SCIENTIFIC ABSTRACT KUZNETSOV, G. F. - KUZNETSOV, G. K.

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SCIENTIFIC ABSTRACT
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ICUMSOV,_~6b, doktor tekhu.nauk; HOROZOV, N.V.. kand.tekhn.nauk; IJ., kandetekhn.nauk; TIIHKIN, L.Te.. inzh., nauchnyy red.; TUHAMIII, D.H.. inth., red.izd-va; KKDVKUY. L.Ya., takhared, [manual on planning apartment houses and public buildiogs of panel and frame-panel construction] Rukovodstvo po proaktirovaniiu zhilykh i bbehoheatvennykh zdanit a panelInymi t karkasno-penell- nymi konstruktutlemi. Hoskye, Ooo.isd-vo lit-ry po stroit. i arkh1to, 1955- 142 p. (HIRA 11:3) (Apartment houseo) (Building) KUZNETSOV, G.F. On the problem of standardization of construction details for build- ings constructed of large blocks. Stroi.prom- 33 noo3:2-7 Mr 155* (Building blookv) (MW 8:5) KUZNITSOVJ Grigori Filippovich, doktor tokhaichookikh nauk; ISIANIZAL, Voires reaRIETOP4.4%W, G.V., takhnichookly redaktor [Precast reinforced concrete panels in the construction cf appartment houses and public buildings] Sbornyi shelasobston v strottelletys shilykh i obahchostyannykh zdanti. Moskva. Izd-vo $Znania," 1956. 38 p. (Yeasoiuzaoa obehohoetvo po rasprostrananiiu politichaskikh i nauchn.vkh snanii. Ser.4. Ao.19) (KLRA 9:8) 1. Daystvitellnyy chlen Akademit stroital'stva i arkhitaktm7 SSSR (for Kusnateov) (Precast concrete) (concrete slabs) KUZNITSOV G IF - HCROZOV, N.V.; ANTIPOV, T.P., DUZINKEVICH, S.Tu., inzhoner, Uerx" rodaktor; BMICMffBKIT, G.L. rodaktor; AGWOVSKIT, To.A., tokhnichookiy redaktor [Structural elements of multi-story frame-and -panel and panel-built apartment houses] Konstruktaii anogootathnykh karkasno-panellnykh i panelinykh zhilykh domov, Xoskya, Goo. izd-vo lit-ry po stroit. i arkhitekture, 1956. 210 p. (MIMA 9:7) (Apartment houses) 'NIZ-ON911- ", doktor takhaichemkiy nauk; RAZINKOV, P.0 redaktor; YJGCROVA, L. tekhnichaskiy redaktor Derge panel construction; a collection of articles) Krupnopanallnoe stroitel'stvo; sbornik statet. [KoRkyal Moskovskii rabochii, 1956. 237 P. (KLRA 10:1) 1. I)eystvitellnyy chlen Akadexii stroitel'stva i arkhItektury SSSR (for Kuznetsov) (Precast concrete construction) KM I-AMMMINNOMMOWRopw Heat insulating materials industry in the sixth five-year plan. 3trolomato, izdel.i konstr, 2 no,9:1-4 ;S '56. (HLU 9: 11) 1. Devetvitell W chlen Akademii stroltel'stva i arkhitektury SSSEL. (Insulating materials) -IMNICTSOY 0 ., inshaner. Heat iniulatiou desiga. Nov. tekh. i pared. op. v stroi. 18 Its.4; 25-28 AP 156. (WM 917) (ftechoslovakia,-Insulation (Heat)) AUTHOR: 4 182 (Member of the Academy for Building and Architecture, U.S.S.R.) TITLE: Precast reinforced concrete for housing development. (Sbornyi zhelezobeton v stroitelletve zhilykh domov). PERIODICAL: "Beton i Zhelezobeton" (Concrete and Reinforced Concrete) 1957, No7ri-pp. 37 - 43 (U.S.S.R.) ABSTRACT: The assembly of multi-storey blocks of flats from large precast units and slabs is increasing although the cost is higher because of inadequate organisation and planning, Constructional schemes of assembled multi- storey blocks built of bricks and brick-blocks, carrying floor- and roof-slabs, could have 5-6 floors and walls of 40 mm thickness. Different types of ,structural