SCIENTIFIC ABSTRACT MIRSKIY, G. YA. - MIRSKOV, R. G.

L 293o5-66 AM NR: Ap6oj2343 Pig. 1. Diagram of ana3yzere 1 - Input unit, 2 - shaping unit# 3 - time/digital converter,, .4 - digital discriminatorp 5 - pulse counten- 1Vj 3 a maximum counting rate of 20 Mcsj, the measurement error due to errors in discrete- nesn does not exceed 5%- 1he author thanks V. 1, Tikhonov and A. P. VAnoytsev for valuable advice. Orig. art. has: 5 figures and 4 fo so SUB CODE: 09/ suBm DATEi o6jul&/ oRIG mw: ooT/ oTH REF: oo4 Card 2/2 6 j<  j. -, I ACC N*R: AP6030621 SOURCE CODF: 1'.Ri6413 'G6/000/016/01 10011 10 INVENTOR: Mirskiy, G. Ya. ORG: none TITLE: Digital discriminator for analyzing functional and density probab."I'. distribution of random processes. Class 42. No. 185119 jarinounced by Order o" Lenin and Order of Suvorov Military Engineering Acaderny irneni F. Dzerzhin, (Voyennaya ordena I-enina i ordena Suvorova inzhenernaya akademiya)] SOURCE: lz(-)breteniya, promyshlennvye obraztsy, tovarnyye znaki, r,o. :6, 1'1615) 110 TOPIC TAGS: digital disc rim i nator, probabilit'v distribution function, pro5ah,',0,y density function, scaling cir(-uit, coincidence circklit ABSTRAur: The proposec] digital discriminator for analyzing functional and (Jt-t,s,t.y probability distribution of random processes consists or a sca,ing circuit, keys for the initial level input, delay lines and a coincidence circuit. To improve discrirnina- tor accuracy and analysis-level stability, it contains a readout trigger and a switch Card I / 2 1JDC: 681. 142. 07  ACC NR: A P6030621 for setting the analysis-lev(-) sysivin, w1iose statiorutry conta( ts arc ( onw-cf-d to I)o outputs of 1h(- scAing circuit triggors, while its niov;ng contact is ct-nne( ted input IT' of the rpadout trigger. Th( rea(lout trigg(,r OUtplit ..,j corinecto(I *,(-) put terminal through the first coincidvnce circuit, The second input of the ;"tier is connected through the delay line with the 1'0" input of the readout triggtr w,t~-, the output of we second coincidence circuit. (Translation] V, W SU13 CODE': 09/ SUBM DATEI: 14Mat-1;4/ Card 2/2 -Ai --  k t I. , . * ..o '. . .. .. F , .1 . . o -1 - --; ;j:. r ~j I "'. . -~ i ~ ~ :. , ' At, - t ; . ?~ '. . " .- , . -. r- , I I . . ji : I, " , - * r : -- - I ."'W ' -. - i I I I " . , y , 1 !fr- r ~ ~ " ;kvn. , ~ - - - -v ' '.,-- .1 . ; - 1,41 ..A .' ' I cl~ 1'. 7.." ~ i , .'  KIRSKII, Grigoriy YaRrvle-vict.; NIK:iLU, IS.Y., rec. (Measure-mont of tizrxo I, I zme rer. I (, v r-,!: ,- nn -, k f, i i- - tervalov. ,,'oqkva, iml-vo ' ~ j . vala rtid 1,,bi Id i,tvka, r.(,. ' . 1) ~ V I A .' : ' ',   D 25 with A 2 -7, V o,.- e or,% t u r v av:ats. i. 6 r-, t :;,,~-vo in. lit., 1961, ":X7 r. of temperature in a 6traic]-t winc; neat supply on 't t ~mc. -he f' ow ,-n' iencti, of d . It is accep- tt!d a t the -f WIng ~.-e -onstant d i, i i t n.'..%, i.,-~tant of time is the same for a!! po-'.n-,Li of -f ~i,e thickmess of the profile to .4ts c.1,DrA ~q a4~ :1-1 7 ',14 the triangular :,art z,.' the irofi-E,- -s ii i;ector of a circle, and the E;o- lut-~on of the prublt2m. ~6 c-Trie! in Ur C&ordinatec. By mak- Card 1/2 -05/025/048 62/000/-  -lc!.mpurature i.n$~ sc of j.- ',i.e aut-or obtains a s o lu n 'k n ',er-s are lunc- ',-.,,e Dr. carry- in~; out tide ca:c I f secc'nt inf ini te serles i6 -if the error viil_ llc In A n',~_-.6er of a-,.~xi'liary term were ca- C'U'ated _--n s- om~',; *_:it ions, and a.so a .3eries ~- f -.ns is -)r,,Dpc nded to 1-jetermine t- e tu e .. peratures fcr zifft~rer.-, v ~es of 7,arameters of the pro- blem. For the nun,-ri2w~_ ca_l:~l_A__*..-,.-, ,, -~o 1~1 ten.-,s of the series were taken. LAbstractor's n-,t, transla'~41on,. Card 212  KMKTT.-T.I. Strengthen the friendship between worlors of the InpLnek loe,-o- motive industry and the collective of the Tasinovataya repe-Ir 9hap. 119k. j tepl. tiaga 4 no.5:3 My 160. (MTRA 13-7) 1. Zamestitell nachal'Ola depo Tasinovatays Donetoimy dorogi. (Ingansk-Diesel locomotives) (Tai;inovatayvL-RiLilro&ds--Repair shoTs)    vrt tk* WOW . gagomaaas dd hial ad - Z & 3 T KISWO ud 9, bf k a u shtds~ V. A. b 6.t S.Z.Bok 6W. m.3 S'Y"U: U"N. lays(. A, m;;6 -of OR to Fe-M 148. 12 1".-Tbg #A,to Ni) was studkd dia the adds. d a "d -at Mo, Nb, TI, - V) br dect-PUtIm a asoyllus tin- :r of NO ("m a fogatts PAR. up" an &II" Pkte 4bkk ta m l 0 29 x 9 x I Mo. In list LIA"llog 2 mch pkwd suips with thek activa fun jjaRQ, memiag tbm 1. 's W. awl ==.jtft1z: -4 mus vacuuna 10 d . . Ovac" Ilato a 1101). 11 , aad 12001. After cub heat4m4tabmt, thim Achimm Ott dong the active suba" to a th;tk- -RsItive Wamict. " by usk- Odem. cg the d" asaying dow w6shime. A low a Ants be km V4, faaad 1;Ljjc*m tomt; 1C uxnmfw=&- Ti 01117AI"t R`clry" fall . A temp.m4r- A', 0 Geld the comems. at &M thIM d diffudodd amAmy of F0 efsest. 161M the D and the ad j7V I*WCr thd IFO MO-1 Nb mul balty but P= be, of am 1= rA bmt. . It is coadmied tha t Is stmactitedug the at.' rMilts k4AW temp. h th i bouot emsy. t 444 im comb e t n nownksce w 01- xu"gtb ON dw Alor  U r Ti r1  V! AIC4 of sib i: 40-61-t- IrIqW; "d 4U.&MIL r*kd*=--I 6f I and by0mvInx an am wo d We cempont 14 11'WeNt s)*ew st 8W. W, 1050, and 14001., TIw V, ft toded =TwIts-homombaW isw Oki. - 'I Ann 4 (M. lm an-A 0 A:rdMkMI fts- toot =v" d L Alk Iffutbo And wh won d. diftmen and the Immstiou of new it Thi Interst. boodins MeWh In MW4 to bit, F, si,4 " w" c"aftrai" b t hl , cUff "T" he ~h Ust" UM) "4 W (110AW will stous r cz*tns Its high hat rubtaws. Via wwa It an kopmust strwitin'd*Cquativent 14 *Uoyt and In sc3W:ftt break dam on coollocl-The-das on'the dis- 2 ti 'died rodic 11101 Stu WzphWr,.: OV. ft".14 as yet ons"B"IcIr, worstion In WAZMALignigg./of id than at 61 occaun&tI4 clats an ameba- ;,4  KIRSKIT Lev Kocheelavovich; LAGOVSKATA. K.S.. red.; ORCSHKINA. V.1., (Processes of diffusion in alloys] Protseasy diffuzil v splavakh. GosAzd-vo obor.promyshl., 1959. 