SCIENTIFIC ABSTRACT FILIPSKY, Z. - FILIPYEV, YURIY ALEKSANDROVICH

FIMPSKY$ Z. "Causes of the explosion of paper-rAchine dryers." (Conclusion) p. 127* PAPIR A CELULOSA. (Ministerstva, lesu a dre-mrskeho prurWslu). Praha.p Czechoslovakia, Vol. 13, No. 6, June 1958. Montb3,v list of East 1kropean Accessions (EEAI), LC, Vol* 8.9 NO* 8$ August 1959. Uncla. OTTIElf ~,ix  JILIPSON, I.N. Yrach Modification, of Romanovskii1e technic of staiming blood and bone marrow smears. Lab.delo no.1*30-31 Ju--Peb.'55. (MLM 8:8) 1. 1z klinichasko7 laboratorli Vologodukoy gorodskoy bollnitsy (Glwivrach S.F.Shvarev, zav.laboratori3roy 11.A.Vatugiza) (STAINS AND *STAINING. Rosin of blood calls & bone marros) (BLOOD C =1 staining, Rosin technic) staining, aosix tachaic)  FW8 I BOOK EXPLIOIT)ITION 3OV/4107 atalys 1. yoyo giglytnichookoy* zoachonlye; abornik tru6v a JUltr v slat Radiation and It$ Sanitary I-or lectXCA of TrAnsactlona) Leningrad, 1959. tanc,, CC 3, V. Errata slip inserted. 700 Coyle$ printed. Ailditlonal Sponsoring Agencyt RSFSR. MInlattrotya, adravockhrenenlya. Zd. (Title page): W. F. GalanIn. Mrootor of the Institute at Radiation Etygi*nt. Corresponding hombor, Aladomy or Medical Sciences USSR, Professor; Ed. (Inaldv book)z D. X. Tyuk". PURME1 This Coll*CtIon of articles is Intended for m- searchers and personnel working Jn public health and modialms who ars Interested In the Oyglentc and therapeutic offsets of ultraviolet radlationi COVERAOXt The purpose of the present collection is to supply waterial for ruparg publications on SiWortant, problems in the field, The Callao tion. includes studIA i an ultra. violet radiation Bad* at the Institut atAlcrmor V 91617ortr (Institute Or Radiation Ryglem ) under the d1rov- tlon of Professor W. P. GLIania, Corresponding Member, ""W of Radical Solonces U33R). Throughout AM S= ( _ um F4qv,=z -zr_-r=:e ii to the works or Soviet eastributars to the field. There Is a bibliography or Soviet and m0m-Sovlet sour*$$ at the end of every article except the tenth. I Teehalcal Sciences, and A. D. . Candidate of A no "Fws- off Amabor. CALUbration of Instruments With 'J 3; : Antloony-Coolim and Salsolum Photocells. 74 ,T.-A., Candidate of Medical 3clencog. Seasonal SvIderskara -CZk"&sF_1a Certain Blologlual Reactlons-lo Child--on Under CorAltIons (Provaillog) " Leningrad. 62 ASn"rokara, T. A. Artiflaial Ultraviolet Irraftation of Chlidran as a Prophylactic Me&$=*. 95 _Umaah. 1. 1.. Candidate or Medical Sclencv$. affect or -- - - aWFIrradiatiou an Oxidation Pmc*as*$. ii trivi ATIdarakara, T. A. Action or Ultraviolet RAYS 00 the Croolaft as a Generally Stimulating Factor. 112 OTyajocv, D. R. Optical Pmpertlos of the Skin ItrRalation _jx __..~to U~travl.olat Ray#. in pVn. Physician. Ix- 4viderskara, T. A., andj~ W, Pillp perin=toLl Data on the Cv~~tlmatlon of the Yaological Action or Modern Sources of Ultraviolet Radiation. 136 _ftst-~VL R S . Candidate of Medical Sciences. Effect or ' iUdi beg of Mic t th Vi l L 0 W K once s 4on on ru ro e . l 5 Mostova, R. S. Dynasties or Antibody Build-Up Under the Action of Bactericidal Radiation. Ise Mostava. R. S. Efrect. of Bactericidal Radiation an the Realstanc* of the Organism. I" vSvlderaklyaj T. A_Xe, 0. Zhuk, start Member, and r: N. P111paon, rh7alelp-n. VE-iiCtIon -or Organism to G&=& Irradlattan After Prelladnary Action of Ultraviolet Radj_ - -stionof _VLrIo"_ Spectral Composition. Zbuk, To. Q.. Staff Member. Diffr.a. in Biological ]Lrf.t at Ultraviolet &M X-Rays. 291  STIMSKAYA, T.A., -kand.med.uank;.ZWK, To.G.,, nauchnn sotrudnik; FILIPSON, I.N., vrach Utilization of ultraviolet rays of different spectral combinations for reducing sequelas of radiation injury. Gig.i eau. 25 n0.2: 27-32 7 160. (XMk 13:6) 1. Is Institute radiatsionuoy gigiyeAr Xinistertva xdravookbra.. neniya RVSR. (RLDIATION INJURY prevention & control) (ULTRAVIOLIT DAYS) ~Og  PznwN, i.N. Obtaining blood from laboratory aniials fot the ealculation of the retioulooytes and thrombocytes by means of Alakcaev's modi- fied method. lab.delo 6 no,205-36 W-4p 160. (Mn 13 -.6) 1. rustitut radiatsiounoy g1glyanys Leningrad, (BLOOD-40LUCTION AID PESSMATION) (BLOOD CMS)  871 DMMYAO T.A.; I*feot of ultraviolet and ionizing irradiations on hermopoiesis the bone marrow of guinea pigffo Radiobiologiia 3 no 1945- 51 163. ZHM 16f2) 1. Naucbno-iooledavatell skiy institut radlatsionuoy gigi-yM,,, 4mingrad. (ULTPAVIOLBT RAYS-PHYSIMMICAL MWGT) (GMM RAIS-PHYSIOLOGICAL E?nGT) (MMMPOIESIS)  USSR/Farm Animals - Cattle. Q-2 Abr, Jour : Hvi' Zliu.- - Bi.,)!, Do 1, 1)-511, 2645 Author : D.I., Filipson, 7.1. Inat : All-Union Sciontific-B-~-,.arcA Listituto of Animl "U,,- .niidrY. Titlo lffl-; 1n-'C,,-rbrcc-ding of in "L ay. It Orig Pub Tr. Vsus. n.-i, 7~ilvo~novodstva, 1957, 21) 50-70- Abstract '.rhrLz-brxd hybrids (fath,zo, of Kostromsk Bro~~d x _r~3 of Gilbcrian-Simmczthal~x Zy!.,rid Breed) ir, lutay pr,)V,~d. to 1),: superior to two-brcA 'ayxicls witli r~spcct to milk fa-'~- cont.;iyl; and milk Y-4c1d, uid,;r qval milking condi--ons. az;o, they proved supcr~or --o SibQrian cattle and SiLua,;.1:~'.al,~r hybrids with rcs,~-pc-;,o latu ming and bccf qunli'A Aftz first lacta'-ion, -t:Lrca-brccd hy~)rid~; (n 19) in the Troitskiy Card 1/2  MSR/Farm Cakftlu. o..P Abs Jour Ruf Zhtw - Biol., No I., ].~-.5(1, 2645 Sovlr~ioz yioldcd 3~220 IcE; of iidlk with a fat conL`-n'. o~j' 3.94r,j, aud th.-Ar averza,'12 liv,: vA&bt war 585 k,-. '0 corr,:sponding indexes ZiFb tvc--brecd hybrids; (~i = 51) a:aotuit,.;d -I-,o 2 :)-~)3,; and 593 kg, J-86 9 kg, In Kosildiinskiy SovI~~ozz, thr~.o-brejd (ii = 22) had, aft,;r laceration, a milk yit.Id o-.-' ,,l' )2 kg at a fat ciat ,.x'~', of 3.6%, while for :-,Y')ri(Is (11 = 36) th-~ figarcs v,~r-i J'J,Igu and 3,66~,. JQrscy thr--..:-~~x,Ld I;Ybrids (ii z~ 4) prcm~d va- p,.;rior with respect to tl';i,~ falu- content of mil!c - com- parod 1P'.-Lh 3,88% in, 'U,jr,"mi-Simenthalor li:fLlrids (first lactation coArs). -- IC.*,:. Lyutikov Card 2/2  FILIPSON,, Ye.; BORISEVICE, N.,-'KALIGOZHM, M. Production of national varieties of horse-meat sausages and smoked products., Mias. ind. SSSR 32 no-3:23-24 161. (MMA 3-4:7) 1. Kazakhakiy filial Voesoyuznogo nauchno-issledovatellskoio instituta myasnoy promyehlennosti (for Filipsony Borisevich 2. Semipalatinakiy myasokombinat. (for Kaligozhin). (Kazakhstan-Horse meat)  .?t~F" 't"W 9. -onthly-List of Russian Accessions, Library of Congress, may 1953. Unclassified.  FILIPSON, Te.A._ Ifficlent -Utili it oik fr f ooh p9 attle. j;ato stillMe in fattening c Tkudy TNIIX3 no0'69164-170-'54. (Km im) (Pbtatoomy (dottle-.7looding and feeding stuffs) -  Nov method of ensI1IwC.