SCIENTIFIC ABSTRACT BELOV, N. V. - BELOV, P.N.

VOIDDINA, G.F.; RUMkNOVAj,-I.M.j,.EELDV,, N.V.,, akadamik Cr7sta,Mne structure of ceDOBIte Ca2(Y. TR)2[Si N Dokl.AN WSR 349 Ao.lsl73-175 Mr 163.- 1. Institut kristallografti AN SSSR. (Conosite) (x-ray crystal' grap1w)  GUANI Yk-STAN' [Kuan Ya-hsien]; SIMNOV, akademik Crystalline structure of "bafertisit" BaFe27iOZ'Si2O7J7(OH)2- Dckl. AN SSSR 149 no.6:1416-1419 Ap 163. (KIRA 16:7) 1. Institut kristallografii AN SSSR. (Silicates) (Minerals)  KHEIROV, M.P.; MAHEDOV, Kh.S.; BELOV, N.V., akademik . Cryatalline struature of rinkite Na(Ca, CO)2(T" COO CSi~g F. Dckl. AN SSSR 150 no.ltl62-164 My 163. 16t6), (Rinkite)  GAMBOVI R.S.; GOLOVACREV, V.P.; MAMEDOV, Kh.S.; N.V., akademik Crysta.Uina structure of hopeite zn 'CP04 72. DAL AN SSSR 150 no.,2.-381-384 )tr- IZ3. iWRA 16:5) (Hopeite)  NSRONOVA', N.N.1= NITIlp akademik CZ70ta3line structure of I idite N42-r Si6 3H20, Dimorphism s 0 no.32 of dimeta ca A St 15 ilicate radi 1* 54015). Do 09 a (MMA..16;6) 642-645 My 163. 31pidite 0178t&ls) dioa341 (Chemistry-)) M  SOLPVIYEVAp L*Fe; J-E-LO-V akademik., Crystalline structure of hodg~inaonite-Zn 2Ha(SiO43 (OH) Dokl. AN SSSR 152 no.-2t327-330 S. 163.' 6ig i6all)  KURBANOV, Kh.M.; RUMANOVA, I.M.;, .,,,,akademik Crystalline structure'of probbrtite CaNa[B507(OH)'4)-3H20. Dokl, AN SSSR 152 no.5tllOO-1-103 0 -163. (MM 16t12) ME   SMIMIOVA, N.L.; KIRIIII, M.B.-, BELOV,,'II.V. Fedorov group (1~0) as a generic indicant of the family of crystal structures. Zhur. strukt. khim. 5 no.5:719-729 S-0 164 (MIRA 181l) 1. Moskovskiy gosudarstyennyy universitet imeni M.V. Lomonosova. -  -1 55004.45, ........ ..... ~4_7 Pr-4/Ps-:4/Pu-4 iJP(t) MIJKIZIGSIATACH At CE3~1014 NTI: AT5007722 S/0000/&1/000/000/0009/0021 C AUTHOR: Belov, N. V TITLE: A c rystallo -chemical approach to gome peculiarities tr the behavior of oxides at I high temperatures SOU RC E: AN ~SSSR. Inslatut Uiniff silikat-ov. SUlkaty t okis ty v khimit vysokikh temperatur (Silicates and oxides in high-temperature chern-Istryl. MZ00w. 196,3, 9-21 TOPIC TAGS: hot oxide behavior, phenomenological analysts, lattic4 enthalpy, magma crystallization sequence, phase conversion mechanism ql~ ,,AIRSTRACT- The report discusses the behavior of various oxides (Cao, MgO. S102, AIZ03t.1 at high temperatures. Phenouienological and crystal lattice arc, used to illustrate the sequeiu~e of cooling and crystallizzwon of magina- Details i3f the nal szi~icture are analy7ed for their stgnificance to ener-~;-y rvquirezrnents in solid to 'I"he rpport deals speciftcaJIY the ~~)ordlnatior,,U w moic-cujar  W2 c drd L 55004-65 ACCESSION NR: AT5007722 ASSOCIATIOU: None SUBr-,UTTED: 0000063 ENCL: 00 1110 REF SOV: 007 OTHER: 004 2/2  BELOV, N. V. ------------------- "New crystallochemical data which can be used in vitreous state theory." report submitted for 4th All-Union Conf on Structure of Glass, Leningrad, A-21 YA-,. 64. Moscow Inst Crystallography.  inzh.; NQM, V.N., inzh.; OBRAZTSOVA, N.V., inzh.s red.; .YALYSHEV, Z*S., inzh.., red.; KOFEYKINA, L.V., red. of industrial thermochemical testing of barrel (Methods boilers] Metodika ekspluatatsionrykh teplokhimicheskikh ispytanii barabannykh kotlov. Moskvap Izd-vo "Energiia 1964. 126 P. (MIRA 17:61 Is ORGRES, trust, Moscow.  BOKI7, rxeorgiy Borisovicb; PORAY-KOSHITS,, Mikhail Aleksandrovich; BELOV, N.V.p akademikp red.; DOLIVO-DOBRMLIMYA, Ye.H.p - r ad. (X-ray structural analysis] Rentgenostm&turnyi. analiz, Mo- skvap Izd-vo Mosk. univ. Vol.l. Izd.2. 1964 488 p. iKM 17:12)  EELOVO_N-V- NERONOVA, N.N.j KUNTSEVICH, T.S. Dra,6ings showing crys tal structures in Shubnikov antisymmetry groups. Kristallografiia 9 no.2:147-154 Mr-Ap'64. 1. Institut, kristaliografii AN SSSR. (MIRA 170)  - BELOVI N.V. -~ ' RoUclature no.3096-397 of Bravais lattices. Kristallografila 9 YT-Je 064. (MIRA 17j6)  KIOSSEP G.A.; GOLOVASTIKOV, N.1o; BELOV, N.V. X-ray diffraction examination of active (d-) and racentic (d, 1-i1 Sb-tartrates. Krijitallograflia 9 no.3s402-403 Ily-Je 164. (MIRA VtO 1. Institut kristallografi4l AN SSSR.  SOLOVIYEVA, L.P.j,j~_, N.V. I Refined crystalline structure of bertrandite Be4[Si2O7) (OH)2- Kristallograftia 9 no.4*551-553 JI-Ag 164. (MIRA 17:11) 1. Institut kristallografii AN SSSR.   MUSTAFAYEV, N. Me; ILYUKHIN, V, V.; BELOV N V akademik :::~~ I Crystal structure of roselite Ca2Co[AsO4]2.2H20. Dokl, AN SWR 155 no. 2:353-356 Mr 164. (HIM 17:5) 1  KIOSSEJ, G.A.; GOLOVASTIKOV, R.I.; BEIDV, N.V.,, akademik - ---------- Crystalline stnicture of the mixed d.1-NHOb tartrate o" d;l-(NH4)2(Sb2(C,4H406)21-41120- Dokl. AN SSSR 155 no. 3: 545-548 Mr 164. (MIRA 17.5) 1. Institut kristallografii AN SSSR,  BORISOV, S.V.; BRUSENTSEV.0 F.A.; KIEVTSOVA-9 R.F.; BEIDV, N.V., akademik Crystal structure of creedite Ca3Al2(1? 0011)1004-'H20. DAL AN SSSR 155 no. 5:1082-1084 Ap 164. (MIRA 170) L Institut neorganicheakoy khimii Sibirskogo otdeleniya AN SSSR,  NIKITINt A.V.; ILYUHIN, V.V.; LITVINY MI.; MEIINIKOVy O.K.; BELOV, N.V., akademik - -." Cryst&l structure of synthetic sodium titanosilicate Na 2(TiO~(SiO41. Dokl. AN SSSR 157 no.6:1355-1357 Ag 164. (MIRA 17:9)  BORISOV, S.V.; KIZVTSOVA, R.F.; BELOV N.V., akademik Crystalline texture of "uklQnsko it Namg[,qo4](nii)d2H v 296 Dokl. AN SSSR 158 no.ltI16-118 164 (MA i7:8) 1. Institut neorganicheskoy khiraii Sibirskogo otdeleniya AN SSSR.  