121 P. (KIRA 12:8) (Alloys--Metallography) (Diffusion)  BOKSHTEYN, S.Z.; KISHKIN, S.T.; NIXISHOV, A.S.; POLYAK, E.11.1 SOLOVIEVA, G.G.; PriniMall uchastiyes ARZHAKOV, V.M.; BULANOV, A.V.; VERTYUKOVA, L.G.; KORABLEV4; MRSKIY, L.M.1 PODVOYSKAYA, O.M.; SAZONOVA, T.N.; SOLONINA' ". '; tITAJRMNKO, I.I.; RINK, L.P.; KOZLOVA, K.N.; YERMOLOVi. M.1., 14CROZ, L.M. Aging of plastically deformed alloys. Metalloved. I term. obr. not. no.5t40-44 NX 163. (MIRA 1b:5) (Heat-resistant alloys-Hardening) (Deformations (Mechanics))  ACCESSION NR: AT4040416 S1000 0/64/000/000/0117 /013 2 AUTHOR: Bokshtcyn, S. Z.; Yemelyanova, T. A.; Kishkin, S. T.; Mirskiy. L. M. TITLE: Structural characteristics and diffusion mobility in titanium alloys in various phase states SOURCE: Protsessy* diffuzil, Btruktura i svoystva metallov (Diffusion processes, structure and properties of metals); sbornik otatey. Moscow, lzd-vo Mashinootroyentye, 1964, 117-132 TOPIC TAGS: titanium, titanium alloy, titanium manganese alloy, alloy VT3-1, alloy VT15, diffusion mobility, carbon diffusion, nickel diffusion, molybdenum diffusion, alloy structure, martonsitc ABSTRACT: Previous investigations have indicated that, during autodiffusion and diffusion of various elements In metal alloys, di8placements of the atoms occur mainly along the grain boundaries. However, during diffusion of iron, ohromium, and tin in titanium under certain conditions. a predominantly intragranular and non-uniform diffusion has been observed. In this connection, the authors experimented with Utanium alloys M. - 1, VT16 and 71 + 3. 83% Mn the structural characteristics occurring during B--& 1/3 Card  ACCESSION N-R: AT4040416 transformation, as well as to compare the diffusional permeability of titanium-base alloys in various phase states. Ile results of radiographic and microscopic studies showed that In the process of 13-~A transformation according to martensitic kinetics, substantial disruption of the crystalline structure occurs at thex, ' limit, producing changes which remain stable on subsequent heating and provide ways of increasing the diffusional mobility. A study of the distribution of carbon and nickel in the alloys led to the following conclusions: a) during diffusion in thcb region of titanium -manganese alloys, carbon is distributing uniformly along the grain boundaries without perceptible segregation; b) during continuous cooling of this alloy from thoj~ region, a rapid displacement of carbon atoms occurs toward thocL' limit; c) after isothormal transformation of th!j.B phaso and formation of equiaxialZ plus retaincdJ], a uniform Intragranular distribution of carbon takes place, whereby carbon diffuses preferably into thevc phase; d) during diffusion of nickel into the tO phase of the VT3-1 alloy, concentrations of atoms occur on the boundaries of the aci- cular formations of this phase. Only after prolonged annealing at a subcritical temperature, when the polyhedrictx phase is formed.does diffusion proceed preferably along the grain boundaries. However, oven in this case, some non-uniform intragranular diffusion Still takes place. A comparison of the diffuslonal permeability in titanium-baso alloys in various phase states led to the conclusion that: a) the mobility of molybdenum during diffusion in the -5 phase of VT 16 alloy Is lower than during diffusion in the heterophasic Car  ACCESSION NR: AT4010416 region of this alloy; b) the diffusional permeability of the equiaxial-phaso In VT3-1 alloy is lower than the diffusional permeability of the acicular 4- phase. Rccrystalft- zation of the,4 phase in M-1 alloy thus leads to an increase in the diffusional mobility of the atoms. Orig. art. has: 10 figures and 2 tables. ASSOCIATION: None SUBMITTED: 09Dec63 SUB CODE: MM DATE ACQ: 28May64 ENC L: 00 NO REF SOV: 005 OTHER: 001 C a-,d 3/3  ACCESS1011 URi AT4040421 S/000/64/000/000/0177/0182 AU-,IIOR: Bokshteyn, S. Z.; Glatunov, S. G.; Yemel'yanovs. T. A.; Kabanov, Yu. N.; WL*hkin. S. T.; MirskLy, L. M. TITLEi Thermomochanical treatment of titanium alloys with 3-at ructure S iIU RCE iProt so a a y* d if f uz I I, at ruk tu ra i evoystva metallov (Diffusioa processes. structure. and prope rties of metals); abornik stat,sy. Moscow, ltd-vo Mashinostroyeniye. 1964. 177-182 TOPIC TAGSI titanium Alloy. beta structure , mechanical property. thermo- mechanical treatment. thermomachantcal treatment effect A-ISTRAICT: The affect of thormomechanical treatment on tne mechanical properties of 8-ticenLum alloys VT15 (3.76Z Al. 7.80 Mo, 10.7Z Cr) &ad V-120 kUS alloy, 1.1% Alt 11.6% Crq 12.6% V) were Lnvestigated. &'l- loy specimens were hold at 760C for 30 minutes. then rolled with a reduction of either 10 or 452 and immediately quenched (high tempera- ture thermomechanical treatment, 9TTMT) or they were cooled at 350C. held for 2-3 minutes.rolled with a reductioa of 10 or 401.aod Card  ACCESSION NRI AT4040421 Inmeliately quenched. I nboth cases. quenching was followed by &&Lag at 450C for 25 of SO hr. The m-ichanical properties of differently t rented alloys are shown in Table L of th& Enclosure. In stress rupture tests (apparently at 400C) under a stream of 100 kg/c%m2 . the VT15 alloy had a rupture life of 13.5-15.0 hr. elongation of 17.2-19.0Z, and a reduction of area of 49.0-51.$Z after HTTMT. The V-120 alloy similarly treated had a rupture life of 97-100 hr. Orig. art. hams 5 figures and 4 table&. ASSOCIATIONs none SUaHI77ED1 09Dec63 ATD PRESS 1 3049 &NCL 1 01 $Ua CODEs KH NO R&F SOVi 000 OTHF R s001 Card-  L IL202-~,,-4 (--,) NP(O - - ---- A,CC NK, i(05026361 SOURCE CODE: UR/0370/65/000/005/0139/0142 nUTHOR: XWWht0AA Zs jjoscow)- Kishkin S. T. imoscow); ,avadze, F. N. (Moscow)Y'e19rodin;;h Moscow) vi7 1 VVI.5~ "I q ORG: none TITLEz Diffunivity and heat resistaknge of titanium alloys after thermal and therm- mechanical working 0 4, T-f ~- -,;? I SOURCE: M SSSR. Irmatlya. Metally, no, 5, 1965, 139-142 TOPIC TAGSi titanium all rd .79 carbon alloy, solid mechanical prqmrty metal agi metalworking,, metal diff lion, metal heat treatment, metal forming, %hqrl~ I t MSTRACT: The efftet of standard thermal and wM*Ind'('dv4'VlX~- tanium alloy on carbon Wfusivity In alloys and alloy strength was investlWigd. The standard thermal treatment consisted of heating to 8700C. followed by soakir4g at 8700C for I hour, coollvg to 65010C and soaking at 6500C for one hour and air cooling to a temperstuve. Thermomechanical working consisted of deformation of 30 n 30 x x GS imm allay samples at 9700C (60% deformation per hemmer strike) and Instantaneous quenching In water. ?him was followed by eging for 5 hours at S500C. rev short and long lastiag mechanical strength tests, thermally and tbar nm~chanlcslly wrked allay samples were reduced to S = In diameter. Carbon diffusivity tests *,tre sade on 10 x 10 m 20 = alloy samples a Oris. art. host 2 figures. UM 661.29S.S-10ol I/S '9m~'6' '4f 1( ~  ACC H& NONNI AW Fig. 1. Efftat or t risture an aort-l"ting stmogth a =a 100-hour UrAdr Stmogth cF of Vfz-%JLMrll 4fter themmachamical wo*llgs(l)l Aft*r stan4ard theml 2/3  Rm~ sue Coot, rz, Ollmayss, of Q)j t too the ORZO OOS/ 000  L 01209-67 Evr(m)ZEWP~ur)/*r/LVP~ t )/E'I'I/Ll4P(k) lJP(j;)_ JDAW ACC NRe AP6032458 SOURCE CODE: LIR/0129/66/ooo/009/00li2/00145, AUTHOR: Vishnyakov, Ya. D.; Ivanov A. N.