength of icattered light, the Rayleigh equation holds and measurements of scattering of light yield the value aw 0 If the particle dimensions exceed 0.1 X the mean particle radius, found from measurements of the optical density (turbidity), is given by:  68890 S/051/6o/008/02/017/036 Determination of Particle Size from ScIalivel4ri-allof Light II. Determination of Dimensions of Polychloroprene Latex Using Optical and Electron Microscopic Methods (Z-V any _@.3n9 (10) a 13 ai The mean particle radius found from tDe intensity of scattering of light at an angle of 45 is: ny FEN) aN a 1 13 IE-j iai Card 3/6  68890 S/051/6o/oo8/02/017/036 11221/Eigl Determ-Liiation of Particle Size from Sea er 9 of Light II. Determiiiation of Dimensions of Polyc hloroprene Latex Using Optical and C.1--r-an Mlevoecopic Methods For small particles n1P = n*P =.3 and Eqs (10) and (11) become identical with Eq (2) (az= aI = aw For large particles ny and ny are both less than 3 To calculate them we can use the expressions: lip Acig Y(Z)] (12) Ig Z and V (z)) (13) A I g 95 The values of n(P and N decrease with increase of z (z = 8tra/%) for example, when z = 2 , n = 2.81 Cardli/t; 1P 4/  68890 S/051/6o/oo8/02/017/036 E201/E391 Determination of Particle Size from Scattering of Light II. DetermInation of Dimensions of Polychloroprene Latex Using Optical and Electron Microscopic Methods and n. = 2.95 and when z = 8 , n4) = 1.53 and 2*04. Throughout the range _z = 2-8, n,, N n.. The formulae quoted above were used to measure the dimensions of globules of polychoroprene latex. To measure scattering of light the latex (with dry residue of 43-5%) was diluted and a 10,10 solution of ammonia was added to avoid coagulation. Optical density was measured for dilutions from 1:3335 to 1:10000 using a photoelectrocalorimeter-nephelometer FEK-N-54 with 5 cm long cells, employing light of four wavelengths. To determine the intensity of light scattered at an angle of 45 0 a nephelometer NFM was used on solutions diluted in the ratios from 1:5000 to 1:40000. Electron micrographs of the latex were obtained with an electro- static Zeiss microscope D-2, with a magnification of 8000. Dimensions of the globules in the electron micrographs Card5/6 -ere measured with a special microscope, MIR-12. The results tIr  WHO s/o5i/6o/oo8/o2/Ol7/O36 Determiit,,Lion of Particle Size from geR142MAg of Light II. Peterminetion of Dimensions of Polychloroprene Latex Using Optical and Elm;tron Microscopic Methods are summarized in Figure 2, where the four arrows represent the mean radii a n and a w obtained with an electron microscopL, and the values &t, and a, found optically. In agreement with theory, an < at, < a IC. a The results show that determination of the particle size of latex from light scattering, using formulae deduced for particles with optical propertles differing only slightly from those of the surrounding medium, gives results which agree satisfactorily with electron microscopic measure- ments. There are 2 figures, 1 table and 5 references, 2 of which are Soviet, I French and 2 translations. April 28, 1959  _57 tI 4 00 68893 S/051/60/008/02/020/036 AUTHOR: Slonim, 10yat 9201/Z391 TITLZ: A Nomogram'Tor Calculation of Particle Diameters From Turbidity Using Mie's Zquation PERIODICALi Optika i spektroskopiya, 1960, Vol 8, Nr 2, pp 255 - 257 (USSR) ABSTRACT: Mie's theory yields the following relationship between the light scattering coefficient K and the characteristic turbidity, [Y.1 or a suspension of particles of diameter D Kle = 2[XI X/31r (5) where Ir DA , X is the wavelength of light in the suspension medium and: E-tj = iim(V-/Cvol)c V014 0 (3) where C Vol is the relative volume of the particles in the suspension. When Eq (5) is used to calculate the Cardl/3 41  68893 S/051f6o/oog/02/020/036 E2Bj/E A Nomogram for Calculation of Particle amMers From Turbidity Using Mie's Equation Studert Yu.I. Vilents helped in construction of the nomogram. There are 1 figure and .3 references, I of which is Soviet and 2 are English. SUBMITTED: June 1, 1959 Pr Card 3/3  3/0 5V6010091002 /003/00 6 1201/2691 AUTHOR: Slon!!A.@@-, _,:Z@ TI TLI i Detexwindti= of the ftrtiel* Size from Scattering of Ligj Nomograms for the Determination of the Size of Rod-Shapod Particls,s PMODICALsOptika i spektroskoplya, 1960, Vol. 9, No. 2, pp. 244-247 MTt In his earlier work (Ref 1) the author published nomograms for calculation of the size of spherical or near-spherical particles'fron their light-scattering properties. Frequently particles are in the fom of rods (e.g. viruses) with their diameters considerably smaller than the length# (the latter comparable with the wavelength of light). The two nomograms (Figs. 1, 2) given in the present paper can be used to calculate the air* of rod-like particles by two methods: either using measurement# In transmitted light or measurements in scattered light. In the former case the particle size Is deduced from the "characteristic turbidity" Ctl (which Is the limit of the ratio of the turbidity T, in cm-1, to the concentration of particles. when the latter approaches zero) aLndA which is the attenu&V.on coefficient Card 112  .51032,,',';21G2810Z)81G1 0/0 14 3,104,3102 L@,ulbi.