SCIENTIFIC ABSTRACT ZHADAN, V.Z. - ZHADIN, G.P.

  ZHADAN, V.Z.; S-REVELEV, V-A- Automatic control of airtightness in sealing canned food,. Kons. i ov. prom. 14 no-10:15-19 0 159. (MRA 12:12) I,Odeoekiy tekhno logicheakiy Institat piahchevoy I kholodillnoy pro- myshlewmeti (for Zhadan). 2,Odesekly mashinostroitelln)7 zavod imeni Kalinina (for Shevelev)o (Canning and preserving--Apparatus and supplies) (Sealing (Technology))  SHAPOTALOV. I.F., starehiy itauchuyy sotrudnik. Prinimali uchanti.Vo: ZIEADAN, Ya.g,, gornyy inzh.; KALITVYARSKIY, I.T., avtomekhanik. ITIKOLA7EV, V.F., otv.red.1 VINOGRADOVA, G.V., red.izdava; ILIINSKAYA, G.M.0 tekhn.red~ (Manual on the control of mine rescue equipment] Posobie po, pro- verke goraospasatellnogo oboradovaniia, Moskva, Gosomluohno-tekhn. iad-vo lit-rypo Cornoma Ulu, 1960. 125 p. NM 13tQ 1. Stalinsk; Sovet narodnogo khozyaystva. Nauchno-isoledovatel'skaya laboratoriya po gornosqmsatellnomu delu. 2. TSentrallimya nauchno- isoledovatellskaya laboratorlya voyanizirovannvkh gornospasatelinykh chastey [TeNIL VGSGh] (for Shapovalov). (Mine rescue work-Squipment and supplies)  VA SUM, G.; TSLISMV, V.; SHALONKIN, B.; KASUMOV, K.; OZEBOY, I. MADAN, Te.; KANUYLOV, V.; MISHIN, F. Foremost workers taking part in the socialist competition. Avt.transp. 35 no-9132-33 S 157. (MIRA 10:10) (Automobile drivers) (Highway transport wor6r*e) W FEW --- MW   AUTHOR: Zhadan Z , Candidate of Technical Sciences. 66-1-25126 TITLE: Evaporators for refrigerators.'(Ispariteli dlya. kholodillnykh.shkafov), PERIODICAL: "Kholodillnava Tekhnika" (Refrigeration Engineering), 1957,~Yo--I, P-77 (U.S.S.R.) ABSTRACT: Foreign, particularly American$ practice of producing heat exchange apparatus, particularly evaporatorsfrom sheet aluminium is dealt with. AVAILABLE: Card 1/1   Una lmtj~T~-ZM~ 0aam ZMANOV) B. 11. ZFUDMIOVI B. N. "The pedagogic activity of I. N. U11yanov and. the training of children in Us family. t' Academy of Pedagogical Sclenc~3s. RSFSR. Sci Res Instu of Tea,chingl-,'ethods. Iloscow, 1956 (Dissertation for the degree of Candidate in Pedagogical Science?a) SO: Knizbnaya Le-topist `To 3 6, 1956, Mloscow. V~gpm,w two  BEIM in I (Mosk-va); KIFII,Lr-lj:, V.V. (Moskva); XG-141KCV, V.V. Processing for --olving a i-egulahlon (planning and contrDI) problem. 7hur. vych. mat. I mat. fiz. 5 n0.12150--155 J%-F 165. (MIRA 1814)  ZHADAITOV, YvL.B.; gornyy inzh.; SERGEYEV, S.T., gornyy inzh. Aut6matic'Water heating system for mine ehower baths. Ugoll Vkr. no~601 Je- ''60. (MIU 13:7) (Show''er baths) (Automatic control)  GORODETSKAYA, E.G. [Horodets'kaj E.H.1; ZVONAREVA~ G.N. (Zvonarlova, H.N.]; SOFIYENKOI T.A. [Sofilenko, T.A.]; YARMOIMKO, R.A.; MADMOVA, R.I. Ballistocardiography in cardiovascular pathology Iin childron. Fiziol. zhur- Lukr.] 8 no-5:600-608 S-0 162. (14IRA 17$11) 1. Department of Pediatrics of the Kiyev Post-Graduate Institute for Physicians and the First Childrenfs Hospital of Shevehonko District, Kiyev.  10 : 0 *0004 .0 - ; 0 a 0141-0 8 i 11 to 14 11 %1f if to h It A ?I I F 11 ~L IL ft~_ F_ 9 A-1- 1 ~V_ v AA 00, W W It. k Mdd molbW tw 4*UMWAC ndtW MUW "4 White of ilk ioiad.. M. H. Lxmdou. A. IIVue &Y%. K. )CkocbUmk* and 8- OiJ CAWW. M 00 , (U. S. S. R.) J. No. H, 45 Al(Mrj), CUM4 & ildissfris Go I!- S__ IMIMMIC I ot. of coal. transhr tbr 1 ) W b : , t 1) cv. Wit tov, 1 ... INituityvir &A. atM *4 % HCA, holl 1"I nitio. or to demlatkAtlim of the ImW. I 00 t l;, Fft"W Aller 1410 a 1-1. mik"a"Yer Oak, wmsb with IVA water W the vmhiiw Wr f1tv (Ito" Fe (if the t"Mm WU coatialmom Yt, diW with W% HCJ md W th# ean. to thit is mh Illuute =d washLrml:. dct. Fe by Zimainstsna. 0 Riththadt's KUn(h uIc"j, whkb giift pyyitk 8 + jjCl. 1101- Fe- mbtnict IM-sol. Fe detd. an a a f, jowtim, and a ina250-m.beakwaiMlotocc.ollo 110 W" to boAft, fil l Al 2 i 00 t-Pi t withbot water 1rec Yowu r= U0.0vap. a to 100 im., ppt. Fe with NJWH mW det. Fe as ebm. Voo in the lliltmte det. sWatt 8 by pptn. with BaCj,. pyritic be obtained dk-ly by fimt ttefitive the cul with so* 10% HC3. Micring, adLing and prmeedintt &, &bm. A. Pswineso-Coutwr zoo zoo to 0 *$0,51A 0111ALtilIVOCAL UVER-!1,01 CLAISUPICATICA1 %*act* 14-1 Q-( C olb u : iv po ..-T 5- 1 ?A I it -FA--O---M--v I V it 5 111 "': K tifit ,to Vic Itis it atmon 114*, t 0 0 04 a 0 0 0 0 a 0 0 a Ill 0 * 9 * 0 0 0 0 0 0 0 9 6 o 0 6 * 0 q, 01 0 4 0-6-0-41-0 0 A a 9 0 * 0 * * 0 to 0 0 0 0 00000,00 so ago --*** 1004, 1  -A, a so a a.. a a 46#110111141131411 16 of fit is dw j It a 13 is A It it m w 11 V 11 IA b m it w 00 e DiteCaLivAtioass by Me"S Of vioiselk afavitr 91164,111IN -00 :0 meau. A. z. VistovAR and A. v.-Zliallolaox6ya. A 1110 4(inceir"lant -Drisk, of thr li unit p notlivit'l of (Iml "A" CAI lit'l 11411. fly Fists, 11141111 A4 fla"A), otod M110,111002NILA), XIW I I Is As 11111114 divAttled twill I Ice 11411161 .0 to livilloul Ill( 41W J . ut a ci I plot. to (ft" mo.lib'd lopt. ndott. wilt thoat of the It, c 16. 16 " (At 14 7-0 ); 111 - 1 j',XjT)I VMMI JZ. WWII. r, 00 PtAkswin 4*0 also Al tie Alto,! ti.t1iii.4 ire 0 --v--i a is It of 10 n I W4 A 0 0 a a 0 Sig 0 0 a 090 0 0 0 00 0 0 0 00016 0 0 0 see 0 0 a 0 is It 0  At v R u sea ispisma o it it 0~0 ilt, 1, 1-,- AA IV. IS I #_ _It4o kAv;:% PMWjiOu Of Tuseasic by witrag" =a 111174mom. t~ ~ 00 "If, IV *0 0is J. mochan I(Ampl. rema. (I)OK) Arsid MR-8 5-_.t Wit SX1. 30.0). 2w.-'s)-tin PAVUL) It to round thl%t 111in "Indenant filing 00 w C.&Ctive In caw t~vu ofetlivirup Own pLing the hydnigelial kill ritlwr hy#stjm In th. proportlim of I n)(Arclite tt) .00 0 key contA ( Ine(Al Or 11111MWO In Itho mportjim I I I", The activity dectil" Toty Go 00 tilt vitw (if tb~ Optimum .00 00 .0 4b 00 zoo 00 400 00 00 0 too 0 1AIIV116K,11, WER41WE CLAIMCATIVU C 1" a 1-4 M, sa -4, IQ* W 44' u I of b 0 Aj of w it u n f w4 11 1 * 0 0 a o , : oie 41     S/065/61/000/004/004/03.1 3194/3284 0. 1. Badyahtova, AUTHORSt Gerasimenko, N. 21. , Tastrobov X. M. I Colldshtsyn D. L., Pi;&r,hit-: A, X., Irin-elomov, V. P. and TITI32 Hydroftning of Lubricants PZRIODI=t thimiya I. tekhnologiya topliv I MAA01, 1961, No. 4, pp. 27-31 T=s Lubricants produced at modern refineries running on .eastern high-sulphur crudes are fim4abod with earth but the lubricants obtained are not Of satisfactory quality~ particularly in respect of colour. and the yield in low. Accordingly VNIX NP W and GrozN11 have investigated catalytic refining of lubrIcants in the of hydrogen (hydrofizLing) to replace earth treatment. P"Oe"Zillate and residual lubricating oils produced fro Various dis a sulphurous crudes by phenol and furrurol extraction were byd- fined under laboratory conditions- The work showed that hydro- fining with -11-1~juz_cobalt-molybdenum catalyst considerably improved the colour, somewhat improved the viscosity '-A-- azd Card 1/ 5 oxidation stability and reduced the coke number. Thare was some reduction In viscosity and increase In pour point. Depending, ., r upon the properties of the feed the output or bydrofined oil was 99.5%. The Novokuybyshevskiy neftepererata,!3rvay_ushcMy zavod ovokuybyshavak rofSnery), together with the tuybishav N" EP M orgsaized