SCIENTIFIC ABSTRACT POLISHCHUK, P.YA. - POLISHCHUK, V.P.

iCCESSION NR: AP4019497 5/0078/64/C)09/003/0705/0709 AUTHUAU Polishchuko P. A. -TITLE: Oxide-fluoride systems of potassium, zirconium and boron' ;SOURC,3: Zhurnal neorg. khimii, Y. 9p no. 3, 1964, 705-7011 ,TOPIC TAGS: phase diagram, potassium fluoride syste, potassium t izirconium fluoride System,X2ZrF X ZrF . potassium borofluoride containing system, potassium oXyftuaoz!?conate, ternary eutectic ABSTIUCT: A part of the phase diagram of the system formed by KF, .PF4,,.K2ZrF6 and B203was studied. The phase diagram for the system KIV-KBr&-~- Mxtrrs 'was constructed. The KF-K ZrF system in characterised by the presince -of tho congruently me1t1nj2ih9&al1y stable K3ZrF7 and a outectic. ,The quasibinary system 3KZr Card  P"0,1-.!Sl]Cil(JK,, -,.A. Electrolytic decomposition of fluoride-oyide meltz of zirconium and boron. Ukr.k-him.zhur. 30 no.5:4o"?-474 164. (MI-RA 18:1.) 1. Dnepropetrovskiy khimikc-tekhnologielieskiy institut.  l'OLISHCHUK,.P.A.- Electric conductivity of axide-fluoride melts of potassium, zirconium, and boron. Zhur.neorg.khiz.--9 Ap 164.. (MIRA 11h4).  POUSHCHUK, !-.A. Oxide-fluoride Mtems of potasaium, zirconium, and boron- Zhur. neorg. khim. 9 no-3:705-708 Mr 164. (MIRA 17:3) 1. Dnepropetrovskiy khimiko-takhnologichookiy institut.  11CLISHOUK, P.A. Behavior of zirconium dioxide in a molten potassium fluoborate. Zhur. neorg.khim. 9 no.1:147-151 Ja 64. (MIRA 17:2) 1. Dneprepetrovskiy khimiko.-toklmOlogiOh6slci~.W'iwtitut-  POLISHclm, 1~.P- af coritairing flliozirconatee and fl-ijoborate. Ulm. hh.i.m. zhiir. 30 ro.6.,-,553-557 1 '04. (MIRA 18$5) 1. Dnepropettro~YsUy institill.,  POLISIMMY, ~R,S~ Det-w-mination of the hewlysis rate of preserved blood. Gezat. i 11'irsl, ~rmwi 2211(~-1021 165, (MIRA 18Y10) 3, I,Ivc:vskty inatitut ptwel!vanLya krovi.  YOLIBORT; XHILIGOIJEO; BIRYTiNOVICH; POLISHCHUK; RASIN; RUSHUVICH; ZELINSKIY; WEDBAROU; VASIMTKO; GHUPYH', GOROIXOVA Viktor Pavlovich Protopopov; an obitunry. Zhur.vys.nerv.deiat. 8 no.1:157-159 Ja-F '58. (MIRA 11:3) (PROTOPOPOV, VD20R PAVLOVICH, 1890-1957)  GOTKIN, N., inzh.; POLISHCHUX, S.. inzh. Kschmnized unloading of bricks with the help of powar-driven cars. Strot. not. 4 no. ?:28-29 JI 158. (KIRA 11:?) (Loading and unloading) (Bricks--Transportation  POLISHCHUK, S. A. POL"i'MCM, S. A. ---"Purification of Czocerite with Preliminary Partial Densphaltization of the Czocerite in an Emmlsion.It Min Higher Education USSM, LIvov Polytechnic Inst, LIvov 1955. Dissertation for the Degree of CmAidate in Technical Science) SO: Knizhnaya Letopisf, No. 35, 1955  RPAKOVA~ N.Ya.., kand.tekhn.nauk; POLISHC!ff uk ,_S.A., kand.tekhn.na -SHMENETAP B.N., kand.teich ~.nauk~;GRV=M, L.N., inzh.; STANITSKAYA, Z.N., inzh.; GERMASH, E.A., I&Ih.; VASIL'YEVA, Z.N., inzh. F)ssibility of production of transformer oils from the petroleum of the Okhinskiy and Katangli fields. Nauch.zap.Ukrniiproekta no.864-70 162. (MIRA 16tl) (Insulating oils) (Petroleum-Refining)  S/710/62/000/008/002/003 E075/9436 AUTHORS: Rudakoya, N.Ya., Polishch _S.A., Sheremeta, B.K., Candidates of Technical Sciences, Gamolina, L.N., Stanitskaya, Z.N., Germash, E.A., Vasillyeva, Z.N., Engineqrs TITLN: The ppssibility of producing transformer oils from Okha.and Katangli crudes SOURCE: Kiyev. Gosudarstvennyy nauehno-isaledovatellskiy i proyektnyy institut ugollnoy, neftyanoy i gazovoy promyshlennosti. Nauchnyye zapiski. .no.8. 1962. Neftepererabotka. 64-70 TEXT: An attempt was made to produce transformer oils satisfyingi rOt-;T982-56 (GOST 982-56) specification from 6kha and Katangli crudes subjected to acid or furfural treatment without dawa-xing. The properties of the crudes are given in Table 1. These crudes contain about 50% of oil fractions and canfully satisfy the deme;,nd of the Siberian and the Far East regions for transformer oilli. A distillate from a mixture of crudes was investigated (2 parts of Okha and 1 part of Katangli crudes) in view of dif-t"erences in their composition, the Katangli crude containing Card 1/3  RUDAKOVA, N.Yn.;jOLISIW7IUJI,, S.A.; LQMV, V.A.; GAII)LINA, L.N. Pbssibility of obt;.nirdng ti-ansf-ormir'shd froon-oilns frcm -1*,Elr-z-;-.,r petroleum (Moldevian S.S.R.). Npfteper. i npftekhim. no.104-15 165. (M-TRA 18--6) 1. Ll-,rovskiy filial bkrNlIg-,pronpftl.  L -.11)98-66--- Ar(.ESMN NR: AR5017515 UR/0299/65/000/013;/MO23/MO23 SOL RCE: Ref. zh. Biologiya. Svodnyy tom, Abs. 13M1 28 AU' k A. j7HOR: Polishe CITED SOURCE: Sb. Lecheniye travm i 1kh posledstviy. Kiyev, Zdorov ye, 1964, 85-,'38 TOF1IC TAGS. tissue transplant, pH measurement, skin physiology TMINSLATION: In 31 wounds in 20 patients, pl-I was measured by the method of Pedzhett and Zitkevich before transplantation. Czech universal indicator paper was used; this permitted measurements within pH limits of 0-12 with an accura- cy c-.f 0. 1-0. 2. At a pH of 7. 3, 1076 of the transplants accreted; at pH 7. 4, 85761 at pH 7. 6, 75. 51p; at pH 7. 8, 79. 47o; at pH 7. 9, 951a; at pH 8, 1007o, at pl-I 8. 2, -1 B. 7, 9016. The correlation coefficient between the' 95%; at pH B. 3, 5076; and at p1 criteria investigated was negligible (r = 0. 06) and was 3 times less than its er-ror (0. 18). The conclusion is drawn that one reading of a pH value is insufficient for prefficting results in an autotransplant accretion. B. Kozhevinikov SUB CODE: IS ENCL: 00 card  i~ b-' or rn,,i IT N V -I LIJI k 1'. 7~0 n x,; k f '71 L USE H U KS I AgE-"olate.-i eharact,~H.!~tfr% nf thp of' the, llr~x-c cT cs.'I.ves i n n tf~ --;ncf F-, e r, ro tol.ism. 4E--. d r z ! c I c, g liiokhjmif sell sRokhozyHy ~ e y . E;tv T-11, YI) zhivotrvk)- Moskovskpy a~tieem,,-,J sel.',,,ko~hozyay-,-~tvenni,k,~I T,,,tiik  POLISHCHUK., S.M. Distribution of p32-labeled Staphylococcus aureus in Bepais com- bined with irradiation and hemorrhage. Med.rad. 9 no.9:81-84 S 164. (MIRA 18:4) 1. Kafedra fakulltetskoy khirurgii (zav. - prof. D.K.Grechishkin) Luganskogo meditsinskogo instituta.  .311AKOVA, A.I. [sylakova, 1J.1.]; POLTSHCHUE, S.N. [Pollsh.~huR, S.M.] Glutaminase activi1y in the cellular elements of the skeletal, Muscles under normal conditions and in E-avitaninosis. Ukr. biok.hJm. zhur- 36 no. 4;598--606 64.. (MTRA 18:12) 1. Institut biakhimii AN Illa-SSR, Kiyev. Submitted, March 31p 1964.    :-L-3396 ~6 Ac 211 ENCLOSME:' 01 g c  AM70034.46 Monograph Kovalei.-iko, Anatoliy Dmitriyevich; Grigorenko, Yaroslav MikIiaylovich; Illin, Leonid Alekseyevich; Polishchuk, Tatlyana Ivanovna UR/' Calculation of conical shells subjected to antisymmetric stresses (Raschet koni- cheskikh ob6lochek pri antisimmetrichnykh nagruzakh) Kiev, Naukova dumka, 66. 0494 p. tables. (At head of title: Akademlya nauk Ukrainskoy SSR. lns~itut mekhaniki) Errata slip inserted. 2, 600 copies printed. TOPIC TAGS- calculation, conic shell structure, conic shell, circular plate, nonlinear shell structure, turbine, elastic element, loading, antisymmetric loading PURPOSE AND COVERAGE: The book presents a method of calculating anti- symmetrically stressed conical shells and other elastic systems consisting of rings, circu lar plates, and cyclindrical and conical shells, used as structur parts in construction of turbines and other machinery. Formulas and tables for; calculating the above elastic elements are given.- The tables are based on analytical solutions obtained using a BESM-2M digital computer. The book is intended for engineers, technicians, and specialized scientific workers in re- suarch, construction, and strength calculations of thin-walled machine elements, Card l / 3  ACC NRi AM7003446 The authors express their gratitude to N. A. Lobkova, scientific coworker of the Institute of Mechanics, AN SSSR, for helping in preparing the manuscript for publicati6n, and to engineer G. P. Golub for assisting in the compilation of tables. TABLE'OF CONTENT [abridged]: Foreword - - 3 Ch. Ch. Ch. Ch. Ch. Ch. 1 , 2. 3. 4. 5. 6. General comments -- 5 Antisymmetrical loading -- 8 Antisymmetrical displacements and deformations -- 12 Calculation method -- 17 Formulas for calculation of rings -- 29 Analysis of elastic systems consisting of rings, plates, and shells of revolution -- 33 Comments on formulas and tables of particular solution -- 44 Conic shell of constant thickness -- 46 Circular plates of constant 'thickness -- 53 Cylindric shell of constant wall thickness --* 55 Ch. 7. Ch. 8. Ch. 9. Ch. 10~ ,d 2/3  ACC NRt P~.M7003446 Ch. 11, Conic, shell of variable linear thickness -- 58 Ch. 12, Circular plates of variable linear thickness -- 62 Ch. 13,, Examples of calculations -- 64' Tables of particular solutions for calculating shells of constmt thickness 75 Tables of particular solutions for calculating plates of linear variable thick.ness -- 117 Tables of particular. solutions for calculating shells of linear variable thicluiess 129 SUB,CODE: 21/ SUBMDATE: 19Aug66 3/3  L 40')-)4--66 41(d)/E,14 F X- ACC MT-Ap6o,30053 SOURCE CODE: UR/03.14/66/000/004/0002/0003 ~ d11- AUTHOR:. Polishchuk,_,V. L. (Engineer); Orlov, M. D. (Engineer)- Chernin Ye. m. (Enginoer =, ne Yu. V. (Engine'er;' ~~~rov- B,eznichenko, V. Ya. (Engi er); Kotov y6d -1 1 - C - (Enginaer); Yamalutdinov, I. T-. (Engineer); Ollkhovskiy, G. G. (Candidate of technica scienc(is) ORG: none TITLE; Results of testing first model and series examples of gas turbines GTN-9-750 of Leningrad Metallurgical Plant im. XXII CPSU Congres SOURCE: Energomashinostroyeniye, no. 4, 1966, 2-8 TOPIC 7AGS: gas turbine, pipeline, centrifugal pump, electric power production, turbine design, turbine compressor/GTN-9-750 gas turbine, NG-280-9 centrifugal pump ABSTRACr: A description of the testing the 9000 kw GTN-9-7.50 gas turbine" .disigned to drive the NQ-280-9 c-en pipeline pump, used on the Bul-hara-Ural gas pipeline. The tests showed that the actual pmer produced ;'in~ operatine, conditions is 8,750 kw, efficiency 25%. The maxismal power produced without additional equipment and regenerators to 9600-10,000 kW. The cha--mcteristics of the main elements of the turbine vere found to be near tha design characteristicss the adiabatic efflcie:nc:~ of the compressor is:09%, the low and high pressure turbine sections operate at 65% and 89-9C%, .1 efficiency. Long-term testing with repeated stops and-starts showed that th- a r unit as.modified from the prorotype.-i satable.fo opkntUon In'thle gag,pipeane system. Orig. art. has: 5 figures, 7 formulas and 3 tables. [J-DRS: 36,5011 " SU# CODE: 13, 10 / SUBM DATE: none / ORIG REF: 002 Cid 1/-t~ UDC: 6zi.438.001-41-  CX )/E L'26 6 66- EWT(d)/E;WT'(m WP f /t4-1(h)/ETC /Z10 (0 WW/JT A 11 :6013385 SOURCE CODE:. UR/00 96/66 5/0002/0007 1006100 AUM CH cli C (Engineer) p hermshavi P,,S.., Polish _(Engineer) 4~ -.0m V inistr~y lte~i~t Pqomr and- ansp6rt Micliiisj Lng,~W-4m* MI Congress ~nisterstvo',tyazhelo ene ticheskogo i transportnogo mashinootroyeni X i I io' P~ ~!(Vd go r g9 -IT r& of 6 turbine 3,M a us imr ga pp pnp di 6t P blip tl~', mi, op thci- n6,: 5 -~960 2~-Fr .160nerge "'gas"". iuiibin6o t:urbin resi'3orp: turbine. co'6lin'g#Ahermoe1eetri* r- a ..eq!p 0 powle Itel-' "'tilrbifie''J... blade 4' be g d -turb no~..units,. with RAGI, ~ffo`rf is . in ma e to,. d !velop gas T The .,n -to-improve t MY :0 . es.,steam-gas cycles :ber~mi:p6~er. oianC.econo together, with se 1veralboiler. r'and Turbine Institute i. .nd I tu-rbine--plants,--are engaged in7a-e-ve-16-pIng st-eam-gas.units with high iressure steam generators. Two of these units)with capacities of 40 1'i d 14 Mw, have already been-built and are being tested. Preliminary n ~.