BELOV9 N.V. ,-,- No* 14. Outline of structural mineralogy* Min abore uo*17:3-34 163. (HIRk 1701) 1, Institut kristallografii AN SSSR,, Moskva.  BIYUSHKIN, V.N.; BELOV, N.V. Gross sections of doubled Paterson functions. Kristallograflia 9 no.6t771-777 N-D 164. (MIRA 18:2) 1. Institut kristallografii AN SSSR i Institut fiziki AN Moldavskoy SSR.  ABRASHEV, K.K.; ILYUKHIN, V.V.p*jllM N-Z.,_ Crystalline structure of barilite Br~",92S1207- Use of difference eyntheses for the exposure of light atoms in the presence of sufficiently heavy atoms. Kristallografiia 9 no.6:816-827 N-D 164o (MIRA 18:2) 1. Institut, kristallografii M SSSR.  MUSTAFAYEV, N.M.; ILYUMI, l,.V.; BEIDT, N.V., akademik ,~~Vtalline structure of K-nuorobaryllate K2BBF4(BEL2S'C")' Dok" AN SSSR 159 no.6t1287-M9 D 164 (MlRA l8d)  ZAGALISKAYA, Yu.G,l BELCV, N.V. 14 Bravais lattices as generators of 230 Fedorov symmetry groups. Zhur, strukt. khim, 5 no.607&887 N-D 164. (MIRA 1834) 1. Moskovskiy gosudarstvennyy universitet imeni Lomonosova.  NERONOVAI N.N.; BM,GV, N.V. of elpidite Na2Zr fS'60'15 I 3k-,(). Kristallografiia 9 no.6:828-834 N-D 164. (MIRA 18:2) 1. Insti-tut tieorganicheskoy khimii Sibirskogo otdaleniya AN QSSR.  WKIITIYEV, X.M.; GAMIDOV, R.S.; MAMEDOV, Kh.S.; EFLOV, N.V., akademik Crystalline structure of the Bi-molybdate B12(McO/,]3- D'Okl- AN SSSR 162 no.3:563-564 My 165. (WRA 18:5) 1. Institut khimii AN AzerbSSR.  BELOV~ N. V, Outlines of stractural mineralogy, Part 15. Yin.sbor. 18 no.-31:5-15 164- (MIRA 3.8:5) 1. Instit-ut kristallp-grafii AN SSSR, Moskva.  0 BELOYI_A.Y. ~ _ _ Outlines of structural geology. Fart 15, Min.sbor. 18 no.4':223-125 - 164a (MIRA 18:5) 1. Institut kristallografii 0 SSSR, Moskva.   . ]BELOV.-R, Noy?, --~ '. !.j 11 -- I :~ Mineralogy at the 6th International Congress of Crystallographers, , Zap. Vaes. min. ob-va 93 no-3:249-259 164. - (MIRA 18:3)    ~~    SIMONOVO, M.A.; akademik Crystal structure of the.Na, Zn, Cd- metasilicate Na4ZnCd[SiP6]20 Doklo AN SSSR 164 no'62t406-409 S 165. (KIRA 180) 1. Moskavakiy gosudarstvannyy universitet.  KOSTOVI Ivan, prof.; ~~ ~A akademik(translator); MAYXOVA. Te.J... red. (Crystallography. Translated from the Wlgarian] Kri- stal.lograflia. Moskva, Mir, 1965. 528 p. (MIRA 18:3-2)   CHICHAGOVI A.F.-, ILYU-111H, V.TI.; V.., nRaderiik Crystal structure of cadmium tungstate U1104, Doltl All SS.SR 16.6 no.l.-.87-89 Ja 166, 411PA 19:1) 1. Moskavskiy gosudarotvennyy universI.Wta im. M.Lomonosova i Institut kristallografil AN SSSR.  7- IJP(c) P YL -T.4 'T NR: AP6027 1~- ACC / ) -SOURCE CO 84 DE: UR/0020,/65/165/001/0088/0090 Kqzfiiiin~ E. A Aunto R. BeIkWj K~ V. (Academician) r1!~yStateUn1versI!XJxn NJ'Lobachevoldy (Gorlkovskiygosudarstve univerafteo - Instilute of crystallography,.Acad.emy of: Sciences SSSR (Institut kristallografil Akadendi ni ~SSSR) A., TITLE-. Crystd.etructur6 of. the s~mpleat La and Sm silicates A SOURCE: Ai;'SSSR. .1i 165 no.L 1965, 88 90 I GS: samar um~ coinpodnd ~'lanthanurd compound, silicate, crystal stiuctur6 TOPIC, TA ounlysts ABSTRACT: Single-glyst1j' 12 02 ox~ratal: chips'of the: ompounda La 0 SiO La2N :SM J&ate2 abdft~() -is 910~, .3-2SIC) synthesized at the Insti try, 203 tute of hem AN SSSR titut =1 81lik1t0V) -1eningrad (Ins were structurally analyzed by: x-ray diffraction. The unit cells of the hypothetical compounds La,,O 2SiO2 3' SiO and La2O3' were found to-be completely^idehtlcal,,indicaii~g that these c"0mpQs are Identical; tbe 1,4" same applied to the' Fhn silicates. ~.Powder patterns of the La and Sm, silicates were strildngly similar to, those of britholite, a structural analog of apatits The atomic. ard 1/' 2 :4 UM. 648.7.' T C     '% ~ - .: -, -, ., -. .. 1 .1 - ~ .1 .-1 . . I ~ i -. ~,-. :. .  'L 079o4-67 :'W(ja)/C- JD Acc NR: AP60W4: SOURCE CODE: Chichagovi, Vo DbM' Ast UlVO070166101110041068610689 0, AUTHOR. yan L. N.;, Il uk np V,__V V. _y _Ai Bolovt 11, ffAw I.ORG: Institute of CnrstAlo riphy AN SSSR (Institut kriotal-lografii All SS~R); :Yloscow State Un1versjMAmj,';Hj:V, Lo~~v (Moskovskiy gosudmtvwjW univei J? 'TITLE: synthesis.~ and-brystil!straoturo of cadmium mol date .SOURCE.' Kristano ho. 4o 1966t A-60 9 ITOPIC TAGS;, ~eadmium'.'eoldpound'vi"~~i6lybdate, crystallizationt exchange reaction, stoichiomotry, crystal,':lattice stmeture JABSTRACT: Tho'singlo cryitatls. of.Cdl-$004,woro the product of hydrothorml crystal- ilization in the systoms'CdOJ10O3-XCl-H20 (11 = Lip Nag X). The synthesis was in an 'autoclave with w6rking.,chambor volume 43 __ 50:cm.31-at pressure 1,000 - 1,500 atm for 3 -- 5 daYs. During _thR~,h ydrothormal synthosisp in addition to the dissolution of the componont6i their tiansport#,and orystallizatioh of the cadmium molybdate in the cold zone df'tho' &'u"t'oaavep an exchange rodotion between C&160~ and LiCl was observed in th9.li4uid'.phase:at.1iCl concontrations larger than 20%, with formation of a mixed Li-p-. Cd-mo1Yb4U'::*t_ -constant but non-stoichionstrio compositions The UDG: t Card 1/2 R  L 0790h-67 ACC NR: AKQ24671~-',.., Colo tl single crystals were.. ith dimonsions up to 3 mmo with to n having paramotors trago al lattice a Mo 0 3.1-19 1 (Z = 4)1 space group 'S O:C the structuto and"tablos-of.tho coordliatos of the atoms C4h" = I41/a. gramal distances aft presented -:, T~ and of the intoratomic i-,- 0 PrOporties are comparad with those oj datos. orig.