solutions are analysed. The basic variations consist in the structural approach to internal spine walls and cross beams or panel partitions. Comparative values of the constructions are tabulated to point out the most economic types, The cement used for ordinary in situ constructions is Mark 110 and. the reinforcement Mark St.3., for precast constructions cement Mark 200, for pretensioned reinforced constructions cement Mark 400 are used. A Leningrad block of flats is illustrated as an example. When analysing the construct- ional schemes of multi-storey blocks of flats based on .'*1,1.arge precast panel walls, big savings can be achieved Precut reinforced concrete for housing development. 182 (Conti). by reducing weight of the structure which corresponds to a reduction of the sizes of building units and of the reinforcement. Experience gained with the above type of construction has shown that the frame-loss type is more economical than the skeleton building. The consumption of concrete is equal in both types but a 20 - 30% saving in steel is achieved with the frameless construction. The cement consumption in the latter case is increased by 5 to 10%. Economical advantages of frameless constructions decrease with the increasing number of floors because of the increasing thicknesses of load bearing partitions. The limit of super-imposed loading on a breeze concrete partition, 10 to 14 cm thick, or on other 2concrete slabs with a crushing strength of 70 to 100 kg/cm represents 8 to 10 floors. Buildings constructed by methods described above appear to be most economical if the number of floors is restricted to 6. There are 2 diagrams, 5 photographs and 3 tables. Industrial constructions of homes and prospects of their development. Gor. I sal'.4troi. no.6:2-5 Je '57. (MIRA 10:10) l.Doyetvitoll "y chlon 1kadevil stroitellotya i arkhitaktury SSSR. (Building) AUTHOR: Idashkin, V. I. (Engineer). 97-57-9-115/17 TITLE: All-Uni6n Congress on Large Panel and Large Block -Constme.tim (Vsesoyuznoye soveshchaniye'po*krupnopanellnomu i krupnobloohnomu stroitellstvu). - - PERIODICAL:Beton i Zhelezobeton# 1957g fir.g. p. 376. (USSR). ABSTRICT: The'Solentific and Technical Association of the Building Industry Iof USSR (Nauchno-tekhnioheskoye obshchestvo stroltel noy promyshlenhosti SSSR) and the Union of Architects of USSR (Soyuz arkhitektorov SSSR) organized this Congress to"generalize experience of ldrge panel and' large block methods-of residential building, and to further the development of this type of-construct16n in USSR. The Congress was hold from 4th - 10th June, 1957 In Chelyabinsk. Six hundted delegates attended, representing building organizationst planning and scientific or&anjiat- ions and factories manufactux~ing building materils. be Congress was opened bj the Secretary of the Chelyabinsk .KPSS# N. V. Laptev. paper on "The Present Position and Future Development# In the Use of'Latge Panel'and large Block Construction was read by G. F. Kuznetsov, a member of the Academy of Building and lr-c-fd-te-ciu-~~-o-F~ssn Card 1/3 (Akademii stro-itellstva i arkhitektury SSSR). A paper on 97-57-9.