~~ork is under way to build a similar 200,000 kw steam-gas unit. Construction has been completed and operational tests are presently ''buing c6hducted on several conventional gas turbine units: these include .W t, uilt. lant (1W); !k ~5 -unL -:bL a 5P Mw uniti.~by Cad ~A WC.3 621-438,  -26591,~---66~-,-~~----,-,------- ,-..ACC NRil Ap6ol.3385 h' Plant ("TP); 2 Mw unit, by the"'Nev'sk Plant (NPj; e jg=k6y T urbine 'a t and alsc-a 4 and a 1 5 Mw unit built by the,Kalu&A Turbine Plant and the Leningrch plafit "Economizer". Despite the development of these gas rbine,units, it is noted that the Soviet gas turbine building industry has-not yet accumulated sufficient experience to produce highly efficient 'land operationally reliable power gas turbines demanded by the power .iengineering industry. Soviet industry is furthest advanced in gas ~turbine-technology in the field of compressor drives for gas pipelines.. -:'ets The Sov.!. are presently mass producing 4-10,000 kw turbocompressors ,for pumping natural gas. Considerable operational experience has been accumullLtedwith 4--5,000 kw units especially at the Nevsk machine building plant. The operationalreliability'of gas turbine drives is presentLy 96%. The intensive research and development-work now being ~conductBd is expected to yield new improved.prototypes of high-power gas, o. ~turbines and their~subsequent mass production. :The,Lenin rad Metal Plant, the largest Soviet supplier of steam -9 :'turbines; is:-Aoifig most of the current research ifork. At the.eild of 1960,.', 25 000 W"gas"turbinelpr6tat pe. The principal ant le ted-. a C -Y 1 -46 ih ffe6tive-cciollfig~.of the','rotor '~~4esign.` f ea 0 rb ne 3: e-e n,': ttir kin' pass blei~'.to~'-Ulsje' i6tors- nia -bf orlit - ch' g- e roiie- ma d~ volybdenum'~steet~iinl6f up '. to 700%j',*~'Duririg, the,- design ac- basic- model --of thia" t j-a.,great'. eAl of -land , 'mer tuf ture, of the urb4ne d A ffiLe . %.- _1 arri~d~out_'Join y-. y tW exper tiental reoearch wo ric was -El" b ITATI _e tute-,-, and -oth r mia g the trosC Xiev.- Fo t ch -Inati the Wlt. e 6. A n : r.  Wbt MAP 13385 impbrt' L.- research problems were:- The developm!ent and aerodynamic t6liting 6f the air compressor flow-throWth sections.: fti s MI IN t0t n& rtssOrh ~at MO-Ximum rpm, and Measuring:the dyn amic~stresses in the- aerodynamic and vibrational testing of the turbine. 41~. ~st_ ges; '1)- testing and refinement of the ecimbustion.chamber and its com- ..Ponents,:.~and-4)'.the testing of the.turbine cooling system.,At the time'the irst.-t *b* ur ine protot vere ro fad2ities ftrrunning "hot",. ....... ype ~.w complebed,.tExe. ng was. %,.bests, wid, therefore, alarge portion of the experimental testi f 'co-gducte'd,' under actual operating conditions. As a result of.' these experimetital operations, new types of flame tubes and burners.were devilopecl making.it possible..at a 700*C,Lyas-temDerature. to ensure. Ithat -tdeovariztion in the.te4erature field before the turbine id legs'-than- .'300Q'~an&ihat the mdx1mal flame tube temperature does not exceed 600*C..- Zfie(majoi~_difficulty encountered.during.testing was the temperature ,.6nktoribg-of the'rotor and blade roots., This problem was solved by &signing, a. special, multipoint switch which was mounted in the aKial boring of.the turbine rotor. The test results are being used to make necessary design modifications in the construction-of a series of :.similar t,.irbine units for the Yakutsk power station. "She MeOzgrad 14at-al Mant Ihas -recently :cvmp;lete8 the desdgn !and experimental testing and has started on the construction of a 100,000 kW gas turbiae unit. The high compiqession ratio and interstage cool,ing, will make.Lt possible to achievo an efficiency of 27--282.    POLISHGHUKP VI F.; TSIN., M. R. Blectrceagnetic pumping of nonmetallic malts. TSvet. met. 35 no.10:82-83 0 162. (MM 15:10) (Fused salts) (Pumping machinery, Electric)  POIJSHCHUK, V.P. Nodular cast iron as material for magnetic circuits in single- phase electromagnetic pumps. Nauch. trudy Inst. lit. proizv. AN URSR Ils-85-91 162. 09RA 15:9) (Cast iron-Magnetic properties) (Pumping machinery)  )/EWT(m)/E,~T(f)/Ei-v(n)'-2/T/ETC(M)-6 24587-66 EqT ACC NR: :AP6009559 SOURCEZODE.- UR/0413/66/000/005/0123/0123 AUTHORS.-~ Tain. M. Ro; Polishchuk, V, P, 13 ORG: none 'ENTITLE: Method for pumping nonconducting melts. Class 59, No. 179624 :,SOURCE !Izobreterdya, pronqshlenrWye obraztsy., tovarnyye zpaki,,' no. 5,, 1966, 123 TOPIG TIGS: electromagnetic pump, liquid flow ABSTRACT: This Author Certificate presents a method for pumpimg nonconducting i according to-Author Certificate No. 136176,. To increase the pressure h djo d the region of the Mdelectr J. the matE-I-melt ivision boundary is withdrawn from 0-1 magnetiv field influence. After the withdrawal of the metal-malt division boundM, from the region of electromagnetic field influence, imoreased. voltage -is fed to the pump winding6 -_'SUB CODE 13/ SUBM DAM 2lFeb62 Card iti. uDGi 621,689  S/118/62/000/012/002/002 D201/D303 AUTHORS,' Gellfandi P.I. and Polishchu1c, V.!?., Engineers TITLI-'-: An automatic electromagnetic-device for pouring metal in pressure casting machines F'. RIOD5.CAL: Nelenanizatsiya i avtomatizatsiya proizvodstva, no. 12, 3.962, 37-38 TENT: ~A short description of a pressure casting machine cz~ type 51.5, now undergoing development at the institut liteynogo proiz- C~ vodstva M USSR (Institute of Casting od 'ction of the .4~ UkrSSP,) U and at the TsKB Gosplana USSR. The machine consists of a single phase j.uduction pump (a transformer who~�e secondary winding is a short-circuited ring of the molten metal) and of a heated crLicible storirqr the amount of molten metal at a given temperature, required for continuous operation of the pump. A,spout connects the device to the pressure chamber of the