SCIENTIFIC ABSTRACT VANEYEV, I.I. - VANGENGEYM, G.YA.

-VANEYF,T,J,I-.-; IAZAREVSKIY, A.F. Use of nontoxic frothers for the flotation of copper-nickel sulfide ores.. Obog. rud 5 no.1:15-16 160. (KMA 14:8) (Flotation-Equipment and supplies) (Nonferrous metals)  GORLOVSKIY, S.I.; ZASPIHIN, N.V.; LIPKINA, T.Ye.; frinimali LAZAREVY.SIY, A.F.; ZELENOVA, I.M.; VOLOSiNIF)VA, T.F.; TOMKOVID, Ye-I. CdeceasedJ; FETFOV, I.V.; MOEOLOOV, j-.V.-, NIKIFTROVA, D.I. Use of high molecular organic depressants in the flotation of copper-nicW ores. Obog. rud 6 no.2:3-9 161. (1111LI 14:8) (Flo-tation-Fquipmefit and sapplies) (Nonferrous r4etale)  VANE nTROV, I.V.~ PETROV,, M.A.; LAZARNSKIro A.F. Use of a recirculating water supply in the flotation of copper-nickel ores. Obog. rud 7 no.5:25-29 162. (MIM 16A) (Flotation-Water supply)  __ _-~ -'--e - :~ -- -~E~' - ;'~"~ %~ -- . . . . . - -- - __ , I __ g- - ~ - ... ..- 11 - - Prinimali uchastiye: GORLOVSKIY, S. I.; LIPKINA, S. I.j NIKInPLVA j D. I. Mechanism of the depressing action of carboxpethylcellulose on flotation-active ailicatee during the flotation of copper- nickel ores. Trudy Mekbanobr no, 13101,~-88 W. (MIRA 3,715)  BAKINOV, K. G.; GORLOVSKIY, S. I.; ZASHIKHIN, N. V.; VANEYEV, I. I.; YF11OPKIN, Yu. I.; KOM I A. S. "New Methods of Sulfide Concentrate Upgrading." paper to be presented at the Intl Mineral Dressing Conf, New York City, 2o-24 Sep 64. Inst "Mekhanobr," Leningrad.  0 0 0 0 00000 G* 0 0 0 0 010.0 of a I I I it 0 91ro I 1 4 1 1 to is It it n 11 ki 13 M P 14 is to If III JO ( P IJ n a is ;# 17 is m A S,4 r a L J . L -A, j -A "L 4 a 4 n / - v : . : I /, q 0 V c:, .: I . vl so 00 Titotment of golit-besidal ores with wood charrmil -Of 00 I. Van"... xW1. ~61 107 N" - Io 1. ; 41P'W-M 1 V . 1 W ~ 40, , 1, 1 '. . I , ~ I P., -041 00 il a MT114m.1 criv, -";qing III "I t 11- ! 0 04 ' Ast iii rvania~. MIT, it wilh ch-lict"t by tholifi-I 1-l'i" 00 jr-f~twvr .4 f1w 113fvvrs~ .4 ~Kriniling tit the ch-Irl,otil is ;-v)ltwr.AjjI. ppfft I~ v, rl_o. to pf"tt", .00 00 'mor I~ 11-1 mfl, 00 so J 00 00 00 '0 )1 00 4 0' 001 2,90 00 j- 00 f: (ImIrKaticim woo 00 S~ 0 4.1%:111 it J- 00 a a -is 1k 0 0 0 0 0 0 0 0 0 00 0 a 04 0 0 Of 00 0 0 o 06 0 0 0 j// 0 0 6 0 0 0 0 ~ 00 0 v a 00 0 0 -_i 4*: 1~ip - IT-.---"- ': __o 90009946604  a Its ow Ill Its IF W-v 0 0 0 0 0 4 to Ill It u Id so 06 all, 00 Go ~400 Awal to .#Y&LtLFGKAI 11111121 o 0 0 0 0 0 0 0 0 0 0 Is & 0 0 6 0 0 0 0 0 0 0 0 ; ; ; ; 0 'i i6 . 1; 9 eggs 0 IS 0 0 0 If 16 1) to " a 11 4 a 1 3 a 1 I IS So co 2- AA I v - LA 1- 00 Effect of Km4w oa the extriaction of Cold from Relogilik -00 aroris by the cyanidir process. !t'f . 19J5, Nt,. it), 4ft ~S-w -Alf"I1.411 bv the CV21141V prwe... 11-11 "14. 'milt %41V mg, Alm, 'Uht- - M.. s,,-.... 'sallld.- 1,1111. 111- 1;-' 011.1 thiralwil 4 titow IN fit- Ill,- ;-so V%til alftio'll"I %jIAIf-jV. (fintl IS.*, 14t ClIftAll 1'41';, whi-11 It,. Alm. if lilsw k*dfll W.l~ jtj,frj~d ft-.1 ~1. I-1 k, IS i.nj vI jmlp~ A Owilir trOw-tion M u-1y. .-I 1-ittv Ali 00 lase to t CL*%ilfK&TfGP- L a SO A at n 1 14 I ' 0 0 0 0 0 IN 4 0 0 0 IN 0 111 0 Q 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 0 to 9 0 0 0 0  - - - - - 1- -- I--..- -- -,- e 1!~Ic-11,~,-c-c,7At4,4E~~l---~l-. .. - - . I ~ ..- - . 4h - F-\~ Vj - KAESIHOV, Vaoiliy Iosif ovich; W, , N.I., redaktor,; SHUSTOVA. Y.M., rodaktor; KIKUYLOVA, V.Y., i~k~b-'-ni-c6`~'kly redaktor. (Blectrochlorination as a method of recovering metals] Blaktrokhlo- rinataiia kak metod komplekenogo izvlec~eniia metallov. Kookw&, Goo. nauchno-takhnolzd-vo lit-ry po chernoi I tevatnoi metallurgii, 1955. 158 p. (Chlorination) (HLBA 9:4)  TANNYBV, A4WHDIM,. A# - , I . I *ft---%M-wmw=woI - - - - ~ -* Create and ti' ' - a ~qgjhoA.p~q~*C;,kLphy clubs in ctooranity canters. Soy. ~foto 17 no.4.-33-34 Ap 157. (WRA 20:6) teaching) (Photography-Study and  PARAMONov, G.A., inzh.; PICHUGIN, A.A., kand.tekhn.13auk; VAIqM V. tv -~h jL- A inzh.; LrUZOMINSKIT, A.G., inzh.; CHUM, A.Y., kalltel n.nauk; VRUBL37SIrT, L.Te., inzh.; MRMAY, A.Ta., inzh. (deceased]; PMGAITC7, G.N., inzho; SHWANOV, A.S., insh,; DMITRrM, P.A., kand.tokhn.nauk; IVANOV, I.A., kand.tekhn.nauk; TXWO, Tui.P., dotsent; SOKOWV, P.K., dotsent; KANYUKA, N,S., kand,tekhn.nauk; SHPAKOVSKAYA, L.I., red.; GOSTISHCHEVA, Ye.M., tekhn.red. (Handbook for the master builder on the technology of general building operations] Spra7-ochnik mastera-stroitelia po takhnologii proizvodstva obahchostroitellnykh rabot. 2. izd.perer. i dop. Novosibirsk, Novoeibirskoe knizhnoe izd-vo, 1961, 713 P. (MIRA 15:2) (Building)  USPENSKIY, N.M., red.; MUKEINA, Ye.S., tekbn. red. (War and automatic control] Voina i avtomatika. Moskva, Izd- vo DOSAAF, 1962. 62 p. (MIRA 15:7) (Automatic control.--Military applications)  MREYSV,-Igorl Vasillyevich, BERG.A.I.. red.; BURLYAND, V.A., red.; ISHTA%Y*.N.. r!ed.; DZHIGIT, I.S.,red.; G 0 r XANAYEVA. A.M.. red.; XMNKPILI. l.T.Or*4.; XULIKOVSKIT, A.A.,red.; SHIRROV. A.D.,red.; TARASOV, CIMCHIT. P.O,',red.; SHAMSM, V.L. red.; GA,K,ZBUR4, M.D., red.; XMMWff,,T-A**';*el&n_red.- [Cabinet designs for radio recelverel Vneahnee oformlente priemnika. Moskva. Goa. energ. izd-vo. 1958. 