3/078/63/008/004/003/013 Density, viscosity, and surface tension of .... A059/A126 Figure 1: Pyanometer for the determination of the den- sity of chlorides: 1 - pyanometer; 2 - constant tem- perature jacket; 3 - marks; 4 - place of opening of the pyonometer; 5 Hoeppler thermostat.- AA card 4/5  S/078/63/008/004/003/013 Density, viscosity, and surface tension of .... A059/A126 Figure 3: Improved gas setupfor the determination of the surface tension: 1 - gas cylinder; 2 - electric furnaces 3 - tube of the apparatus for liquid and gas filling; 4, 8, 10 - connecting pipe, '5 - container for tube calibra- tion; 6 - calibrated t~4; 7 - intermediate cylinder; 9 pressure-gauge cylinder; 11 cushioning cylinder, 12 trap. - -------------- Card 5/5  ~VANOV-EMIN B.N,; ITISEL'SON L.A.; SOKOLOVA T.D. p .0 - Reactions of scandium chloride with ethylenediamine. Zhur. neorg. khim. 8 no.6:1381-1383 Je 163. (MIRA :L6:6) (Scandium chloride) (Ethylenediamine)  ACCESSICK Nit: AP4036963 B/0078/&/009/005/1049/.1052 AVZHOR:. Nisellson,, L. A.; Pustil"nik., A. TITIZ: Orthobaric density and critical parameters of njobium and tantalum pentaeblorldese SOLMCE: Zburnal neorganicbeakoy 'rbJ-Ji,, v. 9, no. 5., 1964, 3D49-2052 TOPIC TAGS: niobium pentachloride., tantalum peatacbloride, ortbobaric density, critical parameter, critical density, critical pressure, critical teWmture,, niobixn tantalum analysis,, density temperature relationship,, Bertbelot equation,, Uquid vapor phase equilibrium, crystal liquid phase equilibrium -ABMM=: The orthobaric density of NbCl and TaCl throughout the 31 uid state ritic2 parameteL were dete d fig. 1). and in the vapor state,.and their c nmine r The densities of the liquid TaC15 and NbCl and of their mixtures were measured 11 precisely from their melting tez*eratures ?216.2 and 204.2 C, respectively) to 300-320 C. The critical Rarameters for NbCl were: critical twperature 534 C., density rit 0#68 gm/cm.), pressure p T~9 atmospheres; for TaC2,% vere: 49~ C,,: 0-89 in/=S and 43 atmospheres. Sinceagle liquid-vapor phase and the crystea-  ACCESSION NRi AP4036963 ENCLOSURE z 01 Fig. 1. Data for orthobarie density of NbC3.5 and TaCl f. 4r 5* 1. --NbClc; (vapor); 2--UbCl5 (liquid)., data obtLned in a small pienometer; 3--NbCl (liquid), debe. `.-tained in 44 large pkenemeter- 4--Ta-'! (vapor); 5--TaM.5 (liquid5,, data ~b":~ in SM66U Pl==Oter; 6--TaC15 (liquid)., data obtained in large picnameter. tki critical temperature Tact$ tn4 melting temperature %C11 AAF1441 zwp- V dens Ity gm CM3 Card  141SELISGHI, L.A.; SOKOLOVA, T.D. 'rthobar-ic densities and the criti-cal uarameter- of the viobium and tantalun, Fentabrormides. Zhur. neorg. kh-irl.. 9 no.9:2066 2067 S (III Pi A 17: 11) Gosudarstvernvy proyektnyy ~u 6  -~3 "' T. 'SON, L. A 1, TJZ~ 7. 1 T densttles -:-,d crjt~cal parar-,-~--tera cf nfobium 7hur, noorg. kh-m, 9 no.5e and tanta,urr rentachlor-(, IC-49-1052 My 164. 04T-F-A 1,7z9)    t C # Pg/Cm t C tP ewcqL g/m _t$ C . ~ '71 0 1: 9 0 00495 : 204 0* - 2 1799 : . 327,0 0,00444 ' 2st,so ab 1e 1. D ensity D 3- 0 3170 0 00510 012 0 2M:5 O' 24t 2 1358 951 2 BWO 0103 321,0* 2,6338 of U(Traid molyb 1:3' 0 , ,0188 e 0 08 , 5s 261, 0 ,0 ,0W 2,0 0103 0 OW : 353.0 382,V * 2,5811 2 5071 - : : achlorkb denimn pe 2 . 351. 282,5 and tungsten hexa-~ 2,010t 400.0 0 , 0182 4tO,O 2 4Aot 1mo 3%,0 40816- 459.9 474,5 47810 4884 50?:0 5105 0 j5f 2: .1 533,0 &%,0 563,0 567,5 511,0 574.0 $770 578:0 -6786 -&id .0,03m I W3,00 1 9687 406,0 0,0212- 2- 436, 2,1119 dbloride and of 0,0396 32t,O* t:9354 443.0' 0399 478,0** : 2,280 0,044 - 353,00 1 9651 446.0 0 0356 484,5** -240 their cELtumted 2, O'm 331,70 1:8031 480,0. 0598 .52615*0 2,080.. vapors 0,1064 397 0* t,7661 00793 565 5.00 1gj() OT 0,1 414 01* 1,724 .50 :0. mg 0: 540 583: 17w 0 134 422 1,700: '555,0 0, 15T - 599,5** i, Weasurement results, 0:164 457:5- 1 fm 557,0~ 0,177 65010#0 Ob-, tIOM j of' high accuracy 0 166 0 IV 49750* 574000 1:470 0 774 562,0 577 5 O'lig 0,2f5 /650.w* 000 650 0066. tedned with large 0 m 0,23 , , .-592,6 0,269 , Mr=ometer. 0,303 ~622 0 0,430 VVeasurement re- 0,35 389 622:0 023,0 0425 0:539 th -cults 6atainedin 0:516 ~624 4 01376 0386 645:0 0.590, O:Gf4 059 647,0 0.722 0:62~ M 0, 0:71s 0 w?   L 29547-65 . 