machine. The advantage of this device is that the metal to be poured is taken from lower layers of the C ard .1/2  'e 1M')1g'TP(Q - L~3964&66---y ARIT JDAID-2 A=Ngt 7M6002 SOURCE CODE: UR/0286/65/000/024/OOC')3/C)0'0'~~ AUTHOR: Tsin, M. R. , Polishcbuk, V. P. ORG; none TITLE. Method of preventing the formation of a columnar structure in pagi inizith -walled tubular products. Class 31, no. 177049 SOURCE: Byulleten, izobreteniy i tovarnykh znakov, no. 24, 1965, 63) TOPIC TAGS: pipe, alloy, melting, electromagn.tlic field, rotation, grain structure, metal casting. ABSTRACT; The method of preventing the formation of columnar struc- tures in casting thick-walled tubular products from alloy melts is characterized by the fact that pulses of short duration from an electromagnetic field are intermittently applied to the melt at a constant rate of mold rotation in order to change the fusion rate. SUB CODE: 11,13/ SUBM DATE; O3Mar62  1150-66 tW(dY2WT(1)AWT6n)AWp(W)/ #."d AN5000372 P-OURCE COMS MV0296/65/000/021/0097/0089 AMORS i Pollsbchuk,'i.'~'&; Ch I irg# M. it. ORG: norm TITLE: 191ectromagnetic induction jmp. Class 59, No* 176184 SOURCE: Brulletent izobreteniy i tovarrqkh zna)wv, no, 211, 196!jl, 87-88 TOPIC TLGSt., electromagnetic p=p,, liquid metal p=p ABSTRAar: This Author Certificate presents an electromagnetic inducti on pump- with a rectilinear duct for liquid metals. To inciiji-iFe -JHe'- current density in VhW metal and toincrease the efficiency of the pump by increasing the cross section of the duct, the pump has two independent electromagnet systems, one for inducing current in the moving metal and the other for creating a magnetic field interacting with the induce] current (see Fig* 1). The pump duct has two semicirciflar channels connected to the duct so that the metal filling the channels ro two closed loops with the metal in the duct. The electromagnet system for inducing current is in the form of two closed magnetic circuits# whose primary windings are connected to a single- phase-current supply and whose secondaries are the closed loops of metal mentioned above, The electromagnet system for creating a magnetic field is in the form of two open magnetic circuits with supply windings at the pole ends which touch the duct on tvo aides. The mode of operation of the p=p can then be controlled by Card :,/2 . DMCt 621.689:538.31,.669-154  -L --1-1~590-66 ACC NRt Ap6OW372 Fig* It I Duct; 2 - semicircular Channels; 3 - closed magnetic circuits; /+ - windings of closed magnetic circuits; 5 - open magnetic circuits; 6 - winding of open magnetic circuits. .varying.the supply voltages or the phase shift angle between them. To prevent solidification of the metal when there are Interruptions in operation.. a device for revirsing the current phase is connected in the primary vinding circuit of one of the closed magnetic cimuits, The pump will then operate as an induction furnace. Orig. art. has: 1 diagram* SUB Come 13/ SUBM DATEt 21jan63 Card 2/2  POLISHCHIM S. In response to the appeal of ilovoanninskiy people. Muk.-elev. prom. 29 no.12:6-7 D 163. (MIRA 170) 1. Direktor Kishinevskogo kombinuta khleboproduktov No.2.  PCILISHCHUKO S.A. (Donetskq pr. Gurova, d. 17v k7.15) El--, Sxperience with the use of the 3ietkievicz method of plastic surgery of the dciv), Vast. khir. 91 no.7.,52-56 J1163 WRA 16:12) 1. Iz 2-y kliniki obshchey khirurgii (zav. - zaslushermyy vrach MrSSRI dotsent Ya.D.Daitrak )Donetskogo meditsinskoge instituta imeni A.M.Gortkogo na baz*.2-y gorodskov bollnitsy g. Donetska (gla-0-nyy vrach - A.I.Solomslma)  9h ~~5. _WWAPPWA Rr-4.1 DtT LAB j''AMSi iON: Nit: AP4049!k4p S/0318/64/000/007/0006/0008 WNW'': udakov a,A.,Ya.;,PoIIshchuk, S. A.', Gomolina, L. N.; Orazova, M. R.; Seredal Zic-Nai, L Conditio' s of'-productl n.of stable-transformer oil from Anastaslyevsk TIT E:; 0 n petroleum ...Neftepererabotka-1 neftekhimiya- no. 7, 1964, 6-8 T 0 CJAGS: '.transformer oil, petroleum refining,-Anastaslyevsk petroleum, Pi aromati h d ~c y rocarbon content, tar content, -transformer oil stability ABSTRA.M..'The transformer distillate of Anastas!yevsk-petroleum processed by the -L1vov_.PetrvI6um -Ref I nerA is characterized by a%high content of heavy aromatic hy- drocar.bons and'tars. The authors studied the dependence of the stability of the transtrormer oil onAts content-of aromatic-compound5. Comparative data tabulated I n. th~i.art I cl eshow that the.most stable transformer oil contains the lowest amount ofjar-~ and,heavy,hydrocarbons, andthe lowest amount of aromatic hydrocarbons hav- Ing- r(ifractive Indices -higher than 1.53. The authors conclude that the inadequate stabli4ty-of the oils produced by the LIvov -Ref.friery Is due to their insufficient- ref I n l.ng. In order.,.to determine the Influence of fractional-composition on the formation of water-soluble acids at the beginning of:aglng of the oil, the distil- .-Clard 1)12     RIJDAKOVA, N.Ya.; SEREDA, Ya.I.,; LOBOV, V.A.; POLISHCIIUK, S.A,; GONOPOLISKIY, L.Ye. Acid-alkali removal of acid sludge and alkali waste from transformer distillate using electric separation. Neft. i gaz. prom. no.lt49-52 Ja-Mr 164. (MIRA 18i2)  RUDAKOVA, N.Ya.; PpLlq~ICHYK,, S.A-.; GOMOLINA, L.N.; ORAZOVA, M.R.; SEREDA, Z. ya. Conditions for obtaining stable transformer oil from Anastasiyevka oil. Nefteper. i neftekhim. no.7:6-8 1614. (MIRA 17:11) 1. UkrNIlgiproneft', Llvovskiy filial.  GOLYSlIZV A. J. f J. - I- -)-wined st-ruc-=es -i'nr th.- c~~-ttlingrr of auprorts. SL..c tr z~ s-.,roi. fa~,. Chel. pAitcld, in n. o. '11. 41. i. Urallsl*dy filial A~iade-di  IIKOVLEVJ, V.S.1 inzh.; FOLISHCHUK, V.P., inzh. Electromagnetic pumps for transporting liquid metals. F-nerg. i elektrotekh. prom. no.3:44-46 Jl-S 164. OCRA 17 - 111)  DTJWVIK, T.V.; POLISHCHl.", '.'