46 p. (MIRA 11:8) (Radio--Recelvers and reception)  li /!I'A' v MRSON, Anatoliy Keyerovich. BMG,A.I,, red.; BURGUAND, V.A., red.; -VINMY,, V.I., red.; GENISHT1, Ye.N., red.; DZHIGIT. I.S..red.; XANAYEVA. A.M.. red.;~ L', E.T.. red.; MIKOVSKIT, A.A., red.; SKIRNOV, A.D., red.; TARASOV, F.I., red.; CHECHIK. P.0., red.fijecesed] SHAHSHUR, V.L. red.; BORTJNOV, N.I., tekhn.red. [Testing radio tubes] Ispytanie radiolamp, Moskva, Goo. energe ltd-vo, 1958. 61 p. (Whasovaia radiobiblioteks , no-303) (MIRA 11:9) (Blectron tubes-Testing)  KUGUSHU, Alekeendr-Mikhaylovich,; BM. M.. red.; BURDZYNY-Yi F.L ' red;; BURLYAND, V.A., red.; red.; GENISHTA, Te.Y., red.; DZHIGIT, I.S.. red.; KA11AY-EVA. A.M.. red.; UUMUL', X.T., red.; EWKOVSKIT, A.A., red.; SKIRNOV, A.D., red.; TARASOV, Y.I., red.; CHECHIK, P.O., red.; SHAMSHUR. V.I., red.; BORUNOV. N.1., tekhn. red. [Modern radio electronics] Sovremennaia radioelektronika. Moskva, Goo. energ. izd-vo, 1958. 62 p. (Kassovata radiobibliotaka, no. 300). (MIRA 11:11) (Electronics)  SCIBOISVSKIYI Anatolty Goorglyevicb.; BM, A.I.,rad.; BURLYAND, V.A., red.; VANZYI17 GRUISHTI. U.N., red.; DZHIGIT, I.S., red.; red.; KRX'*Ml. B.T., red.; KULEKOVSKIT, A.A., red.; SMIRNOV, A.D.. rod.; TABASOV, M., reds; SHANSHUR, V.I.. rod.; KRIBITSKIY, B.1h., red., LARIOITOV, G.To.. tekhn. red. CPulsa techniques] Impul'snala takhalka, Koakva, Goo. anarg. izd-vo, 1958. 167. (Hassovata radiobibliotaksI no. 308). (MIRA 11:11) (Pulse tachniques(Blectronice))  TANBUT, Tladimir IvanovIch; SONIN. Tevgeniy Konstantinovich; PATWTA, 791.v tekhnored, (Alectronic glash lamps] Blektronnye lampy-vapyahki, Koakvao Gos.onerg.izd-vo, 1959. 47 p. (Massovais radiobibliotaka. no. 356). (KIRA 13:3) (Photography--3quipment and supplies)  POPOV. Potr ALeksnndrovich;-WIRG, A.I., red B+-WY, F.I., red.; B'WMYABD, V.A., red.- YAMUNT Y I red.; G.S.NISILTA, Ye.H., red.; DZHIGIT, red.: KROM-1. 3.T., red.; KULIKOTSKIT-, A.A.. red.; SHIRHOY, A.D., red.; TARASOY, F.I., red.; SILIMSHUR, Y.I., red.; KULIKOTSKIY, A.A., red.; LARIONOT, G.Ye., takhr. red. (Design of audio frequency transistor amplifiers] Raschat tranzistornykft usilitelei zvukovoi chantoty. Monkva, Goo. energ. izd-vo, 1960. 103 P. (14assavaya radiobibliotoka, no-378) (MIRA 14:5) (Transistor amplifiers)  VANERV Yu.. shturman dallnego, plavaniya Work of an anchorpd ship's min enenes In storay weather. -Mor. flot 20 no-1:33r35 Ja 160. (KIRA 13-5) (Marine engines) (Ships--I~rdrodynamics)  VAN FU FY (Kiyev',; 0'-'-E'a9v, V.i. (Kiyev) y Flastov-l.sccus drsformat!nns cf scinee thermo3etflng polymErs. Prikl. mekh. I no.8:1.00-105 165. 0.1--114, 1. Institut, mekhanik~~ AN Uk-i6SR.  L 46137-66 Fin, (m)IFAP (w)/EWP (v)/T/F4P(j) IJP(c) WW/EM/RM SOURCE CODE: UR/0198/66/002/005/0 50- r ACC NR, - AP6026739 66Y/ AUTHOR: Saving G. N. (Kiev); Van Fo Fy, G. A. (Kiev) ORG: Institute of Mechanics, UkrSSR (Institut mekhaniki AN UkrSSR) TITLE: Stress distribution about an elliptical opening in a fiber plate SOURCE: Prikladnaya mekhanika, v. 2, no. 5, 1966, 5-11 TOPIC TAGS: stress distribution, stress analysis, anisotropic medium lion about a circular a ABSTRACT: The stress distribut 11 d an elliptica), opening in a fiber glass reinforced plasticj~plate based on a epoxy-~mleic_~i~as examined. The stress distribution was studied at varying anglei--to7the orientation of the fiber in a system of Cartesian coordinates; the non-elastic properties of the polymer were tak- en into consideration. It was found that the stress concentration coefficient in a ,pient defines fiber f-lass plastic medium is a product of two coefficients: one coeffi the perturbations produced by an opening in an anisotropic viscoelastic%tbody, the ot'h- er coefficient defines the stress distribution in the structure of the componition Oa- terial. To obtain an accurate picture, the fiber glass was not treated by finishln~ compounds which might have produced flexible films around the fibers. Using the Vd-l-, te7.-a principle, it was found that the redistribution of the actual stresses, in t e, Card 1/2  L 461117-60' ACC NRs AP6026739 in the structure of the material is less than 10%. Stress-strain diagrams for one specific calculati n have been developed. Orig. art. has: 6 figures, 20 fomulas.-"', L SUB CODE: 7 SUBM DATE: O8Dec65/ ORIG mr: 004/ O`rH REr: 001 Card 2/2 mjs  pl-r &F Lit ,u I -?,j ~, -1 '-;- I -'I/ ~, : 11 1 i 1 7   n rrin P, LIA; FIE. u   80), 9(2), 14(6) SOV/143-58.-10-8/24 AUTHOR: Van-Gaut. Yu-.-N., Docent TITLE: The Specific Inductive Capacitance and the Dielectric Loss-Angle Tangent of Polyvinylchloride Plasticsfor Cable Insulation PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Energetika, 1958, Nr 10, pp 59-65 (USSR) ABSTRACT: The electrical properties of polyvinylchlotide plas- tics have not yet been sufficiently studied. The in- vestigation of the specific inductive capacitance W and the dielectric loss angle tangent (t~~) of Soviet-made polyvinylchloride plastic was conducted by a number of authors either at room temperature, or within a narrow range of positive temperatures (at industrial or sound frequency). Data of such investi- .gations are presented by Ye.G. Fedoseyeva Zffef gg ?.A. Korobkov LTef 17, and A.Ya. Kazhdanov and N.V. Zakharova 5ef g. In this paper, the author presents the results.of an investigation of the principal brands Card 1/6 of'polyvinylchloride plastics concerning C andt  SOV/143-58-10-8/24 The Specific Inductive Capacitance and the Dielectric