S/1-,3/60/000/004/0O'-:-/0-0 A054/A0206 AU'2HORS- Oyks. G.N.9 Professor; Matevosyan, P,P., Engineer; Sokolo- G.A- Engineer, Anshelei, I.I., Do7e-nt; Danilin, V.I., Eng-17- neer; Koncnov, B.Z., Engineer T IT L E@ New Procea8 for Meltin 14 Ball-Bearing Stee PERIODICAL, Stal,, 1960, No. 4, PP., 308 - 313 TEXT: The melting of the metal in Nacuum an adequate degree of degasification and deoxidation mass production, because the capacity of these ment complicated and expensive. It was ccnsidered the metal in a conventional furnace and alply in the ladle. However, this method did nct tEsts were carried out to incorporate the of' steel production. In the tests a unit steel foundries including the two PBW-60 ptimps connected in series witn a capacity 70 - 90clo, and a maximum vacuum of 15 mm Hg. furnaces in order to ensure is not suitable for furnaces is small, the equip- more effective to melt vacuum treatment subsequently yield satisfactory resu'A@',a and vacuum treatment in the technology was employed as that used in electro- (RvN-6o) type piate-rotor type of 60 - 48 m3/min, at a vacuum-c@*` In the range of residual pres- CUrd * /4  S/133/60/000/004/002/010 New Process for Melting Ball-Bearing Steel AO_54/AO26 suros of 5 - 10 mm the pump capacity was 25 - 40 m3/min. In order to raise the output of the pump system, steam jet ejectors were mounted at the out- let. producing a ,iacuum of 350 - 400 mir Hg@ During .he tests tile vacuum treatment in the ladle was carried out: a) partly in' accordance with the conventional Nechnology, and b) partly according to a modified process@ In the conventional melting process vacuum treatment in tile ladle had only Ut- tle effect on deoxidation and in order to obtain a satisfactory deoxidation of the metal It. was necessary that the oxy.-en contained in the metal beforr- tile vacuum treatment be present in the form of a solution or in the stru-- ture of inclusions easily reduceable. Thist however, was only possible, !@f effective deoxidizing agents, such as silicon and aluminum (Ref, 6) wereab.- sent fromft solution. Therefore the reduction was carried out without ferrn-- silicon and aluminum which were only added to the ladle in the final stage of the vacuum treatment, mainly for the purpose of alloying- According to thE- new technology the ball-bearing steel was melted in a 12-ton basic arej furnace with at least 1@05P' C in the metal when fusing.. The bath tempera- ture was maintained at 1,580 - 1,6200C before skimming off the oxidizing slag, i.e., somewhat higher than the usual temperature allowing sufficient re:;erve for the subsequent vacuum treatment. After removing the slag fer.- Caxd 214  S/133/60/000/004/002/010 New Process for Melting Ball-Bearing Steel A054/AO26 ro-chrome was added in a quantity corresponding to the type of steel, with a slag mixture containing lime, fluorite, some chippings of fireclay and dinas, amounting to 3% of the weight of the metal (a little less than the amount thus far used). Then 25 kg forge-coke was added and the furnace was hermetically closed for 20 - 25 min. Evidently at a higbpr temperature of reduction a thoroughly oxidized slag could be obtained also without the ad- ditiDn of ferrosilicon. As in the new technology one of the most important purposes of the reduction was the desulfurization of the bathj The duration was determined by the initial sulfur content of the metal and the rate of desulfurization which could be somewhat lower than in the conventional pro- cess, where slag was additionally deoxidized by ferrosilicon. The analysis showed 'that for identical amounts of sulfur the rate of desulfurization was even higher in the new process due to the higher temperature during reduc- tion. The ladle was put in the vacuum chamber when the sulfur content of the metal was about 0.15 - 0.18%. The vacuum treatment of the steel con- taining in the solution only carbon, chrome and manganese was accompanied by violent boiling, indicating the intensity of the deoxidation under the influence of the carbon absorbed. After 5 - 6 min the boiling intensity decreased, and. -ahile vacuum was maintained, 75@0_ferrosilicon (in an amount Card 3/4  S/13 60/000/004/002./OlO New Process for Melting Ball-Bearing Steel A054YA026 corresponding to the average silicon content of tile steel produced) and a- luminum (160 g/t) were added. Then the metal was boiled for a second time for 1.5 - 2 min@ The complete vacuum treatment took only 8 - 10 min. The oxidizing agents added into tile ladle were assimilated to a higher degree in tile ney; than in the conventional process (ferrosilicon to 90@o as compared to 650b and aluminum to 56@o' instead of 30-01o). The non-metallic contamina- tions were analysed quantitatively according-to rOCT801-47 (GOST 801-47) and the globular inclusions according to the scale of TsNIIPP. The chewi- cal and metallographical tests on non-metallic inclusions also proved the greater purity of the steel. The new method is economical: melting wag shortened, reduction took 20 min less, the consumption of deoxidizing a- gent:3 and the quantity of waste products decreased. The saving was 15 roubles per ton. There are 4 figures, 3 tables and 7 Soviet references. Card 4/4  BARDIN, I.P., akad. (decesised]; KULIKOY, I.S; ZUDIN, V.M.; TSTLEV, L.M.; - -, SOKOLOV, G.A.; GAZAVONOV, A.L.; BABARYKIN, N.N.; GTJLITYAY, I.I., Making low-sulfur cast iron at the Magnitogorsk Combine. Stall 20 no-.1o:865-869 o 16o. (MM 13:9) (Magnitogorsk--Blast furnaces) Nast iron--Metallurg7)  4L oyo 0 -@o v ot ar, q ?- .'f- - -ID ,tee -19 *1 , 'Mav- 'aQ - Vro -S. ;V10 @,S Caz) 4 (,edL :te @.v 0 re&')L- '0811- -@k2 $ IF 0, -1 . @.tVNS * -Ca. Ott e t@@S teo ot S'V-x -9 'el -re Sv* '44"016 SV6 %% JA0,10 Y 'o 5-va li-,e -4 aLra -ti , -at; or Vp- e j.0 Nfte.r @e 3xa, L@6 @74 Yovl-ly 16B.. Orr- 0 r, oil tv-11 a, of-- OT t 0 r aso le .,se 09 its *e-,.P@-,OD 0,- Ikosc OTav ty@e 'r. " - -tyve c. 1por @ t.0 'At irm r6llls aL 0'at all 51% vj-@tyt ell e or r-e A-7. -@Tvs ,105e tyie Co. OA)@- AdL re mete Im ,, edl .,Xe 0 t 5-,a6 ca Ce5 V, 0,00, a 0:69's rfts. r'!& Of 't"'rG e sncl y%eT@C" SA-0 tj ca6 co . re, &,S @re '11@@ -V, ell@l 0 'Da- -r le r-e ipe. 5@.-A , Yoml'i@rll 5 1 j oa e ITI tyLe 8S@ tOp- 3,d6s Cf -LA 4r"36ill - - %ve '_rh, A, ae 0 @te-f 5 que js -r! 1-riary ap- Oft Of-emic" --mpa 6 6 XI: e na i 20 r 70 hrs' :Ln 'e. C- d -,-hc- reducer ()rc-.e Of whi.,,I-l @he cost of Yu. Ne@.@k-j mPie 1@e Ca r-i 2/2 transItEticni  S/137/61/000/008/009/037 A0601A101 AUTHORS. Danilin, V. I., Ansheles, I. I., Sokolov, G. A., Kononov, B. Z, TITLE@ New technique for producing ball-bearing steel under vacuum PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 8, 1961, 35, abstract 8V219 (V sb. "Fiz.