-..ov, A. N. , Vnrenik, A. F. , an. 31oni.::, I. Ya. TI:i:@ nuclear m,.,Lnetic resonance spectrometer of the TaLA and Its ta--ts laborato-riya, v. 28, no. 8, 19052, 991 - 995 -7: At t*,'Ie Central Auto;:;ation Laboratory a nuclear -maEnetic resonince s -3 :c * -c a rlfoi br:)ad linez was developed for industrial purpo-ses. T v; o 11 ato .5tu,,,y.)es ;.ere I.-uilt, one of rhich tas tosted at 'he Automation Libor, ry -in" other at *V..e Instittite of Plastic3. The spectrometer has three n com -,onon ts. "':x :,a-not system, the su,,.)ly systc.-;i-fjor the macnet. ccntroi, and the recordirC apparatl.;s. The nuclear maZnetic r.@3c,nznce of the fluorine nuclei in calcium fluoride war, determined in orler to test th-.@ utility of the instrument. For the second mome@-t.of t*-e nuclear :-arnotic resonance line, a value was found which deviates by 2V. t'... n1ready kno--jn. cluick method 'or arriv*ng at the deEree of in ca:jr,-,ne raZ developed in the course of investiratinr various cr@,. A :@-pccinl receiver for nuclear a-,aj?netic'resonance*siCnr-13 and a 1/.2  , /,-, J' 2 /6 '-, /C 2z-,/ 1-11 i/3 1 4 3104 '--,IC,2 c @ i r n e t i c ro j @ n a no e ;tabilizaticn of th,@ mzqnotic fiald -,,.are deyelo.)O"t for '-LE."; rez.Li:-tion -,,jork. The- -uclear rnaCnetic resonance spectrum can 'C@e 0 1 winutes and the resolving power is 2*10- . There %-n r,@corded 6 4. ---u r P- a T.-.entrallnay@t liboratoriya avtoinatiki (Certral Automation *' "auchno-issle-tovatel'sk-y institut plastmasz 1'aboratory) o I (@cientific :Zesearch institute of Plastics, G-@rd 2/2  SLONIM, I.Yn. Nuclear magnetic resonance in high polymers. Usp.khim. 31 nc.51 609-655 MY 162. (KRA 1';15) 1. Nauchno-issledovatel'skiy inatitut promyshlennosti plastichsakikh mass. (Polymers) (Nuclear magnetic resonance and relaxaticn)  I_ILO@-6-63' EPF(a)/EPR/WP(j)./M(m)/BDS AFFTC/ASD Pr-4/Fs-4/PC'-4 'RIM ACCWBION ifff-C AP360603 0/0192/61/ X=OPt Sloamo 1. ya.; Urman, Ta. G.; KbnTgov A. 0. =Zt Determination of the moisture content of plastics,, molding powftrs, and fillers *-the nuclear magnetic resonance waUod @SOURM: Plasticheekiye mass^ no. 5. 1963, 58-61 TOPIC TAGS: moisture content, plastics, molding powders,, fillers, nuclear magmtic resonance method., K-18-2 molding powder,, cord caprona,, cay"ne Kj, powdered caprow (br=d B) iABSTRM Because the moisture of plAstics effects their mchanical properties a ;number of methods have been devised for its deterirdnatiou.' Of thesep the nucle;@ magnetic resonance method offers many advantages. includirg rapidity,, solleabillty Ao many kinds of material d ility to automatic control. Tlj@ on used an a4aptab it to measure the moisture co4tgat of samples of wood powder K-1&2 Molding pow- der., particulate cord caironeNqcaprone K), and powdered cap;o-n;--;' b;;n@ B). Miclear magnetic resonance opeiG@Wii determined with an HOBO type spectrometer from the !Tsentrallnaya laboratoriya avtomstiki (Central Automation Laboratory),',and-tbia- results compared with those obtained with standard methods. From the absorption signals recorded with these materials., their moisture content was determined with Card 1/2  L 13o16-63 i)ACCESSXON Mfi---AP3000403 Tsufficlent accuracy over a moisture range of 3-17%. The a of the method (elm& 10.5% for the molding powder and caprone K, and about 1% for wood powder and eaprmei. :B) should be reducible by further refinement of the technique. Drig. art. hw: ligures and 1 table. 7- ASOCIATION: none ,SUMITWIM 00 DA33 ACQ: 1OJbn63 RNMI 00 !SUB CME., MA NO MW SOV: 003 006  SLONIM, I.Y&.; URMN, Ya.G. Nuclear magnetic resonance In oriented polymers. Part ls Formulas for calculation of the second moment. Zhur.strukt.khim. 4 no.2t 216-223 W-Ap 163. (MIRA 16:5) 1. Gosudarstvennyy nauchno-iBaledovatel'skiy institut plasticheskikh mass, (Polymers) (Nuclear magnetic resonance and relaxation) C@  _L 37020 62 EWMI19n 9M ACCESS MIT- n: -AR5003006' -1 SOURCE: Ref. ch. Khtmiya# Abse 20830 AUTHOR: Urmang Ya,.G,; Slonim, 1, YA. TrTIZ: V,`uclear magnetic resonancd In oriented polymers. II* Films of poly- ethyleneterephtimlate CMD SOME: Sb, Vyaoi molekul. soyedinentya. Geterotsepn. vysokownlekuto soyedinentya. M., Nauka, 1963, 227-232 --..,-TOPIC-TAGS:---nuclear-magnetic-resonance,-polymer-film,-oriented--p I e pal a ye r" ethyleneterephthalate, film structure, m aqg n -a t-i c____f_ i e-- 1-d,--- str etched Illimp f Us __r_Q-__ tion, doublet line t a TRANSIATIGN: The nuclear magnetic resonance (MM) spectra of polyethylenetereph- thalate films which had been stretched unt- and biazially were recorded at tem- peratures from -196 to +170C. The shape of the NKR lines was found to change when the film was rotated in a magnetic field. When a film which I-Ad been stretched untaxially was placed in the direction of the fietd. the line showed a 1/2 "Pard  L 37o?-o..65 !T ACCESSION HR: AR5003006 doublet structure characteristic -of the -pair--of -protons -in a CItz-gCoupe When's filat whieh had been stretched uni- or blazially van placed perpendicula magnetic field, the line had a complex shape indicating orient^tiott of the macromolecules in the plane of the film. The experimentally determined relation- ships between the aecond moment of, the NKR and the angle of rotation of the filis in the field for the cases of uni- and biazial stretching agree satisfactorily with the relationships calcislated theoretically by the formulas derived in PartI of the study (see RMKhfm, 1963, 21S26). Authorcl abstract* SUB CODE: HT 1VFP EWCL: 00 t4r- -272 Card  sw@jm, I Ja I.,;UBV-IOV,,A.