. '. ~' ' 'r : " ~f Preparation of magnesium nitride. Zhur. prikl. k-him. 37 no.8: 1828-1830 Ag 164. (14IRA 17:11)  POLISHCHUK, S.A. Ixtrasaccul&r hernia with the presence of an ovary In the hernial contents. ZhIrargiia, no.12:68 D' 55. . (MLU 9;7) 1. Ts khtrurgichookogo otdolentya (zaveduyushchly 1,,P,.Vortev) Shakhterskoy gorodskoy bollhitey No.l. Stalinskey oblast. (HMIL)  the if b nX,0~1""d tbu-13. : --~J6~aw-;ith ha'vlti -- ---- --- - a Wd - neas r Man .6 Ims 43 tyrophyl)[te, i-TrwUlte, bii-j ' h ,' me - aWti-ordla pad Of WIMM Wi W'wHfi On z-, '.4fteswe squrry, row the 0awl matiiw iA. 'f 14 Tw . do ,  SOV/81-59-7-24839 Translation from: Referativnyy zhurnal. Khimiya, 1959, Nr-7, P 467 (USSR) AUTHORS: Strom, D.A., Polishchuk S A TITLE: Deasphaltation of Ozoeerite in Emulsion PERIODICAL: Nauchn. zap. L'vovsk. politekhn. in-ta, 1958, Nr 50, PP 139-!42 ABSTRACT: A method was developed for the partial deresinatlon. (prior to sulfuric acid treatment) of ozocerite (0) to be purified by de- asphaltation in emulsion (E). To obtain aqueous ozoeerite E, a 2% aqueous solution of naphthenic soaps (alkal.-fwaste products of medium and heavy petroleum fractions) was taken, which supple- ment the action of solid emulsifiers contained in 0 and facilitate the process of formation of E and its separation,, E was separated by settling or centrifuging; ceresin and oils contained in the precipitate can be regenerated by heating 'the latter with wator. It was shown that deasphaltation in emulsion imparts to the various 0 an approximately equal residual resinousness, which simplifies tile Card 1/2 operation of the installation in case of processing heteregeneous  fOLISHCHUK. S.M. (VoroBhilcTgrad, Malaya Vergunka, ul. RikdlusA, 18-ri) Penetration of fish bones from the Intestines into the nnterior abdominal wall. Test. khir.80 no.2:114-115 7 VC8. 5 (MIRA 11:3) 1. Is Voroshilovgradskogo oblostnogo onkologiches-kogo diep"Usern. (ARMINAL WALL, for. bodies fish bone, penetration from large intestine (Rue) (IWMT]13. URGE. for, bo4ion fish bone. penetration tIo abdom wall (Rug)  POLISHCHUK. S.A., asp itant Development of fruit culture and viticulture, 1xised on the experiemee of collective farms of Oloneshty District in Moldavia. Izv- TSKU no.5:211-222 159 (HIRA 13:3) (Oloneshty listrict-Fruit culture)    -S./6-'53/61/000/000/045/051 1042/1242 ATY211OR: Pol~shahtck, -S.,gW TJTLR~; Now equipment for the manufacture,.of glass plastics SOURC13: P1aGtmmssy.v mashinnstroyenii i~pribotostroyenii, rusp. nau pcrvaya ch.-4ekh. konfer. po vopr..prim. plAstmasF. v mas4. 1959. Xiev* Gostckhizdit, 510-514 of the Gosstroy UkrSSR is,; TEXT.: -The special construction office ming now equipment -for. the manufactured of*the high-strength .-Stobk, glass plastic GBAN (SVAII) and the pr6ssing' Ar, -4 (AG-4). STAI is a glass vancer.formed of individual fibers held together by a mix-w -The apoiratus for the -production of the ture of- artificial take-up rolls in glass ven6or consi s of a. meltinc, furnace ~ and tw sequonce. An a'ppara~tus for the manufacture of.*j;~atjs -veneer, with Gard 1/2  S/653/61/000/000/045/051 1024/1242 Now equipment for t',e i4aaufacture of... oinatic loa6ing of 'he fibers on t Ij aut t# he winding roll is being Cevelo- pod. The Eetup cont&in~; two rows of furnaces above the parallel tw~:O- UP rolls. Special equifient for the nroduction ol" rolled stock from glass veneer Cheats and a semiautomatic device for inal-,ing pipes are -Lt for the product ion of A r -4 under development. A-he, equipmei 0 (AG-4S) pressinG stock'includes an .izapregnatinry and a drying unit. lleatinr, LI .;.is accomplished by a high-frequency electric field. The equipment for producing the Ar -413,(AG-4V) pres3ing stock consists of several w:-e cut into 50 mm.long seat 8 units. Fiber cluster- ion which are then fluffed up and mi:-.ed with a binder. The impregnated material is loosened by a needle druta,-deposited in layers, dried, and briq- uetted., There are 4 figures. 1H Card 2*/2  ALISHITS, K.Z.. Insh.;POLISHMM, S.P. Draglines with equiment for cleaning trenches. Stroi. trubomov. 5 nrj.8:29-11 Ag 160. (MIRA 13:9) (ixcavating machinery-Faqul-oment and supnlles)  S/032/61/027/007/007/012 .2.4 10 Bi'O/B203 AUTHORS: Drozdovskiy, B. A,, Markochev, V~ M., Polishchuk, T. V., and Fridmanj Ya. B. TITLE: Method of determining the rati? of brittLe destrwtion of n,)n.- condo t, to rs PERIODICAL: Zav-dekaya laboratoriya. v,. 27, no- 7, 1961, 888-89`4 TEXT: In samplqs with prevously applied noto;h, Ye, A. Vuz'fa-,r1 and V., P. Pukh (Ref. 5-- Sb. "Nekotoryp) prcM-exry prochnosti, ',verd~)go tela"~ Izd. AN SSSR, str, 367 (1,059)) fc-und a dec-rease in the rate of deatruction with decreasing mean stress-iis (at an .1nduatrial glass 511-r-angth of < 0.1), Tht, presenii paper describes a method of estimating the rate of destru:.-tior,, and gives test result's of conrertrza~E!cl b,--ndirg LF vrganic: glass sampl~-s w,.th differently sharp notches and large bottom, radtijs ~!' -h~, la'rtex. Thus,. a large reserve In alaat!3 energy waa ibtainerl 0,8 mm widj, and 2-3 p think siljer aprayed on in vacuc, with 1-h9 aid of a template. "ere used for meaBUT",rig the rate. Cl,)rr-,nt was appl;---d ty way of two textolite conta!-.ts with spring Tests were Tad" with 50 mm d1stan:-.e Card 1/6  256.36 S,/032/6' /0-2-1/0-07.1/007 ..!C,' 2 Method of determining the rate of 3!,0/B203 between points of support or, an V~l -AA (IM-4A) machine wi th 0.48 mm/t yieldin& The firqt Ag strip,, aituated direotly belo-w the ncitc-h, Is shunted with thf~i resistor R, (Fig. 2 1 , R ~* and R ~rn-atitute th-:~ voit-age divider --~onn--,;ted with a '180-v battery, Bt~fore treaking, the voltag--,- ,n A .s 7ero- th,~,! R7 is switched on, and tht.. val.tage ri-ses stiddenly t-.