-khim. osnovy proiz-va stali". Moscow, Metallurgizdat, 1961, 466-473) TE)CC: The authors describe the results of an investigation of the quality of ball-bearing steel smelted by a new technique involving the use of vacuum a'. the plant "Krasnyy Oktyabr"'. The new technique provides for the reduction of the metal in a Fe-Mn furnace, and that of the slag - by ground coke. The metal is subjected to vacuum treatment in the ladle at an end pressure of 4 - 8 mm of mer-oury for a period of 8 - 10 min. About two minutes before the end of the vacuum treatment one introduces 3.6 kg/ton of 75% Fe-Si and 0.16 kg/ton of Al, and thereupon the metal is poured in air. The technique described ensures a maxLmum utilization of the reducing properties of C and a high degree of assimila- tion of Si (90%) and Al (56%). The shift to the new technique has led to a Card 112  3/137/61/000/008/009/037 New technique for producing ... A0601A101 lowering of non-metallic impurities in the finished steel, and also to a reduc- tion in the duration of the reduction process and reduction in the expenditure of deoxidizing agents. V. Shumskiy [Abstracter's note: Complete translation] Card 2/2  S/148/61/000/003/003/015 A16l/A133 The possibility of producing ingots with weldable shrinkage e4vities Izvestiya vysshikh u-3hebnykh zavedeniy. Chernaya metallurgiya, no. 3, 1961, 37 - 39 1 TEXT: A method is suggeeted for the vaauum treating of steel in int-er- mediate JoLdle and ingot molds, with deoxidation and alloying in this 7&,tuum. The new technology requireq a specUal pouring arrangement shown in a drawing. The ingot mold has a preolsion-ma-ablned annular protrusion on the to4portion. Ring pipes with imle'.s and outlets ror water are cast into@the ingot mold wall and serve for chilling the top of Uie 1-ngo-lu. The intermediate ladle having a .5116htlly larger v@lume than the ingot tA be produced is in stalled on the mold protriision, on a rubber seal. The intermedia-.e ladle is 1:tned, heat-installed and has a z"op- per. It is closed with a -rubber sealed lid. The bottom and lid of the i-liter- mediate ladle are screened for radlation protection. The lid bears a 'f'unnel, a meabAuiisia for lowering a-Lid lifting t_he stopper, a hopper for "lunkerite" or heat- ing mixes, and a hopper for f-arroa1loys and alloy additives.. The addltlves are  s/148/61/000/003/003/015 The possibility of producLug Ki-th weldable A161/A133 supplied by a feed screw driven from outside. The lids of both hoppers are vacuum-tight. A sight hole is prc-ualded, arid a W. camerx may be used on the ladle. Me intermediate ladle is heated -tcl 9000C, and the arrangement conne--ted to vacuum . The inlet -al' in pdmps,and evacuated to a residual pressure of 1-2 mm Hg' for met the funnel is closed with a thin pieae of steel or aluminum sheet r:ciri oealcrd. SteEL is poured from the furnaoe in the semi-killed state, wit-h a low addition of ferro- manganese (or chromium), with si-fght exeess of carbon (0.02 - 0.03%) olve.- the Tean required by the specifineion, and w--!-,h 50 - 600C overheat In comparlson with the usual pouring temperatiire. The short time needed to melt the alosing metal &011 plate in the fumnel is sufficient for the formation of a liquid metal plug, and the metal flows into the e+aauated spaoe In the intermediate ladle where it is rapi&-v degass4@@d and deoxldized by 1,he -j�zeo1.-,r4d carbon. Crushed alloy additives are addel to the metal jet by the feed screw after the intermediate ladle is filled 'UO 3/4- Burning of the alloy addit-ives and ferroalloks and the formation of non- metallic inclusions will be inai&iifioant. After the intermediate ladle is filled, lunkerite or another he@ting m_ixture from the hopper is spilled on the top, then the stopper is lifted, and met-9.1 flows through the outlet and a,short giUde pipe Into the Ingot mold where the residual air pressure is also low. Secondaz-y de- gassing takes plaae in the ingot mold, with possible -interruption of the Jet and Card 2/3  z s/148/61/000/003/003/015 The possibility of producing ingots with weldable ... A161/AI33 splash on the mold walls that oa--not spoil the ingot surface for no oxide films can form on the metal. Tae vacuum is maintained in the ingot mold up to the for- mation of a solid top. Then the vacuum is removed, and crystallization ccntinued. The shrinkage cavity will be free from oxide films and it must weld up in subse- quent hot rolling or forging. The metal economy will be very considerable. parti- cularly in the production of 40 -150 ton ingots for forging from which up to 4o% has usually to be out off with shrinkage cavities - Inept. gas. may be used instead of a vacuum in the intermediate ladle and the ingot mold, but '%;he:'fina_l inert gas pressure rwast slishtly exceed that of the atmospheric air. The suggested meth'od eliminates the necessity of using large ar:td expensive vacuum :!hambers for vacuum lureatment. The Authorts Certifisate olaim for it had been filed on November 27, 1956, imder no. 560989/22. There is 1 figure. (Esserr'.ially full translation). ASSOCIkTION: Moskovskiy in-st-itut, stali (Moscow Steel Institute) SUBMITrED: September 1, 1960 Card 3/3  RUDIEVA, A.V.; ZHILO, N.L.; GULITYA7, I.I.; SOKOLOV G A - Viscosity and the mineralogical composition of slags of the system K20 - CaO - A120 - Si02 with additions of MnO. Trudy Inst. met. no.8;11-29 t6l. (MIRA 14:10) (Slag-Analysis) (Phase rule and equilibvium) Niscosimtry)  SOKOLOV., G.A.; GULITYAY, I.!.; IMALYSHEVA., T.Ya. Viscosity., mineral composition and effect of magnesia on the viscosity of final blast furnace slags at the Magnitogorsk Matallurgical Combine. Trudy Inst.met. no.10:71-82 162. (MRA (1-bgnitogorsk---Slag--Analysis) (Viscosimetry) 15.@8)  RUDIEVA, AN.; MALYSHEVA, T.Ya.; SOKOLOV, G@,A.S; GIJLITYAY, I.I.; Prinalmali uchastiye: GALP-TOITOV, A.L.; GAMAYUROV., A.I.; BABARNI-XIN, N.N.; KOSTIN, I.M. Changes in the material composition of iauustrial sinter along the cake height. Sta12 22 no.1:5-9 Ja 162. (MIRA 14:12) 1. Institut metallurgii imeni A.A. Baykova (for Rudneva., Malysheva, Sokolov, Gullt-yay). 2. Magnitogorskiy metallurgicheskiy kombinat (for Galatonov, Gamayurov, Babarykin, Kostin). (Sintering)  OA@61 C1, PHAW 1 1300K EXPLOITATION SOV/6329 OYks., Grigoriy Haumovichs Pardir Apetnekovich Matevosytin,,. n Yx Wlfovloh Anshd ei Vladlml 1vanov1oh'Panilin;-,Gennad1y Anisimovioh Sok ov: Xvan'Al6koandrovloh Baranov,j_iu@6r 01 Ukh-ayl-o-v ivan ovioh Sel ovo@ Novaya' tekhnolog*la' -vy'iavki shar@kopodshipnikovoy-stali (New Teah- P nology- of Kelt@hg Ball-Bear$.ng Stell). -` Moskva.., MetallurgUdatj 1962w''---1124, p. . ,Srkiitit"elip inserto 2250 Copies, printed*... ,Bdi" of4ublishlrM Puts @ve - -@g P. _'nt I dva yna c4. dli G.'Isle. y rg -';ngJLnpers of:-- PM10SE..: lhis book ls@'IntendeA for x@etdllu a eel- -be.