a plant trial an hydrofining of various do-waxed lubri- cating oil raffinates from sulphurous crudes. Representatives at VNIl NP, GrozN11 and GIprogrozueft' participated in the trials. The lubricating oils were hydrofined on a reconstructed plant for hydrafining or diesel fuels. Tests were made on two distillates, one a Spindle and the other a machine oil, and one residual oil The do-waxed feed passed to heat exchangers where it was heated by finished oil issulng from the reactor and was then finally heated to temperature in a furnace before passing to the reactor. Before entering the furnace the feed was mixed with hydrogen containing gas and was then passed to the top of columns loaded with aluminium-cobalt-molybdeuu= catalyst. On leaving the column the product passed through the heat exchangers, thence to a gas Card 2/5 Soper %or and the finished product was vacuum stripped. The main charaNeristice of the catalyst are given. The oils produced were spindle o!.I. janchino.oil and residual oil with viscosity of 20-66 atis .k at 100-C The results of bydrofining and of earth treatment are compared In Table 3. It will be seen that the b7drofined oils have much better colour, lower cake number, lower sulphw~ c9atent, higher viscosity index but that th re-is Sam 1 'a technical and economic calculations Indim; th;A; ih-.0ajital V1,00't-ructizg hydrofining and earth treatment plant Is costs of tons ctcz* t!:z ==I t~.t -!th ninnin! e'-atz are about 32% lose than with clay treaiment. There are 1 figure and 5 tables . ABSOCUTIONs IM M Card 3/~    AGAFOEW V.; ABA'fnV,,'t) D.T.; OKINSHEVICH, "VITEI)YANP FIMELONOVY .P.; f, S'KOV, (I.A.; V.? Y A. DA A.; RZEWSKIY, LS. Obtaining raw stock for the production of active carbon black by extraction uith the selective solvents of the gas oils of catalytic crackin,v. F-MLIn. i tekh. topl. i masel 9 no.7:36-39 J1 164. ( I ITjt~j 1! -. .14 Tn --erabotke nefti i gaza i Polucheniy~a iskusst"Vennogo zhidkogo topliva.   AIDTHOR: Zha SOV/65-58-B-8/14 TITLE: Investigation of a Plant for Produci*nS Hydrogen by the 'W ater . Catalytic Conversion of a Hydrocarbon a With , 4t-I raboty ustanovki po~poluoheniyu vodoroda Vapour. (OP7 metodom k-atalitichoskoy konversii uglevodorodnogo gaza s vodyanym parom.) PERIODICAL: Khimiya-i Tekhnologiya Topliv I Masel, 1958, Nr.S. SSR (T 38 44 - . ). pp. I ABSTRACT: The crude gas Is supplied-into the plant and divided into two currents: a current of heating gas and the Investigated gas. The latter, together with 20% solution of ethanolamine a~ sorbent) is led Into the lower part of the absorber and T then mixed Ylith a small quantit of vapour; It is heated to 46000- After eatalytio desulphurisation it enters a gas heat exchanger, is cooled-in a reflux condenser and mixed again with ethanolamine; the gas then paeses into the conversion-chambert-and from there Into the intertubular space of the heat exchanger * By heating the ml.xture of 00 C O are hydrogen and gas and vapour in the tubes to 815 t~e conversion chamber -'U*he gas formed. After leavini C t o and passed into the lower par 13 quickly cooled to 0 .card 1/3 of the convertor (figuro on page 39). By contacting the  SOV/65-58-9-9/14 Investigation of a Plant for Producing Hydrogen by the Catal*Ttic Con- version of a Hydrocarbon Gas with Water-Vapour. gas in the absorber with mbnoethanolamthe almost complete absorption Of C02 is achieved. After cooling of this gas current the remainder of the C02-is separated In the second stage of absorption. The third stage is analogcus to the- second stage of the process. Various steps in the absorp- tion and desorption stages are described. The fractional composition of the initial gas, the percentage of olefins .and sulphur,vkdch determine the suitability of the gas for processing,are given in Table 1. An iron-chrome catalyst .of the following composition vas found to be most satis- factory for the decomposition of the sulphur-containing raw material: Fe203 72.58%, Cr203 - 6.75%, CuO 7670%, H2 - 13% Tabld.2' shows the composition of the catalyst u.,jed during the conversion of the hydrocarbon gas. The composition of a special catalyst., recommended by GI4?,, used for the con- version of,gases containing tip to 10~6 olefinu, Is given on page 42. Iron-chrome catalysts were also used for the card 2/3 conversion of.CO to C02 (Table 3). Table 4i the material-  'ation of a Plant for Producing SOV/65-58-8-8/14 Investig ydroeen by the Catalytic Con version of a Hydrocarbon Gas with Water Vapour. equilibrium of the conversion reaction of,hydrocarbon gases to H2 and 002- Gertain.modifications of the plant when used for industrial purposes are discussed. Table 5 gives a cost estimate of the process. There are 5 Tables and 1 Figure. ASSOCIATION:Novoil-uybyshevalciy nef-tepererabatyvayushchiy zavod. (Novokuybyshevsk Petroleun Refining :tnstitute). 1. Hydrogen--Production 2. Hydrocarbons--Gatalysis 3. Water vapor--Applications Card 3/3  s/o65/6o/ooo/oo8/olo/olo/XYL B030/8112 AUTHOR; -ZhadanovskiY-,.N0B. TITLE: Experiments on iunning a_Hydrofining Unit~ PERIODICALt Khimiya i tekhnologiya.topliv i masel, 1960~ No,, 8, pp. 57-63 TEXT: An experimental type of hydrofiner has been operated sucriessfully, and recommendations are made about the construction of future unlts,, The hydrofiner desulphurizes straight run distillates obtained from high sulphur crudes -in order to produce diesel oil, light gas oily and aviation kerosines. The reactor conditions were 30-40 atmospheres pressured 350-395 00 temperature, and 1.3-1.5 v/v/hour feedstock space velocity. The sulphur was removed in a 1.5% monoethanolamine solution. The desulphurized output was 96.5%-98% of Input, gas production of 0.8-1.0%, and losses were 0.6-2%.- For a.gas oil of 0.78 wt.% sulphur corttentj the output had 0.034% sulphur content and 53 cetane number, and for a 1.28% sulphur gas oil feedstock the output had 0.14% sulphur. The sulphur content of a diesel oil was reduced from 1.28% to 0.14%9 and for an aviation kerosine type "IT-1 (TS-l) from- 0.01 Card'1/2  S/06 5/60/000/00 8/010/010/XX E03O/Ell2 Experiments on Running a HydrofirLing Unit (mercaptan) to 0.0002%. Very strict process control I-S nec9ssary on liquid, vapour, gas,7 and.feedstock levels. The use of a cold. (4o-1+5 OW gas separator in addition to the usual separator gives satisfactory hydrogen economy., The oatalyst should be fixed bed, with. a suitably designed reactor. The furnace design is- satisfactory, but horizontal rather than vertical heat exchangers should be used, In order to conserve catalyst activity and :Kleduce id be the pressure d.rop across the reactor, hydrogen-rich gas shou. ciroulated for 4~-6 hours evezey I+oo-600 hours. For feedstock sulphur contents up to 1.0% the catalyst should be regenerated, every 2000-3000 hours; this2 together with maintenance, Occ-upies about 122 days (12 to 15 days in vJnte7,) . An ope.-ating e-yele Is suggested, with 55% plant utilization.   