SCIENTIFIC ABSTRACT POPOV, V.E. - POPOV, V.G.

I Vest. mash., #3, P. 72-75, Mr 1956 AID P - 4322 Card 2/2 Pub. 128 - 22/26 of professional, industrial and scientific workers in thege new territories. Institution : None Submitted : No date  Puti POVTShEM4 a h,(-,izvod-i4Lel IlloE,- i Tr-II& "'hal ~LtLkh K_" Y eli-,ods of ti,.e Productivity of j-,Lbor in the iouzb-as .,'ines.? by) V- E- Pcr'Ov I M. Zvyagintsevr- Tllinslcvz~, U~~:lctlcl&.jz6at, 1~56. 610 P, (I [~, uclinc, -Pro izvo6 stve rin;, yz: L-4 r., ce r ~; t i, T, L Po Vopros~m Ekoncmikd)  POPOV, V. E. Main problems in the development of the West Siberian major econoric geography region. Izv. AN SSSR. Bar. geog. no.6:29-37 H-D 160. (MIU 13: 10) 1. ZkonomichesWa laboratoriya Kemerovskogo sovnarkhoza. (Siberia, Western--Xconomic policy)  POPOV, Vladimir Dmitriyevich; BONDAHMO, 0., red.; BRZPIYATOV, R., takhn.red. [Heat calculation of massecuite vacuum apparatuses; physical fundamentals and wthods] Teplovyi rozrakhanok utfel'nykh vakuum-aparativ; Itzychni oanovy I matodyka. Kylv. Dersh. vyd-vo tekhn.lit-ry, 1950. 326 p. WRA 12:8) (Sugar industry-Equipment and supplies) (Evaporating appliances)  POPOT"ViD..; TROTIO, T.P. Y7~72- .Structure and rhoological proportion of suMr rAanecuites. I%v.. -vyW.ucheb.zav.-, pishch.tekh. w.6.*67-73 158. OURA 12:5.) 1. Kiyevskly tekbnologlebeekly institut pishchevoy prosVshle=o- sti, Kafedra, spetsoboradovanlya. I. (sugar ranufacturs)  25(0) PHASE I BOOK EXPLOITATION SOV/2096 Popov, Vladimir Dmitriyevich Teplovyy rozrakhunok utfellnykh vakuum-aparativ; fizychni oanovy i metody~a. (Heat Calculation of Mmsecuite Vacuum Pans; Physical Fundamentals and Methods) Kiyev, Derzhtekhvydav, 1958. 326 p. 1,000 copies printed. Ed.: 0. Bondarenko; Tech. Ed.: R. Bez'yatov, PURPOSE: This book in intended for engineers and technicians in the sugar industry, designers of sugar plants and massecuite vacuum pans, and students of food-industry vtuzes. COVERAGE: The author describes results of numerous plant and labora- tory experiments dealing with heat-transfer and crystallization processes during the boiling of massecuite. On the basis of these results he develops a new method of heat calculations for vacuum pans. The experimental results are presentedin the form of em- Card 1/6  Heat Calculation Of Massecuite (Cont.) SOV/2096 pirical equations and nomograms. The basic process of massecuite boiling and the physical properties of the sirup and massecuite are presented. The book includes results of the author's work carried out during the D.eriod of 1947-1956. The author thanks scientific personnel of the KTIKhP and TsINTs Institutes, and personnel of Ukrogoluv sukr,-Kyyivalkyy drizhdzhovyy zavod (Kiyev Yeast Plant), Odes1kyy rafinadnyy zavod (Odessa Sugar Refinery), Lokhvyts 'kyy tsukrovyy zavod imeni Stalina (Lokhvitay Sugar Mill imeni Stalin), Gnivanslkyy tsukrovyy zavod (Gnivan, Sugar Mill), and the Yagotynslkyy tsukrovyy zavod (Yagotin Sugar Mill) for their assistance. There are 222 references: 184 Soviet, 11 German, 23 English, 2 Czech, and 2 Polish. TABLE OF CONTENTS: Introduction Ch. I. General Characteristics of the Massecuite Boiling Process 3 Vacuum pans In process and heating installations 9 Special features of the boiling process 11 Thermal characteristics of the boiling process 13 Nature of experimental data,used 20 Card 2/6  Heat Calculation of Massecuite (Cont.) SOV/2096 Graphical representation of the boiling process 29 Kinetics of the crystallization during boiling of mansecuite 37 Special aspects of the accumulation of nonsugars 47 Temperature drop'and the massecuite temperature used in cal- culating other parameters 54 Variation in heat flow 69 Heat transfer coefficients 73 Heat load of the vacuum pan 82 Feed-liquour additions go Conclusions 93 Ch. II. Physical Properties of Sirup and Massecuite Physical parameters used in heat calculations 96 Density of sugar solutions 100 Heat capacity 101 Coefficient of thermal conductivity 103 Temperature conductivity 1o6 Viscosity 1o6 Card 3/6  Heat Calculation of Massecuite (Cont.) SOV/2096 Frandtl number for sugar solutions 122 Surface tension 129 Solubility of sucrose 133 Solid phase content in massecuite 134 Heat-content diagram for sugar solutions and massecuite 134 Changes in the physical properties of massecuite during boil- ing process 150 Ch. III. Heat Release During the Condensation of Heating Steam in Massecuite Vacuum Pans Cases of calculating the heat of condensation 156 Heat transfer coefficients for condensation in vacuum pans with vertical heating surface 157 Heat transfer coefficients for condensation in vacuum pans with horizontal tubes 163 Comparison of results 165 Other cases of condensation 167 Ch. IV. Heat Tran5fer During the Boiling of Massecuite Heat-transfer characteristics of massecuite 168 Selecting initial criteria 172 Card 4/6  Heat Calculation of Massecuite (cont.) SOV/2096 Additional criteria and systems used for generalizing experi- ments 177 Function representing the physical parametersof sugar solutionl8O