*potato stillage for fattening cattle, Trtdy VNIIX9 noo'6tl7l-176 1541, (IM 104:8) (;otatoes) (Cattle-ftedIng and feeding stuffs)  FIL Mtefting cattle on potato stillages,'treatod vith chemical preparatloy No,'2. TrWiy WIDO no 6rI77-180 154. (N1M lots) Obtatoes) (4ttle-Feedirg and feeding stuffey T 7.7  FILI~~So Using wastes of cotton processing; Industry for fattening sheep.Xia.s. ind.SM 27 no.6:33-34 156. (KLU 10:2) 1. Vessoyusnyy nauchno-iseledovatellskly institut Wasnoy proWshlen- nosti. (Cottonseed) (Sheep-7veding and feeding stuffs)  FILIPSON, Ye. Advantages of twice-a-day feeding. Was. ind. SSSR 28 no.6-42-43 157. (mia 11:1) 1, Vasooyuznyy nauchno-Iseledovate'Llskly inatitut myaumoy prow7sh- (Cattle-Feeding and feeding stuffs) 4 1  Country USSR Catoa,ory Farm Animals, CattleS Abs, Jour Ref Zhur-Biol,j No 21, 19 58, 96890 Author IFilipsons -Yo., I Karpenkoj Ao; Ganus, S. Instituto t Titlo :;eeding Cattle Twice and Thj?ee Times Daily when Fattening with Pulp. OrA6 Pub. :Molochn, i myasn, zhivotnovodstvot 1958, No 1, 32734 Abstract IWhen cattle was fattened with siloed pulp, it Was'distributed twice daily and this assured the complete consumption of the daily fodder t ra ion and satisfactory daily weight gains which amounted to 1215 S whereas B25 g were planned for, as well as saved 23 percent of the time necessarily needed for the feeding of the animals as compared to a food distribu. tion taking place three times daily,, Card:  11(2) ~iOV/31-59-3-6/14 AUTHORS: Liq A.B., Ohakabayevg S.Ye., Filiplyev, G.P. TITLE: On Gas Layers in the Ili.DeVression (0 gazoproyav- leniyakh v Iliyskoy vpadine) Is PERIODICAL: Vestnik Akademii nauk Kazakhskoy SbR, 19599 Nr 3, pp 51-53 (USSR) ABSTRACT: This article deals with gag lajers recently discov- ered in oil well drilling in Myokaya and Karkarihskaya depres- sions(Iliyskaya i Karka-rinskaya vpadiny). f-dost of the layers were found in the Iliyokaya depresslan where the data supplied by coreful investigation of a prospecting well on the right bank of the Ili river three km east of the Borokhudzir Ferry (Borokhud- z:Lrskaya pereprava), are of foremost importance. As to composition, the gases of the 32iyakaya and Karkarinskays depressions can be roughly qubdivided into nitrogen and nitrogen-methane gases. Typical examples of nitrogen gases are the gases of the Ili prospecting well, associated in the main with Pliocene deposits. Card 1/3 All the other gas layers exclusively associated  On Gas Layers in the Ili Depression SOV/31-59-3-6/14 with Miocene sand-clay deposits can be referred to as the second type. The appearance of nitrogen- methane gases has been observed in'sections of tec- tonic disturbances, in the majority of cases. This apparently explains their scarity and the small volume of concentration. It is assumed that the gas layers of the younger strata of the Ili depres- sion owe their origin to powerful.Jurassic carbon- aceous and bituminous deposits. The gas layers of the Karkarinskaya depression may have been formed by Miocene-Oligocene bitLminous slates. The low con- tant of organic matter in the Pliocene and also the Miocene rocks suggests that the burning gases con- tained in these deposits are genetically connected with deeper horizons of the mesozoic era and ter- tiary deposits. The disjunctive disturbances, ap- parently play the rolet of migration routes. The assumption that the gases migrated from deeper horizons is underlined. by the presence of helium in some gases. Helium was recently ascertained in a Card 2/3 number of "Krelius well 811 ("krellusnyye skvazhiny")  On Gas Layers in the M.Depression SOV/31-59-3-6/14 on the Dzhambyl-BastauakbWaStructure (Dzhambyl -Bast- auskaya stnktura:). The gas layers of the tertiary strata are of no practical interest. They can be considered as positive symptoms of the possible existence of gas layers in meso,zoic deposits. 0 Card 3/3  CHAZABATRY, S-Ye., LI, A.B. , FILIPIM, G.-P. Conditions governing pool for tion and the chemistry of waters of Cenozoic sediments of the Koyby structure zone. Vest.Aff KazakhaSS 16 no.7:51-58 Jl 160. NIRA 130) (Ili Valley-114ter, Underground) M', wt~ ~.P  AVROVP P.Ya.; DITMAR, V.I.; 1~1blPlEyvj. - SHAIABAYEV S.A.; LI, A.B.; L P SHAKHOV, R.A.; MAYLIBAjt'v-,'-;q-.-M.-;' TtlIRELISON, B.S. Gas bearing capacity of the Usharal. structure in the Chu Depression. Vest. AN Kazakh. SSR 21 no.1:69-73 Ja 165. (MA 1817)  ,FILIPIYEVI.!Ij~.; RABXIN, F,S. Neocene deposits in the Ili Depression. Vast. AN Ka*c~. M' 18 no.6:63-67 Je 162. "(KftA 15:9) (Ili Valley6-Geology, StratIgraphic)  NOVIKOV# A.G.; 6INITSYN,, Tectomics of troughs in southern Kazakhstan in relationship with oil and gas potentieLls. Izv.AN Kazakh.SSR. Ser.geol.nauk no,,4:3-14 163o (MIRA 16:9) 1. Yuzhno-Kazakhatariskoyxi geologichaskoye upravleniya Unis- terstva geologil i okhraiW nedr KazSSR, go Alzef-Atao -4  DITHARY V.1.1 LI, A.Bj FlUg_~W II.P. Concerning the gas potential of the midde Upper-Paleozoic sediments of southern Wakbatan, Neftegas,gool. i geofiz. no.22s8-10 164. (KIRA 3.8:3) 1. T4zhno-Kazakhatanakaya nefterasvedochnaya ekspeditsiya I Institut geologli i rasrabotici gor-yuchikh iskopay-emVkh AN OSSR.  VARENTSOV, M.I.; DITMAR, V.I.; LI, A.B.; MAYLIBAYEV, G.P. Structure of the central part of the Chu-Sar7su Depression. Dokl. AN SSSR 166 no.3t671-6,73 Ja 166. (14IRA 19: 1) Is Inatitut geologii i razrabotki goryuohikh iskopEtyeD7kh; Institut goologichaskikh naulk im. K.I*Satpayeva AN KazSSR i Yuzhno-Kazakhatanskaya nefterazvedochnaya ekspeditsiyao 2. Chlen-korrespondent AN SSSR (for Varentsov). Submitted October 21, 1965o  YEA USSR Cultivated Plaritbi Carcals4 A Abs Jour Hof ZhUr u B16i., No 8, 1958, I-To 34591 Author :..Filip 1yov, L D, Inst Nof -given Title : Effectof Fertilizers on the Yield of Field Crops in South-Wostern Ukraine, Orig Pub : Udobreniye i urozhaiy, 1956, ~12, 26-30, Abstract : Results of the experiments by tho lzmail'okly Experimental Field with Southern black earth, involving the ta8e of fertilizers for cereal crops and calculating their actual offoctiveness as observed in collective farms of the Qouth-,;Iest- orn Ukraine. According to average data collected over a period of 3 years, (experiments cond"e- tod from 1951 to 1953), tho use of 20 tons of manure rot has Droducod the following averaSe Card 1/3  USSR / Cultivated Plants. Cercals. Abe Jour Rof Zhur Biel, No 8, 1 1958, No 34591 increases In yield (all Increans expressol in hundredweight per hectare): winter whoat 3 5- millet' 2.8; corn (accordirxS to four year d~ta':'1950-54) 2.7; use of NJOP3OK3O Incroased the yiolds of those same cul ures corrosponding- ly bY 3.2, 2.2 and 1.6. No differonco in the amount and cost of roquirod plowinE and culti- vation could be obsorvod as a rosult of the use of mineral fortilizers. Bost rosults were obtainod by spreadin:3 tho fortilizers along the rows and Into-the sood holes. The spreading into rows of 25 to 30 kg per hootare of Sranu- latcd Fe incroasod tho yiald of winter wheat by 3.6, of millot by 1.8, of barloy by 1,7, of sun-- flower by 2.2, and that of corn cobs by 3.9 hwt/h. Card 2/3 15 -----------  VOROBIYXV, N.Ye.; YUKHNO, Mai, kandidat splskDkh0S7VStVeDnYkh MAUk; YILIFIYBV Chemical weed control in fields. Agrobiologils, no-2:132-133 Mr-4p 157* (KLIRA 10: 5 1.UMbill.sko7e opytnoy,e pole. (Odessa Province-Woods) '(Herbioidee)  Country :USSR CATEGORY ;Cultivatod Plants, Grains, AB-13; JOUR. IRZ13iQl-, 21, 195v, No. 95913 AUTHOR Filiplyev INST. Odesla .90.1. 