kHz eff;i%AV_V-P M.. WA USSR/Chemical Technology -.Chemical Productis and Thetr 1-.8 Application. Treatment of Natural Cases and Petroleum. Motor and Jet Fuels. Lubricants. Abs Jour ]Ref Zhur Rhimiya, No 1,11958, 2565 Author Goldshtayn, D. 13Q; L, Shnayder, G. S... Osipov, L. 1q., Cherenkov, A. A., Al-tshuler, A. G., Ryzhkova, Ye. M., Zhadanovskiy, N. B. Inst Title Hydro-Furification of Sulfur-Containing Petroleum 1-roducts in an Industrial Unit. Orig Pub 1(himlya i tekhnol. topliv i masel, 1957, No 6, 36-4.1 Abstract Presentation of data on hydro-purification, in an lndwj-. trial unit, over an Al-Co-Ylo catalyst, of a direct distil.. late obtained from a mixture of sulfur-containing petro- leum varieties (SP), light gas oil of catalytic craoldmg 290-5000 fraction (LG) an& tbdr mixture (M) at a 1:1 ratio. Temperature of kvdro-purification 380-3950) Pres- sure 40 atmospheres gauge pressure. As a result the  SMHMFMEIBZ~~~ S-cottent was lowered from 0.97-0.92 to 0.03-0-05% in I;he case of SP, from 1~241 to 0.06% in the case of W. and : from 1.05 to 0.05% ir. ths~caze of M. Rldro-purification ensures produotioa of' good diesel fuel. Total exponitit- re of H2 amounted to 0-38~ by weight with SP and 0-71% by weight with W. During hydro-purification of 0.3% msoli- no are formed. After 8000 hours of operation the catalvat had not lost its activity. The catalvat is readily refp- netated. Corrosion of equipment by action of E23 and 11,2 is noted.  GOLTSUEYN, D.L.; SMMTM, G.S.; OSIPOV, L-W.; CHMMEN, A.&.; ALITSHULER, A.Ye.; RYZHXOVA, Ye.K.; ZMANOVSKIY, H.B, Hydrofining, of sulfur petroloun products In an industrial installation, Mhim.i tekh.topl.i wssel no.6:36-41 Ja 157. (MA-10-7) 1. Vaesoyuznyy nauchno-iseledovatellskiy institut po pererabotke nefti i gaza I polucheniyu. iskusetvennogo shidkogo topliva, I Ogneftezavody. (Petroleum--Refining)  wain USMMEPrim -a H A) 1y AUTUORS: Cherenkov, A..A.,- AO-Itshuler, A. E., Ryzhkovu, E. 1,11., Golldzh:te~rn, L. D., Shnayder, G. S., ()si-poy T. 1F., ard Zhadonovc;kiy, ~N. B. TITTZ Hydropuri-ficatAorl of.sulphurous pe-broleum products on an industrial installation, (Gidroochistko sernistykh neft-o- Produktov na promysUennoy ustanovke). PERIODICAL: "Kbimiya i r1leklmologiyo Topliva i Mosel" (Chemistry and lechnolo6y of Fuels and Lubricants) 1957, ITO. 6, P, 36-4.t .ABSM, ACT; It is expected that hydropurification of sulphurous patrokunl proaucts vill be widely used in the U.S.S.R. in the nerr futixe. On the busis of data on the process ob"'Aned by VNII !a' ard 1"I'll IT11, on 51-1-dustriul plarit vas designed and btailt- by Gi-pronCj't-czavo6 on one of the rcftncr~cs. The plant is described (fis. 1). 'Alc prc,cess is,carried out using aluno -cobalt _zoiyod,2num catalyst (dcrejvpQf,]. by 11P) and hydrogen (9cX~), obtained by catalytic converBior, ofthydrocarbon gasos. Straight run distillates and secondary products or,.-, treoted to produce DicsiO. fucti, (Goo'i~ oPeratin6 conditions are given in table I -3nd tulae v.-sults ot purification of straiZ;ht run-distillote from a 7:1:1~tucvv of' IM~,ukh.-rovakc-/Y TD1r,!_-=_i~_,S'-C,-y D2vonsho., aid crUde oils, ligloft g~is oil. from Eydjr(~ymri- Cvrd 1/3  mixturo of the ~obove twO dil0tillatc.9 in table 2. Thai de6gee Of du3ulphurlsation P'5.2-q5-Wj,- The Unalvais of in table 3. gneo ol.,"Cained during hVronwific3tion is giver Pefore the absorb, The circulativg gas I or (uitli monoethauol- amine) con~air-ecl 0.7-0.9. Volume roo of hydrogen sulphide; vf~er I;he absorber The ~maan b:~Iance of the proa- ticta of hydropurification Is given in table 4. lkjdroo~n consur,l)tion for straight run distillat42 wcs 0-38 Ift ~ and for gas oil from catalytic cracking -0-73 Vt i!1, 11',rdro "nn used for the reaction vas,0.2TI4, and 0.60~ respectively. 'Ch- sulphiw balance is given, in table 5- UP to 0.03i'5 Of _T S culculatcd on th-e- -rav- material used is carried Out wiu~ _ I T T treated fuel ond is romoved by vhshing 'Ath 2-5 lic-1011 solution., The alkali consumption 0.1 1% per ton of Diesel Awl. Tbe working peric)4 of the catalyst without regenera- tion is C-00 ILrs. The regeneration of the catalyst is carried out at the teuTeraturc not exceedinZ 5500 undcr )IC) rweasure with o mixture of an inert. gas with vix. Ini"U41 oxygen concentration 0.2-0.25 Vol 'P1 and at the end of 't"Mr! regenerating period is increased to 1.1rij. 1.111C.P. the MAn Card 2/j  Eydropurification of sulphurous petroleum. products on an industrial installation.. (Coift.) C5-6-6/13 part of the "coke" vaIs burned out, 'the remaining part vais removed by licruesing oxygen concentrntion to 2~j, ard pre-. heating the gas to 52,Q-550 C (2 hotirr'). Illotal durutioll o:~ the regeneration process 20 hours. The initiol activity o.V tho catalyzt is completely reatored. WIhon the plant vcs stoloped for inspection -it was fownd that the upl_,er layer of. the catalyst was c(rrered with iron sulphide. Accumulati,=s of iron sulphide vere found in various pluces, 1. e., tlM corrosion of the apparat-us vas notwiceable. The parts of the apparatus contoini,ng H23 and 112 at high temperatures vera made.from steel,X51,1, the remaining p3rt from mild steel. Apparently the corrosion resistance of X5M steel was in- sufficient. The DreciT)it3tion of ixon sulT)hide on the catalyst has no apparept influence on its activity. There are 5 tables and 1, ViSure. ASSOCUTION: VIIII UP; Orgii-eft) AVAILABM,: Cord 3/3  GLUS~MWKOV N.M.; YASTREBO IVq G.I.; BODYSIfTOVAp K.M.; GOLID$HZ,;YUv D.L.; FISARCHINg A.H.1 ZHADANOVSKIYV,N.B.; FINEWHOVO V.P.; Kamm, Hydrofinin of oila, Khim.i +-~kh.topl.i masel no-4t.27-31 Ap 161. (MIRA 14:3) I* Novokubyehavskiy neftepereabatyvayushchiy zavod* (Lybrication and lubricants)  GERASIMEENKO, N.M. L _ZHADANOVSKIY, N. B. FINELONOV, V. P. TITSKAYA, B.F., ved. red-.-;7ASHRMWV-,- tekhn. red. (Hydrorefining of petroleum products]Gidroochistka neft,apro- duktov. Moskvap Gostoptekhizdat 11962. 131 P. (MIRA 16:2) (Petroleum-Refining)    h5674-~6 z-jrr (m) -Acc-Rm--AP6023622 SOURCE CODES U#0316716W(6/66~rw 2 15, I AUTHORS Arafonov, A. V.; Osipovt L. L4.; !~qmvj -S.P.; Uzunkqyan P 14'.1 Finelonov, V. P.; Zhandanovskiys.,~,,,L_&rozhiginag 1. Ya,; Koltriant 1, V.; ricarenUt A*--IT9-i Kha vkins Ve A.; OIGI All-Union Scientific Research Institute of Petroleum Refining (Vsesoyuznyy nauchno-issladovatel'skiy InsEitut po poreraUotke tofti)j U 6119V Petiole R__ finol (Novokuybyshovskiy noftopererabatyvayushchiy zavod) TITLE: Experience with catalytic h ng of vacuum distillate on the hydrofin- _ydrocrAcki , ing assembly of the Novokuybyshov Petroleum Refinery SOURCE: Neftopererabotka i noftekhimiyap no., 40 1966, 12-15 TOPIC TAGS1 catalytic cracking, petroleum productp gas oil fraction, diesel fuel.. Casolino Ar3SVb'M11 The VOIDIP has developed a variant of tho process for proll'Icinr, qA2A21AS-1 ~involving ono-step hydrocracking of sulfur-containing vacuum diql;illates on an Alumtl# 'nx=,-cobalt-molybd~num catalyst. The romilts of 14boratory experiments with this vart- ant wore sucossfully applied at the experimental Indu3trial hydrofining assembly of the Novkuybyshov Petroleum Refinery. The operation of' the hydroaracking-assembly is: 'rac Ing as sembly 18 described. The food stock for the plant hydrocracking'was vacuwi gas.oil obtained 's ~o a, t from distillation of sulfur food stock. Distillation.of the hydrogenate producedl pr( U 'bard UW: 665*644~2*048*5 ~666  z 36~ ACC NRs Wf6 "23 i2 diesel oil which met All-tho requirements of GOST 4749-49 for.DL ~ra4a; a Gasoline A fraction characterized by a low sulfur content (0.002-0.03)p a re'.11atiftly heavy fraq- tional composition (malting range 120-1800)# and a low 'octane number (42) and its reconnended as feed stock for catalytic reforming; the gaseous products methane (49.