- melting shpps and.oen#pal,,r~plant~-laboratoridis ." -Tt:MAY also ::Useful to btudents: -at - tekhhikums and mata-11Fg. c-al schools of- institutions 6j'h1ghe'r;:1ea:*J 0 COMSUGH; i: -,'The-bod t reftews.the now echnology.df@makin' ball-bear stee which'was Utftdddid at tht"Kiamw OktyAbr-'," Ketalluriicaflis, gieipsing ,of, pq -dida a ts4 ia; usp, Platit in Volgograd,,- q44. 6: do -_Vk@  Now. Tochfi6logy (Cont. SpV/6j29 an intermediate teehn6logical.stage of.the melting procep a., -'A hriet dutline of.the conventionalpethod of melting ball-be -aring s beel is presented ,p-along'with advantages*.offered by the new tfachnology,,which -ensures ain improved steel' qUAl ,ity. Desighs 'of vaeuum-units of the Plant are described",-, The,book also reviews experiments in, making biliedn-free. ball-bearing steel by double vELauuin degassirig. The qualit "of steel p - ced'f- rodu or.se al years by the new melting -'Jeqk@hology is discup-sed in .det is-, It NO, pa sonalities are d.. .'Therg -r@f 6'soviet,,. r mention erenoes '7 3 German# afid 2 English, TAME. -OIP CONTEMS I In*o lu@i io 5 Ch' I.' Brief Review OT.-,@@atlng Methods 04, M %4'1 Ball- MI: -Bearing RequirerAents for bill-be'siihg @'teel 7 Basic'prinoiples of'the'clAssIcA1 te huology of melting ball-bearing.pteel-,._ 10  SOKOLOV,__q.A,-,.doktor geol.-miner. nauk, otv. red.; KRAVCHEBKO, G.G., red.izd-va; GUSEVA, A., tekhn. red. (Physicochemical problems in the formation of rocks and ores] Fiziko-khimicheekle problemy formirovaniia gornykh porad i rud. Moskva, Izd-vo Akad. nauk SSSR. Vol.2. 1963. -2 p.- (MIRA 16:5) 1. Akademiya nauk SSSR. Institut geologii rudnykh mestorozhdenly, petrografii, mineralogii i geokhimii. (Petrology)  1.1, (MoAva); SO@ I Boundary of the spor cao - N"O - A1203 - gor. delo no.4:611-@  KASHKAU, Nir-Ali@ SOKOLOV, G.A..,, red. [FetroloU and metaljogv--@Ty of Da@hjcesan an-@ at-her iron- I ore deposits in Azerbaij,-mi F@itlrulogila i metullogeniia Dashkesana i drugikh Azer- baidzhana. 1-@cskxa, Nedre, -:.-`.@f-@ @@`87 ; .(NIRA )8:1-1)  i. SOKOLOV, G, 2. USTII (600) 4. Afforestation 7. Green rings. Vok-rug sveta no. 11, 1952. 9. Monthl Lis' of Russian Accessions, Library of Congress, MaY -1953, Uncl.  Or3sts -and or-,].arc's (--)I' i'avr@-(-- i-r-*,-o,--',a !,J, no. 19@2. 9. Monthly List of Russian Accessions, Library of Congress, -t9ft. Unclassified.  SOKOLOV) G. A. Reclamation of land - Kazakhstan Vegetate the sandy waste of Kazakhstan. Priroda 41, No. 7, 1952. 9. I-font I List of Russian Accessions, Library of Congress, November 1952. bliCLASSIFIED.  SOKOLOV, G. -- in the cedars and pines. Voh.-ug sveta no.1:44-47 Ja 154. (MLRA 7: 1) (Coniferae)  SMOLOV, G. Crimean mountain ash [Sorbus]. Vokrug sveta zio.2:13 Mr 154. (MLRA 7:2) (Crimea--Ash (Tree) (Ash (Tree)--Crimea)  SOKOLOV, G. ':-. Sequoia in Crimea. VokTug eveta no.5:23 MY 154. OWA 7:6) (Crimea-Sequoia) (Sequoia-Crimea)  ilic 0Sari P. 77-1-  SOKOLOV,G. Aquatic gardens. Vokrug sveta no.6:22-23 Je '55. (MMIA 8:9) (Volga River)  -50KO.LOV., Ge-rman, Ab,ramovich; OLINSKIY, M., rednktor; FISENKO, A., "'- . 'I tokhnicheiskiy iwlaiktor [Islands of birds) Na ptichikh ostrovakh. Sinferopoll. Krymizdat. 1956. 133 P. (MLRA 10:2) (Birds)  SOKOLOV, G. Land in i-oom. Sov.mor, 16 no.lP:12 S. 156. (MLRA 10:1) I A (KrasnodAr Territory.-Agriculture)  KOSTYAKOV, A.N. [deceased], red.; LIPATOY,. K.G., red.; SOKOWV, G.A., red.; aRWVA, T.P., red.; ZUBRILINL, Z.P., teldm, red, 1&:A @ @ '' [Improvement and agricultural use of bottom landej Maliorateiia i sallsk6khoziaistvannoo ispollzovanie poimennj,@Wz'emell. Pod red. A.N. rostiakova I K.G. Idpatova. Moskva, Gba. izd-vo sellkhos. lit-ry, 1957. 163 P. (MIRA USIO) 1. Voesoiuznaya Akademlya sel'skokhozyaystvennykh nauk imeni V.I. Ienina. Sektaiya gidrotekhniki i-moliorateii. (Alluvial landa)  SOKOLOV, Ger.-inn. The grent wAintit rnRd. lUn.nat. no.10:4-A, 0 157, (MLRA lo-q) (Nut trees) (Aoadaide imDrovement)  SOKOLOV, G. . - "; - @4'1 The walnut road. IUn.nat. no.11:8-9 N 157. (MIRA 10:10) (Roadside improvement) (walnuts)  '30KOWV, German -1 .. - -. The great walnut road. IUn.nat.no.12:10-12 D '57. (MIRA 10:12) (Nut trees) (Roadside' improvement)  :-n.i, 1"159, "G. i; 2 .),nholov I'l... T. A 1-C T PV,@ C'll c r 1 g- e;.i o r e ee t' e 111 n- Cit. e r. f- n e fn 1, th Ba 1@ h c are f nudei@ e z 5 r n-, i') e a -J: :,;0. -Zt -3 s- fu 1 c. are C, P, r; e of raoonj ri'zot-1k;n o- r,6tural fr,-iit- pl;in'-Inz@@ is a z:6 t o f@l .1 e f@ ,,@ rl t, -, 0 'i !i: o v C  SOKOLOV, G. Raise what you've planted; the Green Patrol's game. Wn. nat. no.12:30-31 D 159 (MIBA 13;3) (Tree planting)  SOKOLOV German: KARGCLIN, Ya..A., red.; KOIIOVALYUK. I.K.. mlBdshiy red.; KOSHZLLVA, S.M., tekhn.red. (Hailers of the aun] Vatrechaiushchie solntse. Moskva, Gos. izd-vo geogr.lit-ry, 196o. 165 p- OURA 13:11) (Birds)  SMIRNOV, V.I., akademik, red., YEiII41AKOV. N.P., red.; DOLGOV, Yu.A., red.j SOKOLOV, G.A., red.; KHITAROV, N.I., red. [Mineralogical thermometry and barometry] Mineralogicheskaia terinometriia i barometriia. Moskva, Nauka, 1965. 327 p. (MIRA 18:5) 1. Akademiya nauk SSSR. Naue--bnyy Sovet po rudoobrazovani-yu.  SOKOLOV. G.A.; ZUYEV, I.M.; LOBfiJTOV, V.V.; ZUBAREV, A.G.; KLIMASHIN, P.S. Treatment of converter and open-hearth steel with electric furnace slag. Stall 24 no.7:612 JI 164- (MIRA 18:1) 1. Moskovskiy institut stali i splavov i Novolipetokiy metallur- gicheskiy zavod.  IN, C4, $1 Arg1W(cs--uw' r@v@ materiali for the buitding-roAteriats G. D. SOKOLOV (Glass & Ceramics. Moscow, 10, No. 10, 21, 1953). FExpCrAments argillites to sce whether after art!flcial treatment they woulq have the saine propWies as ordinary dayi. AM the =plcs examined and the nAics mAdc from them were suitable for nioul4ing. Bricks wety, made from argillites.by nornial method4. , It was established that the dqing-time for 4rgillite bricks in @ charrilyit- atumlly d dtyer can be reduced to 26 hr. because argillites are n. chydrated 6,atcrW should allso @c possible to accelerate the firing of bricks made from argiuitei. Bricks Ma6fi-orn argiffites wiih the addition or3WI. sand and fized in a 72-chirfibefting kiln- a crushing-strength of up to 3.5W lbisq.1n. A'tiew'hdat-insWating o- at < 850* C. had q r1laterial-from argillite-w-as pfoducLd. ArgWites: can also be used as raw materials for the manufacture of pipes, engineering-bricks and facing-tHes. ' Their chemical aj3d iw--r ajogical- composition varies. - Investigations haye Sbown that argillitcs are m tli,4ablc r,-w mrte for rial the manufh.:ture of silicate ccm@:nl because qf their high ply ticity and tbi:, abscnco of sand and grave). (4 figs)  _q I P. ; KUYMENOVA, K. F. , MER, A.S.; SOXP j,'i vedushchiy redaktor; POIOS321A, A.S., tekhnicheakiy redaktor. [Argillite as a new type of raw material for the building materials industry] Argillity - novoe syrIa dlia proizvodstva stroitellnyk"i materialov. Mosk7a, Gos. nauchno-tekhn. izd-vo neftlanoi i gorno-toplivnol lit-ry, 1954. 