@. A.t-l L .._ ;, @-@ OVAPSKAOr. -, X 3 . ". .. " [K,)-rar3kaya@ (Moakv) Study of curing and d#39trutstion of epo-rj resins by nuclear maor@etl@i Chfan. pn-va 13 111163.  TUTORSKI Y, I.A., SLONIM I. Y-.. , !i*l;MAl - -n,.C,., KUFRYA;TSE-VA. Ye.P.; DCGADKIN Study of the y,-,`-.at-!cn of rubber by 'r.& of nuclear magnetic Daki. AN SSSR !@.- n.@.;;6714-6,6 5 163. (MIRA l6tl2) 1. Minskovskty inst"Aut tonkoy- khllml.7htiskoy tekhrolojLl Im. M.V.Lom,-,r,,3sova. A.A. Balar.-U.rqm.  h 27 EPA(s)-2/EWr(m)/EPF(c)/EPR/EWP(J)/r pC__4Ar_4/p9_4/pt_l0 WW/(@ ACCESSION NRs AT4049841 S/0000/64/000/000/0033/0036 4. AUTHOR: X ZhLgunova,, 1. Ye,,* SlonLm,, 1, Ya. Urman.-Ya. 0. Heyman$ H. B. TITLE: Investigation of the degradation products and the change in mobility of molecular chains during the thermal degradatLon/of polycarbonate SOURCE: Xhimicheskiye evoystva L modLfikatsLy& polimerov (Chemical properties and the modification of polymers); abornLk statey. Hoscov, Izd-vo Nauka, 1964, 33-36 TOPIC TAGS: polycarbonateg polyarylateg Li-.rared spectroscopy# ISER spectrumf@ pyrolysis, thermal degradation / Diflon ABSTRACT3 It was found that the polycarbon e I'M lod with a structure similar to that of the polyarylates based on diphen, *-olpiopane and terephthalLcOor iso- phthalic acid (polyarylates TD and ID), has high stab!.Iity-t-ow-a-r-d-s-plii~lysin up to 400C. The slight gas evolution at 400C creases at higher temperatures and at SOOC it reaches 16% -f the- weight. -of- the it; Lal-producte- th-the of polyearbonates H2,CO,CO2,CH4, ethsnes et. lene and propylena were found by chromatographys The name gases were found the pyrolysis of TD and ID at 5ows Card 1/3  L 27813-65 j- ACCESSION NR: AT4049841 Infrared spectra of polycarbonate and of the solid residue after degradation at i SOOC showed that the absorption bands of the CH3 group (2970& L365p 1385 cm-1) which are present in the initial polycarbonate are missing In the solid residucas and that the intensity of the absorption bands of the groups Ca 0 and C-0-0 (1780 and 1259 curl) decreases. The increase in the Intensity of absorption at 1600 and. Soo cm-1, corresponding to the benzene ring# in the solid residue shows that the residue contains more phenyl rings after degradation, The change In the structure' and molecular mobility during degradation of polycarbonate was also investigated by nuclear paramagnetic resonance spectra. Here, the width of the line depends on, the degree of mobility of the molecular group containing the resonant-ring* At a temperature higher than 150C and lower than -130C, for the initial polycarbonat@e, a composite signal is seen which consists of two componentot a narrow and a wide band. Two regions of decreased width of the line from -150 to -50C and from 150 -170C o are-found-for-the initial polycarb vwtee ---The-- narrowing-of- the- UR - t at low temperatures is due to the mobility if the CH3 groups In the polymer, narrowing is less marked for the residues The change In the electron paramagnetic resonaneft spectra during degradation shows hat the number Of 3 9V I in t 0 CH oup polymer rapidly decreases and that the rigLitty of the structure Increases because of the formation of eolyphe I structuress )via, art* bast 4 figures@ I table 'ev- and I formulass @7-  V - L 27873-45 : ASSOCIATION I NaUchfid I" ilhititwiti 4iii",_049 0" its) - -lictentific research inst J _00 7 .-SIB j%g: Ap) SUMMD: -2 ay62 ons IV an SOVV. 003 7 4W i@7 -7 41F L: n Lu its C(j:,..,1 _-j. oC i)OI., I L C. 0 "0 C@@.-".- U'-,-3 nuclicar ma,rnctic rosonance. TAO US-- of thiS MWLI,,od for dic (10 t4-'l*l'&l illa L.,,,, n Lh o n, o' cl@@gvcc: of cl-yst.111inity, is L,-,Fcd on tho thcory that t*,.c protons i A Lvive narrow bands hile t@.o_=31 in '!-a Immobil'o "..'do critical frequcncy here isi0i, - 10D c.,-). s. 'rh_- dvaamic do-rce of crysLil- avare. %V;f*t incrcasia- temperature, ..n Gf cialn @@Cgnlcnl.s doponds on t1- te i n 1) a r. -.-nc,:,---i'Ly of L`.c; chain se azos und 'E.,12 c1c',,,rc;@,- G` c-stallinity d@,Ci-oascs. _g-rnf@nts incre , i .1 . i a ri-idity of t1ne polynner str=turc 6,@@Iancls on this dc,,trce of crystallinity, A. I I A charactaristac. ,@;nt v. -c Lan-m"da I'Inn-formin- i:; aii ii-.iport", -In the preF -orl L U I-C S!''hil.; nlu',wds L4 wi - L".(" ro C 0 C w,@ro fcundl to hi"h  (I C '.'C. G 03  SLOND@, 1.Ya. Shar-es of nuvI-Ar magrietic rescnance llnes in yclymers. Vysokcm.sced. 6 n@.8:137.1--'378 Ax 164* (MIRA 17:10) Nuclear twignetic resonance in the twc-nomponent pclymer systems. lbid.: 1379-1386 1. NaucYiwo-Issledevatellskly institut plaattchesklkh mass.  UR1411, Ya.','.; 1, Yra.; Kl',!!G'IAI.cj'i, A.S'. llur@lear vignetle r-@.sonanca in Vyookom.soed. 6 no.9: -1651-11655 S 162.- (MT.RA 17:10) 1. Nauchno-tsoledovatcll3kiy Institut pla3ticheskikh mass.  UFNAN, Ya.G.; SIMIM, I- Ya.; YERMOIAYLFV, AeDv Nuclear magnetic resanance in the syste. : polymer in monc,,.tr matrJx. Vysokom. soed. 6 no.ll12107-210@ N 164 (MIM 1812)  88 Pe-4/0r-4 n SK _LT EWT(w)1kPF(c)1EW(J)1T ASDfv@)-VAM/ESD(t) RX ACCESSION NR: AP4012078 9/0020/64/154/004/0614/0117 AUTHOR: Slonign, 1. Ya.. 