~15/17 All-'Union Congress on Large Panel and Large Block Construction "Material Rpouroes for Large.Panel-and Large Block Congtrao. tion Methods' was read by A. N. Popov, also a member of the above Academy, and contributions on this subject-were also made by the'following: V. I. Bogomolov (Member of the Academy of Building and Archite6ture, USSR), Engineers P- F, Panfilov,, V. M. K6pp and L. 8. Raynus (Leningrad) A:'B: Strutinakiy and V; A.' Mikhaylov'(Kiev), E. D. Samo'y- lovich (Chelyabinsk), A. S. Krivotot6v (Magnitogorsk)i' Candidate of Technical Sciences I. L.'Zhodzibhskiy (Sverdl6v Engineer V. N. Popko (Krasnoturvinsk)s and vo G. Lelichenko (Zhdanov). Papers on the results of investigations into~ the subject of large panel and large block building methods were*read by:- Membet of the AcAdemy of Building and'Ardhi- teoturd of USSR L I. Onishchik,'and AO-V. Elkin; Doctor Of Technical Scie;oes Prof. A. E. Deso~r; Candidates of Technical Sciences N. Ya. Spivak and E. M. Berzon and* Engineer A. A. Liberman read papers on th6 Technoiogy of' the production of large'panels and blocks. It was gdn6r- ally agreed that large panels and blocks are too heavy. The answer lies in t e technology of new buildiDg materials# especially in li&ht aggregates and concretes. The hi h " Card 2/3 proportion of deNctive units damaged during transport and 97-57-9-15/17 All-Union Congress on Large Panel and Large Block 6n~truetioz assembly causes concern. The'Congrebs made a number of recommendations for expansion,, improvement in quality and reduction in oost6. Lightweight aggregates such as Keramzit and Termozit, eto., dre advocated.,'together' with clinker and furnace slag *Hi hly active, quick- hardening cement should be us;d. rther'invebtigations should be carried out on aerated concrete. Study and experience of large panel and large block construotidn shows that it is possible to reduce the assembly time' by at least 20 - 30%-by using the continuous method'of assembly by'employing two or three shiftst and by It- proved methods of assembly. The Academy of Building and Architecture of USSR was approached'by the Conr ess to study typei of cranes suitable for this particular assembly work. AVAILABLE: Library of Congress. 1. Building industr7-Conference Card 3/3 THOR: STVZA7-~i7 11-2/10 u~~401,qavr~~~ of Techn ncee C 3 c TITLE: Wider Use of Precast Reinforced Concrete in HOusing Con- Struction ':' (Za shirokoye vnedreniye sbornogo zhela--obetona V zhilishchnoye stro*tellstvo). I PERIODICAL: Beton i Zhelezobeton, 1957, Nr 11, Pp 424-430. (ussR) ABSTRACT: The advantages of precast reinforced housing construe- tions against the conservative brick-building technique are analysed. Bypreeg3ting the building constructions it was possible to reorganize the building activities using industrially manufactured products and barrying oui assembly on ~ie building -site. Figure 1 illustrates town housing deve.Lopment where the above-described constriction is used predominantly. Figures 2, 3 and 4 give examples of large panel and large block constructions of schools and blocks of flats and their qssembly with the aLid of cranes. Tables I and 2 give data on the required time of erection of 4-5 storey blocks o5 flats of various typ ,es of construction in an-hours/m of erected building. Th A t m OW t at the cos ese figures G of building decreases with the increase in size of prefabricated building units and decrease in numbers of types of units. Figure 5 shows Card 1/2 S.OVI 97r-57-11-2/10 Wider Use of Precast Reinforced Concrete :Ln,.