50010ty for the DisaamirAtion of* .TITLE Use of Fertilizers tIndor Winter Wheat - I. ORIG. PUB. Byul. eillskogospod. inform, Odealk. vid T-va dlya poshir. polit. nauk, znan'. 19~7,** ABURACT tNo abstraot Politioal and Soientific Knowledge NO-3x 14-15 CARD: 75-5'1~  FILIPIYKV, 1. D. Cand Agr Soi -;- (diss) "Methods of raising the effectiveness of manure and mineral fertilisers when using them under grain crops under conditions of the,Danubs-area steppe." lKishinevi 1959* 15 pp (Min of Agr USSRe Kishinev Agr Inst), 150 copies (KL, 46-59, 139)  FILIPIYEV I D Characteristics of the daily,growth of plants in connection with tl,o lonal application of ouperphosphato. Fiziol. ramt. 8 n6,4:501-505 161. (Mira 1~: 11) 3. Izmail Experimental Station of All-Vnion Scientiftc-~seareh Institute. Miz-nopuly3,, Odessa Region, Growth(Plants))  FILIPOYEV I D kand.sel'skcPkhozyayotvennykh nauk; BIYENKO, A.L. Applying fertilizerr -to wheat Im the fall. Zemledelie 24 no,1049-51 0 '(2. (MIRA 15:11) 1, imnaillokqa opytnaya otantsiya,Vsesoyuznogo z*uchno-iosledovatelfokogo instituta kukurusy. (IvmAiI.Di,striat~-Ferti-lizers and mamwes) ---1 -T -CF  FILIPtYEV, I.D., kand. sellskokhoz. nauk Fortilizero for winter wheat, 7emledelle 26 no.e:42-141, Ag f64, OUPA Pill) 1. Izmailtskaya opyt.naya stpntsiya Vsesoyuznogo nauchno-Issledo- vatellskogo institute, kukwuzy.  ,; k',- E - 1 :, ~;, , '. , ::, - 1, r~ ii -~, Z?~,p- -- t . ..... -;(. . ~,14 i -: , - - . ,111' -, ~~Oc4q -- e ?" ~ - ~.'; -. 4t r.. - . .. " --,, -!-, -- I - : .I. , ; - I--,- F. al-I .- 1- ~a 7.~ ~f , , ". X - -- -, - I I -- 1 1-. . ~-~ " ~ t . - :r.~ _,. 1" '. '.  FILIPITIV, I.M. [deceased]. A now hairworm Parachordodes barabashi Filipjav, ap.n.(Xesatomorpha) from Mednyy Island (lomandorskir islands) [with Darman summary In insertb Z001.zhur.35 no.13:1906-1907 1) 156 (MM 10:1) 19.ZoologichastAy Institut AWsmii nauk SSSR, (Nadu" Island- -notomorphs)  FILIPIYET, Kharkov Gipr "Investigation of cooling Conditions of Refrigeration and Health Bottom of Blast Furnaces by the Electrical A~ialogy Method." Report presented at the Conference on Heat and Mass Transfer. Minsk, USSR, 5-10 June 61 The cooling of elements of blast furnaces,is investigated by the method of electrical analogy, The influence of various constructional parameters and thermal work of a *turnace on the temperature distribution in the furnace coolers is determined. Rational designs of coolers are proposed which provide good cooling of all the parts of an ingot. The, obtained data may be,applied w1a.en building new lw-ge blast furnaces. -T~ ..W JA 51,5-11.  FILIPIYEV, No- No Now opecies of leaf rollers of the subfamily Tortricinae(Lopi- doptera, 7brtricidae) from the U.S.S.R. Trudy Zool, inst. 30: 369-381 '62. (MIRA 15;10) (Leafroners)  MWNIYEV, S*Mo, kand1dat takhnithaskikh nauk; FILIPITU, O.T., Inshener; POPOVA, Ye. 7 A now methol for estimating the mixture of two flows In furnace heat engineering. Stall 15 uo.1:74-76 Ja '55. (MIR& 8:5) 1e G.1prostall. (Rest engineering) (Metallurgical furnace@)  7 T-7 P I Ir Wt: ONE  T 7- L' 77 T T I t~M 1 7 T T ANDONIYSV. Sergoy Mikhaylovich. kandidat takhniobesirikh 'nauk; RATIOVSKIT, Yuriy Boilsovich, inzhener; YIL .2 01 V 41Mn 01jr-hp. RUB inzbener; SHMAWA, Klara, Yakovlevua, inzhanar; CROTETSKIT, D.N., Otvetstvel2n.vy redaktor; LIBMW,S.S., redaktor izda.tallstva; SXVYAVZKrA, Ye.K... redaktor izdatellstva; AIMILTIV, S.P., tekbnicheakiy redaktor [Evaporative cooling Iof open-hearth furnaces; fundamentals of cooling a:nd principles of design] Isparitellnoe'okhlazhdonle martenovskikh pechei; oenovnye polozheniia sistemV ol~hlazbdeuiia i printsipy ee proaktirovaniia. Pod obahchei red. S.K.Audonleva. KharIkov, Goo. nauchno-teihn. izd-vo lit-ry po chernoi i tsvetnoi metallurgii..:1957. 3503.P. (MM 10:6) (Open-hearth process) (Evaporating appliances)  AN~Oil S*M. kandidat takhulchaok*h nauIr,,,FILIP'YIIV, O.Y., inzhener.'; VOIKOVI V.7., inshener.;SIF3M, B.m., Air-cooled valve gate of now design, Xetallurg 2 no-3:40 Mr 157. (MIRA 10:4) 1. Giprostall. (Open hearth furnaces)  133-8-2/28 AUTHORS: Andonlyev,. S'M'. (Cand'.Tech~.Sci.), Filiplyev, O.V'. and Kudinov, G.A': (Engineers). TITLE: An investigation of the wear of blast furnace hearths and the choice of design for their air cooling systems. (Issledovaniye razgara, leshchadey i vybor konBtruktsiy dlya i1ch vozdushnogo okblazhdeniya). PERIODICAL: "Stall" (Steei)t No'.81 1957, pp'.685-690 (USSR). ABSTRACT: In p:re*ious investigations on the determination of the temperature distribution in a blast furnace hearth the heat conductivity of the refractory lining was assumed as being constant. Howevert in fact the hearthlining in time becomes saturated with ironp so that its conductivity increases 4-5 times . The hearth of the No.2 furnace in ,,SYobodnYY Sokol" Works after blowing out of the furnace wai� inirestigatedg its lines are shown in Fig.1 and the results of tests carried out on samples of refractories are given in Table 1 (the work was carried cut by the All Union Institute of Refractories in Kharkov). The heat conductivity of the refractory bricks affected by se ce defends strongly on their porosity and iron content U19.2). In.order to obtain the distribution of temperatures in a card 1/4 blost turnace hearth taking into consideration the heat conductivities of affected refractories the authors carried  133-8-2/2B An investigation of the wear of blast furnace hearths and the choice of design for their air cooling system. (Cont. out an investigation using electrical resistance modelling (TPINN, MChM, Information No,443P Metallurgizdat, 1.956)'. The followin . g engineers participated in the work: B.1'.Bir- m4li and V.K.Maystrenko.' The temperature on the boundary of liquid iron and lining was assumed 1400 C and that on the boundary and coolers 20 C. For simplification the liping was divided into two layers - layer affected by service and im ffected layer; the boundary temperature was assumed 1150 C'. The following heat transfer coeff4e- iepts were taken: chamotte lining - 1.5; affected chamotte lining -1-7.3; carbon blocks 6A and cuncrete 1.0. The design-of 4 types of furnace hearths were studied: NO.2 ftrn Ce -(volume 600 m3) on the "Svobodnyy Sokol,, Works, fqo_.Afurnace on the Magnito orsk Combine (volume 1180 13), a typiq%1 furnace of 1033 m� and a typical furnace of 1386 mJ. The results of investigations are given in Tables 2 fLnd 3 andFigs.. 3 and 4'. It is pointed out that ind3'0a- tions of thermocouples placed in the hearth of typical furnacep .(Fig.4)-on the boundary with the furnace foundat- ions (i.e'. 