-, other molyb. a and 2 tables. SUB OODEs. -.DATE.. 0466/ ORIG REFj 0031. OTH,REF: 004 4~ N Y A:~f- 01 z~, R. X~ 4,0 IM 'P-  N": A117009591 SOURCE CODE: Un/0020/66/170/005/1070/1072 AUTHOR: Shchedrin, B. M ; qq_Lqy.,.-N.,_Xt_(Acadcm i c inn); Zhidkov, N. P. cite University in. M, V. Lomonosov (Moskovskiy Cosudarsvrennyy ORG, Moscow St. universitet) TMIX., Mterial point method in the structural analysis of crystals SJURCE: AN SSSR. Doklady, v. 170, no. 5, 1966, 1070-1072 7'OPIC V.GS: crystal structure analysis,, xray diffraction analysis SUB CODE: 20 ADSTRACT: A method Of "thO MAOrI061 point" ims dovoloped for the struct-j~aj amlysis of crystals. In this met-hod tho totality of Parawtera to be dcfinod by coordinates of an absoluto minlauna is asounod to corroopond to coordinatoo of som3 matorial point that romains on a zurface doscribod by a solootc4 function in an n-dimewinal spaco* Urder thu action of a conlitional Cravity. foraj, tho rztorial point is diop)Acod and I.OrAa to got :Lnto rogiona of m4nI=1- potorrvial anorMr. Math-tical cxpmsoiona based on thooo coneopte havo boon derived for calculations to ba ear7icd ott in etructurra analpia, By applyins t1ho notbod dosoribod., authora tbw dov-ormIzad th% aryatal evractum of Ni-nitrodioth71cvMi^-,'-o chlorldo /Mcn2X~~Cjen tho basic of X-ra7 diffraotion.data,.! Oria. art; has: 6 formulas, LJPF~.;~ -40,059 UDc: 548  32-10-19/32 AUTHOR; Belov., _N.Ya. Director of the Central Laboratory of the Kirov. Plant TITLE; coments MIODICAL: Zavod3kaya Laboratoriya, 1957, Vol 23, Nr 10, pp 1219 1220 (USSR) ABSTRACT: In his report delivered on the occasion of the 40th anniversary of the October revolution the director of the laboratory of the once-time bi,",;est arms-factory of Russia (Putilov3kiy Zavod) gave a historical review of the activity of t1n laborato17 vnich was tinder his charge and at which already in 1904, ouch well-!mown Russian scientists, as '.3elyayev, Lipin , 'Tudtsov, and others %Tork- ed. At present, the physical raothods of analysis are applied by preference in the work-laborator;r. Since 1939, ultrasonics-defec- toscopy according tb S. Ya. Sokolov has al2o been introduced in this laboratory. A collective of metallophysicsts of these works under the direction of 7.imhev, P. I. , P. F. Vasilevskiy, and L. S. lavrentlyev introduced a perfected powder-magnetoscopy for the exa,.-iination of ferromagnetic materials. With the assistance of the collaborators of the national institute of optics luminescence. Card 1/2 defectoscopy was also introduced here for the investigation of  32-10-19/32 Ca=ents nonferrocagnetic materials. Since the production of various spe- cial alloys with certain properties was introduced a mass control of the finished products in view of ma,-,netic permeability was in- troduced. At present, there is also a division for radioactive iso topes attached to the work-laboratory by raeans of whica satisfac- tory results were already achieved by obtaininZ tunigsten fron the scrap of open-hearth-furnaces by applyinS tunasten-isotopes (17185) in Mnich case the extraction of tungsten increased bY 80 ~.'. it is contemplated that the same process should be introduced for the purpose of winning. titaniun within the near future. ASSOCIATION: Tsentrallnaya lqboratoriya Kirovskogo zavoda (Central Laboratory of the Kirov-Plant) AMIABLE: Library of Congress 1. Science-USSR-Progress Card 2/2 .1  25(0) SOV/32-25-1-2/51 AUTHOR: ,4~,Belov~N ~Ya Chief of the Central Laboratory of the Kirov Machine Building Plant. TITLE: Articles and Suggestions of the Directors of the Central Factory Laboratori-ea in Connection With the Theses Laid Down by Party Member No So Khrushchev at the XXI Congress of the CPSU ' "Control Figures of the Development 'of,%-National Economy of the USSR in the Years.1959-19651' (Stat ji i predlozheniya rukovoditeley Tsentralinykh zavodskikh laboratariy v svyazi. s tezisami doklada tovarishcha No S. Khrushcheva na XXI sllyezde KPSS "XontrolInyye tsifry razv11tiya narodnogo khozyaystva SSSR na 99-19 PERIODICAL: Zavodskaya Laboratorl.ya2 19591 Val 25, Nr 1, pp 5-7 (USSR) ABSTRACT: Card 1/3 The Kirovskiy (Putilavskiy) zavad (Kirov(Putilov) Plant ) is a machine building and metallurgical plant; the tasks of the factory laboratory are therefore very extensive. It Is intended to carry on the f%otory laboratcry tradition founded by No To Gudtsov. Reeintly, a process of dispersion hardening of alloys was worked out by A. No Zhironkin, 1. D. Fichakhchi, A. I. Kanavina, and others. The new t--ade-marks DT, LKZ and  SOV/32-25-1-2/51 Articles and Suggestions of the Directors of the CentraZ Factory Laboratories in Connection With the Theses Laid Down by Party Member III. S. Khrushchev at the XXI Congress of the CPSS "Control Figures of the Development of National Economy of the USSR in the Years 1959-1965" KhNTF are manufactured in the above mentioned factory. 