SCIENTIFIC ABSTRACT PALCHEVSKIY, YE. I. - PALCHUK,, N. YU.

PALICHEVSKIT. Ya.l., professor (Llvov) In memory of Professor Y.Y.Novitakii. Arkh.pat. 18 no.6:140 '56. (KLRA 9:12) (19OVITSKII. VITOLID. 1878-1941)  LYUBOMUROV, A.F. (Llvov. ul.Piakullturnrkyn. d.24). PALICHEVSKIYO 70.1. PABOV. V.L. PLASTUROV, M.B., YRAYFUL8D. E.L. Angioarchitectonics of' the kidney following disense sind its clinical significance. Sov.kh1r.arkh. no.2:3-8 Mr-Ap 158 (MIRA 11:6) 1. Kafedrn suatomil (zav. - Drof. A.F. Iqubomudrov), kafedrA DfttOlO- cheskoy anatomii (zov. Prof. Ye.I. PFillebeTakiy) i klinika urologii v. - dots. N.B. PlAstunov) Livovskogo meditainakogo instituta. M (KIDNEYS--BWCD SUPPLT)  Y, ye,-. k y'/ !7~& kr t-~~ r v :,M-c -ec,.F~  SHPERL121G, I.D., kand. med. nauk (Llvr-.v); PALIC.HMKIY, Ye,'*,, prof. nauchnTy ruk-ovodi,.el I. Characteristics of odontogenic purulent and sep-,ic di8eases. Stomatologiia 42 no.309-64 ~t-Je'63 (MIMA 17t1)  PALIGMSK1Y. Ye.l., prof.; SHXRDWA, N.A., kand. med. nauk Work of the Lvov Pror7ince Society of Pathoanatomists in 1955-1956. Arkh.pat. 21 no.1:83-84 159. (MIRA 12:1) 1, Proisedatell LIvovskogo oblastnogo obahchestva pat o logo anatomov (for Pallehevskly). 2. Sekretarl LIvovskogo oblastnogo obahchestva patologoanatomov (for Sheremeta). (LVOV PRMINCB--PATROARATMICAL SOCIRTIXS)  FALICHEVSKIT, Ye.l.; ROZHDBSTVBBSXIY, L.M. ---~ftucr-WRN ~-- L Clinical aspects and pathological anatomy of tumorous formations of the sacrel region. Vop.neirokh1r. 20 no.6:48-50 N-D 156. (KLRA 10: 2) 1. 1z kafedry patologichosiroy anstoxii I neswnvich boleznay Vvovskogo neditsinskogo Institute. (SPM, neoplasms. sacral, ease report (Has))  BERLOV, G. A. (Llvov); SMOL'YANIKOV., A. V., prof., nmwbvyy rukovoditell; -PALICHEVSKIY,-Ye. I., Prof., nauchn" rukovofftmil Changes in-the perivasculmr commoRM" ti9sue of the bypertrolbied heart. Arkh. pat. no.7:41-46 '61.1 (MIRA 1';:4) (HEART--ZISKASES)  PALICHIKJ, D.A.;MSLOV, O.K. (Blagoveshchensk) Use of controlled hypotension in treatIng late prWancy toxi- cosis during labnr. Zdrav. Turk. 7 no.1115-8 N963 (MIRA 17:3)  PALICHIK, D. A. PALICHIK, D. A.: "Chanje3 in vie permt~.olLi~.j )f vasc..I;,.r t~ssra in late pregnancy toxlcone-t" .(,;Lin.caL-(jxperI,n, i.L&L data). A!3n- khabad, Turkmen State Medical inat imeni 1. V. Stalin. (Dissertations for the Degree of '~'andidate of Medic&l Sc.ences) SO: Knizhnaya letopis', No. 52, 24 Dece:.-;ber, 1),)5. V,,)sc,)w.  MARKEVICIft S.V.; PALICHIKv M.V. Effect of the energy of quanta of x-imidiation on the oxidation of iron in solution and the optical activity of glucose. Dokl. A14 BSSR 5 no. 2t65-69 F 161. (MIRA 14:2) 1. Im9titut fiziko-organicheskoy khimii AN BSSR. Predstavleno akademikom LN BSSR B.I. Stepamovym. (I rays) (Glucose-Optical properties) (Iron)  0 GOICRUM, I.A.; 79K, A.P.1 X(SOVLWV, V.S.1 1APITSE7, V.I.; F"KH VSKLXr4-,S.j P714m, V.A.; KKITM, S.I.; UMET, L.ILI ptirlmali uchutiYel RUINOVICH, A.3.1 DMMO, Q.T.; PLLICM, X.T.1 VAIZS!=, N-I.; KMTANrMA, Pj- Dateratmation of an efficient camposition of silicochroolus and its vAe for allayLos UNUS steel. Stall 22 mo.7a615-616 JI 162. CKLOA 15M (81lioaw-abroolm al1M)  KSZNWK, F.A., inzh.; LOLK. V.N., inzh.; Pi~LICH4,_1.10_p iazh. Investigating the heating and rolling of electrical steel slabs. Stall 20 no.8:738-739 Ag '60. (MIR& 13:7) 1. Zavod "Zaporozhlstall." (Rolling(Metalwork))  I L 1 S 6 1, a a in a b u I on 9 snobs seen 44)04* --L-AL-A-f- -S-IL L I k . A . I . a L I u a . . . . 00 A . no ~w P&MVIVIVIS Not. T~ 00 00 Owb so slodmomme mod wimodow no- 0 FW' P*O, V. S. .4; N. -00 im Wkb no &.8. "1 CCLI11110, .00 004 gim &VW It of Imm"Widw mm h" 0 dr- -00 kri to womila. C"lp of Nk.1"me '60"a 004" Was by 30-0% tbnogb tbib trustromo, rA- b tht original poin b wm $11duty W" 1 4. A A. lkwMhmk 0# 00 ore* zoo 00 MULLLOW&L 1,11FIRAT4011 C&AIINKATIOP I L im J.. ast, *bill, 00 Q.- IS, V-111- TIIMA a ft w 0 0 a 4 .1 0 v a 0 0 0 0 a n a MID a 0 0 0 0 0 0 0 0 0 0 0 0 0-4 -0 0  MAMWYANIX, Ignat Takovlevich [Slobodianyk, I.I.A.1, kand.takhn.nauk-, PA OV. Igor' Aleksandrovich [Pashkov, 1.0.), kand.takhn.nauk; CRUPRMEMO. Yekaterina Vasillyevna (Chuprunenko, 1Z.V.1, kand. tekhn.nauk; CFMRrA , Nikolay Antonovich [Charkasov, N.A.], kand. tekhn.nauk; LYSINA. Nina Borisovne, Insh.; RUBINOVICH, Isfirl Abramovne. inzh.; PALICHII, Petr Larpov ch. insh.; LITTINAMO. Nelanlya Doitriyevna. Insh.; SVJAWK HEVSKIT, Lyubomir Vladimirovich [Svorychavalkyi L V ) insh.; OSOVSLAYA. I. [Osovalka, Ij, red.; ZZJMOVA. To. luien*ko,va. 11.). takhn.red. (Local binding materials based on now raw materials of the Ukraine] Histsevi vliazhuchi no novii Byrovyni Ukrainy. Zs zahallnoiu red. I.IA.Slobodianyka. Kyty. Dersh.vyd-vo lit-ry z budivnytatya i arkhit.URM, 196o. 115 P. (MIRA 13:10) (Ukraine--Binding materials)  20639 00 B 03" AUTHORs Shchukovskaya, L. L.., Pa.11c.%.k, R. 1.. ar.J Corresponding Yemter AS USSR TITLE. Synthes i s and rear t i,,t,8 c f a.- e ty 1 arle s ir. PERIODICAL: DoKlady Academil nauk B36R, v. "6. n-. TEXT: The authors continued tne,-r studies of the silicon hydrocarbons (Ref. 1). From Ifiethyl 3a:y-' (C2H ),Siu' ~-CH they easily obtaired the Cmr, d 5 '/ (C2H5 )3Si ~- CMgBr which can react with carbony! compo-unds. in -re study, the authors proceeded accordir,g to ~he a neme, T ie.