Loss-Angle Tangent of Polyvinylchloride Plasticefor Cable Insulation which are decisive characteristics for power and com- munication cables. The investigations wege conducted at temperatures ranging from -14 7 to +100 and at fre- quencies of 50 cycles to-1.5 - 10 cycles. Polyvinyl- chloride plates of 100-120 mm diameter and a thickness of 0.80-2.5 mm were used for the investigation of the specific inductive capacitance and the dielectric loss angle tangent. Aluminum foils, glued to the samples by vaseline, were used as electrodes. The electrode .diameter was in dependence of the samples either 80 mm/100 mm or 100 mm/1120 mm.. For eliminating the in- fluence of surface leak currents on the measuring results, grounded protecting copper rings were instal- led on the samples (around the upper electrode). The inner diameter of the protecting ring was about 10 mm larger than the electrode diameter. A MDr bridge of the plant "Tochelektropribor" was used for determining tg and the capacitance of the samples at industrial Card 2/6 frequency. A capacitive coupling instrument of Siemens  SOV/143-58-10-8/24 The Specific Inductive Capacitance and the Dielectric Loss-Angle Tangent of Polyvinylchloride Plaeticsfor Cable Insulation was used for investigating ~he capacitance in the sound frequency range (5*10 - 1-10 cycles). A Q- meter KV-1 was used for measVing tg6 and the cap---- citance in the range of 5-10 - 5-10 . For investi- gating the temperature dependence off- and tg~ the plastic samples with the aluminum electrodes were placed between steel discs and were placed on an in- sulated rest into an exsiccator with current lead- ins at the top. Depending on the temperature requir- ed, the exsiccator was placed either into a thermo- stat or a cryostat. Temperature measurements were made with thermocouples, mercury or alcohol thermo- meters. The accuracy of the temperature readings was 0 0.5 , The author then presents the investigation results of the dependence of specific inductive capa- citance on the frequency and the temperature for dif- ferent types of plastics. The results are shown in Card 3/6 graphs, figures 1 to 3. Graphs, figures 4 to 6, show  SOV/143-58-10-8/24 The Specific Inductive Capacitance and the Dielectric Loss-Angle Tangent of Folyviny1chloride Plasticefor Cable Insulation the dependence of tg ion temperature (at 50 cycles). Table 1 shows the dependence of tg4"on the frequency. These data show that the tgF is the same at 150 kc - 5 me as for 50 cycles. An increase of the value of tgf is observed at frequencies higher than 5 me. The author arrived at the following conclusions: 1) The dependence of the specific inductive capacitance of polyvinylchloride plastic on the frequency in the range of 50 to 1-5.*10 cycles is subjected to e= A - K lg f, whereby A and K are constants characteristic for the particular type of plastic, while f is the frequency in cycles. Based on the mathematical pro- cessing of the experimental curves for plastics of type r.230, r.239 and r-38, calculation formulae were found. 2) The specific inductive capacitance of poly- vinylchloride plastic increases remarkab;e with temperature increase in the range of -14 to 100 This dependence is characteristic for each type of Card 4/6 plastic. 3) The great temperature dependence of the  SOV/143-58-10-8/24 The Specific Inductive Capacitance and the Dielectric Loss-Angle 0 Tangent of Polyvinylchloride Plasticafor Cable Insulation Opocifio induotivo crtpRoitanco on the temperature will cause a natural balancit% of tho olactric fiold strengths in the polyviny1chloride inatilation of ac power cables being under load. 4) The 'dielectric loss angle tangent of polyvinylehloEide plastic has its maximum at a temperature of + 8 and a~- 50 eye Ps frequency. In the tom erature range of 16 to 100 the dependence tg~"= fM has two branches, in the first of which the tg Swill hardly change, while in the other one this characteristic begins to increase exponentially with rising temperatures after passing * point of inflection. 5) The temperature corre- * onding to the inflection point of the curve tgf fyt), which should be considered as the ultimate per- missible onerational temperature of the cable, is different for each type of polyvinylchl8ride p1gstic. Por insulation plasticsit is bstween 5R and 65 , for hose plastics i! is between 35 and 50 . The amount Card 5/6 of plasticizer and the application of more effective  SOV/143-58-10-8/24 The Specific Inductive Capacitance and the Dielectric Lose-Angle Tangent of Polyvinylchloride Plasticefor Cable Insulation softeners will reduce this temperature. 