45 million tractor tracks of G13 steel are cast yearly (2 millions thereof in the above mentioned factory). Unfortunately,.this steel is not durable, 'but the factory mea-banine are not in a position to work on harder steel. A plant is being planned for the continuous casting of rod iron (of a diamet-er of 350 mm) and iron processing tests in vacuum are being carried on. Thanks to factory engineer P. M. Platonov's contribution, caat.linings are manufactured in the USSR. The following engineers are working at the above mentioned factory: V. L. Anokhin, Ye. M. Zimneva, Yu. V. Yelttein, A. Mo Nakh-Imov, A. I. Gahertset- veli? L. D. Khinskiy, A. No Zhironkin, and many others. The chief of the Steel Laboratory, V. M. Zamoruyev recently defended his doctorts dissertation. A laboratory is to be set up in each department of the factory, following the example of the zavQd im. Likhacheva (Factory imeni Likhachev). This year it ha3 been set up in the rolling -mill and previously Card 2/3' already in the turbine and thermical department.  SOV/32-25-1-2/51 Articles and Suggestions of the Directors of the Central-Factory Laboratories in Connection With the Theses Laid Down by Party'Member N. S. Khrushchev at the XXI Congress of the CPSS "Control Figures of the Development of National Economy of the U3SR in the Years 1959-1965" ASSOCIATION, Tsentraltnaya zavodskaya laboratoriya Kirovskogo mashinostroi- tellnogo zavoda(Central Factory Laboratory of the Kirov Machine Building Plant) Card 3/3  30(l) SOV/118-59-9-11/20 AUTHOR: Belov N.Ye., Engineer TITLE: Containers for Transportation of Wooden Articles PERIODICAL: Mekhanizatsiya i avtomatizatsiya proizvodstva, 1959, Nr. 9, pp 49 (USSR) ABSTRACT: The Tellmanskiy Lumber Industry Economy of the Trust "Tatles" successfully uses cheap lattice-work contai- ners for carrying, keeping and transporting smallsize wooden articles. Containers are made of a low-quality wood; their sizes are 2.lxl.3x2.1 m; capacity - about 5 mY(pig 1). The loading and unloading with the aid of such containers is performed by automobile cranes, electric cranes of a 3-5 ton loading capacity, or by excavators E-505 which are provided with a special loa- ding frame protecting the containers against possible damage during the loading. A truck can take 2 contai- ners at a time (Pig. 2); a rail-ro4d narrow gauge flat- car - 4 containers, and the broad gauge flatcar - 8 to 12 of them. For inter-plant transportation it is very Card 1/2 convenient to use the auto-loaders 4000M (Pig. 3).  SOV/118-59-9-11/20 Containers for Transportation of Wooden Articles Application of such containers increases almost 2.5 times the efficiency of loading and unloading; more- over, it eliminates the necessity of supplementary packing of wooden goods. In the course of March-April 1959, the Tellmanovskiy Lumber Industry Economy deli- vered to the consumer-plants over 40 flPtcars loaded with such coniainers, representing 3/4 of its en- tireproduction of wooden article,-. 12here are 3 photographs. Card 2/2  h2122 8/109/62/007/010/009/012'-~-' D266/1)308 0 AUTHORS; Vlasovq A.D,t and Belovt N.Ye. ;T.ITLE-. Quality factor of the amplifier a age's and of the out-; put circuit of a wide band klystron 'PERIODICAL: Radiotekhnika i elektronika, v, 7, no. 10t'1962t 1787 - 17914 -TEXT: The purpose of the paper is to discus6-the de,Pign-of a multi- .cavity klystron.resulting in an optimum 6ain-bandwidth-'factor, The optimization is carried out for two parameters ~D and Vp where the-~.. former is concerned with the amplifying atag68 and the.latter solely, with the output circuit, The definitions are as follows Z k and -Tr Q Q Where 1/Q 3 db bandwidthp k - gain of a single staget n - ele ctro- nic effi~ciency. Assuming staggering tuning but otherwise identical stages, i/Q and k represent averaged values# The calculations are performed for anannular beam of electrons (outer radius al and Card.1/3  Quality factor of the amplifier ... D266/D308 inner radius b) moving in a tunnel. The resonators are of the usual- reentrant type, where R/Q is approximated by the following formula E 2 (21 R C C, )2 (8) where 21 width of the interaction gap, d - inner diameter of the drift tube, C21 a2 constantsv taken 'in one particular case as C C! 110 and E 4z- 03, Similar approximation is used -for the plasma 2 2 frequency reductionfactor which is written in the form P = cip (7.) where C1, el - constants afid p is the normalized mean radiust de- .fined as a.+ b Vj__ v _2 p2 :where w - angular frequencyp v - beam velocity, P v/c' c veloci- ~ty of light. The gap coupling coefficient is taken as Card 2/3  B/109 62/007/010/009/012--i- Qualtiy factor of the amplifier ... D266YD308 O(P) M rump i O(a) (9) -0- ,vihere,Iop Jo - Bessel functions, a/b, a.= ~Lvl 0 and are then expressed with the aid of the above parameters and means for maximi-. .zing them are investigated.