7-8 m from the top of lining) are not suitable C&rd 2/4 for the assessment of the wear of the lining'. The=o-  133-8-2/28 An investigation of the-wear of blast furnace hearths and the choice of design for their air cooling system. (Cont.) coliples should be.placed on the boundary of the heat re- siptance concrete, no more then 4 m from the top of the hevLrth~. The dependence of the temperature measured at a distance of 4.2 m.from the top of the hearth along its axis on the wear of.lining for various furnaces is shown in Fig.5 For the determination of the wear of lining on the basi; of temperature at a given point in the hearth the following empirical formula is proposed: X = 1400 - T where x = thickness of the remaining 350 --0.1 V liningt M; T 0temperature on the axis of the h arth at a depth of 4.2 m, C; V volume of the furnacep m . The copparison of calculated and determined temperatures for NO.4 ME furnace, illustrating the applicability of the above formula is given in Table 4;. The wear of the above hearth on. blowing out of the furnace is shown in Fig.6. A popogram for calculating the wear of-lining in hearth from indications of the=ocouples for the above fumace is shown in Fig-7. On the basis of the results obtained it is con- Card 3/4 c1lided that air cooling of the hearth will decrease the  133-8-2/28 An-investigation of the wear of blast furnace hearths and the choice of design for their air 6ooling system. (Cont*, enetration.of i,-*on. Twodesigns of air cooling, shown ~ n Figs.8 and.9-are proposed, The 'amount of air required fo r cooling is 36, 000 M3/hr There arel:4 tables and 9 figures. AssbCIATION: Giprostall AVAILABLE: Library of Congreas Card 4/4  MAKOVSKIYO VoV,,,-: YXFMOT, VoAv, kand. tekhn. nauk, starshiy nauabn" rabotn1k; KOS=# PoU a' kand. tekhn. nauk; KAZAKWICR, SA; LAPITSKIY, LI., prof,$ doktor tekhn. n~ukL FILIPITW.-, T.; STROGAXOVgA.I.,'kand,* tekhn. nuki dots.*, 93-M 's' A-*Vo; BOMUTSKITO'I.I., kand. takhns nauk; ICMHIBOZRSKIT, X.Ta., dots.; KOCHO, V.S., prof,, doktor tekhn, nauk;.RTNIKOV V.L- IXIMINO L,M,, mladshly nauchW oot-m,An4k-, KCKAW, N.I., dots.-, XLTUdHARW# A.F.; PLIUSOHEMO Te.A.-, KkMbTINj Te.A., kand. tekhn, nauk, dots,; KOBAZA, LLO kande i'khn. naulc~ nauchWy notrildn4k; SHIROXOTp G.19; WRIMIN9 PVo. prof,: doktor tekhn. nai*; la=VA# K.I,; ZHIGULIN, V.I.; MCROKOV, P.K.; MPIMNIOV9 AoTe., prof., doktor tekhn, n aukqI starohiy nauchuyy eotrudnik; TARASOV$ H.S.; NIKCTAMff, A.G. Discussions., Biuls' TRUCHN no.-IB/19:40-66 157. (MIRL-11:4) 1' StarshiVAnzhener Glavapetestall Xinisterstva chernoy metallur- Cii SSSR (ft'irKhodakovskly), 2. lustitut Gaza (for Yefimov). 3. Dl- rektor Dnept-odzershinskogo.metallurgioheakogo instituta (for rboenko). 4. Nachallnik laboratorii Leningradekogo instituta ogne- UPOI-Ov. Uor ~Mmzakevich).' 3. 7-mvedivashchiy- kafedror mqtal:Llargl;& stali Dhepropetrovalcogo matallurgicheakogo inatituta (for lapiteldy), 6. Vachallnik laboratorii GlprostaU (for Filiplyev). 7. Che7yain- skir politekhnicheeldy institut (for Stroganov). 8. Nachallnik teploteldinidheskoy laboratorii Severskogo metallurgichoskogo ze6voda (for Demidovich). 9. Zamestitell nwhallnika TSentrallnoy zavodakoy laboratorii:Kake.vevokogo metallurgichookogo zavoda (for Bornatakiy). (Continued on next card)  KHMAKOTSKIT, T.V.---(contimwd) Card 2, .10, Sibirokly metallurgichookil Institut (for Hefthibozhakly), 11. ZaveftyushoMy kafedroy metallurgii stali Kiyevskogo politeftni- cheekogo,ixistituta (for Kooho). 12 Ispolnyayushchiy obyazannosti glavnogo inzhenerz Beloretskogo metallurgicheakogo kombinata (for Ryulkov)' 13. Vues6yuxnyy nauchno-iseledovatellskiy institut metal- lurgiche;koy teploteMmiki (for Lomakin). 14. Ural I ski7 politekhni-~ cheskiy institut (for Mokarev). 15. Umestitell nachallnika teplo- tekhm1oheskay laborptorii Nishne-Tagillskogo metallurgichookogo kombinata (for Klyucherov). 16. Nachallnik toplotekhnichaskoy labo- ratorii TSentralluoy zavodskoy laboratorii zavoda im. Voroshilova (for Plyushohen1m). 17. Zhdanovskiv metallurgicheskiy institut -(for Xapuotijx). 18. Institut metallurgii Im. Beykova AN SSSR (for Men). l9..,Xwba1'nIk laboratorii martenovskikh pechey Voesoyuz- nogo nouchno-Issledovatel'skogo instituta metallurgicheakoy teplo- tekbniki. (for Shirokov). 20. 2&veduWwhohiy kafedroy metallurgii stall. Urallsk:ogo ~olitekhnicheskogo instituta (for Umrikhin). 21 Fachallulk metallurgichookoy laboratorli TSentralluoy savodskoy !;;oratorii Zakaftazekogo metallurgiohaskogo zavoda (for iezhava). 221, Zamestitell glavnogo inzhenera zmvoda im. Petrovskogo (for Zhigulin). 23. lachallrdk martenovskogo tsekha ruznetskogo metal- lurgicheskogo kombinats (for Morokov). 24. lustitut metallurgil, im. &ykova AN SSSR (for Milobnikov). 25. Glsvny7 inzhener Petrovsk- Zabaykallskogo metallurgiohookogo savoda (for Tarasov). 26. Rachall- nik teekha M94amitogorskogo metallurgichookogo kombinata (for Nikolayev). (Open-hearth prooess)  ANDONIM, Sergey Mikhiqlovioh; YIZIPIjU ,._Qj.,.-o.tie.tstvennY7 red.; LIBXRWJ,,S.;*, red. izd~-v~a-,-~-, Sort, tekhn. red, [Apparatus for cooling by evaporation of open hearth furnaces; manual for niintenance Personnel] Voitroiotvo i ekepluatateiia isparitellnoi,po okhlashdanils martenovokikh pechei; rukovodetvo dlia obaluzhivaiushchego pereonOA. Izd.2.'- tepr. i dop, Kharlkov, Goo. nouohno-tekhnt Izd-vo lit-ry po chern;i i tovetnoi metallurgii, 19584 258 p. (MM 11:7) (Open-hearth furnaces-Gooling)  Sov/133/58-9-2/29 .",AUTHORS:Andon_l Yev, S. M. (cand.Tech.Scienceo, )Kudinov, G. A. (Ensineer),_-Piliplyev, 0. V,,,(Engineer TITLE: Some New D'~ gns7T)T-0-01i'~tng Systems for Blast Furnaces Etsl (Novyye konstruktsii dlya okhlazhdeniya domennoy pechi) PERIODICAL: Stall, 1958, Nr 92 pp ?76-?80 (USSR) ABSTRACT: On the'basis of a large experimental and design work (not specified) carried but by Giprostall, some new designs of cooling systems for blast furnaces are outlined. he designs were prepared for a typical furnace of 1033 M3 work- in- volume. Characteristic features: Cooling of the blast furnace stack is proposed in two modifications: 1) cabling with continuous vertical plate coolers with ring supports in each row (for supporting lining). A thin staock lining with a proportional widening of the bottom part of the fur- nace and the throat is recommended. This can increase the working volume of the furnace by 25-3%o- Coolers are Joined into vertical sections (four tubes are cast in each plate cooler - Fig,.2A); 2) cooling with vertical plate coolers (Fig.2B) withsupporting)rings in order to give a firm supp- ort to the lining (Fig.3 The coolers are placed in a check pattern, 24 in a row, and together with supportingrings Card 1/3.  