Function representing the physical parameters of masaeucite 187 Criteria for generalizing experimental results 202 Ch. V. Calculating Formulas and Diagrams Selecting formulas fDr Calculating formulas Calculating formulas Relationship between solutions Calculating formulas heat-transfer calculations 215 for high-grade massecuite 219 for the first-product massecuite 227 calculating formulas for massecuite and 234 for second-product massecuite 244 Ch. VI. Methods of Heat Calculations Statement of the problem 254 Method of solving bamic equation 259 Designing continuous vacuum pans 266 Card 5/6  POPOVY V.E.,, inzh. Kuznetsk Basin is the principal fuel base for ferrous metallurgy in Siberia and the Urals* Izv, vys, ucheba zav.; gor. zhur. no.8: 50-52 761. (IERA 15-.5) 1. Kemerovskiy gornyy institut. Rekomendovana kafedroy ekonomiki i organizatsii proizvodstva Kemerovskogo gornogo instituta. (Y.uznetsk Basin--Coke)  - POPOV, Vitaliy Zrastovich; SHAPIRO. Izmill Solomonovich; BARGIN, I.P., 0t-v-.-tqd-7[U6-c-db-6edj; PIROGOV, A.I., red.;Lzd-va; ASTAFIYEYA. G.A., tekhn.red. [Ferrous metallurgy in Siberia] Chernais metollurgiia Sibiri. Moskva, Izd-vo Akad.nauk SSSR. 1960. 117 p. (KIRA 13:11) (Siberia--Iron industry)  POPOV, V.]?., Imnd.okon.nauk Siboria is the third most Important link in metallurgical nupply cantor of the U.S.S.R. zav.; chnrn.met. 2 no.7:139-144 -T1 '59. 1. Kemerovskly gorM7 institut. (Siberia-Metallurgical plants) tho third 1ZV.7yB.uchob. (MlHh 13:2)  AID P - 4845 Subject USSR/Engineering Card 1/2 Pub. 103 - 5/26 Authors Metelkin, I. V.0 V. E. Popov, et. al. Title Machining of various materials with help of ultrasonic vibrations. Periodical : Stan. i instr., 2, 16-19, F 1956 Abstract : The authors present the principles and the use of ultrasoW,c oscillation in the processing of various materials. They describe the magnetostrictive emitter., which was built for drilling hard metals like titanium, hardened steels, synthetic precious stones, glass and similar materials. They illustrate the construction, operation, attehments and the abrasives and ingredients utilized in ultrasonic drilling and finishing of hard surfaces. They suggest this method to improve such hazardous and tedious work as engraving, polishing precious stones, etc. Five photos, 2 drawings, 3 graphs and 1 table.  ZVTAGINTSZVA, K.M.; ZWKOV, S.S.;KOZHEVIN, V.G.; PMVP V=E.-, SEMRZON. Z.K.~ Prinimli nchaetiyi: -MORIN, F.I...prof.--;TMfiABA, A.Y.,.detsent; LINMAU. R.I.; ZHMTLZT, A.K.; STOLBOT. N.V.; CENTY IN, K.I., otv.red.; KOROVUKOVI, Z.A., tekhn.red. [Kuznetsk Coal Basin; a statistical handbook] Kuznetakii ugollnyi bassein; ststiBticheskii sprevochnik. Moskva. Ugletakhizdat. 1959. 390 P. (KMA 12.8) 1. Kemerovo. Gornyy institut. 2. Sotradniki kafedry ekonomiki Kemerovskogo gornogo instituta (for Zvyagintseva.Popov, Kokorin, 11ulibaba). 3. Kombinat Kuzbassugoll (for Zenkov, Lindenau, Zhuravlev, Stolbov). 4. Kemerovskiy sovnarkhoz (for Kozhevin). Sibirakoye otdaleniye AN SSSR (for Senderzon). (Kuznetsk Basin--Coal mines and mining--StatiBtice)  _-O_~:;Ov' V. 6 . "Qr-atercary De.-otits of the Yatun River Valley 'In the Central Altay." Gand Geol-Min Sci, Tomsk State TJ itaer-I V. V. Kuy-byshev, Tomsk, 1954, (K., No 1, jar- "~) Survey of Scientific anO_ Technical Dissertations Defended at USSE Hi.her Educational Institutiont (12) SO: Sum. No. 556, 24 Jun 55  Pi\po,1jr)-,r.77. POPOV, V.I.; ILI ICfMV, A. I. ~x- z....... Remarks on the problem and especially economic 351-353 n-Ag '54. (Geograpby--Study of training graduate students in geography geography. Izv.Vses.geog.ob-va 86 no.4: (KM 7:9) and teaching)  POPOV,Y.B.; FBITELIKAII,N.G., redaktor; ANURSM G.G., tekhnicheakiy ~:" rediktor [Experience In reducing the cost of coal in Kuznetsk Basin mines) Opyt bor'by za entzhenle sebestolmosti uglia n& shakhtakh Kuzbass&. Moskva, Gos.nauchno-tekhn.izd-vo lit-ry po ugollnoi promysh., 1955. 6o p. (tWA 9:1) (Kuznetsk Bawin-Coal mines)  POPOV, V. F., Cand Tech Sci -- (diss) "Research into the automatic de- vices for lubricating on narrow-gauge steam locomotives." Tioscow7. .iniStry of 1:4 - c ~-'econdaz~-,i Szecial_i_=t :,Q!-c U- -- (1,1 1960. 165 pp; - and I I - a*lor RSFSR, Moscow Forestry Engineering Inst); 2CO cople8; price not M, 25-60, 134)  BAIAT&V, D.H.; BEZUKULDOV, V.P.; 1)NIIFVYANKO, Yll.().; 10FYs, A.F.; ISAKOV, I.S.; 14A,T'238, H.V.; IIOIS-"TSV, A.A.; NEGUOV, V.I.; NOVOZIIILOV, V.V.; P&MMO, G.Ye.; PIRSHIN, 7.1.; POP07, V.P.; R3'-IVOY, V.S. Seventy-f if th birthday of Ac(ulomician lUllan Alaksandrovich Shimanskii. Sudostroenie 24 no.12:66-67 D '58. (MIR-k 12:2) (Shimanskli, IUlian Aleksandrovich, 1883-)  KIIAVCIMKO, Aleksandr Yakovlevich; POPOV V.F.,jrof., doktor tekhn. nauk, retsenzent; S 0 TS, I.V., naucbn.red.; IIIKIT.UIA, R.D., red. [Mounting propeller shaft and main engine bearings) Mon- tazh opor grebnogo vala i glavnykh dvigatelei. Leningrad, "Sudostroanic," 1964. 106 p. (MIRA 17:4)  Popov. V. F. Organizing studentel work In th" seven-7ear agricultural schools. Politakh.obuch. nn,2194 7 159. . (KU 12:3) 1. Zaveduyunbehly, Toguchinskim ray eftabinatom Novosibirskoy obl. (Manual training3  POPOV, Vladimir Fedorovich; SAGARJU, A.