'Urman, Ya. G.; Vonoyats V1. At I Liffan'k Berlin, A, A. TITLE: Nuclear magnetic resonance in polymers with conjugated bond systeam. SOURCE: AN.SSSR. Doklady*. v. 154, no. 4, 1964,'914-917 -TOPIC TAGS: nuclea:r magnetic resonance, coplanar polympro, noncoplaizar polymers, conjugated bond polymer, magnetic field. aecondkry magnetic moment, polyphenylene, macromolecular structure, conjugated double bond system. ABSTRACT: The nuclear magnetic resonance of polyphenylene and its derivativea was studied, to determine H the molecules have a flat structure a n4 the adjacent riv4p 4XV onrAplawwo The magnetic field and the secondary manumt of phenylf;neRpolyazophenyl eAffld methyl- substituted polyazophenylene of *n 1W 1000-3000 molecular weight ere detehnined at -196C, 20C and L75C. Experi- t mental values for the seconda moment of poIM$mm7Bm an niAtch less thm thS icafd l/a ------  _40 @L 8878-65 ACCESSION P@R: "4012978 theoretical value if the molecule were pWar, but agree with theoretical value- if the adjacent rings were rotated 370 along the C-C bond between the rings* Resulta are similar for-polyazophenylene' - The--moment for the -mdthyI-4uhatitUt__. ed poly azophenylene was found to be no higher than that of the unsitbatituted: Uift. planarity of the adjacent rings and rotation of themethyl group indicate:a nmeo -in Vie inolecule'even at 196C. OrIg. art. _hab: I table, I figure, and 3 for ASSOCIATION- Institut khtmichaskoy fisikiv AkdmU-K&Uk SWR J (IMM ChemicaMbleitca, -AcadqU of Sais c Nauch*,@._igud4dovatelld Plastlelle-a"kh magis tg*lentlflc,-Regisardh-fl"tityAt*-Of A"t MNCU 00.' .04Sep63, Se. SUBPMTTED-. -:'OTHER: 00 SUB C4?DM; Mpg,. W'i NO REF SOVi. 00S. CCffd 2/1; 10 LS41)  L 51008-65 EWG(J)/EWr(m)/EPF(--)/WP(J)/T/iWA(h)/EWt(l) Po41/Pr-4/Feb ACCESSIOR Us AP5011023 zVol 9 WO/O 0 61MA" t2lo 1 558.27 /A -391, !AUMORBI: SIM1201. ya.;@Umant Ya. G. I Tj;Mql@M Akmtln; IL 8, L A. Dj jTITLEi Inolear, magnetic resonance in oriented polymms, 3. Red"a @PO md polyformald!!gdo 6 FICEs Zhu=al ohmkt= SOU w kbildly V. 69 no. 20 1965 t 192-197 F =Olear meopetio resomences orysWitne polymarg polgomadftts, 1AISM011i The orient&+U6 *f radlative4. polyworized A@We (11F) was studied by MIR techniqpse. MIR spectra of "imomorystalMime" (5-6 @;Iw- length) and polycmtalllzm sswo4-m of Pr were deterained &t -196C for difIvent r o, entations of the pr#o WoUlIfue axle In the magasti field, The not_ 'I IV-Sq-- WOU 0 18.5 0.5(9MUA4) Vm dMerimse Aim ths ovICALted 611@ 2 (Pau" (Gms)', and is attrlymt" 'to ohGz4p -in *0 d18t=QG C E &M - 1 Mr A,w o lot.- or residiwa molecular wtlqm at -.1960, admIated maviss, for AN fa Smoomptankt-7 !Card 1/2  L 57000-65 1ACM33:4Z IRs AP5011823 all, ;G.Peoia4us are 0.5 (9%uss)2 and 2 (gms)2 bi&her for Of vo end 01 145 0 r*6"wT*' 1;th= tka exp"riments.1 valuest Of in the angle between the axis of apsoluen and the @directlan of the field. The line shape for Isolated nualsar pairs was calcaUted nn; ithe asaimption of a wifforp distribution of Inter=a1ear vootors on the awfaft of ai-@ cone atter the method of 0. S. Pao (Z. Ch". MO. 16, 527 # 1948). the experiameaL".- Aine abape was foand to be considerably different from the oalculated-ang and -disorel(in(W Lis attributed.. in -part to the negleat or-w-type -oz7atiames, In-.the 2 ceacuis.tion. im the wacaution of 4% of the line shape# and at the line widtht most of' the Weight was given to ths, &IM* orystallites. WtM or7*t&UIt*S a" oriant4d at 760071 to tho asawasoopio cMW axial X_JM orysteMtea we _11116U41 I to thig axis. The oclouUted deVeMAnce of the Ifte vIdtk as %* sugla,41 to ft- @good W?eemsmt with experizental,ftte,* nw anthors; tl--L- Too Asarysm far dstsk--m go r Or14C* art. bsse7__C___ the x-ray piotwe of +A* npeolum, 7 mp @#j %otogrffk#' wd 7 Ovations. IssocrArims - sauchno4saxetevatelvalc4r, Instumt Plestin a warufte- Institute of Polymers) SMUMIXt 12N*v63 NO REF ';OVs 005 OMMS 008 Card 2/?,,//M   r @i in 11, t r I oz lin L! hu r :3trikt. him. 6 1 t"; t Jt- Aft  L 23332-66 Ellrr(ml/EPF(n)-2/EWP(J)/T/E,,~IA(h)/E!~IA(l)--- 90/66/W8 2/02 _T ACC NR, AP6006979 k SOURCE CODEs UR/01 0 AUTIORSt Urman, Yas Go; Sionim, I* Yao; Termol!M A* D* VROt _&ientific Research institute of Plastics (Nauchno I ledovatellskiy instilt plasticlieskikh mass) 0r TITLEt Investigation of the 'radiation po@aaerizatiJ,of trioxan in solid phase (hth report in the series "Nuclear magnetic rd`s6_nWffU4-11r-Men polymers") SOURGE: Vysokomolekulyarnyye soyedineniya, v. 8, no. 2, 1966, 251-255 IDPIC TAGSt radiation polymerization, nuclear magfietic resonance,, trioxane ABSTRACT: Oriented radiation-induced polymerization of trioxane in solid phase has been Investigated by NMR. This is an expansion of the work published earlier by Ya. G. Urman, I* Yao Slonim, and A. D. Yermolayev (Vysokomolak. soyed., 69 2107j, 19610, The method for preparing monocrystalline trioxane and for its polymerization was described previously by I. Yao Slonim, Yas 0. Urman, and A. D. Yermolayev (Zh. struct. khimii, 6, 531, 1965). NMR spectra were taken with a spectrometer 11 Uits Central Laboratory of Automation (Tsentralinaya laboratoriya avtomatiki) at the frequency of 20 megahertz at hOC. Changes in the HMR spectra observed during Uvv solit. poly- merization process are shown in Fig. 1. It was observed thats 1) dul-Lig post- polymerization of the irradiated sample at 5509 the ehape ayid second moment of NMR line change sharply, The position of the sample in the field also has a significant UDCs66.095-.26_+6?8-55_  i AC@ NR. AP66o6979 Mwo POI the M)noMe . ..... P Fig# 1. Shape of NMR lines at 40C for three positions of the sample in the magnetic fields a# bo c - t:-ioxane monocrystal; dj, % f - trioxane after irradiation and heating at 55C for 80 min I gq hp i - pol"JIMmethylenel washed of the residual monomere effect on the character of NMRs 2) agglomeration of low-molecular products occurs during polymerization, which is responsible for the appear&=* of a narrow component in NMR. Orig. art. hasi 5 figures. SUB CODEs 07/ SUBM DAM 27feb65/ oRici Rut mo/ OIR MWI Angle and a field- Samp) 2 a bWO jr/I a omer d er . lymer g h  0 0 IT-0-W-0 A41 0 of 0 0 0 0 aw". 