~~ -vrt ethane (29.4%)) propane (MO) and butanes (3.65). The residue of the dis tillAtion of fuel fractions is rocommmonded as-feed stock for Catalytic cracking. It is concluded that the hydrocracking dr vacuum gas oil on the hydroXining assembly of NKNTZ confirmed the results of work'carried out by the VNIINP on p-,'.lot plant; for the purpose of designing high-capaoity units.- Orig. art. has$ I figurov anit 2 tables, SUB CODEt II/ SUBM DATEI no'ne/ ORIG REFt 001/ OTH RSFI 003 fv Card 2/2- - -------------  fly'- I' ff. -0-- USS111 'ILL oducts and Their Application. Treatment of Natural Gases and Petroleum. Motor Fuels. Lubricants, 1-13 Abst Journal: Referat Zhur - Khimiya, No 19, 1956.. 62583 Author: Zhadanovskiy, N. Institution: None Title: Means of Improving Operation of AVT Units Original Periodical., Novosti neft. tekhniki, Neftepererabotka, 1954, No 6, 3-8 Abstract: A number of measures have been vorked out.for improving the opera- tion of AVT units, and aimed at maximum utilization of internal reserves. Use of a heat carrier -coil for preheating of Easoline- stripped petroleum made possible to increase output ot units'by 5-7% and attain large savings. The following has been effected: (1) Vacuum distillation of mazut in fuel AVT without preheating of the mazut in the furnace, and utilizing the latter for preheating gasoline-atripped petroleum; (2) Repairs of the atmospberle column Card 1/2  'USSR/Chemical Technology Chemical Products and Their Application. Treatment of Natural Gases and Petroleum. Motor Fuelij. Lubricants, 1-13 .Abst Journal: Referat zhur - nimiya, No 19, 1956, 62583 Abstract: c6ndenser and evaporator without discontinuing operation of at- mospheric part of-the unit; (3) Utilization of the gas from AVT unit in furnace fire chambers; (4) Additional lining of asphalt cooling unit) (5) Reduction in expenditures of reagents for the prevention of hydrochloric acid corrosion by combined use of calcined and caustic soda. Card 2/2 1 11 HAN  KAZANSKIY, V.L.; ATARAZEVICHI Ye.I.; VOLKOVAj S.A.; bOCHAROV~ I.V,.; MZUKOYANI P,H, I ZIIADA?IOVSKITI,!~.V.; FNEWHOV, V.P. Use of the hexane fraction from the central gas-fractIonation plant (TSGFU) as raw material in the catalytic refoming systems. Khim. i tekh. topl. i masel 10 no.lOt6-7 0 t65. (MIFLA 18: 10) 1. Gosudarstvennyy nauchno-issledovatellskiy institut ne-ftyanoy pronyahlennosti, Kuybyshev, i Novokuybyshevskiy neftepererabaty- vayushchly zavod, Wn   ZUMYV, Y.G.; BYDEROVSKir, S.I. The KS-lm combined. equipment for sink-Ing mine shafts. BDil. tekh. skon. inform. no.9:3-6 '59b (MrU 13:3) (Shaft sinking)   zji6'b 14 ye-4;W~ AUTHOR: Shva,rts, D.A. and Zhadayeva, D.A., 121-2-15/20 TITLE: The use of gas carburising ~the Gorki Milling Machine Manufacturing Plant. (Primeneniye gazovoy tseme.atatsii na Gor1kovskom, Zavode Frezernykh Stankov) PERIODICAL: -I'Stanki i Instrument" (Machine Tools and Tools) 1957, No.29 PP- 36 - 39 ( S.R.) ABSTRACT: Details of the gas carburisi'ng process are discussed including the prcparties of the carburising agents, the comp- arison between the different,carbarisers, methods of deter- mining the depth and properties of the carburised layer and intensified fuel supplies to increase the 3.-ate of carburisation, the ahalypis of the exhaust gas as a measure of the carburising operation. Criticisms of existing Soviet carburlsing furnace desiEps are made. Methods of protection of surfaces against carburising are discussed. After many tests a paste is rec- ommended consisting of liquid glass, potassium chromate, K.CrO4 potash (K200 3) soda (Na2CO ) marahallite and ground white fire-resisting clay. A meld, of preparation is given. There axe 2 graphs and 2 tables. AVAILABLE: 1/1 -  ZHADAYXV, F. Gorlkiy Hydroelectric Power Station, On the Gor'kiy constuuction project, Ogonek 30 no. 39, 1952. Monthly List. of Russian Accessions, Library of 0ongress, December 1952- UNCLASSIFIED.   0 V-0 agronom. lAnt was built. Sell. atrol. Where t e first rural electric power DI 12 no.ll::4-6 X 157. (mia lotil) 1; Rbokovokoye oblaotnoye upravlenlys vel'skogo khozyays-tva. (Rural electrification) (Tolokolamak Distriot-Blectrio power plants)  ZHADAYEV, V., agronom; =NSTSOV, B. Itecord-breaking yield of flaxseed and fiber. Naulm ip9red. op. v sellkhos. 8 no.l-.25-27 A 158, (MIRA 11:2) (Plax)   BLIBLIKOV, Yevgeniy Vladimirovich, inch.; VINARSKIY, Yerim Haumovich, inch.; DANCHICH, Valeriy Valarianovich, inzh.;'DOKUIN. Oleg Semenovich, inzh.; LOKOV, Aleksandi;.' Viktorovich. inch.; TELEMV, Ihitriy Yakovlevich, inch.: FIMOROV, Sergey Vasillyevich, inzh.; FRDOROT' Georgiy Dmitriyovich, inch.; YAKUSHIN, Nikolay Petrovich, ~and.tekhn. nank, inzh.; ZHADAYHV V G ' otv.red.; SGHNOV, L.V.0 red.izd-,wa; S"ITOV, A. . (Selection of equipment for vertical shaft sinking] Tygor oborudova- n1in dlia prokhodki vertikallnvkh stvolov shakht. HoWnt, Ugletekh- izdat, 1959. 251,p. (KIRA 12:8) 1. Sotrudniki Ukr6inakogo Nauchno-issledovatZI:akogo institnta organi- zatsii i makhanizataii Phakhtnogo stroitel's v (UkrUlICKShS) (for all except Zhaday~vi-, Smirnov, Sabitov). (Shaft sinking) (Mining machinery)     r6iiiiIOUTION or MICROHARDRUs VALUES W ITHIM A 0 OINGLE CRYSTALLINE URAIN OF-METAI~, A. A - angh and % B.-ZhAdmeyi, -Tr2,18121cd from Isveaf. MO. Nouk B.S.S.R." Md. Tekh' Muk, 410-24(to Op. (AERE- The distribution of microhardnesi valuiti was studied In (1) Pure electrolytic 5-M-Me -cast state. (2)41he same In the 'do(ortned and subsequently anneal!d state, (3) alpha Cu-Zn hornogenrous solld Solutions exirudedat high lemperatire, and (4) cant, very pure Al, reveited tin the palitilied sorMce of. the and Ira- riinn i of the lodivi,W31 hl t li i b t nary e c m n p , y pre re maile with :t ftimond pyrinild wider it In-ld prettelons we of I % in parattel row,4 nt~dcftnlte cqual InicrVIIII within a single rather lirgi, Ftrain. After a (Mrly.lame number of imprevalons, nicasitrements were inade of the*df-ir""lls, the m1croWirdnenti wait cilculated. and gralihs were conkructed n( m1crnitardiii,,sm a rectifineir sector WIN the graln. (U.M.T.)  0 04 0000 A 1 V 14 Ii V1 If - 14 0 N It Is IJ 6 BIJ 7 4 4 - 41 it b 14 of v #j A It M1 I I It A .-I J.- r. - iv, _1 - , _. 4_ . A., lif i- S J t i 00 l A.6 FVCrV F 19 Pl POlk 00 -00 , 04 "00 00 Chang" In Nkfthlkancss Of 1144111LIS In Sel2tion to tile Depth Of NOWMAIM Of the hW6ftt*f AM CAUtditloe Of 00 4 the Surfoce lAyer. (6 Rusalan.) A- AL Elothvar and 0 a. Pullotin of Me Aradentv a/ Seiencee of I (Se ti f T h i l S i ~ on o c ec n ca c ences), no. .40 0,411 4 I p. =0411 ! 