'ACCM-ION Im: AP5002796 EM WSURE: Table 3- Viscosity of liquid molybdenum pentachloride and tungsten hexachloride KOCII WGI. HOCI, WC10 I i. can- rataise cen- 210,5 0, M 285 5 1',193 276,0 0 564 342,3 0,882.' 221 0- 0.700 290:5 JiM 289.5 0:525 351,5 0,8M 0 732 308#1 1 i042 m,5 0,479 370,7. 0 742 240,5 0:681 309,8 1,051 - 385.7 0693 252 5 0,621 MiS 972 0 00,5 00(w 0 264: 0,599 333,0 0:908 Card -15/5  0~4j~ Ot (m)/r-AP b) /EWP (t) IJP(c) JD -ACCESSION-TM:- AP5oo848o--- SAW/65/010/003/65 95 AUMIOR: Nisellson,, L. A.; Mogucheva, V. V.; Sokolova, T. D. T'.-"LE: Critical parameters of phosphorus, axsenic., and antimony trichlorides Z;DM,CE: Zhurnal neorganicheskoy khimii, v4 10 no. 3, 1965, 592-595 IMPIC TAGS: antimony trichloride,--arsenic trichloride, jpjj2sphoru~ trichlori critical critical~!~s!-Ey---ZAhdbaric density ABSTRACT: This study has been carried out because the available data,on the sub- ject are disconnected and Incomplete. Orthobaric density curves for SbC'31 ASC13-) 1, are plotted, and the critical-temperatures and densities of the chlorides -a PC 13 are deteimined f"rom the density data. The experimental data are processed by the 1 method of least squares and presented in the farm of interpolated equations. Den- sities of the SbCl liquid from melting Point to 320C and of the AsC13 and Wl 3 Itz,aids from 0 toLhO-140C are measured with great accuracy. The results are given't in Table 1 of the Enclosure. The experimental density results areV as a rule, in very good agreement with available data in the technical literature.- The criticdl data temperatures for SbC13 and PC13 are also in good agreement with the available Carcl 1/4   '4375o-6.5 L ASCESSION NR: AP50081180-- MWSURE:'- of Table 1. Orthobaric densities of antimony,, arsenic, and phosphorus trichlorideso-, abuts AsCle v U4uirl VaVDr TLA Uid Vanor MmAA Dmi ty, ty, ,,. S, C an )3 613 - wM PIP A Mj4 0,00420 03,3* 2,7032 166,5 O,OM 8,0*2,1878 08,0 0105 -9,54 1 GM 237,6 0,0093 78,4 * 2,6653 195,9 0,0238 32,50 2,1344 121,6 0159 0,001:6102 247,5 0,0115 944 * 2,6325 M,3 0,0352 34 8 2,1288 125,5 MO 15.84 1 5821 0 249.2 0.0103 123 is 2 2663 243.0 0,0503 73:0# 2,(972 126,8 :O(qf 27i5* 1:5597 0 259,3 O.ORO 153:5 2:4975 255 4 0,06M 75,5' 2,0413 t46,1 .0260 40,561 5339 0 2887 0 0225_ 182 7 2,4281 275:5 O,QM 7810* 2,0356 159,3 0337 54 G* t,5wi 0 0 0242 207 ?s 2,3703 296,30 'M 296:3 : "" 84,54 2,ozt5 t6t.0 0,0350 6697- to 14 0 00326 239 3 2,2949 3M,3 0-122 I(M.70 t,9743 193,60, 79.3$ i.46M 30 0596 316:7 0:0327 270:0 2,2199 332,3 0,169 126 80 1 9M 05,7 0,062 90,4* 1,4377 W1,5 0,0301 207,5 2,1468 353.,2 0,272 128:50 1:9185 236.t 0.12t 102.5s 1.404 - 0' Card 3  If 43?50-65 A--MS:EON*hR: AP50ON180 ENCIa (Table I cont.) 325,5 0,0354, 322,5.. 2,08 378,6 OAU 146,74 8771 252;7 0;156 113,94 C38a 338,7 00419 346,9 2,04. 3785 0484 Mj8l 87H 266,0 0,203 MO.O t:34 344,5 0:0406, 374,7 1,94 381:2 0:560 02.5 84. 271.8 0,215 160,0 1,29 353,9 0,057 418,0' 1,84. 0,0' t,83 278 3 0,256 f79,O t,24 402.7 0, tO4, 437,0 1,70. 186,2 1,79 237:2 0,021 194,5 'M 415 5 Of 121 454 5 Im. - 204 ' 8 1 73 ~ 290,9 0.4 01 206f2 116-- 425:6 141 469:7 58 , 223,0 69 290,0 0,4 57 218,5 t: f 3 430,9 0,154 619 5 of 237,5 t,65 20t,2 0,4 57 226.2 1 to 444,5 0, 08. 521 1 00, 251 5 ' 61- 3 t:07 459,0 0 2095 522,8 10 264 0 1,57 . 241,0 t IDS - 471,3 236 0: 296"a t,46 t 021, " 247 ' 512,9 0,444 319,5 38 251 5 1,00 y: ' 515 '7 0 441 33795 f:29, 254 0.99 '0 ' M 3 0:555 348,0. 1,23 290 D 55 '0 521:5 ,k 0,705 353.0 t 20 289 5 O:Gq 8 5 22 7 92 31 2 :80 , 521:0 O:M 382:5 0,88 519,3 0,856 - The accurate density measurements were obtained in a pycnometer of large volume.! , Curd ILIA .0  L 59240-65 EWT(m)/WP(t)/EWP(b) IJP(c) JD ACCESSION NR: AP5015012 UR/0078/65/010/006/1297/1299 546.2841131 + 646.271131 AUTHOR: Nisellson, L.A.; Pugachevich, P. P. Sokolova, T. D. ; Bederdinov, R.A. TITLE: Density, viscosity, and surfacetension of silicon tetrachloride and trichloro- silane SOURCE: Zhurnal neorganicheskoy khimil, v. 10, no. 6, 1965, 1297-1299 TOPIC TAGS: silicon tetrachloride, trichlorosilane, chloride density, chloride viscosity, chloride surface tension ABSTRACT: The article continues a series of studien on the thermophysical properties of halides. Silicon tetrachloride and trichlorosilane are important source materials for the preparation of high-purity silicon, Data on their properties