- Mirskiy, L. M.; Kherodinashvili, ORG: Institute of Steel and Alloys, Moscow (Moskovokiy institut stall I np,'avov) TITLE: Effect of high-temperature thermomechanical treatment on the fine structure and mechanical proDerties of titanium alloys 0 11 SOURCE: Metallovedeniye i termicheskaya obrabotka metallov, no. 9, 1966, a2-45 TOPIC TAGS: titanium alloy, thermomechanica-1 bie&b4ArwU,/a'1loy thermomecharical treatment, alloy I _e p6ime6moo., d332*, mechanical property/VT3-1 alloy, V7.15 alloy ABSTRACT: VT3-1 titanium alloy (2.b% Mo, 1.6% (7r, 5.9% Al, 0.5% Fe, 0.2% -1') and VT15 titanium alloy (7.8% Mo, 11.0% Cr, 3.2% Al, 0.2% F, 0.1% SH were sub.'ected to high-temperature thermomechanical treatment (HTMT) - deformation at 900-100~-j and 800-900C, respectively, followed by rapid (200C/sec) cooling. Spp~l" s werp strained either by tension (VT3-1 alloyk or by upsetting (VT15 lloy) '1f7$7 increased the strength and ductility of the alloys. For example, the VT3-i alloy st-rength increased from 115 kg/mm2 after conventional hPat treatment to 142 4g/rnm, 2 HTMT at 900C with a reduction of 26%. Higher reductions brought about no 'Vid4tiona'. effect. Aging at 500C for 5 hr increased the strength of conventionally iir,,i t.nermo- mechanically treated alloy to 125 and 160 kg/mm2 at an elongation of 12 iu.; -504, respectively. With the HTMT in the B-region (looor), the strengthening effect was Card 1/2 620._1-1:669.295:621.789  -L 01209-67 ACC NRt AP6032458 still higher because only a'-phase was fomed. With iLrreasinw, !efjrma*~~-~n the size of the coherent dispersion regions de,:rcased and the latti c,~! tions increased in both alloys. Subsequent tempering at 550C for 2 hr brought about no changes in the fine structure, which Indicated a thermally stable configuration of the lattice defects formed with deformation and subsequent phase transformation. Also, no grain growth occurred in thermomechanically treated alloys reheated up to 900C; thin enoures prenervixtion of the advantages of Hn-fr at elevatea temperatures. However, at temperatures above 000r:, bermine r,r a higher diffusion in the structure with defects, the thermomechanically treated Vl'i-l alloy softens more rapidly tt.fu' conventionally heat treated allay. ",rig. art. hits: " figures and 3 tablea. SUB CODE: 1l/ SUBM DATE: nore/ ORIG REF: 005/ ATD PRESS: 5097 Card 212 bly  KOKINP M. v inzh.; MIPL KIYf 14. . arkhitok-tor 3ame results of the research vork carri,d ow, by the Architecture and Design BureutL luring 1957. Blul. tokh. Inform. SAKB no.1/2:72-80 158. ('U. ~k 11 :"' (aii i ding research) 4  I MIRSKIY , Mark Borisovich (In the naw of life; on the Academician V.N.Burdenlml Vo imia zhizni; ob akademike 11.1i.Burdenko. Moskva, Gospol-itizdat, 1960. 93 P. (MIRA 14:7) (Burdenko, Nikolai Nilovich, 1876-1946) ~j "~N- -'.  MIRSKIY , Mark i3oritiovich; GUDKO'VA, N., red. ; KLIYOVA, T. , tokhri. red. [Pl7sician and Bolsbevik] Vrach-bollshevik. Moskva, Gospolit- izdat, 1962. 46 n. WIRA 25:6) (SOLOVIEV. ZINOVII PETROVICH 187(--1928)  : 1. ..'11Y , Niark L~oi isovir h.. ITYI;YOVA, S.N I red. i NAZAROVA, A, S. tekhr. red. (flow to build up a child's health]Kak ukrepit' MorovIe re- bvrik,,~. Ponlrva, lzd-vo "Znaniti," 1962 47 p. (I;arodrr,,i uni- ka-.Iltury- Fa~mlltnt. zcIo!-ovIia no.f,.) W11 - -', 1' -; ) (CFILD;L-,.,,: ZD IIYGIEJIL~  MIRSKrY, M.B., aspir-nnt Role of the party and soviet press In the found,,ng of 4 health service and tY,e organization of the Peoplets Comm-is- sariat of Public Health in the R.S.F.S.R. Zdrav Ros. Feder. 7 no. (, 8- 11 Je '#-A. (MIRA I ' I)  MIRSKIT, M.B. (Moskva) First Soviet medical newspaper. Sov.zdrav. 22 no.WB-23 163. (MIRA 16W (JOURNALISM, MEDICAL)  MIRSKIYI M. B. Bolshevik press ir,, the struggle frr the people 'a hetilth (February-4)ctober, 1917). Sovet. mod. 26 no.5tl52-154 It'63 (?,',TRA 17:1) 1. 1z Inntitutn organizatBii zdravookhranonlyn I intoril me- d1tviny Imoni N.A. Somfishko (dlr. - kand. mod. nauk P.I. Kallyu) Ministerstva zdravookhrarionlya SSSR.  y 14.b. Nowupaper "Pravda' In t.fie cw.-ipall,n f-r ttic headt"-. ~:' io-oplr-. e(~Ild. i skuBb. IF nci.4:~-6 Ap'63. (~",-LA lb:F) 1. lz Inatituta orrwiizatail zdravooxiiraziordys I J.;*-oriJ meoi- tr-,,ny imcri A.A. Semasr~ko. (J,-U.J,ALJ3M, .,UILAL) li..AL,h)  MIRSKIY, M.B. Feld.aher journals or. the eve of and following the 7'ctrr-y of the Oreat October Socialist Revolutim. Felld, i akush. 28 no.llt45-51 N'63 (14TRA 16112) 1. Iz Inntituta organizatsii zdrRvookhrananiya i tstoril meditsiny imeni ]:.A.Semashko.   e of I A ~,n n r, of thf- Z,- a r ~ zn v d,,-ftv uoe. r. r%; - 7 "' n s!,r- r wms, :1'- a r,  1, - -11 ". I  MIRSKIY, M.B. Boligherik fr",,r, . - - * - . f ~: ., *, ~- - i,; - -n .3^,, 'omr-^r 1917. Apt. d-~I,, L r~ .. - ~ ~,- '. - i. v.R;. "I" "I,  Mirskiy, M. G. 7744 Snoaoty bor'by 5 Vodyancy Fryaoy-Vred!t~-I-im ~el'skojm vhczyivstva lotochnikom TulyaremA. Novosi~irsk, Yn. lzd., 1954, 4c (Za P. -Si I . F i I I al Akad . Nb S., YT-. -vY,. a t-pi naly '-c v OU. UPR. SellOcgo Khozyaystval. 2.COC, ~,kz. 1-. TI.-JOSt. '~a7nny Na Cborcto Tit. I. - ("~-394 ) I f, 3;'. 6'j . 3 2 ;f ~ 11. . !X) KnIzhnaya letopis' , ','cl 1955  GRANOVSKIT. B.S.. inzh., PIRSKIT, M.I., lnzh. Multirope suspension of mining equipsent. Shaicht. strol. no.6:17-19 '59. (MMA 11:6) (Shaft simking) (Mine hoisting) (winches)  SURYANU, P.D.; ~-II:DRYA, B.A.; POPA, M.1.1 MIILSKJY, P.D. ~-se of toxic liver dyLtrophy terminated by nodular hyperplasia. Arkh. pat. 23 no. 1:84-85 161. (MIRA 14:1) (HEPATITIS, INFECTIOUS)  MIJ~WLOVA, Z.M.; HIRSKIY. it.V-' IARLL~h- "-'~A. A.A. y Deterrdnation 1' ~ivalenl %l,' i.' in ir.' ltf:'icultly decomposed r,-) x.3. 'w JI " 3- (ICRA 1~:11) 1. Kuybysnev. !. ~' / .... , I i.,,- : - r, '5r,iy ir-- T.u, I inoy promyshlennoL-i.  KIY)iAYIPVA, Z.M. ; ~.V. ; YARTT~Yl 'IA, A.A. netermination of 't,r- of ~:-or, In lifficiltly rocks contnIning pyrit.#~-s. ZAv. Jtt. 3(1 n,-, I t, . 'MIRA I . K uy by.,i he-,ruk i y v,-. s i id n r.9 t vv- -t nyy nn 1 ir. h ric - i sn 19 ri r) v-t # s- I ' , ~ t y i r,!3 t i ti i t, nr f tj % -i oy p r my - hl " nno s I i .  KOTILIMIKOV, V.9., kand.tekhn.neuk; CEUMSOVA. K.1., kand.tekhn.nmk; ZYBIV. Yu.P.. doktor takhn.nauk; 10CHMOVA. T.S.; ZAKATOVA. N.D.. kand.tekhn.nauk; OUBARRV, A.S.. kand.tekha.nauk; SHMSOVA, T.P.. insh.; TORCBITBVA. A.A.. kand.takhn.nauk; Kj=j.-j.",Jjjsh.-, NIOUICH. Te.A.. kand.tekhn.nauk; GOL'DSHTNTN, A.T., ingh.; KAT-A 110TA. T.A.. Insh.; SHUSTOROVICH. K.L.. kand.tekhn.nauk; KORIKHODOT. G.A.. insh.; ZAKHMOV. S.R., retsensent; BLAGOWNSTOT, B.K., retsensent; STRONGINA. 