SCIENTIFIC ABSTRACT MANTHEY, T. - MANTSEVA, V.N..

MANMY, Tadeusz Comvarative model studies on filling navigation locks through hooi gates and the bottom culvert. Rozpr hydrotechn no. 14. : 55-74 '63.  MANTHEY ,,dr inz. Maritime topics at the 10th Congress of the International j Association for Hydraulic Research. Tech gosp morska 14 no.2: I ! 52-54 F 164. 1. Instytut Budownictwa Wodnego, Polska Akademia Nauk, Gdansk. r-1  MAJITHEY, Tadeusz, dr inz, Model studies an sluice charging through lock gates and through sluice channels. Gosp wodna 23 no,7:254-257 Jl 163. 1. Instytut Budownictwa Wodnego, Polska Akademia Nauk, Gdansk. ~11-  MAJITM, Tadeuvz, dr Inz. Research on fil,,ration through an earth-filled coffordam performed on a ground model. Gosp wodna 23 no.7:279-280 JI 163-  "''a I, a z dnd 7 r 4 1, t.,3 ~% P H.,,rdraulic Engl.na-~T'Ing cr thfi A-ademy of ,;c-"-nce:5 lxlnf~ tile yk~ars '11-953-l'o". no. 1 :~4 ~8- t dit) s cn the c,-),i rjr, weir gate. ' b ~-I . ~ I --'!  MAJEWSKI, Wojciech, mgr inz.j MANTHEY, Tadeusz, dr inz. -_-- ~-~ ~ ~=. : Tenth Congress of the International Hydraulic Research Association, London, September 1-5, 1963. Gosp wodna 24 no. 5:182-183 My 164. 1. Institute of Hydraulic Engineering, Polish Academy of Sciences, Gdansk.  MkNTflh-Y,-Tadeusz Bog,tc Knezevic- obituary. ArciAw hydrotech 11 rko.-e25t ;9`- 1 ~,/ I I . , "  T~~*!.-I..-,-, dr r . ce s -; F-!-,: n c r ! , i -:-n - - on a "rolind - 'i: - - L - I . . - - - -- Q . aM2 - , -fl - -1 - .. I I - .. i !n I - ; , I :.  5W AUTJHdRS: Alchudzhan, A. A. Mantih~#=, H. A. SOV/76-33-4-5/32 TITLE: -Investigation of Mixed Adsorption Catalysts for Elydrogenation (Issledovani e ameahannykh adsorptsionnykh ka.talizatorov gidrirovaniya~. I,Pd-Ag Catalysts on Silica Gel ~I.Pd - Ag-katalizatory na silikagele) PERIODICAL: Zhurnal fizicheakoy khimii, 1959, Vol 33, Nr 4, PP 780 - 789 (USSR) ABSTRACT: If Ag, Cu, and Au, in analogy to hydrogen, are introduced into palladium they destroy its paramagnetism. Therefore it was assumed that this is also bound to lead to a destruction of the catalytic activity of Pd in benzene hydrogenation (Ref 2) which was partly confirmed (except for Au) (Ref 3). The strong influence exercised by hydrogen on the activity of palladiam sponge kin the case oi- Pd-black very low influence) (Ref 4) led to the asaumption that benzene hydrogenation takes place at different active places of Pd. For this reason the influence exercised by Au, Ag, and Ou on the Pd-adsorption catalysts in benzene hydrogenation was izLvestigated in the Card 113 present case. The activity of the catalyst (C) was determined  Investigation of Mixed Adsorption Catalysts for SOV/76-33-4-5/32 Hydrogenation. I.Pd-Ag Catalyats an Silica Gel from the rate of benzene hydrogenation. Silica gel (SC) the surface of which was determined by Ye. V. Khrapova at the laboratoriya adsorptaii prof. A. V. Kiselev. v MGU (Laboratory for Adsorption, Professor A. V. Kiselev at the MSU)*Kas used as catalyst carrier. Pd-Ag adsorption catalysts band for the purpose of comparison also pure Pd-(K)) which were produced according to the method of a simultaneous palladium- ammoniatell-and silver adsorption were investigated. 11he (C) contained 1.0, 0.2 and 0.1% Pd of the weight of (SC) while the ratio Fdt Ag was varied from 49'1 to 10-wb a degtree of surface filling of kSC) within the limits of from 0.00087 to 0.0909. It was observed that with increasing Ag-content tne activity of ~C) increases to a maximum and then decreases. This effect af Ag depends on the degree of filling of the (SC)-surface. Under the conditions investigated benzene hydrogenation withreapect to benzene and hydrogen takes place as reaction of the zero order with the apparent Card 2/3 activation energy of benzone hydrogenation being practically  'Investigation of Mixed Adsorption Catalysts for SOY/76-33-4-5/32 Hydrogenation . I.Pd-Ag Catalysts on Silica Gel equal for all (C) investigated. It is assumed that the effect of.Ag,orL the Pd-SiO (K) consists iii the change of the active catalyst surface. i9e funatim of the rate-of benzene-hydro- genation as-dependent on the contact time and the ratio N : C 6K6 (Tables 2,3), are.tabulated. 'there are 3 figures, 4 tables, and 15 referencew, 13 of which are-Soviet. ASSOCIATIORs Yerevanskiy politekhnicheekiy institut im. K. Marksa (Yerevan Polytechnic Institute imeni IL. Mar;") SUBMITTEDz September 19, 1957 card 3/3  5 (4) ATMEORS: Alchudzhan, A. A., Mantik-jan, M. A. 50V/76-`)3-8-3/39 TITLE: Invest:~gation of Mixed Hydrogenating Adsorption Catalysts. II,Acti.vity of Mixed Pd-Ag Catalysts Adsorbed on S102 as a Function of the order of Adsorption of Pd and Ag PERIODICAL. Zhurnal ftz:~choskoy khi-mii., 1959, Vol 33, Nr 8~ pp 1691-1694 (USW) ABSTRACT: In a previcus papar (Ref 1) it was stated that at tha transition of Pt.-Sio2catalysts (C) into Pd + Ag + SiO 2 (C) the same dependence of the reaction velocity on the hydrogen and benzene conoentrations in the hydrogenation of benzene, as well as the same apparent actkc-ation energy, remain preserved. It was there- fore assamed that Ag can effect a change in the size of the active surfaoe vrithout changing i-'Js energetic state. For thie reason, the order of applicatiun of Pd and Ag, respectively, on SiO 2 was stvkdled in the present case. The (C) were produced as in (Ref 1) and axamined at the benzene hydrogenation by the same working taohn~que. The (C) obtained by an adsorption (A) and subsequent redu~:-tion of pa.11adium salt and then silver salt proved comp'etely fna,~tive. in the 3ourse of this investigation, (C) were Card 1/2 studied the Pd-1-ontent cf which was 1 .0 % of the Sio 2"weight and  Investigat,ion of Mixed Hyd:?,)genating Catalysts. 17.Activity of M-Lxed Pd-Ag of the Order of Adsorpticu of Pd and ASSOCIATION: SUBIRITTIO: Adsozption SGV//-i 6--- 3e- 7/1/39 Catalysts Adsorbed on SiO 2 as a PLmction Ag which contained a Pd -. Ag rat' 'o Cf 4,'.. and (C) with 0.2 ~~ Pd an! Pd : A9 = 32:1 ~ 4;':,, and 2:1 . (j), in which the jig-salt was adoor'.1,6d and redu-.ed tefoxe the Pd-salt,,. exhibited an (A) analcgcus to that observed at a joint (A) of Pd and Ag on S40 2 , which means that as thz Ag-content inctreases in case of a constant Pd-con- tent, tha (A) of (C) increases to a max�mum and then fa). '-" s (Table). The absence c~f an ac"Jivity in the f--;rst-msntioned experiments "Le traoed 'bank to the deactf-vating effect cf a higher Ag-oonoentrat-Ion on Pd~ There are I figure. I table and 2 Soviet referenrea. Yeravanskiy politek-hnioheskiy institut im. X. Marksa (Yerevan P.