SOV/133/58-9-2/29 Some New Designs of Cooling Systems for Blast Furnaces divide the lining into independent sectors. Supporting iings are placed at an angle of 5-1-100 to the horizontal plane so that the descending burden will prevent falling out of Ihe individual bricks and partially fill up burned out sections of brickwork (self-linin furnace). The bosh is cooled with plate cooler13 with ribs &ig.4) forming cells which on erosion of the lining can be filled with the slagged burden materials. A special ihaped.'cooler " is. ...; proposed for the protection of the lintel (Fig-5). Coolers are joined in vertical sections. Tuyere cooltng: the cooling space is divided by a plate into two longitudinal sections, communi- eating at-the tuyere nozzle. Screw-like ribs-are welded to .the dividing -plate (Fig.6). In this way the speed of water current can be increased to 1.5-2.0 m/see as against 0.05-0.10 m/see in the tuyeres used at present. Hearth: Some modifications in the construction of the hearth bottom are outlined (Figs.?, &). Air cooling of the bottom of the hearth is recommended. The overall cooling Card 2/3  SOVI 133/58-9-2/29 Some New Designs of Cooling Systems for Blast Furnaces of the furnace is shown in Fig.l: A - with a thick stack linin-, B With a thin stack lining. There are 8 f igures and no refere.aces. ASSOCIATION: Giprostall. Card 3/3 W 3 r7--  FILIP'YEV, 0. V.: Master Tech Sci (diss) -- "Development of a method of hydraulic modeling of installations for the evaporative cooling of metallurgical furnaces". Khar'kov, 1959. 6 pp (Min Higher Educ Ukr SSR, Khar'kov Construction Sngineering Inst), 150 copies (KL, No 9, 1959, 115) IR, W- 11  18(5) SOV/128-59-4-8/27 AUT11ORo: Andonlyevt 631., Doctor of Technical 6ciencen, Filiplyev, O.V., and Radionova,Ye.A., Engineers TITLE: Vapor-Cooling Syatem~for Cupolas PERIODICAL: Liteynoye,Proiz',vodstvo, 1959, 11r 4, pp 14-15 (Us~)R) AB;.)TRACT: In the courrie of an in-te~cification of the cupola . melting proceps Iof ca *st iron, it is very important to improve the cooling of the housing, in order to raise the durability of the inner fireproof caging and to enlarge the diameter of the melting belt. Water cooling of the cupola melting belt is already introduced-in the Moscow Likhachev Auto Plant, in the Ro-~!tov agricultural machine works, and in a number of other big plantp. With a decreape in thickneps of the inner caging, the consumption of fireproof mater- ial is reduced, although more heat is lost in the cooling water, which means a raise in coke consump- tion. The specific losses of.heat through water cooling amount to 14,800 kcal/t, if the inner casing Card 1/3 is missing. They only total 1,200 kcal/t, if there  Vapor-Cooling Syetem for Cupolas Card 2/3 SOV/128-59-4-8/27 ic an inner casing. With a cupola efficiency of 30, the additional.ooke consumption resulting from the cooling amounts'to 7.5 kg/t, Water cooling makes it possible to increase the dimension- of the cupolas and to raise their output. This cooling syptem, however, is deficient in several reppects: the water consumption is very considerable, which is unprofit- able in the engine building plants; minerals are precipitated from the cooling water and form sediments and deposits with the result, that the housing warps and burns through. At the present time the metallurgic industry mainly uses evaporative cooling. The general idea of this method is, that the heat abstracted through the cooling water is used for its evaporation. Since the vaporization heat amounts to about 540 kcal/ kg, the water consumption for the cooling is reduced to a large extent, and it is possible to use chemical- ly purified water which does not cause an incrustra- tion of boiler scale. A project for evaporative  Vapor-Cooling Syetem, for Cupolas SOV/.128-59-4-8/27 cooling 'of a group of four cupolac im just being put into practice. Current can be saved with eva- porative cooling because the'pumping of the cooling water becomes unnecessary. There are 3 tables and 2 diagrams, Card 3/3  SOV/133-59-6-12/41 AUTHORS: Andonlyev, S-M.v Doctor of Technical Sciences, Filip -- yev,. O-V., Engineer and Popova, Ye.V., Engineer TITLE: An Investigation ot Ports of Open HeartL Furnaces Fired with Gas with a Supply of Compressed Air and Oxygen (Issledovaniye g9lovok gazovykh martenovskikh pechey a.podachey kompressornogo vozdukha i kisloroda) PERIODICAL:Stallo 1959, Nr 6, pp 509-512 (USSR) ABSTRACT: In view,of the increasing importance of choosing the most suitable designs of ports for large open hearth furnaces, Giprostall carried out laboratory investigations of a number of ports on models of typical 220 and 500 ton open hearth furnaces (Beale 1:20) during which the following factors were determined: a) the direction of streams in the working space and hydraulic resistance in the port of the furnace during the passage of gas and fumes; b) zone of mixing fuel with air* The experimental procedure is outlined. The designs,of ports tested for 220 ton and 500 ton furnaces are shown in Fig 1 and 2 respectively and the Card 1/4 results obtained in tables I and 2 respectively. It was  SOV/133-59-6--12/4i An Investigation of Ports Of Openifearth Furnaces Fired with Gas. with a Supply of Compressed Air and Oxygen found that3 1) Using water models and hydrochemical oscillographic methods of investigation it is possible to establish the hydrodynamic characteristics of the flame and the quality of mixing of fuel and air as well as to determine the influence of: the coefficient of excess air; additions oif compressed air; oxygen; .changes in the shape of-the--port and working space. This facilitates the choice cf rational designs for ,industrial testing. 2) The laboratory investigations indicated that the designs of ports used in open hearth furnaces can be improved by enlarging the outlet (up to 50%) and supplying-,in the top part, compressed Air and oxygen in the bottom part; whereupon the resistance. of the port decreases by a factor of 5. This permits: an improvement in the heating of gas checkers;,an increase in the intensity of the flame volume up to 50%. It will be advantageous to Card 2/4 decrease the length of the port bY 301% which will allow  SOV/133-59-6-12/41 An Investigation ofiPorts of Open Hearth Furnaces Fired with Gas with a Supply of CompressedAir and Oxygen increasing the surface area of the bath. 3) Itis advantageous to make the port lining of a thickness of 150 mm with a thermal insulation of, 20 - 30 mm and,metallic shell of the port of a sii:e not exceeding 3.50 mm. In this way at the beginning of operation the lining will protrude 20 - 30 mm. When using metallic shell 230 - 260 mm at a high thickness of the lining the heat efficiency decreases by a factor of two after 80 - 100 heats (Fig 3). The following is recommended for industrial testingi a) port of a normal length with increased by 5074 cross- section area of' the outlet and with a supply of additional compressed air through nozzles situated in the metallic shell of the outlet. It would be advantageous to supply oxygen also (compressed air through top nozzles, oxygen through bottom nozzles)j b) a shortened port with the length of the bottom of 2000 mm with a corresponding increase in the length Card 3/4 of the bath and.a decrease in its depth (by 80 - 100 mm).-  SOV/133-59-6-12/41 An Investigation of Ports of Open Hearth Furnaces Fired with Gas .with a Supply of Compressed Air and Oxygen Using'designed parameters of the port of a typical 500 ton furnace one cannot expect complete combustion*of fAzel.in the working space, therefore, the designed thermal performance cannot be achieved without using means of flame turbulisation (compressed air or oxygen). There are 3 figures, 2 tables and 10 Soviet references. Card En N!V  Cj- ABDOWYNT, S.M.; ZHLOBINSKIT9 're.Io: YWYEV.. M.A.; STRUGATSKIT,- L.P.; YZLISMV, B.V.j TSELUYKO; Yu.I.; SUVDROV, A.I.; FILIFIYET, O.T.; KAUSHNIKOV, P.A..