as reported in the literature are contradictory. In this report, the authors present the results of measurements of the density, viscosity, and surfa6e tension of SiC14 and SiHCI~ between zero C and a tempera- ture slightly above their normal boiling points. The chlorides studied were thorou ly gh purified by chemical means and by distillaqon. Density was measured in quartz pycno- meters, viscosity in a capillary viscometer, and surface tension by the method of maximum,-.. pressure in a bubble. All the measurements were carried out in sealed devices in order [Card 1/2   L 6a 589=62 BWT(M)/EWP(b)/EWP(t) Ps-4 IJP(c-)- JD/1JG ACCESSION NR: AP5018241 UR/0078/65/010/007/1516/1519 546'.6231131+546.681.31131 AUTHOR: Nisel'son, L. A.; Sokolova., T.'D&- TITLE: Density, viscosity, and surface tension of aluminum and gal lium trichlorida SOURCE: Zburnal neorganicbeskoy kbimii, v. 10, no. 7, 1965, 1516-1519 TOPIC TAGS.- aluminum chloride,_&4~,.llium chloride, density, viscosity, surface ten- sion ABSTRACT: Pycnometric measurements of density yielded the followin equations: fAl 2Cl- =1 2841-2.32 x 10-3 at - 2 36 x 110-61 At2 dcm~ from tfus to 256.0C, here ~t t - 192.5C (mean square error46?sq 0 0006) and 2 0546-1.985 x 10,3,6t - 1.44 x 10-6 At2 g/ci;~ from ra2C' tfus 78.0 to 240.'OC, w9ere b*t = t - 78.,OC (mean,square error bP, ='0.0013). sq From the peaks of orthobaric curves,, the critical temperatures (t cd were found; the critical densities were also determined. From viscometric data, the followin'! 9 equations were derived: Card 1/2   UNKOVSKIY, B.V., MALINA, Yu.F.-, SOKOLOVA, T.D. Stereochemisti-i of acetylene synthesis, Part 4: Synthesia I and spatial configuration of ,he geam-Aric isomers of 1,-2- dimethyl-4-ethynyl-4-piper4-do'l~ an.. -eir derivatives. Zih-ur, org. khim. 1 no.47699-?06 Ap '65. (MIRA 1. Moskovskiy in8titut tonkoy klimicheskoy tekhnologil imen~' Lomonosova.  N-!.'A;,''-QONF L.A.; C-OK01,I)VA -r.D. Orthobaric densities, criti-al para-meters and viscosl-y of kc0l, and "'C16 khlm. 10 no.1318-21 Ja 165. Zhur. nearg. 1 (MIRA 181,1111 1. Gosudarstvennyy nauchno-issledovatuellskly 1 prwfektnyy instLl,ut TedkoLetallic-heskoy promyshlennosti "ONJITMET"; Moakm.. Submit'ved ~ug. 3, 19656  7 L Y;85-0-66 7,T(ri)/7-7,~T (t) /.,TI ACC NRt AP6ol4898 (N IJP(c) '.--T,-I/JD/JG SOURCE CODE: UR/0076/65/039/012/3025/3032 AUTHOR: Nisellson, L. A_~_; Stolyerov, V. I.; Sokolova, T. D. ORG: Moscow State Scientific and Desi n Institiite for the Rare 1-letol Industry (Moscovskiy gosudarstvennyy nou6-hn-o-issi~-3o-vfife-Yf-6-ki:y--f- proyektnyy institut redkometallicheskoy promyshlennosti) TITLE: Properties of liquid zirconium tetrachloride SOURCE: Zhurnal fizicheskoy khimii, V. 39, no- 12, 1965, 3025-3032 TOPIC TAGS:.- zirconium compound, chloride, heat of vaporization, -TUMMer. ABSTRACT: The zirconium tetrachloride used was the purest fraction, purified by rectification in a metallic packed column. The content of hafnium and other metallic impurities in the chloride was less than a, hundredth of a percent. The temperature mes.surements were calibrated on zinc (M-P- 419 500) and were mode with a Chromel-Alumel thermocouple using a type R~/l semiautomatic potentiometer. Determination was first made of the temperature of the triple point; this was done from the cooling curve. Next, measurements were made of the pressure of the saturated vapors. Results are exhibited in tabular form. Measurements of the viscosity were made with a special viscometer (illustrated in the UDG: 54-1.  1, 8~0-66 ACC NR- AP6014698 rticle). Finally, the surface tension was measured, and the results -Ivan in a table. Calculations were made'of the critical pressure, the .ussinormal boiling point, and the dependence of the beat of 'aporization on the temperature.. Orig. art. b9s.* 10 formulas,, 4 -figur nd 3 tables. CODE: SUBM DATE: 28Nov64/ ORIG REF: 009/ OTH REF: 010  ftASE I BOOK EXPLIDITATION SOV/4726 Kly:v. Gosudaratvann;i7 nauchno-lsolcdovatollo~cly I proycktnyy In- titut ugol-noy rudnoy, nertyanoy I gazovoy promyshlennosti Nauchnyyo zaptaki, ~JP- Is Dobycha i porerabotka nefti (3cl- entific RLports of the State Scientific R~soarch and Project Institute for the Coal~ Mining, 011, and Gas Industries, No. 1: Extraction and Processing of Petrolewn) Kiyev, 1960. 