1 4 0 * 0 0 9 0 0 0 0 0 # & v x x o Li 0 j it so 10 u 11 wIs 16 if w ZONIM C.09.% pMgwun omWWwo. @"bkwtq owd Vu. 00 junc.311. 14.06fli. the tic- :,I,,4t-Urn rMUISUM jo Wtv*ltd 11. IIW art6lil 44 A 11111114IC' :0 "IALLUNSKALLIT144102 CLASSOICATION 164043 atg Rig min at is w us n I:m 0 00 a 0 0 1 w 41 9do a 3 0 1 0 0 0 0 o 4 o o 0 00 *00 so : *0 : 00 coo zoo  two . I' ON I m - , Dithydraties of petsuisum omulsluss by meacts of high Mo. 12, 01 1 It PAG I. I &ease (flat of contrell in that une too the derfumit-4 it VIKII It'"is 0 Ifir rmul,ftm by a Istref III "III dwirctimr. The whairr 00 1-411141@.. 1111.111 fh@' ilidtHOCT 44 file C14V fidd pti.111'ril I.,larrol shr I'"Ill .1641t.s "Ilwil Im.1121414 at 41" .... 1*. -4 alld. wall"o "Itsw 1.-11. it, IIII'lld .1 the dMilikir" Owl"'Y th.m.,aill's d4us@t .4 . q4-"I age 4mi m1ming 11.1krilte zoo 141144- 11MV ;AA 4110,, 111, A. )@.spijj, ws 69 zoo too 00 see s 41 o 0 0 4 too Al- SL- *ITALL-RCK&L LITIO.tOt CLA%IW$C&IK. pit, @ An -I - WV_ 0 94* 0 Soo* 0 0 0 0400 0 0 a * 0 0 0 0 0 Is 0 g 10 0 0 0 9 0 0 ot 0 0 * 0 00 00 0 0 0 4000 o 0 0 0 o g o  LJ im. 1. W. (;*Men& lIft. No.4.233-&I, -Tbetk,.tub*W dthydrator ousliewd previously by the tutbw (cf. C.A. ,U. OUP) mW pawated in Mumma is & writwd in dgtaU in, tube. Y. in thr prinsivy and W-M kv. to dw mvndam @Ilrruit and 37-=Ib-,InS ITITIP.. the Ult coiltent of a ctude gl was 1'. . .10-, to 0.1ft-, tx4wv Ilst I-Lint ', to be shut tlown. A n%xink-d torm of tubts will be uv"l to pftvrnt fvpmtcd clev. bn@kdewn at their ensh .,mi twnetfAUM Of Oil bttWMU the outti eln-trotle and the (firk-etric lube mAterW. Bruno C. Uctsom  - . -.- - - -1 . . 1 7 ; - t-I ' ` ' I - - -. I @ . . I - I . ., T,) t.1 on; ,-I llj:@:, tl- Flan.'-; c, 7-11,@s-" I , 1. @ - 1:1 1 @ 2' ',-.-ir@'icn T(,-@I-, olo--ical In,;t FO Vecheryaya Moskva Surn 71  SLONIM. L.S.,- innhaner; SIIINSKIY. G.U. New method of assembline. chnirs. Der.prot. 5 no.12:8-10 D 156, (MLRA 10:1) 1. Kona t rukt orskoye bLwuro MoskavBkogo oblFistnogo upravlonlyn mestnoy promyshlonnosti. (Chitirs) (joine.7)  L 234.@0-65 VdT(d)/EWT(m')/EWP(f)/T_2 ACCESSION NR: AR5000899 0/1)273/64/000/01010009/0010 somm nef. zh. Dvlgaf@ell vn'utrennego spranlya. Otd. vyp.. Abe. 10. 39. 68 AUTHOR: I m L. S T-r-u libagn qm, J @ A -swan TITLE: Calculating the process of supercharging in a two-cycle Internal combustion engin CITED SOURCM Tr. 2Lelyab. I etaktrifik..e. kh., vyp. 16, 1963. 97-104 TOPIC TAGS: two cycle engine. engine supercharging system. supercharging coefficient, supercharging phase calculation I I TRANSLATION: Selection of pressure levels and optimal parameters for air aucts of the tupercharging system is of major significance In engine design. Hence. on4 should know the amount of working gas per cycle passing through the air ducts.of the super- charger, from the receiver Into the working cylinder. Uperimental studies established that supercharging of two-cycle engines with slot scavenging should begin after closure. of the scavenging ducts, rather than after closure of the exhaust ducts as thought previously. 7be process.of supercharging consists of two, stages: - 1. the supercharging stagn during w:haust, and 2. the supercharging stage after completion of exhaust. The fortner stage can be considered as a continuation of the scavenging process. the.latter card  L 2,4450-65 ACCESSION NIA: AR5000899 takes place with exhaust ducts already closed, hence the prearure -increases steadil y In the oylinder aM drops to the receiver. Experimental results served to establish the dope ndenco of gas flow rate on rpm and supercharging pressure. This dependence @.ppi-oaches a linear form in relation to change in rpm, or to the level of supercharging proo oure. The ratio of the actual, experimentally defined, rate of gas flow to its analytically determined value was termed the coefficient of supercharging. Within the jitudied range of operating speeds, that coefficient exhibits a rectilinear relationship to the number of revolutions of an engine's crankshaft and comprises a function of duct charmel cross section dimension and of the level of supercharging pressure. Values Of ternis In the expression for a coefficient of supercharging are given In relation to *ar ious pressures and various periods - duct cross sections. Results of experimental studies indicate that the dependence of the coefficient of superchArging: on superchargkng preesure is curvilinear at oinjitant rpm. It Is concluded that an empirical coefficient of supercharging should be