0.P., retsenzent; SUIDT. K.1.. re- tsensent; ZMV. T.T., retsenzent; KOSMV. M.I.. retsenzent; STEPANOT. I.S., reteensent-, RJW, S.N., retsensentl PZVZ93R. B.M., retsenzent; UYNBERG, I.A., retsenzent; TIMIS. A.3., reteenzent, SKIRNOVA, Ye.T.. retsensent; BUGOSLAVSKATA, L.A., retsensent-, GAMOVA, A.S.,,retsenzentg KHANIN, N.M., retsenzent; WMVANIDZZ. D.S., red.; PLMffANNIKOV, M.N.. red.; GRACH9VA, A.V., red.; KBDVIDZV. L.Ta.. tekhn.red. [Shoemaker's handbook) Spravochnik obuvehchika. Vol.l. Moskva. Gos.nauchno-takhn.led-vo lit-ry po legkol promyshl. 1958. 540 p. (KIRA 12:4) l.Gosudarstyennaya Ordena Lenina i Ordenn Tradovogo Krasnogo Enameni obuvnaya fabrika 'Skorokhod' Imeni Tajallnina (for Ukharov, Blago- vestov, Strongina, Shmidt. Zuyev. Kosarev. Stepanov. Ra=. Peviner. Veynberg. Turbin, Smirnava, Bugoslavsk,"ya. Gemovs, XhAnin). (shoe manufacture)  BXLTAKOV, F. To . : RAB IN, B.11. , BAL I, V. ' BOTIOVKOV, UJ.: VCY-.U(-I)ll., GTTI?-'?VICH, ;.M.', ;0~0T'";CYAI P.I.: FONNOV, A.S., KALAT"AJR(jVA. R.V.~ K.~SHIRSKIY, A.Tci.-, F,,ZA!iC:.;'T?.V, Te.fl.; , UTSTTKIH, A.?.; IZTI- CHWSKIY, M.A.; L0P,TIll, MIIMIY, V.11.; PODS&VA:,OV, V.N.; 50BOT111%. V.P.; T.~)i,',SlYr'0TK, S.D.; F13ENY.O. K.N.: HLIKIND, I.G.; BOVIN, -;.S.; VA.)I],'Y?.V, L.T.-. DRINKOV, V.D.-, DALB- CHIN, N.I.: D,U)A~R)V. I.A.: Y.MR110SHINA, V.I.; ZiflIKOV, I.V.; ZIMIN. D.A.: IVANNIvOV, A.Y~,.; KOVALEW, M.K.; IAIGAYOVSKIY, H.L.; NALEVSKIT. A.?.; SN'lEZINIKOV, V.K.; aSllIGI.,tSCV, M.D.; SOKOLOV, A.V.; STEPANOV, V.I.; SAKH,kRIN, 4.S.; SAVEUKO, P.A.; 5OLO1)OV, V.P.-, UMEROV, Sh.Kh.; CHIKINDAS, (I.S.; 511CtiNOM1114A. S.H.; DTHKIN, G.Z.; LTWV, V.S.: 0SHYCHOVICH, A.H.: RUYIT';B6KIY, N.V.; BIIAW,AV:W.IT, M.S.; 111TDRUK0. I.A.; ZMXOBO)L'jl:IY, M.S.; ZMAI;OV, I.Te.; SITS-114, V.A.; BRTIS. A.Ye..- VOLYNbKIY, S.A.; KLTIJYZ-V, V.A.; IVRATOV. A.9.; TIUOHIROV, I.?.; BUTY)UN, Ta.N.; V0;,YliLJlY, S.A.; MINEYNN, M.?., MALITSP, V.I.: VIDETSKIY, A.F., kmnd.tm----Ln.rvoik, ellrivriv.v rFid.; DEHIL)CV. A.b., red.: KRAVATS, A.L., red.; Ul~IOVA, Z.I., te,:hn.red. LlnduBtri~ji istr,tk-.-mnj Pr,),Vn!ilenn-ti-i iatrwh,m'. As t rn knil n Izd-vo 4azetv 114Y4. 318 1~. (ml;(A 1"~:ll 1. Aatraklvin (Prov inco) Sko.,io - r onkly R, r:i vnv.-* r'l.*Ton. (AetrnkhAn Province-9cononic conditions)  KAR'YkTJKOV. Nester Timofeyevich; otvetstv"nnyy red.; LOKILINA, L.N., tekhn. red.; UBITOV, A.. tekhn. red. [Automatic drainage of ooal mines] Avtomatizatetta Yodnotliva m ugolinykh shakhtaidi. Kookwa, Ugletekbisdat, 1958. 75 p (Kine drainage) (4m litim  A'J LR: Ya-V- D- TLE: T'Le Mechrinism Crackink, C: tal,sts (L.ec~ iliklatnykh kataliz-il,r)r)v a) PERI-DICA.L: h i m -* 7 a i T,~-,: 1 o, A--~,~:RACT; T!.e mechan-s;., Q. I S P cotaly--;ts i3 I;L-,cus-,e-'. e cil ii~ the f irst vriod, ev!!: Gr Ilij!. A or content of 1,.ydrogel taKes . Lv,-e a,.-, ac 9 d-crease ir, volume equal to t..e v: 1,ir-,e -- fev~~- 'ir- tpa n t e, This is explained b,i the of r,-.'cel-z, fro: the siceleton of hydrogel -s formed to colloidai-c,.Pmical action 7,,ith intermediate li-uid. D,,p t- e vap o ra t io n o f i nt e r- m.; c e I j _-i s t 1., re 1 t e of the skeleton of -iin,!-r t., ! t ,j 1 0 71 C P S ter. I.Dz, L between micells remain fil,ed witi. f w -ter, t'.-e paxticles forminiz skeletor- "o r:: a I t I ) -~F~ I 1-~'nkages due to wliic~. '.hey 103e tI.e 31,."lity Cul,oiljll- cl-,emical interactions uit', ~Intor,:Icell i,,', T-f- further shrinkage of T: is the Ibegin-nin :)f t1l.c. sec-j,,.(! st:~i,- t-.c  V( :I iril !;i; Dr-.y In,- Pr, i A: (j; T!,e jctual moisture c,):.te-A f Y.ylrct-el ,i--n from t,'-.e f irst to tl.e ~i-r e e nd s :) n co ndtj ns ~, f " a L, e:-q` f The mechanisc. of st!.. eI i. o .~i'Ldc,red z)rl the ',asis -If t,.e ~f moisture and thp ve3oc I', -orous structi-ire of ~el_e* s. Tl.,~ of stresses in tle ,.,ydro~,el ~el:e%,. d.'scussed. There are 3 f ~t-jr,,L- t;. 'e. 3 , r(-ferences. ASO-OCIATION: GrozNII AVAI Library of res_-~ U-r! I-/-   t~A tr  ~_-j L_._jj 71uoluwld -or -d Igulo .1102 SU &.01Cdoid -j 0-3-0 t- Jou~d OaMP~Jd 2 pu. -.1-011-j ..v J. ~Oqm:, : t-P-d i "ed-d d.1 I.- .....1p.1 P.. 11 jv~vd u U!.w 044 , -= U, lh, p.27.0p j.VjU- -0 UOJJ~Sda WA.L peoff-elp ej, -T.-M-0. .11 2 " = U U 1111 J. .1, ~P- otu P.vv~v : - ...q 'I J. 2-14P-12 ~2 0 1 go lqvl. IT Q 0emol : ,_ I,v 04.L 03.1. J 11 -~d ZT~, I .-qp0-- ~j ::ul, ., LtU2.40 .0 1~4 jlj -it J. It- t : -%.- - _7 * -POM ZIPOR 1 r j : 21" : :1 U. * 3 U.1 .~j 1% -91p= 1-i-0 W. - T ovi ftiz.,dde W2 Tom,.... 02 pal."P.D. 4qV ..4 2 4: 'L LZU."r A. P.Onpjd MIT ... I aq *a 1*0 .. ", I .q I 1 114 BIT- old pow Wui~ojw jo mr,m '.. ._. 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"Oll A jAV .Mma luo.1) nct~boa p" ___j p"2 91 *d&4 *lvuaj-,~s 14.11C21T 64% jo aul 9U.'TI-9 2 '~k-l 'V hA P-v cot, in LW.Lir-!W' M" do ZX=Jc-U= 'Al Ptntiddy to f , W'd P" 1 0 NJ .0 Sql pla"VO.U -Y Nvn CRT N*P~: "WNS-81. wrigmi pow '*to" -AOUITU- WA am * " 1 0 u- " '10 4"rTz-W K-al rug VANIC'. - zu..I) Amolvam"'t Pug til pi" kim FUO-d!ll 1-TWWOT p"J'; 10 ~rzg CIN I* O.Q.Q 711. &1 - v . g'" Pu 091~0VIjew "Ur"O .4.4 %v clo...-V.:%~: o,: I'Vil!1-3 ;. "Taul P. ..O.w 3C4 .1 .1.1 ..l.lN .*..,Mjos 9=10 so La= *z 043 j0 w0wot"00 GQ2 -T;c Ak.-v ~l 10 PUN fluold _010j 4-d  EIV~Alr,iu)VA, Te.V.-, l'IRSKIT, Ta.V.; STAROSTIN, I.I., M9LUMVA, A.I.,- 31NIN, X.F.; 141ZYAKOV, D.I. Experiment-il Andustrial rr-3parstion of catalysts froo Askan cl&7 by acid activation. Trudy GrozITII no.4:P2-90 '59. (MIRA 12:9) (Askanite) ( Ca tal 7,9 ts )  MIRSKIY, Ya.V.; HIMOVANOV, M.G. Molecular sieves, a nev kind of adsorbent$. Xhim.i t~Vh.topl.i maael 5 no.10:16-21 0 160. (MIRA 13:10) 1. Groxnenskly nauohno-iseledovatellskir neftyanoy institut. (Petroleum--Refiaing) (Adsorbents)  5/08 61/000/013/0151/~2'-- BIIOXB205 AUTHORSt Levohenko, Ye. S., Pcnomareva, Ye. A., .1lesmeyanova, 7. B., Mirskiy, Ya. V. TITLE: Study of the hydrocaroon composition of Ozek-Suat petrrlP-.1:: PERIODICALt Referativnyy zhurnal. Khimiya, no. 13, 1961, 524, abstra- 19V79 (Tr. Groznensk. neft. n-i. in-t, 1960, vyp. 7# 162 - 172) TEXTI As a r4sult of this inv;~s',igation, the composition of gasoline of Ozek-Suat petroleun was clarified to 91.9A. It was contain 43 hydrocarbons. Ani- gasoilne is characterized bj a hi.~h cant of paraffins (54.2~6), most o! which have a normal structure or arL- slightly branched with a methyl substituent (14'). In addit"cr., ~t ha'-~ a high content of cyclohexane hydrocarbons (24.5%). It was fsard t?ifit n-pentane, n-hexane, n-heptane, n-octane, n-nonane, and methil cjclr~,- hexane are contained in the Rasolinc- (initia: boiling point, 1500C~ ,, maximum amounts of 6 - 9%. LAbst-a,-erls notei Complete translatic:rj Card 1/1  Z/01 1/61/o 18/00-) /or) P'/() I-, F010/E5121 ~kMfORS Le v c h en ko T s- S . P,)n o ma r e v is e A No -s in e y it ri (- V /I and Mirskiy. Ta V '11TLE C he M 1 ca I - o m p os I t i o n o I iz n % o I i n e f ro 111 0.