91 p. 1,000 copies printed. Sponsoring Agencies: trkrSSR Go3udarstvennaya planoviya komicalyn Soveta Minlatrov; Gosudarstvennyy nauchno-13sladovatellskiy I proycktnrl Ins.11,ut ugollnoy, rudnoy, neftyanoy, I gazovoy promyshlannos ti *Ukrnilproyekt." Editorial Council: V. P. Ak5enov, S. Ye. Anushin, S. I. Balinakly, V. Y&. Volchanakly, D. 1. Gal-tacV, V. S. Grin ant eyn (Reop. Secretary), B. V. Dzbanovokly, M. M, Zherbin (Chaim n), A F. Kotov, M. 1. Logvinov, Yu. M. Catrovokly, L. M. Orzhekbov- sLya, 0. V. Prisedskly, V. T. Sklyar'(Deputy Chai'man), 11. Yu. 3tasivi and V. V. Tsarltsyn, Reap. Ed. for this Collect.1,on: V. T. Skylar. Candidate of Chemical Sciences; Ed. : A. Novik. Card 1/5 11j1:_'_C0_j1_ec tIon of ~ticles is Intenaed for petroleum F, researcher engineers, and refiners, COVERAazs The collection or articles deals with the production and refining of patrols=. Individual articles discuon the effect of bound water on the depletion or pctrole= deposits u conditions t the nder dIdsolVed 943 1 the affect of presnure on viscosity or dega.81fied petrels=, the strui:turo of hieh-molo- jar patrols= hydroolLrbons, the asphalteno and tar co=po- ou ments of Carpathian crudes and menillte shale asphalts, slid the liphatic composition of a1cchol3 produced by aelective hYdro- :enation Of the CO and H2 product or synthesi3. Other articlc3 describ the carba=Ide dowaxing method for filtrates or wax dig- of flotation agents with he use of t stg:, the pcduct;lon -men oxidized pat ro latu=, and the Inveattgation or six bered WO .tic and naph'.1enic hydrocarbons by means of infrared aboorption spectra. The remsl=ng articles are on the relations of pressure- voluuge-tenperature-ethylone and on the phase equilibrium In :thylene-n-heXane. - th7lene -aye lohaxano, and ethylene-bonzone ystogs. specific vol=es and compression coefficients at Card 2/5 PETROLEXX W21NXNa Serglyonko, S-OR 'P Te. V. Lebed-v, and A. A. nkhnovskaya. On 13 the Structure r i&*i Molecular F4drocarbon5 of Petrolmm Card 3/ 5 P. Lizogub, A. F. millnev, and 0. A. Puchkov- Sklyar, V. T., A. Cale Hy- ska7a. Study or Si4x-Membcred Aromatic and Z;nphth 25 drocarbono by Infrared Absorption Spectra and N. V. ArCVYI~. M. S&Mt30Vl, T Q SOk0IOv3 Sklyar, V. T.p L. me Asphalteno and Tar Ccmponents of So a;~a~ -an Petrolena and 30 Asphalts or Menillte Shilen ~abirova, 0. V., G. M. Shapova 10 V' and V. H. Kara3eva. - Pro- ductiOn Of an Frfective Plot"tion AF, ent Based on Oxidized PC 56 trolat= Zhurba, A. S., and T. P. ZhuzC- CoapArison of the EthYlene-n- Hexane, Ethylene-CYclohexane, and Ethylene-Ben=ene Symte.= by the P-v-t-N [pre 3 s,re -0 lune - tempe riture-nolar facttan Of ethylene In the mixture] Rol3tions and Phase Equilibrium 68 Zh.ze, T. P., and A. S. Zhurbl. Specific Volunc3 and Com- pression coefficients of the n-Hexane-EthylCne System In the Interval of Pressure to 150 atr and Temperature of 30-150'C 78  USSR/Opt.i-cs Optical Engineering. K-4 Abs Jour Referat Zhur - Fizika, No 3., 1957, 7649 Author Sokolova, T.I. Inst Title ODtics of Russian Microscoi3es and its Develooment. Orig Pub Vopr mili-roskys-Ii. M.-L., Mash-.ez, 1956, 4371 Abstract Survey of the optical characteristics of microscope objectives in ocullars, produced by the Russian industry. A large number of tables is given. Card 1/1 - 16 -  SOKOLOVA, T.I.; PLATONOV, M.P. Biolouical microscopes in 1961. TSitologiia 3 no.3:345-357 My-, 0 je I&l. (MIRA 14:6) 1. Gosudarstvennyy opticheskiy institut, Leningrad. (KICROSCOPE)  SOKOLOW., T.I.; TIUNOV, L.A. ComDosition of diesel engine exhaust. Gig. i san. no.10:48 0 155. (MLELA 9: 1) (DIESEL ENGINES)  T 27 no,~;2~-32  60*11116,00,1111000::: A A r. A I I L 2 A It L GNVI .1 410 A c4talytic decomposition and 111JACIOD of O"Julonid 'Alth Wculifol cataf)AID. I I 1 . f-111111 A-41, 1 1 1'44%411A~16A Zhhl, P,ithpf-f KAP-~ 4. lial L~4kjjql~ 00 I ti- h. sit -.f w it% 4141,1 1. 111 kol lil'.1 i'l,"N I') I. ,, 1 . i--o ., It,, % 41"'1t 1, mll-q I ,,1 .00 ,I %1t 1 1, it 11 lit 4 't, 00 00 .00 .00 49 01 00 ala ItAl #IYAILU*GKAL L17111*7L4112 CLASUFKA110% ft da 'a., It 00 An I I % 0 :Oooo.oooeooooooooooo00001006000000000000000*  1 2 3 4 5 a y a 0 is 11 t2 u m t5 16 17 is 0 u F 'A A t A. I F c IS I I L a 0 p a It S T I v I T I Am 1 11 i$v AND Igo GIMM .CCIIIIIS AND 020PENT-IS Dt A 9 ON pmmmm~. Far ME.