6) It was established that the values ~.and tg~' of polyviny;_ chloride plastics, in a temperature range of 714 to +100u and in a frequency range of 50 - 1.5-10 cycles, exceed under equal conditions the corresponding values of these characteristics for the basic polyvinylchlor- ide resin. There are 6 graphs, 1 table and 8 referen- ces, 5 of which are Soviet and 3 English. ASSOCIATION: Kharlkovskiy politekhnicheskiy institut (Khartkov Polytechnic Institute) Kafedra peredachi eiektriche- skoy energii (Chair of Electric Power Transmission) SUBMITTED: June 19, 195B Card 6/6  VAN-CAUT, TU.)LdQts. ,. ....... Dielectric strength of polvchlorvin7l inBulation. Izv.vys~ucheb*zav*Z energ. no.12:60-68 D '58. (KIRA 122-3) 1. Xharlkovskiy politekhnichookiy institut. (Electric insulators and insulation)  VAN-GAUT, Yu. N., Cqnd of Tech Sol -_ (diss) "Study of the Eleotrical Properties of Polyvinyl Chboride Isolation," Kharlko,~1959, 18 pp (Ehar1kov Polytechnical Institute imeni V. I. ~,enin) (KL 4r-60, 118)  s/llo/6o/ooo/oo8/ooi/oo8 E194/E455 AUTHORSs Van-Gaatj Yu.N. and Chernushkin, V.Z., Engineers TITLEt ~eTemperature-_Dependence of the Electpic Strength of Polyvinyl ChlorideUrand Polyethyieneislnsulation PERIODICAL: Vestnik elektropromyshlennosti, 196o, No.8, pp.9-12 TEM This article describes a.c. electric strength tests on various grades of sheet polyvinyl chloride and polyethylene insulation, and also on high-voltage automobile cables with these types of insulationj over the temperature range 20 to 120*C. The samples were made in the Scientific Research Institute of the Cable Industry, who requested the tests. T~e tests were made on experimental automobile high-voltage ignition cables with insulation of plastic grade R230, polyethylene grade OKhK-51O and English polyethylene gradeAlkathene D-2. In all cases the cable coreB were 19 x 0.26 mm (1.3 mm diameter), the nominal external diameter of the cables over the insulation being 3, 5 and 7 mm. Cable samples 3 to 5 m long were placed in a heated steel bath filled with a semi-conductingmixture of transformer oil with 10 to 20% dibutylphthalate. The test electrode consisted of a lead tube of tho~, ;ame nominal the Card 1/4  s/no/6o/ooo/oo8/ooi/oo8 E194/9455 The Temperature-Dependence o'f the Electric Strength of Polyvinyl Chloride and Polyethylene Insulation of the cable. The ends of the lead tube were flared out to bell-shaped ends and the cylindrical part was protected by an external brass tube, as sketched in Fig.l. After a breakdown test had been made at one place the electrode could be slipped along the cable to make a further test. The sheet materials tested were polyvinyl chloride grades R230, R489 and R25662 Polyethylene grade OKhK-501, low-pressure polyethylehe grade ND and Alkathene D-2 in samples of 120 x 140 min, 1 to 3 min thick. The tests were made between flat polished electrodes 25 min diameter g spring-loaded to 1 (r/cm2. with rounded edges, one electrode bein 00 ~ The electrode assembly with sample, contained in a bakelite cylinder, was placed in the heated bath and one electrode was earthed. In all the tests the voltage was raised to breakdown in 30 to 60 see; the number of breakdown tests on each material of given thickness or type of wire was from 10 to 30 at each given temperature. Electric strength test results on automobile cable with polyvinyl chloride insulation are plotted in Card 2/4  S/ll.o/6o/ooo/oo8/ooi/oo8 E194/E455 The Temperature-Dependence of the Electric Strength of Polyvinyl Chloride and Polyet%,ylene Insulation Fig.2 and the breakdown voltages for samples with external diameters of 3 mm, 5 mm and 7 mm are 18, 32 and 4o kV respectively. The breakdown voltage does not drop by more than 15% over the ranfe 20 'to 90aC but thereafter commences to drop sharply, and at 120 C the corresponding values are 16, 23 and 28 kV. The PolyVillyl chloride insulation commences to soften at a temperature of 90 C. An electric strength curve for all three wires is given in Fig.3 and it will be seen that up to 900C the electric strength is slightly more than 40 kV/mm and then falls off. Test results for cable with polyethylene insulation of grade OKhK-501 are plotted in Fig.4. The electric strength ran Fes from 63 to 69 kV/mm at 20*C and is fairly constant to 70 C. It drops to 47 to 59 kV/mm at 900C, at which temperature the material softens. Very similar results were obtained with Alkathene grade D-2, as indicated by the graph of Fig-5. The electric strength is 63 to 70 kV/mm at 20 C and falls to 51 to 56 kV/mm at 90OC; again the material softens at 700C. Test results for sheets of 2 polyvinyl c. 1i loride grade s P'_10 ~ P" 7! 56( ) Card 3/4  S/110/6o/ooo/oob/ooi/oob E194/E455 The Temperature-Dependence of the Electric Strength of PolyvijiNll Chloride and Polyethylene Insulation Fig.6, 7 and 8. The behaviour was similar to that of the cable. The least sensitive to temperature are grades R-230 and R-2566, whose electric strength is 34 to 47 kV/mm at 20*C and 23 to 29 kV/mm at 120*C. Polyethylene sheets behaved in much the same way as polyethylene cable; the test results are given in Fig.9. The V/ low-pressure polyethylene grade ND had the highest electric strength, ranging from 93 kV/mm at 20*C to 63 kV/mm at 90QC. All the grades of polyethylene softened appreciably above 700C. There are 9 figures. SUBMITTED: June 19, 1959 Card 4/4  $8492 s/iio/60/000/009/0('4/008 105' (:La0q) E194/E455 AUTHOR! Van-Gaut, Yu,N.. Candidate of Technical Sciences TITLE. The Relationship Between Frequency and the Dielectric Loss Angle of Polyvinyl Chloride Plastics A * PERIODICAL: Vestnik elektropromyshlennost 5~960, No~9, PPJ5-17 TEXT,, A number of authors have published work on polyvinyl chloride plastics and their components at different frequencies but the effects of the individual components are still not fully enough understood. This article describes a systematic study of the value of tan 6 of plastics and of their components as a function of