- e k 1; 11 a tI II'l e PEI? 10 D I C AL Chemie a chemicka technologie Prehl,-d t-chni(ke hospodArsko literatury. %, 18 no absti-act Ch6l-'~12h (Khimi i a j t ek hnf) I o w i ;a I o p i v I mosel, no 8, JI)OO, 9-11) I EXT - A compl et e hydroc arbon aria I ys 1 9 has been conduc t ed on thf- straight-run gasol ine (final boiling-point 150-C) from Ozek-Suat crude. which 1-4 noted for its I )irzh content (17 5%) fir solid paraffins, and hiqh pour point (52 ) The frac tinn wa.-4 from a pilot distillation unit with 100 theorettcal plates 011alitative and quantitative analynes of the fractions up to 11-5 C were performed with an ISP-51 spectrometer The fraction between 133-1500C was investigated by catalytic dehydroizenation of the six-membered naphthenes and separation of the resultant arcomatics over ASM silica get The secondary aromatics were qualitativelf analysed by spectrometer, and calculated with respect to the Card 1/2  Chemical composition of z/Oll/bl/018/005/0o8/015 E030/FSIII corresponding cycl- hexane h 'idro c a r hori.-i Fho m I xtur v -f In pentanes and isoparaffins were similarly analysed after further distillation on a 40 plate laboratory -olumn ]he data mhow thi! the gasoline contains 54 2% paraffins, 35 6% beine Atraizht chAin 14 0% with one tertiary carban alom. 4 2% with two, and 0 14%~ with a quaternary carbon atom There is a high (24 5%) -oritpril of cyclotiexane-hydrocarbotis. predominanti -~ methyicjcIr)hvxano- 18 0%1 There is a 5 3% cyclopentane fraction. predominantIv meth-ilc ,clo pentane (1 96%) The aromatic content i s 7 9%, made ur? of I xyleneq (2 066A meta, 0 74% para 0 68% ortho) 2 5% toluene 1 3% ethyl benzer)e and 0 6% benzene I figure, 3 refprenc Ps Abstra--tor s Note This is an abstract of the original Pijsi-ian paper and n-1 it tran~lalion )f the ve"i brief Czech-lanviiaize '11,41r,ift a r (1 -1 /2  j (4) AUTHOR: MirskiL,_Ia. V. SOV120-130-1-32169 TITLEs Vapor Adsorption on Crystalline Adsorbent-molecular Sieves PERIODICALs Doklady Lkadenii nauk SSSR, 1960, Vol 130, Yr 1, pp 115-116 (USSR) LBSTRAM The author refers to foreign papers on molecular sieves i.e. adsorbente with pore diameters of few 1. He produced such mineral molecular sieves and reports on the properties of the molecular sieves type 102 and 202. Their composition, however. in not given. The X-ray photographic data are mentioned and in figure I the laothmml Linea af the adsorption if water, methanol, n-hexane, isoootane (2,2,4-trimethylpentane)t and bensene are shown. Both sieves have distinct selective adsorption properties. The adsorption isothermal lines correspond, with respect to their shape, to the Langmuir isothermal lines. High adsorption values were attained at low relative pressure. The adsorption is reversible. On the basis of data for methanol adsorption a specific surface of 1,000 m2 Is calculated according to the Langmuir equation. Theme data show that the molecular sieve type 102 corresponds to the molecular sieve 4 1 and type 202 Card 1/2  Vapor Adsorption on Crystalline SOV/20-130-1-32/69 Adsorbent-moleoular Sieves to the molecular sieve of Messrs Linde. With respect to their crystal structure, however, the sieves of the author differ from the Linde sieves. Finally It Is mentioned that the x/ author thanks M.G. Mitrofanov for cooperation in the paper. There are I fi e and 9 re erences, I of which Is Soviet. gur ASSOCIATIONt Grosnenakiy neftyanoy nauchno-looledovatellekly Institut (Gro,anyy Scientific Research Institute for Petroleum) PRESENTEDs August 2, 1959 by K.M. Dubinin, Academician SUBMITTED& August 2, 1959 Card 2/2  LEVCIMKO, Ye.S.; PONCMAREVA, Ye.A.; NESMEYANOVA, T.S.; MIRSKIY, TS.V. Hydrocarbon content of gawlino from Anastasi7eyka crudea. Xhim.1 tekh,topl.i maael 6 no.3:10-13 Kr 161. (MIRA 14:3j (Gasoline) (Hydrocarbons--Analysis)  KIRSKIY, Ya., izobretatell (g.Groznyy) Clogged molecules. Izobr. i rat3. no.'j:9 - 161. (M, iuA !,. -. F , (Z~Irjlitea)  t 0 r e t% n t-n, t- -Ix .7, ,;1 t bj t,.( t :L 7 t )r, -9 it ;n n.9 r) f4 N,t C: - AlCr. t v 'J -3 f rl tc i-~ f-)r.-.,- in No-for-n in A " 7.-c ; I - - :-f- r7. L r v c At v-ilues of n b,,,, t - .,,- n i te I ,rich i n Ca-~nrm is i7ilar lo -no i for- i 7.e0 Ii teS -~ i';-. ,,':3or-~ton ca;,%ci ties an~ 3, 1 -,c t.,.r~ r  r f rb t tu r t r* t I r 1 c r z -0~ t., ition.  S/07 61/035/002/Cl'~/015 B107YB220 AUTHORSs Mirskiy, Ya. V. and Mitrofanov, M. G. (Groznyy) TITLEt Separation of hydrocarbon mixtures by means of a molecular sieve PERIODICALt Zhurnal fizicheakoy khimii, v. 35, no. 2, 1961, 460 TEM The separation of n-HC (hydrocarbons) from mixtures with iso-HC and cyclic HC is often very difficult. Recently widespread interest has been shown in the problem as to whether molecular sieves are suitable for sepa- rating petroleum fractions (Refs. 1-3). For separating n-paraffins from benzine fractions the authors used a molecular sieve made at their own in- stitute. Such a molecular sieve adsorbs n-paraffins in dehydrated state, whereas iso-paraffins and cyclic HC are not adsorbed. The ad3orbing capa- city at 200C is indicated in a table for the different oub!itances. Chemi- cally, this molecular sieve is the Ca form of an artificinl ze,Aite. The separating capacity of the sieve was tested with mixtures of n-heptane with toluene and methyl cyclohexe-ne. The change in the c,mposition of the mix- ture could be easily determined from the value of the refractive index. The Card 1/3  S/076/6 I/ r) Separation of hydrocarbon BVNB22~, mixtures were separated in both liquid and gaseous phase. I n t r,~ rs t c aEP4 a small volume of the liquid mixture was added to t1te itilgorbent, and th refractive index uf the mixture waa determined f rum the ;ontact wi th th: adso.~bent. In the second case, the gaseous mixture wai3 ;,RS~~ed over the In.(-- er of the molecular sieve in a glass tube at 1200C. Previously, the adsorb- ent had been dried at 3500C and simultaneously evacuatei. When pas-in.