% synthet i zed alkyl - and al kyl -ary.1 - s i 1' y-' mc, nc ac, eer erc C h:IZ": type - S C =-CH, f urt he i 8 -,,,r e d e r- ii v~-. s 3f t:. '4 (where X Br, COOH. and (.tners", Of Tile d] hydrocarbons of the type - Si C -~ C - S i :,g Card 1/ 4  20639 Ic Synthesis and reactions :f . . . B, o b C. in the syntheses menti-3red,, , as wel ', -t3 ~ i~i d '? type R Si - (C ~ CHI Tne xediam -sed fjr *ne n 2 12' 1 12 (Table 1 1 was dry tel-ranydrof.ran. n-,s. 6_9 ve- authors noti cod the rod...ced V81 L;e 01' the vibrat ion a* the vibration spectra Df monosu!)st., t-,tpd si EL- e w:. z a triple bond in the a-position. Ac~:ording to ther is comparable to a similar reductlz.. in v;r.,y,' sl~.ana-~ 17-4 e ef f ect is much less d nc t ir. L~,e spe z: -~ra of d s i a acetylenes (Ref. 3). in -iie i -if rar ed spec- tr~um cf * ~.e a- d the s tretchin - vi brat i -.ns c 'I --re rydrox 1 z~ orre spct~. i 6,,- and 2908 em L.,.e position of these hands cnarac tt; - zcd .i-.e the hydrogen bonds and justifies the s!atement say..-~6 tr~,' somewhat strcnger than saturated alip~-.~~ i1c ids ~b t w, ,~er ':.an -ed acids). This conclusion was confirm by a ompar~ I ii-le'-7- constants of triethyl silyl ethin,;! carlr3xy-~c P_~:!d ~nj authors thank A. N. Lazarev for taking an Interpre*.niz *..,-.e are 1 table and 4 references: 3 Soviet-bloo. Card 2/14  SHCHUK(YVSKAYA, L.L.; PALICHIK, R.I. Synthesis oftrimethylBilaxyacetylene. izv. AN -iSSR. Ser. &I-n. no.8:1556 Ag 164. (mlF'A 1. Institut kh-4mii Bilikatov im. 1.V. Grebenshchlkova AN SSSR.  ZHDANCIV, S.P.; FAL"'HIK, Adsorption dehy-drati3n Df al-ovcls n -I. ME! MI - C - !2 y- r: '~ : ~ Zej-: -~-j of the NaY type. Zhur. fiz. khtm. 0 no.2 46~-1167 F It,5. ,~?CRA i,3:C 1. Instif.ut kh.'M-.Ii sili-katov Jtmenl Grebe nshe h! k. -)va AN SSSR.  77. he& aw 0 -        f 4-A FiBu 'L -3*, Cwmiui* of'sti.0 Im. t I 4onsen it  SKFUKOVE YA V: : ." . , F;":. "I I: ~, ?,,I, ()H-s- cf addlt-4,-)n r-f to prv!!ari~jl- alcohol. ob, 1~ r,-.6-11--2 Je 16S. (~-- F-,!. 18; 6) 1 . 7nc'-t-.t soyeciiner,'-y ~v FSSR~  SHCHUKOVSKAYA, L.L.; PALICHIK, R.I. Synthesis of trialk-ylsilylalkoxyacetylenes and c4-bromo-e-trialkylailylvinyl others. Izv. AN SSSR Ser. khim. no,l2s2228-2230 D 164 (Miu, 1881) 1. Institut khirail silikatriv imeni I.V. Grebenshohi-kova AN SSSR.  KUPORITSKIY, S.; PALICHIKp V. louth helps agriculture. NT1D 3 n.2:54-55 F 161. (MM 14:3) 1. Zmestitell predsedatelya Moldavskogo respublikanskogo praveleniya Nauchno-tekhniebeskogo obshchestva sel'skogo i lesnogo, khozpystva Kishinev (for Kuporitskiy). 2. Predoadatell soveta pervichnoy organizatsii Nauchno-tekhnicheskopo obshchestya seI'qkokhozyRy9tVen- ogo Inatituta imeni N.V. Yrun2e, lUshinev (for Pal Ichik). (Moldavia-Farm machanlzation)  PERLI, S. B.; RDELIMAN, I. Ye.; PALICHIK, Yu. R. Breaking in an electrostatic filter for automatic ahAft kiins. Moment 29 no.2:18-19 Mr-AP '63. (MM 16-4) 1. Tuzhgiproteement. Pust collectors) (Cement plants)  ACCESSION NR: AT4001237 S/3031/63/000/035/0101/0107 AUTHORS: Belyayev, A. I.; Firsanova, L. A.; Vol'fson, G. Ye.; Lazarev, G. I.; Pal'chikov, A. I. TITLE: Obtaining ultrapure aluminum by distillation through subfluoride in a pilot unit SOURCE: Gosudarstvenny*y institut tsvetny*kh metallov. Sbornik nauchny*kh trudov. Moscow, no. 35, 1963, 101-107 TOPIC TAGS: ultrapure aluminum, ultrapure aluminum production, ultrahigh purity metal, ultrahigh purity metal production, ultrahigh purity aluminum, ultrahigh purity aluminum production ABSTRACT: Apparatus for the production of ultrapure aluminum by distillation via the hypofluoride, developed at the Institut tsvetny*kh metallov im. M. I. Kalinina (Institute of Nonferrous Metals) by A. I. Belyayev and L. A. Firsanova (Trudy Kintsvetmet- zoloto im. M. I. Kalinina, no. 33, 1960) is described briefly. In this method the purified aluminum is brought in contact with vapor- Card l/ ip-  ACCESSION NR; AT4001237 ized aluminum fluoride at 10500 and residual pressure 10- 1-- 10-2 mm Hg. The produced aluminum hypofluoride is decomposed into pure aluminum and aluminum fluoride which is returned to the cycle. During the course of the trials of the aluminum distillation tech- nology, conditions were found under which large aluminum ingots of specified shape can be produced in the condenser, with simultaneous production of the return condensate (Al + AlF3 with small amount of disperse aluminum). Tests with the pilot plant have shown the pos- sibility of producing by this method superpure aluminum (99.999%) in amounts up to 1 kg a day. The aluminum obtained in the pilot plant was found suitable for production of semiconductor rectifiers, since the siluminwn produced from it has less than 0.0001% Fe, 0.0006% Mg, and 0.0001% Cu. Orig. art. has: 3 figures and 2 tables. ASSOCIATION: Gosudarstvenny*y institut tsvetny*kh metallov (State Institute of Nonferrous metals) Card 2/1),  r --n 3 C~-, c u t ly~; i d, c n~ c h I u c. -I c".  PALICEIIKOV, D. A. "Steam ',reat;..ert f ~r z;praphde~,i -.1 s, 11 1n NA,~:~:. .-p: a e-'- . : p'-- -., -. ~.-r-v~t - s' - .- -- mosc3w, 19-J, .1 ,~- 1--1d SO: U-38~50, 16 June. 191-?, (L-o, J.s I Zhur-al stnte-.-, IN) - - , 1, )- ~) -  III-. . . 1~ j - , - . ., , "', " ., W KRICHKC, y T P.;. Ot,t& i rd ng dear.-,,-.i. z~~: ra-kllnL, ~7a~ 2-- Neftepe-,-. i neftekhi.-.. nc .3: 1 1. -Instit"A gc.- "'Ut I., rn,:, K, 116 ft I i ga 7., 1 r! y; L d k t C-. va  KRICHKO, A.A.; MEZHLUMOVA, A.I.; PALICHIKOV, G.F.; TITOVA, T.A.; Prinimp-li uchastiyes GHERKASOVA, V.F.; RAVIKOVICH, T.M. Hydrogenation of aromatized petroleum crude without oatelysts for obtaining naphthalene and other products. Nefteper. i nefte- khim. no.9:30-33 163. (KIRA 17:8) 1. Groznonskiy kroking-zavod, Groznenskoye upravlonlya neftepers- rabatyvayushchey i neftekhimicheRkoy promyshlennosti i Institut goryuchikh lskopaysmykh.  