-There is a transit angle which optimizes -both II and 7 but generally only one of them can be optimized and a compromise must beipought, The optimum'value of the perveance is ce-must be chosen on practica .often not realizablb and then pervean 1 considerations,and the value of transit angle optimized later. No bomplete design is described, but the author claims that the appli- .cation of the method is sti~aightforward*'There are 2 figures. SUBITITTEDO- June 27, 1961 Oird 3/3  VIASOV, A.D.; BEIDV, N.Ye. Quality of amp3lfier stageB and output circuit of a wift-band klystron. Radiotakh. i elektron, 7 no*10:1787-1794 0162, (MIRA 15:10) (lUyatrons)  BEIM. N.Ye. Calculation of m' C.-owave dovi-t-os wi Un tubular beams. Izv, vys. ucheb. zav.; radlotekh. 7 no.;QU,248 lAr-.Ap 164. (MIRA 17'.9)  Pi;-.4/P3b-24/Pi,,~4 /A';FTR /AF _/!~~Vftt),~RA Mt' ACCESSION NR; AP4045489 S10109/641009/00911663/1674 AUTHOR., N. Ye. TITLE: Wavoe in t ch'ity electron boams with a finite focuoing field SOURCE: Radiotakhnik.- i olektronika, v,~ 9, no~ 9, 1964, 1663-1674 TOPICA TAGS: cyclotron frequency, SHF tube, drift tube, space charge ABSTRACT: A method is offered for determini.tg space-charge and cyclotron waves in a tubular bea-m under conditions of a finite focusing magnetic field and an arbitrary ratio of the plasma frequency to the working frequency. The excitation of a high-density tubular beam is analyted under the assumption that these quantities are different for differant waves: (a) tho functions determining the dependence of beam waVda on the radius and (b) the plasm-a-frequency and t cyclotrom-frequency reduction factors. A numerical example is supplied to illustrate the method. Orig& art. has: 2 figures, 39 formulae, and 5 tables. ASSOCIATION,. none SUBMITTED,. 213un63 ENCL: 00 SUB CODE4, EC.;, REF'SOV: 004 OTHER: 004 ;'-7 Co  BEI.Clv) N.Ye. - "W-ftm-w~ V-~vea !n ~,tgh~,jer e. .Stty electron bearg vith a finite frzusing f.!.P;l - Radiot-r-kh. I tilektron, 9 no.9:1-.663-1674 S 164o (MIRA 17-.3.0)  MARKIN, Petr Sergeyevich, doktor tekhn. naukj LEVCHENKO, Petr Vasillyevich, kand. tekhn. nauk; STHMV, Konstantin Konstantinovich, kand. tekhn. nauk; MITKALINNYY, V.I.., retaenzent; MIKHALISKIY, A.A., retBenzent; BELOV 0 ,--,V red.; SYROHINA, M.M., red. izd-va; MALIKOVA, N.T., tekhn. red. (Kilns and driers of refractory plants]Pechi i sushila ogne- upornykh zavodov. (By,]P.S.Mamykin i dr. Sverdlovsk, Metallurg~ izdat, 1963. 471 p. (MIRA 16:2) .(Refractories industry-Equipment and supplies) (Kilns)  BELOVY O.V.; SELIVANOVY I.A.; '&~~'AJRCHIJK, E.N.; OYLOVA, L.Ye. I Aerodynamic protection of reverberatory furnace roofs. TSvet. met. 38 no.2:24 F 165. (MIRA 18:3)  BILOT, P. general-pollcovnik Patriots on now China. Toen.znan. 35 w.4:9-10 Ap 159. (MM 1217) (China)  BEWi. P.A. Som shortcomings in zoology teaching. Blol. v shkole no-102-34 J&-F 158 (UM 3.1il) 1. Vladimirskiy oblastnoy otdal narodnogo obrazovanlys., (Vladimir Province-Zoology-Study and teaching)  28(2), 3(7) AUTHOR: TITLE: PERIODICAL: ABSTRACT: Card 112 SOV/107-59-10-9/51 B24&v=. __Candidate of Physical and Mathematical .. F- , sciences The "Pogodall.Computer for Weather Forecasts -_ ----76 Radio, 1959, Nr 10, pp 14 - 16 (USSR) The author explains the theoretical premises of using electronic computers forveather forecasts. The "BESM". "Strelall and "Ural" computers may be used for this purpose. Recently, specialized com- puters were introduced and the "Pogodall is one of them. The data are fed into the "Pogodan on perfo- rated tape in a binary code. Two tapes are punched and compared for correctness on a KSU device (kon- trollno-schityva-,vushcheye ustroystvo - control and computing device). The "Pogodall will perform 100-200 operations per second. During the winter of 1959,  SOV/107-59-10-9/51 The "Pogodall Computer for Weather Forecasts the "Pogodall was used for 24-hour prognoses of the I/ air pressure changes. There is 1 photograph. Card 2/2  BKOT, P., geroy Sovetskogo Boyuss, gyarUl general-polkoulk. Improve the patriotic activities of the mass defense societ Voss,sman. 31 no*9:6-7 S 155* (DMU 97* l.Prodeadatell TSantrallzogo komit*ta Dobrovollaoge.obehobeetya nodaystviya armii, aviateii i flot, SSSR. (Military educatiox)  107-57-1-3/60 AUTHOR: Belov, P. Hero of the Soviet Union, Colonel General, Chairman of the a Central-R-mi-i-t-Ate"e of DOSAAF USSR TITLE: We Should Be Initiators of Everything Modern (Bytl zastrellshchikom vsego novogo) PERIODICAL: Radio, 1957# Nr 1, PP 2-3 (USSR) ABSTRACT: DOSAAP Society celebrates its 30th anniversary in January 1957. In this con- nection, the author reviews some of the DOSAAF achievements and formulates a few tasks. The society numbers tens of thousands of experienced radio specialists. Corresponding members of the AS USSR A. Mints, and V. Sifprov, Professor Z. Model', designers I. Nevyazh6kiy, Ye. Genishta, and V. Mellnikov were all formerly amateurs. I. Zavedeyev in the North Arctic Ocean and A. Rekach in the Mirnyy settlement, both DOSAAF champions, worked respectively at the arctic and antarctic poles. Many radio amateurs have