69 p. (MLRk 8:1) (Building materials industry) (Clay)  SOICOLOV..,,_G,D., inzh.; RYABIKOV, B.N., red.; ZAYNULLII,,, I.Kh.,-tekhn. r ed. (Industrialization of the construction of oil field instal- lations; practice of the Tatar Economic Council] Industriali- zatsiia stroitelistva neftepromyslovykh ob"ektov; iz opyta Tatarskogo sovnarkhoza. Kazan', TSentr. biuro tekhn. informa- tsii, 1960. 37 p. (MIRA 15:3) (Tatar A.S.S.Riii-wM  SOKOLOV, Georgiy Davydovich, inzh.; RETYUTIN, Pimen Andrianovich; VOVCIMKO, ----Nikz5la7fTa-v-r-e-n'Erfiv-1-cli,-- ISAYEVAy V.V., vedushchiy red.; VORONOVA, V.V., takhn. red. (Setting up oil fields; from the practice of Tatar oil workers] Obu- stroistvo neftianykh proryslov; iz opyta neftianikov Tatarii. Mo- skva., Gos. nauchno-tekhn. izd-vo neft. i gorno-toplivnoi lit-ry, 1961. 128 p. (MIRA 14-.9) (Tatar A.S.S.R.-Oil fields-Production methods)  SOKOLO -1 Vs_,_G.D. lowering specific capital investments in Oil production. Heft. khoz. 39 no.3:7-11 Mr 161. (mmA 16:7) (Tatar A.S.-S.R.-Oll fields-Production methods)  - - -, - i @ h SOK6LOV, G ecrj;@ v [Organization c-f- consstnl@,-,--n cf o-l f-' ' ' I- @@ - - - -," I : @ - Urcan! --a- t s i i a s t ro i t e ll I s tva ne f -, -L .- n-vt"Jil L r'- - - --, Ci . '*! . -, sN ed :, a , - j 0 1965. .191 P. 0-:1HA 28.-2-0)  POLYACIPMO, A.V., kand.tek:hn.nauk; SOKOLOV, G.F., inzh. Reconditioning tractor parts by built-up welding with a weaving arc. Svar. proizv. no.10:34-36 0 161. (MR-A 14:9) 1. Gosudarstvennyy soyuznrr nauchno-issledovatellskiy tekh- nologicheskiy institut. (Tractors-44aintenance and repair) (Electric welding)  S/135/61/OOO/Oi2/oo2/oo8 A0061AI01 AUPHORS! Sokolov G.. F., Engineer, Polyachenko, A. V.. Candidate of Technical ici@ TITTTE-@ Peculiarities of vibration-are building-up process with a strip electrode PERIODICAL- Svarochnoye proizvodstvo, no. 12, 1961, B-11 TEXT- A method was developed at GOSNITI for vibration-arc building-up of metal with a strip electrode. Peculiarities of the process were studied, in par- ticular, the nature of arc burning, and electrode fusion, metal transfer from the electrode to the part. To reveal the nature of are displacement over the strip electrode, experiments were made by building-up 90 mm diameter "45" grade steel cylindrical specimens, rotating at 100 rpm. The process was recorded by high- speed filming with a CKC-IM (ISKS-1m) camera and oscillographed with a MIJO -2 (MPO-2) apparatus. It was found that due to the non-uniform surface of the part and the electrode, their contact takes place only on separate protruding sectioM During the electrode motion away from the part pulse discharge of the arc arises as a rule, where the electrode-part contact was last disturbed. Fusion of the Card 1/3  S/135/61/000/012/002/008 Peculiarities of vibration-are A0061AI01 .5trip over its whole width proceeds by several pulses. A 10 x 0.4 mm wide strip fuses during 3 - 4 pulse discharges when building-up high-speed rotated parts, and In 2 pulses under conventional conditions. At 20 x 0.2 mm strip width, fu.jion Is reached during 5 - 6 consecutive pulses on high-speed rotated parts and during 2 - 3 pulses under conventional conditions. Frequently fusion takes place through two pulse arcs, arising in the center of the strip and moving towards its edges. The direction of the arc motion is apparently determined by the ma.gnit.,ude of the electrode gap over the strip width, and the degree of its ionization. 'Irne investigation of peculiarities in the vibration-arc building-?.Ap process made it possible to explain and eliminate difficulties arising durLng iz-@ practical assimilation, including unstable ignition of pulse are discharges during the supply of cooling liquid from the side of electrode feed; losses of electrode material due to splashing; sticking of molten metal on the electrode @ip L and the nozzle; non-symmetrical section of the built-up bead, euid formation of undercuts. Presently vibration-arc building-up is performed with a 0.2 - 1.0 rim thick and up to 20 = wide strip. The new method raises wear resistance and hardness of the built-up layer and the efficiency of the process, is improves Card 2/3  S/135/61/000/012/002/008 Fecullaritles of vlbration-arc ... AOo6/A1O1 also Nsion of the built-up and the base metal. The method can be employed for the repair of machine parts of 56 - 62 HCR hardness. There are 7 figures. ASSOCIATION- GOSNITI v Card q/3  FVLY4i'uZrQJ, A.V.; ZLOTIN, Yu.A.;,@,1QIQLCfV,. G.F-- - -. 1,@;e cl* a V=6-11/1600 germanium reetifier as currmt feed suurce i C, --,, ualdinL opoi-atlons. Avtom. svar. 15 no.3:79-83 IIr 162. (MIW. 15:2) 1. Vsesoyuznyy nauchno-issledovatellskiy institut mekhanizatsii sel'skogo khozyaystva. (Electric welding)  32LO.12"4 G. G. -and HIMETITS, IL. L. Modern Soviet Techniques for Transmitting stationaz-j images by Radic and Wire C@ (Sovremennaya otechestvenpaya tekhnik-- pereaachi nepoclvizhni-kh izobrazheniy po radio i provcdam) !zd-vo Pravda, 24 Ppjjqj-D .Ul-UnLon Society for the Dissemination of political and Scientific Knowledge Book W-22517, 2@@) Apr 52  SOKOLOV,-.Ge nadiy Grigorlyeqch, aspirant Measurement of the error of +he servo systems of copying machine tools. Izv. vys. ucheb. zav.; elektromekh. 8 no.5t543-549 165. (MIRA 18:7) 1. Kafedra avtomatiiatsii proizvodstvennykh protsessov Rostovskogo-na- Donu instituta. sellskokhozyaystvennogo mashinostroyeniya.  I Edly clyr -,gk y.;.lz uf thi i,erformanc.,a ct th-j -o:-)y in,., e. @-j Ir r:n :iyotem 0' (1, 6,U-1-4) cr,pylil.;!, m4,.Ilng (@ERA 1. Kifa,d a avtomutizat,311 i.TO; ',7c%J,3tv6v,17kh P---,,,)vskvgc- r,a-"";nu ns tl W Lveqjan@@,r) mi- jh--. nc troyt, I pt  SOKOLOV, G.I., inzh. New ER-7A rotor excavator. Stroi.truboprov. 6 no.7:29-30 Jl 161. (,MIRA 14 :* 8) (Excavating machinery)  SOKOLOVY G.I. Lt 4. Opce again about the reliability and durabill y of rotarT. trench excavators. Stroi, truboprov. 8 no.11230-32@63 (MIRA 17 --1 ) 1. Sre"sialtnoye kons-truk-torskoye byLiro "Gamtroymashina"I.  