-I ...... Is WT 1, Owma Ind. con, 10 , In A. smi !Iwfivate 7,"Yw. wililwe 74. " 150 T R C t mo r y t . . . coa 1f0 , ( s 4i % b. 4 g AS-ILA st?ALLUPGKAL_LITI!RATUNECLASSIPKATION V- u Is Av PO I%:,, . 1 " ; 0 0 0 0 no 1b00:::::10000000000000 _u ;Its 00 .0 0 :of eel .60 =06 Cos coo too 11 see 600 400 see C-Z- 04 96 11 0 No 0 1 IN a a 3 1, 0 0 0 *-9 00  ) go 11 U U 4 11 w Ivw )f a Is ]y X 141 is 11 a ii J4 a 36 v A 0 4~ Al 4j 41 46 is T ML-- LRC~ AkO 4 11 fVOf 0 PSOCIMS AND POCOINIIII M004 -00 An 60 00WASM Pro- 0. X T. L R. owa. bd. Rem., iny, %, ml-iw) ~~-IU - 1, ofeaw"balk at V cataly~4 at 470' is "00 cc 69 rw 109 .00 4-6-40%. 2%9 nwv of &din- tion, is sale. to bi 23.000 S.-a&L The optimum ISOJ zoo Tarim Wilk do (0j, Mw " W" the Mkw of the ow4m of Oas for Ovdiriary.pyrf" VW Man. too ollislatkni im obiahwd with 70' fiw ~btualfenvue ma with 3-60,qa. amording 9'0* C amtent, atul = 8 with 8-2% 8%. Higbw conwa. of 80, can be vasd proMed that the ps mixture is enriched with 0, R. T. JL OfIALL~AL LITIIIIATMI CLASSAPICATION loom 11.1519W. .11 GOV Got a A a S i T -4w -(;A -.1 S I U an a 9 a rid 0 it 4 1 Is 61 -j a 3 aI 46 *10 0 0 0 0 0 0 0 0 0 0 0 0 0- is 0 -0 0 0 0 0 0 0 0 0 00009 Mee 464 0049 Coo coo too  0-6-Ar-O -W- W--W - I - .. 0 0 9 9 0 0 0 0 A if 14 IS 16 v It 12 1, 11 Wis um S&P U0041 dium A W1 A I~Q 4" PROCISSIS AWD ~RV*tAlItS ;%VC1 i he of Con't"t olddatiml of Ulf&tr dioxide In ' r. 1. P1 firric axide. C_ K. t%dxt,L,.v ;Vtoi X (A J. phys. ('heti, (U.S.s.k.) 18.147, - 101(1044); k s Any - , W SA I 1 l ( API 4 l l Got . ma t y' . FO). I, 'k Koo, it 13 - 40, C l ' r is f 11 ; let, It v ll. I Vill 11. o ; I lie lo y l /' (), - SO, UIX)VC 1411 71) d I sc low when it 6 re&chctl by cooling still high when tv" gem by heating. Above OW the cataly't Alow, in sill %-ray Go Clolloln. only the spaciript of hematite; Wow (17j)* it coil- WHI 111) 10 41% Of SO, Mind shom, Adiful. -vachiss. The sulfated catalpt is probably a mixt. of JI'VAh and irel- * go 'ji ~li (.SO,).. At (W the rate r of SO. fortuation deptuds on the conert. of 9%(x), SO~(y), and 0~(z) according to.& m go j k, I - (I1Kj(y1x)'-'I. Thc app&ent energy of Goa activation of the SOs fornuation is 39 ka.-W. It is su;- it-ted that SOt Ill oxidlud by the surface &turn of 0 in FV.0, which then 6 reolidited by Or. B.A. 0 0 :1 g Fl o SLA ETAL UR41CAL. Lill MAT 64 1 CLAISIFICAY100 90.111v to luol) I. om, '.C SULSI(Pff lll[Lill OW OWW Ill -i-- a L S a rm 0 a If I N 01 5 d3 4 3 0 9 if It OF a a a a, 1*9 elf 1 13 W. An 0 =00 too moo Wo uo  *too* **.*so*** W-V- I v 10 11 if of 14 it % I? U .11M, nmn J*17&m oil Lin Jim U U a*#) 41 n8l 4411110 A 4"-& m *-(X-MLU~A --- L 4-11 .-~L A- i;F 0 Tt's 0 0110CM11% AND OftPlklitt IND94 Prolimaralloo of moNdes of phoqhorus froln fe"hom- 'Bag. mead. Jci rJ 1943, M-101RIWAsummary)-ifeating 5.2S parts P with 41.38 parts S (as pyrite) under W-11 ~~!.rvv 7.2% recovery of P as mixt4i sulfliffs sea C f-t h n, P,7~- at 700 azmt 877, at 1070*. The most ft~momkaf pm~ ceduselowtobeat 31irs. atowl, niea~ure p ill the residue, add p3iifti stoichlotmetrically to the reqldue according to 15Fc$1 + 4FelP ~ 23FeS + P~&, and repeat the heating. This gives 90.3% overall recovery of P as mixed sulfides, whow compn. can he adjusted by adding P or S. For conversion ill I kg. P to PA. when pyrite is uqvf,.111 ego' 177 kg. when 5 Is used, aft - -1004 kg Up to 15M*, the action with 8 H practically irreversible. 00 -3i Cyrus Feldman V A 8.1LA ASTALLU0160CAL LITERATUNI CLASSAPOCATIOM slow 1711mit'. 11 la'a .1p C., Oil 41A 31 OW GOV Ill A A - 1-- 1 1 1 - I An A S is emo-O WIN USAIG 3 9 IF to a to ill of K it 11 N K it 11 a 0 0 0 : : 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0 00 0 0 0 6 41 *is 000 0 0 0 0 roe roe g*0 see rise 04110 1110011  IT-TARIONOV, V.V.; SOKOWVA, T.I. Study of the decomposition of solid solutions of the system phosphorus - sulfur. 1--v.Sek-t.fiz.-khim.anal. 21:153-158 '52. (mT.RA 6:8) 1. Nauchnyy institut po udobreniyam i insektofungisidam imeni Ya.V.Samoy- lova. (Solutions, Solid) (Phosphorus) (Sulfur)  eo Id The 1C4+3Ag;::t3AjCl+Bl. 14JQ4R1ov5 - C 'I-, .- y Tn~; ey Tno (N. sZEFWM - I I - t-Seklora Pt Anal. kad , Naak S.S.S.R. 21, IW71 '(1952).