designed instruments for the national economy: S: Sheremetinskiy designed a metal locator, Yu. Manoyev a humidity meter, I. Akuliniche7 a vector- electrocardioscope, etc. DOSLAF organizations and radio clubs should encourage radio amateurs to invent instruments and devices useful to Soviet industry. Radio amateur-- ism should become a mass movement in 1957; diversified activities and more initiative are urged. Field day and "fox chase" contests are recommended* Thousands of radio amateurs should go on the air with their VHF radio stations in 1957. Women radio amateurs who set very high zvcords, such as G. Patko, A. Volkova, Z; Xubikh, Card 1/2  We Should Be Initiators of Everything Modern 107-57-1-3/60 M. Bassina, are known both in the Soviet Union and abroad. Radio specialists and engineers should be urged to devote their free time, without pay, to help develop radio amateurism. S. Morozov, and Yu. Rtxtkoveldv (Poltava), S. Xosyak (Kaliningrad), S. Sotnikov (140scow), A. ne-in (Kivertsy, L'Vav-Railroad), and Ye. Predko (Stanislav) regularly receive long-distance TV programs; their experience should be studied, used, and extended. Soviet industry and armed forces need more and more radio operators and radio repairmen. The central committee of the DOSAAF, USSR, decided to double in 2 years the present number of technical specialists. In accordance with this decision, local DOSAAF organizations are training automobile and motorcycle drivers, radio specialists, and other technicians. A great many trained radio specialists capable of operating radar and TV sets are needed. ASSOCIATION:--- TaK DOSAAF SSSR AVAILABLE: Library of Congress Card 2/2  L)"" P A ~ P.A., general-polkoynik. Important task for radio amateurs. Radio no.10:6 0 '57. (MIRA 10:10) 1. Predsedatell TSentrallnogo Komiteta Dobrovollnogo obahchqatva modeystviya armii, aviataii J flotu 33SR. (Artificial satellites)  85-58-1-2/28 AUTHOR: Be1nv____P_'A__ QhAirMan USSR DOSAAF Central Committee, ~e ~Soviet Union, Colonel General TITLE: On the Eve of the DOSAAF All-Union Convention (Navstrechu Vsesoyuznomu slyezdu DOSAAF) PERIODICAL: Kryl'ya rodiny, 1958, Nr 1, pp 1-3 (USSR) ABSTRACT: In connection with DOSAAF activities, the author mentions the Khrushchev speech of November 25, 1957, the resolution of the Plenum of the Central Committee of the Soviet Union "On Improvement of Party-Political Work in the Soviet Army and Navy", and the correction of the Zhukov "line". DOSAAF is now one of the largest mass organizations in the country, having increased its membership more than 2 1/2 times in the past 5 years. The number of DOSAAF aviation groups at the Card 1/3  On the Eve of the DOSAAF All-Union Convention 85-58-1-2/28 primary level increased several times during 1957. Soviet parachutists have been particularly successful, and are now invading the I . stratosphere, both singly and in groups. The Plenum of the DOSAAF Central Committee has recommended radical improvements be made in all forms of aviation sports for Soviet young people, with the help of the trade unions and of Komsomol units. Bureaucracy and inertia are said to exist in the administration of DOSAAF Central Committee aviation and technical training. The primary organizations must receive more effective leadership and more adequate equipment. The following DOSAAF organizations are praised for their initiative and effective work: the KharOkov DOSAAF Oblast Committee under its chairman Ryashchenko, and the Moscow Municipal and the Kalinin Oblast Committees. The Kolomna DOSAAF aeroclub is assisting in opening a DOSAAF glider club in the town of Zhukovskiy [Moscow Oblast]; an aviation sports club will shortly be organized in Cheremkhovo, Irkutskaya Oblast' (chairman Yerikov). Other cities in Irkutskaya Oblast' showing similar activity include Angarsk, Kachug and Usol'ye. DOSAAF organizations are active in Magnitogorsk, Kurgan, Vologda, Leningrad, Kursk, Krasnoyarsk, Yegorlyevsk, Makhachkala, Riga, LIvov, Kaunas, Card 2/3  On the Eve of the DOSAAF All-Union Convention 85-58-1-2/28 loshkar-Oly, and Maykop. The DOSAAF Republic Committee of Belloruaskaya SSR (chief Bezdenezhnyy), on the other hand is critized for its failure to organize and train adequate numbers of flying teams, The author stresses the importance of the calibre of instructors and considers their ability to be decisive in ensuring successful training. Applicants at the Saransk and Raluga instructor training schools include men and women who are admitted on the basis of their records in sports. Personalities mentioned include: Yu. Peklin and N. Pryakhina, Masters of Sports; G. Lyubushkin, Moscow model airplane builder; helicopter pilots V. Yermakov (Gomel' aeroclub), A. Lutsenko and F. Belushkin (TsAK SSSR), A. Teplykh (Tsentral'naya planernovertoletnaya shkola) Central Glider-Helicopter School. ASSOCIATION: USSR DOSAAF Central Committee AVAILABLE: Library of Congress Card 3/3  BEWV, P. G. ~ : Method for calibrating throttle (contracting) devices based on the application of the theory of similarity Priboroatroonle no.2:22-23 7 160. iHM 13:5) (Flowmater)  AUMOR.