-.H6usingCorittffictdbA,7. a factory pre-assembled sanitary unit as used in many blocks of flats in Moscow Leningrad etc. The Academy for Building and Architecture of the USSR (Akademiya stroitellstva i arkhitektury SSSR) i s testing two nev types of floor construction consisting of a top panel, calculated for superimposed loads,and a lower panel fo--m- ing the ceiling, Pigure 6 shows a different type of new floor construction with a wood fibre ceili= slab as ex- hibited in 1957 at the Moscow Exhibition. _-Pigure 7 il-- lustrates cross-section of the above floor. During re_-ent years it has been possible to lower the weight of the precast units by using light weight aggregate, aerated concrete etc Fijn3re 8 shows a hollow wall panel span- ning two roo;sO Ee- weight of brick buildings is 500 - 5510 k&/m3 the weight of large block constructions 400- g/m3. 450 kg/m3'but large panel buildings weigh only 250-300k It is aimed to r5duce the weight of the latter constrac- tion to 200 kg/m . Recent developments indicate t1lie p3s- sibility of casting whole !boxes' (rooms) and assembling same. There are 8 figures and 2. tables. Card 242 1. Housing projects--Construction 2. Reinforced concrete--Applications Q) 7, M. ~!Oz~~ U5 Z, Z2 YN Q~ M 1194~ 119"T11.112MEINASSOM. AUTHOR: Kuznetsov, G. F. blember of AS14,j58SR '-SbV/97.'58"7-3/10 TITLE: tructions of Bloc, & J_ ~~ of Flats and Evolution 1~r Vs ~Bui=ding 4h System. (Konstruktsii krupnopanel'nykli zhily'kh domov I perspelctivy ikh razvitlya). PERIODICAL: Beton i Zhelezobeton, 1958, Nr.7. pp. 249 26B. OUR). ABSTRACT: The large panel method of house construction has reached a new stage in developm9nt. Larte building activity Is taking place in Mosc& kFig.l), eningrad, 1MYev... Magni- togors1f#Cherepowts-,'ebO. Advances in this method are mainly due to the woT',c of the Academy for Building and Arohitec- ture 6f the USSR (Akademiyastroit6l'stva I arkhitektury SSSR). This institute collected valuable data during ' 10 - 12 years of experiences with large panel construc- tions. In various Rlaoes a new building scheme Is being carried out called seml-skeleton~','where the weights of -floor slabs are transmitted to load-carrying partitions, T and from there directly onto ceiitral columns. ising this system L. G. YuzbashevP.,~ built'four-,,five-storey blocks of flats in Cherepovbts (Fig-2). -Pig.3 Illustrates the first construction using this system of load-bearing cross partitions put up in 1949-1950 in Magnitogorsk. Card 1/5 The plans for this building were prepared by the Institute SOV/97-58-7-3/10 La-r-cre Panel Constructions of BlocIcs of Flats and Evolution of This Building System. for Building Technique (Inftitut stro itellno 'telhniki) and by*Trust Magnitostroy G. F. Kuznetsov, i.' N.c Smirnov, A. K.'IZcrtumyan and Z. N. Ndsterova). The first house erected using large panels with three lateral load- carrying walls was o6mpleted in Leningrad in 1953 by A. N. Vasil'yw and Z. M. Kaplunov. A similar construction *vas used in Leningrad where the walls were of clinker concrete, and the partition of gypsum concrete. Large panels made of Keramzit-ooncreteveere also used for this constructional method in a building erected in Mosoovi bv Ye.L. Iokheles. The method was further developed by A$IA)_&$$R.