-.l.ytevh=ic institute tmenl Z, Mlarx) August Ir 19;~* Card 2/2  3/171/60/013/005/001/001 E142/E235 AUTHORS: Alchudzhan, A. A. and Manti-__ TITLE- Investigations on M_J._xed Adsorption Hydrogenation Catalysts: Part V: Investigations on Mixed Pd - Pt Catalysts on Silicagel PERIODICAL: Izvestiya Akademii nauk Armyanskoy SSR, Khimicheskiye nauki, 1960, Vol. 13, No- 5, PP. 307-314 TEXT. The catalytic activity of mixed Pd - Pt adsorption catalysts as well as of Pd - Sio catalysts was tested by ascert- aining the degree of hydrogenati3n of benzene to cyclohexane. The apparatus, starting materials, carrier and preparation of the catalysts, by simultaneous and subsequent adsorption of palladium and platinum onto silicagel, were similar to those described by A. A. Alchudzhan. and M. A. Mantikyan (Ref. 15). The Pd + Pt - Si02 catalysts, containing varying quantities of Pd and Pt, were prepart;~~'. by washing 10 g chemically pure Pd-chloride repeatedly with distilled water, dissolving it in 1 litre of water and acid- ifying the solution with hydrochloric acid (to prevent hydrolysis). The concentration of palladium in the palladium chloride solution 1--d- 1/4  S/171/60/013/005/001/001 E142/E235 Investigations on Mixed Adsorption Hydrogenation Catalysts: Part V: Investigations on Mixed Pd - Pt Catalysts on Silicagel was determined gravimetrically, the titre of the solution was ?d = 0.00570 g/ml. The titre of the chloroplatinic acid, Pt ~ 0.004556 S/ml; the acid itself was prepared by the method described by A. A. Alchudzhan and M. A. Indzhikyan (Ref. 19). The activity of the Pd - Si02~ Pt - Si02, and Pd+Pt-Si02-catalysts was tested under identical conditions, by hydrogenating benzene at a temperature of 1750C, when the ratio of H2 : C6H6 = 4 : 1 and the rate of the hydrogen current was 'V_ 2.04 litre/hour. The total 12 - pressure of hydrogen, benzene vapoirs and cyclohexane was 680 mm. In every test the catalysts contained the same qugntity of palladium and platinum, i.e. Pd + Pt - 6.15 x 10--1 g.at. and they contained the two elements in the following ratios: 10:1; 3;1; 2'.11 1;1; 1:2. In this case palladium and platinum were applied simultaneously onto the silicagel. Two samples, containing the ratio Pd:Pt = 2:1, prepared by subsequent application of Pd, and Pt - and vice versa, were also tested, as well as 3 samples of Pd-,SiO -catalysts and 3 8amplez Of Pt-Si02'~-catalysts, tontaining yaryi4 quantities of palladium and Card 2~4  S/171/60/013/005/001/001 E142/E235 Investigations on Mixed Adsorption Hydrogenation Catalysts: Part V. Investigations on Mixed Pd - Pt Catalysts on Silicagel platinum. Each time the weighed portions of the catalysts were taken in relation to 3 9 of silica gel. Both components were found to act as catalysts during the hydrogenation of benzene. The surface of the silica gel was covered to a degree within the limits 0.000634 and 0.001950. It was observed that the catalytic activity decreased on increasing the Pt-content in the Pd+Pt-S102 catalysts and, after reaching a minimum. it increased when the concentration of the platinum was relatively high. The catalytic activity of the Pd-SiO, catalysts decreased in relation to the degree of hydrogenatyon of benzene by the catalytically active platinum. The largest decrease in activity occurred when the ratio of Pd:Pt = 2:1. The authors suggest that, at such small ratios of the two elements., intermetallic compounds are formed which possess negligible cat- alytic activity. The fcrmation of the Pd-Pt-phase is hampered wher the ratio of the two elements is 2:1, at subsequent application of palladium and platinum onto the carrier; the catalysts show, therefore, a very high degree of activity. At simultaneous appl-'- Card 3/4  S/171/60/013/005/001/001 E142/E235 Investigations on Mixed Adsorption Hydrogenation Catalysts: Part V., Investigations on Mixed Pd - Pt Catalysts on Silicagel cation of the two elements onto the carrier the catalytic activity decreases more sharply than in Pt-Pd-catalysts without a carrier.. Acknowledgments are expressed to the students A. Akopyan and S. Gu-kasyan for their assistance. There are 2 tables, 1 figure and 19 references: 13 Soviet and 6 non-Soviet. ASSOCIATION: Yerevanskiy politekhnicheskiy institut imeni K. Marksa, Kafed-ra. obshchey i analiticheskoy khimii (Department of General and Analytical Chemistry, Yerevan Polytechnical Institute imeni K. Marx.) SUBMITTED: July 7, 1960 Card 4/4  ALCHULIZRAN, A.A.; t~ ~TIKYA~N,-X.A.;-. AYKAZYAN, A.M. Mixed adsorption catalysts of dehydrogenation. Report No.l: Pd SiO2 as a catalyst of cyclohexame dehydrogenation. Izv.AH Arm.SSR. Khim.nauki 16 no.4-.303-314 --063. Mixed adsorption catalysts of dehydrogenation. Report No.2: Pd-Ag/SiO as a catalyst of cyclohexane dehydrogenation. 315-325 (MIRA 16:9) 1. Yerevanskiy politekhnicheskiy institut imeni Karla MELrksa, kafedra obshchey i anal-iticheskoy kh-Imii.  A10HUMHAN, A.A. AYKAZYAN, A.M. UV, TIRVI - 11-1 - ~ I Kiy.ed gdsor~tlon catalysts of &~.,ydrogi;netion. Part 3t Pd-Pi/sio- 88 a catalyst for cyclob-xnrip dpixydrogpnation. Izv. 01 A-rm.SSR.ikm. na,aki 17 no.4.06&-374 164. (MIRA 2,8: 10) I. Yariivnriskiy poliWi-Yinichoski-y institut im. K.Marksa, kafedra obshchey i analiticheackoy khim!A.  ALCHUDZHAN, A.A.; MANTIKYAN.-A.A.; AKHVERDYAM, M.M. )Uxed adsorption hydrogenation catalysts. Part 6;Mixe4d Fd-Ni catalysts on silica gel. Izv. AN Arm. SSR. KhJu. nauki 18 no.3:244-247 165. (MIRA 18tll) 1. Yerevanskiy politekhnicheakiy institut imeni Karla Marksa, kafedra obshchey i analiticheskoy khimii. Submitted June 6, 1964.  Information and publishing activity of the Central Wood-Chemical Scientific Research Institute. Sbor.trud. TSOLMII no.12:189-194 157. (HIRA 13:10) (Wood--Chemistry)  TERLO, G.Ya.; BASOVA, L.S.; Prinimali uchastiye: MANIQ,-Ya-B-,* KOROIEVA, N.S. Polyurethan coating based on hydroxyl-containing linear high polymers. Lakokras.mat.i ikh prim. no.1:&-11 162. OGRA 15:4) (Protective coatings) (Urethans) (Polymers)  TERLO, G.Ya., inzh.; MANT_O-,_Ye.B.,.Inzh- Phosphate undercoats and their use in shipbuilding. Sudostroenie 28 ne.2:47-'49 F '62. (KRA 15-3) (Ships--Corrosion) (Phosphate coating)  TERID, G.Ya.; IZRALIYANTS, Ye.D.; MANTO, Ye.B.; PIATOVA, T.F. Selecting efficient formulas for antifouling paints with long action. Lakokras. mat. I ikh prim. no.5:6-10 163. (KM 16:11)  BIRCA-GALATEANUp D,; EEIAETRESCU, Catalina; ELIAN, M.; MUM, Lucia The infrared spectra of some substituted hydrazides derived from furylacrylic acid. Studii cerc chim 11 no.2t225-237 163. 1. Institutul Politahnic, Bucuresti.  Acc. NRI &J 8OURCE Colm.- UR/6064/6 /0070/W73 'A nlUb artsevai L. A,',,,~Reyfe Maptdkovh _T~ -Volikava,~ ri A, I G ORG. a Mant ro.v trod lxitkn KIWrimash 0 a a ance, of.~ TITM, i 8~, f 0 on of sodium r equi -i~:th6:1iroftetl a rrosion the- k,-- no h1ennoo. cOrrosion-zebiittaned. orro io ~r TOPIC TAG~';' c 0 h ate ebiablum steel, sodium sulfide a e,e,. ABSTRACT --','Th6 ~paper 'deals- with the -6 4;udy'iind delection:,of~~ccirroE;ion~-tesiatant h- -mate as.: --t --applicabi ty Almi a f.- -1s,for. riz,,., e 4eteimination,~ o t o ',cdAon 'st~e Lni s~lkid6. -Both j)- A, test* we ~so Ian .4nd:16borgito-'ry s. ii ' r- f dl ve 'steel, Sch- cas. Aron- t axhi8kai, 836d:WM~W chromium ni6kel-.steelai 5;_'-,Ktx25N41T xh 3M13 and els, high-c rum sle 1Kh21N5T -:lw~earboh steels, Kh3-7G9AA-: A -an&::Kh14G14H 'OKh and, P, MLMiWny. _-V manganead, steela.