- Goronina) K. A.; Belov) P. K.; Sorokina) E. P. RaMphysics ORG: Scientific Research Institute at the Gor'kiy University (Nauchno- issledovatel'skiy radiofizicheskiy institut pri Gor1kovskom universitete) TITIS: Determination of the dielectric constant from the change of polarization of a reflected wave SOURCE: IVUZ. Radiofizika,, v. 9., no. 5j* 1966.v 975-979 TOPIC TAGS: dielectric constant) electri p I c olarization, electromagnetic wave reflec- tion, phase shift, refractive index, dielectric loss ABSTRACT: The awLhors show that since a definite relation exists between the complex reflection coefficient and the dielectric constant, and since a connection exists be- tween the dielectric constant and the change in polarization of the wave reflected from the investigated medium, it is possible to determine the dielectric constant by measuring thepolarization of the reflected wave. It is also shown that for an ex- perimental determination of the ratio of the principal axes of the polarization ef-:-- 1ipse and their orientation it is possible to use a receiver for linearly polarized waves, and that the optimal angle of incidence is the so-called principal angle, at which the phase shift between the polarization components is equal to 90% The , authors then describe a setup for the measurement of the dielectric constant of water in the millimeter band (FU. 1). The waves were generated by a backward-wave oacil-  ACC NRt AP6033289 M% S Figo 10 Block diagram of setup. S - Parabolic mirrors P - rectangular waveguidep 0 - reflectors I , receiving born antenna. lator and shaped by a parabolic mirror and a rect- 71777177~ angular waveguide. The reflected wave is received by a horn antenna and is guided to the receiver by a waveguide operating in the TEO, mode. The polarization is measured by rotating the receiving antenna together with the detector. The test procedure is described in de- tail. The dielectric constant of water was measured at 16C at several wavelengths from 1.2 to 1.6 rnm. The values agree well with the theoretical Debye formula for them dielectric constant of water and with measurement results by others. The temperaturej variation of the refractive index and of the dielectric loss angle were found to de- viate from the Debye formulas especially at higher tesperatures. Orig. art. has: 3 figures, 4 formulas, and I table. SUB CODE: 2o/ suBm DATE: 26.Tan66/ ORIG PXF: 003/ OTH REF: 002  12(2) AUTHOR: D'yachenko, N. Kh., Doctor of Technical- Sciences, Belov, P.M., Candidate of Technical Sciences TITLE: The Work of the Carburetor Engine During Accelerati* PERIODICAL: Avtomobillnaya promyshlennost', 1959, Nr ?9 pp, B-12 (USSR) ABSTRACT: The authors studied-the behavior of gasoline engines during acceleration..,They explain-the causes of the engine power reduction.and..the higher fuel consumption during acceleration. Analyzing.the function of the spark advance mechanlem.of-an R-23 distributor, they 0 established that a 9-10 deviation,of-the-spark-advance from the optimum angle will.cause a 5-8% power reduc- tion on engines-of type ZIL-120,and-M--20. They in- vestigated the influence of butterfly valve position changes on the acceleration intensity. A sudden open- Card 1/3 ing of the throttle for accelerating the engine disturbs  SOV/113-59-7-3/19 The Work of the Carburetor Engine During Acceleration: internal processes in the engine, causing a decrease of the available power. A slow, gradual opening of the throttle deteriorates dynamic conditions and increases the fuel consumption during the accelera- tion period. The engine and-the automobile cannot de- velop a high acceleration and the acceleration pro- cess is delayed.- Consequently, some intermediate po- sition of the butterfly valve will produce the best results. Experiments with ZIL-120 and M-20 engines .confirmed this conclusion. The authors further in- vestigate the character of the air flow with different throttle positions, saying that interruptions of the air flow in the intake system may occur with a sudden open-ing of the throttle. Finally, they recommend some. measures for reducing the losses of power and torque of gasoline engines during acceleration. The design Card 2/3 of the air/fuel intake may be improved. The intake  SOV/113-59-7-3/19 The Work of the Carburetor Engine- During. Acceleratiox~ system may be heated. Additional fuel may be injected during acceleration. The most radical improvement is the direct fuel injection into the cylinders. Correc- tions of the spark advance mechanism may be made. There are 8 graphs and 3 Soviet references. Card 3/3  ,O~jj3._&jrofa=i,*;-D'YACHHNKO# AXATOVg-TovgenIy Ivanovichl ])p 11kolay Unritonoviahv prof., doktor takhn.nauk; MUUTOT- Vitaliy,Sergeyevich; ZHDANOVIXIY, N.S,, doktor tekhn.nauke reteenzent; DOUSOVA, G.A.. red.izd-va; FRMIN, P.S., tekha.red. [Performance of a motor-vehicle engine under unsteady conditions] Rabota avtomobiltnogo dvigatelia na noustanovivshemsia reshims. Pod red. N.Kh'Dliachanko. Moskva. Goo.nauchno-tekhn.lzd-To mashino- stroit.lit-ry: 1960. 