frequency, The tan 6 tests were made on polyvinyl- chloride-based plastics grades p 230 (r 230), p 489 (r 489) and p 239 (r 239) consisting of polyvinyl chloride grade no-I (PF-1) with dioctylphthalate, tricresyl phosphate and dioctylsebacinate, with small amounts of calcium stearate and in two of the cases lead silicate., The tests were made on sheets I to 3 mm thick, Tests of power factor against frequency at room temperature showed Card 1/3  88492 S/ll0/60/ooo/oo9/(..,4,,,)o8 E194/E455 The Relationship Between Frequency and the Dielectric Lois Angle of Polyvinyl Chloride Plastics that all materials had a power factor peak around 80 or 90 kc/s~, the tan 6 then diminished again but rose sharply at a frequency of 1000 to 10000 kc/s, Similar curves are also plotted for the- component materials and it is found that the tan 6 peak is mainly due to the polyvinyl chloride components, The peak is attributed to structural dielectric losses in the polyvinyl chloride, The frequency that corresponds to commencement of marked increase in tan 6 is due to dielectric losses in the plastifiers, This frequency may be considered the highest at which polyvinyl chloride insulation can be usedl it could be increased by appr6priate selection of plastifiers. It i0 recommended that poly-vinyl chloride plastics intended for electrical insulation in cables operating at frequencies up to 1000 to 10000 kc/s should use dioctylsebacinate and dibutyleebacinate as plastifier because of their low value of tan t and good frequency characteristics, There are 4 figures, I table Card 2/3 '  88492 s/uo/6o/ooo/oo9/orI,/oo8 E194/E455 The Relationship Between Frequency and the Dielectric Loss Angle of Polyvinyl Chloride Plastics and 4 Soviet referencea, SUBMITTEDt March 25, 1960 Card 3/3  VAN-GAUT, Yu.N. I Effect of composition o- olasticizers on ti,e electrical properties of poly(virjyl cMoride) compositions. Plast.massy no.5:40-W~ '62. (MIRA 15:4) (Vinyl compound polymers--Electric properties) (Plasticizers)  VAN-GAUT., Yu.N.0 kand.tekhnnauk "Handbook on wires and power cables" bv Xb,R, Malkin and others, Reviewed by IU.N. Van-Gaut. Vest- elektroProm- 33 no.9:777 S 162, (MIRA 35 :10) (Electric dables-eandbooks,, manuals, etc.) Electric lines-Handbookal manualso etc.) Nsherstnik., N.N.) (Saliutina, M.A.) (Malkin. Kh.R.)  ,gth, rf polriinyl chlorlde plaoticized rosin. Electrical stren I 16C %, ! T. - _ illektrotekhnlk-a 36 no-57:13b Mi ,). (,; HA 18:5)"  - - - ~ , t. f - 1 L .1 Oll L!IV ~ . - - - - - - - - -1 VVE   BUMISTROVp V.R.; VANGAY, A.D. Studying EU147 and Pila decay by the qoscidence pulse summation method. Zhur. eksp..i teor. fiz. 45 no. 5.-1380-1384 N 163. (HIRA 17:1) l.'Institut yadernoy fiziki AN Kazakhgkoy SSR.  "VANGAYEVAI V,,-G. Simple mechanization. Hashinostroitell no.3:25 Mr 161. (MIRA 14:3) (Electric furnaces-Technological innovations)  VANGLYEVA, V.G., Insh. S.S.Khokblov. 14aabinoi3troitell no.2:41 F 160. (MM 13:5) 1, Brurp tokhnichookoy informteii zavoda "Krann;7 Aksay." (Screw-cutt'ing mchines--Technological innovationg) I  VAN!A9Vko-V.G,,- Designers and public workers at the Krasnyi Aksai Plant. Maohinostroitell no. 4:4.2 Ap 161. 041RA 14:4) (Rostov-on-Don-Agricultural machinery Industry) I , t,.,.  Vorkipg with informational and t6cluiological literature at the *Krasnyi kltsai" P~ant, in ~he Rostov Eco=ic Council. C*~ rob. po. tekh.'Inform. I pivy. no.ls28-29 163. (m2RA 16a2) 1. Byuro tekhnicheakoy Wormtsii zavoda "Krannyy Aksay" Rostovskogo soveta narodnogo khozyaystva.  VANPAYEVA, V,G, p 1nzh.; GROMADA., G.M. Public qffIce of technological Information In a plant, Opyt, rab, po. tekb~.--~.fhform. I prop . no.3:49-51 163. (MIRA 16t12) ).. Byuro tekhnichaskoy informataii Rostovakogo zavoda "Krasnyy Aksay."  !*Wow o:Wq:: :W*;;;l W0,00-we 4-9- a a-* i I y a v a a w is V LiL" lee **A 00 VAXW, ~ MUM. 104.4%, AP92 14. (W ccq= V4-. 7.50. 24, X-C3 Oom Cc"" nzy I=", P"Um in 1000 P-u "go, see se& LffERATLICE CLASWCATOW 1.00 000 .00 no No@ woo %*Sdo u SINS 0 a 0 0 u 0 Af. 010 e o o *14 0 0 *0160010 *so* *for, of* so*** 00 -- *10 -- *of 0000000 0 0 * 0 0  VVIGELOV, A.; DILKGV, D. Eye measuring of the humidity of the surface layer of the soil. p. ri~ Khidrologiia i meteorologiia No. 2, 1956, Sofia., Biararia Monthly Tndex af Baot E-uropem Acecssfew (LTAZ~ IV,. ~)r"Zx, '5, %%. QQ~, Oct, 58  VAIJOBLOV, At. Utilizing Selianov's hydrothermal coefficient for characterizing the moisture of the surface layer of soll. Xhidro I, noteorolog no.2:37-47 960. ULU 10: 1) (Soils)  BAKALOVA, V.; BBIXVSKI., M.; VANGEIDV, A. Soils at the F-periment Station for Southern Crops of the town of Sandanski. Izv Inst "Nikola Pushkarovn no.2:159-3.96 162.  VAW&W, At. . The lower boundary of the optimum soil humi&.ty for plants* Xhidro i meteorolog no,2:60-69 1639  "NGELOV.),.At., , The fall and winter accumulation of moisture in forest maroon soils in Bulgaria. Khidro i meteorolog 4 39-49 163.  VANGELOV, At. Correlation bet-wean the moisture cf witheritg ard thr~ zz"Jllawi hygroscopic moisture of solb- . Khid-ro I wteoroloj 13 ri:3.5; 5C- 54 164.  VAITGELOV, G. "How We Organized A Geography CornerP, P. 24. (GEO(W.AFIIA, Vol. 41 No. 91 1954, Sofiyaf Bulgaria) SO: Monthly List of East E-uropean Accessions, (EEAL), LC, Vol. 4, No. 6, June 1955, Uncl.  