- inan(expe rime nt al building Orect6d in 1954/1956 in Noscovi and designed by B. N. Smirnov,, 11. V. Morozov, Yu. B. Monfred, Z. N. Nesterova.,, L.' M. Vrangel','Sh. Y. Akbulatov under the leadership of G. F. Kuznetsov. In- this construction are load-bearingdinker concrete par- titions calculated for compression, the floor units are also of clinker concrete Mc-100-150. Fig.4 illustraties detail o-f large panel sk6letonless construction using load-carrying partitions. Fig.5 shows load-bearing par- card 2/5 tition desipned for compression. This partition was SJOV/97-59-7-3/10 Lar Panel Constructions of Blocks of Flats and Evolution of This BuNdling System. developed by Giprostrommash in' conjunction with AsiAt~ SWR, (11. P. Rozanov,IV. G. Kocheshkov, A. G. itozen- fel'd, Yu. B. Monfredv B. N. Smirnov and A. K. Wcrtu- myan). A system usinp partitions designed to resist bendinfrwas used in a ,building in Moscow designed by V. P. Lagutenko. A new type of Keramzit-conerete was developed by the Institute for BuildinU and Facing Cons truot ions ASEAj I q5R .~(Institut stroltellnoy fiziki i, ograzhdayushchikh konstruktsiy ASiA SSSR) and recommen- ded by the Gosstroy Commission in 1957. Table on page 253 gives comparative technical and economical data on four various large panel buildinf-,s and values for build- inr,s oonstructed forom thin ribbed panels manufactured on stand of Eng-. N. Ya. Kozl6v, according to the design of SAKB APU of Viosgorispolkom.' A new up-to-date'method of manufacturing panels was developed by Eng . N. Ya. Kozlov. The technolory of casting was wofxed out by Card 3/5 Ene. M- T..-Yegnus: of KB Glavmosstro7. SOV/97-53-7-3/10 Larg Panel Construction of Blocks of Flats and Evolution of This Bui ding System. Lastly, a methyd was developed by Giprostrcmmash (Enqr. A A. Siisnikov). Mintransstroy- (Engr. G. S. Suren - yan) devised a method of producing panels in a vertical position.- The SAKB AN Mosgorispolkom and -Mosproyeict designed houses using thin ribbed partitions from fine- aggregate-oonarete(Fig.7). Both the above-mentioned organizations accepted the construction of partitions designed for coinpression (Fig.B). Construction of a house from thin hollow panels was designed by the Institute for Buidings and Facing*Constructions (G. F. Kuznetsov, , T. - Antipov). Fig.10 Illustrates a large panel con- struction of a house erected ih Domodedoyo and designed by K13 ~'.of M6soblstroymatdrialy-Ah conjunct ion'withASU, SSSHV .. ( A. A. Yakushev, Ya. M. Fei'man, G. N. Pachen- tseva 'B S. Akishev). :Fig.ll:'alglan of a blook o-O flats Card 4/5 type L5~ built in 1957 in Gotva ov (CSR) and designed BOV/97-53-7-3/10 Lar e Panel Construction of Blooks of Flats and Evolution of This BuMing System. by Architeot I.'Koula. Fig.12: photograph of the above- mentioned house. There are 12 Fieures and 1 'Table. 1, :HOUsilig 3. Constnietion materials--Design Card 5/5 .gEW~.~~zzh.; LATASH, M.M., inzh. MILOVAROV, inzh.; SIBUNMNNIKOV, S,S*, insh. Erecting tunnel kilns of heat proof precast reinforced concrete elements. Nov. tekh. i pared. op. v stroi. 20 no.1:6-10'Ja 158. (MIRA 1112) (Kilns) (Precast concrete construction) KUNICTSOV, G.I.P..; KHGUSOV, I.Te., kand.tekhn.nauk; SHOLCEHOV, Y.G., inzh.