-This system Was studied by thermal analysis and' 'Microstructureanalvis. The diagonal cuts AgCI-Bi and Ill. -s CIAg of the trapezoid part of the diagram show reaction' product-son both these line.-;; thisindicates that the system Is at least partly reversible. There was less interaction along th6- line ASCI-Bi; this fact indicates that this Is the more stable diagonal..". The diagrarns show the presence of 2 eutectles., one in th ,esystern, BiCI,BiC[-AgC! and the other in BICI- Aj:CI-Bi. Tile location of still another eutectic in BiC!#- BiCl-Aj was hard to ascertain. On tile diagram there is a large n-a of layer sepn. and 2 one-phase areas. Within the latter are ' he fields where 33i, BICI, AC, AgCI, and In the are of layer scim. the following phases BiC13 -5!P a crystd. Aghl the lowerlayerand AgClla thcupper,(2) a etitec e alloy of 13i and BiCHu the lower and MCI In the. upper layer, and (3) a. eutectic of Ili and Ag in the lower layer and AgC1 in the upper. 'With a virw of. removal of- Ph refining it is pointed ouC that the chlorides and the metals formed in this reaction combine very little Ili tile molten state. The best yield of Di is obtained with all exec--~s of MCI, near the diagonal AgCI-Bi. Theinax.purity ofBiis95at.%- In the system BiCI,Bi was found an'un- stable compd., RiCl, which decompoics into Ili and BiC4.*  N~ 2 H20 USSR/Chemistry - Pharmceuticals SeP 52 "Synthesis and Study of the Gamma-diethylamino- propyl EtUher of 24L-thoxy-6-allylphenol,'~ A. M. Khaletskly, T. I. Sokolova, Leningrad Chem-Phar Inst. "Zhur Obshch Khim" Vol 22, No 9, pp 1648-1650 The garwa-dietbylaminopropyl ether of 2-methoxy- 6-allylpherol, as well as its hydrochloride were prepd from 2-methoxy-6-allylphenol and I- diethylamino-3-chloropropane. A salt was -Drepd from the above ether and 1,5-disulfonic acid of naphthalene. 232T28  USSR/Cbemistry - Phosphorus Jun 52 CoMpounds "Separat ion of a Mixture Of Pocl3 and PC13 T. 1. Sokolove, V. V. IllarionovY S. I. Vol fkovich "Zhur Prik Khim!' Vol XXVY No 6, pp 652-657 It in sbawn that values expressing the dependence of partial pressures on the compn of the PCI KPOC13 mixt, an derived for the purpose of plotting the isotherm of partial pressures of the system, satisfy the Duheme 7 eq and allow calen of the Duheme- Margulis const. On the basis of the data obtained, USSR/Chemistry - Phosphorus (Contd) Jun 52 the dependence of the compn of the vapor phase on the compn of the liquid phase can be plotted. It can be considered, with sufficient accuracy, as an isobaric function. 218T37 t4 9 10 ,to  SC1KCj7'0VtA1' T. L) Th%1ajWM of-the r inremandformaidebyd ..Ivnff=~an Fdm-akol. i TO(-M"4o . 10, No. 4, 45-7(IUMI. Beat- instilatingf,,la3tic'(I)Prtfd.froinHCHORndureit(asstar)!s Isprepd.1up ates (sp. gr. 0.03) and crumbs, which 1p.rWisisily but do not burn. At 180-2000, 1 Is carbonized and decompd. to form gases. A complete decompn. takez~ place at 400--500*. On an open flame the decNo * uIck d Complete. Among the formed gases HC Tn. N,the an foun presence of which was detectid by absorbing the gas" with- a dil. alkali with the formation of Prussian blue. When I Irg. of the plastic Is burned 4,738 g. HCN Is formed. Burn-! ing 0.15 g.'plas Ic causes the death of voice after 1-2 min. (0.71 mg. HC'N is produced). L. Goldenberx  ANIRMV, V.V.-, SOKOLOVA.. T.-I. Toxicity of heat-iasulating plastic with a formaldehyde and urvea base. Farm.1 toks. 16 no.4:45-47 Jl-Ag '54. (KLRLA 7:5) (Hydrogen cyanide-toxicology) (Plastic materials)  T IUNOV, L.A. SOKOLOVA, T.I.; PARIBOK, V.P. Rate of carbon monoxide excretion from the body [with summary in English]. farm. i toks. 20 no.4:76-78 Jl-Ig 157. (MM 10-:11) (GARBON MONOXIDE, metabolism. excretion rate (Rus))  VOLIFXOVICH. S.I.; SOKOLOViL, T.I.; KULA GI M-S I'AIRNOVA, Z.G.; KDYAZEVA, K.P. Carbonizatinn procoa-; for production of cryolite from fluoroaili- cate gases. Zhur. prikl.kbim. 31 no.7:969-976 ii l58. (mm 11:9) (Gr7ollt") (Fluorosilicate)  40-111' 4p a it v JF 2 IQ it 13 u W u f a k _L__ _JL .'