-A., dotsent, retsen2bnt; AZAROV. A.S. dotsent, naue hnyy red.; APTMWN. M.A., red.; XONTOROVICH, A.I., tekhn.red. [Technological processes in marine engineering] Obahchaia takhnologiis widovogo man4inostroeniia. Leningrad, Gosoeo- iusnoe izd-vo sudostrolt.orosyshl.. 1959. 306 p. (MMA 13:3) (Karine engineering) 710  ,k e'3 lot SO 110 COY" se A.'30 e e o"- gs ee '?eP. ~O 101 ,;e S~N ~eo- tvdl kX, es O~tc . :'N. "C~6p aes ToNd-I -f loo e vo O'C.V "1 5 '? Ae~' ce q e'tl ;V19 -9- . C' e, -e9 si~c V4 .5 6. e '?~ 0 VIP AGO -vx '~;c 6.0 ,VcPe5 Aa~,L' ~gcd OC C~ geo 6Je ec e. ale, t e vo-to no 0t ~p e e a-CP -C~' "'l O'l ';C'!E' e%D 10 s j X 1'. 'Ge ~oe, ~ Xog -~Oo PS' ID- ~~ -' e0r'o ,,, o WIN r'ov Z 0j:1- "Cxo 19 ec-1  V. USSR/Diltivated Plants - Fruits. Derries. m-6 Abs Jour : Ref Zhur - Diol., No 20, 1958, 91817 Author : Popov, VX'___ Inst Title Pears in the Southern Dnestr River Region. (h-i C; Pub Sadovodstvo, Vino(,;~ddarstvo i Vinodeliye Moldavii, 1957, No 2, 25-28. Abstract In order to efficiently distribute pear trees in the Southern Dnestr River reoLon (Moldavian SSR) the mr- pholoLacal peculiarities (direction, deLwee of brancLinE. length, weigbt, density) of the roots and the above-the- Cxound part of the following pear varieties were.-studied: Dore Ardanpon, Kure, Kaiffer Seedling, Limonka and Tlyin- ka all of which &-row in a wild state and under different soil conditions. It was established that the strongest fibrous skeletal roots and the above-the-ground part of the pear tree are encountered in the botton land. clayey, Card 1/2  USSR/Cultivated Plants - Fruits. Derries. m-6 Abs Jour Ref Zhur - Diol., No 20, 1953, 91817 and non-bog heavy clayey soils with interla-yers of sandy loam. The ratio of the crown radius to the root radius fluctuates in the cross-section of varieties and soils from. 0.3 to 0.6. The ratio of the !on,,, skeletal part o--;' the cro-,m to the skeletal part of the roots fluctuates from 1.2 to 3.2 and the ratio of t1le tree hei,-fft to the depth of the roots in the soil from 2.8 to 3.9. -- P.K%. Kickin. Card 2/2  POPOV, V. F. Sci -- idix (diss) "Certain Problems of-tIme -ftd4twe-o4 Pear e Southern Dnester Region of Moldavia in Connection With the Reconstruction of Old Systemless Orchards." Kishinev, 1957. 16 pp 24 cm. (Min of Agriculture USSR, Kishinev Agricultural Inst Im M. V. Frunze), 100 copies (KL, 26-57, 110) - go -  V~ IQ It U U is Is 11 a a it 2 a SO a It It tA it A ---P- I to 00 a 244kywwwmatch $@OWN IW Up IAIWCCM" V ~ 00 1i;--1!JP V and 5. D. Attisittiow, 01 - 4 1 ' 6L t R 42 9W e .00 00 . , - . o uss. , (C.IA.A 7"'). S-A. mks a# niolybdic acid (r. C., xj PC- 000 OT treated *~,ordhij to Hum. 42,wi. use Go 13 pgoo $00 2 goo 00 00 '00 TIS MOKATIOP TWO C too A A I L OBIALL4~44. LI I 148040 A. M. oat chilli *0 a.. is, 0 - " 0 " 0 "a L I 1 04 IV SO 9 a 4 3 4 99 a 60 0 * 0 0 00 0000 0 to  i GORRAGHMV. T.F.; KOZHEYIN, Y.G.; XARPSNKO. Z.G.; MOLCHANOV. I.I.- POPOT V.A.; 0 SOKOIQY, V.D.; SENIKOV, A.A.. otvetstveanyy red.; ]RATRIK0,71~1.-. red.tzd-va; BSRWV. A.P.. tekbn.red.; HAD.ZINSXATA, A.A.. tekhm.red. [Kuznetsk Coal Besin] Kasnetskii ugollrqi bassein. Ugletek-hizdat, 1957. 199 P. (MIRA 11:2) (Kuznetsk Usin-Goal mines and mining)  Pot %'.JV) V. F. dgo tovka lnz'-en k z sh&.' 'r ka i !(I L':;koi d" ~,:- rt-.- " I r. -1 r, I - ~: I - ?Prep&rat~-cn of the pr~;-*,--,~.ct mnvinopr f o r ~ 1 of 11, -q Candidate's dissertation 28 p. _/. Moskva, Sud-,r-:rE-ILz, " )5" SO: ~*Innthlv U.9t, nf Russmm Acces~~ions, Vol. 6 No. 12 March 1954.  bi  POPOV. Vladimir Fedorovich, inzhener [Marine pipe fitting; a manual for brigades and sechanicB]- lzgotoylente I montazh sudoyvkh sistem I truboprovodov; posoble dlia brigadirov i maeterov. Moskva, Glav. red. lit-ry po sudo- dytorniiu, 1946. 203 P. (HIJRA 9:9) (Kerins pipe fitting)  ITLAP,71T FEDO-NNICH Proizvodstvo i montazh sudovykh turbokotelnykh ustanovok. Dop v kachestve uchebni-ka dlia korablestrait. vtuzov. Leninprad. Gas. izd-vo sudostroit. lit-ry, 1949. L83 P. illus. Production and installation of marine turboboiler plants. Ir."731.P6 SO: F-anufacturina and Vechanical Lngineering inthe Soviet Union. Litrrary of Conr,ress, 1953.  