~ Prinimall uchastlys: AKBULATOT, Sh.F., kand.takhn.nauk; KRICHEVSKATA, Te.I., kand.tekhn.nauk; DOROKHOV. A.H., insh.; HIKIFOROV, I.A., kand.tekhn.nauk; BOGDAHOV, B.N., inzh.; AVRU- TIN, Tu.Te., izLzh.; VISHMSKIT. N.D.. inzh.; ARITSVICH, E.M., kand.takhn.nauk; LEVITAN, Te.P., inzh.; TUPOLEV, H.S., prof., doktor arkhitektury. TMMIN, L.Te., itzh., red.; KHAVIN, B.N., red.izd-va; BOROVNEV, N.K., takhn.red, (Temporary instruction (SN 51-59) for planning and constructing combined roofs of residential and public buildings] Vremennye ukazaniin po proektirovaniin i ustroistvu sovwshchannykh krysh (pokrytii) zhilykh i obahchostvannykh zdanii (S9 51-59). Koskva, Goo.izd-vo lit-ry po stroit., arkhit. i stroit.materialam, 1959. 34 p. (MM 13:1) (Continued on next card) M TSOV. G.F.---(oontinued) Card 2. 1. Russia (1923- U.S.S.R.) Goeudarstvannyy komitat no delam stroitalletva. 2. Nauchno-iseledovateltakiy institut stroi- tellnoy fiziki i ograzhdayushchikh konstrukteiy Akademli stroi- telletva i arkhitektury SSSR (for Kuznetsov, Khlueov. SholokhoT). 3. Direktor Nauchno-looledovatellskogo institute stroitalluoy fizi- ki i ograzhdayushchikh konstruktoiy Akademii stroitelletva i arkhi- tektury SM; daystvitellnyy chlen Akademii stroitelletva i arkhi- taktury SSSR (for Kuznetsov). 4. Usuchno-iseledov.inatitat zhilishchs (for Akbulatov, KrichavskaTs). 5. Nauchno-isoledov.institut proyekti- rovaniya Akademii stroital stva i arkhitaktury SM (for Dorokhov). 6. xauchno-issledov.institut po stroital'stvu Hinstroya RSM (for Nikiforov). 7. Gorstroyproyekt (for Bogdanov). 8. Moffyroyekt (for Avrutin, Vishnovskiy). 9*Akademiya komm=nllnogo khozyaystva im. K.D. Pamfiloya (for Ariypichl Levitan).10. Hoskovskiy ArkhItekturnyy in- stitut (for Tupolev). (Roofs, Concrete) *0,4"6 *R."fircb, on a MI-M-re;lUmate state of st".Izo I frosse of t Lofts rial buildings" Session it) Wg, 0 To. - *14"areb 04 ( = COMarg" strength thooryo (session tl) WGUM (row) ("W"My Malay M. M312! (too) - *04wral roadaticas : rp 1. W, , I.,true"On - I allon and maintenance of net roof$ is tbe UM' MAd thO Mftlt Of lVCQO% IMVOO- *U"APUOG of cut flat atructou" Is us vosr (asset= Or) WSRAMIT, N. S. - "Molounce a! rets- br-cireakrov members to the *if"% or tronswerse forese (session It WaDMV A. A., FrOt. or. - '?""at Ouse am p*Uw of 46*410 of witing lu to 6"Ot" IT) ., 1-1. Orion ly Y.. Prof. - *94MM -(Smootos exprisace ITI T.. *7robL~ of Joint Mary N.-Old to W94,48% (session IT) I t., r"t- or. - W414"Mes a" outrunts at retater"d 005"Ote OUVXKM, V. I., Prof., FroolAbut of Session US selmood" to present a ""r U Sessies 11. Uum, set Steve. Number or the Ste"Ift Committee for the Congress. A"" I., Prot. Dr. M"-sp Or earril" ovialty of atabe a" Stew by a. 0. A., Flat. Be.. GM of valu,"M --o of beery aIssmake (@"@Us ty) npw%m 141 to ""%%4 tor me au. comireso met not amount ""Ouse Most. coommou tor atul" aftemovii, ~omis" IFA SwummAsUms, b*%w6m% _F=2A-QY.--A�~doktor tekhn.nauk, prof.; SPIVAK, N.,kand.tekhn.nauk; MOROZOV, H.91-nd.tekhn.nauk Increasing the use of concretes made with expanded clay fillers In housing construction. Na stroi.Mook. no-1:8-13 Ja '59- WRL 12:1) U Dayst4itellnyy chlen Akademit stroitelletya I arkhitektury (for Mimeteov). (Lightweight concrete) Industrialization of heat insulating operations in 1.959-1965. Nov. takh. mont. i spate. rab. Y stroi. 