AP4044295 S/0286/64/000/013/0028/0028 ACCESSION NR: AUTHORt Sokolov#.C. ,I,; Antokhtno Go Oo; Orlovo Ye.;Serebryakov, -1 ; Solov'yevag Go So Go P.; aratie'-4, No o ITITLEt Turbine cooler, Class 17,, No. 163637 SOURCE: Byulleten' izobreteniy 1, tovarny*kh znakovp no, 13, 1964g 28 ;TOPIC TAGS: turbine cooler, aircraft technology#- air conditioner# lubrication, oil tank, ventilation ABSTRACT: An Author Certificate has been issued for a turbine cooler The turbine to be used in aircraft (see Fig. I of the Enclosure). and fan are linked together by 4 shaft mounted'on ball bearings. Lu_ bricant is supplied to the ball bearings by means of oil-immersed wicks, To ensure dependable performance of the bell'bearinge.in Varso,' tous flight positions# the front walls of the oil tank are provided...! ' V Orig. art. heat -1 figure, ,with conic ring defl.ectors. ASSOCIATION I Organizataiya goakowitsta po aviatsionnoy tekhnike SM (State,, Comittee on Aviation Technologyt SSSR) Card .1 /3 ----------   AC,4-ESSION NRI. AP4044295 PYCLOSURE 1 01 Fig* 1. Turbine cooler I -Frame of turbine cooler; 2 -housing; 3 - fan: 4 - flange; ball- 5 - turbinee, 6 - shaft; 798 bearings; 9 @ wicks; 10 - oil tankl' . 11,12 - conii@-deftectorm; 13914 sleeves; 15916 - plugs; 17, - outi- let; 18019620 channels* C ard 3/3 J-  38268-6 Pz-6- ACCESSION NR: AP5007513 S/0286/65 low/ AUTHORS: Sokolov, G. I..;.Frank, M. Tso; Ilupina, N. A*; Adlerj M. V.; Lovehev, S. V.; 7 A TrTLE: Turborefrigerator for cabin air conditioning in large passenger systems aircraft. Class 62, No. 153845 SOURCE: By-ulletent izobreteniy i tovarrWkh znakov, no. 4, 1965, 3.21 TOPIC TAGS., passenger aircraft, air conditioning equipment ARWRACT: This Author Certificate presents a turborefrigerator, consisting Of a.---:-,. tim-bine and compressor, for cabin.air conditioning systems in-large passenger aircraft, To insure forced-circulated lubrication of the shaft,bearings, the oil@ food system is provided with an oil turbopump, mounted in the and of the air- cooled oil tank which is located below the turborefrigerstor. The turbopump, rotated by compressed air withdrawn from the inlet nozzle of the turborefrigera-. tor, is 1wovided with throttles controlling the oil flow* The pump is cormected by tubes with the oil feed cheinnels to the bearings dnd the annular cooling chambers of the bearings. ASSOCIATION: none Cardl/2   L 6;2686-65., ACCESSION NR-.- AP5019111 UH/0286/65/000/012/013iioi4o AU11HORS: All shits) M. Z. Sokolov., G.J. 77 TITLE.- The working unit of a continuous excavator. Glass 84, No, 172243 SOURCE: Byulleten' izobret,eniy i tovarnykh znakov, no. 12., 1965., 139-lhO TOPIC TAGS: earth handling equipment, ditching, excavating machine ABSrRACT - This Author Ce ificate presents a continuous excavator consisting Of scoops with tooth distributed in acheckerboard staggered pattern (see Fig, I on- the Enclosure). To fill the scoops uniformly and to diminish the dynamic loads$ the teeth on each scoop ofthe working unit are placed asymmetrica3ly in respect to the longitudinal axis of the scoop#- Orig, art0baso. 1 diagram* - ASS)CIATION-t Spetsiallnoye konstru*ktorskoye bywo."Gambroymashina" (Special., Con!atruction Bureau "Gazatroymashina") sumTED: llxay64 ENCL: 01. SUB CODE: IS NO' 1W SOV 1 000 GTHERt 000 Isard 1/2   L j IACCEESSION NR: AP5021991 UR/0286/65/000/014/006T/066T; 621-524/525 629.13 Qi/ 6 0 AUTHOR: Sokoloy, -G-t I fl., V.-. Borisovets, Churikqj,. Ye. P Y TITLF;: Turbofan for the cooling system of airtljzht cockpits and compartments in aircraft. Class 27, No. 172952 10 SOURCE: Byulleten' izobreteniy i tovarnykh %nakov, no. 14, 1965, 67 TOPIC TAGS: aircraft cockpit cooli , cooling system turbofan, radial turbi 4! ABSTRACT: An Author Certificate 'has been issued for a turbofan foi- the air-cool*ng systen of an air-tight cockpit or compartments of an aircraft. The unit consists of a icasing, radial turbines, and a fan, cantilevered on a shaft which is mounted, (4 ball 'bearings. For improved cooling and to provide operation under increased tem- perat-are conditions, the space in the unit between the casings of the fan and the ball bearings is divided by a cylindrical cup into two concentric cavities inter connei!ted at one end. At one end of one of the cavities there are holes which lea d to thit fan inlet; the other cavity connects to the fan.-outlet (dee Pig. I of @nqlo_@ Orig.. art. has., 1 figure. ASSOCIATION: Organizatsiya'ministerstva po aviatsionnoy tekhnike SSSR (Organizatio@ f +ht Ministry on Aviation technolo, SS$R) gy, __Awl    I .(142 t 8-67 E W V D@IT SOURCE CODE: UR/0413/66/000/008/0120/0120! tRO13310 @A) 1,9,1, G. 1. Magin, A. K khin, Yu. AUTHORS: Fcdoseyevt N. M.; Soko Orlov, I Ye.; Blo I.; Morozov, G. V.; Solovlyeva, M. L.; Serpukhov, D. V. ORG: none TITLE: A device for ly bearing junctions. Class 47, No. 180924 SOURCE; Izobreteniya, promyshlennyye obraztsy, tovarkyye znaki, no. 8, 1966, 120 TOPIC TAGS: lubricating oil, lubrication, lubricatiL technique .9 A lu 71 c 7,/011) "0 C- /i 'e ABSTRACT: This Author Certif*c te presents a device for lubricating bearing junctior The device contains an oil ba and a wick holder with a wick feeding the oil to a shaft held in the bearings ks e Fig. 1). To prevent singeing the wick and dropping its r@amnants into the bearings, a separating contact element is placed between the shaft and the wick. This element is made of antifrictional heat-resistant material- and contains axial capillary ducts. Grooves running on the rurface of the contact element at an angle to the shaft axis are connected to the due-to and touch the chaft. Card 1/2 UD Q; 62L-725,7  ACC NR, AP6035839- INITEENTOR. Baranov, N. V.; Gorbachev, L. M.; Orlov, 1. Ye.; Sokolov, G. I.; Solov1- yeva., G. S. ORG: None TITLE: A turborefrigerator. Class 17, No. 187050 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 20, 19606, 44 TOPIC TAGS: refrigeration equipment, turbine, ventilation fan ABSTRACT: This Author's Certificate introduces a turborefrigerator for pressurized cabins and instrument sections of aircraft. 'The installation contains a housing, turbine and blower all mounted on a shaft set in air-cooled ball bearings. The unit is designed for improved cooling and reduced weight. Longitudinal cooled air supply channels are made in the housing at the level of the turbine blade base. These chan- nels communicate with the cavity between the screen and the cover. The shaft bear- ings are mounted on the ends of a thin walled housing with reinforced flanges which have sloping holes for coolant circulation. Card 1/2 uDc: 621-565.94 629-13.ol/o6  1 ACC NR, AP6035839 1-housing; 2-channels; 3-screen; 4-cover; 5-turbine; 6-blover; 7-shaft; 8-- ball bearings; 9--tube with reinforced flanges; 10-holes StM CODEFV51 'OSUBM DATE: .21NoVO  ACC NRi AP6035941 --~OU-RCt-C-061~.'--UR7-0413T66MOM070-19~9 I U19 9, INVENTOR: Adler, M. V.; Gorbachev, L. M.; Lapavok, Y. S.; Lovchev, S. Va; jpkolov, G. I.; Frenk, M. Ts.; Churikov, Ye. P. ORG: none TITLE: Ventilating unit for aircraft. Class 62, No. 187540 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znakf,"no.