- - as we VT-A-tedhvJ-61-g &Madum, zinc,,. rdekel _j(~~exdl bmium Th, ;itions,of the,,.ab;%~6Ft6e;la-~o~e~sented e compos T, ~vblded`~6hdAinw~ld6d:teat imens"ve re use4~ meastwin ive t -at ~ conducted at -+he a X25:i10 ~j~4ct ly The. 8~ %godiAxm sulfide 0- 1/2 661,*M3L-66,W,163 UDC, ~i 7z,   P/021/60/000/010/0055/c,06 A 105/AO26 AUTHOR: Mantorski, Kaz-imierz, Master of Engineering TITLE: Thermoelectricity in the Production of Graphite Electrodes PERIODICAL: Przeg1jtd Elektrotechniczny, 1960, No. 10, pp. 434 - 436 TEXT: The article reviews the problems encountered in Polish production of graphite electrodes for foundries. In the Zaklad Elektrod Wqglowych w Raciborzu (Ratiborz Electrode Plant) 2 types of calcining furnaces are in operation, i.e. gas-fired retort furnaces and electric furnaces. The crystallization of amorphous coal is done at temperatures over 2,3000C. Selection of raw materials, i.e. petro- leum coke, pitch coke, etc., and the pressing influence on properties of graphite products are described. The graphitizing process is performed in Polish plants for the last 50 years in Acheson furnaces at 2,500 - 2,8000C temperatures. In the Raciborz Electrode Plant the calcination takes 70 hours at 7.5 kwh/kg as compared to 50 hours at 5 kwh/.kg in Japan. The measuring of temperatures in the furnaces Is done up to 1,5000C only and any effort for improvement failed. Because of the ob- solete calcination method used in Poland the characteristics of transformers could not be determined. In the Raciborz Electrode Plant 4.2 mva trwsformers with a Card 1/2  P/021/60/OCO/ol O/DD5/006 Thermoelectricity in the Production of Graphite Electrodes A105/AO26 6 kv primary and 50 - 160 kv secondary voltage are used. To improve the obsolete methods in production of electrodes a new method was suggested 5 years ago, but the tests were delayed because of lack of experience. At present the electrodes aTe cauterized in rolling furnaces and g--aphitized in Acheson furnaces. The nerw Tiethcd provides cauterization and graphitizing in the same furnace by two transformers; the smaller one heats the furnace during 5 - 10 days of cauterization to 1,OOOOC and the big one heats subsequently the furnace to temperatures needed for the graphitization. Card 2/2  0 0 a a a : 0 0 : : : 16 * 0-0 W.-O -4: 6 0 0 6 * 0 0 0 W* 0 W,164~0 6 0 0 0 0 6 046466000*6 I 0 1 2 8 1 a is U 1i w is 16 it of t9 11 Jd 5 A 0 A It 10 M 12 U IS A30 0 11 0 64) Q 41 U 43 V IL 1-1211 *10 A 2-"-C-JL 9 r a . I P -a it I I 1 ILL M IN CC PRA - - - - 1 7' ...... 0 0 -MAN TRD )n V - J ~ - 0 0 -00 0 Me& 11. 1. MAN- jUFW4 the Coel2detta Of tborMS1 *gp,,gj,, of WM ~XVjO9jVejL ckrm j.d. -Coeffs. of thermal of picric acid-dinitro- mixts ot " -00 . en . m dctd for T. N. T.. dinitro"Phthak0c. Pkric hthakne by meow at a modified Dulons & Ntit id 0 -nap lene and picric ac compn.ofthtabowmixtS. isUctOW-11. The method and mults " uant so The ;- 0 . q oc 040 am des 'bed. not appear in cithcr the "to cernatimal Crit. Tables. cn These data do Roavat Scimms lAU, dt-Mrnstrin's [,by%, Chem. Table,. Li 00 go 00 zoo -00 0 COO : 0 IN S zoo goo 00 j 00 -00 r$oo i k 0TALLURWCAL LIURATUNI CLAWFICATIC. cr .0 4 ::60 00 is *to 0 wo t sfo- ;,~ �0 0 a a 0 0 0 z 0 a 0 0 a 0 0 4 0 4 0 0 0 0 40 0 0 6 000,000000000006004- 0660:  lfANTRM, M. I. icity - Dielectrics Jul 51 Breakdown "The Elementary Theory of Thermal Breakdown of Solid Dielectrics," Docent K. I. Kantrov, Cand Tech Scip Moscow Power Eng, Inst imeni Molotov nElektrichestvon No 7, PP 61-65 Gives the basic theory of thermal breakdown of solid dielectrics. The formulas obtained permit one to calc the min breakdown voltages for*a die- lee in thermal. breakdown. Cites exptl data f~r asphalti. Submitted III Nov 50.  SOVII 05-59-6.0 5 /28 C_' '"CIR g Mantrov, M. I., Candidate of Teohndcal Soiences, Docent TITLE: Service Life of the Insulation of Ele-atrical Machines Under Thermal Aging (Brok sluzhby izolyatsii elektricheakikh mashin pri teplovom starenii) PERIODICAL3 Elektrichestvo, 1959, Nr 6, pp 68-71 (USSR) ABSTRACT% Experiments show (Refs !,~ 29 3, 49 5,, 6,, 7) that the process of thermal aging of cotton fabric, lacquer coatings and of differ- ent kinds of organic and organosilicon insulation follows Only one law, which can be expressed by the empirical formula (1). In the papers cited by references 2, 3, 8 it is shown that if formula (1) is satiefied, the process of thermal aging proceeds according to the law of monomolecular reaction, the rate constant of which may be determined from formula (2 The . activation energy can be determined from formula M The results of the first experiments for the determination off the service life of insulation substances were found to differ greatly w1th different authors. At, the Vsesoyuznyy elektro- tekhnicheakiy insVtut im.. Lenina (All-Union Institute of Electrical Engineering imeni Lerdn) experiments were conducted Card 1/3 for the determination of the-ser7iae life of insulation  Service Life of the Inevattion of Electrical SOV/105~59-6-15/28 Rachines Under Thermal Aging substances under real operational conditions,, Thase experiments wexe supervised by V. 1. Kali tvyanskiy (Ref a 2, 3). In table 2 the values of the constants A and B from formula (Q are given, which have been computed by the author from the information collected from other papers (Refe 2. 3, 5, 6, 7, a, 9, io,,iii2) and the activation energy Q under thermal aging of dielectric substances and insulation materials of electrical. machines is presented. At present many experimental data confirm the validity of formula (~) also for the determinatlorn of the dielectri-o strength of various insulation materials The experimental data on the dynamic service life of vulcanized rubber and of syn'.hetic. filbres ale-) corrcspond to formula (iN, Ref W. The empirioal formulas obtained from American data ~Refs 4, 7) for the ealoulation of the service lAfe of an insulation in years is presented. In spite of tb-3 great amount of information available., the problem of the service life of insulations cannot be regarded as conclusively solved, Card 2/3  Service Life of the Insulation of Electrical sov/105-59-6-15/28 Machines Under Thermal A~ing The empirical formulas obtained can only be used for estimative calculations. There are 2 tables and 17 references, 6 of which are Soviet. ASSOCIATION: Moskovskiy energeticheskiy institut (Moscow Institute of Power Engineering) SUBMITTED- November 25, 1958 Card 3/3  s/196/63/000/001/015/035 E194/EI35 AUTHOR; Mantrov, M.I. TITLEs __C_aTc_u_T_ation of the thermal stability and breakdown voltage of high-voltage cable PERIODICAL: Referativnyy zhurnal, Elektrotekhnika 1 enevgetlka, n0-1, 1963, 34, abstract 1 B 116. (Tr. Moak. energ. in-ta, 110-39, 1962, 341-356) TEXTt The thermal stability and electro-thermal breakdown of high-voltage cable are treated mathematically on the assumption that the conductivity varies exponentially with temperature. Formulae are derived to calculate the thermal stability of 420-kV buried cable with a copper core of 500 mm2 section and impregnatcd paper insulation 26 mm thick. 