~ the gas mixture through the adsorbing layer, the nonadsorLeJ part was collected in a receiver couleGbydryice. Once adsorption was complete;, trie sorption tube was evacuated at 1200C; then the temperature was raised to 3500C and, thus, the n-heptane desorbei. For the separation of n-hexane, the hexane fraction of a directly fractionated benzine was usea as basia materia,; b- sides n-hexane, this fraction contained methyl cjclopentane, 11-metnyl pentane, 3-metnyl pentane, and benzene. The hexane fraction was passeJ through the adsorbing layer for 15 minutes at a volume rite ~.f the subsequent temperature increase and desorption were effected 1N tne same way as for n-heptane. Under these conditions, n-hexane was a.most complete- ly separated from the mixture. The desorbe,i n-hexane showel a purity of 97-984. Card 213  Separation of hydrocarbon ... Tablet adsorbed matter n-C 6 H14 iso-C 8H18 C6 H6 H2 0 CH 3OH 8/076/61/035/002/015/015 B107/B220 adsorption volume of pores, CM3 Ig 0.24 0.02 0.02 0.50 0.28 Ref.t 1. R. D. Schwartz, D. J. Brasseaux, Anal.~t. Chem., 29, 1022, '457; 2. B. J. Mair, M. Shamaiengar, Analyt. Chem., 30, 27t, 1~#Ib; 3. G. R. Brown and oth. , 011 and Gas J . ~bstracterls notes This is a f-ill translation from tr,e criginal.j There are 1 table and 3 non-Soviet-bloc references. ASSOCIATIONs Groznenskiy neftyanoy nauchno-iseledovatellskiy institut (Groznyy Petroleum-Scientific Research Institute! SUBMITTEDs December 29, li5j Card 5/5  4 44 M ;y o rm t. ~L M 1, A Fi I o r,- a nit i P. T "he author.1 vr t I v e pfl c I ty T!iP re s r t a powdpr-.1 ~i t Firt c e v a t r) m i z i I p r~.- I z eo I t c- %ind i --rK 1 1 av lF, S rL f c) ru ~i w a r- ro:~ ~(,s Mechay,icril al gn r~ ~ i vt. capac I t *., " , " W r e I a r .1" .,,!oi with H,(j Unt- it hr, lrl-4 t -,Zr. h ri- J a c al t ur- a  CIL r L) t t) 2~p c, q Fj  ZS PHA3H I BOOK EXPLOITATION 30V/6246 Soveshchanlys po tseolltam. let, Leningrad, 1961. Sintetloheakiye taeolity; poluchenlye, Issledovanlye i primenenlye (Synthetic Zeolitesi Production, Investigation,snd Use). Nos- cow, Izd-vo AN SSSR, 1962. 286 p. (Series% Its% Doklady) Errata slip inserted. 2500 copies printed. Sponsoring Agency: Akademiya nauk SSSR. Otdelenlye khindchaskikh nauk. Komlsiya po tasolitam. Reap. Ede.s M. M.'Dubinin, Acadeadolan and V. V. Serpinskly, Dootor of Chemical Sciences; 3d.i Ye. 0. Zhukovskaya; Tech. Md.s S. P. Golub'. PURPOS3s This took Is Intended for solantists and engineers engaged in the production of synthetic zoolites (molecular slaves), and for ahendsts In general. Card 1/10 /  Synthetic Zeolitess (cont.) SOV/16 2 46 COVEMA03t The book Is a collection of reports presented at the First Conference on Zeolites, hold In Leningrad 16 through 19 March 1961 at the Leningrad Technological Institute Imeni Lensovet, and Is purportedly the first monograph on this subject. The reports are grouped Into 3 subject areaet 1) theoretical problems or adsorp- tion on various typee of ceolltse and methods for their Investi- gation, 2) the production of zoolites, and 3) application of zeolites. No personalities are mentioned. References follow In- dividual articles. TABLE OF COWrMM i Foreword Dubinin, X. X. Introduction Card 2/* /  Synthetic Zeolitent (Cont.) Andronikashvili, T. G., and Sh. D. Sabelafhvill. Gas SOV/16246 Absorption Chromatography on Synthetic Zoolltee 65 Zhdanov, S. P.i_.I,_S. Yastrobova, To. V. Koromal'di. Porous Glasses ai-Morieenlar-Sleves 68 i)L'J'4 Y C p, " J-1 Ij .DQbYchIn,'D. P., T. M. Burkat, R. N. Kiseleva. Porous Glasses as Absorbents of the Xolecul&r Sieve Type 75 -09bitriamy-1174'K. The Composition of Cubic Octahedral Structural Units of Synthetic Zoolltes 86 Alookovskly, B. V. The Possibility of Obtaining Ab- sorbents of the Molecular Sieve Type of Leaching 91 N1F.6;!Si --Ilk, V., and X. 0. Ritrofanov. Adsorption of Hydrocarbon Vapors by Synthetic Zoolites at Righ Temperatures 94 card ~n*  30V b 2 4i, Synthetle Vinogradovs, V. x the Moleular 31~L~ F'r eH I I f P& Mirskly, Yh. V. 1 T) i 9(l Ms Zhdanov, S. P. , A -,-I N. 1~ Hydrotherm~:.-l F .~-r Sodium Ze,:-'-tee Tsit8lshvl-l. G. V. es Is and 3ome ACsorp' I(. F~, r,,F-,. - 117 Iru, P. , 0. Q.- - h, z Propertlee of Card  Synthetic Zoolitess (Cont.) SOV/16246 Main, M. S., L. ff. Makalmovs, V. A. Lltvlnova, and L. B. Khandros. Production and Adsorption Properties of NaA, NaP, C&A and UP Zeolltes 135 Main, M. 3.0 L. 11,Jbkolmova., V. A. Lltvinova, L. B. Khandros, 4.--A. Polyakova,, and L. S. Urin. Production and AdsorptiOb YroVertles of N&X, CaX and AgX Zoolites 143 11guzova, L. I., Ao V. Agafanov, A. 3. Vltukhlna, V. F. ,D,-,dtriyevaj he T. 31opneva, V, A. DMlov, and M. A. ,Ghepurov,_ Synthesis Conditions and Thermal Stability of Typo X Zoolites 152 ek Yx&. J., A. 0. Mtrofanov, and T. N. Bredikhina. M51Er j Ion ;1L n w a ngi 6? No for Ca In Type A Synthetic Zoolito ; 16T N. G. Mitrofanov, B. N. Popkov, L- T, ' % Ao 1. Kezhlumova. Production of -Synthetic vg" Zoolites Ubdii-Industrial -CMitions 169 card  Synthetio Zoolitest (Cont.) Tonkonog, L. Q., K. V. Chmutov. Separation of Mixtures sov^2!~ of 9thyl and Nothyl Aloohols on Synthetio Zoolltes 230 N, Vollf, M. B., and R. V. Aleknoyeva.. Application of Syn- thetio CaA ZeoiR-e-9--1"vparstIbg Hydroaarbon Xxtures 233 MItrafanov, M. G., and Ya. V. Mirskly. Separation of Petroleum Freations 50 3ynthetlo z6olltes 236 Kolltsev, N. V., A. F. Starovoytova, and N. S. Toroohesh- nikov. The Adsorption Method of ftrifying Isopentans From Admixtures of n-Pentans 239 Vinogradova, V. S., and L. S. Kofman. Applioatlon of 3ye- thetlo Zoolltes In 3eparstlng and Purifying 3ynthotla Rubber Nonamers 245 Card "'U, '0 , , sp  8/081/62/000/021/051/069 B149/biOl A U T6,j !C-A" V., Mitrofanov, id. G., Bolotovo L. T., Meznlumova, A. 1., Bunin, &. F., Dullakaya, V. N., Mal'nIK, A. LS. Preparation of experimentai samples of molecular sieves under i nd us t r I it ir.o i t io nz; P4RIODICALs Reforativnyy znurnal. Knimiya, no. 21, 1962, 519, abotrnct 21KI06 (Novosti neft. i gaz. tekhn. Neftepererabotka i nefteknimiya, no. 2, 1962, 15 - 15) TLXTi Molecular nievea are prepared in the following wayi a crushed silicate cr,;jnk 19 Cooked in an autoclave with live steam, transferred t o a col '"ctor, clilutpd witn steam conaengate, cooled and transferred to a contitiner; wriereupon sufficient coniensate is added to make a worKing no~ution, snicri is Left to settAe. Tne clean solution is pumped into anothor container. A atron#~ ~s!Kali soiution is transferred from tne u,,)nte.,ua into a mixer lvhi ':r, nas a puuale and heater, followed by till- con- oor-,iate and Al (oil)5; tne mixture ifi hentud for 5 hours with atirring. After tniEl tivi Nn-alumin~.tv tolu~ior iq transferred ton rollactor from a ro  5/08 1 162/'OuG.1021 C' ?reparation of experimenttil DaiDAes... B 14 9 /B 10 1 - t. * r, t, ~i I r-) nv i ~ u t . r. - an f - I ~~ x -~ r t - a v f? s F; e 1 w n f- r e i r. b J r. rvienqatf- to n *,,)rx i ng in. ~ r, t rat i o n . The latter solution i~i r ;,,r od ro a,.: r, it ro t timt- t - r Fi i. ri i k! ~, ) q , s, , mixer together wi th tho N,i-s i I i it ' e BoLaLi in. -I i,e m x x t u re t r,en p,ts 9 e .9 1 n t', a con t 1 nuous I y wo r k t nw nfid:l I -, r..x r Nne re t no -I , 1 9 : f) rrri--,; ;t s it L t, i ri DU 1 p . This pulp is transf--rrpd r,-- m i x (i r i n wri i : ri - n e n i um i n it t ta ~i o I u t i on was previously prepart'd. 7 h P t.r?ated in the xer uW i i tt,e Kei crystal I i ze . The mass in then 13 rq ni; qrr,-(] into I tjit~, (.