ACCE=CK NR: AP4040545 S/OOa/64/OW/006/o442/Q445 AUTHOR: Fcpdv,, V.,.F.0, Gonabaren1w,, G.'K. TITLE: Investigation of ultrasonic atom izers of liquids and melts SOURCE: Khimicheskaya prany*shlenn-ost-10 no* 6., 19&j 442-445 TOPIC TAGS: ultrasonic atomizer, particle size, particle distribution, drop size measurement, distribution curve, distance of flight, calculation, mathematical determination, ultrasonic amplitude, ultrasonic frequency ABSTRACT: This study is directed to the determin tion of particle size and part~- icle distribution in the spray of ultrasonic atomizers. For the determinatica, tb~3 area of the Jet spray was divided into concentric ringa and a series of adjacent cuvettes wan arranged across the diameter of the jet to collect thie liquid so that 2 cuvettes represent each annular area. The density of the jet Vp in each ring can be determined frcm the volume of liquid collect/-'d. The drop size 'was determined directly by microscopic me"uriment of n=ploa collected on slidc~ coated with paraffin and then vith a vaseline-transfo=r oil mixture in vhich the drops remained spherical, suspended and non-coaleaced. The mesa diezeter of the .Card  !Acassim NR.. Ap4oW545 'drops In each annuIar zone gave the finoneso of atomization in that zone. The particle size was determined frcm these values by the fonmila: +P fP djo where d is the mean oubic diameter of drops in the corresponding annular zone ancl JCP fp is ta3j-N area of the ring. The mesa volume-surface diameter of the drops waz determined. by the empirical formilit: 3 0,252 3Qp d,,* = (2) ISOF.IjIg Cos (I vhere Q is amount of liquid consunedp A is the empllit~de of the vibration. of the working surface of the nozzle,, f is the frequency of the vibration,, 71 = dynamic Viscoalty or tho atomir-C-a -1-4.quid.9 4- SUZIA04 t=nicn at Uqad-gu intartaaa.* Card 2/4  ACCESSICK NR: AP4040545 D = external A I am ter of the working section of the atomizer nozzle, $0* liquid densitys g a accelerated force of gravity and aL a anstl between surface of nozzle and the vertical. From'tbis relationship It is aeon the required amount Of atQMi- Zation can be obtained by changing the acoustical parameters A and f. Volume distribution curves can be drawn from the equation: d0j exp V where G a volume portion of drops with diameUr lose than di, y a In _a4l da-di distribution function, a a distribution parameters dm z maxim= dimension of drops in spray, a a coefficien 't characterizing uniformity of dispersion. The distance of flight of droplets of a determined diameter was apprwdUsated frm the equation: 0"~ A )OrRe Vgarctg Re I i0A Car"'3/4  ~Acassiaq NR: Ap4o4o545 .where 4r = den Ity of UA gaseous a-di a, Re A u a starting rate of flight of drops and v a k1nmatic viscosity of the gaseousleLa. Calculated and experiment. ally determined valuea were In good agreement an shown iu fig. 1. Orig. art. has: 4 figures and equatimse ASSOcI=M. None ~SLUaTTED: 00 EUCL: 00 !SUB CME: NP, OP 00 MW SOV: 005. OMM: 001 Card 4/4-  I:` J - ~ ' T' 'j' ,\' BARIT, G.Yu.; DOROSHINKO. P.A.; ZKLMO. T.T..; POPOV, V.P., professor, doktor takhnichookikh nauk; R IN, A.G.; ~ ~ A.N., inzhener, retabnzent-, KATDAL07, L.A., inzhonor, retsenzent; GLAZOT, G.A., Inzbe- nor, retsenzent. (Technology of machine constraction on strips] Tokhnslogila wadovogo mashinostroonlia. Moskva, Gas. nauchno-takhn. lzd-ve sashinostrait. i sudostroit. lit-ry. Pt. 1. 1954. 455 P.. Pt.2. 1954. 303 p. (Mai-ins oncines) (Steam boilers, Marine) (MM 7-7)  ZV=V, A.G.; POPOV V F - FADEYEV, I.I.; BABUSHKIN, V.I.; BERLOVICH, I.L.; BOCHKO, BIMLACHENKO, S.Ye.; GARBUZOV, Y.F.; DMITRICHEV, P.Ya.; DUNDUKOV, G.F.; ZLOBIN, I.D.; KOROYMHKIN, A.K.; KORSHUOV, A.I.; KUZIN, M.G.; KUT-LJZOV, G.A.,, LYSKOVICH, A.A.; MASHTAKOV, A.H~- MIKOYNV, V.Ye.; NIKELIMMG, P.M.; POSKONOV, A.A.; ROMANOV, G.V.; SOSIN, I.F.; SOSNOVSKIY, V.V.; POVOLOTSKIY, M.M.; URYUPIN, F.A.; KHARIONOVSKIT, A.I.; CHULKOV, N.S.; SHESHERO, N.A.; SHITOV, A.P.; SRUVALOV, A.M.; YANBU IN, K.Ea. Areenil Mikhailovich Safronov; obituary. Fin.SSSR 18 no.11:99 N ~57. (MIRA 10:12) (Safronov, Arsenil Mikhailovich, 1903-1957)  POPOV. Vladimir Fedorovich. prof.; RAUIOV, inzh.,retsenzent,;,KUI)RYAVTSEV, inzh.. retsenzent. ; IVANOT, zavodskiy spetsialist. : VASIIJZIKO, zavodskiv spetsialist,; XIMCHWKO,zavodakiy spetsialist.; BRW-SHTM. z6vrda)~17 spetaislist,: XOSACH. zavodsktv spetaisliet,; ZVORT11N. savodskiy spetsialist,: SUSLTSNNIKOV, zavodskly spetsialist.; KUDRYABTSF7, F.A., otv. red.; AIMMEYEVA. 14.11.. red.; SHISEIKOV, L.M.. tekhn. red. (Marine fitter] Sudovoi slesarl-montazhnik. Izd- 2.. dop. i perer. leningrad. Goa.. aoiuznoe izd-vo sudostroit. prowyahl.. 1958. 161 D. (MIRA 11:12) (Marine engineering)  Crorov, V.F., inzh. Balding up worn ship parts b7 electric metal spra7ing. P!roizv.-tekh. abor. no.3:67-76 159. (XIRA 13:10) 1. Zavod imeni, 40-y godovshchiny Oktyabrya. (Ships--Maintenance and repair) (Metal spra7ing)  ,PDPOV, Vladimir Fedoravich; STRUKOV, E., red.; KLIMOVA, T., tekhn. rec.- (Distrubers of the dead cc-,Iml Vo=mtite3.i spokoistviia, Flo- skva, Gos.izd-vo polit.lit-ry., 1961. 30 . (MIRA 15:1) (Labor and laboring classes5  POPOV9 V.F. Measures of the Leningrad Province Economic Council for improving the auality and introducing new ooodn fnr rarrant.4e%T-ni and (..U.I- tural purposes and for households. Biul.tekh.-ekon. Inform. no-3:76-77 161. ' (1- IRA 14: 3) (Leningrad Province-Industrial management)  POPOVY V.F~ I- I---, . . I Ul tr a a o n 1 c a t -,al. z,~ r fo - *- I -j t d, --. a m-a -~e I t -1 . !~*, -4- . r, r = . ' ' If: r " ~ n, -: . 1 - I 39-40 Ja-Yj- 165. i 14:RA 18:4)  PoP(-,Vy]7.F.3 jn?'CT7ftFENKO. G.K. f .Lr.~-tlnj f,,f f-,:, .* ". .", .-.. pra .n. 0 e I . ~, " ., ~: R *~. I ~, : ~ Y,  POPOVP V.F.; GONCHARENKO, G.K. .... . Development and testing of ultras-onic atrzalzers- cf.' .L I - .