JOU", RZhi~ioj' 195'), LIO. .31 013irlr. PUB. CA_~D; C !2-ay; Vant~alov, Kirl"l; vas-.',:Lr;v,,` --d r~! tv Ov ~11 8 Mani . tud., of B-~e( in Si--- o r of thn InaUt"It.tt All 'Bile City -of Knozh. `!aiichni tr,. Vissb. :~oifA:r)-3top4 in-t "G. ,17~-d tz~ov "o tek?m - f a'(. , 195,C), (), L17-1 07~ :1 tine wrdto 'Piiljr ed _,arign br, to their dcl-Tv.1op- m m nntp rv)-icartince, rroduct"vity, milk --roduc- A:-!on, prop u ,eny, and tho complex off, t'-.eir inzI.-Icators, The nmjorit-y of the boam i_-' c_han~,icterizetl by 'aavinb a well cha-Pod bcldy; "tromp- c,:)ns-ILA'T'uUon an(j aharacterlaties of the 'I ~ L_ meat-ljird type, AmOng tho 10 boars which mare subjected to a complex evabuttion, 8 worri choice anc 2 firtit rate animalso D1ntI.n^_tIvo 1/2 " ;rTsv(-.tko iaLr. 65  COUATRY CATEGORY ABS. JOUR. AUTHOR INS"' T IRZ' *- SULGIJ11A I RZhBiol., No. ORIG. PUB. : 19591 go$ AB3TRACT ! chartacteristics werA observed in Individual 21rid veco:ninendations am givem as to ljoy, to lise. ~hcm. Lyutikov 0 a. rd, ;.)12  MUIGAMIA Farm Animals. Swine. Abs Jour : Rof Zhur - Biologiya, No 5, 1959, No. 21266 Author ; Penchov, Kbristo; V_AngoloL Inst : Not given Title The Effect of Grain Foods of Different Coarseness in Terms of Its Grind upon the Fattening of Young Stock Orig Pub Zh1votnov1dstvo i vot. delo, 1958, 12, No 2, 16-19 Abstract The degree of the grain food's fragmentation was studied: fine grain, when the size of the fragments equals 0.2 - 1 mm; medium grind, 1 - 1.8 mm, coarse grind, 1.8 - 2.6 mm. The animals of the lot group were given finely ground grain, of the 2nd group, modium ground, and of the 3rd group coarsely ground grain. The fragment's size averaged 0.82, 1.53 and 2.2 mmi. respoctively. The composition of the grain Card 1/2 65  13UXARIA Pam Animals. Svine. Abs Jour Ref Zhur - Biologiya, No 5, 1959, No. 21266 mixture was the same for animals of the nano age arxi veight. The flour was given in a moistened conditioned. The experlment lasted until a live weight, of 150 kg was attained. This weight was obtained for the animals of the lot group In 212 daye, of the 2nd group in 218 days, and of the 3rd group in 223 days. The highest average daily weight gain amounted to 579 9 for piglets of the let group, to 561 g for piglets of the 2nd group, and to 5.65 9 for piglets of the 3rd group. For the let group, 5.56 feed units and 446 g of digestible protein were expended per I kg of veight gain, for the 2.nd correi3pondingly,9,5-78 and 463, and for the 3rd group, 5.98 kg and g. -- K. M. Lyutikov Card 2/2  BULGARIAIFerm Animelca The Swine Q-4 Abr- Jour j Ref Zhur - Biol., No 11, 195~8j No 900,54 Author Penchevs Khrirtol an..elov Kiril InEt Ninirtry of AgricuH re ""Namow Title t Tha Importance of Grolling in Grinding of Grain Fo4der for the Fettaning, of Young Swine. Orig Pub t ITauchn. tr. M-vo zomed. i goriti. Sor. Zhivotnovodrtvo i vat. deloy 1957, 2, No 1, 1'~~-28 AbFtrect : Three group- of piglet! were fed concentreteF of variou- grader of grinling. The fir t group received concentrete, ground accoreing to a 0.82 mm grebe, the ~-ccond according to a 1.5 = Erede, end the third eccm'ing to e 2.20 mmgrede. There were no lifferencer in terms of the food intake. In the 2nd group thz everEge daily veight gvin wac. 3.1 percent lower rnd --n thk, 3re. group 5.1' percent lover then in the lrt group. In the an! En,4. 3r-~ group , ro:pcctivclyj the expen- diturer of feed unitf per e!,ch lcg. of greinc,"' weight wer 4.1 percent and 7.7 pircent higher thsn in the Irt, group. Card 1/1  VANGEIDV, K. Thoroughbred awino) breeding In East Germany. Selskootop nauka 2 no. 3A 4-50-454 163.  VANGELOV, KJ ill p ~. Fattening of pigs of thq 'White Bulgarian Breed for bacon. wSelskostop nauka 2 r.-,,*-"J.-126.',-*;273 163#  VANGELOV, Kiril, st.n. autr. Bulgarian white pigs. 111ftroda Dula 13 no.5:46-49 S-0 '64. U I -itute of Animal Husbandry, Kolarovgrad. 1. Inst  Y., 4 r 27040. VANGENGETM, A. F. Vtorol rrizhdunarodnyl potrarnyl god. (Miro- vedenie, 1932, no. 5, p. 1-4, illus.) Title tr.: Second International Polar Year. Asumniary of the tasks of the Second Interlational Polar Year and the par- ticipation of Russian scientific organiza- -meteo- tions, headed by GMK (Gidro rologicheskil komitet) with empbasis on the close connection of meteorology and hydrology. Copy seen: DLC.  Iiv,I VANGUGRYM, N.A. 7ossil fauna of Is from the Qqaternary deposits in the lower Aldan Valldy. Izv. AN SSSR. %r. Geog. n0-3:72-74 Ny-Je 157. (MIRA 10:12) 1. Goologicheski3r institut AN SSSR. (Aldan ralley--Paleontology, Stratigraphic)  VANGENGEV, E. A. C&nd Geol-Mir ~~,i -- " Paleontological substantiation of the atratigraphy of the Anthropoged.~I-i- asiern Siberia (according to i0b fauna of A mammals)." Mos, 1960 (Acad Sci USSR). M, 1-61, 185) -85-  VANGXYGMLJ~.A. ZquuB stenonis Cocchi in the lower Aldan Valle7. Bita. X-om. chetv. per. no.25:100-101 160. (MIRA 14:1) (Aldan Valley-Horseo# Potion)  Pi VANGENGIUN, E.A. -1-J--, qaaternary mammals in the southeastern and ewtern Siberian Platform. Trudy GIN no.26.-96-115 260. (MIRA 13112) (Siberian Tlatform-Mammala, Fossil)  VA11GENqGN~1..Z._A.; GROIOV -V.I. doktor- geol.