~& 00 A J.D No 41. votes c 17 ..a J-D act#$ --- --- - Away MMPQUU&L VU11nation of chlolosuftonle Wove 0 ~A T N hydrosynso compounda by the "16m of cAjagoaWfoole awsycof"Pouncts. Comow. few, dfaLd. lei. U.N.S.S. In it little CC4. golaed ' with A tvat'Jil excess of CL%hll below -8 , stirml I hr. at -P. aim) thrown onto ke, YiWs' After let., a. frM 004 abs. AcOll, 70!'a p4jWr#zy&wbmvxe cAkr#jq2vW~k -00 oranse-yrilow cryows, to. sluidetly. ' ' di - 3.3 nvelbyUsusybenzew yieMi J,J 4jxk4AjW_ .00 t :0 ' i 0 ,e uns, in. 46-7.5 pr (from ligroin) , 3 WAichlormiczybens- ene yiekis M% W 00 '3 ora- lldfo-k (111), Grange-yelk- er"tals, m. 56.4-6.2' 200 G 0.3 (frons anhyd. AcOll); antl the a- and fi-isorners of 4- oo bromosaoxybenzwe ykM 80% #-broav.-4'_hjeIrvxysu_ - 00,3 brx3me chlorassifonate (TV), m. 106-7*. 1. U. M. and goo 00. IV are sapond. by boding 4-5 bra. with 2-31~ aq. or air. 0 a KOII to the corresponding hydrolynso camp&.; that from ' It Tn 114-15* (from li i h f 0 - gro n); t at rom III un. 124.6-5.8 (froinaq. McOlf); and that from IV m. 157-81, ClsoH COO n-Acts slowly with P-hydroxyambenjeue (from sapon. of '400 1) to yield 4-(4-hytfroxyphcnyfaw)benwn~utfonyt chlo- * i 900, tle, m. 131-2 r . Robert W. Shortridge 1 I ISO* L9 CL ti &ETALLU"ICAL L"INATLIMIR tLASSORKATION sanoso -4 % ldo L' aw. car a3"21 met a . - 4 W -I- & v ZA a I a a a 2 a v ?p IP I ; a it 9 of It 11 tt 0 No A I a 4 1 1 0 0 : : : 00 Oes 0 0 0 0 0 0 0 0 00000 0 0 0 a 0 0 * 0 4 ~ 0 0 a 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 10 0 0 .  SOKOLuVA, T.N., dotsent Clinical aspects and diagnosis of odontogenic inflammatory processes in the facial vein system. Stomatologila 38 no.3: 50-54 14y-Je '59. (MIRA 12:8) 1. 1% stomatologicheskoy kliniki (zav. - prof.I.M.Starobinakiy) I Mosicovskogo meditsinskogo instituts, imeni I.M.Sechenova. (FACIAL VEIN--DISEASES) (TEETH--DISEASES)  GORBUNOVA~ Z.V.; SOKOLOVA~ T.N. Syphilitic aneurym of the aor-ta with external nipturs. Klina 0 med. 38 no.'s2-47-149 Je 160. (MIRA 13.-12) (AORTIC MWRYSN3) (SYPHILIS)  /V PHASE I BOOK EXPLOITATION SOV/6333 Bochkarev, V. V., ed. Tekhnika izmereniye radioaktivnykh preparatov; sbornik statey (Tech- niques for the Measurement of Radioactive Preparations; Collection of Articles) Moscow, Gosatomizdat, 1962. 4600 copies printed. Eds.: A. M. Smirnova and M. A. Smirnov; Tech. Ed.: S. M. Popova. PURPOSE: This book Is intended for specialists In nuclear instru- mentation. COVERAGE: The book is a i3ollection of articles on recent developments in 1) measurement of the activity and 2) analysis of the composl- tion of emissions of radioactive preparations. The methodology and apparatus used in these studies'are described in detail. References are given at the end of each article. TABLE OF CONTENTS: Card I/P /  Techniques for the Measurement (Cont.) SOV/6333 Pigoreva, N. S., Ye. 0. Solodovnikova, and V. V. Fokin. Prepara- tion of Samples for Measurement of the Activity of Certain Com- pounds Labeled With CI4 and H3 Isotopes 67 Golutvina, M. M., and M. A. LIvova. Preparation of Specimens for Measurement of the Activity From O-Emission ' 72 Levochkin. F. K. Measurement of the Activity of Thick P- Sources 83 Kononenko, A. M., V*. A. Petrov, and V. Ye. Yakhontova. Dose Distribution Along the Axis of a O-Emitting Plane Disk 100 Bazhenov, V.. A.j V. V. Bochkoxev,.and T R._�9kolov Measure- ment of the~Activity of Gaseous Prep~At"ions by Means of a Gas-Filled Counter 115 Turkin, A. D. Radlometry of 13-Emitting OF-ses by Means of End- Window Counters 124 Card 3/5  BOCHKAREV, V.V.; KRONIGAUZ,A.N.; SOKOLOVA,T.N.; TIMOFEYEV,L.V Determination of the dose of radiation from 8-applicators. Med.rad. 8 no.2.,66-73 F163 (MIRA 1611l)  S/115/63/000/002/008/008 E194/E155 AUTHORS-. Bazhenov, V.A., Bochkarev, V.V., and S-okolova, T.N. TITLE: Sorption effects in measuring the radioactivity of gases PFRIODICAL; Izmeritel,naya tekhnika, no.2, 1963, 57-59 4r.,XT: In measuring the radioactivity of gases with gas-filled,! .Y:adiation counters, the absorption of P-radiation by the walls and end-effects cause errors which have both been thoroughly discussed,: particularly in the non-Soviet literature. However, there are also~ two sorption effects. some of the material becomes firmly attached' to the walls and remains there after the chamber has been nominally~ .swept free; and some becomes temporarily attached to the walls during measurements, so disturbing them, but is afterwards released~ and swept out, so that the effect cannot be directly observed. Tests were made to determine the relative importances of these effects. A chamber, filled