Included In calculations of the supercharging phase for a two- cycle engine when Mining the rate of gas or air flow through distributtac ducts. Bibla with 2 UUOGI 3 illustrations. P. sh9lest 'BUD CODEs PA ENCL: 00 2/2 Cord  IVENSKIY, G.V.; FOSSE, Z.V.; SLONIM, M.A. Twelve-phase bridge rectifier with series connection of primary transformer windings. Izv. NIIPT no.8s83-110 161. (MIRA 150) (Electric current rectifiers) (Electric power distribution-Direct current)  AID F - 889 Subject USSR/Electricity Card 1/1 Pub. 29 - 22/23 Author Slonim, N. M. Title incre'ase-ofIthe no-load current of repaired a-c motors Periodical Energetik, 10, 38, 0 1954 Abstract In reply to a reader's question, the author gives a brief explanation. Institution Not given Submitted No date  SLONIM, M.A. (Leningrad) Use of the dilference equations method in calculating inverse firing in converter systems. Izv. A111 SSSR. Energ. 1. transp. no.5060-568 S-0 164, (MIRA 17:12)  SLOIIIM, N.M. Mounting bull-b"arings on shafts and thi washing of b*arings. Enorgetik 4 no.8:40 Ag 156. (KW 9:10) (Bearings (Machinery))  B01MON, I.N., inzh.; VINOGRADOV, X.V., inzh.; VICLIANIUMM, A.Le, inzh.; GOLIDGCIV, B.G., inzh.; KUZONIN, V.S., inzh.; XULIKOT, P.S., inzh.; LIBEZY, N.V., lnzh.; LITI, S.S., kand.tekhn.nauk; ROUUOV. H.S., inzh.; SIDOROV, T.D., inzh.; SMOLOV, D.Y., insh.; SUNIM, NX, inzh., laurest Stalinskoy premii; XFWZYN, A.L., insh.; ANTRUSHIN, B.D., inxh., nauchnyy red.; SIKAKOV, S.N., insh., nauchn" red.; TRUBIN, V.A., glavM red.; SMIN. A.T., sam.glavnogo red.; GRIND- VICH. G.P.. red.; MWIFANOT, S.F., zed.; OMYRIYEV, I.A., red,; ZIMIN, P.A.. red.; VIDOYMO. Z.I., red.izd-va; SHIROKOVA, G.M., red.izd-va; MLIKINA, R.N., tokhn.--ed. tPower engineering handbook for construction work] Spravochnik energatika na stroitellstva. Izd.2.. perer. I dop. Pod red. 'N.M. Lebedeva. Koskve, Gos.izd-vo lit-ry po stroit.. arkhit. i strolt. materialam, 1960. 736 p. (MIRA 13:11) (Power engineering)  CZECHOSLIWAKI@/'/ Virology. Hummi and &n1mal Viruses E-3 Abs Jour Ref Zhur - Biol., No 2, 195F, No 5009 Author Slonim, Shtepanek Inst Not k.1ven Title Investigations of a purified Virus of Czechoslovak Tick Ence- phalitia by an Electron-Optical Method. Coimnunication IV. Vi- rus of Czachoslovak Tick Encephalitis. Orip Pub t Ceskosl. epidemiol., mikrobiol., imunol., 1956, 5, No 4, 173- 177 Abstract i The virus (strain JIR) was introduced into mouse brain, and the brain susDension was then treated with acetone, ether and methyl alcohol, or by a cruder method -- with bentonite and subsequent freezinF. The titer of end products of puri- f ication (DWI obtained by the first method, attained Card 112  yq vc. VI  A-n-, "krch  ZONI"a, Yu- ',I- ft'ir,.,ilar of i,he Tashk,.,nt ;%3trono dcal Observatoryllj No. 220) 8 pp p 1949.  IMONIM., Yu. M. ll'@ircidar of the Tashkent Astronomi@;al Observactory", No. 221 1949.  Yu. "Circular of the Tashkent Astronomicil Observatory", No 222, 8 PP 1949.  SHCHIGLOV, V.P.; SIDNIM, Yu.M.. redaktor; SKRIPNII, N.V., redaktor; BABAKHANOVA.-4-.~-,'teftiiieheakiy redaktor. (Zelipse of the sun on June 30. 19541 Solnechnoe zatmenio 30 Hunia 1954 goda. Tashkent, Izd-vo Akad. nauk UsSSR., 1954. 30 p. [Ulcrofilal (Bollpses, Solar--1954) (MM 7:11)  61()NIM, Yu-m- @ 1. -.-, --- ---. Chromospheric flares and some characteristics of active regions of the sun. Izv-A1I Uz.SSR.Ser.fiz-mat.nauk no.1:83-93 157. (MIRA 13:8) (SUR)  SLONIN. Tu.K.; KULZSHOVA. K.F. Characteristics of the lost eleven-year cycle of solar activity Trudy Tashk. astron. obser. Series 2 6:101-111 137. (MIRA 11;11) (am)  SLONIM. YU.M. -, Development of sun studies at the Tashkent Astronomical Observatory during 75 years (1874-1949). Trudy Tashk. astron. obser, Series 2 6:37-60 157. (KIRA 11:11) (San) j  :ZONIM, YU.M. 'A 'A@" -t46@ik* Ictive areas on the sun and chromoopheric flares. astron. obser. Series 2 6:61-100 157. (Ban) Trudy Tashk. (MIRA 11:11)  88821 Translation from: Referativnyy zhurnal, P. 52, # 2A431 S/oy,/61/000/002/006/016 A001/AO0l Astronomiya i Geodeziya, 1961 No. 1, AUIHOR; Slonim Yu. TME: Chromcspheric Flares and Prominences in Active Zones PERIODICAL: "Tsirkulyar Tashkentsk. astron. observ.", 1959, mays, 20, No. 300, PP. 17 - 20 TEXT* Observations with a chromospheric telescope show that prominennes which are formed in the coronal space are frequently followed by prominences of chromospheric origin. Streama and loops of ooronal prominences, multiple ejec- tions 3f a "fan" ("c-pakhalo"), and other phenomena are frequently of repeated Vx/ nature. De32endinS mo7ements of m@Atxer in the coronal space entail ascending movements in the --hromc3phere and vice versa. Flares and local luminosity growth appear both in spots of ma-.ter ejection and in spots of flowing in of coronal jets and strea:ms. An inveztigatl@ln of 30 flares on the disk proper also produced the Card 1/2  L iL56 S/033/62/039/005/001/011 E032/E314 AUTHOR; Slonim,p XH_t@ TITLE., Relation between chromospheric flares and prominences in active regions PERIODICAL: Astronomicheskiy zhurnal, v. 39, no. 5, 1962, 798 - 812 + 2 plates TEXT: An attempt is made to clasaify chromospheric flares on the basis of their connection with prominences. The analysis is based on observations made with the chromospheric telescope and tho spectrohelioscope at