3 0!131-& EWTtm)/T A=- FM W"%67 A5 SOURCE CODE: A. Ax LOSOYM Ao Vo 1. 1. Nuelovich. D. L.- D. Of. Skrort of rolew Conversion and Chemical Indistryi Groznyy perer (Upravu, ft/ hchey i khisicheskoy promyshlennosti); Groznvy =nenskly kroking-zavod) TITIE 'Oetroleum products in a fluidized solids catalyst layer SOURCE: Nefteparerabotka i neftekM",, no. 12,, 1964g 15-20 A41 rs, TOPTC TAGS: hydro enation, catalysis. naphthalene. a Ritr ,q%i =n 7 f I t zid fractions with 83-91A sromllcs a average ABSTRACT: ~ Arose r. molecular weight or 185.5-169.0 (boiling ran 00 0) were extracted go P -300 wit~--aqueouis-- pyridine trom a catal:rtic crac'k-JIWIgso oil and subjected to hydrogenation on aa Al-Co-Ho oxi 'des catalyst In a fluidized bed. The Vptimum:.conditions for the production of naphthalene by this process con- priseA110 atin pressure, ~iW temperature, hourly space velocity of 0-6- "0.-9 kg/l.hr.-and a supply of hydrogenating gaG (80% H2 and 20% CHO I-IL.5 n37ij raw si&torial. Vader those coAditions, a 50% con- ~Lmouptiug - to 'Version the ra* imaterial to ~ Prodatte boiling below SWO was obtained !.I Y jet d of Mapht"Ism) "a Is Is & atingle bydre ig b naklan mage. Us 'author a are grate to V'L.-IIA, 4! 0 so AlItshuler aid G. P. Sechenov 9 'for their help 'in this work. Orig. art. has: 3 - figure sJ7Jd?brmula-s-,--aiiff-37U-Mes. COW: q? SUM UTE: ione MIG Fff: MH MW 0%  ACC NRt AP60138io SOURCE CODE: UR/0318/65/000/012/0003/0005 AUMOR: Pal IF.; Hezhlumova, A. I.; Kaganer, G. S.; Stepuro, S. I.; Krichko, A._ A.; Titova , T. A. ORG: Grozneftekhimzavody Association (Ob"yedineniye Grozneftekhimzavody ); Institill?. of Mineral Fuels, AN SSSR (I-n-st-1-tut goryuchtWh iskopayemykh, AN SSSR) TITIX: Processing of catalytic gas oils by extraction with pyridine and hydrogenation SOURCE: Neftepererabotka i neftekhimiya, no. 12, 1965, 3-5 TOPIC TAGS: pyridine, solvent extraction, gas oil fraction, hydrogenation, naphtha- lene, petroleum product, gasoline ABSTRACT: The paper describes the results of an extractive separation of catalytic gas oils from low-sulfur and sulfur feed stock by means of wet pyridine and the results of the hydrogenation of the extracts. The extractive separation of the gas oils was carried out in a continuous unit with a vertical countercurrent extractor provided with a pulsed par-king of perforated metal discs. The output of the unit was 1 liter/ /hr. The degree of separation of aromatic hydrocarbons from gas oil was 70-75%; for bicyclic hydrocarbons, 95%. The extract from the low-sulfur gas oil was used direct- ly as the feed stock for the hydrogenation. It is concluded that catalytic gas oils produced by refineries in the southern and eastern regions of the Soviet Union can be UDC: 665.5.521.4.66.061.5  ACC NRt AP6013820 used to obtain naphthalene (10-13% yield), high-quality diesel oil (53-66% yie ~), and a stock (16% yield) for the production of carbon black and armatized gasoline~ N. F. Danillchenko and I. L. Tsitron participated in the study. Orig. art. has: 2 ;abli-s. 7 j SUB CODE:tj)0 t~4,ov%e VQ%G REV: t GOA, 2/2  S/065/61/000/004/005/011 E194/E284 AUTHOR: Pal'chikov, G. F. TITLE: The Production of Paraffin Wax from Paraffinic Distillat- es by Extraction with Aqueous Pyridine PERIODICAL: Khimiya i tekhnologiya topliv i masel, 1961, No. 4, pp. 31-35 TEXT: In the older refineries wax is separated from medium viscosity distillate lubricating oils by filtration at reduced temperature. In modern refineries the oils are de-waxed with selective solvents the action of which mainly depends on reduced sollubility of solid hydrocarbons at low temperatures. Capital expenditure on refrigerating plant is high and so are running costs, particularly when producing soft paraffin waxes. ThereforN new methods have been developed for producing soft paraffin waxes using crystalline carbamide in combination with organic solvents. There are difficulties in this process too. Isoparaffinic hydro- carbons have a number of potential applications but little has been published on methods of producing them from light and medium distillates. It is, therefore, of considerable interest to ev 1 methods of producing low melting point soft paraffin waxes 8 ara N  3/065/61/000/004/005/011 E194/E284 The Production of Paraffin Wax from Paraffinic Distillates by Extraction with Aqueous Pyridine and also isoparaffin from distillate fractions. This article describes tests on the production of soft and liquid paraffins by means of aqueous pyridine. It was shown that pyridine containing from 2.5 to 5% of water is a poor solvent of paraffinic hydro- carbons-, not only at negative temperatures but at moderately low positive temperatures. 'When aqueous pyridine is mixed with paraffinic feed at room temperatures two clearly defined layers are formed, one the raffinate containing paraffinic hydrocarbons of normal and isostructure and an extract layer including the remainder of the feeds. On the basis of laboratory work paraffin wax was separated from the distillate feed by an extraction process on the pilot plant of the duosol process at the Groznen- skiy neftemaslozavod (Groznyy oil refinery). Six of the available heat extraction sections were used and the plant process is briefly described. The pyridine was regenerated from the extra--t solution in an evaporator heated with low pressure steam. The tests were made on two kinds of feed, filtrate boiling in the Card 2/4  S/065/61/000/004/005/011 E194/E284 The Production of Paraffin Wax from Paraffinic Distillates by Extraction with Aqueous Pyridine range of 270 