00 J 1111crolurdneas tests were made an a series of non. fe ou s i h 6 rr s pec mens cast an a polis ed plate so as 1 0 .0 to furnish a mirror surface. The tests were dupli- o 06 J , c*ttd on the same specimens after polishing tho w original surface. In all Instance*. the hardneas of *0 the original mirror surface was lower thin that 00 a of the polished surface. The work-hardening char- t f ti f th i Ii h d f too 00 z er ac cs s o s e po e sur ace were also dif. fortnt frism, that of the original surface, 00 ?A , I A i p l 00 -404 ------- cis A 6174LUA Aj#.tL WCAL UHROURI CLASUPKAIKA . , nv Mo. ll ", Ali at Unlao o" r ta " M A S 1W o N a 'I if T An rR It 11 AV' PO At 12 rt , it or go 4 OR HI K I let U . 0 0 0 0 40 0 0 0 , 0 0 6-40 0 46 0a 0 0 0011 0 * 00 * 0 00 0 0 00 0 0 0 0 0.0 0 ~1910 -2 0-0 0 ' , ,- 0.0 0 0 0 00 0.0 00 0 0 40 0 0 6 46" , a 00 00 * 0 W61.0-0,411-4 00-0 0 411 * 0  I -Ui I lot 6 rf a it' It M Is V A J. I M is 0. _k_A, j jk_-qo- Af 'Wo -art .00 A IN ALLOYS- A.A. ~;io`IJVAB AND 0. S. 00 THEORY OF Tit.. 31,1113MAG FUL V ZOLATA, IWIO 00 IPUAM,~.V& (sBoRNIX NAIJCF, TRUDOV MOSKOV* IWST9 TSIXT. 11,ETALLO. 0 411 (9), 534-446) (In "ussign) An attempt to made to develop a theory Of the relationship betWQ n linear shrirta$e and the Iloy dompollition f',or v-jrIou 0 slos typec of binary systesso bi*Ao 4, too %too nois loss, or" to to It iv &1 0 'S It x. it to if X 13 JIA I 1 4 N 0 V lot S 0 0 0 0 0 0 0, 0 0 0 0 a 0 0 0 os 0 * 0 's 0 so 0 0 0 0 4. 0 0 0 0 0600000 0 a 0 a 0 0 '00 01 :~o Ole a 0 0 so s, & a a a * #1 a fi,a a :1  - , - - - - - -1 ; ~. Ito APO 900#fXtitt ()$I 40 of-. AH -00 r 'J: jMte t)Isfribuilan of Microbardness Within a Siffille 0 Metallic Grain. (In Russian.) A. A. Bochvar and 0. S- 0 0- Rmustift 0 the Aradem of scierlef# al 'W Zhal TIS.Nmection of Technical SOO p. 419-424. zoo Describes results of microhardness; testa on single grains of copper, brass, and aluminum, It wait round that random microbardness teots may show 00 a wide spread of values within It single grain, but 00-4 tained along any particular hardness values A cryNtallographic plane showed very little spreAd, 01 All coo oil, M vzr;:. t 4 jaw $40c) ogo ONV gs( VIL4110of 0 W I 4a a 3 0 K 4 It 9 Ot U a it X a it I 0-0 6 0 0 a 0 0 0 0 4 0 00 00 0 00000 0 0 0.* 0 * 9 0:0 0  , - o o 4 WOW lea l 1 1 t g t t I 'fewitim Akio, Fmatift WMI ' i 44K The Dfitribatka *t Hicrahard.-, k Gralm A,-~_ A. Vochmr and 0. S. Zhadaeva. Suite, I *W 3 tin of the Academy"bf"Seld'hces 0/i 44 a U.&S.R, (Section of Technical Sciencel no. 4, I 9- O47 4l Iln Russian.) Pi A % JL n 3 c I d . &f M ,, on singlegrains of copper, brass, and alumlnum, Ran- dom microbardnew tests may aMw a age wide spread of values within a single l d b$ l i b h d Also ne ues o a v& ut &r ness gra n, , 0 ong any particular crystallographic a .4 plant show very little spread. so* 09 r 00 IWO A S A. I L RITAL&MICAL LF19110b" CLAUNFICATION VIONO 11114 JITA - ----------------- to I too VOWIAT 1 Moto VIA.V? on *W 101004 W&O CNI got 0 n JA ~t a ad 0 1 V 0 1 da a 3 _0 "t sTo u it m, it st Jf ta .1 It A ft " a to x I 46 so 60 f1 Ok 0 0. a 0 4 0 0 0 0 ek-e 0 46 0 0 0-0 0  , 4 Wi fig en to the h *1 a, Can. ditions of the 88?(R" Wer. A, A. Dfth- Var and 0. B. 14fievs. Bullefirs the -9, jRier-bj th A-deonj of S i Y e U S.R. fSection 0 rech?'IC41 Sclencesi. no. 1947 U -344, (In Russian.) j?. 3 1crobardness.laij on a series ()I nonferrotia specimens Cast an a nlipol. Ished plate so " to furnish a rror surface. The tests were duplicated on the same specimens after polishing i f ll Inst c i I h l ace. e or na sur an es. t n a g the hardness of the original mirror mUrface wax lower than that of the polished surfam The workhardening characteristics of the polished surface f th th t ! o e a w different were a urface i in l o . or a s g lie ��,.ILA LLURGICAL LMAOME CLASWOUION MIA __ gloom ""IfIv J1101" SITIVIATH solosco "it Our 444 1131111 "t 4"W all 0 Aft A 1 8 W 0 X 9 1 W Is 11 a 2 0 W -or-Mr is is 7-1 KLO 4 1 YA is AT I 1C 0-.0 A-W Wie -0  atill III W-W~ "MTV, 1 0 4 it 11 is so is it N a I J) is 111611MV111041 It w 60 as AA 0 Et L-S-L-f I V- -A- ~10 o A 00 06 .4 If "Kic-Radum Ik uO ot Lbe Umtm j Cii, Ah,.W c.,m and 00 A Altiminjum - gdkva AjjOyL 7 A, A. lhwhvir mul ILs V4111".4-110- i -00. Noak X.$Aft..-Isvi. ITAIIII.J. jlt~.111. ItIs.) So 7~ phiiiii, 0141,11l# )JAM1144" oft1w Cris -I It 0 *a el of Hu, v it-fic in not . . ill ther.-gi'm I* * 4R% CU;111% "it il -11. Th"VISrIM40111% 00 ree ro 0 00 go 60.4 1'. goo Got Vj atta %on rKaL k IItM&Twt tt&%uFhc&vI" 0 bat AJ a I Od 0 an A# W 9 K a it 11 KO fk i I IIA 0 0 a " 140 Os 0 0 0 *to a 0 Ole 0 0 0 0 0 0 0 0 4 4k 0 wo 0 4 0  11 0 11NUM 1116 Uzi un on JIM ups if a" (A It 111 I-L-1-m-MACAO-M -1-k-.4-jL-1~I-Vj 4 4 1 G~ !it A!!t, 1.4~40*p IN)--- A., vyq;!, 6XICmdradmillot HYPO-Caladid mA BriW-htictic Alloys of Real systecu. 0; A. A. lkxhvar ouRk cys (I:rvt. ALad. Sawk A 1 00 if. tTekhn.l. 293,VM; C. be.. 104-1. 20. MM.-Iln Rundan.) Alkwa of tho (Wowing mysUms vem Audled t aluminium-silieun (urm(xlifiM). alu61fouru- silim (tuoth"ll). itin*-radinfum, lin-biamuth. lefid-bisatuth. and kad-~ tithiminy. 184milar atmium urrr tilwir" on fralvial arul m 41w m4inx a T it( t1w fill,q-t m 01,m- m4ing. all 16, siff"Clu" U"" .~.Oflv d"ifft'l.j 00 a g;; lit agnv-u*~nt with lkwhvar's thintry (Z. am". (,'Awm.. III.M. 990,J34; .1m. 00 .0c. 11M. 2. 471) two primary phasis in the mitm-fie-tyl- allov* -.-m: .00 oWrved ofinultaneously Its both'the ralfidly and the allowly mchil allo)m. i t, '00 III* minlinum tottal nufalwir of MUV el"tJ11011 Of Wh IV)" 'ASA 0IWrVml I I . Izoo a in th,- purp vistectic alluy. on U11h sidevs of whith tht- i;um6,r If Im"Sary --r s#Ak inertiotmi PharIJv at kwst in one of the 14,awm. Por" mi v--Iie alh,;. 00 I.- wgaol-l as llu;w;ln which tho 1-mlial-lbly of III,, 6-finati-mi -I plimmy I 000 1! 64 i ItI141A is l1w salm, lor 141111 Ithwa, III the 1;)jq? ruln-lor it". 14-; balty of the fimnath-11 of Witt 14uw is g"ter. its the byla'r-rutt'.0'. all"% a so that (if tho fit1wr. no orairm orgUbnary "tallfution of both p4atittv is~ t pr"Wnt in both kituls of milluji-vi. crystallization of one of t1w,primstry 00 phsam can miult in a sharp inctram in the pomisibility it( the fiaination of i 900 pr ary, envulls of the *Kxmtl Ithaw. I1& it mcintwitNI trich Old- mud"ourt Z;00 1%mil'ilkly of the r4wotation it( lwimarv matals in pow ruf.wfir alh,vo. Itia Im"mi virystalli"tion and a ussizatitutu U-suleney I., sullm-ooling. .,00 00 VGKAt V*AILAC (IAS1,tjKAtK)j ,22ri *wask.. ...... 'Woo 1!00 u VIAV $OILu' pi 0 111i ; 1, n " 0, of x a mg a ts wo sim 0 00CW000,41110,00090400.00 444610600406 0 0 0 0 0 0 OT44 1 0 I Oeofj-L*~619090000 0 0 if 0 0 Q:9.41 4 SOCOOss 0 0 009 9 000 0  W - ;~W W, OW MI-i F V W - 1~- sit Is it W 0 T_ 1M. JU W'. -6 6, A 00 4 _J_ss, J_ P AltC- 091~01011#j ,t,ft "t The villisition of the Mic"hattlansi of nietsilit In tillsillon ve to the depth of penetrit tion Of this Indenter and to the coa- 00, d1tlO11 Of the Gur(ace layer. A. A. florhyar and 0. .4. concluilol (1131 if tile III lerolm rdllet,(~ 44 stiffvrent rarloll ZI I Lt. Run, islad. iri. al", ,,i. jeh. use to be comparable, tile indrisfer Anil usust liv h4hititut -1 fl-8; cf.Sellultnald C..1,36'alats - the .41t(Ace Inepil. 