-20, 1966, 199 TOPIC TAGS: aircraft cabin environment, aircraft cabin equipment, centrifugal blower air conditioning equipment ABSTRhCT: An Author Certificate has been issued for a ventilating unit for aircraft which contains a fan with a drive. To assure the unit's efficient operation in ground-based and airborne applications, the fan is mounted on a separate shaft aud is operated by an electric drive through an axial over-riding clutch; a centrifugal clutch is used for operation on turbine drive. (WA-981 SUB WDE: 01, 13/ SUBM DATE; .10Feb64 Card UDC! 629.13.01/06  L ;)42,-14'-55 EWT(1)/EWT(m)/EPF(c)/EPR/T Pr-VPs-4 JD/LBF/DJ ACCESSION NR.- AP5002463 S/0286/64/000/CPJ+/0059/0059 AUTHORS:@@ Sokolov G. I.; Fedoseyev, N. Mi;.WGj-h' 'A. K.; At A. A., Ctlov, V., 'TrTLE: embly. Class 47 flo-.716- U32-bearing ase 709441 j 9_: @@SOUHCE: _,;Ayulletent izobreteniY i zMk6v, -,no. 1964j 5 TOPIC -VAIS: bearing,,- bearing, assemby. ballAiearingj,j-;,@@ This@Author Cort J-cae roduc s bal iM e a -I bearing .-turbocoolers, tut achine , eta.)_containing-two-r d'. ry bush rings spring-lbaded+in opposite directions, and carvyl tiff Injs between them (see Fig. I on the Enolosuro). To increase@the assem Ma ness and assembly life and to simplify mounting, the separating bush s --ing e do in one piece with the outer races of the bearings, while the centers of the r di of the groove profiles of both rings of each bearing are located on a conical surface inclined about j6O to the vertical surface. Orig, art. has: I figure. ASSOCIA11ON: Organizatsiya gosudarst,,rennogo komiteta po aviatsionnoy tekhnike SSSR (Enterurise of the State Committee on Aviation Technology of the SSSR) Card 1/j  Card 2/3  t@v  SDFOLOV, G.I.,, inzh. Rotory trench excavator. Stroi. i dor. imsh. 9 no-4:F-10 Ap 164. (KI P,@ 18: 1)  KLEYNER, G. I.. SOKOLOV (4 . P-0 JAA11- "-, Production of diethylaminoethyl ester salts of Dhenozynethylpenicillin. Antibiotiki, 3 no,3:113-114 My-Te 158 (MIRA 11:7) 1. Rizhskly gosudarstvannyy zavod meditsinskikh prepnrntov. (PFUICILLIN, rel cpds. phanoxymethyl@enicillin didthylsminoethyl ester salts, prep. of (RUM  SOKOLOV, G.I., inzh.; YEWTOVSKIY, M.F., inzh. Erecting reinforced concrete supports with rigid cross pieces. Transp. stroi. 8 no.10:30 0 958. (MIRA 11:11) (IClectric lines--Poles) (Precast concrete construction)  __ S0KOLOjj_q_.Ij,,._inzh.; SEIIENGV., M.I., inzh. Practices in setting trolley poles with cranes from the field. Transp.stroi. 11 no.3:15-16 Mr 161. (MIRA 14:3) (Electric lines-Poles)  MIKHEYEV, N.I.; KAZANSKIY, A.A.; SOKOLOV, G.-I-.- Automatic-intake device with Laval's nozzle for centrifugal pumps. Mash. i neft. obor. no.7:8-10 163. (MIRA 17:1)  87716 S101916010001013111912001XX A152/AO27 AUTHORS: Isserlin, G.S, Kats. D.V., and Sokolov, G.I. TITLE: A Frequency Divider PERIODICAL: Byulleten' izobreteniy, 1960, Nr. 13, pp. 25-26 TEXT: Class 21a 36. Nr. 129671 (622299/26 of Mar 19, 1959). This is a pulse-selection frequency divider that has a delay line in its feed back circuit. To increase its operational stability, the novel divider is pro- vided with a relaxation oscillator (e.g. a blocking os-,illator) connected-in between the coincidence stage and the delay line. Card 1/1  tS C'@ V_ Q, Q_" L SOV/19-58-6-562/685 AurHORS: Mikheyev, N.I., Kazanskiy, A.A., Kovalev, A.S., Sokolov, G.I., and Sugrobov, I.I. TIrLE: A Self-Suction Device for Centrifugal Pumps (Samovsasyvayushcheye ustroystvo k tsentrobezhnym nasosam) PEIIODICAL: Byulleten' izobreteniy, 1958,Nr 6, p 128 (USSR) kBSTRACT: Class 59b, 511* Nr 113635 (568652 of 13 March 1957). Submitted to the Committee for Inventions and Discoveries at the Ministers Council of USSR. A self-suction device for centrifugal pumps for non-corrosive low-viscosity liquids which makes use of rarification in the suction collector of internal combustion engines; increasing the degree of self-suction by means of a superexpanding supersonic nozzle mounted in the suction collector. Card 1/1  SOKIDLOV , Cworgil,; Ivranovich; KUTSKO Ye A., wiucbn. red,; I'lijOAKOVA, L@Ya, ,red. red.; V.I@@ teULi. red. [Arrr,ngement, operation, and repair of the equipment in electrically driven gas compressor stations] Usti-oistvo, ekspluatatsiia i remont oborudovaniia elektropriliodnoi ga- zoko-I-Iressornoi stantsii. Leningrad, Gostoptekhizdat, 1963. 150 P. (MIRA 111:1) (Gas, Natural-.-Pipelines) (Compressors--Electric driving)  ACCESSION-NR: AP4019201 S/0056/64/046/002/0415/0430 AUTHORS: Balandin, M. P.; Ivanov, 0. I.;.Moiseyenko, V. A.; Soko- lov, G. L. TITLE: ,Investigation of the absorption of 40-70 MeV charged pions in carbon'..nuclei with.the aid of a propane bubble chamber SOURCE: Zh' rnal eksper. i teor. fiz., v. 46, no.12, 1964, 415-430 -TOPIC TAGS: pion, charged pion, charged pion absorption, absorption cross section,lcharge exchange cross section, pion absorption in car-, bon, prong number distribution, proton,energy distribution, prong angular distribution, secondary particle angular distribution, angular distribution anisotropy I :-ABSTRACT: The absorption of 7r- mesons of equal energy by carbon nuclei'at 40--70.MeV was investigated with a 30 cm propane bubble chamber,- with an aim at obtaining more data on the two stages of the Card  ACCESSION NR: AP4019201 pion absorptioP process (pion energy transfer to internal primary I: nucleons i@nd-emlssion of final particles). Data were obtained on the,total cross section for 7r- absorption and charge exchange in +17 +24 + carbons (98 and 99 mb for 7r and 7r respectively), the dis- -10 -19 +0.13. tribut."on of pion absorption vs. number of prongs (average 2.22 -0.11 +0.14 + and 0.94 prongs for 7r and 7T mesons),.distribution of mean -0.13 proton energy vs. the number of prongs, and angular distribution of Ithe prongs. The results show that the angular distribution of the :charged particles emitted by the carbon nuclei is isotropic for nega- Itive pions but not for positive ones. It is cohcluded that in most ,cases the pion energy is transferred during the first absorption stage to a neutron-proton primary pair with probability 0.65 + 0.10. :Causes of differences in the behavior of positive and negative pions are discussed. PIn conclusion the authors thank B. M. Pontecorvo for continuous interest and valuable suggestions; M. G. Meshcheryakov, 2/@ Card  ACCESSION NR: AP4019201 S. S. Gershteyn, and V. G. Solov'yev for discussions; Yu. D. Pro- koshkin for extracting the pion beams; Ye. P. Zhidkov and A. F. Luk'yantsev for assistance with electronic computer data reduction; V. L. Trifonov and A. 1. Sharov for assistance with the experiments; Ye. A. Burov for processing the photographs; and the group directed by I. A. Pankov and K. A. Daycher for constructing the bubble cham- ber." orig. art. has: 9 figures, 15 formulas, and 3 tables. ASSOCIATION; Ob"yedinenny*y institut yaderny*kh issle@dovaniy .(Joint Institute of Nuclear Research) SUBMITTED: .09May63 DATE ACQ: 27Mar64 ENCL: 02 SUB CODE: PH 3/5 '7 Card, NO REF SOV: 005 OTHER: b20  GA g__; F ID, SSUV, Aleksey Mikhaylovich-,.