-miner.naukq otv.red.; MIRAKOVA, L*Vop red.izd'-va; UL1YA11OVAp O.G.,, tekhn.red. [Paleontologic basis for the stratigraphy of Quaternary sedimen'to in northeastern Siberia according to mammalian fauna] Paleontolo- gicheskoe oboonovenie stratigrafii antropogenovykh otlozhenii severs. Vostoelmoi Sibiri; po faune mlekopitaiusbebWA. Moskva,, Izd-vo Akad.nauk SSSR, 1961 181 p. (Akademiia nauk SSSR. Geologicheskii institute Trudyp noe48)- kMI1U 14t12) (Phleontology., Stratigraphic) (Siberia, Eastern)  VANGENGEYMj E.A.; GERBOVA., V.G. Some data on the time and conditions of sand accimllAtion in Tranabaikalia. Trudy Kom.chetv.per. 19:268-274 162. (MBA 16: 1) (TransbELikalia-GeologytStratigraphlo)  GROMV, V.I.; 7 #G~YM, E.A.; NIKIFOROVA, K.V. .1 Stages in the devel,opment of the Quaternar7 mewal fauna as the reflection of evolution stages of the earth. Izv.AN SSSR. Ser.geol. 28 no.lt46-65 Ja 163. (MIRA 16 j2) 1. Geologicheskiy institut LN SSSR, Moskva, (Mammals, Fossil) (Earth)  BARUN; W.W.; VANGMGE7YM, B.A. Age of the Bactrian series of Southwestern Fergana according to paleontological data. Dokl. AN SSSR 148 no.2:400-402 Ja 163. (MIRA 16:2) lo Vsesoyuznyy naucbno-issledavatellskiy geologorazvedochnyy neftyanoy institut i Geologicheskiy inotitut AV SSSR. Predstavleno akadmikaa D.I. Shcherbakovyme (Fergana-Geology, Stratigraphic)  VANGENGEYM, E.A.; CHUMAKOV, I.S. Find of Camelus knoblo4chi Nehr. fossils in the Rudnyy Altai. Trudy Kan. chetv.per. 22:147-149 163. (WRA 1712)  ALEXSANDROVA, L.P.; VANGENGM, E.A,; GERBOVA., V.G.; GOLUBEVAI L%V-l TWISK110 B. 1. New d&ta On & section of Quaternary sediments of l4ount Tologay (western Transbaikalia)o Biul,Kom.chetv.per. no. 28:81#.101 163. (MMh 17: 5)  RAVSKIY., E.I.; ALEKSOANDROVA, L.P.;_YARQE~GEYM, E.A.; GFRBOVA, V.G.; GOLUBEVA, L.V.; FEYVE, A.V., glavnyy'r~d.; NIKIFOROVA, K.T., otv. red.; RUZNETSOVA, V.V., red.; TIMFEYEV, P.P., red. [Quaternary sediments in the south of Eastern Siberia.] Antropogenovye otlozheniia iuga Vostochnoi Sibiri. Moskva, Nauka 1964. 279p. (Akademiia nauk SSSR. Geologicheakii institut. Trudy, no.105) (MIRA 17:10)  KA.1,17,YAMSKAYA, TAPN=;.~,"'TTY V 11 , VjIjNG'ITIC-~ Y", .1 ~ - , t 6~0 . . . - . !~ '. Po.;s-* b4Ality of via fiepa,-atitm :,f T Lt layers irt a r lgl.acial sedimpAts in the Tobc-Itak portion secti ,n of the per of the cis-Ural rtg rnn. lbul. Kom. c~hetv. Fer. no.291189-195 164. (KII-FLA l7e 8)  V-ANGEIIGEYM, E.A.; FIEROV, K.K. The moose Llces latifrons in Siberia. Biul. Kom. chetv. per. no.30:166-171 165. (MIPA 19:2)  , ~% , I - , f- 1 1, I: - bk4bV, P. N.., AIINIINSKAYA, Ye. K.-, & G. Ya.., and others. I Ss 22sednes sorekaletiye (An Experiment i~. Prelim--inarY ~Jynopric Analysis Tf"*?J Catastrophic Droughts in the Last 40 earss Part 1,, TsUYs(M, 1933o  U~- r'k- VANIGENGElY, .'. IA. Opyt primeneniia sinopticheskikh metodov k izuelieriiiu i -1 kharakteristike klimata. Moskva, Red. izd. otd. T~;entrallnoeo uprLvl. ;?idr~~-tneteoro"oz'. zluzhby SSSR, 1935. 109 p. DW93 DL(;: ~'~"'878-0 SO: LC, 0"oviet Geography, Part 1, 1951, Uncl.  VANG-ZjjGr-,Yl.,!. GA&. 4-j7,,-,t!cn of atnosphe,`-C r-'DCI- :3c;,7 F.T-729 f0., t--,_, cueotion 0, typizati-con a-nd ~ : -12 1- , L, sov. K voprosy 0 'u-iPizatsii J !kheratizats-ii atmooforrvk-q :-,rc~ses i i ,iclrclo,,,Iia, (3): 38-58, 1938. - q ILC metoorolozi.ia  U-IT j,"-.ii~- , u. !'a. .. .4 _ - "Long-terra Forecast of Air Teraperature and 13pring Break-u!-., of IlLiver Icei'll Trudy GGI, No 10, 1940 SO: U-3039, 4 har 1953  v i -11". - I 1.1*.~ 11 I'll U. ICL. "Prediction of Seasonal Distribution of Meteorological Elements," Igypstija AN -v..-3o,-,raf. i p,,eofiz. (News of the Acade-ty of Sciences U33H, G-m-ra-hic and seriva 1, - - Geophy3ical Seftes) No 3, 1941 SO: U-3039, 11 I-,Iar 1953  VANW16mi'v r-o-ya# "Ice Uorditiona of Um Boring Soa in tfonnection with Various Typon of Atmosphuric G~rcula- tio%ll W-orks of Scl-Ber; Institution of Wo Wn Adijanintrutlon of' Lno llydromatourologic,,sl Service USSR, Series V, No 12, 1946 (7b-99). (Meteorolor,i.ya i Gidrologiya, No 6 Nov/Dee 1947) SO: U-3218p 3 Apr 1953  V,4N6-GNGf'ym Cr, \/)4* 'FE10ROV, TeJeu, -professor; PMTECEENSKIT, P*Po; IKJCHINSKIT, I.Ye.; WANINOV, G.T., profesaor; BOSIMO, L.T.; ALISO7, B.P,; BIRYUKOT, N#N,; GALITSO7, A.P.; GRIG(MITZ7, A.A., akeAemik: ZMTSON, H.S., prof6asor; MMTO7, N.S.; KHROMOV, S.P.; BOGDANOV, P.N.; LE1201Y, A.N.: SOKOLOV, V.N.; YANISH97SKIT, Yu.D.; SAMOYLENKO, V.S.; USMA- NOV, R.F,,-, CHURNOV, L.A.; TROTSNNK0, SoYa.; _TANqjlEEjRj"G.Ta.; SOKOLOV0 I.F.; STM, B.I.; TFJWAOVA, N.S.; _T3XTW-,l0A_6; DXITRIYEvu A.A.; MLLYUGIN,-To.A.; LIEFAAA. Ye.K.; SAPOZHNIKOVA, S.A.; RAKIPO- VA., L.R.; POXROVSXAYA, T.V.; BWDASARTAN, A.B.; ORIOVA, V.V.-, RU- BINSHTM, Ye.S., professor; MILEVSKIT, V.Tu.; SHCHEMBAKOVA, Te.Ya.; BOCHKOV, A.P.; ANAPOLISKATA, L.Te.; LUITAYEVA, A.V.; UTESHU, A.S.; RUDNEVA, A.V.; RUMENKO, A.I.; ZOWTARET, M*A.; MSEBYAN, A.G.; MIKHAYIDV, A.He; GAVRIWV. V.A.; TSOMAYA, T.I.; DXVTATKOVA, A.M.; ZAVARINL, M*V.; SHMETER, S.Ms , BUDYKO, R.I., professor. Discussion of the report, (in the form of debatea) Cof the c=ran-, state climatolo lea! research and methodii of developing it]. Tnform. sbor,GUGHS no.374,1:26-111-4 154. (MLRA 8:3) 1. Chlen-korrespondeeb Akademll nauk SSSR (for Fedorog,). 22. Gla7naya goof izicheslmyfi, observall-oriya Im. A.I.V.