- Izv.vys.ucheb.zav.; khim. i khtm.tekh. 8 no.2:331-337 . '65. 1-8.8) 1. Khartkovskiy politekimicheskiy institut imani ifenina, kafedra "Protsessy i apparaty kh.Lmicheskikh proizvodstv'.  virus. ]rj D.)jJ,-).rrjyc-l,ta i virusnykh untsefalitov AMIII I Ic v a .  popo~r, V.F. -- - - -'r -* -`- ' - -7 0:, ato-zat.on obta.,ed -- --:- -valuation of the dispersion of liquida and melts. KniM- Pro--- 40 no-1,21a:-F D 64. (Xj--~A 18:2)   ACCESSMN NR: APS015575 n/m. A combinaftn of the experimental data and dimensional analysis led to the following formulation of the above equation: =6C where C Is a coefficleat. The latter equation was used to process about 80 experiments, most of which were carried out with water. Use of tif men tonal analysis made ft possfble tD establish a more accurata relattonship between the acoustic parameters, thickness of the dispersed Mm, and physical properties of liquids and melts than was heretofore Pos- sible by using the acoustical theory of wave formation. Orig. art. has. 4 figures and 6 formulw. ASSOCIATION: Kafedra, protgessy 1. apparaty khimicheskikh proizvodstv, Khar%vakiy politekhnicheakiy institut im. V. L Lenina (Departm!!nt of Industrial Chemical Processes and Equipment, E0=1kov Polytechnic lustitute) SUBM=D- Wan" ENCL: 00 SUB CODE: GP, IE NO REF SOV 5 OTHER4. 001  71'.7. i " " ~ , r ~ - - r.,: ~ : r .. , ~ , . . --, - - r). L; -~ -., -.r Q"J Mp !- T,--- . E . tek -;. I . t . 111,. 't~. ; t.el~ I,, . i r: i,! , , ~,, .17 n c a () ; t ; I 'L 1 ~ 1- ~! ~ .11( !" .; ': .1 7; .: ; . -~ , - ~; -. I (IIAl RA IS I I ) " I ; ~ I  FORN, Vladlm-.Ir Fedorcvich; D.D., r~-;d [Mountinc of marine power plants!! ',Ion,.azh si;czo,,-~-kh. Silo- -v-ykh us~:Inovok. Leningrad, S-udcs.rcen-e,  L 14775-65 WD(gs) Krf/JD/KK ACCESSION NH: AT4048718 9/0000/64/000/000/0222/0225 16 AdTHOR-.-Savitskiy, Ye. M. Professor, Doctur, of chemical sciences),_ Y2 ~y Keys, N. V. e effect of rare earth metals 0the structure and rti f construction TITLE-.'~ Th prope Ws steels SOURCE: VsesGyuznoye soveshchEn' - ~ po splavam re&dkh metallov, 1963. Voprosy* teorli I primoncniya redkozemeltny*kh metallov (Problems in the theory and use of rare- earth metals); materialy* soveshchaniya. Moscow, Izd-vo Nauka, 1964, 222-225 TOPIC TAGS: rare earth metal, steel, aRGy steel, steel structure, steel mechaaical property, steellsulfur content, steel grain, steel impurity, ferrocerium. ABSTRACT: ~selection of steels for which addiffori.of -rare -earth metals (RKM wo,,uld be most effective, the quantity of REM to be added and their made of Introduction into the steel were studied in the following axper.-mental, higlk-quality a ~. ys preparedin pilot plants prior to intzoduction into manufacture: 18KhNVAI. JOKhGSA 12QZN4A- I The first alloy had a tendency to form intercrystalline grooves causing "spiders" and laminations in the quenched metal, while the last 2 had low impact strength. The work Card  :-~Jff 1477 ACCM109 NR: AT4048718 was done under manufacturing conditions. Ferrocerium. at a 0. 1-0. 28% concentration was added to the liquid steel in the ladle or during filling of the molds. Small cubes c it from various parts of the ingots served for the tests. The results showed a decrease in sulf"ur content by 20-30%. The macrostructure of the ingot improved, with a decrease in grain size. The mechanical properties of cast steel improved much more than those of quenched steel. This favorable influence of REM was most pronounced in 18Kh.XLVA whose strength, plasticity and impact toughness improved by 12, 15 and 4%, respectively. The addition had an unfavorable effect on macrastructural flow. REM apparently facilitate the purification of Uquid steel but introduce the products of chemical react-ions with the impurities as complex refractory oxysuffides whict may serve as additional crystalliza- tion centers; however, due to their wirface-active~broperties, they also impede the growth of dendrite crystals during pn--m-a-r-y-c-r-y7iMzation. Orig. art. has: I table aad 2figures.   t liccorros va- a at- opera,*. ':teipeia:bu'ras and under press-=4.- The-: magtieto6trictive onverter is d by an ul- ie trasonio generator of 3 kwa. The atomization of 1 m3 of liquid requires about I kw of electricity. The velocity transformer is awde from titanium or 3OKhGSAsteela The. atomizer has the following charaoteristicat produativityr 0.05-2 iV~-; i'% M-1m droplet size, about 300 microns; fluid pressure in the film producerm about 0.3 atm (gauge); operating frequencyj, M-22 kilocyales; type of excitation genera- tor, UZG-2.5; height, 480 mn; diameter, 200 mcm; weightp 16 kg. The Tallinskiy mashinostroitellnyy zavod 'Tallinwah" al2in Machine-Bui2ding Flaat OTa2lin-sh-) :will produce these ultrdilOnIO atomizers in large quantities. Orig. art. has i J, -figure-, - VASSOCIMON: None, SUB GODEs EZ,, GP SUBIaTTEN -0TMZ ~"000 No* 1W SO 1 000   TOPIC TAGS: ultraamic atomizer, atomizer, dispersion statistics -average ettl_ ACT -A!t!i6ugh-_ -the diameter-of &~- ~601e~ aw-ultrasonicallyatcuized _Xluid disper4ion has'been derived previously by V. F. Popov and G. K. Goncharenko #06 go 442' -1-964 -b- d t ao e e or- mined:for- practical calculations. A typical -Utradonic; atomizer is showa in Fig. I on the Ehclomwe. The end of the bell-shaped vibrator (2) vibrates at critical benling ~ajnd, . radial freqgencies, as well as at hi er- har%oniae, and die erses the 4h p fluid film formed by (-5) in the radial 4ireation_* Since in, practice it is difficult to determine experimentally the differential or evm integral size distr:Lization curve for each particular configurations a: semiempirical method for expransing the size distribution is presented* This method uses the formuls, ~G_ = _L a; "' dy C=4  L 25289-65 -A~CCWSION M A95002285 -thaim- di, y- tribution (where -G- -.volume- frald.tion of drops - with - diameter I leas Aia cojeffident characterizing uniformity of distribution) to deacribe ad (where &- distribution the distribution with a distribution function Y In d parameterl d- drop diameter, dt- maximum drop diameter).- The constants a and a can be obtained by solving the equation with the help of the probabilit7 integral or by using the logarithnvic probability coordinates as shown in Fig. 2 on the Enclosure, where K - d/(dm - d). Any drop size distribution in these coordinates will be a straight line, and the parameters are easily obtained. ja ia the elope of the line and varies from 0.8-1.2 in practical cases (higher /.3 means more uniform dispersion). From this oux~ve and the equations, parameters like maximang drop size or average drop size d. can be established. Orig. art. bast figures and 6 for=laa. + ASSOCIATIO-Ift none  i 05odum '- . . ~ I, .1 t I EXCLOSUItUt 01 1: I 0 1 f I - . .- , I .- - i.  Flar dr(im) L 15194-6 '."s WA(dY/EWP(t)/0P(b) ACCE N-NR: -AT4(148716- S1000076VO0610001021410217 -Auja0g: S -66, 1- P, -V. F., avits kiyzii Ye.*'M. -(Pxqfess6r,'Doctor of'ohernica tenced), __opG-V, Keys, N. V., Lyubirn v, V. N. The effect of rare earth mews and their oxides on the plasticity and anti- C OX rosive roper4es of stainless steels. SOURCE: Yses .oyttznoye soveshch po 4plavam r -edkikh. nietallov,~ 1963-. Voprosy* teorii i primeneniya rccLkozeme11ny*kh metal1ov (Problems in the Hi~~Zry EHFuse of rare- earth metals); materialy* soveshchaniya. Moscow, Izd-vo Nauka, 1964, 214-217 TOPIC TAGS: rare earth metaPlrare earth oxide, steel plasticity, steel corrosion resistance, steel macrostructure, --steel -m echanibal property, austenite grain, grain boundary ABSTRACT: Jmprove,ment:of the stainless steels -Kh18N12M2T and MISN9T~wh se ingots had,bd' rriarre&by~-surface blisters and-eddies, -was sought, bk-the additon of en 0. 05-0.18% rare earth metals (REM) or 0. 08=0. 12 % REM oxides (polyrite) under mnu- facturing conditions (described). The REM oxides were added into the ladle at tempera- tures of 1540-157OC; the metal remained in the ladle for 10-15 minutes befdre being poured. Teat specimens were evaluated for macrostructure, the content of alpha phase, :.Caid J/2  t15194-65 -AT4048716 ACCESSIO.N..NR-. corrosion resistance and mechanical properties; plasticity was 'determined by the torsion e at -high temperatures, the size of the austeni,~Ie grains was determined microscopical- t st ly. The additions were found to have a favorable effect on the. technological properties of the.2 steels, resulting in an improved ingot suxface due to better steel flowability, im-- vice of gross fissures at co ers and planes of the bars, proved toughness, and disappeara. rn which reduced- -616anifig expenditure by 30-40%. Both -the macrostructure and corrosion resistance improved, due to purification at the grain boundaries. Strength and plasticity increased while the anisotropy of the mechanical properties decreased. In We torsion tests at 1200C, the ntunber of rotations required for breaking increased from 10 to 24 and from 13 to 23, respectively. The addition of REM oxides rather than the pure metal or a metal mixture affords considerable savings in the modifier cost. The austenite grain was smaller in the KhI8NI2MZT steel after oxide addition. The optimal additions found under these experimental conditions are given. Orfg. art. has: 1 table and I figure.  POPILOV, L.Ya.; ALEKSEYEV, A.V., kand.tekJm. nauk, retsenzent; UYTWIA, L.P., ka-.A.tekhn.nauk, retsenzent; POPOV, V.F., inzh., retsenzent; A-:0-NOV, A.B., inzh., red.; DDUNA, I.A... red.izd-va; KAPLANSKIY, Ye.F., tekhn. red. [Manual on electric and ultrasonic methods of processin.g materials] Spravochnik po elektricheskim i ulltraziukovy-m metodam obrabotki materialov. Moskva, Mashgiz, 1963. 478 p. (MIRA 17:3)  SAVITSKIYY Ye.M.; KEYS, N.V.; POPOV, V.F.; LYUBIMMI, V.!I,; ZHUKOV, D.G. Properties of Khl8Nl2M2t stainless steel containing rare-earth metal oxides. Metalloved. i term. obr. met. no.8:33-38 Ag 163. (MA 16:10) 1. Institut metallurgii im. Baykova i Chelyabinskiy metallurgicheskiy zavod.  __9p?Wp' V.F.; SAVITSKIY, Ye.M. Chemical heterogeneity of structural and stainless steels tr--ated with rare-~~earth metals. Metalloved. i term. obr. mete no.8t 59-61 Ag 163. (KIRA 16:10) 1. Institut metallurgii im. Baykova.  