to 4?0*C produced by separating solid paraffin wax from cooled paraffinic distillate and on a fraction with a boiling range of 270-350*C prepared by distillation at atmospheric pressule of the filtrate which contained a considerable amount of low melting point and isoparaffinic hydrocarbons. The solvent to feed ratio was 2.39:1, the extraction temperature was 21-22*C, the extraction pressure ranged from 5 to 4 atmospheres, and the percolation temperature was 25-30'C. During the extraction process the water contained in the pyridine is mainly concentrated in the extract phase, the solvent raffinate phase containing only negligible amounts of water. During the extraction process because of the differing solubility of hydrocarbons are redistrib- uted between the raffinate and extract phases so that whereas at the first stage of extraction the aromatic hydrocarbons form 18.7% weight by the sixth stage of extraction they form only 2.24% weight. The properties of the paraffin wax and de-waxed product produced on the pilot plant were as follows: Card 3/4  S/06 5/61/000/004/005/011 E194/E284 The Production of Paraffin Wax from Paraffinic Distillates by Extraction with Aqueous Pyridin e Property Wax De-waxed product Density 0.813 0.886 Boiling range 'C lower 283 - uj~per 345 - Setting point OC +11 -1 Kinematic viscosity 50'C 4.06 - centistokes Aromatic hydrocarbon content % 2.03 - Refractive index 1.4500 1.486 The refined paraffins contained no aromatic or naphthenic hydro- carbons and paraffins produced in this way could be used as raw material in the manufacture of synthetic fatty acids which are used in various branches of 4nd ustry. There are 1 fi~;ure, 3 tables and 4 Soviet references. ASSN~VON: Sovnarkhoz ChIASR Gar  PALICHIKOV, G.F.; IGONIN, II.G.; PASHENKO, M.A. Crude for obtaining synthetic naphtehenic acids. Trudy GrozNll no. 15:294-297 163. (MIRA 17:5)  PALICHIKOV, G.F. Use of pyridine for obtatping low-melting paraffins. Azerb.khim.zi,ur. no.4t5341 163. (MIRA 1712)  KRIMOV A.A.; WZOVOY, A.V.; MEZRLUMVA, A.I.; FAICHIKOV, G.F.; RAVIK&- VICHP T.M.; TITOVA, T.A.; CHWASOVA, V.F.; Prini-11 uchastiye: MgSELEVICH, D.L.; SOVETOVA, L.S.; TSITRON, I.L. Obtaining naphthalene from strnight-run fractions of the Anastaai- yevska petroleum. Nefteper. i neftekhim- no.100-8 163. (MIRA 17:2) 1. Institut goryuchikh iskopayemykh AN SSSR, Groznenskiy kreking- savod i Upravleniye reftepererabaty-vayushchey i neftekhimicheskoy promyshlennosti.  DEMBOVSKAYA, Ye.A., KOWASHINA, R.A.; MEZIILUMOVA, A.I.; PALI',HIK(YV, G.F. Analyzing the chemical composition of the extract of gaB oils from catalytic cracking. Khim. i tekh.topl. I masel 10 no.11t 16-19 N 165. (M-P'LA 1%1) 1. Tnstltut goryuchikh lskopayeaykh, Moskva.  KF', CHKO A.A.; roa cat a y, i 0- i4  KRICHRO, A.A.; IDZOV'-'Y, A,V.~ MHLUMVA, A,7,; MUSELEVICH, D,L~, P FALICHIKOVO 3,F.; SUCR-15OV, D,V, Hydrogenation of petroleum products in the fluidized bed of a catalyst. Nefteper. i neftekh.4m. no.12115-20 '64. (MI-RA 18-2) 1. Institut goryuchikb iskopayerWkh IN SSSR, Upravleniye nefte- pererabatyvayushchey i kh'micheskoy promyshlennost,, g. C,ro nT Z , , I Groznenskiy kreking--zavod.  PALICHIKOVI G.F. Freparation of ,,pec-*men!:; (,f hyorocarbons by pj-:ot plan't r' I extraction vith aqueo-1-- rirldine, "zerb. khim. znur. nc- 3:'9-35 164~ 1411RA 18: 5)  SOV/65-59-4-8/14 AUTHORS: Minasyan, T.S., P&11chikov,___G,_F., Bolotov, L.T., Ovoyannikov, P.V., Sfiu1n6'1iiiiy, V.G., Afanosenko, M.M., Rusakov, A.P. and Karpenko, T.G. TITLE-. Investigations in the Grozmyy Plants on the Catalytic Purification of Middle Distillates Obtained During Thermo-Cracking Processes (1z opyta raboty groznenskikh zavodov po kataliticheskoy ochistke arednikh distillyatov termicheakogo krekinga) PERIODICAL:Khimiya i tekhnologiya topliv i masel, 1959, Nr 4, pp 44-48 (USSR) ABSTRACT: The octane numbers of gasolines can be improved by catalytic cracking of the kerosine-gas-oil fractions, obtained during fractional distillation. This, however, seems unsatisfactory because these fractions are high quality starting materials for jet and diesel fuels etc. The middle fractions, obtained during thermal cracking, used as diesel fuels, contain a high quantity of unsaturated hydrocarbons and have a low cetane number. The quality of diesel fuels can be improved by using aluminium silicate catalysts and enriched secondary Card 1/3 distillates. In this way, the consumption of unsaturated  SOV/65-59-4-8/14 Investigations in the Grozayy Plants on the Catalytic Purification of Middle Distillates Obtained During Thermo-Cracking Processes compounds is decreased and the cetane number of the diesel fuels increased, whilat maintaining the standards required by GOST for diesel fuels. Tests were carried out on substances obtained after second distillation of the broad fraction and also by using mixtures of these substances and the kerosine fraction obtained during thermal cracking. The properties of the tested materials are given in table I and the process conditions in table 2. Some high octane gasoline was obtained during this process. This was purified, washed and reacted with an 18 to 20% NaOH solution. After stabilisation it was purified again, treated with a 15 to 18% NaOH solution and washed. The stabilised pure gasoline had an octane number of 76. A catalyst of decreased activity (29 to 30) was used during the enriching process. The properties of the aluminium silicate catalysts are given (table 3). Table 4 gives the hydrocarbon composition of Card 2/3 the gas. The catalytic cracking of middle fractions can  sov/65-59-4-8/14 Investigations in the Grozhyy Plants on the Catalytic Purification of Middle Distillates Obtained During Thermo-Cracking Processes be carried out on existing cracking plants and it is pointed out that the deposition of coke does not exceed the allowed limits. There are 4 tables. Card 3/3  DRUM';) A.P.; ZAM','OV, V.7.; Y-ilu'aO) A.A.: LOZOVU!, A.V.,- M~KAJMV-Iff, MEZIUMOVA. A.1.; '-ALICHIKOV, ~j.F.; STEPUROP S.I. Cambined arrangement for the use (if thermal--crack~mg ker---sine. Khim. i tekh. topl. i masel 9 nr).6:1?,-24' J064 (~JJRA -,7-7) 1. Giprogrozneft' , Institut ~(.ryu,hf'-kh iskopayemyich AN SSSR i L, Grozneftekhimzavc,dy.  ,EALICHIAOV G.F.; MVAUMOVA, A.I.; KRICHKO, A.A.; KAGANER, G.S.; STRPURO, S.I.; BROVESKO, A.V. Extraction of aromatic hydrocarbons with aqueous pyridine from intermediate petroleum fractions and catalytic gas oils. Khim.i takh.topl. i masel 7 no.11:19-25 N 162, (MIRA 15:12) 1. Sovet narodnogo khozyzye-'Va Chockeno-Ingushokoy ASSR. (Hydrocarbons) (Pyridine) (Petroleum products)  s/o65/62/000/011/001/006 E075/E436 AUTHORS: P-11:hikov, G.F., Mezhlumova, A.I., Krichl-o, A.A., Kaganer, G.S., Stepuro, S.I., Brovenko, A.V. TITLE: Extraction of aromatic hydrocarbons from middle petroleum fractions and catalytic gas oils with aqueous pyridine PERIODICAL: Khimiya i tekhnologiya topliv i masel, no.11, 1962, 19-25 TEXT: Following the laboratory work reported previously (Khim. i tekhnol. topliv i masel, no.4, 1961) trial batches of aromatic extracts (400 to 500 kg) were obtained on a pilot plant scale from a catalytic gas oil and kerosene -gas oil fractions from Anastasiyevka crude. The extraction was carried out using aqueous solution of technical pyridine (boiling point range 114 to 1340C). The feed saturated with pyridine vapour meets the pyridine solution in the extractor. Countercurrent extraction takes place, the raffinate and the extract solutions leaving the opposite ends of the extractor. For the extraction of the kerosene -gas oil fraction the raffinate contained 30% by Card 1/2  s/o65/62/ooo/ol!/001/606 Extraction of aromatic ... E075/E436 volume of pyridine (water free) and the extract solution - 80-7~u pyridine, 1056 water and 9.3% extract. The e::traction was conducted at 15*C. The extract constituted 32 to 35" of the A feed and contained about bOqo aromatic hydrocarbons. The extract with 50% of the aromatic hydrocarbons was obtained with the yield of 705. The extracts were subjected to high temperature hydrogenation. For the extract from the catalytic gas oils the yield of naphthalene obtained by the 1,)-.rogenation was 30c. For'the kerosene- gas oil fraction about 205o yield of naphthalene was obtained and 40'o of a solvent containing 95% of aromatic hydrocarbons. There are 1 figure and 7 tables. ASSOCIATION: SNKh Checheno-Ingushsk. ASSR Card 2/2  S/08 61/000/021/070/094 B 138 X331 01 AUTRORSt Bolotov, L. T., Shumovskiy, V. G., Ovsyannikov, P. V., Pallchikov, G. F., Minasyan, T. S., Afanasenko, M. M., Rusakov, _1_.-F-.-,-Fu__r1_akov, A. G., Karpenko, T. G. TITLE: Pilot run for the commercial processing of a secondary raw material on a catalytic cracking unit PERIODICAL: Referativnyy zhurnal. Khimiya, no. 21, 1961, 401 - 402, abstract 21M82 ([Tr.]Groznensk. neft. in-t. sb. 23, 1960, 97 - 105) TEM With the aim of increasing supplies of quality high-speed diesel fuels, experiments have been conducted, in commercial conditions, for the reftningof the medium fractions of the thermal cracking process by re- distribution of the hydrogen on the aluminosilicate catalyst. The characteristics of the starting material and of the end product are enumerated. It is said that it would be possible to use this method for the production of the components of high-octane automobile gasolines and low pour-point high-speci diesel fuels. Data are given for the production Card 1/2  11~4 ~ I ~ Y/ /(' 6~ 6,k-,. NIFASYAIR, T.S.; LPAALIQ SIROV, V.V.; BOLOTOV, L.T.; OVSYAMUW-,7-.V.; RUSAKOV, A.P. Means for increasing raw material resources for the production of diesel fuels. Aserb. neft.khos. 36 no-9:33-36 3 157. (MIRA 11:2) (Diesel fuels)  S/081/61/000/02'/068/094 AUTHORSs Bashilov, A. A., Pallchikov, G. F., Zhukov, I. S., Minasyan, T. S. I TITLEj Separate production of gas,~IiLe and kerosene distillates in thermal cracking plant PERIODICALi Referativny zhurnal. Khimiya, no. 21, 1961: 401, abstra2t 2JM76 ([Tr-I Gro zn ensk. neft. in-t, ab. 24, ig6o, 1-71 TEXT: On 'he basis of work carried out in the thermal cracking units of the Groznyy Cracking Plant, a mclification has been developed and the partial reconstruction of the units is proposed, To permit the separate production of automobile gasoline and tractor kerosene on a unit with one rectification column, it is suggested that the rectifying anit shoull be chan6ed and a stripping tower, a cooler fcr the kerosene fraction, and pump an! cooler for the circulating reflux introduced. The processing cy--le remains unchangei for the furna-ce, evaporator and supplementary e7aporator. The reconstruction proposed wo-uld be highly beneficial eccnomically. [Abstracter's notet Complete translation.] Card "/I  PALICHIKOV9 G.F. Preparation of paraffinB from paraffin diati'llates by extraction A. with agueom pyridine. Khim.i tekh.toplA masel 6 no.4:31-35 AP 161. (MIRA 14:3) 1. Sovanrkhos Chocheno-Ingumbekoy Avtonomuoy Sotsialisticheskoy Respubl W .(Paraffine) (Pyridine)  we.; -,ottc~=s ana --ut simu T r-neou6l,7 . ilef% 1.3~Liy Y. !.Y-; oi te~ rt~ Ty s ov heftenr-.oivslovog uormv I eniyn ~,rnr,. e s oul-me  i . , ., : yk ,, , " I PE -. 