-ol ectors wnicn -,roviously contained the alumin;ite ano t r,o z e o I i t e is wrinnea ny ae r:jin tat i ons , t, r., , f i I te red tind vnnhod 'kitce 'i i v i n i , t-r-orf!9n . ri #, c it -jod into two part!;, one of which under 0") e ~i Dre'lMinary (I ry I nq i n it chamber iryer and is tranBterred on to cruji,or-roi 1 ini I I w6i ie the otr,pr is transferred directly to tho mill. ."u,,-, re t tie z en L i t e in mixei witu, (--I#Ay .rLo amass which is made into t,uio tn, ;inti tne Ft ttor are arie(I , cai cinou and aieved from crumba in FA Irum r t ci f t. fie zecil ite is treatea w1 tri CaCI 2 to preparo a niilectlve I i, I c, 0 r C,4- r, I I () r n vp)i r it t i nt: i.,n it I n it I rit c I i o n it . Tho we ight of I m , of so(iium zeoli te i a u. I ~, and I ts gorption capacity for water to 0 .25 cm references. AUstracter'a notoi Gompiete translation._ r,1 2  SHESTARR 11. P.; CHERTO[tIZHSKIY, A. V.; MIMKIY, Ya. V.; MITROFAITOV, M. G.; DEMMIKOV, I. A. Adsorption properties of synthetic seolltes-molecular sieves and their use in the advanced-atage dehydration of monomers. Neftakhimia 2 no.4:512-518 JI-Ag 162. (MIRA 15:10) 1. Clrosnonekiy naucbno-issladovatollskiy neftyanoy inatitut i Oro-anenaldy khimicheakiy zavod. (Zeolitea) (Monomers)  LEVCHENKO, Te.S.; PONOWEVA, Ye.A.; NESMEUIOVA, T.S.; HIESKIY, Ya.V. Individual hydrocarbon composition of the Zamaniall petroleum gasoline fraction. Kbi i tekh.topl.i masel 7 no.5:34-37 Yq 162. (MIRA 15:11) 1. Growenskiy nauchno-isoledovatelloiciy neftyanoy inBtitut. (Zamankul region-Petroleum) (Hydrocarbons)  5/065/62/000/008/001/003 F-07 5/El 35 AUTHORS: Aristov, B.G., Xiselev, A.V., Mirskiy, Ya.V., Pavlova, L.F. , and Petrova, R.S7. TITLE- Adsorption from vapours and from solutions on molecular sieves P---RIODlCAL: Khimiya i tekhnologiya topliv 1 masel, no.8, 1562, 7-12 TEXT: Results are given of the investigation of adsorption of vapours of H20, N2, Kr, n-hexane, benzene and isooctane, and also adsorptior from liquid solutions of n-hexane,-benz--ne or. 7OUS crystals o: zoolites of the 4A and 5A ty-,e. -.'. I e*a -.~' , ~ I I.. 5A isotherms of vapours of H20, N.-, Kr and n-hexane on the sieve rise steeply at first and rapidly reach the saturation sta~;e. The adsorption of benzene and isooctane remains very sr;iali. The adsorption isotherm of n-hexane from, solution in benzene was measured on the 5A sieve. The filling of the pores with n-hexane begins at practically negligible concentrations of n-hexane and subsequently only some additional packing of adsorbed molecules takes place. The maximum value for the full packing is reached at Card 1/2  Adsorption from vapours and from ... E075/E!35 the equilibrium'concentration of n-hexane of about 0.2, tfii.9 value being similar to that pertaining to the adsorption (if n-hexane from vapour. The quantity of adsorbed molecules in one pore in the 5A sieve crystals is iiot great and is Z.6-2.7 for n-hexane. Molecular sieve 5A adsorbs Kr at -196 *C only on the external surface of the grains. Nitrogen at -196 *C penetrates markedly into the pores of the sieve 4A, but the speed of adsorption is very small and equilibrium is therefore not obtained. There are 4 figures and 1 table. ASSOCIATION: Institut fizicheskoy khimii; MGU im. '-I.V.Lomonosova; GrozNII (institute of Physical Chemistry; MGU imeni M.V. Lomonosov; GrozNII) Card 2/2  MITROFANOV, M.G.; MP~~;Kjy, Ya.V.; :XWGOCHINSCY, A.,-.; DR(iN:N, A.P. MAKAPYKV , ".3. ; TiTrxvry , . , . Selecting the best arrangement for neparating gasoline frokctions in molecular sieves. Trn,dy GrozNIII no. 15:84-91* W. (MIRA I":'  ACCESSION NR: AT 4016001 S/2625/63/000/015/0165/0175 AUTHOR: MLKskly, Ya. V.; Mitrofanov, M. G.; Popkov, D. M.; Ruchko, L. F.; Dolotov, L. T., Niezmumova, A. 1. TrrLE: Development of the technology for the industrial preparation of molecular sieves SOURCE: Grozny*y. Neftyanoy nauchno-isaledovatellskiy institut. Trudy*, no. 15, 1963. Tekhnologiya pererabotki nefti i gaza. Neftekhimiya (Technology of processing petroleum and gas. Petroleum chemistry), 165-175 TOPIC TAGS: adsorbent, zeolite. molecular sieve, hydrogel, aluminoollicate ABSTRACT: The characteristics and industrial production of adsorbent synthetic zoolites having good molecular-stove properties have been investigated, using micro- granular sodium zcolite %vith cubic crystals of 0. 1 to several microns on a side. The results show that the properties of zeolites are affected by the following factors: method of preparation and composition of Lhe hydrogel, temperature and duration of crystallization, concentration of the gel-forming solutions, stirring, of the hydrogel. ion-oxchange condi- tions, washing of the crystals, and granulation and hardening of the zoolites. Zoolites of the structural type designated as Type I (Type A in the West) are of great interest. A Card 1/3  ACCESSION NIL AT 4016001 study of the adsorptive properties of sodium and calcium zeolites showed that the adsorptive properties of zeolites crystallized from hydrogels of the same composition, but by different methods, are very similar. The best method of preparation is to mix solutions of sodium aluminate and sodium silicate. A stable Type I zeolite can be made from hydrogels for which the molar ratio Si02:Al2O3 is < 2. When this ratio approaches 3, a zcolite of Type II results. Hydrogels crystallize at a satisfactory rate at 75-100C. The effect on the crystal size of the concentration of gel-forming solution and the stirring rate (2 hours at 90C) and the effect of the crystallization time on the adsorptive properties and crystal size of zcolites (crystallization without stirring at 90C) were also investigated and the data tabulat, ~. A new apparatus for preparing zeolites is described in detail and illustrated. In the pi-eparation of the test samples, the yield was 68-74% of the theoreticd. These zcolites w-ith their pronounced molecular sieve properties, obtained under industrial conditions, made it possible to crystallize large amounts of aluminosilica hydrogels in large-sized apparatUB. Orig. art. has: 1 figure and 6 tables. ASSOCIATION: Neftyanoy nauchno-isoledovatel'skiy institut, Grozny*y (Petroleum Scientific Research Institute) Card 2/3  ACCESSION NR: AT4016001 SUBAUTTED: 00 DATE ACQ: 3lJan64 ENC L: 00 SUB CODE: FP, IC NO REF SOV: 010 OTHFIL- 001 Card 3/3  ACCESSION MR: AT4016005 S/Z625/63/000/015/0333/0343 AUTHOR: Lavchanko, Ye, S.; Ponomafews, Yo. A.; Mesmyonove, T. S.; Mifskly, y6. V.; zamesova, S. P. TITLE: investigation of the hydrocarbon composition of gasollnes distilled directly from North Caucasian petroleum SOURCE: Grozny*y. Neftyanoy nauchno-issiedavatel'skly institut. Trudy*. no. 15, 1963. Tekhnologiya pererabotki neftl I gaza. Neftekhimiya (Technology of pro- cessing petroleum and gas. Petroleum chemistry). 