L ]."57~2 --------- AccEwToN NR.. Anoo4m 6101VII6310001WI005910061 AUMORt Popov, V. F.; Sevitakly, Y6. No TTMZt Chemical inhwoeeneity of struct ural. and Stainles a steel treated vith rare-earth metals 7 SOUME-. Metallovedeniye i termicheakaya obrabotka metallow., no. 8 .61 1963a 59- TOPIC TAM: KWN124V stainless steel, AISI 316T steel, low-alloy steel. 3OKhGSA steel,, l8KhRVA steel, cerium addition, chemical Inhomogenelty, segregation, sulfur segregation, cerium effect ABSMACT: The effect of the addition of 0.10-0.24 ferrace to' rium 028NI2427 stainless steel CAISI 316T] and the low-walloy structural Steele 3OMbGSA ~ 14 0.35% C, 0.80-1-10% MU, 0.90-1 20% Si, 0.80-1 10% Cr) and U. 54Z ~ioi 0.21% C, 0.25-0.55% MA# 0.17-03T% Sis 1.35-1:65% Cr. 4,00- 05 an their chemical inhomogeneity in the as-east and rolled conditions has been investigated. In all steels tested the addition of 0.04-0.08% Ce-lowered the sulfur content to 0.008-0.0090,al, compared vith 0.01-0.012% in steels uithout Ce. In indivi&Ml. macrovolvmes of ingots and rolled billets the sulfur content decreased by as much i Card 1/2  - ------ 4i -;63' 14937 ACCESSION SR: AP3004T90 50%. Analysis of specimens cut from the various portions of Ingots shaved that addition*of 04 Ce had no marked effect on the segregation of sulfur in carbon M1ft1Z%2T. In 30'aM and 18WVA Ingots, Ce promoted the'segregatiou of sulfur in proportion to the amount added, but had no effect on the segregation'of carbon and phosphorus. In rolled billets of the 3OKhGSA and 28XU"A ateeis-, sulfur and cerium distribution followed a pattern similar to that in ingots, and their segregation increased with increasing cerium contl~nt. Orig. art. has'. 3 figures. ASSOCIATION: Institut Metanurgli im. Baykova (Institute of Metallurgy) 06Sep63 EXCL: 00 SIJBKrMD: 00 DATE ACQ:. SUB COEE: ML NO REP SOV: 000 aim: 900 Card 2/2.-  SOROKLNP P.I.; POZDNYSHEV, V.M.; POPOV, V.F.; BALINSKIY, V.R.; LESNIKOVIGH, S.S. Casting magnesium iron crankshafts. Lit. proizv. no.5:&-9 Itf 962. (MIRA 16:3) (cranks and crankshafts)~ (Iron founding)  .EOPaV,-Vladimir--Eedo-r-oi!~e4; TISHKOVETS, I.V., inzh., retsenzent; KUDRYAVTSEV, F.k., -11,-hny-,f red.; KOROVENKO, Yu~N.,- tekhn. red. [Shipfitter]Sudovoi slesarl-montashnik. lzd.3., dop. i perer. Leningrad,, SudpromgIz, 1962. 206~p. (MIRA 16:5) (Shipfitting',  AJWV, Vladimir Fedorovich; DROKHANOVA, Ye.N., red.; POPOV, N.D., tekhn. red. (Joy of difficult roads] Schastle trudnykh dorog. Moskva, Sovetakaia Rosaiia, 1963. 154 p. (MIRA 16:5) (IT and steel workers) (Priv ov, Mikhail Moiseevich, 1913- )  Accwszom mt, Ap3oo4786 AUMOR: Savitakly, Ye. M.; Keys,, if. V Popov, V. P. Lriblmov, V. N.; 2hukOV, D. rtle of Khlwam nleas steel contalning oxides of rare-earth Sol rZEC ketall' wm4enlye I termicheakaye. obidbotkw metallov# no, 1.965, 53-38 Tone TAM KU&nM2T stainless steel, AISI 316T steels rare-earth inetal. oxide addition, optimum amimmt, steel tensile strength, room-teoperature ductility, hot ductillty, formability microstructure -ABSTRAM: The effect of 0.08 and'O.12% additions of r1are-earth metal (E04) Oxides ion properties of KWH12422 [AISI 316T) stainless steel has been Investi ted ga in three production-scale heats. The oxides were put in.a 40-ton nrehented ladle 5-8 min before tapping the furnace and cadting the steel Into 5-ten Ingots. Test specimens vere cut from the-top, middle, and bottom sections of 'the Ingots. Ductility.characteristles of rolled-metal were measured bath along and across the direction of rolling. Steel Ingots with REH oxides vere found to have a Card  ------------ :-- 3 /Mftl* JMi:-AP300h?%_. deme flavless surface requiring only slight surface conditioning and, a fine dense macrostructure without traces of segregation. Rolled blooms also had no surface defects. The amount of ferrite In REM-oxide-trested steel was 50 to* 75% smaller than in untreated steel, and Its distribution aaong the Ingot height was more uniform. Addition of REM.oxides improved steel fox-mability and resist ance to interelrystalline corrosion'and inereaaed the yield by about 0.5%. An addition of 0.08% REm oxides increased the room-temperature telmile strength by 11.5%-and the yield strenesh by 15.4%; no further improvement was observed when the REM, oxide content was raised to 0,12%. While the hot ftetility of the steel without G oxides gradually improved as the test temperature Increased to 1000 and 1200C, I-, Increased by 1.5-2 times with an addition of 0.08% of RM'OrAdes. In hot ductility torsion tests, steel specimens with 0.08% RM oxides withstood 18 and 28 turns at 1000 and 19000, respectively,,' while opeclmoins of untreated steel failed after 8-10 and 12-15 turns. The REM-oxide-treated steel also had a finer austenite grain, lower anisotropy of the mechanical properties, and higher ductility., particularly across the direction of rolling. In general, ed;. dition of REM oxides is especially effective In casting large Ingots and shaped castings. Orig. art.