7~ .,6-, . -.: ~- -~ - - r-; - : - 7~- ~tr. E, -- , , - . , - , - ~~ - . . r. t, , " - . . . !~ , - ~. . . . : - -.,l . N I ~ '" T " -, - 7 1 " . '. , j I ,  PALICHIKOV, I.I.; DRABINA, Ya.M. Reservoir pressure maintenance by gas injection in the Bitkov field. Neft. khoz. 39 no.2:36-41 F '61. (MIRA 17:2)  P:**.L I C~ IKOV, 1 .1 .; L.. -A I - il,;~ , Y a M, 1. Possibility of maint&ining f-.- -- -~3ure -r. E:itk-o7 fie-" by letting gas flcyw naturaily A.z.1- oil layer. Nau--h.-tr--kh. sbor. po dob. nefti no.23:10-18 161. (IURA 16:7) 1. Naftepromyslovoye upravleniya Nadvorrqanrieftl. (Bitkov Region--Oil fields-Production methods)  PALICHIKOV, L.M., inzh. kesearc'h on the weakening of coal seams in rock massifs 4n or,~ier to increase the efficiency of hydraulic mining. 7rudy TEIGidrouglia no.1:14-24 162. (MIRA lo:12) 1. Vsesoyuznyy nauchno-issledovatel'skiy i proyektno-konstruktorskly institut dobychi uglya gidravlicheskim sposobom.  FALICHIKOV "G,A, - I " -.- ~ . -:- ~ 1,7-, - S3mthetic diamonds are our best helpers. Mkohinootroitell no.7: 31 JI 265. (MIRA 18 t 7)  BABUSHKIN, A.A.; FALICHIMN, O.A. Butt welding of wire in patenting furnaces. Metallurg ne.9:29-30 S '56. (NLRA 9:10) 1.Kaster patentirevochnege otdoleniya Odosakego kanatnoge saveda (for Babushkin). 2.Master Otdoloniya tekhnichealroge kentrelya Odsooksgo kanst- nag* zaveda (for Pallchikey). (Wire--Welding) (Annealing furnaces)  PAL'Cl;-'KOV, Transfer of an automntic wire meshing mach'ne tc ~Iamd-le t!-.P- I production of several drawbenches. Metallurg 1n no.12:36-?,' D 665. IF-12. 1. Gdesskiy sta-leprokatrrj7 zavod kommunisticheskogc tr-Loa.  PALCHKOV, V.A.1 VIDAROV, N.A.; DOIROPTYFRO, G.N. Synthesis of a stable radIcR1 from 2,4,~-triphenyl Fq-/11,m salts. Zhur. org. khIm. 1 no.6:11'71 Je 165. XRA 18:") 1. Rostovskiy-na-Donu gosudarstvennyy unIversitet.  ZHDANOV, Yu.A.; DOROFEYFIM.1, C.N.1 FALCHKOV, V.A. Perchloric acid and Its compounds ae catta'yste '7: orran'7 Part 23,. Salts of 2--aikyl~3,4t 5,6'j bls,'~ndeno'-,.yryliurn. Zhur, ob. khim. 35 no.5:827-831 MT '65. (MIRA l816~ 1 i. - - -iniversitet. Rostovskiy-na-Donu gosudarstvenny) I  ~.RDANCV D oride n se RA 7 Lf V r U  1jJZ.U-_66 EWT (m) /EPA (w) -2/9WA(m) -2 IJP(c) OS ACCESSION NRt AT5007979 S/0000/64/000/000/1065/1072 AUrHOR- Abram Y A. - Bender I. Ye. Bondarenko, L..- M. ; Du4_k_6r&_QA_1" Lev, B 7-ijLa;W~%ov, 'A. A. -A- . PAVC hikov V'0R2Y,_S,_G SdT.oylov. I. M7; Skrinskiy. A. N.; Y;!d_JA_J__L; Konlkov. N. G.; V- Yu- Nezhavenko, 0. A. Ostreyko, G. N.; Pttr,, v. V., So A. ~A. TIROBIL TITLX: Work on the strong-current accelem2mlif the Nuclear Physics Institute SO AN SSSR. (1) St -current pulse accelerators with sp W storage trons. (II) Strong-current accelerators with one-revolution capture Of the in- Jected electrons AL Accele -stop - Dubns Trudy. SOURCEt International Conference on High Eper 1963. Moscow, Al-an-ra-d-av.-1964, 1065-1072 TOPIC TAGSt high energy accelerator, electron accelerator, electron bow, betatrons plaws ABSTRACT: The work on developing stronig-current electron ring accelerators was begun in 1965 by the authors at the Nuclear Physics Institute, Siberian Depart- ment, Acadwy of Sciences SSSR. with the object of studying the possibility of Card 1/3  L 4237-66 !ACCESSICP W AT5007979 Iforming relativistic stabilized beams In the laboratories of the Institute ex- 'perimental studies were carried out an the four methods for obtaining large ring I he electrons in Currents of relativistic electrons: (1) spiral vothod of storing t installations of the betatron type with subsequent betatron synchrotron accelera- tion (Budker G. I. CERN Symposium 1. 68 (1956); (2) abtair~ng of limiting electron 1, currents by meant of the injection of electrons from a strong-current linear ac- I ! Icalitrator Into a ring chamber of lane aperture with subsequent synchrotron accOle-, rationt (3) storage of electrons in tracks (parking wtits) with constant magnetic Ifield by wean* of the multiple injection of electrons from another less strong- current accelerator; this method Is utilized for the storage of electme md post-' 1trms in experiments with colliding boom (expounded In detail by 0. 1. Uker 11 in the present collection, p. 274), (4) obtaining of large electrovi currents by ;mans of the accelaretion of electrons by a ring plastas. The preaent report dis- cusses the firet two methods under the following topicat (1) pulsed Iran-lose lbetatroo with prielliRinary charge storage (B-2 device); strong-current pulsed sys- chrotrou 5-26; pulsed nron&-curr4mt betatron, with spiral stoi (5-3 device). (11) iron-less me-turn at. &-current synchrotron, (BU)i strong-current pulsed isyschratrom 114N. Oris. art. hat 7 figures. caw 2/$  L 4237-M A=SION NX: ATS007979 ASSOCIATIONs Inatitut ya&nwy fLzLkl 60 AN SSSR (0901OW ft"Ics lmtltvte" so AN SSSIO SUBRITTEDs 2GNayGS ENCLt 00 va coric Xr. No REr sovs oal OTHERs 001 ~k3  4L -67 Ei-J(1) I P .kl,4 AP6031268 SOURCE CODE: UR/0057/66/036/009/1649/1651 ALMIOR: VologovV,I,; Pal'cbikovV.Yo., Taol'nikF.A, ORG: none TITLEP., On a method of injecting charged particles into a magnetic mirror system S01URCE: Zhurnal tekhnichoskoy fiziki, v. 36, no. 9, 1966, 1649-1651 TOPIC TAGS: magnetic mirror machine, charged particle, electron trapping, magnetic trapping,plasma confinementy_ ABSTnACT: L.A.Artsimovich (Upravlyayemyye termoyadernyye reaktaii, str. 385.Fizmatgiz', M.,1961) has shown that charged particles can be injected into a magnetic mirror", machine by projecting them in the region of the mirror at a small augle to the pl3ne normal to the magnetic field during establishment of the mirror field. The present authors show that it is possible similarly to inject charged particles from behind the: mirror, provided the strength of the magnetic field at the injection poiaL is kept proportional to that of the mirror field during establishment of the latter. To test the method, 100 keY electrons wore injected Into a 40 cm diameter 150 cm long magnetic mirror system with a mirror ratio of 2.5. The Injector consisted of a ring-shaped electron gun mounted on the axis of the system, which produced a conical beam of 0 electrons making an angle of 20 with the plane normal to the axis, i.e., having a vertex angle of 1409. The magnetic field at the electron gun was kept proportional ard 1/2 UDC: 533.9  J141J?