-. LIVOV, V.N.; SUIOYEV. V.A. Evaporation Cooling Of rolling-mill heating furnaces in open-tearth- I -furnace plants and complex utilization of secondary power rescurcess Prom. energ. 14 no.1-t37-39 Ja 159,, (MIRA 12:1~ (ftr,aAcea, Heating) (Boilers) a 7777  18-3200 7744r- 301~/133-6o-i-6/3o AUTHORS: Andonlyev,,S. M. (Doctor of Technical Sciences), Kudinov, G. A,,, Filiplyev, 0. V. (Engineers) TITLE: Study of Performance of Blast Furnaces With Stack .Coolers or Vario,-is Designs PERIODICAL: Stall.0 1960, Nr 1, pp 23-26 (USSR) A3STRACT: A report.concerning the 1958 investigation by the S,;ate Institute for the Design and Planning of Steel Indui3try (gIPROSTALI.), with participation of plant personnel of three metallurgical plants (not identified): I (furnaces IA-.TD), II (furnaces IIA and IIB), and III (furnace ITTA) of following volume (mJ): furnace !A-943; IB-1386; IV-1386; IQ-1386; ID-1386; IIA-1033; IIB-1033; IIIA-1386. The methods of cooling the stacks of these furnaces is shown in Fig. 1. The design features of the furnacl!s; ~measuring the heat losses by the stack with water cooling; the effect of coolers on the temperature of gas flow; the analysis of furnace performance with coolers of vari- Card 1/8 ous designs; the selection of cooler's design and the U4 _11- f4dntlz= V-1  Study of Performance of Blast Furnaces With 77445 Stack Coolers of Various Designis SOV/133-6o-i-6/3o Card 2/8 thickness of-stack lining are discussed. A reccm- mended optimum design of a typical blast furnace is given in Fig. 4. The authors arrived at the following conclusions: (1) The vertical peripheral coolers of stack, installed as continuous belts tight against blast furnace shell,are recognized to be the best. .Though the stack ITeat, losses with these coolers (with maximum burning out of the lining) in the average are 20% higher than that in the case of horizontal or "bracket type" coolers, the analysis of furnace per- formance showed no negative effect of plate type coolers on coke consumption and -.Furnace output. (2) The peripheral plate type coolers are reliable .and protect the blast furnace shell from heating, -which eliminates the necessity of external spraying ,(in the case of continuous belts, set tight against the furnace shell, without gaps). Their life is 4 to 5 times higher than that of horizontal or "bracket typell coolers. (3) The thickness of stack lining, when plate type coolers are installed, should be reduced to 575 mm. (4) In the event the coolers are equippecl with  7 744 5 SOV/133-6o-1-6/3o Card 3/8 Fig. 1 (cont'd)  )o-1-6/3o t Gard 4/8 11 17 h h ff Fig. 1 (cont'd)  h." i -f- ---I `V jn- 771145 SOV/133-60-1-6/~o. VIM Fig. 1. The cooling systems used in stacks of investigated blast furnaces. Card 5/8  " - . - I i_ .. - . Card 6/8 -(7445 SOV/133-6o-1-6/30  Study of Performance of Blast Furnaces With 77445 Stack Coolers of Various.DeBigns SOV/133-60-1-6/36 Caption to Fig. 4. Fig."4. Recommended design for the increase of workipg volume of a typi6al blast furnace from 1719 to ig6o m3. (1) an alternate design showin an installation of plate type coolers (continuous beltsi-i (II) an alternate design showing an installation of coolers with gaps along the height; (a) axis of pipe for taking gas amplesj (b) axis of air tu erej (c) axis of slag notch; (d) axis of iron notchj (e~ metal stockj (f-) ventilating blast. IT:--l" MOM  ;Study of Performance of Blast Furnaces With 7744 Stack Coolers of Various Designs SOV7133-6o-1-6/3o .511,0porting shelves, the life of lining should increase. (5) Due to the fact that plate type coolers work under difficult conditions of slag hardened on the walls of blast furnace., it is recommended to cast them from the alloyed,- growth resistant cast iron of ZhChKh -2.5 type. Following dimensionsof plate type coolers are recom- mendedi thickness of ribbed.portion of cooler-115 to 150 mmj thickness of the main. metal part of cooler-- 120 mm. The poured-in fire clay should not occupy more than 55% of cooler's surface. For cooling of the bosh the ribbed coolers without poured fire clay are recom--~ mended. The height ofthe rib should be about 75 mm. The ribs of! the plate type coolers should have the longitudinal and transverse slots for the relief of thermal st-resses. There are 4 figureBj and 5 tables.'  ANWHOYLPY, S.Mv; FILIPPIJW, O.V.; ZHITOMIRsKjy, I.S. low mstlGi-for simulating the mixing of fuel, air, and ozyge-a in open-hearth furnaces. Inzh.-fiz.zhur. no.1:25-29 Ja 16o. (NIERA 13:4) 1. Gosudaretvenny7 nauchno-issledovatellskiy i proyaktnyr institut metallurgicheako7-proW~h'I.amwatiq "Giprostal,"Kharlkov. (Open-hearth furnaces)  V r~ f 7- - I/ llliEV,I.Sergvy Mikbaylovich, dokto.r tekhn. nauk. 1-Irinimli uch-astiye: BEIAN, F.I., inzh.; MALAMLTDp le.A.; TSELTDIKO, Yu.I., inzb.1 KER- ZHPMI SAp inzb.; SIMOp BAp inzh.;.FIUPtYEVj O.V.) inzh.; KOCHOp V.S.p doktor takhn' WvkS prof.p rAt-ae-n-z-e-nt-jIaT=VICH.' le.Asp red.1 YEZDOKUVA, M.L.p r:;. isid-val DOBURINSWA, L.V., tekbn, red, [Evaporation cooling of metallu gical furnaces] Ispariteltnoe okh- laWenje metallurgichaskikh pechei; oanovrqa poloshenila. Moskva, Goo. nambno-tekbu. isd-vo 3.it-rr po chernoi i tsvetnoi mnta-U:urgiiF 1961. "7 P. (MBA 3-4: 10) (MetanUrgical furnaces-Cooling)  NITSKEV.TCH,,Ye.A., dots.11 XIBEVSKIY, G.N., inzh., nauchnyy red.; FRIDMAN,, I.H,, insh., nauchnyy red.; SAZANOV,,..B.V., dota... hauchnyy ,ed,; IrUSHKOV,, S. B. . inzh. . nemclinyy red. I kand. tekhn. nauki nauabnyy red.; VESELKOV', N.G.,, inzh.,, nauchnyy red.; TARNAVSKIY, I.L., inzh., nauchnyy red.; IVANOVA, JkAj inxh., red.; ZABAZLAYEVA, E.I., red.; LANOVSKAYA, H.R,,, red. izd-va; DOBUZHIMSKAYA, L.V., tekhn.red. [Heat engineeringlTeploenergetika [By]E.A.Nitskevich. Pod red. A.N.Ivanova, Wskva~ Metallurgizdatp 1962. 348 p. (MIRA 16:2) 1, Moecow. TSentrallnyy institut informatsii chernoy metalluigii. (Metallurgical furnaces) (Power engineering)  ANDONIYEVf S.M., doktor takhn*nauk;.FILIPIYEVp 03., kand.takhn.nauk; 6 -1-r -rr-i ih'-~ t KUTSYKOVICH, D.B.; GOLIDINp h. Evaporative cooling of cupola furnaces Prom, energo 19 no-3:2-1-26 Mr 164. (MIRA 17:4)  OSIFOVICHP V.;Bk9-~I-BVj-F-- Reorganization of rav leather shops, Hias,ind,SSSR 33 no.5t24-26 162a (KERA 15:12) 19 Dnepropetrovokiy nrasokombinat, (Rides and skii3s)  I?ILIP'YF.V, V. I.: master Tech Sci (dies) -- "Investigation of the pr)blem of the use of the shield system in steep seams less than 2.5 meters thick in the Prokoplyevsk-Kiselevsk area of the Kuzbass". Tomsk, 1958. 