333-3143 TOPIC TAGS: petroleum, gasoline, hydrocarbon composition, North Caucasian petro- leum ABSTRACT: The authors have compared the chemical composition and physical pro- perties of Ozek-Suat (Stavropol' kray), Karabulak and Zamankul (Chechen-ingush ASSR) and Anastaslev (Krasnodar kray) petroleum and have carried out a detailed study of the hydrocarbon composition of gasolines from these sources. Tables are presented showing the content of each hydrocarbon. as well as the totals for the paraffin, cyclopentan, cyclohexan and aromatic series and the distribution by molecular weight within each series. The data show that gasolines obtained from 'Cpalaffinic crude oils from the Ozek-Suat, Karabulak and Zamankul regions are arl  ACCESSION NR: AT4016005 characterized by a high content of straight-chain paraffinic hydrocarbons; this Is most pronounced for the Ozek-Suat gasoline. For the Ozek-Suat and Zamankul gasolines, the high cyclohexane content, a fifth of their total composition. is also characteristic. Karabulak gasoline Is characterized by a lower content of hydrocarbons of this group, but the largest amount of aromatic hydrocarbons. Zamankul gasoline is the least aromatic. Gasoline from Anastasiev petroleum, In contrast to gasolines from paraffinic crude oils, Is characterized by (a) a pre- dominant amount of cyclohexane derivatives, (b) the almost complete absence of straight-chain paraffinic hydrocarbons, (c) a very low content of aromatic hydro- carbons and (d) a high content of Isoparaffins of highly branched structure. Orig. art. has: 6 tables. ASSOCIATION: Neftyanoy nauchno-issiedovatellskly Institut. Grozny*y (Petroleum Scientific Research institute) SUBMITTED* 00 DATE ACQ: 31Jan64 ENCL: 00 $US CODE: FIX No REF sov: oo6 OTHERI 000 Card 2/Z  10 T sm, oo age= of,',dWI: is intro&u:"& in+.*-** is Accomplished a -histing up'to 95-100C with live stem 8: a Cal IdZin vej~t Water to the 8~ tempers,*6 is.. "d(4, that the' molar ratio I in--.th* b7drogel is equl..- i3i illlio~ to nuwbuo~. isoledovatel. sidrAnstittt (CLrjr~  CLI. DIN 7 WIA ""i  :,6-V  L 2T692-" MWA AGG Ott AP5W4962 SOUIES CCD3t UR/0286/65/000/016/0024AW4 AUTHORSs V4 ~# Y ~,~ - V U Golovko# V. 0.; Papkov, So No I Ruchko, L. F. 9 ORO I none 09.1 :TITLE: A method for obtaining granular synthetic zealitealof 'type A. Class 12# No, 173719 finnounced by Groz= Petroleum Scientific ftegcft 129W-Ute '(0roxnensidy neftyanoy nauchno-isoledowatellakly institut,21 souiest Byunstan, IsobretenLy i tovarnykh snakov, no. 16, 1965, 24 ITOPM TAGSt seolite,, alumosilica gal ABSTRACT i This Author Certificate presents a method for obtaining granular syn- thetic asolites of type A by crystallisation of alumosilica, gel. To produce neahanicsW strong seolites without using a binder,, alummilica gel with a water content of 29-39% is subjected to granulation,, and the resulting granules are hested at a toWerstwe of 90-1500. SUB GWZ$ Mr, WON DAT& 2JAVv64/ ORIO RMs 000/ OTH R&Fs 000 C~vd. IA. VMt "1;283.6 66.0".2  ALITGAUZEv, A., i- , J-nzh, ; XIRS~.IY, Yu A , jr,,zi. Now electric aohting ~qLj~r-ent, 79it elektroprcr., 32 no,I : 62-67 C, 161. . M:Rl 14. ,Lloctric furnaces)  M:RSKIY, Yu.A.; KCL-3A, U.', S o m par tnion t- *, /,, o ' ur rin c e 3 : or : ne ~,,. ; c a~ a.,k; :: e a '. *..- f3 a ',,7.e n ', . , 8 '. a , . 0 ve 14 . I term. obr. moL. 5 If-14. (": tiA 1'7., 11, 1. Vaesoyuznyy nauctino-issladovatel 'sicly Ina*.LLut olooxoterm--cries/ogo oborwovanlya I inntitut "Toploproyekt.".  HLUSKIT, Zinoviy Takovlevich; VAlXSV, 0., red.; MMIN, Tu. (Rumania of our days] Rnmyniia nnanikh dnei. Xoskrvm. ;os. izd-vo polit.lit-ry, 1959. 111 p. (MIRA 12:11) (Rumania--Xconomic conditions)  S/079/63/033/001/023/023 D204/D307 AUTHORS: Shostakovskiy, M. F., Vleasov, V. M. and Mirskov,R.G. TITLE: Synthesis of the acetylenic esters of organotin PERIODICAL: Zhurnal obahchey khimli, v. 33, no. 1, 1963, 3,4 TEXT: Compounds Bt 3SnORCQCH (where R=CH 39 (CH 2)29 CH(CH3)29 or C)CH3)3) were obtained by: (it) treating BrMgCaCR0MgBr (obtained from EtMgBr and butyn-l-ol-4) with triethyichlorostannane, heating for 6 hours at 1000C, cooling and adding water to the rea,:tion mixture. The organic layer was separated, dried, the solvent (ether) was evaporated and the products were fractionated; (b) heating acetylenic alcohols (pretreated with Na) with Et 3SnCl on a water bath. The compounds, whose atructure was confirmed by ir apectro- acopy, did not reaot with vinyl eaters with the formation of ace- tale. Card 1/2  6/07 63/033/001/023/023 SyntheaiB of the ... D204YI)307 ASSOCIATION: Irkutakiy inatitut organicheakoy khimii Sibirekogo otdeleniya Akademii nauk SSSR (Irkutsk Institute of Organic Chemistry of the Siberian Branch of the Academy of Sciences, USSR) SUBMITTED: August 30, 1952 /-Sic-7 Card 2/2  SHOSTAYOVSKIY, M.F.; VLASOV, V.M.; MIRSt.0V$ R.G. Synthesis f organ,)tin ac~tylo,-~ic sicetals. Zhur.-l- khIm. 33 no.b:2076 ja ',j 3 . 'Wir(A I, -) 1. Irkutskiy institut organl-heskoy khlmll Sibirskogo otAelenlyR IN SSSR. (Tin organic compounds) (,4cetal) (A44tylene c,,mpound.,;)  ACCESSION NR: AP403456) S/0079/64/o34/oo4/i.354/l355 AUTHOR: Shostakovskiy, M. F.; Vlasov, V. M.; Rirskov, R. G. TITLE: Reaction of triethylmetho.Vatennane with acetylenic alcohols SOURCE: Zhuraa.1 obahchey khJ-Ji, v- 34, no. 4, 1964, 1354-1355 TOPIC -AGS: triethylmethoxystannane acetylenic alcohol reaction, tin containing acetylenic ether, disproportionation, reaction condition, reactant ratio, acetyleaic alcohol, triethy1mothoxystannam, stannane ABSTRACT: Reaction of triethylmetho.Votannane with primaryp secondary or tertiary acetylenic alcohols containing an acetylenic hydrogen results in the formation of tia-containing acetylenic ethers of two types., depending on reaction con&itions and reactant ratios: (C,11,),Sn0xr.;--C11 + C11301' (C21103WC113 + "0XC3'C11 (1)