~eyko-7-a (for Predtechanskiy, Lebedev, Yanishevskiy, Isayev, Raklp-jva. P~)kr,)-vskaya, Orlo7a, Rubir~- shteyn, Budyko, Shcherbakova, Anapollskaya, Dunayera, Rudneva,Gavrilov, Zavarina)- 3- Ukralaskiy nauchno-lealedovatellskly gidrometeorologicho- ski7 institut (for Buchinskiy), (Continued on next card)  y-gWROV, YO.Ye., professor; PREDTECHENSKIY, P.P., ard at,tevv. Discussion of the report (.1n the form of debatt,3) [of the ctaranil- state climatological resear,--h azzicl metKrAa sf it-1. Inform. sbor. GUGMS no-3/4-.26-154 1540 (card -,) (MLRA 8:3) 4. VaesoyuzW instltiito re-sterLievcdat-ra (for Selyaninov. R-udenko). 5. Bioklimaticheakaya stantstya Kislcvodek (for B-johno). 6, skiy gosudarstvennyy universitet im. M.V.Lomonosova (for Alisov). ?a Ministerstvo putey soobshchenl7a SSSR (for Biryukov-). 8. Inat.1- tut GeoVafil Almdemii nauk SSSR (for Gailtsov, Grigorlye-7). 9. Gec- fizichaskaya komisalra Vsesoywaogo geografiche--ikogo obahchest-t-a (fo.- Zygenson). 10. Miniaterstvc elokbrostvantsiy i elekL*ropromyt3hlenn,,.;st1 SSSR (for Muret-07). 11, Lenlngradeki7 gosudarstvannyy universitet Im. A.A.Zhdanova (for Khromov). 12. -Wentrallnrf nxaohnz;-i9e1edovatel'- q L 51dy gidrometeorologicheskiy arichliv (for Srjkoll,.~v, Zoiobarev). '3. Gj- sudarstvenW okeanograficheskly tustitat (for Sazoylenko). 14. TSen- trallny7 institut prognozo-7 (for Usmano,7, Sapozhnikova). 15. Institut ,geografii Akademii nauk SSSR I TSontrallgry ILStItut kurortolvgii (fQr Chubakov). 16. institut imeni Sechen--,va, Yalta (for Trotzerako). W. AxkUcbaA1.T ina ti tut (f or Vangengaym) (Continual ou next, card)  ]TOOROV, Ye*Te4, Profeasoz; PRKMCIMNS-KIT, F.P,,, and otherso Discussion of the report (In the form of debates) [of the current, state of climatological research arA metlwds of develcping it]. Inform.sbor. GUGHS no.3/4:26-454 '54. (Card 3) (MLRA 8:3) 18. Dallnevostochw- nauchno-lssledovatellskiy g1drometeorologiche- skir institut (for Sakolo7). 19. Institut geologi.1 I geografii Aka- demii nauk Litovskoy SSR (fcr Sty-r;~,). 20. ROSt0'7-3ko8 upravlenia gidrometaluzhb,7 (for Temnikova). 21, Morakoy gidrofizishaskiy Ir,3t' tut AkademiI, nauk SSSR (for Dmitriyev). 22. Vaesoyuzny-.( instit-w. rasteniyevodstva (for MalMin). 23. Akademiya nauk Eatonskoy SSR (for Lled6wa). 24. Akademiya nauk Armvanvkoy SSR (for Bagdazaryan). 25. Leningradskiy gidrometeorologicheakiv inatitut (for Milevskiy). (Continued on next card)  JZDOROV, YeJe., professor; PMUCHENSKIT, P,Po, and otherao Discussion of the repor-b (in the form of debatee) [of the current state climatological research atd methoda of developing it). Informo'bor, GUGMS no-3/4:26-154 154* (Carl 4.) (HIBA 8:3) 26. Gosudarstvenny7 g1drologichaskiy*1natitut. (for Bochkov), 27* Ka- zakhakiy nauchnc-lealedoratellski7 gicirometeoralogichaskiy- inotitut (for Uteshey). 28. Upravleaie gidrometaluzhb7 Axmyanskoy SM (for Nor- sesyan). 29o Ieningradskoye upravleniye gidremetsluzhby (for Mikhaylov, Devyatkova). 30o Tbilieskljv gosudaretvanW universitet (for Tsomaya). 31. Mentrallnayv% aerelogicheekaya observatorlya (for Shmeter). (Climatology)  VJJIGXIJGNY~,, G.Ya. Displacement of atmoopherid activity centers and the aid- latitudinal zonal current dujk to transforvations of the western circulation. Probl.Arkt. 6.5s47-55 158- (HMh 1335) (Weather forecasting)  zi Nil IN Ail 8 1 1j,  ILL" IL 1:3 iff'! Eli -N a : :*7 Vg gi x f f VL  UTS, Abram LIvovich; prof., ratoonzent; PMOVSKAYA, T.P,, kand.nauk, retsenzent; SAGATOVSKIT, N.V., red.; VLADIHIROV, O.G., tekha.red. (Seasonal variations in general atmospheric circulation and long-range weather forecastIng) Sezonnye ismoneniia obahchei tsirkulistaii atmoafery i dolgooroc" prognozy. Leningrad, Oidromteor.i2d-vo, 1960. 269 p. (KMA 14:2) (Weather forecasting)  3/16 62/000/001/047/083 D228YJ)302 AUTHOR: Vangengeym, G. Ya. TITLE: The degree of homogeneity of the atmospheric circula- tion of different parts of the northern hemisphere at the time of the basic forms E, W, and C PERIODICAL: Referativnyy zhurnalq Geofizika, no. 1, 1962, 43-44~ abstract 1B282 (Tr. Arkt. i antarkt. n.-i. in-ta, 240p 1961, 4-23) TEXT: On the grounds of analysis of the interrelation of processes in the northern hemisphere, and on the basis of data about their homogeneity at the time of the forms E. W. and C in different parts of the hemisphere, it is established that for the Eurasian sector the homogeneity is greater than for the American. Cases of the prolonged development of the basic forms, when the homogeneity increaues over the American sector but diminishes over the Eura- sian, are an exception. For America, too, however, the maximum probability of the sign of temperature anamaliee does not fall be- Card 1/2  The degree of S/!69/62/000/0011/047/083 D228/D302 low 8C% in all instances of standard characteristics, and in 33~% of the cases it exceeds 90%. For the eastern circulation there a close asynchronous connexion (with an advance synchrony of 1 month) between the type of circulation and the pressure 4nomalies over Eurasia and in the zone of the Aleutian Islands. 14 referen-- ces. Z-Abstractor's note: Complete translation.-7 Card 2/2  7x:,  attcnpt --r a stiluY ed s c 0%,  ~Izl at 41 stulcilv . . . D-2 U_ 3 /'L~' -71 0 7 pure di-2:1Lerence.s for ncicthborinc--' months durintt, the period in ch the tvnes of ci rculation are --rocescen c~ t.-,.c dcvelc--~- in, t'-Icir e-r-i'l-v -variatior. 7"._'nL or d S. sturl-)_lncc~; mav alSo -Fojl.o-,;r,-j~ cz: r t t, Card 3/3