21:1-3 '59. (MIRA 12:8) I.Glavtaplomontash Kinisteretva stroltalletva RUSR. (Insulating materials) KUZNBTSOV,. G.F.. inzh.; LATASH, M.N., insh.; MIWVAWV, A.F., kand.takhn. nauk Operating tunnel Itilne built of heat-resistant reinforced con- crete panels. Xov.tekh.mont.i spets.rab.v stroi. 21 no.11: 1&91 N 159. (MIRA l3t2) 1. Glaytoploxontaub, Soyuzteplostroy Hinstroya RSM, Nimuchno- iseledovatellskly institut betona i shelesobetona. Akademii stroitalletya I arkhttaktury SSSR. (Kilns) (Precast concrete construction) G.Fj-doktor--tekhn. kand.--t4Dkhn,------ nauk. Prinizali uchastiye: BAULTN, D.K.p inzh.; KREYTAII,V.G., inzh.; BUADZE,V.Sh., inzh.; KOUTRIDZE, M.D., inzh.; UMV,A.L., inzh.; BAD- ZHAGYAN, V.S.; KLIMOVA, G.D., red. Izd-va; ABIWOVA, V.M., tekhn. red. [Instructions for designing and manufacturing large lightweight slabs to go between stories of apartment houses and public buildings] Ukaza- niia po proektirovaniiu, i izgotovleniiu oblegehennykh krupnopaneltnykh mezhduetazhnykh perekrytii zhilykh i obshchestvennykh zdanii. Moskva, Gos.izd-vo lit-ry po stroit.., arkhit.i stroit.materialam., 1961. 109 P. (MIU 14:12) 1. Akademiya stroitallstva i arkhitektury SSSR. '-nstitut stroitellnoy i ograzhdayushchikh konstruktsiy. 2. Deystvitelinyy chlen Akademii stroitell- stva i arkhitektury SSSR (for Kuznetsov). (Precast concrote construction) J=NT-SOV$--qFq prof,j SPIVAK9 N.Ya.j kand.tekhn.nauk Keramzit concrete in large-panel housing constructiove Bets i zbel#- bete nos2,58-63 F 161e (MMA 14s2) y chlen Akademil. stroitel'stva i sib 1. DeyetvitelIM (for luznetsov)o (Concrete slabs) (Apartment houses) KUZNETSOV ) G. F. Problems of the quality of large-panel apartment house construc- tion. Bet. i zhel.-bet. no.10:476-3 of cover 0 161. (MIM 14:12) 1. DeystvitelInyy chlen Akademii stroitel'stva i arkhitektury SSSR. Precast concrete construction) artment houses) Z VOLCHEXI 1.Z., inzh.; BU'r~HGALTFR9 V.D., GiL., inzh. Manufactuve of asbastes-silicate insulating articles. Mont. i spets. rab. v stroi. 24 no.5:13-15 Fq 162. (MIRA 15:5) 1. Nauchnc-iseledovatel'skiy institut stroltellncy prcmysgiennosti i Gla-vteplomontazh. (Insulating materials) KUZNETSOV, O.FLOTTIPOV, T.P.; MOROZOV, N.V.; GORYACHEVA, T.V.0 . ~redizd-va; SHMURVA, N.V., tekhn. red. [Designs of briok~-panel residential buildings] Konstruktsii kirpiebbpanelinykh zhilykh zdanii. )4oskva, Gosstroilzdat, .1963. 104 p. (Mldi% Bricki (141 Rk 16 % 6) (Apartment houses-Deoign and construction) KUZNETSOVV.GeF.*j prof* Designing odlf-dralning joints in exterior valls of large-panel apartment houses, Bete i zhel.-bet. 9 no.lOt436-441 0 163. (KIM l6r12) 1. Deyetvital'nYY chleP Mcademil, stroitel'stva i arkhitaktury SSSR. hIMETSOV G.F,,, dokt,-,r tekhn-, nauk, prof. ways or using the brick Industry l'or product!i required in indumtrial emstructlon. 5trol. uat. 10 no.10:25-28 0 164. (~IIRA 18-2) F Griacrii 1......... - t , - , , L~ T : , ;~.-jwo-iy ;._i" It I f~viclhjl 1,16"0.." - I Cj " r~ '.i j,jj.-jFJ I ,-j 1 ' I -f, ' r1 !, to, ". - ~ 'j, . ;~rzow-'. bur!cwl -1 'x-'.uj .-Jpz~k 36 nc . !,,-): ~, i '.