247 p. (KIRA 13:4) (Motor vehicle P-Nnginas)  DIYACHEKKO, Kikolay Kharitonovich., doktor tekhn. naukI, prof.; DASHKOV, Sergey Nikitich, dokt*r tekbn. naukp prof.j HUSATOY, Vitally Sergeyevioh., kaMetsk.hnnauk; BELOV., Favel Mitrofanovicb., kand. tekhn.nauk.prof.) BUDYKO, YuriF-Ivanovich,, kand-.TeRW.-na~k. Pri- nimali uchastiye:-BURYACHKO, V*R.; GUGINI A.M.; ZEDANOVSKLY, N.S.j doktor teIdm.-naukqprof,.q reteenzent; YURKEVICH, M,P.., inzh,., red. izd.-va; PETERSON, M.M#, tekhn. red. [High-speed piston internal conbustion engines] Bystrokhodnye porabnevye dvigateli vnutremego agoraniia. Moskva Mashgizj, 1962. 368 P- WRA 15:7) (Gas and oil engines) (Diesel engines)  HIM, P. N. "Investigation Into the Contributions Made by Individual Wars of the Atmosphere to the Variation in the Pressure Near the Earth". Meteorol, i Gidrolo&iyal No 6j, pp 22-25j, 1954. Statistical treatment of the data of radio sounding is conducted on the basis of the following elementary indentity: dpo =Z'dpo -dpzl 2 4- Cdpsl -dpw2-7 -f 4 Z-dp , where dp is the day-today changes in pressure (dp is the change at t;;*earths :~idpzj bare the o!'anges at the level t1j, etc.). The titits in the brackets are treated as the contributions of the ifidividual layers to the variation in the pressure at the earth. In the treatment it is assumed that zk-zk-1 ~l km and zn =710 km. The results of Y31 pdxs of radio-sounding ascents were divided into 4 groups: -M sinking cyclone or ttoughs (2) filling cyclone or trough, (3) intensifying anticyclone or crest, and (4) weak6ping anticyclone of crest. This classification was carried out in accordance with the distribution of pressure at the earth's surface. For eadh group the mean values of the contributions were calculated and analyzed. It is established that sharpening of the wctremim of the ground baria field (group 1 and 3) is ordinarily related to the advection of masses at heights greater than 10 kme amoothing of the wctremum (groups 2 and 4) is related to the adveotion of maepes in the lower 5-4m layer. On the average for each of the .groups the advaction of masses into a layer between 5 and 20 km is comparatively Small. (MGeol, No 11, 1955) SO, S= No 994j, 9 Apr 1956  BELOV, P.N., 6and Phys-I!ath Sci-(diss) "ForecastinG Ptiaospheric pressure by means of empiric functions of influence." I~os, 1 58. V-42 8 pp (Yain ltdridnitstration of Hydro-Lietereolocical Service " the Council of Liniztom USSR. Central Instof Forecasts), 100 copies (U122-58,101)  AUTHOR: Belov, P. N. 50-2-2/22 TITLE: Forecasting of Atmospheric Pressure by Means of Empiric Influence Functions )gnoz atmosfernogo davleniya. s pomoshohlyu empirioheakikh funktsiy vliyaniya). PERIODICAL; Meteorologiya i Gidrologiya, 19589.Nr 2j pp. 10-16 (USSR) ABSTRACT: The application of the electronic method of computation for the forecasting of meteorological elements makes poseible-the solution of various problems which necessitate the preparation of a huge amount of data. This fact can be seen distinctively from the statistic methods of forecasting, e.g. the forecasting of meteorological values by means of empiric influence functions. Here a method of forecasting of the pressure fields at various atmospheric heights already 24 and 36 hours in advance is suggested based on the application of empiric influence functions. It is assumed that a certain, connection exists between the circulation conditions (distribution and shifting of winds and tenperatures) on a limited ground surface at a certain initial moment and Card 1/4 the subsequent change of pressure. The advantage of the  Forecasting of Atmospheric Pressure by Means of Empiric 50-2-2/22 Influence Functions application of the empiric influence functions cansists in the fact that they make possible the consideration of the influence of seasonal conditions (intensity of cyclone activity, different character of heat influx) and the local conditions (influence of mountains and oceans) without additional computations. The suggested method differs from the corresponding methods by applioating statistic forecasts by taking into consideration the "nonlinear member', and by the selection of the network of the points the values of which are used for the computation of the pressure change. The practical application of the given scheme aimed at obtaining the empiric influence functions for the forecasting of pressure changes of sea level and the influence of the heights of isobaric surfaces for the winter season (December, Januaryq February) at 20 points of the European part of the USSR. As an example a diagram of thd dependence of the quantities R and 6 on the distance between the stations is repremented 6ard 2/4 on a plane surface of 700 millibar on fig. 2. (R aenotes the  Forecasting of Atmospheric Pressure by Means of Empiric 50-2-2/22 Influence Functions coefficient of the ratio of the geopotential of two stations N 2 (H; -H2)k N H; and H; denote the deviation of the geopotential from the standard value at*the,stations 1.and 2t N~denotes the number of determinations). Thus, it oan be seen that a does not increase linearly with the distance as it was found theoretically and that (2) (R