-, `50 v (Rc~ R). It blorks the oscillator tube with sho-A exritation, and eycites the ~~.nerator.. Hence the voltage passes ovei 'lie ~,hir delay llnt~sJ13 CLZ) t( the first plate pair of the. double-f-race ~athodle OK 1 7M (OK' "ti) .Bl-ocking --.~f the tube produces., on 1-rs anod;~, a p.-:91tive pulse which paBses over the delay line to the Wi,~h alternatIng :~i)rr~nt 01 M---) from. th-E- shock excitation generat-or PYB GUV) the osaillcacope, -%k!-,ows a ainusold. When the second Ag strip breaks~l R-, Is switchad on, which,like every further strip Tupture, reduces th?~ air-osolla amp.1:tude. When the las". strip breaks. no sin);aWR1 voltage arrives a'. the oscilloscope. The -ohotographs were shot by a 10JOK VL'4' C(ZorkA-.y S) apparatus with 0"-,eP 3(yuPiter 3) object !&ns (light intensity 1 : 1-5) w1th diaphragm 1 : 2~6 and plates with 2cO or 350 PDCT(GOST) units.. The course of cracking was determined ac~corrding to Fig. 3. Its mean recording velocity between two strIps was the distan~:e -) divided by the time between the fracture of 1~wo adjacent strips obtained by Card 2/ 6  25636 3/03 61/027/007/007/012 Method of determining the rate of ... 13110YI3203 counting the sinusoid peaks of the individual oscillogram steps. The authors examined polymethyl methacrylate samples of the types IfGII (IISII), IIXII ("Kh") (dimensions: 10-40-70 mm) and "fril ("T"). The 4-5 samples of each type hardened at first at 110-1500C were split b varying load on a resonance vibrator (1500 cps), and hardened at 70-105 C for 30-60 min. On 10-101,-58 mm 'IS" samples with 2 mm deep notches, the authors studied the effect of notch sharpness and size of samples on the rate of destruction. The destruction stress and the maximum destruction rate decrease with increasing notch sharpness. Themaximum destruction rate becomes more constant. Also the velocities obtained by graphical differentiation of the distance-versus-time curves become more uniform. For split samples, they are almost constant, for unsplit samples, they drop from 700 to 300 m/sec. Samples without a notch show the greatest roughness of fracture, those with a. notch of 2 mm radius show lower roughness, those with a notch of 1 mm radius, the lowest one. The zone adjacent to the fatigue split has nearly fibrous structure with numerous crack traces propagating in parallel to each other from many centers. The principal zone is completely smooth. Since the velocity of this fracture is much lower than -the final velocity, the mi:psurement should be made with a film (32 frames per second). The Card 3 6  25636 3/032/61/027/007/007/012 Method of determining the rate of ... B110/B203 following process is observedi (1) sudden destruction; (II) increasing velocity (incubation period: 3-4.5 mm in 0.36-2 see); (III) linear increase (30-50 inm/sec). The fibrous-Btructure fracture changes to smooth fracture. After 10,000-fold, sudden inorease, v... - 250-270 m/sec is attained with subsequent decrease. Thus, the maximum destruction rate, vmax, depends on the notch sharpness determining the destruction stress. A stress increase from 2.14 to 11.3 kg1mm2 raises v max from 245 to 684 m/sec. The propaga- .tion rate of longitudinal elastic vibrations in polymethy-1 methacrylate is 1640 m/sec. vM., for samples without a notch is 0-416 of this value, in tension tests, it is 0-55, for samples with a notch, 0.132. Thus, a destruction rate of 0-55 of +he sonic velocity was obtained whereas former measurements established 0.33 for silicate glass. In elongation, the whole deformable length contributes to acceleration, in bending, the volume adjacent to the notch. An increase of the reserve in elastic energy showed little effect on the rate of destruction. An increase in dimensions under equal conditions (also of the notch) showed a high effect. An increase in the moment of resistance (bh2/6) from 187 to 3,000 mm3 effected Card 4,16  25636 S103 61./027,/007/007/012 Method of determining the rate of ... 311 OYB203 .an increase of v from 231 to 513 m/sec. The authors thank Yu. A. max Bulanov-for assisting in the development of apparatus. There are 12 figure.% I'table and 8 references: 3 Soviet-bloc and 5 non-S'oviet-bloc. The most important reference to English-language publications reads as follows: Ref- 4: H. Schardin. Fracture, Proc. of an Intern. conference on the. Atomic Mechanisms of P'ractu're, Swampscott, Apr., John Wiiey and Sonsf _ -297 1:1959). P Fig. 2. Circuit diagram of the 0) apparatus for determining the I Ma. j ajwr Of f7/#. rate of destruction of non- bpi P conductors. Legend: (1 ) to the- OK-1 7M, (2) to' the inDut of the OK-17M.-, 1806 Card 5/6  POLISHCHM, V.,,red.; LUMP. M., tekhred. [We etudy the applied economics; from practice of propaganda work of Transcarpathian party organisations] Virvchaismo konkratnu ekonomiku; z doevidn propahandystalkal roboty partiinykh organizataii Zakarpats'koi oblasti. Uzhhorod, Zukarpatalke obl.vyd-vo. 1956. 83 P. (MIRA 13:1) (Transearpathia--Economics--Study and teaching)  PCLISIIGHUKY V. Using explosivas.Ln construction. Rauk-a J- z-lAtia no,11*35 N 61. Orll'M .14-12) 1. Hauelmo-issledovatellskiy institut organizatsii i mekhani-.txtsii stroitellnogo proizvodstva Akademii stroitellstva i arkhitektury USSR, (Foundations)  LI.';, S.F., slesarl; SAFRONOV,, N.I.; YAKOVCHUK, V.V.; POLISNCHUK,-V.A,, brigadir; VYSOTIN, Tyle. - Innovations. Transp. stroi. 15 no.3s5l Mr 165. (MIRA 18:11) 1. Instruktor govosibirskoy normativno-inaledovatellskoy stantaii (for Safronov). 2. Treat Movoroselynknorstroy (for Yakovchuk, Polishebuk). 3. Solginakiy domostroitellnyy kombinat tresta T-anostroyproakonstruktsiya (for Vysotin).  POLISHCHUR, V.A., RAVMSKIY, L.M. induestri&l buildings on piles with an er"'arged bese. st:--it 42 no.806-39 165. (".11fiA 1-849)  FOLMMUKI V.A. Fxperiment in the insLalla-.J-~,n of castin-place r-,~ncrete in soft, water saturated goils. Prom.stroi. 