15 pp (Tomsk Order of Labor Red Banner Polytech Inst im S. it. Kirov), 150 copies (KL, No 12, 1959, 129)  S/128/60/000/001/005/007 4133/A127 AUTHORS: Mellman, Ya. I., Filiplyev, V. P. TITLE: Annealing of castings directly in the mold PERIODICAL: Liteynoye proizvodstvol no. 1, 1960, 40 TEIT: The authors describe in detail. the technological sebeme for the casting and subsequent annealing directly in tha mold of a turntablet 20600 mm in diameter and 25 mm thick, for a pilot plant model of an assembly crane. Four Of such turntables ha& to be cast. The scheme of the mold, formed 'by template and a system of cores, the gating assembly and the flask arrangement are illus- trs.ted in Figure 1. The cores were made of a ohemically solidifying waterglass mixture. The supporting structure consisted of a frame,, 3 3: 3 m, welded from I-beam No. 30 sections and a steel ring, 29100 mm in diameter and 300 ma high,-made from a 5 mm steel.sheet. Steel wao poured at 1 49000, after 30 minutes the shrink head was freed, from the flask and the cores (4), the ring (2) was removed and. Ca:,-cl 1/4  S/128/60/000/001/005/007 Annealing of castings directly... A133/A.127 all. gatings (7) around the riser (6) were cut off to ensure free diametrical shrinkage and eliminate hot cracks. All shrink heads were removed by gas cutting. The molding Band was removed from the interior and lower parts of the casting and the casting was pre- pared for annealing according to the scheme illustrated in Figure 2. A tubular ring (4), made of 75-mm tubing with 10-12-mm holes drilled at regular intervals of 150 mm on its circumference, was placed in thet mold, (2). Then, firebricks (5) were arranged in 'the molcL and covered with 5-mm steel plates on top (6). Hot generator gas was fed. through a corrugated hose to the tubular ring and lighted. The combustion products left through the holes in the, ring. The inner paxt of the mold was covered with molding sand and the casting was cooled down to 50000.,Samples for mechanical testing were placed at the body of the casting. The heating and holding of the casting at 860oo lasted approximately 6 hra. The temperature of the castizig during the annealing process was periodically measured. with a ther- moo-ouple with the gas turned off. After holding at 8600C during 1.!i hre the gas was turned off and the holes were covered with molding sand, and the casting was left for cooling, completely Ca:~d 2/4  Annealing of castings directly... S/128/60/000/001/005/007 A133/A*127 isoluted from air. The mean results of testing the mechanical prop-' ertios of the f9ur melts were ind#ated by the following'values: b - 60-7 kg/mm2; . - 32--7 kg/mm~'; - 19-5%; - 31.2%;(with the following chemical composition of the steel: 0.38% C;, 0.85% Mn; 0.32'J6 Si; 0.032% S; 0.035% P). Therevere no buckling phenomena whatsoever. There Are 2 figures. Legend to Figure 1: (12),;,[U-beam frame, 3 x 3 m pport ring ~31 cores 4 auxiliary cores 5) Xlask ~6) x1ser 7~ gaitings (8 -vertical gaitings Our. 1. Car& 3/4  Ali Open-hearth furnace melting of'steel. Lit, t,,,aRA 14t12)  -=RITIT. V.S.; SMOLY ANINOT, X.P.; kLS=09 Te.G.; BZLYATNV, X.R. Preparation of bireD3'and determination of its unit cell. Kri stall og raftia 5 no. 6:958-959 &D 160. (HUL1,13 -.12) Rostovskiy-na-Donu gosudarst-reaM universitet. (Bismuth farrate)  V.S.; FESENKO, Ye.G. ULIPIYEVV Produation and determinationof the elementary Coll of some compounds of the type A2BIBI-106. Kris tallograftia 6 no.5.,77CL. 772 S--O t61. (IMU 14, 10) 1, Pbstovskiy-na-Donu Vauda:rAvennyy universitot. (Ione) Crystals-Growth)  SELYAYEVI I.N.j FILIPIYEVt V.S.; FZSIMKOO YO.G. Preparation and structure of some tUnglitates of the type M3 W06, Zhur.mtrakt.kh'm*,4 no.5:719-723 8-0 163. (MIRA 16:.U) 1. Rostavokiy gosudarstyeanyy univeraltet.  FII.IPIYEVO V.S.; KUPRIYANOVp M.F.; FEMNKO, Ye.G. Proluilion and analysis of complex compounds of the type A2B B V Kristalograftia 8 no-5090-791, S-0 163. (MIRA 16:10) 1. Rostovskiy gosudarstvennyy universitet.  EIIT(l)/EWP(q)/EWT(M)/M- AFFTCAS-D/yOD-.3 OM! P.P3000766 S/00170/63/008/00/0356/0362~ AUrIC-R:. Kitpriyanov, M. -BI-; S. C.. TITIE: X-r-AY-istuaies-of- mill r-deforrAtions in-complex t-_rovzIc.ftets----- - - SO,- CE Kristnllogr~fiya, v. 8. no. 3, 1963, 356-362 TOP] G TAGS., perovskite struatvre,~x-ralr powder photograph, unit cell, superlattice' AB57RACT: The authorej examined a method of determining mirior :Ustortions in pezovskite structure for th5 purpose of finding optimal covditiona for photo- graphirip these distortions. They p~opol5a a method of determining typo of dis- by relative width of lines on powder diagrams. The r--thod was e~nvioyed in tn.! study of a number of complex perovskites with the general formula 5r,sub B sup 1 B sup 11 0 sub 6, where B sup I represents Ta and I'To and B sun 11 r,-pr!jents Fe, Mnt Y, Ybt Pr, Smj'_N'd, and La. The parameters of these com-riourds were doternined by reciprocia photography with a RIKEE camera. rhe camera ~,ms Xoc-uqt!d on lines with N = 10 for chrordin roeintion and witil-I N = 20 for eobal... "m )i7ecisian of miesitring the peramete,-3 oC the ptrovskit-n aniieitedl to O.C-01 i,,X for L'Incer valuou and 21 for angular valucs. For the high-tem: "pc~rAturo phot,_~,r-repho r, 11,1~ '11311M' typo coxiera was employed. !Ugli-temperatu-1-03 phanc traq.-I-Itions "41 IJ L .1n,31 li-I'f1cant dintortions of the-porovskite cell are a characttristic of Card 1/2 y :" , , -,- --, , . '~ "64' --O'_58 K~' i v  ACCES31011.1 N'R.- AP30CO768 -the -ijrvestigated compounds. '.The atithors-conclude that appreciel)3:7 &Mf'trorltn-z: in trirsitlot temperatures of c mpounds containing I _rg:tj arths Wl coll-olmill") v 2 iron i xe probebly dua to differences In the transition Crig. art. has: 4. flAgwes and 5 tables. ASSOCIATIONt- Rostovskily-na-Donu gosWaratvonny*y universitet j'Fbst0q--ft_.te- Univeisity) SUB.= TED: Q9Jul62 DATE AM 2lJun63 lr=Lt 00 SUB CC VIE: 00 NO REF SOVt 005 OTHER!* OOV bz W,  Acussni NR.- AP4024999 -S/0070/64/009/()02/0293/0295 AUTHDRS: Filiplyev)-V* S*j Fesenko, Ye. G. MUt Structural changes and anomalies in olactrical properties dirilig Phase tran31tions in Fb2ad'06 SOURCE: Kristallograftyas ve gs no, 2. ~964P 293-295 ,TOPIC TAGS: crysbal:strucitures suparlat6ice., electrical p~qpertyi phase 2~d'1062 monoclinic diz--tortion,, t6tracr nal distortion,, transition., Pt-2C0!dO6j Pb 00 orthortombic. symmetry, peirovskite., perdvskite call ABSTRAM This is i continuation of work carrid~ out by V. S. Filiplyov) It. Fe Kupriyenov, arA Ye. 0. Fesenko (Kristallografida,, 6., 790., 1963). Synthesis of Pb CddC-6 was accomplished in three stages of,heating FM with carbonates of Co. 2 4 and Fbi 600C for 20 hours., 750C for 20 ho(jrsp and 980C for 4 hours. Heating at hig4er temperature w4s considered inadvibiable because of incongruent, melting of ?1b2C0;/TC6* PrInLary structural determin4tlon was made by x-ray studies with Cu. and Fe radlation. Splitting of lines oif the powctor diagram (t c9 But greater resolvin,~ power indicates chat the disto*ion is monoolinic, though it also appears Thai a - a and that ihe true symmetry of ~he compound is orthorhombic, The nature of the porovskite-coll distortion is similar to that in PbP&WO for w.hich a phase, transition may be observed'at 390) and wl oh is interpreted AJ3 ant~ferroelectrio. But, in contrast to is-is compound, Pb2COA6 e4dbits no supailattice in connection I with antiparallol dis" xt! .plaooment of ions. This does not excludp the possibility th- '6y be small,, and this wodid mean that the' such displacements actual* occur, They a intensity of sublattIce lines would also be small. -Because of the peak in a at the point of phase ti~msitior. and because,of similarity with PbXiloc, the authors conclude-that Pb COWO" is fex-roelectric or antiferroalectric* Orig. V~rt has: 2 2 6 figures and 1 tables ASSMIATION: University) ,s.u=m t Rostovskiv-na-Donu tosudarstvanrqNy universitot' (Ro6tov-on-Don State o7jun63 DATE ACQs :L6Apr64 F=Ls OD SUB CODE-. PH xo Rd. sov t A OTHERs On Card 2/2 -T---~ -TIM TT - T  A L~ p yev S. Fesenko, Ye. i;. syr,thesis and structure cf cotnpb~x penr.7ski,f-:--; !