�~.-.--rmaiLMIkhaylayI h R Te.G., nauchnyy red.; FOKICHEV, A.G., red.; KONTOROVICH,.A.I., tekhn.red. [Transportation equipment of shipyards] TranBportnoe oborudo- vanie verfei. Leningrad. Goe.soiusnoe izd-vo sudostroit. promyshl.. 1960. 179 p. (MM 14:4) (Shipyards-Rquipmat and Erapplies) (Conveying machinery)  --S-QKOLOVJ$ G.M. Vertical milling head for horizontal milUpg machines. Mash-inostroenie no.5:30-31 S-0 163. (MM 16:12)  0 0 0 0 0 0 16 1 A I T@T IAP 0 L 4 p"r.4 A f t. j kt,-ONVINS A -oo 00 00 0 00 r By-pmducts ot oLl.reamns g"Is as mw um %kol'ov, IdkokmiKka" Mq"r laduafty. lsd- 19", 2. 3S-40, A dis , cusjuin W. p. F o r e roe 0 0 so 06 0 0 0 i zoo * 0 ivoo 00 &I S L ETALLUP.GICAL UfflWINE CLASSIFICATIGN tt woo 0 - - u 19 j of t to 11 0( ma n i t f tv rp is Op of ff a Og it 0 0 0 0 0 0 0 & 0 0 0 0 0 41 a 6 0.0 0 0 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0 0 o 0 *1* 0 a a 0 0 9 0 4 * 0 0 0 * 0 o 0 0 oi  0 0 U 11 It Is k 1. A v p 4 00 p a 0 6 ale 0 0 a 0-0 0 0 410 0 0 A 11 Is 01 A! 21 a p N 13 is 9 A 29 'I'D 11 it A I v v -A T AA N CC l( e 0 0 0 0 0 a 0 0 0 0 41 ubl it it v M r 1.- 4, at 4kj, problem! In the retio"lizatlats at the trod@tion -AMM. C.. ht. StAnlov. Iakakrajoq xuvm In. justriyu 1"4, N.C. 4;-37A2. -A tcvivw k gnirn .( w. raw IllatcriAll Alld ;)fIICCSWS ill tht! 111811d. Ill 141-11HO1. =06 zoo zoo COO N90 L l?4LLL.P(,KAL WFROM CLASSIFIC010- 12 003 keg a Od 0 t v It or wM n I An L I Ill so 5 A] a 3 In  ,0 OF* e "- 9@ 0 * 9 0 0 0 0 0 0 6 6 6 0 0 V V W I. I . 9 u 11 b A 11 0 Watiou ticaa Isad o6m 1 I C 1 1 C-a 0 Vagina 14 "Folatua- =7T. V. Shcliru%,.ki , . . : -00 Zs L4k,ArujocAxmym led. 193S, No. 3, it) a); Chemr. 7ett,. IM. 1. 2449. -Ripts. are virported on thr prrpit. of tcsim by 11NO. treatnoent. of coloplimy (1), mituarouc rrmn, liusvr4 oll. acidol mW varnish" from midurs of biy!@yl manuf. UeAm prepd. from co4hony with dil. HNO, aft the q T M .00 filinv show pwr adhesive Fcomb". U W qtmHtkm W -00 c@ be obtainct! by adding to the tiratcd I and the prohict hom rx,,iduC3 from bivinyl primllwliun. itlital or %hellac .09 (WO,). nitroc-cltulo-w- ethy1critubm ,r - =00 Iwo 10 bmwax and Clyptal resin. N1. G. Aloore coo Joe go I" ! Coo Is go :zoo go* age go @-oo go ttoo *0 f 4(TACLI,FloKAI. tir(40,91 @LASJIFICAtli:k Z. go .1-1, 0.0, wo 0 -,i - r 4' L5 Aft 1 0 Od a lo I IV W 2 a  A, a a (Z a Ip 0 w v _4 4_4 0 6 1 7 I v Y A 1 4 AA So it, tt I . 4, I I lie 9 The Ill. 0-1 the prop ottive .1 alk).1 AC, 'gotit I.. 1.@x. I hew. I.J. 0* 8 14 1 IIAWW. Ckemr7i1xi,. 1937, 1, 4.%-741; cf. I. . .1. 30, 41r_'ol% Ji, I,( the i;i1tilence If valumm 'tif" -00 Ith Is might IN- I I'd a. u @Iillth@ It's lill"vd ,If In '"Z.1 i., IIII. n r1m), with 1,1111.6 .0. It"-1 NI IN -%Iw.m ,It I It, Wtc$ drv nollmaltv 111111cl Ifir -11.11tim- Vp lk@ 111 low alkird laeqiwo, pi,p& -ill, sal-rd ... I III 11 call IN, mid'.1 III ON'--- I'l.141 "illi 1.11-1 1 'llylsis p-p- :,Nsi(mjj 'Ittitlic At litt?" "ti,.i 'If ill,- till.. Ill, 1-4- *111. Is% tirs".. .4 1-1% mclifatm) If (lie tkIkv.I,I. l1wtva,111% the liviltilig temp, 0 irlervatar% Ilic tirvinit ptiqx-tott% mkd inakc% it IN--- IV 11,tain ifkvtl- %fill low mcid m.. ill a hml linw. UIIV '11111ring In"Imr1licI; illcitaw %till it I Ist. 1@: tV lie 9 I L A .11TAILLUNGKAL LjTtft&T6At CLAWFKATtICk boo @ @Ipl`e It @71 u 11 4A a to to to it oe mi a n R a K to tv 14 1 0 0 1  4 1 A 1 10 11 12 U W IS 16 it v 22 n4425 :6vXYq roil 1:33 Alouvillow 43 v 41 U O'Ce A C i _L_j ..it A_j a -0 'P AL.1- v'_. L r z _M At (X up. a- _JL_A_t_ A - _J__ A 06 cs.r.t s.. ic Solvents for "ptal resins. V. 1'. Zhebrv,kil alla C. Og. Ckem. Ind. i I S. S. R.) 3. W, S P61. Skolov. 0: 24 The %ohibilitirsofGlyptalof various dritTees of Polym.-ritation In etude ale. (conig. &S IN)% F10111) with the adfln. of I anti 2 active org. 00 00 Ar @v4vrnts A;e lubulatrd anti disetri-ed. PAmitrar, toluene, 00 11 it-11101i(WItlAnt' 1111111 CCI, &M, 1111114' WASt MCIIVe @OlVctltl, "Isithis the uv 44 2."dollownt vulto. Ilsalvible Its the a** 00 jl'-@ zoo 00 3-comfil"k. t row.'reft." 5-15% al-elanc. ean be used in Goo I lie latter lilkis.. with or without substitutitm tit aertate 00 -irr.6 fur acrtutte'ase the Its" toxic "Vents. TheAddo. r.O* 00 up to 21)% of high-ImAlling Assivent-4, inch ai white 'Pirit 00 and turwtitille, in the 3@oinpolwllt Sy.tvins i-I plar- z 00 a ticable. Glyptal lacquers resistant to tile influenct, of lq'W tempi. reslAlt by using an e%c-% of :Active solvent in the 00 z noixt., the amt. of which depends on the polyriverization CO 0 so deltreolGlyptal. ('olypWi,4ujl.ini-t.HuandAtitacr- 0 tat", acettair, Mccolit and CtIf4 without tile aid of ale. or other %olvrnts. ChAs. Man, , Wi 11110 0 t:00 A S a - S L A XJTALLURGKAL LITERATURE CLAWFICAT1014 I Z-:1 1200 troll 9.10.0 .11 0.. '14t [I a-.3 3 6 1, 7,Xf _@ 0 U 1-9 AV 10 11 i n A I Od I IN I 1 ilia 0 4 000 0 : oooooo;ooo;;",OoooooiooooopooooeoeogooooI 0 0 0 4 0 : 0 :1* 0 0 41 * 0 0 0 0 0 0 0 : 0 0 0 0 0 Ole 0 0 0 0 0 0 0 0 0 0 4. 0 0 0 0 0 0 01  w IF W, 6 V V IF w 0 0 0 0 4F: 9 co l 4, o ZI 21 ?1 a142 it 11 AA ba (X W_ M. I X TJ _ _ R 1; 00 -00 ""Mels. oil IsiCluers and. . I.d 00 a in . cAstof 0 (hrtl;. Th 11 given M e see 00 1 c /hOito", 't - 'I. 00 z 3 TIII it - it'll -tv .1 .11, Illitt.'s SA) jK't Lit- in "'JA I it, IZIA wid AI a Coll- All Ir Cle tile rvAct'll" m o t" It tile 11CAU itictl C. nI j, A N I a so 00 a t a @ .all -, .1 w I IU, 1 1 U I AVA It It ",Cfit, I, " w, - I 9 it, it a pillo la" IN c A K slit tit 1, K I W,,LA .0 gVes It C . ,If I I I see I. oil too T ttALLUPOICAL LITERATUNE CLAISIFICATICIt I L we* d mw I I U AV .13 IS it R 111 4 ` I ' " 9 ei 0 0 0 4p 0 o st 0 I ~ : 4 0010, @ j 0 0 0 0 0 m  0 4 6 0 0 0 0 0 0 0 10 0 0 0 0 4 0 0 0;0 0 6 0 0 0 0 0 0 0 0 6 0 0 0 I& r, It , u 11 At 0 P IL, Of mixtures of ustar oil with other ails for oil enAmeLs. Zl,rbr.v,kjI at7,1 O't ' kem. Ind. S. S. it.) 4, bj,@I-jpq likl-); ji 7 , 711 ,41-1:1 itlillj. of cxsj,w il with a 110. ;.1 W11144vttsit it ill lm@ll' CO citaly'l. -1,dt v ing %tthm 21 bm to yivl,l I'dim Iwaidet than Ijilw%@l- III film'- ILIT'hi", '21 111, nder: c-tor Ill. It C. 11. A 00 z of 00 ZOO a 00 'p o gee 00 goo zoo 00 00 00 00 A T-L- At LITE .016f :L -$IF IC A T;C% r I 00 1 010- r IT 0 TIE 84 1 13 11 E n r 3 9 1 0.1 0 @ . e,t 0 It Ell It 4 it K U IT it N La 4p 0,4111 * 0 9 1* 0 0 0 0 0 0 0 0 00 o 000 e 0 00 0 0 0 90 0 oo 0 o 0 0 00 00  0 0 0 0 6 4 0 0 0 a 9 0 0 0 0 0 0 0 0 a 0 )I q 1) 1. is 1. )p Jullit) J311,11 It )I A: P V 11 W 15 k 0 to L, .1 ;,A atire A r 4A J141 V j Titanium waste products as I04ments. G. M, Siltoluv P,om 0A.r. O 1-V411 1 1 . . , N. 