41 nc,.9;6- S 16 63- ~I'mv'  GSAIICHIY, A.T..; POLISHCHUK, V.A. The use of short concrete piles with a pedestal fcTmed by blasting. Prom. stroi. 40 no.9:38-.40 162. (WRA 15:11) (Piling (Civil engineering)) (Foundations)  GIJPALO, P.I.Dupole, -P.-T.1; InLI!Llt Z I QgU,,V-D.; SHLOSS, Ye.S.[Sh:LOBS, S. Prolonged'heating of tubers at high temperature as a factor of the degenerktion of pc.'AtoeB. Ukr. bot. zhur. 20 rio.2t28-34 163. (MIlLk 16:6) 1. Zhitomirskiy sellskokhozyaystvennyy institut. Plants, Effect of temperature on) ~Potatoes-Diseases and pests)  DOBROXHOTOV, M.N.; Yu.S. Stratigrap~q of the Kursk metamurphic series. Mat. po geol. I pol. iskop. tsentr. raivn. evrop. chasti SSSR no.2:17-27 '59. (MIRA 13:9) 1. Belgorodskaya zhelezorudnaya ekspeditsiya. (Kursk Magnetic Anomaly--Geology, Stratigraphy)  FOLISHT,BX,--Y.F._ Controlling the izicidence of p7oderma among KoeyWi miners. Vest. darz.i ven. 34 no.lOt74-76 260. (KMA 13tll) 1. U-mediko-manitarnoy chasti No&3 (nach. A.S. Dikharin) tresta *Kopeyakugoll.11 (SM-DISRMS) (KOn 3K-4MWlS-DISFMF-S AVD HIGIM)  SEHENOV, M.S. (Llvov); POLISHCHUK, V.I._jLj7pV)__ Automatic brakes for the track motor car. Put' i put.khoz. 6 no.3:41-42 Mr 162. (PURA 15.3) (Railroads-Brakes)  ~.ACC NR. AP6029999 , _:UR_1_CF4H1_C6_10_d_0_1__ - - - - - - - - - - (A-) SOURCE CODE 015/0200/026 INVENTOR: Polishchuk, V. I.; Solovey, Ye.- 1. ORG: none TITLE: Device for connecting an electric igniter to a capsule detonator and for clamping the electric detonator along the muzzle case. Class 78, No. 184185 SOURCE: Izobret prom obraz tov zn, no. 15, 1966, 200 TOPIC TAGS: electric ign;ter, capsule detonator, ignition, electric detonator ABSTRACT: An Author Certificate was issued for a device which permits the connection of an electric igniter to a capsule-detonator and the clamping of the detonator along the muzzle case according to Author Certificate No. 153422. In order to automate the process, the rotating table with stationary tongs is equipped with a device for Fig. 1. Connecting and clamping device Card 1 - Rotating table; 2 - clamping tongs; 3 - feeder; 4 - directional rotary mechanism; 5 - transport rotary mechanism; 6 - loading rotary mechanism; 7 - electromagnet. UDC: 622.43  AC NR, AP6029999 fitting the capsule-detonator into the clamping tongs. The dellice is mounted on a separate stand and consists of a feeder with holders, and directional, transport-. ing,'and loadiAg rotary mechanisms with electromagnetic and elactronic'cutoffs as shown In Fig. 1. Orig. art. has: 1 figure. SUB,,CODE: 19/ SUBM DATE; 17May65/ -1 Card 2/2 I IN  Now data on methods for artificial infection of winter wheat with .saut. Dop.All UM no.6:606-607 '56. (MLM 10: 2) 1. Institut entomologil t& fitopatologil AN URM. Predutaviv aka,- dealk AN URSR P.A.Vl&syuk. (Wheat-Disoases &nd pests) (smuts)  POLISHCHUK, V. K., Cand Agr Sci -- (diss) winter wheat r9*JS4~e to diseases by 46a of intra4WO4:4:~- eg and inter-speo -fd';c crossings and conditions of Kiev, 1957. 20 pp (Min of Agriculture USSR, Odessa Agr irist), 100 copies. List of author's works pp 19-20 (10 titles) (n, 2-58, 114) -46-  Ccunllry USSR 14 CAT,",GORY CultIV9,tad PIBAtS- G-raina. A -1. J OU R. P.'-13-*cjl, , 'b, .'1, 195-- 6 ., 6p 140- 95915 AUTHOR Poliaho.-IlUkil V.K. INIST. -AS lk-pfs~klniem~S;- T I T LE Inareasing tho Resietwunoe of Wintor I-Thaa-V to Vnricma Diseases throug Itetal and Intravarlstal Crossing ORIG ~ PUB. : Visnik All UTSV, 1957, N0-2t 39-46 ARKRACT : 140 &bgtrECt GARD:  GRINBERG, M.I., laureat Stalinskoy premii, doktor tekhniche8kikh nauk, professor; LEVU, B.M., inzhener; FREML', L.D., inzhener; inzhener; BEIUZTUY., 3.F., inzhener. b-VK-150-1 steam turbine made by the Leningrad (Stalin) Metallurgi- cal Plant. Nnergomashinostroenie no.1:5-16 0 '55. (MLRA 9:5) (Steam turbines)  I- ~"'L , /,-I.// z~/I r "/w k-11 ~ MOZZHUKHIN, M.G., inzh.: POLISHCHUK, V.L., inzh. Double shaft Brown-Bover7 gas turbine vith a 10,000 kvt capacity. Inergomeshinostroenie 3 no.12:44-48 D '57. (MIRA 11:1) (Gas turbines)  POLISHCHUK, V.L.,inzh. Now VK-100-6 steam turbine. InergonashinoBtroenie 5 no.1:36 Ja '59. (JIMA 12:2) (Stsam turbines)   -71: ~1-77   KjL.P;hGiifjK) V.L., inzh. I f, GTN-9-750 gas turbine su~parcharg~-r. 10 no.7:47 Jl 164. (-,!liiA 17,.9)  L 29878-66 9O-__ - SOURCE CODE: UR/Oh_137Z ACC NR, AP 005385 (A) INVENTOR: Piskorskiy, G. A.; Polishchuk, V. W.; Solntsev, A. M. ORG: none TITLE: Vibratory vacuum type conveyor for air-tight flat parts. Class 49, No. 177751 $OURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 1, 1966, 131 TOPIC TAGS: conveyor, vacuum type conveyor, vibratory conveyor ABSTRACT: An Author Certificate has been issued for a vibratory vacuum-type conveyo for airtigbt parts. To ensure piece-by-piece delivery of I'lat airtight parts, the middle part or the vibratory chute is made vith holes, and under it there is a r,eceptable connected vith all the holes by hoses,-a dust collector and a pulsatory i4brating contuior vith a vacuum pump to provide the pulsatory action or the nuckers. (see Fig. 1). Orig. art. has: 1 figure6 (LD] um 621.867-26  L 29878-66 Acc m1h AP6005385 Fig. 1. Vibratory vacuum conveyor for flat air- tight parts I - vibratory chute; 2 - holes; 3 - receptacle; - hoses; 5 - dust collector; 6 - pulsatory vacuum pump. vibratory cantactor; 7 SUB OODE: 13/ SIMN DATE: O7Msr63  POLISHCAUNP V.P. VA- odyrAmic p=p feeder for molten metals. Lit. proizv. no.9:15-16 a 165. (MIRA 18slO)  BONDAR 0, P.C., red.; BUGAYMO, j?.I. [~uhaieuko, P.I.], red.; VAM, O.V., red.; KLINPOTM, N,V., red,; PAS~USHUKOO MoSs' red.; FOVU, VA., 9; 0 vidp. red.; -MLISHC=*-T*F., red.; RUSINj T,P., red.; YLMIKO, T-Top red.; LUMMIT. M.. tokbn. red* [Swist Tmuscarpathia; a ~audbooi] Be--tainalke Zakarpattia-, dovldnyk. Uzbhorod. 