-67 C N i AP60312ft to the mirror field during the rise of the latter with the aid 0of a special pulsed solenoid mount8d within the chamber. With a beam spread of 10 , some 10% of the inJected electrons were trapped between the mirrors. The lifetime of the trapped electrond within the trap war, from 0.01 to 0.1 sec and was limited only by scattering, on the residual gas. There was observed an increase In the fraction of the Iiiijected electrons that were trapped with increasing injection current. This increase Is in accord with the theory and is due to space charge effects. At very high injection currents, however, the oscillations reported by g.I.Audker, S.S.Hoiseyev, and the present authors (Plasma Physics and Controlled Nuclear Fusion Research (Conference proceedings, Culham, 6-10 Sept., 1965), Ill 245, IAEA, Vienna, 1965) limit the density, I of the trapped particles. The authors thank A.P.Yershov and A A Zabrodov for as- sistance with the experiments. Orig. art. has:4 formulas and 1 figure. SUB CODE: 20 SUBM DATE: 08oct65 ORIG. REF: 001 M REF: 001 Card 2/2 bab  9(3) SOV~20-123-`-1'), -)o AUTHORS: Podgornyy, I. M., Kovallskiy. N'. G.,_ alfcts-_k,,~V, V. Ve. TITLE: Higb Pover Pulse Discharge Electrons Genp--rating Her. X-RP-1.1eicM (Elektrony vyzyvaoasbr~4ye zhestkoye rent- genovsl~oie izlucheniye mosh,~hnylrfli impul sny":h PERIODICAL: Doklady Akade-.nii nauk SS~:R, 1)"9, Vol 12~, ':r (USSE') ABSTRACT: The present paper reports on the energy of electrons generating hard x-radiation. . The dischart-,P was prodli-ed in a Porcelain cl-amber of 1715 miiri diameter and 1000 mm 'hei,-Aht. '7he discharge battery consisted of a con,lenser battery of 36 4F capacity. The experiments were carried out in h-dro- gen at an initial pres:2ure of 6.1o-2 torr which corresDinds to the maximum yield of hard X-ray quanta. ':'he presence of X-ray pulses was controlled by a scintil1ation rt-cordin:- system with pulse oscillograph. This apparatus is described in s~.or!. In order to find the dispersion ciirve of tne s.~wctrooraph, the electron trajectories 11,ad to be constructed f_-,-&,hical~y. It is not difficult to find the maximu,- v~,lue of the eneri-y which had to be acquired by the electrU110 when muvin,-- aiorlj~ Card 1/2 t'llie discharge axis. The experimental data available proved  SOV/2o-123-5-15/50 High Pover Pulse Discharge Electrons 0-2t,~.erating REz4l X-Fadia4;ion t',,at the maximurr, encrj.,y of t`ie ele,~trona amr,)n*.~, tr, )04- 1,-v- A beam of 100 'r-ev electrons raq used for the control oi calcuiated el#!ctron trajectories. T':,us, the fol.ovjin, were proved by direct experir,,ierts: The eiectrons w,':ic',. cau-,e the hard X-radiation in a poiverul pul-e discharEe in hydro- gen are accelerated alonl- the axis of the -Iischar,~e chamber. The recorded maxim-um enorfry of the (A ctroris amounted to '100+20 kev which agrees well with the resoltaq _)btai.-(- measurements of tlie maximuu, e:,ercy of the X-ray There are 1 figure anI 4 ~;oviet references. PRESENTED Jul.Y 31, 1956, by L. A. lirtsimovich, Academ-ician SUBMITTED: July 25, 1958 Card 2/2  11L 36408-66 EWT(I)/T IJP(c) AT I' ACC NRo AP6022D21 SOURCE CODE: UR/01 AUTHOR: Volosov, V. I.1 Pallchikov, V. Te.1 Tseltnik, F. A. i69 [d I f2-- CRG: Institute of Nuclear Mrsice, SO AN SSSR, Novosibirsk, ( Institut yaderwW fisiki. fflFJW-.40q- Tl=t Cathode with pulsed beating f its emitting surface SOURCE: Pribory i tekhnika eksperimenta, no. 3, 1966, 169-172 TOPIC TAGS: electron tube cathode, electron accelerator, electron Mission ABSTR&CT: A theoreticaliand experimental study is reported of an additional pulsed heating of a hot ia-thode up 19~M ar-melting temparilture-vhich essentially increases the emission-current density. As both the size of the hi he t-temTerature region and the quantity of evaporating cathode material are small ftheB duty factor Is assumed to be law), a mach longer cathode life can be wtpected. The cathode is preheated to 2DOO-25DOK. A formula for final temperature is derived from an equation describing the ionization loss of the electron energy. An experimental verification included a 2-en diameter tantalum cathode run at 2300-2400K and additionally pulse-heated up to a current density of 4D-70 amplemP; pressure, 10-6 torr; pulse duration, 2 psec. "The authors viBh to thank G. I. Badker for discussing the results and K. F. Veselkov for building the laboratory outfit." Orig- art- has: 3 figures, 12 formLlas, and 2 tables. [031 W SUM DLTZt 26APr65 / OTH REF: 001/ ATD PRESS: Yf SUB COIN S 2DI _7 7 Card I/ I // - - -/- UDCs 621.385.71_  ANDRUSHCHENKO, A.G., BERh2KINA, O.A.i KUZ'MINA, V.I.; OZEROVA, G.H.; PAL-CIUKO~A,___~ _jSARIN, A.P.; TIMOFETEV, L.N.; NIKITIN, G,A., krayeved; GAWASH, P.Te., recLi FISENKC, A.T.. tekhn, red- [Alupka; an excursion sketch, its nature, history, sana- toriums, the paiace:-auseum, its park, and an information directory] Alupka; ekskursionnyl ocherk: priroda, istoriia, zdravnitsy, dvoreta-muzei, park, spravochnye ovedeniia. Simferopol', Krymisdat, 1963, 78 p. (MIRA 16.10) 1. Nauchnyye sotrudniki Alupkinskogo dvortsa - muzeya (for all except Fisenko, Garmash). (Alupka--Guidebooks)  AURUSHCMILDv A.G.v nmcb3Wy ootrwlioikl BZRUKM, O.A.9 =mcbmn ectruanik; IOZIXINA9 Tolot manobaWy sotracbdk; 023MOVA, G*Xop nomblWy "trudulki FALICMXOVA, A.P.9 mmebmWy "trwinlkl TSUII, A.P.9 mmbMy -vWUvdnlkVTDWZMV-j,-L*l*t nauobxWy so%rodnikl NIKITIN, G.Aso krayeved; CMWMOV, B,, red,; ISUFOVAq N,q tokbn,red, (Alm0m; a Wwtch for exatweianistel Alupka; ekokurvionvi ochark. Siaftropollp Irysisdat, 1961. 