with a gas tagged with a source of P-radiation, has a thin mica window in one end over which is placedl an end counter. The chamber also contains a layer of material of such a thickness as to absorb p-particles of maximum energy. Card l/ 3  Sorption effects in measuring the ... S/115/63/000/002/008/008 E194/E155 Then if this layer is plAced next to the window without breaking vacuum, the counter records only p-particles from substances attached to the inner surface of the mica and to the surface of the layer. It can be confirmed that radiation originating in the gas filling of the chamber is not being counted by withdrawing the layer and inserting an analogous layer between the mica window and the counter. This gives the background level. After sweeping the chamber, the background contamination due to irreversible sorption can be determined. The actual experimental chamber, made of duralumin, was 178 mm long and 50 mm diameter with a window of 1 cm2. A disk with 12 positions could be placed at various distances in front of the window so that the material of the layer could be altered without breaking vacuum or changing the gas. The gas used was CS2 tagged with s35 with a specific activity of 25 milliCurie per gram of liquid carbon disulphide. Surface sorption was studied on the following materiitls: teflon, mica, special lubricant for CS2, brass, aluminium, methylmethacrylate, olished and unpolished ebonite, rubber mastic and sheet vacuum- p p rubber. The experimental procedures are described in some detail. The materials were found to fall into two groups: the firs' Card 2/ 3  Sorption effects in measuring the ... S/115/63/000/002/008/008 E194/E155 instantaneously acquire a certain surface activity which then increases exponentially with time (PVC, ebonite, methylmethacrylate). The other group includes the remaining materials except the rubber mastic, in which surface activity instantaneously reaches a certain value which then remains constant. The relative sorptions of samples of the different sub.9tances, i.e. the percentage of the radioactivity picked up by 1 cM2 of the given surface to the activity of 1 cm3 of the chamber was: teflon 5; mica 5; brass 6.5; aluminium foil 6.5; methylmethacrylate 13; PVC 28; polished ebonite 30; rubber mastic 39; rubber 45; unpolished ebonite 65. For materials of the first group the calculation is made for an exposure time of 26 hours. From these data it is in particular experimental possible to assess the sorption of CS2 equipment. Thus the activity Of C52 sorbed on the walls of the measuring chamber filled with radioactive carbon disulphide was .directly measured. A large proportion of the sorption was .reversible and so is not revealed by background measurements after cleaning. The sorption effects are very considerable, and differ for different materials. There.are 4 figures. :Card 3/3  BOTVINKINA, L.N.; SELIVERSTOV, V.A., SOKOLOVA, T.N.; YABLOKOV, V.S. Some genetic types of Tatarian red beds in the Ural Mountain region of Orenburg Province. Izv. AN SSSR.Ser.geol. 28 no.5:47-66 My 163. (KRA 17:4) 1. Geologicheskiy institut AN SSSR, Moskva.  SOKOLOVA, TX.; SAKOVA, T.V.; KONSTANTRIOV, N.N., doktor biol. - I nauk, red.[deceased] [Photoperl:odism of plants; bibliography of the literature for 1940-1963] Fotoperiodizm rastenii; bibliograficheskii ukazatell literatury 191,0-1963 gg. Moskva, Nauka, 1965. 364 P. (1,URA 18:10) 1. Moscow. Glavnyy botanicheskiy sad. Nauchnaya biblioteka.  Sf,IKOIffVA-f T.N. Phlebitis &s a complication in purulent processes of' the maxillofacial region. Trudy 1-go WI 44:119-126 165. (MIRA 18:12)  T, CM11;4-67 x; i ACk- Nwi A,17002769 '07Li',ZC': C6j).--. Ult/0039/66/021/602./01411 AUT60'.~: i1nvhonov, V. A.; ilochicnrov, V. V.; Golubev, Yu. M.; LGv1n, 1. V.; "o, 1~olovn, T. N.; Turkin, A. D. OXG: nonc TIMZ: r',casurements of activity of radioactive gases by means of spherical Ionization chainber -i SOURCZ: Atomnaya onorglya, v. 21, no. 2, 1966, 141-142 MIPIC TAGS: ionization chamber, radioactivity measurement ABS T, copper barrier, filled with RACT: A spherical, 24-cm ionization chamber with a air under atmosphcric pressure and operatin,-, in the -spectnim energy ran-e (0.15 to 2.20 Ncv) vas used fmnicas~5ing the ~as activity In experiments wich 13~;