1111311 lie NUilable. The 1141114AI'd JIJAS- go 0!"015, HAUC- 00 The olsjwt oil the itork wa~% to increax the Pree6ion of 11 micrullattivir- l"tioK of UICUIS and to investigate the mrin failed to gi,.c coll"t. values when Uied Wrb the firrcot dala. The faivit" that cass%rd anutnalusti hard- work-bardening riT%vt of poliiihing vatiosts tretak and .0 00 IF C nc~s valuft at low inticnivir louits itre: (1) wetit-hatilening alloys. Tvits were Unult on 99.98% AJ, sketrolytiv ret-lied Zn single crysital. Sn. Ph. Cd. 3L` -Zit a IOU" of [tic Surla'm L&ycn I'"Ouved I,Y nitch. 14,16hit'g; (2) .9 1 po,"itile brivaking tip of tile Mitftod its.& r"Uh of its ImAte oil 004 Q! and 42%.7n A brasi by using IOWS to, nee p_ "In., Of SUffACC 0144.14tiIIII, Of debrIllAtiLM, ur t4 re. 0 1 and ItX) g. (in tile Khrushchov aw DVk":, 4:7 000 confirsaing Ints -it the Ilanem2rus4cisa microllardlie's cr),I".: (3) thE diftwirri in the stress covilili~'r, of el- 0* I Iftlef, NAiUy StUfACkst StiltAbli! for telling WCM OblitinCil . terior and intirior 12y,rs 4 mcul in the micrults.0ne- 400 00 j imr procv~,, The dma in inierohirdriv. ,00,3 on irwss sj~aneo~ I,y CA.11111C (fit isirliq ou is polish"I 441). 11" 1 Vs. J~ut 00- Mirch. IMAil,bing vk-A~ dulle on a file. CoArry pAprf, and by gm-n its list libic whAv lbi, vtr-ij. qwcinira. fill Wrilli. ~41111111111 00- 1.111 by tile it,m.: (1) Al, 4.a~t. unpoli,lied (2) ?U, ra,t.. roo using AlAh an a P"161tivir tificel. , It, Plotis of MkTulwlid- I 00 V HI-VII. JKAIIII; (3) Al. Anju,61ird ii hr,. itit 4fill', ness ft,/sq. mat.) rs. indenter toad for Ali spedintus awl unIWIWJ4,IJ; (J) CU, 174,11, UlljX)ItIIKI; (SI CU, "~I, all conditiows the 1&4rdne,-s was found to luc tease to a if= 0) and then to dectrAst with incitz,%ing load. plo" of micro- ? ior cleaned on emery Paw. and cIcctrv;wA6bvd,. (14 za. cast. ell. depth of the indent showied a similar behav - Irljtoli~ltcd: (8) Zn, cuit, mcch. pol6h; (0) Ses. cut. Tile joicruhArdness of a given incial tended to be lower in I fished; (M) Sul, cast, turch. polish; (11) 4 I lo "b. cast. goo i se ra,t condition th4a after lurch. polishing at after the "Ill Filetal flad liects (kfurracil and innicided, Elcaropol6hing U"InAi'lird; (12) Pb, cast, Inincil. Polish; (13) Cd, cast, oe Unpolished: (14) Cd, cast, mcch. Polish:. (15) a bran, oft J Wrought, atillealvd, clectfolw6hird; (10) "W, except- Z10 Ill.-VII, IN-14h; (17) 0 ljra~%, wrought, 'vater qucrwhed -00 1:0 0 afur 3 liti. at S:W, tk~lmpolijbcd; (M) Amt. nxcvpt I HI(XII. P011.11. A. 6, Guy tree fir A 0. 9 L A OfTALitilifKAIL LiTtRATUSi CLASSiFfICAtION tie* to 14'. 4~40, =:1 - - .110 0 U 1% A# 10 U, M As Iss~ if of z r 11 cc I C At I KA at 4na 0 0 0 0 01 0 0 0 0 0 0909 9 0 0 0 4111 0 0o;0*000:*0604's 0 001040000000,00099900 0 00000,6.0000 AD  St AW FROFfAtIts DWItudoet of mkirolhard0*14 w1da" a 816410 afrow Go of m*W. A. A. IkKhVAf Ond 0.%A,,/jUd4VV4. c wad. sd..V.R.SJ., Claw id. fork. 1W."410-14 Ot (in Rimitan).-MicroliAplut" trimlings wem takem mWer is load Of within xhille outlined. modervite elchint, in cast purv Cu ZZ-1n a br"- Al:glj ch cow. lurtlitims yeded from Point to J"ot. and 40:0 at AtkmA In tlW &tAIIIj IfIrM IIIIIICAMI Ce"Attl Im at* of inl4voliardneu At nIrmlitnt4lin; IxAnts In ;hwallel rowt Agoo vohkh might Indicate reflutmity Alms mirtain privileltni Zoo JIM-11(ins, TWO Wit ninfirnint on Imirr (W.Uslp At cost Im a 114416hrol plot:, WIFIrl Clint, whilellirilkitribulkN) too of twArthiv-11 rV411,4111rd It trivilar In lumt ifirn-flom chlvwll At :too raluluitt, Wrilorns WAR ivrrv, Chwly Ittlit'XIII 01011tif I'Ar4611.4 tin" In crylaill dirt-vikicks tlua obvi.nibly vollivide %lift thr Ire 0 dirwiluns it( die unift! ases W the ilradritcs. N. Thun if Are 0 roe it Igoe it, -ro, At glow. ilve)XI4 Vill 0 WON4 kit aftv "I I 1 it 41 P 11118111 Oil It X R IS )11 P9 4L0 6 k 2* 0 000110 " 9 00 0 0 0 0 9 000 0 * *a *1* S'o 0 9 0 0 0 to, a 00 t  ji~zi ~Nfzt'lt W! AOL W w~qrj 14 1; It 1) 11 Is it it ;V ILL. 4., it if x: 1,. _jj~; It OL 00 t(I A 1 4. 4_1 t. Lee 00 1.00 00 00 A Of Pfg-ftt*ctk and pad-outectle alloys -06 of real A. At Uochvur and 0. S, Zhad&Qva. **,A flull. "jxi. 0 RJJ., Miss Me kek. 11%144W~W)4 Alloys of Sk followlis = s"fems were stu(IW: At-S (uo- .04 ifled). Zn-Cd. Sn-81. Pbl-Ill. Wk) Ph-Sb. Similar structur" weir otnerved oit rapid ~uve -toe un -Jaw coding (if the allo" - oil slow cuafte, an the $true. -00 furm were morc cleas 4,76.1. in Agreement with th, Z: lkchvar theory (C.A - 29, 9974) 2 primary pbabes in tht cuttdic-type alloys were observed simuftanextsly In boil the rapidly sad the slowly cooled alloys. The min. tota =00 0 it tilt no. of primary crystals of both types was obser"d In tht 00 j ~ i pure cutectic "Y, on both Wes of whkb the no. of pri, off Mary crystag incrtascil sharply at kast III imc o( the Phases. Pure tutecdc alloys can be regarded a those in which the probability of the formation of primary crystals roe P is the same In both phaws. In the pre-eutectic alloys the 0 ou possibility of the (ormation uf one phase ls)irrattr; in thot a9900 0 0 poet-cutectic alk)p. that of the other. rhe ctutcn of P6111UY CfYfitA, Of both Phases DIC PURRUt in b0th 111114 Of alloys. The crystu; at one of the primary pbases can re. suit In a sharp increase In the poWbUlty of the fornuAt"i see f I I I of the gad plim. 0 pruwy ""tail nis is connected with the ~Oda.-Possibfllty of the formation of primary Crys".40 44ta"Je am. It is su"d that purt We~ estactic Poaft" it Mtn. capacity for spuntancout a 0 a Ji crysta. moil a isiax. ttaticitcy for super. coolinf. - Nx rder, We 1%. R. Iferm go* it 'Aso-ILA *11ALLI,trICAL 1.111114101 CLASSIMATIO* 11f,4141. 71, o-1 -4.1 I"waa -4 3 fW 0 PI W 1, it of KW ft U is AV to IS! I ft g a 0 0 10 1 * 0 0 of 00 00 0 0,0 60 41 0 0 0 0 0 0 6 0 0 4 0 0 910 *go 000000 000 Is ~16*1 - AGO 0 0 We 00 a 11  a IWO, D-W I Ia. -.1 it It A A; to 11 w 11 w I- a It 6! is, 4) 11 4,1,0 kk I L-A__A-..r,_%,_1_.I_1__ -1 I-A OL, I a 4 -40 0 Investigation of structural Colupoltonts of c cop r and aluminum -silicon binary alloys fly the mitt*- bar% at method. A~ A. limfivur salid 1) S ZI a t toch 14 i- I ~-, ~41-' ; JIM11-lead. 14. II.R.S.S.. Clalleim 410tilt. ififtt' Milk till litittlAlY CfYINCK AlXu atilt ANSI ~4-64 mmilliss, to tc,,i Ow ,wictititm. lYAuA ,It llICtuKxIYoAIA,w Ad 11141 ill 'A whif Will. not in 4 5141r of "lull , the "Milk Is, ilolklml% M' 11ir wmisn. of.the all.y. The ci.tivii. ua, judgM liv till, lsarditr,%. As Cu birwa-I lit Al-Cu (will is, 219~~, lurr.111-inetva.-I I ... w7t-liol.W. lit Al-SOm iq4w W.Si too AI-Ok 11"d 1'. M-1 Im III P~ %ohle,for 1141.111-.4 ~Jilll.lililplllll. "lee 00 J.'s.0, and '_N% Cis %vots: IN't s. 1.1,1. itsd 170, 'I'll, MW. I'llAt.111C." l1wilithl Olcl, Lk Clititt"It f.-I 111"411 see 2 roe 00 AW; A! be e zoo 40 0 or. NFULLURCKAt ijURATURE CLAMPKATION moo r 1_j It.. t I.,* I I.. to W 11.) IV wj w s i 1: ii'iiai is' It- 14 0 4 0 1 is IN 0 . 