-has: 5 tables. ASMCIATION;, Inst. of 14atallurgy Chelyabinsk Metallurgical Plant Card  SAVITSKIY, Ye.M.; KEYS, N.V.;- POPOV, V.F.- LYUBD4OV, V.N.; ZHUKOV, D.G.; MALINOVSKAYA, T. 1. Effect of rare-earth metals on the properties of stainless steel. Izv. AN SSSR. Otd. tekh. nauk. Met. i gor. delo nool:133-137 Jar-F 1639 (MIFA 16:3) (Steel,, Stainless-Metallurgy) (Rare earth metals)  POPOV) V. F.,. ty "The beneficial effect of Ce in melting Khl8Ki2N2T f.-mi 316T] stainless steel" report presented at the Conf. on New Trends in the St-Ay and Applications oV Rare Eart.-h Metals, Moscow, 18-20 Mar 63  LYSENKO, N.I.; POPOV, V.F. The Berriasi46 of the northern edge of the Baidar Depression in the Crimea. Dokl. AN SSSR 147 no.1:188--190 N 162. (MIRA 15:11) 1. Institut minerallnykh resursov AN UrSSR. Predstavleno akademikm N.M. Strakhovym. (Baidar Vallep-Geology, Stratigraphic)  POPOVY V.F. Use of specific gamma globulin for prophylactic and 4 erapeut c Llh vi purposes in a focus of tick-borne encephalitis. Vop.virus 7 no.4:53-55 Jl-Ag 162. (MIRA 15:8) 1. Institut epidemiolgoii i mikrobiologii imeni N.F.Camalei AV14 SSSR, Moskva. (GAMMA GLOBULIN) (KIROV PROVINCE-ENCEPHALITIS)  ROZANOV, Nikolay Petrovich; POPOV -,A,F-p doktor tekhn. nauk, prof., retsenzent; MISTEN, M.N., nauchrW red.; %IIRNOV, Yu.I., red.; TSALI R.K., tekhn. red. [Technology of manufacturing small propellers] Tekhnologiia izgo- tovIeniia. grebrykh vintov ma:Lykh ra=rerov. Leningradp Sudpromgiz, 1962. 167 p. (MIRA 15:6) (Propellers) Warine engineering)  AIJKINA, N.A.; POFOV V.F.; FADEYEV, A.N.; NAZARLOVSKIY, B.N., red.; 01 _~khn. red. SUMIRN ijE ~.C.;-~ y (Commmists of Perm Province ir. the effort to carry out the decisions of the 21st Congress of CPSUI Kormunisty Perm3koi oblasti. v borlbe za vypolnenie reshenii XXI s"ezda ITSS; sbornik dokumentov i materialov. Perm', Permskoe knizianoe izd-vo, 1961. 261 p. (MIRA 15:7) 1. Kommunisticheskaya partiya Sovetskogo Soyuza. Permskii oblastnoy korritet. Partiynyy arkhiv. (Perm Province-Economic conditions) (Perm Province-Communist education)  L 218~4.i66 EWP(k.)/EWT(d)/EWT(ai)/LVP(h)/EWP(T)/EWP(t)/EWP(l) IJPW j'i ,ACC NR: AP6004276 SOURCE CODE: UR/0407/65/000/002/000310014 AUTHOR:~ Ostroverkhov, N. T. (Moscow); Popov, V. K. (Moscow) ORG: node TITLE: 4lectron-beam machining of materials SOURCE: Elektronnaya obrabotka materialov, no. 2. 1965, 3-14 TOPIC TAGS: electron beam machining, conducting material, semiconductor mat Ierial, ~insulating material, electron optics C -beam machining (hole ABSTRA The physical phenomena involved in electron piercing) ire described, and principal formulas u3ed in calcu ating qae process are given. T~e development of a Soviet electron-beam machining outfiAee figure below) is reported. The outfit comprises two units: electron gun 1 and two-lens magnetic focusing system Z. The electrons emitted by tungsten 100-j" diameter cathode 3 are accelerated (100 kvup to 5 ma) in the cathode-anode space. The beam is formed by the cathode, control electrode 4 and anode 5. The accelerated and focused electrons pass through an anode port and move with a constant velocity in the equipoteatial Corcl 1  1. POPOV, V. G. 2. USSR (6oo) 4. Reindeer-Diseases 7. Head diseases of reindeer. Veterinariia 29 no. 11, 1952. 9- Monthly List of Russian Accessions,_ Library of C6ngress, February 1953, Unclassifi~:d.  POPOV, V.%%, kandidat s*lIsk*kh*zyzystvenuykh nauk. - , Itioleff of 'fall" necrobacillosis in reindeer. Voterizariia 33 ne-9: 4o-41 S '56. (WIaA 9:10/1 l.Ishme-Pocherskaya sauchus-issledevatellskava veterinarmaym opytxaya stantsiya. (Raindetr-Diseases)  POPOV, V.G., tokart Thread cutting devices for lathes. Stroi. i dor. mashinostr. 3 no.2:33-35 F 158. (MIRA 11:2) l.Kharlkovski7 zavod dorozhnykh mashin. (Lathe a --Attachments) (Screw-threads)  ARKHARGORODSKIT. A.G.. kand.tvkhn.nauk; POPOV, V.G.. aspirant ----------- Stability of cylindrical shells reinforced with inclined lateral atiffening riba. Izv.vys.uchab.zav.; mashinostr. no.6: 61-61 159. (KIR& 13:5) 1. Ilikolayevskly korablestroltelInyy Institut. (Elastic platen and shells)  ACCESSION NR: AP40190207 S/0062/64/000/002/0391/0392 AUMORS: Topchlyev, D.A.; Popov, V.G.; Kabanov, V.A.; Kargin, V.A. TITLE: Polymerization of quinoline and autocatalysis forming macro- molecules with conjugate system SOURCE: AN SSSR. Izv. Serlya khimicheskaya, no.2, 1964, 391-392 T'OPIC TA~S: quinoline,,polym7erizati-qn, quinoline-autocatalysis, quin- oline, autocatalysis, autocatalytic reaction, quinoline zinc chloride complex .0STRACT: Seeking~autdcatalytlc rd'actions having general applications, the authors Investigated the polymerization of the quinollne-zine chloride complex (Qu12ZnCl2) in the presence of catalytic quantities of proton-containing substances (HP03, QuI*HCl) over the temperature range of 250-370C. They obtained polymer products varying in color from red to black (depending upon the conditions). They were poly- quinolines with a'strubtura of CluN CH'-"CHUSCHM. _""[-N-CH=CW:-CH_