~riptallograftya, v. 10, no. 3, 196), 297-392 IS perovskite, crystallography 1+ Uc-ip o F covpcounds w Ith -- gener - 1 f-, arf! T,3 M 1 15" 3T',' ('If ter-nt triva lent cat i- m - qTT.)(- -, .4 : ~ 1, f T.f, t M11" .;YI"T)E- '7 c an V e 0 f r1 an d Ca C-T t i rin s T IN r-~ Z~-- Y~j MA,  Ut Y m lkostovO iy gosudamtve-nnyy uriLveraittt (Poeitov Statt,~ Uni EAT IP i. 0414arGlt ENCL.- 00 D S~' Eli i 21-ir,   FILVIYEVo V,S.; MEMO, 164- Phase transitions in Pb2cd WC)6- Izv. AN MR. Ser. fiz. 29 no.6t 894-895 Ja 165. Mu 18! 6) -'N  p t!lk: f~ rrr -iz ja 'r n V,= V 7 9 F AS' A nl,--O Ye.G. of P n h.:: n C.1:1 I -Itric, mate ri, s a r e Do r-, a c o nt -ni~rc I- oar. 7-h 5- t 1 1 W ~le -sterial to tre G slin,~~ !~ ..... . b-P.,v Lws W,70 f:;., z, t O.Cop, As b 4.C74 t.002 m i P-MAM 1-30  1C ip nr urp 4m ;.,v  L L271-t6 DITU)/T IJP (c ACC NRs ATI5024546 UR/0070/65/010/005/(1626/0629 548.736 AUTIIOR,. Z11.1plyev, V. S. Fesenko, Ye. G. TITLE : Symmetry and lattice parameters of certain perovskites of conapleN composition SOURCE:- KxIstallogafiyaj: v.--10,-no,-5, 1965, 626-629 TOPIC TAGS: crystal lattice Parameter, _UyAsal symmetm -crys"t CO. ABSTRA4',r: rhe articlegives a table-of-tho-symmotry, -unit- cell- parameter s,_ -form-of perovskite cell, and parameters of perovrktte cell of 49 compounds having, tile general forniula A2131 F"05, where A -a-13a, Sr; BI Ta, Nb in combination witli various trivalent cations B", or B'= W and B" = Sr, Ca, Mg. For most compounds, these data are published for the firsttini(.. The compounds were synthesized-by.1 two-stage ceramic process (firing for 20 hr- at 1200C ind 4 hr at 1400C) from stoichiometric mLxtures of oxides or oarboliates of the cor- rc.,:pondingmetals. X-rays structural analysos were carried out onpowder patterns obtained with RKD .57, RKE, and RIKU- 114 cameras us Lng Cu-, Co-, Fe-, and Cr-radiation. In a of the comp4mids, a superstructure related to the alternation (along tho Uiree dlrectioW of various cations occupying octahedral positions was observed. In noncuble eom.,iounds, the superstriieturo may also be related to a displacement of tons. The unit cell of rhombohedral. compounds contains I formula unit; that of tetragonal compounds, 2 units: and that of cubic compoundu, 4-units, -Ortgv art.- has, 1 table.- 1/2 Card  ........ .....  FILIPIYEV, V.$~; FESENKO, YeOG. Peoudotriclinic distortion of the cell in a perovskite-type structure. Kristallografiia 10 no.3t4ll-1+14 My-Je 165. (MIRA 18:7) 2. Rostovskiy gosudarstvennyy-univernitat.  FILIPM-71.', , V. A. IlEffect of the Vorvoc of the Diaphragm on the arull Intejtines and the Rmctional Chira~.Aeristics of These Nerves." Caro Ied ici, Dnepropetrovsk Pcclical Tnat, Dnepropetrovsk,, 1953. (RzhBlolj No 1, Sep 514) SO: Stm 432, 21) Par 55  'Sel I R;~n Accrssm ?M: AP4030641 S/b048/G4/1D28/1D04/0669/0674- AtMion: Fesenko, Ye.G.; Filiplyev, V.S.; Kupriyanov, M.P. TITLE: Concbrning th4 crystallochemistry of perovskites of complex composition ffeport, S)mposium on Ferromagnetism and Fierroolectricity held in Leningrad 30 May to 5 June 29627 SOU=: AN SSSR; Izv. Ser.fiz., v.28, no.4, 1904, 669-674 TOPIC TAGS: porovskite, complex perovskite, complex perovskite lattice parardeter, complex poiovskito superstructure ABSTnACT! A large nu6bor of" perovskites with the complex 'composition. A2BB"06 were synthesizee and some of their properties are discussed. -In the general formula A re- presents a divalent cation and D and DI represent cations, the sum of whose valences is eight. ;.mong the compounda synthesized are the 112 in which A Is Da or Sr, and cither D it; Ta or Nb and 81 is any one of 1,10 trivalent ions, or B is V1 or He and B is any one of 8 divalont ions. Synthesis attho 66 analogous compounds in which A in Pb was attqimptedt but most of the rosultin4j materials did not have the, peroiskite structure. The syntheses were performed with analytic grade reagents and employing Card 1/3  ACCESSION XR: AP4030641 conveniioral ceramic techniques. The structures were determined by x-ray powder dif- fraction photographs. In addition to the above compounds, a number of perovskites in which A is, Ba or Sr and B is Re, Os or U are included in the discussion. The proper- ties of these compounds were taken 'from work of A.W.Sleight, R.Ward and J.Longo (J. Amer.Chem.Soc.83,1083,19G1; Inorg.Chem.l,:245,1962; lbid.790,1062). The mean lattice parameter a (the cube root of the volume of the unit cell) was plotted against the -radius RDi of the D' ion. For fixed A and D, the points lay close to a straight Me, and the soveral lines for the different A and B ions all had the same slope da/dRain in o.5s. IT, order to obtain smooth curves, it was necessary to employ the radii given .by L.H.Ahrens (Geochim.et coamochim.acta,2,3,155,1951) for all the ions except Sc3+ and Mg24;'for these two ions the common radius 0.75 was required, which differs by about 10% (in both directions) from the 'accepted radii of these ions. For large va- 'lues of J~j r (Rj3 t/RA > 0. 8) , the points fell below the line and the materiafe had the more alosely packed structure of (M4)3AIF6. The structure is metastable in the.,- transition region, and it is possible to obtain materials with either structure, do- pending on the.conditions of synthesis. Superstructure lines were observed in the patterns of all the compounds for which either the valences of the B and D' ions differed by more than two, or the radii of the 0 and B ions dif fared by more than 9%. This aufficient condition on the Ion radii for the appearance of suporstructure CMd 2/3  ACCESSICK NR: AP4030641 is consistent with findings of F.Galasso and W.Darby (J.Phys.Chou.66,1,131,1962). The nature of superstructure in perovskite and in the (NR4)3Aq6 structure is dis- cussed, and. it is concluded that several tungstenates "signed to the latter struc- ture by SX.Steward and H.P.Rooksby (Acta crystall*gr.,4,503,1961) are in fact per- ovskites. Orig.art.hast I formula and 4 figuros. ASSOCIATICII: none 00 DATS ACQ: 304pr64 INCLI 00 SUB CCDE: NR REIF SOVS '017 OTHER: 012 Card 3/3 7 !"~' 'w-M  FILIP 'Y.3V :,--..,,,..Yux,iy..,k~elisa-ndrovic,h;, LAVE.,,TSKIYI A.., doktor fil. KLYAIfS,'Ye'.14.j red.izd-va; MATTUKHINA, naukj, oty. red.;. L.I., takhn. red, [Creativity and cybernetics] Tvorchestvo i kibernetika. Moskva., Izd-vo "Naukag" 1964. 78 p. (MIRZ 17:3) v--