4A a 3 1 1 ;ol it in, it a a K a ill it. K a tt it K 043 n 1 :14 Too 0, see 0 46 41 04  ZHADCHENKO) S.K. Basic characteristics of a tectonic pattern arO nrospects for finding oil and gas in Kirov Province. Trudy VNIGNI no.:! 115-120 163.. (MIRk 17:9)  K.I., dotsent (Saratov, ul.Rad' hchevu, d.35pkv. ?);_KHADEZV~L I.I.; MOTCRIN,,L.V. Causes of motorcycle Injuries and their analysis. Grtop., trixvm. I protez. 26 no-3:40-44 Mr 165. (MIRA 18:7) 1. Iz kafedry gospitallnoy khirurgii (zav. - doktor med. nauk G.N.Zakharova Saratovskogo meditsinskogo instituta.   ZHADEYKAYTE, I.Yu Cand rech _5;ci -- (disc) "On the problem nappiness of carded-6left 05.11 Kaunas, 1958, 23 po with Illustrat-Ioni (,.'in of IfIgher 4ducation MSSH. Kaunas Polytechnic Inst) 130 copies (KL, 23-5d) 106)  dot a ent, kand.tekha.nauk; TROYANSKIY, N.B.,stairshiy prepodavatoll; YUNUSOV, F.S.,kand.tokhn.nauk Calculating the angle of shift of a machined part for a 1-Alne for the LSh-l machine tools. lzv.vy6.uobob.zav.;maubinoi3ti7. no.9:136-1?1 160. (MIRA 1.3:11) 1. Kazanakiy aviateionivy inatitut, (Metal cutting)  FIGARD, Valentin Petrovich, kand. tekhn, nauk;j:HADIN,-_.g P dots retsenzent; BUMSHTEYN, S.I., inzh., red.; ANIKINA, M.S.p red.izd-~vaj KARPOV.. I.I., tekhn. red. [Fundamentals of the design of toIchnological processes and attachments; methods for machining-surfaces) Osno-.7 proekti- rovaniia tekhnologicheskikh protiessov i prisposoblenii; me- tody obrabotki poverkhnostei. 14oskva, Oborongiz, 1963. 531 P. I (MIRA 16:5) 1. Zaveduyushchiy kafec*oy "PAizvodstvo'avi&diigateleyII Kuybyshevskogo aviatsionnogo.fpstituta (for Zhadin). (Machinery industry) (Methl cutting) (Machine tool-Attacbments)    1 -1-1 -, . ~ ~i ~,, W- t -    TUNUSOV, F.S.*. ZHADIH. G.P. Calculating technological values of the "line method" of machining three-dimonoional shaped surfaces. Izv.vya.uch9b.zav.; av.tek.h.. 3 no-3:135-143 160. (MIRA 13.10) 1. Kazanskiy aviatsiganyy,institut. Kafedra proizvodetva aviadvigateley jMetal. cutting)   ;UMNOV9 N. gvardii mayor, Approach to target at a specific time by the method of ctianging speeds. Vest.Vozd.Fl.,34 no.11:49-w52 X 151. (MM. 8:3) (Bombing$ Aerial)   GUTMAN., A.M.j, kand.khimicheakikh nauk; ZAYTSEV, A.I.; KOSTYJZV, G.I.; 1AKER-TANOM.? L.S.; LUBYANITSKIY, I.Ya., kand.khimicheskilch nauk; PREOBRAZONSKIY, V.A.; FURMAN, M.S., doktor khimicheskildi nauk; Prinimali uAastiy6AZHAD1NL B.V.,j- VESELICHAKOVA, T.L.; BEDCVA, S.M.; TRUBNIKOVA) V.I.; KUPIN) Mole; ZHUKOVAy YevIv Preparation of adipic acid in a continuous pilot unit. Khim.prom. no.5:323-327 My 162. (MIRA 15:7) (Adipic acid)  YVISTIGHEYEV, 14.1.1 dots.; MOROZOI Ir.k., do'Ls.; FODMY, A.Y., Prof.; doto.; TSUKA14OV, dot:).; ZRADIN. G.P.,, dots., retzfenzepA; ROLOSOV, In%h.) (Manufact-uro of baoic parts and unita of airplane enginel Izgotovlenie osnovyqkh detalei IL uzlov aviadvigatelei. (By] M.I.Evstigneev i dr. Mookvaq Mashinnutrooniej 19&~. 456 1.7-9)  -------- --- ACCESSIOu ms AFA0145~6 S10276163100010121BO"IBM ISOURCE& ItZh. Takhnologiya mashinostroyaniYa. Abs. 18656 PTHOM Zhadin, G* P*;Korchagin, G. No TITLEs Cutting force during turning of non-ciroular profiled surfaces CXTED SOURCEt Tr. Kazansk. aviats. inta, vy*p,, 70# 1962# 45-51 TOPIC TAGS: copying lathes duplicating lathe, metal turning, threading lathe# screw cutting lathe, cutting force, machine tool, dup3icating machine tool.- copying machine tool, cutting force determination TFANSLATION: During turning of pro filed surfaces on special copying lathes with-$' duplicating mochanismso the compoents of the cutting force, P and Pro chance continuously in dependence on the profile of the article being tamed. Elicita. tion of the law to which the change in components of th6 cutting force conforms during turning of.non-circular profiled surfaces was carried oat on a svow-cut- ting latho (height of centers 300 mm, distance between centers 1500 .=) equippod duplicating meahaniame The back of the working blade for a gas turbine was Card 1/2  ACCESSION Mi ARW14356 truned. A special 3-componont dynamometer with cutter (r 8 mmi, Y' 00 Z( = 250. G = 630) was mounted in the tool holder of the duplicating mocha. nism. The relationship of the angle f% and the coefficients Ky, and K7 which express the effect of the angU Y1 on the cutting force components P and P y z was found experimentally. On the basis of the experiments which were carried out,tho conclusion is drawn that the actual values of the components P and Pz may ba determined by known formulas from cutting theory with the introLction into them of the corresponding correction coefficients Y~r and K.. The calculation formula of the actual cutting force acm neits during non-oircular profile turning has the forms P 20.8y, H nl. M., A Avakov. 5 nap KzClt B DATE ACQ: OgJan& SUB GOM ML.'18 E=1 00 Card 2/2  BELIKOV, Vasiliy Islikolayevich; NIKITIN, 41ekeandr Ilikitich; MADIN) G.P., clots.p ret!ienzent; KOLOXV, I.I.A., inzh. . red. I [Assembly of airplane engines] Sborka aviatsionnykh dvi- gatelei. Moskva, Mashinostroenie, 1964, 221 p* WIRA 17-.F,)   52,oo 0 810 461, 84Q59 S/147/60/000/003/018/018 E191/E481 AUTHORS: Yunusov2 F.S~ and Zhadin, G.P. TITLE: 'Computation of the Setting Up Dimensions in the Strip Method.of Machining Double Curvature Surfaces 'PERIODICAL: Izvestiya.vysshikh,uchebnykh zavedeniy, Aviatsionnaya tekhnika, 19601 NO-37 PP-135-143 TEXTs Previously (Trudy KAI, Issue 41, Kazan, 1958), the senior author proposed a procedure for computing the machining dimensions for'the strip method of milling of surfaces defined by coordinate points in reference cross-sections. In the pinesent,papert a single computation procedure is presented applicable to intermediate and finish machining operations. The surface has one cross-section with the largest curvature, which is found by comparing all given parallel cross-sections. When the curve is replaced by a broken line deviating from it within the given tolerances2 the equations of equi-distant curves separated from the 'nominal curve by the amount of the upper and.lower limit deviations must be known. An allowance is de ined which contains the allowances for t~e setting up errors and other subsequent ob rationsg.errors of shape, ,manufacturing errors. In intermediate operations, this quantity is Card 1/3  84C59 S/147/6o/ooO/003/018/'018 Eigi/E481 Computation of the Setting.,Up,Dimensions in the Strip Method of M.7%chining Double Curvature'Surfaces added in the direction of increasing size to the lower and upper limit curves. in the finish machining operation, the appropriate value of this quantity is struck in,the direction of reducing the size from the upper limit ~curve. The so-called reference deviations are the result of adding (each with its appropriate sign) the upper or lower tolerance,and the allowance quantity. An analysis is given leading to thIe computation of variOUS machining dimensions when a given double curvature surface has to be machined within a given tolerance. First, the given curve is replaced by a broken line consisting of equal length sections. Then the method is extended-to-the case of a broken line vi'th unequal lengths of its sections. It is stated that the proposed method of computation was tested