3 figures. 3 references. ~Abstractorls notei Complete translation.] Card 1/1  MANTROV, M.I., kand. tekhn. nauk, dotsent Calculation of thermal stability, and drive voltage of a high-voltage cable. Trudy MEI n0-39:341-356 162. (MIRA 17:6)  MANTROV, IM-1 d:3-;! !iterit, red, (C a I ~nj It, Lr-)n Gf Lhe ri.7,1 machlrtesi abstracL of a course in and desdgn of electrictil insulaticn"] ~'asehet lzolLatsii elekLri6r,f~- skikh ma3hin; komipekt ~o kurju '!-,uscnet i kOnsL.-.ArC- vanie elektriche~;kci iL~ iifit-li. Dnerg. in-t, 11)6-1. -LlCj p. ~.-!J hA I P  MqN-r~o\/' \/ M 240) PHASE I BOOK EXPLOITATION SOV113111 Vaesoyuznyy elektrotekhnicheskiy institut Issledovaniya v oblasti elektricheskogo razryada v gazakh (Research in the Field of Electric Discharge in Gases) Moscow, Gosenergo- izdat, 1958. 239 P. (Series: Its: Trudy, vyp. 63) 2,570 copies printed. Ed. (Title page): Klyarfelld, B.N., Professor; Ed. (inside book): Antik, I.V.; Tech. Ed.: Borunov, N.I.; Editorial Board of Series: Andrianov, K.A Biryukov, V.G. (Chief Ed.), Butkevich, Yu.V. (Deputy Chief Ed*~, Granovskiy, V.L., Kalitvyanskiy, V.M., Klyarfelld, B,N., Krapivin, V.K., Timofeyev, P.V., Fastovskiy, V.G., Tseyrov, Ye.M. and Shemayev, A.M. PURPOSE: This ecilection of articles, issued by the Vsesoyuznyy Ordena Lenina Elektrotekhnicheskly Institut imeni V.I. Denina (All-Union Order of Lenin Electrical Engineering institute imeni V.I. Lenin), is intended for scientists and specialists in gas discharge techniques. Card 1/15  Research in the Field of Electric (Cont.) SOV/1341 COVERAGE: This collection comprises research papers on problems of applied physics of electric discharge in gases. The papers cover the following subjects: formation of an electric discharge when high voltages are applied to the electrodes of gas-discharge tubes, the behavior and properties of the cathode spot forming on the mercury surface, methods of investigating gas density during passage*of large currents through the discharge tubes and the density distribution of current on the plate surface of mercury rectifiers. The articles can be divided basically into three groups according to the following subjects: 1. Formation of initial states of self-discharge. This subject is discussed in the Ist and 2nd articles.,in which discharge firing is investi- gated in uniform 6.nd nonuniform fields at low gas pressure and at high voltages, in the 3rd article on the spread of plasma beyond the limits of the discharge space, and in the 4th article on the transition of a negatively charged electrode from sonde to cathode conditions. 2. Formation of are discharge on a metal surface, in particular, on a mercury surface. This subject is discussed in the 5th article on secondary breakdowns of Card 2/15  Research In the Field of Electric (Cont.) SOV/1341 various gases at atmospheric pressure, in the 6th article on the extinction and re-excitation of the cathode spot on the mercury surface, in the 7th, 8th and 9th papers on the pr,)pertieB and behavior of mercury droplets, and in the 12th article on current density distribution on the plate surface. 3. Development of methods of measuring the dynamics of gas density in the discharge space. This subject is covered in articles 10 and 11. Articles 1, 2,.5, 7, 8, 9, 10 and 11 represent parts of candidate dis- sertations of the respective authors. All papers were written under the supervision of Professor B.N. Klyarfelld. TABLE OF CONTENTS - Introduction 5 Guseva, L.G. Discharge Firing in Molecular Gases When pd < (pd)min 7 Card 3/5  Research in the Field of Electric (Cont.) SOV/1341 GUBeva, L.G. Discharge Firing in Nonuniform Fields at Low Gas Pressures 17 Krapivina, I.V. (Deceased) The Spread of Plasma Beyond the Limits of the Discharge Space 38 Aleshkov, B.M. Formation of Self-discharge on the Negative Electrode in Plasma 48 Rubehinskiy, A.V. Restoration of Disruptive Strength After Spark Discharge 54 Mantrov V M. Extinction of the Excitation Are During base of Discharge Current Through a Mercury Rectifier 88 Udris, Ya.Ya. Scattering of Droplets by the Cathode Spot of a Mercury Are 107 Card 4/5  Research in the Field of Electric (Cont.) sov/1,41 Udris, Ya.Ya. Rebound of Mercury Droplets on Yard Surfaces Udris, Ya.Ya. Backfires Caused by Mercury Droplets Rubchinskiy, A.V., F.S. Kobelevand Y.M. Mantrov. Method of Measuring of Mercury Vapor Density Timofeyev, A.A. Dynamic Changes of Vapor Density in a High-voltage Mercury Rectifier Neretina, N.A. Current Distribution on the Plate Surface of Mercury Rectifiers Bibliography AVAILABLE: Library of Congress JP/atr 4-13-59 129 147 170 192 218 240 Card 5/5  qmsnohiAg of the excitation sro in mercury-sro rectifiers at high dropping rates of the discharge current. Trudy YXI no~631 88-106 158, (MIRA 11111) (Kercury-ero rectifiers)  MBCHINSKIY, A.T.; IOBBLET, F.Se; KANTROT, T*M. Methods for mossuring mercury vapor density. Trudy VBI no.63: 170-191 158, (MIRA 11:11) (Mercury-Density)  AUTH04: Mantrov, V.Y,. (Engineer) SOVIN-59-1-6/28 TITLE: Inereasin-g--Me Stability of t.he Excitation Ar,. of a Single-Anode Mercury Valve (Povyshaniya usto~ ('.111vosti dugi vozb,azhderliya odnoanodnogo rtutnogo veritilya PERIODICAL., Vestnik Elektropromyshlonnosti-,19c~~9,Nr 1,pp 1'7-e'_1_'%USSR) ABSTRACT: Single-anode mercury valves are becomJng widely used brat .L troubles are sometimes experienced because the excitation are is extinguished. This article considers the causes of extinction and also lndicat~~is methods of increasing the stability of the excitation ar-,. The causes of extin,~tion are classified as either ac,,.,idental or systemati,.., anll aie briefly considered. However., e~.-en when accidentai caus",~ are excluded, operating experienoe shows that extinction often occurs under Tated operating conditions, Tests ta-e shown that the main f-,auses in single-anode val~res aza interruption of the main currrsnt through the val~7e anJ application to its anode of a high inverse -,roltage. T~,'~, mechanism of excitation arc ext.inction is then jisr.ussea with reference to Fig 1~ T-te -.-l-irents ttiat res-11t, fr,:,.m resong-vt space-charges when the main dis-harge ;-,urrent. Card 1/6 ceases ""o fl-w ar-- considered-',, It is shni-m thaf under certain -;ii.amstances the -j;-en~ in the ancd&  SOM 10-59-1-6/ -'6 i e- Increasing the Stab-41ity of the Exrlt-ation A.- -' s Mercury Valve I I .' 1-1t~'a---;&t-- 1-1. circuit from the -:;at)~od~i Spr.'- Cj,?r, c-hazrges ret-elved f,'.)m the ar-, TY-6-q,. increase the -ni-fr3m, in the exntat'.on I-11r.- ilt. an.. 61 increase the --litaize 11---op on Lim.1t.1-rig Hence the volt.age Jrjeti;oen thp~ "k, cathode drops to z~j-ro. after wh'~,.:h a pact-- ~1~ elect-:on"L~-. da-j.onlsa~l,)n ~,,i~7rent cathode. As soon as t~-is m G e s c n 'n r~ rmthode4 diop and, ceases, the cathode ~~pot is- 0--, of the v:~itage oa the excitat,ion anod~-i and Lt~~ are current taken dura.ng -hz -~-X- are gi~-c-n in Fii? - j -,;!te t'rle pre analysiE. Thie st~abllity -f tiae ex--itaticr: a~,-. --ia---rea9e~ with the 11norease of in increase in -,~he ionio -;u--ents. The AaTi~e-r a.