7akarps6talke obl wyd-vo,.1957. 239 P' (KIRA llt7Y !Transearpathla)  POLISHCHUK., V.P., inzh.; GOLYSIMV, A.B., kand. tekh .. nauk e--.. ... Calculation of precast monolithic structu7---a of the first Xd second categories of crack resistance continuous action of an extern-1 load. Sbor. trud. Inzh.-stroi. fak. Chel. politekh. inst. no-3:12-52 163. ("'a 1 a 1'1: 9) 1. Ural'skiy filial Akaderdi stroitellstva i arkhite's"tury SSSR.  CHEBOTAREV, R.S.j POLISHCHUK,, V.P. Recent discoveries of Gonclonsma pulchn- M31in,, 1857,, producer of gongyloneniasis. Zool.zhur. 40 no.7:976-982 J1 161. (MIRA 140) 1e Department of Parasitology,, Institute of Zoologyi Academy of Sciences of the Ukrainian S.S.R., Kiyev. (Ha*toda) (Beetles as eaiAers of disease)  GORSHKOV, A.A.; POLI.SHCHUK V.P.; TSIN, M.R. Use of single-phase electromagnetic pumps in foundries. Lil". proizv. no.8:9 Ag (162. OURA 15:11) Foundries--Equipment and supplies)  PO.Lis-H.GHUK-,---V-*P. Y inzh. Single-phase induction batcher-pump for pouring molten metal. Elektrichestvo,no.5:50-52 My 163. (MIRA 16:7) 1. Institute liteynodo proizvodstva AN Ukrf5SR, t'_ (Liquid fnetals) (Pumping machinery, Electric)  JOLISHCHUK,I.-P.; TSINp M.R. Now trends in the utikization of applied mpetobydrodynamice in industz7. Hashinohtroenie no.6tlO9-3.10 N-D 162. (MIRA 16:2) (Magnetohydrodynamir,a)  POLISHCHUKY V.P.; lttKOVLJi,V, V.S. Ductless submersible magnetodynamic pump for liquid metal. Lit. proizv. no.12:22 D 164. (MLH~ 18:3)  EV,(q)/W(m)/BDS--AFFTC/ASD--JD L ~ 11211-~63 J.'CCESSION NR: JV3001626 S10105163100010051005010052 :5 3 JUTHOR: Polishchuk, V. P.( (Engineer) .ITLE: Single-phase induction batching pump--for pouring liquid metal I:OURCE# Elektrichestvo, no. 5, 1963, 50-52 OPIC TAGS: molten-metal batching pump, pressure casting, nonferrous metal cast- J~BSTRACT: Full automation of nonferrous-metal pressure casting requires a ii!echanism for pouring the molten metal into the machine. In the induction batch- ing pump,.the principle of axial electrodynamic force set up in a short-cirzaited transformer secondary is used. A-toroidal crucible with molten metal placed ,round the central magnetic core of a shell-type transformer acts as a short- Urcuited secondary turn. When the primary is energized, the metal rises and cverflows into the casting machine; the metal is fed to the toroid from another, larger crucible. Various-shapes of toroid cross-section and primary-secondary Ustances were tested, the latter factor being important for higher-melting (up to 7500 metals. Electrodynamic forces were measured and compared with theoreti- cal values * Or' , art* has: 6 fi es and 1 formulao Inst. -of Ketftlasting Industry, FNrUkr135R Carl ............. ". ......  77 GELIFAND, F.I., inzh.; POLISHCHUK9 V.P., inzho Automatic electr'a:~magnotic unit for metal pouring on die~ilasting machines. Makh.i avtom.proizv. 16 naW:17-~38 D 162. (KIRA 16:1) (Die eaAng-Squipment and suppliIas)  /A 0 AUIriOR. Polishchuk, V. P. TIZLE: Induction dosing , pumps 3h977 r S/ 128/6 21C.C.0100-31'.0 21GO Ac)o4/A 127 PERIODICAL. Liteynoye proizvodstvo, no. 2, 1962, 15 - 16 Vr_~T: The author presents some introductory remarks on electromagnetic pugps which are used in pressure castinig, machines for automatic metal pouring, the molten metal serving as current-carrjing conductor. Ile refers to conduction purps in .-.,hich the current is led directly to the metal and induction pumps 1','here thc current is excited in the metal, and cominents, -in particular, on the latter orts on investigations which were carried out at. the instit t 1" Uype. He rep u noE.-,o proizvodstva AN UkrSSR (Institute of Foundry Practice AS UkrSSR) to study tho operation of single-phase induction pumps on various metals - lead, zinc, aluminum. Tests revealed that such pumps are fully suitable as dosing pumps of liquid metal, and data were obtained to carry out electromagnetic calculations of single-phase induction dosing pumps which make it possible to determine the opr'.imum design dimensions of such pumps for any metal used in foundry practice [xostracter~s note: Neither the calculatioii results nor any basic parameters Card 1/2.  POWSHCH - _!~~11 Induction batch measuring pump. Litproizv. no,,3:15-16 Mr 162. (KMA 15:3) (Foundries-Equipment and supplies)  - - ; " - .~:: , . ~ " - :: - , - - ~.~ , I ;~; - I , ~ -, -- - -1. :_ . . . . , - - , I - POLISHCHUK.9 V.P~ P inzh. Automatic pouring of liquid metal in die-casting machims-E. inostroenie noo3:51-55 M)-Je 162. (MULk l5t7) 1. Institut liteynogo proizvodBtva AN USSR. (Die casting)  S11 28/62/0C10/008/01) 1/00.3 A004/A127 AUTHORS; Gorshkov, A.A.,_!!j~ ~Tsin, M.R. TIME.: Use of single-phase electromagnetic pumps In foundry practice PtRIODICAL: Liteynoye proizvodstvo, no. 8, 1962, 9 TEXT: In foundry practice, two types of induction pumps show the greatest pros-:)ects - three-phase and single-phase pumps. Three-phase pumps are more ex- pedio-ntly employed in the continuous pumping of considerable meta '1 quantities over a lolag distance, while single-phase pumps are more suitable for the intermittent pumpIng of smaller amounts of metal at low pressure. The nntal filling a ring- -sha,:)ed crucible constitutes the second winding of a single-phase transformer urith the orimary winding under the crucible. When the primary winding issqitched on, currents are induced in the liquid metal that are interacting with-the magnetic field of the transformer, while forces are originating in the metal striving for moving it upwards relative to the coil. During long-time standstills the pump can operate op a reduced voltage which keeps the metal in a liquid state. Single-phase pumps are applicable-for proportioning and feeding the metal into pressure casting, Card 1/2