Tashkentskaya astronomich*okayn observatoriya (Tashkent Astronomical Observatoxy) during 1958 1960. The observational data indicate that in active solar regions chromospheric flares and prominences frequently accom- pany each other. Thus, flares are accompanied by the ejection of chromospheric matter (including retrogressive ejections) and slow outflow (with a constant velocity of about 10 km/sec) leading to the formation of prominences. rlares are also related to the inflow of streams, loops and jets of coronal prominences. The development of flares is correlated with the Card 1/3  S/033/62/039/oo5/001/011 Relation between .... E032/014 nature of the accompanying prominences. Flares take the form of a short impulse in the case of sudden ejections of chromo- spheric matter,or the form of-extended emission bursts in the tase of slow outflow of chromospheric matter. Finally, in the case of coronal inflow, the flares are of the prolonged pulsating type, which is in good agreement with the delayed and intermittent development of the corresponding prominences. The flare-pr6minonce correlation is confirmed-by-the fact" that flares characterized by plasma motions (flares-prominences) are similar to the usual forms of sunspot prominences, including typical loop structures VPettit's sub-class IIIb (Astrophys.J., 98, 6, 1943)1. This conkirms earlier results reported by the author (Tsirk. Tashkentsk. astrone obsery.0 no. 300, 17, May, 1959). The simultaneous appearance outside active regions of these two processes may be regarded as additional evidence for the correlation between them. Thus, flares accompany-*the sudden disappearance of extended stationary filaments and the ejection of matter from undisturbed chromospheric regions. Card 2/3  S/033/62/039/005/001/011 Relation between .... E032/E314 The correlation between flares and prominences may have a deeper significance, i.e. the two processes may, in fact, be different manifestations of the same effect in the upper layers of the Sun. There are 5 figures and 2 tables. ASSOCIATION: Tashkentskaya astronomicheskaya observatoriya (Tashkent Astrohomical Observatory) SUBMITTED: April 30, 1961 UnitiAlly) March 20, 1962 (after r*VL& ton) Card 3/3  ISHCHENKO, I.M.; Yu.M.9 kand.fize-matemonauk,, otv.red.; EYDELIMAN, AoS&? red.; irAxABA' M-A, Kh.U.., tekhn.red. [So,,,io eclipsing 'Anary stars in constellations Cygnus, Lacerta, and Cepheu-@.) Nekotorye zatemnennyo dvoinya zvezdy v sozvezdUakh Lebefts,, laohelterity i Tsefoia. Tashkent, Izd-vo Akad. nauk Uzbekskol SSR, 1963. 102 p. (Tashkent. Astrononicheakaia obsematoriia. Trudy, Ser 0 2, Vol. 9). (MIRA 16-9)  Aocissi(xl NP: AP4007596 XOTHOR: Slo _@i nim.- Yu. S/OM/63/000/00h/0067/0077 TITLE: Nature and localization of chromospheric flares SOURCE: Solnechny*ye danny*ye, no. 4, 1963, 67-77 ITUIC TAGS: chromaopheric flare, brightness pulsation, chromospheric matterl C:,-ronospheric prominence, coronal prominence, microphobometer, coronal mtcer, Pulsatini, flare, flocculent field, C type flare, 8 type flare, A type flare, Balmer continuumi, recombination process, H calcium line, K calcium line, hydrogen, neutral helium line tMTRACT: The relationship of flares to solar prominences has been discussed. Three types of flAres aro considered. Type A is shown to have plasma with sharp, short pulse jets, type B a strong, contracted radiation burst,, and type C a long- duration pulsating character. The first two appear strictly in the chromosphere, whercas typo C has a coronal origin, In order to compare these various flare types objectively, the flare intensity was replaced by . the 34ne width characteristic HW It is shown that type C I'lares are generated principally in the growth phase Cardl/2  AcEsSION HR: AP4007596 of sunspot Groups, *,.-Ii,@-reas types A and B are found in the decaying phase. It is concluded that these facts notcd , shov the differences between the fast- Grcxrin- fla s of types A and B and the pulsating flares of type C. The analysis is cc.ended to connect type C flares with loop prcminences. Variou3 reasons a re rriven for the hypothesis, emphasizing the similarity between pulsating emission center for type C flares and the nature of noaal and jet radiation of prCminences. Two significant observations are cited: the first on April 5, 1960 in group No. 144, and the second on December 1C. 1956J. in the case cited by H. Zirin (Ap. J., 129, 414, 1959). This latter observation. supports the hypothesis that -type C flares are generated in the solar corona, and form spatial multistage structures. "The author expresses his gratitude to Z. B. Korobova for help in the Vhotaaetrie measurement&." Orig. art. has: 5 figures and 1 table. ASSOCIATION: none SUB' MTZM: 00 SUB CCDE: AS Card 2/2 DA=. Acq: 2waa64 NO UP SOV: 006 00 OU  L 06315-67 EWT(l) OW ACC M AR6016291 SOMICE COLE: UR/0269/66/000/001/W53/00$r AUTHOR:.I.Slonim, Yu. M. z 3 8 TITLE: Flares with emission of material and photoapheric phenomena associated with them. Part 2 SOURCE: Ref. zh. Astronomiya, Abs. 1.51*425 REF BOURGE; Solneghrv@Ve dannyVe, no. 1. 