-71- nal to the con,-,ent---atJkon of --emAnEn-. .-,a i ~ mq Ei z- ~-j ~(e a t ~'.- L ~-s spot of the excitation a:-'~ may again ~~ igrii",el-I Card 2/6 oP mi -crosel-:)nds afte--- ;qKt--ixrtJ---n. T- e Fig 2b shows that at tk~iz inqt~;nt rhe ori. lf~-  SOV110,-59-1-6/28 Increasing the Stability of the Excitation Arc of a Single-Ancde Mercury Valve excitation anode drops rapidly to the excitation arc voltage and the current in the circuit rises to its p revious value. This self-ignition of the cathode spot is similar in physical nature to the self-ignition of an ignitron without a grid. Thus the probability of excitation are extinction depends upon the probability of extinction and of self re-J.gnition of the cathode spot. The stability of the excitation are can be increased either by preventing extinction of the cathode spot or by providing conditions for its reliable self re-igniticn. The chances of re-ignition oan be improved by increasing the excitation are current and the supply voltageq but this is not advantageous. Putting various semi-conductors and insulating materials in the mercury cathode promotes re-ignition but the results are very lanstable. The most stable result is obtained by introducing inductanl-..e into the excitation arc circuit. Increase in inductance of the anode excitation reactors is particularly beneficial; Card 3/6 the reasons for this are briefly explained. When the excitation arc is supplied by a,c. any electrical leakage  SOV/1lo-59-1-6/28 Increasing the Stability of the Excitation Arc of a Single-Anode Mercury Valve or contact between the excitation anode and its scizen causes frequent extinctions, T'.'-)ese are not a~-compand_el by back-fires in the excitaticn circuit. Extin,:;t-Jon of the excitation stops If the 3.:xcltatlon and main _.urrern*s are so phased that du7ing commutation of tr;e -ra'1~le tLe excitation anode connected to the sc.reen is ning In this case during commutation of the vai,'e, wtien the probability of extinction of the exoitation ar~-: is greatest, the eler,-tronic -current flovis tft,~,ough t.~se s the excitation ar'- ci.-cuit is not shunted and it 11.5 rj~.' longer extinguished. A similar ?result can be obtain_~k-. tv supplying the excitation arc with direct Another way of increasing the stability of the ext-its"'on arc would be to in~~rease the ourient in it at the mom'~nt. of commutation of the valvG, A metiiod of doing thL_Js wa~' suggested by S.B. Yuditskiy,, asing the circuit gtow'n ir- Fig 3. It has been found in tesl~s that thi3 _'Wffers from a number of defeuts, the nat.Ure of whLih i.s expialni;d, The author has developed another -circuit- 4.1lustrat-3d in Card 4/6 Fig 1+1 to overcome these defei~ts. In the SiMple~-t O_T'-.~it of a three-phase rectifier with neutral, a three-phase  SOV/110.-59,-1-6/28 Increasing the Stability of the Excitaton Arc of a Si le-Anod~ -ng- Mercury Valve transformer with air gap is i.:sod in place of three separate transformers. The bi3st result is obtained when the secondary windings of the transformer are connectad in zigzag, as shown in Fig 5, The way in which the excitation is increased at the moment of commutat_-'.on is explained. This method of excitation--forcing was tested under laboratory conditions in a valve with a fixed cathode spot and a mean current of 25 A and a maximum inverse voltage of 2 kV. In this valve the excitation are burns stably without loading, up to currents of 12 3 A, but under load the excitation is frequently extinguished. Oscillograms taken during comparati,,e tests of different excitation-forcing circuits are given in Fig 6. The results show that the circuit of Fig 5 is the best. The use of excitation--forcing Ls -rec:ommend~,,4, for install-9tions in which the rate of diminution of the discharge carrent is very great. However, the method Card 516 entails extensive reconstruction of the circuit anu  sov/llo-59-1-6/28 Increasing the Stability of the Excitation Ar~-. of a Single--Aaod,:- Mercury Valve increases the power consumption of the valve. He-l-,, 1n particular cases it is sufficient to increase the inductance of the anode reactors of the excitation ar: circuit. There are 6 figures and 6 references, c~ of whi-Ii Soviet and 1 English. SUBMITTED: September 3, 19558 Card 6/6  66697 2 4, 7-194 SOV/109-4-8-17/35 AUTHORS: Rubchinskiy, A.V., Kobelev, F.S. and Mantrov, V.M. TITLE: Application of the Oscillations on a Sma-IT-kio-d.-to the I Measurement of Gas or Vapour Density PERIODICAL: Radlotekhnlka i elektronika, 1959, Vol 4, Nr 8, 1 pp 1311 - 1315 (USSR) ABSTRACT: The method is based on the correlation existing between the amplitude of the oscillations appearing in a low- pressure discharge on a small anode and the den ity of the gas or vapour in the discharge (Ref 1). The density is measured by introducing a small anode into a discharge. This is usually in the form of a molybdenum or tungsten wire having a diameter ranging from 0.01 to 2 mm and a length of several mm. The source of electrons necessary for the maintenance of the discharge is a small auxiliary are or a heated cathode. A positive voltage is applied to the anode through a suitable limiting resistance. When the current density at the small anode is greater than CN05 to 0-1 A/cm , the voltage at the anode (with respect to the cathode) has a form of high-frequency osc:Uations Cardl/3 'k,  66697 SOV/109-4-8 17/35 Application of the Oscillations on a Small Anode to the Measurement of Gas or Vapour Density having an amplitude of a few tens or hundreds of VOUB and a frequency in the range of 10 4 to 10 6c.p.s. (Figure 1). It is possible to construct suitable calibration curves for the measurement method. These should show the dependence of the oscillation amplitude at the anode on the gas or vapour density. For mercury, the curves can be taken by measuring the oscillation amplitude by an oscLllograph at various temperatures of the cooling water which defines the pressure of the saturated vapour. Typical calibration curves A = f(p) for three different values of discharge current are shown in Figure 2. The supply source to the tube should be chosen suitably; when the amplitudes of the oscillations are of the order of 300 to 400 V, the supply voltage must be about 800 to 1 000 V. Calibration curves A = f(p) for mercury vapour with the anodes of different diameters are shown in Figure 3. The accuracy of the calibration curves is limited by the accuracy in the measurement of the amplitude and Card2/3 the temperature of the coolLng water. It is thought that  66697 SOV/109-4-1-1%35 Application. of the oscillations on a Small Anode o t e Measurement of Gas or Vapour Density the error in the measurement does not exceed 1090'. The small-anode oscillations appear not only in mercury but in hydrogen, rare gases and various other gases. In all cases, the amplitude of the oscillations decreases as the gas pressure is increased. This can be seen from Figure 5, which shows the amplitude of the oscillations for Xe, Kr, Ar, No and H2; the anode in this case had a diameter of 0.?. mm and a length of 3 mm. The discharge was operated by means of a d.c. source and the electrons were provided by means of a heated tungsten cathode. There are 5 figures, 1 table and 2 references, 1 of which is Soviet and 1 German. SUBMITTED: March 5, 1959 Card 3/3  -RANTROV, V.M., inzh. Imporved circuit for arc excitation of mer--ury-arc rectifiers. Elektrichestvo no.5:13-15 My 160. (MIRA 13:9) 1. Vsesoyuzny7 elektrotekhnicheskly institut im. lanina. (Mercury-arc rectifiers)  KANTROV, V.M. Disintegration time of the cathode spot on mercury. Zhar. telrhn. fiz. 30 no.6:672-673 Je 160. (MIRA 13:8) 1. Vsesoyuznyy elektrotekhnicheskiy inatitut im. V.I.Lenina. (Cathodes)  -I/ / P'T 7;F,4 v'q , L7 Z USSR / Cultivated Plants. Ornamental L-9 Abs Jour Ref Zhur - Biologiya, No P, 25 Aug 1957, 690o Author Mantrova,_ E.Z.