84 p. (KIRA 3.07) 1. Alupkinakly dvorets-mmy (for all except Cberepamvp Ioupova). (Alupka-Descriptim)  PALICHIKOVA, R.P. Results of the treatment of mal-ignant neoplasm with a benzotef - preparation. Vrach.delo no.l2sll7-ll8 D t62. (MIRA 15212) * 1. Kafedra goopitallnoy terapii (sav. - dotment H.P.Kozlovskayn) lechebnogo fakullteta KharIkovskogo zeditainskogo instituta 1 27-ya gorodskaya klinichesim bolinites, (CANTr (DRUGS)  KMHEVSKITV ~L; PAWHINSKII _B.; SUFRUN,, A.P, [translator] -- -!A - - A Visawimstry of polymer solutiowe Part ls Capillary viscanater v1th electronic recording of flov timo Vysokonesood. 3 no.6:936- 942 je s6l. (MA 14t6) lo Politekhnickwakiy inotitutv Lodz'. (Viscomiseter) (polymers)  JEAUSLID, S.Te., professor; PA-LICHINSKIY, O.Y.. inch. Practical zwthods for designing reinforced concrete con- struction elements Wring into account rhoological pro- perties of mterials. Sbor.trud.IUZHNII no-3:3-6) '59- (KUtk 13:7) (Strains and stresses) (Rheology)  I I - - ! Yll E- I IT) V . A -k , , If', NI; LTI !~ N KCj , V ~ M, , ' F',L ~ . I ll~ j ;I, , ~-! ~ N y - , I ~ " . ' br, - . n . -, - ~ - w ~ r ~-tudy o,~ ,-he def,)rr-,'--'on non,~Te.~'. I v'.,. -. "1- -.1 ~ l8e-29-44 '62.  T~oomw J. on -M-4 -q -S ftr~- _T_ _" ;]~"A V"Tj -"d .0 WIAI- J me- 9 arm"o -A%%.". " p .0 -~A-Aovot -0 40 lc"rA) fqp4.& v -W -an Mmt j moo om p -"Cvmdl_~ - I"," %;T~.,-. u TIM sol-Too _j mvt- ""Ito"o 1; Idoov T_~- p nww -S .(.Rm 9"&1 of J. Vm:iT-T2 9 .(_q-%Mwfsw4m -M --I" got wt-d-m -,=T-M 4m -(--a) Mrs ,= --!now pr--,L .~Mftj S" ootA. P o%o .(-.%) -4 .0 ,-"a -fft~ ~ J. 14PT2 AM." -a ol -"= to-somou-mg Wd-fAL -M "I P. Sound-ozooto J. P-mot --f, I Il- M" -TP- p oonft.".. "n".0 -tv. -ft .%.A -2 -PT--12 -.QM J. -1%-m I---~ Alt Vul o". ft-r sotftft- Pn-d&.. Laujam -9 *&Tv V".Pma p -ra _j U. to too"ohoo "ootoot "a -on xomos vo~ .13 ". . P ==AU MAW r~. "W "oo"t ~I_P- p Ammo* I (wo.") "MIT. 1114ww"Z-V4 oft I. I""" "MA .aso ATTemolaft" A.1 'M=-= to p -0 Twnb MI-q. -'"%) PM oprtse aj ib "W"M totot."A -n-J. A-p3,., fgr.~.. ;()g. qaA f -or a P-7 -ddV P-0 T--11--'U J' -1-11- rTV 't 'n I- Oft--d WdW t._Tv_.tr-_m rr~_ m .1  PILICEM, Nikaim-Tr4imovich; LYUBOVSKIY,A., redaktor; ZBIJUOVA,Ye., f9mumaNFIEW-redaktor [Designing and Installing water and stems heating systems with hosting concrete panels; provisional Instructions] Prooktirovanie I montash Yodlanykb I para. slates otoplealls, a griminshchiml betonnymi. panellamd; vreammye ukasaniia. led. 2-oo, parer. I dop. Kiqw, GomAzd-vo lit-ry po straltelletvu I arkbItakture, US=, 1955. 43 P. (NLU 9:3) 1. Aks"miya arkhltektury UM, Kiyev. Inatitut budivellnol tokh- niki. (Radiant heating)  i4tak YU Vb 60.1k. solortfixosio'n of "X-n ,In t.91,1100IN IWO. V. 111A.M. ..... ......... .f the t- "I'll .......... n. ~Pro Inv.Migatrd lire tabulftt~d, fK U--11. Q7.3 1( rN 249)  UWR/Enginecring - Welding, Doc 51 - Processes "Investigation of the Welded Joints Be- tveen Stainless and Low-Carbon Steels," S. Yu. Pallchuk, Engr, Welding Lab, MVTU imeni Bauman "Av-togen Delo" No 12, pp 1-4 Conducted investigation to det intercryst corrosion resistance of welded metal and base stainless metal at point of welding to latter parts made of lov-carbon steel. Discusses general corrosion in pairis of UPSR/Engineering - W~eldinq, Proc- Dec 51- esseL (Contd) certain chem products, formed in welding process, and mech properties of weld metal.  5 T 0- SSW In. -silo.sk- ..f % ~ld- on.$ I... ~ " 6m 41-1. , 1" - % 'k . ..... ~ 141. I ILI P-1-1 I Ill. , 2-' D., I IC, 1 1, 1 1 ( I.. ..... ..I ....... ..I . ..... 1 .1111.1111.11 1. .., I I I."" ..I lb. al.n. %1.1, ". .1 W., m 1A.1161'A mul l1b.ov.1"I   PALI:HLK, H. YL., ENG.: IMMLKAKV, ~.. i., E&~.; .-!AKEiFJ, V1. G., N. 'i.' EV13. ;LIBER, ". I., E,,P,. Electric -4eldinF, deldinF Ath electrode cl~:ster. Avto,-,. delo, 23, '40. 6, 1~~2. Z- 9. Monthly List of Russian Accessions, Library of Congress, uctour 1953. Unclassified.  '79    7ALICEU;~. N-Yu; F3LT"%'V. (6cc.~ Arc weld-ne cl ~wu-laye~- ~i) eet~- coa-,e,' ~A- steel X-Y-- H-4nov, Avtog.~elo 21, no. J., '95-. 9. Monthl List of Russian Accessions, Library of Congress, 1953, 'incl.  PALICHUIE, N.Tu., kandidat tekhnicheaklkh nauk. Velding one-sided joint@ of two-l&yer isheete with a cover of 'IJVal8I9T8 steel. Yest.mash. 33 n0-7:63-66 JI 15:). OR-RA 6:8 ) 1. Swarochnaya lAboratortya Moskovskog) vymshego tekhnicheakogo uchilishch& 12. BRUS&M. (Ilectric welding)  _PALICMZ CU., landiftt t#khnIehssk!ft nank; AKWV, A.I., kandidst '-! Fen ~M i1jilitilla. Method of soulautomatic welding of stainless steel, which is in a process of assembly. TGat. mftvh~ 33 no.12:48-50 D '53. (MUtk 6:1-2) (Welding) (Steel. Stawevs)  i . , : - .1 - i-: --I:-.------ - . . : ~. i;_"'.Iw 1.11' ': ,'- ~