experimentally under workshop conditions in its application to the machining of blades~of a production aviation turbine. It is claimed that themachine time was reduced by 60% due to a reduction in the number of pasi;es and the elimination of a turning operation (thus also Saving the tooling up of a copying lathe). A numerical example is given in which the Card 2/3  84059 S/147/60/000/003/018/018 E191/E481 :Computation of the Setting Up,Dim6nsions in the Strip Method of Machining Double Curvature,Surfaces number of strips (passes), the width of the strip, the distances between tracer rollers and the diameter of the tracer roller are computed for the aerofoil part of a_&~,s__turbine bladg,specifted by coordinate points in reference cross-seciions in terms of a rectangular coordinate frame. For surfaces with a convez, longitudinal cross-section, the limit should be given in ternis of minimum metal and for surfaces with a concave longitudinal cross- section, in terms of maximum metal. There are 4 figures, I table and 3 Soviet references. ASSOCIATIONt Kazanskly aviatsionny-y instItut Kafedra proizvodstva aviadvigateley (Kazan Aviation Institute, C.heti.r.19-f Aircraft Production) SUBMITTED: may, 4, 196o Card 3/3  30258 s/145/6o/000/009/014/01'r D221/D304 'AUTHORS; Zhadin G,,P Oandidate of Technical Sciencesp Docent,- isk N.S., Senior Instructor and Yunusovq F S,~ Candidate of Technical Sciences TITIB; Calculation of angle of rotation of the workpiece in. a pass for machine tools, type AU -I (LSh-l) PERIODICAL: likirpstiya vys,shikh uchebnyk'h zavedenly,, f(whino-, stroyeni~po no~ 9, 19609 136 141 TEXT: When machining,of non-circular surfaces by longitudinal passesq feed is ensured either by parallel motion to one of the axes of coordinatesp or by rotation around the axis of holder. In the first arrangementp machining is based on the composition of , three simultaneous elementary motions. One determines the speed olf machining, the second - the fevd, and the third forms the tracer, feed which is determined by the template. Bach of ihose motions is simple in itself# whams the resulting displacement is involvedo These machine T661s are usually provided with a oonstant feed per Uard 1X-3  30258 S/145/60/000/009/014/017 Calculation of angle of D221/'D304 pass which reduces their efficiency, but allowsp howeverg'-the use of one template-(oam) only.,The maximum angle of rise ir, the pro--. file of workpiece is taken as a base to ensure machining within 4 the allowed limito Similarlyp in the case of machines w.-th rotary P feed (Fig. 2)0 the magnitude of angle a of rotation arotand.axia of 12 holder~~hould be setlover the most distant,part of the surface., Thetemp-late is placed on the common horizontal ax`ia i,_ to ensure vc~ the production of specified form of -the workpiece 11, The fo .rmer IIa W12 in permanent contact-with tracer follower, and exeoutes to'gether with it a reciprocating-motioa. To determine a i-t is necee.sary "to have two positions. of cutting tool at 4 distance which wot'Lld on- sure that 'roughnese.be-meen passes would not exceed th6 a'Llowance 61 The author, then gives a. mathematical anajysis which ret3ulto in a graph relating a. and the diameter of tool d, rad-i-us of -rotation p ,and & Consequently., when'the latter quantities are speAftedq it is possible to determine the angle of rotation per pass ap when machining'discrepancles will not exceed the allowed limite The choice- of two extreifie seetions.1a due -to the usual specification, of calculated sections for Involved surfaces~ slj.ch as gaij turbine. Card 2 IJ   -T L 45595-66-. -E r'ACC_Nr'_AT60l14326 SOURCE CODE; UR/2529/62/000/070/DO3Si/004 ~UTIIOR: Zhadin, G. P. (Candidate of technical sciences, Lecturer) QRG: None 'TITLE: On an error in relative measurement of a noncircular -PLO-file-f ! A bOURCE; Kazan. Aviatsionn,aLinstItut, Trudy, rio. 70, 1962. Aviatuionn(va tekhnolo-, i organizatsiya proizvodstva (Aviation engineering and organization of produc- tion), 39-h4 rOPIC TAGS: qualiV contr .1, error correction, measuring instrument eAqA_ ~MTRACT: The author considers a problem relating to inspection of nc-nci-~-culax pro- iles and applicable to finisbing operations. If relative measurement, of radius vec- r of any noncircular profile is done with respect to the angle of turn of the pro- " 4~0 ;file using a measuring instrument in vhich motion of the shoe is register-id by a need- .~Le on a divided scale (e. g. dial indicators), then an error is unavoidably introduced I ~,n all cases where the direc tion of motion of the shoe does not coinPide vith the nor- inal to the profile. This error takes on various numerical values depending on the geo Inetry of the profile being measured, the position of the pole of the radius vector and-1- ~he length of the shoe radius. in many cases this error cannot be dLia'regarded. This ðod of relative measurejuent of the radius vector for the profile iB done by addi- Card 1/2  L _4552~~~~~ ACC NRs m6n4326 1~9 tion or subtraction of the instriiment readings (depending on sign) and the numerical value of the initial radius vector. The method of the pattern of oma-11 displacements is used for derivation of a simple for7nu-In to determine the error in relative measure- en o e radius vector introduced by deviation in the direction of motion of the shoe from-the normal to the profile. Orig. art. has: 4 figures, 10 formulas. SUBICODE: 13/ SUBM DATE: 15May6i AAJ _5~ard 2 /2  -L-45598-66- _A~T AT6014327. IJPW JDAM SOURCE CODE----- UR/2529/62/000/07o/co45-,/0051--- - 7'- AUTHOR:-Zhadin,,. _GP. (Candidate of technical sciences, Lecturer); ORG: None TITLE: Cutti forces in turning noncircular surfaces SOURCE: Kazan. Aviatsionnyy Iinstitut. Trudy, no. 70, 1962a Aviatsionnaya, tekhnolo- giya i organiz siya proizvodstva (Aviation engineering and organization of produc- t~on), 45-51 TOPIC TAGS: lathe, pressure measuring instrument, cutting tool, oscillograph C U. T 7,P AJ e- t5rR95_3 4Ah9J_Y%5a - 11 iarities in the variation of cutting stress ,AB6TRACT: The authors study the irregu components during turning of noncircular surfaces. This was done experlientally on a screw cutting lathe with a 300 mm swing and 1500 mm between centers. The unit was equipped with a copying device. The part machined during the experiment %ras the ba of a gas turbine working blade. A three-component dynamometer was f' _xed 1~~he coPY-7 ing tool pout, Tho dimensions of the cutter are given along with a dillgri of the copying,device and tool post. All measurements were recorded by the p 0scil logr The results show that cutting stress is a function of rake variati n; eA graph i given showing the relationship between rake and factors describing-Zh ffect of the rake on cutting force components. The experimental data show that this rela-  ACC -NRi AT6ol4327 tionship can be determined by cutting theory formulas. The results shov that it is not difficult to determine the cutting stress components parallel and perpendicular-to the transverse.motion of the cutting tool. Orig. art. has:. 5 figures, 2 formulas. 'j SUB CODE: 13/ Sum DATE: 1oApr6l