- Title .-C Eract~eristics of Gladioli Nutrition. OriF Pub Byul. G1. botan. sada 0 SSSR, 1,056, No 24, 64-70 Abstract t Based on experiments conducted in vegetative vessels in the Botanical gardens of Moscow State University, the author established that Fladioli are most resronsive to nitrope- nouB fertilizers specially added as a nutrit~n~ durinfr de- velnpment of the second and fifth leaves; the effect of nitrogenous fertilizers is enhanced by simultaneous addi- tion of potassium fertilizers; a com-rlete mineral ferti- lization during the fi.-st stai,es of 17.1adioli development depresses the plants; only beginninr with the formation of the 5th leaf and down to the end of vegetation does the reaction of the olants to the effect of NKP become Tositive, and it increases durinr the vegetative period. bard 1/1  MANTROVA, G. V., Cand Biol Sci -- (diss) "Biosynthesis of vitamin B 12 and porphyrins by means of propionic acid bacteria." Moscow, 1960. 21 pp with graphs; (Inst of Microbiology of the Academy of Sciences USSR, Inst of Biochemistry im A. N. Bakh of the Academy of Sciences USSR); number of copies not given; price not given; (KL, 17-60, 147)  - ROV.P. , G. V., E'TI IT (I", V. ~7., -ind P-,tiELKINA, V. V. (IlU `~) n "Diosynthesis of Vitamin 81- and Por--hyrins i, Proplori- A-ld 41cteria." Rpport presentel at the Sth Intern;;t'Lonal Kor!hemigtry Congress. Moscow, l)-16 Aug 1?61  I / BUKIN, V.N.; RUTROVA, G.V. Biosynthesis of vitamin B and prophyrins by propionic acid bacteria. Vit. res. i iWisp. no.5:32-49 161. (14IRA 15:1) 1. Institut, biokhimii im. A.N. Bakha AN SSSR Mosk7a. (CYANOCOBAWIINE) (FOAPMUN IND PORPHYRIN COMPOUNDS)  BUKIN, V;N.; MAMROVAp G.V. Effect of pyridoxine antagonisto on the biosyntheeis of vitamin B and porphyrins by propionic acid bacteria. Dokl. AN SSSR 137 no.y. 713-714 Mr 161, (KM 14:2) . 1, Institut biokhimii im.A.N.Bakba AN SSSR. Predstavleno akademikom A, I. Oparinym. (PYRIDOME) (CYAEOCOBALMM) (PORPHYRIN AND POWHYRIN CGROUNDS)  HYKJiOVFKIY, V.Ya.; ZPTL~7VA, N.lT.,,-Ml.NTRC)VA, G.V. Use cf S-aminjl.,jvulir-fc acid for vitamin B12 lbilosyntheeir: by resting celh~ of Pro cnibacterium shermanli. Dokl. AN SSSR 157 no.3z692-695 Y!, 164. (MIRA 17:7) 1. Institut blc~himil imant A.M. Bakha A SSSR. Preristavlano akademikca ~..I. Opariipp.  MAYMOVA, K. P. Mantrova, K. p. *The V&lue of natural antihomolysin in hyper-imvmnization of horses by the B. Perfringens antigen," Sbornik nauch. trudov (Irkut. in-t epidemiologii. i mikrobiologi.i), Issue 4, 1948, p. 58-64 - Bibliog: 7 items SO: U-326/+, 10 April 1953, (Letopis 'Zhurnal Inykh Stately, No. 3, 1949)  IVANOVA, Ye.l.; MANTROU, K.P.; P0,MNOVA, Ye.N,,; "OHINA, L,11. Causes of the develop-cart of nyrrqans ir the p,.irification and concentration of antitoxJc serums. Trudy Irk. NTTFM no. 600-97 161. NIHA L7:7) 1. 1z laboratorit kontsentratsLi syvorotki Irrrul.skogo nauchno-issledovatellskogo instituta apidemiologii i mikrobiologii.   86104 1209 S/112/59/00'D/012/015/097 A052/AOOI Translation from: Referativnyy zhurnal, Elektrotekhnika, 1959, No- 12, pp 13-14, # 24oI3 AUTHOR: Mantrova,. V.M. TITLE- Production of Resilient-Elastic Vitreous Varnish Fabric for Ihsula- tion of Electrical Machines PERIODICAL- Tr. Vses. elektrotekhn, in-ta, 1958, No, 62, pp~ 123-171 TM- A study of ways and means of ppoduction of heat-resistant vitreous varnish fabric with high plectro- nsulating/4knd mechanical properties suitable for substituting mica materials (mica tape) has been carried out in two directions. 1) production of impregnating varnishes on the base of elastic resins, synthesized by the method of heterofunctional condensation; 2) development of a rubber vitre- ,~,electric strength on the base of vitreous fabric and ous fabric with an increase polyorganosilox,ane rubber.p Conditions of heterofunctional condensation of dimethyl diethoxysilane with dimethyl dichlorosilane and methyltrichlorosilane in presence of ferric chloride as a catalyst have been studied. At condensation of these monomers polymethyl dimethylsiloxanes are formed, The mechanism of the condensa- Card 1/2  861o4 S/112/59/000/012/015/097 A052/AO01 Production of Resilient-Elastic Vitreous Varnish Fabric for Insulation of Electrl- cal Machines tion reaction is proposed. Combination of polymethyl siloxane rubber and poly- methyl dimethyl siloxane resin has been studied~ when combined, the polymers form a physical mixture. As a basis for impregnating varnishes for vitreous fabrics CKT (SKT) polydimethyl siloxane rubber and K -43 (K-43) polyorganosiloxane nom- pound can be used. The technological process of production of rubber vitreous fabric has been developed; this fabric has high electro-insulating and physico- mechanical properties, maintained at a continuous thermal aging, The production of rubber vitreous fabric has been successfully organized at the "Elektrolzoilt" plant. The possibility of using rubber vitreous fabric for Insulation of elec- trical machines as a substitute of mica tape has been established, There are 27 references, See also Ref, 24012 (on the possibility of a wide appli-'-&'~Ilon cf vitreous Escapon varnish fabric) A.O~M~ Translater's note- This is the fu'l translation of the original Russian abstrant Card 2/2  KMTROVA, re. Z. Cand Biolog Sci Dissertationt "Nouriabment of the Potato Plant in theAreas of High Yield." 2b/11/50 Moscow Order of Lenin State U. imeni M. V. Lomonosov SO Vecheryaya MQ$KY4 Sum 71  MANILMVA, Te.Z. . - 'ilc"W~Jvtice of gladiolus nutrition. Biul. Glay. bot ada no.24:64-70 156. (MLRA qSll) 7 Botanichookiy sad Moskovskogo gosudarstvannogo universitata imani M.V. Lomonosova. (Gladiolus) (Fertilizers and manures)  T/rf /9 ef USSR/cultivatc''.' Abs Jour L'.k2f Diol., ~(-564 ikutl--:)r tal-'~ cal Gllr"Ul- Df t,'.-- S" ate University. List Title LifluQncc .f Fort 5.ii,.-.c~--s Ori 11957, r Abstract ii'~:lucmcc ~;f L'.0 -':)r 3 Yc---r-, at -c. Cal A tI.0 1410SC-)Il ~;-Ga'Lc U:,ivursity. 7-cy t,~-'. 