'h Zh r a 1 R :W 1 N 41411 . u . im. ejer. o. , f U. S. S. R -) 193k , the Fivraxte 11-12 No . . priollort. %Imill their onlillit.4bijily HA pix"Irill, A"ithoul 'i jortiodualy dile to tile "Wo", lirmilvi 0 tile Ofilch Air ,ilotillilrd Ill 11trill. I Ill, un-wrti --ov,iloaW the molti,it, Uri -Owwo I tation and a prolong"I lettlisig of SiO. 11.4 At-ut M Iiiiil. i front tile water %ilklactorv pigule"t% arr o1j. : lairmt Ortmi the I"m of view of sutfacr L%ixti fan rniAturl) 0 j after they are groutul and mit,"t with 14c,lo"4. W It. Hello of j Sol 0 A 0 doe .00 0 00 to wee DO V - is AT oo is -W 'r j- ....... , -,-- M L S 6 -W 0 ii--i 'T t. &P 01, a K it 09 19 PC Et If it ill 0 `0 0 0 0 o 0 0 0 0 0 0 0 ss * to 0 soot to 1116419 900900 4 Ve 0 0 09  0 lilt as Z; boo q S . S L a WALLOCKAL LITIMAILRE CLASSIFKATION t I -i -w- r --T I Od I it or 13 da a 0 L, LN 10 ff It 0C Al 0 0 0 00 9 FS, 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 * 0 0 : : : : 0 0 0:4, 0 0 0 * 0 0 0 0 0 * 6 0 0 a 0 0 0 01:@ 11 14 Is 4 It kO It A 1--1 9 Y -VOISIS VIV T' 36 V A A a V IS AND PICFERT'i$ ..Dr. St is V a a 41 U tj W are White zinc paste (as pigment). G. Me 59kolpy and S. I. Lisovskii. Obmen Opyt. L4ikokras. Pn,m. (U.S.@:4) 1938p No. 2-31 55-71 XhU6 Referat. Zhur. 1, No. 11-12, no-11 4938). - The white Zn paste ;-OG Mch is obTAIned as a by-product in lithopone plants was investigated -00 in burned and unburned forms in order to dot. its suitability as a white pigment. The unburned white Zn paste possAsses lower covering properties than does lithopone. For covering properties which comply with Lhe requirements of OST it is necessary to add ZnO (15-60 parts/100 parts of the dry Zn paste.) The burning r9o under hermetically sealed conditions at 7500 for 2 hra, increases considerably the covering properties of the pigment (unslacked) roe zoo which approaches that of lithopone. The slackening of the pigment in water lowers considerably its covering propertlep, W. R. nonn  Preparation of oil and alkyd. laccuers with the condensa- tion product.of -D-tert-butylph-e-n-ol and formaldehyde A. Ya. Drinherg, V. T. _Zbebr@o_@,rskii Ud.JG. I-4.50-k-olov, Org. Chem. Ind. (U. S. S. R.).-3, @3_37-(193d.-- In the preliminary communication a no. of E-xpts. in prepg. and testing of alkyd and alkyd-hUW@henol-ChpO resins and their solns. in oil are--Je-scribed. The best results are re- norted w@en 1@ g. of butylphenol-CH20resin M. 850 - .7 1 5 g. CA,(CO)20 , 20 g. linseed-oil fatty acids and 5 g. of 85% .glyc@_r_of__7i*s heated at 20 mm. pressure and 2400 for 2 hra. and 20 z. of the reaction product is polymerized with 10 g. of raw hnseed oil at 2800 and reduced pressure fcr 2 hrs. The product dissolved J_n oil or turpentine give5 durable and quick-dnring lacquers. Chas. blanc  - w-' W -W 1 1 ll W : wl o e 4 e O O * 0!, 6 t I W 11 tj 41 14 11 4 f? .4 t' JL, 11 11 It R a ts m Ill w 11 v 11 m a k It Q 41 At .0 01:0 A L L L I f. It K. L I P r U A I I U Y i .,A I I AA tX V I A A j 4 m a A -go ell -09 -00 00 0 0 00 i-oo of : 0 -we of mvtal Itt IN, 0 -Ifut !hit)' itt tile pIv. 11". ,1 ll..1 ,v,l t'@ @ 004 00 O 10. @ * : Igoe @ 0 p Von: Ala it a affAllueLKAt 111144tuor claturICATIC" 1 Ve Iwo* It I v 11 i 4*0 WN't An L I a 0 1 1 4 ft It tp Ra at K (1 09 a K A 4 n A 0 " 000000 0 0000  SOKOLOV, G. M. I ir,Tr, 77 -77 7 Z0 !@jt @ -ilk 0 Wil 1,1111riliv all !if 0:v I-W.-: oA iwit ov, of Will" v4ili -.@m he. wil   L ',la-)91@_66 /WF (.J)/E'WP(t) /EWTI 1JP (c) JDAMIRM ACC NR: kp6oi6745 SOURCE CODE: UR/0229/65/000/012/oo65/oo69 iAUTIIOR-. Iskra. Ye. V., Sokolov, G. M. 10EG: None !TITLE: A -rimer for protecting bare metal from corrosion SOURCE: Sudostroyeniye, no. 12, 1965, 65-69 TOPIC TAGS: corrosion, corrosion protection, corrosion resistance, rust preventative, paint, welding ABSTRACT, Data are from tests of the possibility for using tannin in aqueous solutions and in lat r passivating bare metal surfaces. The results show that an iron tannate film is formed when a bare steel surface is treated in tannate solution. This tannate filin has good passivating properties. The iron tannate film is not very resistant to water and fails quickly under the effect of atmospheric precipitation. The low re3istance to water and atmospheric precipitation disqualify it as a means for n KRT-13 based on late passivating metal and metal structures. The passivating compou d and tannin compounds is capable of protecting metal from corrosion for a period of 12 to 14 mDnths. Films of this new compound have been studied and the techniques for ,its use are recommended for shipbuilding. Tests show that a film of the compound. KRT- on the surface of a metal does not have any detrimental effect on painting or welding operations. Orig. art. has: 9 tables. SUB CODE: ll/ SUBM DATE: none/ ORIG REF: 002/ OTH REF: 002 1/1 vmb um 629.12.657  L 65135-65 IJP(c) JD1-NB -------- -... ... :ACCESSION NR: AP5021619 UR/0286/65/000/013/0098/0098.1, :'AU7HORS.- Iskra, Ye. V'. Sokolov,, G. 14. TDILE., A method for passivating purified steel./,'Class 48,, No- 172587 @T ff AOURCE- Byulletent izobreteniy i_tovarnykh znakov) no. 13, 1965j 98 add Nomp @TOPIC TAGS: steels.p'elvatoe itive, titanium, ound/ SKS 65 GP(i) latex, aubiral, mazhef saltr- . 4BSTRACT: This Author Certificate presents a method for pas v tin purified h @,qZa 9 isteel by introducing aqueous solutions of.titanium onto t ace to be 5 f ;passivated. To improve the protective quality of the films SKS atex., ;or a solution of polywinyl aubiral, or aqueous solution of an Mn and P ipreparation (mazhef salt) is added to the passivating titaniw@ -solutio1w .A"ISDCLUION: Organizatsiya gosudarstvennogo komiteta po sudostroyamiyu SSSR :(Lrganization of the State Committee on Ship Building, SSSR) SUBUTTED: Oftay63 ENCL: 00 SUB CODE: 101j IE NO MW SOV: 000 OTHERt 000 Carcl  L 05076-67 T= R : AP6013318 SOURCE CODE: URM0413/66/000/008/0136/0137 AUTHORS: Alekseyev, A. M.;_Sokolov, G. M. ORG: none TITM: A rail ship transport carriage. Class 65, No. 180971 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 8, 1966, 136-' 137 TOPW TAGS: transportation equipment, hydraulile device ABSMACT: This Author Certificate presents a rail ship transport carriage with a secw.-ing device. The carriage is equipped with a load platform and a hydraulic drive in the form of a horizontal double action hydraulic jack (see Fig. 1). The devi,--e is compact and creates safe conditions for operating the ship transport carriage. The securing device is made in the form of a horizontal frame with vertical hydraulic jacks built into it. Rollers are distributed along the ends of t.*.,ie frame extending above it. These rollers are kinematically connected with the load platform of the carriage which moves along the rollers. Shoe blocks are fastened below the frame. These shoe blocks interact with the heads of the rails Card 1/2 UDC: 629.128-4