1965, 51-57 TOPIC TAGS: solar photosphere, solar flare, solar chromospherep solar corona, solar magnetic field ABSTRAGT: The development and ascent of loop protuberances associated with strong'! ,,/chromosphoric flares are discussed and the following conclusions are made. Flares! of the given type are closely associated with the emergence of the magnetic field and material from the photosphere into the outer layers of the solar atmosphere. The interaction cf the ascending field with the field alreactr existing in the corona produces in-turn condensation and discharge into the chromosphere.of the coronal plasma. Thus, mixing of photospheric, chromosphAric, and coronal Meterial.- occurs in the region of flares. The discharge of the coronal plasma cau3ea long- Card :02 bTC: .523.75:523.7,4  L 06315-67 ACC NR: AR60'162911 0 term pulsations of floccula brightness. Bibliography of 25 citations. V. BarLin ZTranslation of abstract7 SUB CODE: 03 Card 2/2  SDONIHER, B.H., inzhoner. Now methods for setting up tanks. Mael.shir.prom. 19 no.1:30-31 134. (XLRA 7 t 2) (Tanks)  SLOVIKKa, B.K., inzh.: XAMffSKIT. L.Ta.. Insh., retsenzent; ABAEMOYs G.L. inzh.. red.; MOLYUKOV, G.A., rod.izd-va; SOXCLOVA, T.F., tokha.red. [Asmembly of equipment and plants of the food Industry; a reference "nuall Montash predprHAW pishchovoi promyshlennostli kratkoe spravochnoe posobts. Moskva, Gos.nsuchno-tekhn.izd-vo ushinostroit. lit-ry, 1960. 376 p. (MIRA 13:7) (Pood industry-Nquipment and supplies)  SLONIM, B.M., inzh. Glass pipes. Mael.-zhir.prom. 26 no-7:35-37 -yl 160. (MIRA 13!6) 1. Trest 'Prodmontazh". (Pipe, G18813)  SLO11114ERY B.M.; POVAROV, K.I.; MAKOVITSKIY, B.K.q i=h.,, nauchrqy red.; GORDEYEV, P.A.p red.izd-va; SBIMSITEVA, N.V.# tekhn. red. [Installation and use of glass piping in the national economy] Stekliannye truboprovody v zarodnom khoziaistve,, ikh mostash i ekspluatatsiia. Moskva, Gos. izd-vo lit-ry po stroit.,, arkhit. i strolt. materialam 1961. 179 p. (MIU 15:2) (Pipe, Glass)  SLOI:I:L;@', inz:.. -- - :.'aw FacAnZ materials for --las:-. pipes. Mont. i spiota. rab. V 3'.roi. 23 no-3:7-10 '-tr '61, (III.-A 14:2) 1. Spg-tsializirovannoye ul)rwrlen!3e po montaz@u stoklyannych trubc- provodov tresta Frodmuontazh. (Pipe, Glas3)  RODIKINv P.P.; SLONL4ERp B.M.; KAU, L Kh. Brine-cooling coilo made of glaos. Khol.tekh. 38 no.2:51-52 Mr-Ap 161, (MIRA 14:3) (Refrigeration and refrigerating machinery)  B.M., Jnzh. Manufacture of the parts of gla.33 pipelines. Mont. o spots. rab. v stroi. 24 no.1;22-25 Ja 162. (FIX, 15:7) I* Spetaializirovannoye upravloniye po montazhu ateklyannykh ti-ubo,,)rovodov tresta Prodmontazh. (Pipe, Glass)  SILI"ID-MR) B.M., inzh. Testing the 3trength of the joints of Flass pipelines. I-Iont. i spats* rib. v stroi. 24 ro-4:17-19 Ap 162. (MIRA 15:7) 3. Spetsiallnoys upravleniya po montazhu stel-dyannykh truboprcyvodav Tre ta po montazhu prodovollstvennykh predpriyatiy. (Pipe, Glass-Testing)  V, ACCESSION NR: AR40434136 5/0282/63/000/012/000110001 SOURCE: Ref. zh. Xhimich. I kholod. mashinastr. Otd. vy,*p. Abs. 12.47. 3 ;i AUVIMR: S102!aer TITLE- Glass tubing in the chemical Industry 7 CITED SOURCE: -Vestn. -tekhn. I ekon. inform. N. -1. in-t tekhn. -ekon. Inal Gee. kom.-ta khim. I neft. prom-sti pri Gosplane SSSR, vy*p. 4. 1063, 27-30 z TOPIC TAGS: glass tubing, glass product, chemical industry :TRANSLATION: Notes the advantages and disadvantages of g".,'- kbing- -In the USSR, glass tubing 1. 5 - 3 m long and with 'diameter to 100 n6n Wth smootli con. ends is ntade from low -alkali glass not. containing boron by the metliod of tinuous elongation. Describes the mounting of the tubes and shaped parts, tbel, operating conditions, thermal insulation, and exam a of the use of glass tub-; Ing at various factories. Three illustrations. SUB CODE: MT, CO ENCIX 00 Card i/I  SLONII-ER; B.N., inzh. Anticorrosive polyethylene coatings for parts of pipelines. Mont. i spets. rab. v stroi. 25 no-5:25-26 My 163. (MIRA 16:7) (Polyethylene) (Protective coatings) (Pipe fittings)  SWITIM, Dlnltrlj; SLONNOVA, Miluse Complement fixation in 4iagnosis of influenza. Cook. epidem. m1krob. Imun. 5 no-3:125-131 June 56. 1. Z ustavu lekarske m1krobiologie a imunologle KU v Praze, prednosta prof. 14UDr. Frantisek Patocks. (INTLUMA, diagnosis, complement fixation (Cz))  An Intlex of' Z. P. Solovlev r. r;u 11@-.hed works 1936. 21 P. (42-261/26) Z88251-73-S6 1. Soloviev, Zinovil Petrovich 1876-1928 - Bibl. 2. Hygiene, Public - Russia - Bibl. I. Shukhman, M. IF. II. IAkovlev, Ivan Nikolaevich. III. Moscow. Institut Fanitarnol kulitury. J- - - - -7., - ."L- - 'T 11. @@Idz-, I.Y., I I- - - --. - -  -Y, '-r' I-.., T. V, ay I , A . -).U, 1 i ,I.. I Phyticitns Xl'xclzey A - '-d -- --.- - :-. " ` -*.. @ -- -"- !,'- @ . - - @ trr , "@. 7. '_-'52 9. Monthl List of Russian Accessions, Library of Congress, Oitob-r 1952 IW, Uncl.  SLC:I-,,@;KAYA, 1. A. KfIldicine, .@Civd Lenin's evaluatlon of the qork of colmtry dcctors. Sov.zdrev., 11, lo. 2, 1952. Monthl-I List 2f Russian Accessions, Library of ConGress, June 1952. Unclassified.  _aWjjj)WKATA. t"; AWASHUN, I.D., rodaktor; SINCHILO, K.K., _ ;d^, Ab;:"q@ tekhnicheskiy rodaktoxi [Medical service worker* in the revolution of 1905-19071 Hoditsinakie rabotniki v revoliutall 1905-1907 gg. Moskva, Gos.ivd-vo modell"y, 1955. 49 p. WMA 9: 6) (Russia-Revolution of 1905) (Medical service employees)  SloCKINSKAYA, I.A.(Mookva) @-Il 'S' Wical workers in the Revolution of 1905. L.A. Slonlimalmla. PsIOU akash.:'no.11:3-10 N 055. (NMA 9:2) (NWZCDF"ZSTURT)