'Jy jtZl1rS L. il VC,;Ut--tiVC r""I. ict;L results wurc -~btainuo. witl-' nitr)~;C'n cs :,~clally duriii,- t'-,~ ),xi 11 the nctijl,. of J' w-a-, 'c'A-" cl. lc:AL Cark-1 1/2  us, s cultiv,-.";~!C. '564 TIPK I,Qf ~ru E; i s Car.' 2/12 177  HANTROVA Telizaveta Zakharovus; RAZILEVSKAYA. N.A., red.; OTOCHEVA. L-90MIN, A.A.. tekhn.red. (Phlox; their cultivation and nutritional characteristics] Floksy; kulltura i osobennosti pitaniia. Moskva, Ind-vo K-va komrmm.kh02.RSFSR, 1959. 57 P. (KIRA 13:10) (Phlox) it  RUMOVA, Ye.Z.; ZDA3YUK, V.I. Fertilizing gladloll. Biul.Glay.bot.eada no.32:" '58. (MIRA 1215) 1. Botanicheskiy sad Hookovakogo gosudarstvannogo universiteta im. N.V.Lamonogova. (Gladiolus--rertilizers and manures)  MANTROVA, Ya.Z.;, ZDASYUK, V.I. Changes in the carbohydrate and protein metabolism of tulip and narcissus bulb due to the action of fertilizers. Rauch. dokl. vys. shkoly; biol. nauki no.1:123-128 160. (MIRA 13:2) l.Rakomandovana Botanicheskim sadom Mookovokogo gosudaratvannogo universiteta im. M.V. Lomonosova. (Bulbs) (Plants, Ornamantal--Pertilizers and manures) (Plants--Metabolism)  mQrTROvAv Ye1z, Changes in the carbohydrate and protein metabolism of gladiolus corms during storage. Nauch. dokl. vys. shkoly; biol, nauki no. 1:159-162 161. (KIRA 14:2) 11 litekomendovans, Botanicheakim sadom Moskovskogo gosudarstvamogo universiteta im, M.V. Lomonosova. (GLADIOLUS) (BULBS-STORAGE) (PLANTS-METABOLISM)  MANTROVA, Ye,.Z. Nitrdpn consumption by annual ornamental plants as related to the conditions of nutrition. Nauch. dokl. vys. shkoly; biol. nauki no~4:147-151 161. (MIRA 14:11) 1. Rekomendovana, Botanicheskim sqdom MoskovEikogo gosudarstvennogo universiteta im. M.Lomonosols, (ANNUALS (PLANTS) -FERTILIZERS AND MURES) (NITROGEN)  MANTROVA, Ye.Z. 1) Requirement of nutritive substances by decora*ve plants during individual phases of their growth. Nauch.dokl-,;,vys.shkoly; biol. nauki no.W48-153 163. (KMA 16W 1. Rekomendovana Botanicheekim sadom Moskovskogo gosudarstven- nogo universiteta im. M.V.Lomonosova. (PI"TSp OR&WNTAL--FERTILIZERS AND HANUFM)  MANTROVA, Ye.Z. -, Fertilizing rates for individual decorative plants. Nauch. dokl. vys. shkoly; biol. nauki no.lsl56-160 164. (MM 17:4) 1. Rekomendovana Botanicheskim sadom Moskovskogo gosudarstvennogo universiteta im. M.V.Lomonosova.  MANTROVA Yelizave-ta Zakharov-na; ZVYAGMTSEV, D.G.., red. [Fertlliz6rs for ornariental plant!3] Udobrenie dekora- ti;vmkb,rastenil. 41%,slovap Izd-vo Mask. univ.g 1965. 300 P.0- (MIRA 18:8)  ACC NRi,~pu'030133 SOURCE CODE: UR/0120/66/000/004/0071/OCf/a AUTHORS; Zelanov, B. A.; Lebodeva, L. X.; Aantsa. Y.-- Mforoz, N. S. ORG: Joint Institute for Nuclear Research, Dubna (Ob"yedinonnyy institut yadorw(kh issledovaniy) TITLE: A multichannel high-speed device using semiconductors for physics experiments on the 10 Gev synchrophasotron ~SOURCE'. Pribory i tekhnika. eksperimenta, no. 4, 1966, 71-78 :':O?"C TAGS. physics research facility, semiconductor device, synchrophasotron, cable, ,oscillog-raph, diode, photomultiplier, particle scatter, transistor, synchrotron, ;particle detector, scinti-11ation counter, gas filled counter, Cerankov couater, ,6,-Yal synchrophasotron, FEU 36 phot0MUltiDlier, RK 19 cable, RK 2 cable, ENO I oscil- !lo.-raph, P418Ye diffusion transistor, D602A diode, LVE synchrophasotron ABSTELACT: A multichannel hig,~-speed device has been developed for Use in conjunctlon th A t a 10 Gev OIYaI synchrophasotron to conduct physical experiments on large angle :scattering of high energy particles. The multiplier included in the device provides flexibility enabling 17 counters to be operated and easily switched. This device coordinates the scintillation counters and gas-fiLled Cerenkov counters (,,thichi, with n T!EU-36 photomultiplier, can record a single electron expelled from a photocathode) ..,j,~and,';7gives a high-speed response in the nanosecond range for handling count rates of 43.e'c&rd 1/2 UDC: 539.l.Cf75  ACC NRt APO'030133 6 10 per sec, while providing high stability in counting the low intensity count rates of scattered particles (up to 1 partin-cle per hr). Six coincidence circuits and three anticoincidence circuits are combined to provide 100% recording effectiveness ~ihile 1 e-li-rdnating instability and insuring the recording of the true events. The device uses P1,18Ye high frequency diffusion transistors, germanium tunnel diodes D0'02A high frequency diodes, and RK-21 and RK-19 cables to give time integration of the circuit and pulse shaping. The system is synchronized by a control system which employs an I ENO-1 oscillograph. It is unitized and hold on two racks. A one-year test on the LITE synchrophasotron with 3.17 Gev/see pi mesons showed that the secondary coincidealue. circuit and the monitor gave the same count over a wide threshold range. The resolu- i tion time of the coincidence circuits is < 10 nanosec, and the anticoincidence cir- cuit provides a suppression effectiveness of 100% when used,with a threshold counter. :;Ori-. art. has: 10 figures. SUB CODE. 09, 20/ SUBM DATE: 26May65/ ORIG REF: 002/ OTH REF: ,4 Card  MANTUROV, V - "Zealous AnnIbilator of Wolves." p. 191, softya, Vol. 10, no. 4, Apr. 1954. SO: East Daropean Accessions List. Vol. 3, no. 9, September 1954, Lib. of Congress  H NTIS' E~~ V ~ -B. I,/). VOLODIN. Ye-I.. kandidat tekhnicheskikh nauk; GCRODSTSKIY. I-ye.. professor. doktor tekhatchaskikh nank [deceased]; DOSCHATOT, Y.T., inshener; J(ORO'fKOV- T-P-. lCandidat tekhnicheskikh nauk; K-ANT-29Y, B.M., inzhener; NISTIROVSXIY, M.N., inzhener; PALEY, K.A., b0fie-ner;~Vd"TO, A.Ya., kandidat takhnicheakikh nauk; TAYTS, B.A., professor. doktor takhnichs- skikh nauk; XYDIHOV. V.Ta., ksadidat takhnicheskikh nauk; IRVAYS. A.T.. inshener; CHUDOV, V.A., inzhener-, ACEEHAN, U.S., doktor tekhnichookikh nauk. professor. glavnyy redaktor; VIADISLAVIIV, V.S., redektor; NALY. A.H.. redaktor; POZDNYAKOV. S.N.. radaktor, STOLBIN. G.B.. redaktor-, CEDOWAVSKIY. S.A.. kandidat takhnichaskikh nauk. redaktor; KARKUS. K.Ye.. inzhenerl, redaktor [deceased]; KARGANOV. T.G.. inzherer. redaktor graficheskikh rabot; SOKOLOVA, T.F.. tekhatcheakiy redaktor LMetal vorker's manual; ta five volumesj Spravochnik metallista; v piati tomakh. Red. sovet U.S.Acherkan i dr. Koskva, Gos.nauchno-tekhn. izd%.vo mashinostroit.lit-ry. hl.l.(Pod red.$.A.Chernavskogo)-1957.603 p. (Mechanical engineering)  )oo/or S1 130/6o/c j6/oo 3/o i i AUTHOR: Mantsev, R. M., Director TITLE: Outlooks in the "Stal'proyekt" Work PERIODICAL: Metallurg, 1960 No. 6, pp. 4-6 TEXT: In the near future Stallproyekt will direct ists work on a number of serious problems connected with the improvement of designs of the followL-,C units: .1) Steelmelting units. Steelmelting furnaces of 800-900-ton capacity are being designed. The installation of a standard converter shop producing 1.6-2.0 million tou., of steel annually with 75 to 100-ton con'rerters with top oxygen blast will be accomplished in 1960. Subseqently the design of 200-250- ton converters will be developed. 2) Continuous steel casting installations. Within 10-15 years continuous steel casting units will be built in plants in which steel is presently cast into casting pits. The operation of the existing casting units is studied, including an installation at the Novo- Lipetskiy Plant for casting slabs of 150 x 600 to 170 x 1,000 mm cross section from a 90-ton ladle. The design of multi-groove installations for casting square ingots of 120-160 mm from 90-ton ladles and for heavy ingots of 250 x 2~-k to 350 x 350 and 250 x 500 mm from 270 ton ladles is being developed. Card 1/3  a 6utlooks in the "Stal'proyekt" Work S/130/60/000/006/003/"'-!! 3) Heating furnaces for the rolling process. Stallproyekt is planning the installation of heating pits for high-efficiency blooming and slab mills wit- shafts heated by a single top burner. Experimental electric heating pits ne-_- the roughing mills will serve to reduce metal loss by a factor of about 10. Experimental work on this subJect will be followed by the design of industrial -mits. Five and six-zone continuous high-efficiency furnaces are being devised for sheet and rail- and structural-steel mills and heating installations for light-section and strip mills of 250-300 t/hr capacity. In the near future furnaces will be developed for non-oxidizing heating of metal prior to rolling. 4) Thermal furnaces. The main trend in the development of thermal furnaces is the design of continuous units for high- speed non-oxidizing thermal treatment of sheets. Within the current year Stallproyekt, will devise tower furnaces of continuous units for heat treatiriF transformer steel by the new technology; a great number of cupola furnaces with compulsory circulation of shielding gas under F muffle, and units for heat treating reinforcing steel. It is planned to develop the following uni:-, within the coming years: a tower furnace for continuous bright heat treatment of tin; a tower furnace for high-speed bright continuous heat treatment of tin with open flame; a unit for the super-high-speed bright continuous lieat *treatment of tin with heating and cooling of the strip in molten sodium; Card 2/3  Outlooks in the "Stallproyekt" Work S/130/60/000/0005/003/011 a furnace for a continuous hot zineplating unit. Furthermore, experimental investigations are concentrated on the use of natural gas for firing metal- lurgical furnaces. Research, with the use of computers is also conducted on the comprehensive mechanization and automation of steel-melting and rolling processes and sections of heating pits and tin heat treatment. A system of fully automated control in the production of shielding atmosphere is being developed. ASSOCIATION: Stallproyekt Card 3/3  AKSELIRUD, L.G.; GLIMOV, M.A.; G.7ZIGO.."TV, V.1'1.; LIPSNITS, A,Ye.;-BVITS:7N Prospects for improvements in 'Ghe dcs-',:;n of heatin- and ).cat-treating furnaces. Stall 20 no.6:562-567 Jo 160. Q-MU 14: 2) (Furnaces, HeatinE) (furnaces, fleat-treatina)  SEV, R.Me GMM. S.V. ; CHARIKHOV , L.A.; VOS)KODO)DUKOV, V.G. ; STOSIU, For an overall mechanization and a widespread automation in metallurgy. Metallurg 9 no.6:1-3 is 164. (HIRA 17:9) 1. Direktor Gosudarstvennogo soymogo inatituta po proyektirovaniyu agregatov staleliteynogo i prokatnago proizvodstva dlya chernoy metal- lurgii (for Mantsev). 2. Direktor Gosudarstvennogo soyuznogo instituta po proyektirovaniyu metal-lurgicheskikh zavodov (for Gubart). 3. Glavnyy inzh. TSentrallnoy laboratorii avtomatiki (for Gharikhov). 4. Zamestitell direktor Inatituta novoy metallurgicheskoy tekhniki TSentrallnogo nauchno- iseledovatellsko7o instituta chernoy meta-Uurgii im. I.P. Bardina (for Voskoboynikov) f.;amestitell direktora Vsesoyuznogo nauchno-issledovatell- metal gic ogo .skogo i proyel.unokonstruktorskogo instituta Jurg hesk mashino t, stroyeniya (for Stoaha).  MA N T STV -, R. M. Forty years of w6rk of Iwi 'I I I -,o' ! " ; np. I.. tiAn . -,;il ' ~.,. - i, r r~ , - .1 488-491 Je 164. (MlflA 1. Direktor Gosudarqtvnrroz- 1-c agregatov stale li toync,.gc 1 :~Iya chernny metallurgii (S~al'proyekt'.  LUKIYANOV, V.L., deputat Verkhovnogo Soveta SSSR, master bloka martenovskikh pechey; GOLIKOV, I.N.; BUrp B.I.; LEPCRSHIt, V.V.; SOPOV, T., Geroy Sotsialisticheskogo Truda, valltsovshchikk;-M~311 ~IIJI-L MIUIOV, V.D., stalevar We are carrying out the decisione of the 22d Congress of the Cemmunist Party of the Soviet Unic .. Metallurg 7 no.7:2-6 il 162. .(RBA 15:7) 1. Nichne-Tagillskiy metallurgicheskiy kombinat (for Luklyanov). 2. Direktor TSentrallnogo nauchno-issledovatellskogo instituta chernoy metallurgii (for Golikov). 3. Sekretarl partiynogo komiteta Makeyevskogo metallurgicheskogo zavoda (for Buy). 4. Direlctor zavoda "Azovstalf" (for Leporskiy). 5. 14agnitogorskiy faetallurgicheskiy kombinat (for Sopov). 6. Direktor Gosudarstvennogo soyuznogo instituta po proyektirovaniyu agregatov stualeliteynogo i prokatnogo proizvodstva, dlya chernoy metallurgii (for Mantsev). 7. Chelyabinskiy metallurgicheakiy zavod (for Chernov). (I-lotallura)  MATTSEV, R.M. Vladimir Efimov,,:r tm, the '~00.h anniver5a-y, of his birth. Tzv-. AN Miet. i gor. delo no.321- ';-I M-i-S264 D-irck t van T c--,, 1 z Ta d, ya e~hernu-v met -, L  MANTSEV,,._ likhaylovich; CHMENKO, Mikhail Avksentlyevich; CHEf - - C iZ-PAKHI , dEniLy Akimovicb~ UNITIN, Solomon Solomonovich (Open-hearth furnaces; an atlas] Martenovskie pechi: atlas. Moskvaa Metallurgila, 1965. 177 p. (MIRA i8:8)  MANTSEV, V.G. New "four-high 40011 cold rolling mill. TS"Vet-met. 38 no.10:90-91 0 165. (MIRLA 18:12)  MANTSEV, V.I.; MATSUK, R.V., red.; MARTYNOVA, M.N., tekhn. red. [Monopoly profit and monopoly price] Monopollnaia pribyll I monopol'naia tsena. Moskva, Izd-vo VPSh i AON pri TsK KP.'13SP 1963. 95 p. (MIRA 16.-9) (United States--Trusts, Industrial) (United States--Profit)  -1-ACUL Methods for calculating the through capacit7 of postal installations adjacent to railroad lines. Vest. eviazi 18 no.9:17-19 5 '58. (MIRA 11:10) 1. Nachallnik laboratorit TSentrallnogo Instituta sv7azi. (Postal service) trauchno-iseledoratellskogo  KAMM, V.11. ,mumumm Efficiency of mail transportation In containers on main rail- road lines. Vest.sviazi 19 no.3:29-31 Kr '59. (KIRA 12:2) 1. Machal'nik laboratorti TSentrallnogo nauchno-iseledovatell- skogo inotituta avyazi. (Postal service)  MANTSU., V.S., inzh.; VUKOLOVO L.A., kand.tekhn.nauk; KOZWVp Yu.P.., inah.; ---------YUMLI P N.G. Jq inzh. Improving the manufacturing technology of brake shoes made of composition materials. Vest.TSNII 1*S 22 no.100-53 163. (KRA 16-4) (Rd iroads-Brakes)  KOPYL4DV, Ye.P.; EPSHTEYN, V.G.; LAZARYANTS. E.G.; TSAYLINGOLID, V.L.; M&NTSEVAS L.K. Gharacteristies of the vulcanizates of methylvinylpyridine rubbers with coordinate bonds. Kauch. i rez. 22 no.7.-9-13 Jl 163. 04IFLA 16: 8) 1. Nauchno-issledovatellskiy institut monomerov 41ya sinteticheskogo kauchuka i Yaroslavskiy tekhnologicheskiy institut. (Rubber, Synthetic-Testing)  hV*SEVA, V. N. Cand Med Sci -- (diss) "Clinio, treatment and prophylaxis Of ; ~ I -T-45-10z4v- the apathetiow-formAof schizophrenia in children." Mos. 1967. 14 pp (Inst of Pediatrics, Mad Med Sci USSR), 200 copies (KL, 45-57, 99) -27-  4im, ps