- 5-73 0 t;,,. , i -. ~ - ~ . - 11, 1' - ,~? f - , I . !,~ - ~. , 1 . I , R 17, HKO , V.I!.; V.A.; ..; 3.V. - FAZINETSOV, 'v.. '_ . I ,j 4 :,.. . A 40 Mov. linear e I -~-: _- t,, - c, n t or-. 7hm'. L,:1,i - f i,-,. 34 no-10: .1903-1905 () 16!,- (HIPA 17:12) LEVANOV, Hikolay MWisylovicil, praf., doktor teklin. iiauk; SI'VORK111, Dmitrly Grigorlyevich, dots., kand. teyhn. nauk; KUaETSOV ,, prof., doktor tekhn. nauk; L___-a_PAE_ GVOZDEV) A.A., prof., doktor takhn. nauk [Iteinforced cowrete elemental Zhelezobetonrqe kor, struktsii. Yoskva, Vysshaia shkola, 1965. 871 (MIRA 18110~* LUKASHEV, A.M., inzh.; XIJZNFT'!V--;'I', -;*-. ~ . , i--i~ Reasons for low technIcal ;.- -? the "Komissarovskoe" Mine 1:-, ---~ ~ "-47 0 163. 'i, - -.,' at )- - ' 7,,, . 'I no. 10: f.1-I'RA 17:4) 1. Shakhtinskiy nv-chno-is~-.! ;v !. ugolInyy institut, KUZIIETSOV, G,G., gornyy inzh. Sonceming the book UThe coal Industry In capitalist coitntries*, volume 3. Ugol' 39 no*6%77-78 ',,T&!64 (MIRA 17 27) 1. Shakhtlnskiy nauchno-issledovatellskiy i proyektro-konstrUL-- torskly ugoltnyy inatitut. FEDIKO, A.M., gornyy inzh.; KUZNETSOV, G.G., gornyy inzh. Economic efficiency of pillar and continuous mining systems. Ugoll 39 no.7:51-54 Jl 164. (MIRA 17tio) 1. Shakhtinskiy nauchno-iseledovatellskiy i proyektno- konstruktorskiy ugollnyy inatitut. VI -) (7'~ ~J 137-1957-12-23017 Translation from: Referativnyy zhurnal, Metallurgiya, 1957, Nr IZ, p 22 (USSR) AUTHOR: Kuznetsov, G. G. TITLE: The Effect of the Jigging Cycles on the Products of Concentration of Finely Divided Materials (Vliyaniye tsiklov otsadki na rezulltaty obogashcheniya tonkoizmellchennykh materialov) PERIODICAL: Kolyma, 1955, Nr 12, pp 9-16 ABSTRACT: A presentation of a theoretical analysis of existing types of jigging machines (JM) and their classification into 4 classes according to their hydrodynamic properties. The effect of the various construction features of the JM's on the effectiveness of the separation of finely divided materials (up to 0.2 mm) is studied,viz., tailings from gravitational concentration of quartz ore, with SnO2 concentrate added to obtain approximately I percent of Sn in the charge. Crushed magnetite (1.65-0.42 mm) of constant layer thickness of 30 mm was used for the bed. Experiments and analy- sis have pointed out that the JM's with an oscillating sifter (at 556 pulsations per minute the extraction of the heavy component was increased 10.5 percent) are superior to those using the dia- Card I /Z phragm type. The jigging cycle of these machines reflects the 137-1957-12-23017 The Effect of the Jigging Cycles on the PrIodticts.- -(r-ont. ) ... . physical nature of the jigging process. JM' s with an oscillating sifter have a wide range of amplitudes (0.8-2mm); they do not require reciprocal movement of the entire mass of water and are, therefore, more economical. The conclusion is reached that JM's with an oscillating sifter of the Bendelyari type and the machines of the Mekhanobr Institute, owing to their hydrodynamic and techni- cal properties, are the more perfected concentration apparatus, particularly for the concentration of finely divided materials. M, L. 1. Metallurgy-USSR 2. Separators-Theoretical anLilysis Card 2/2 SOVI/ 137-58-10-20390 Translation from: Referativnyy zhurnal, Metaflurgiya, 1958, Nr 9, p 6 (USSR) AUTHOR: Kuznetsov. G. G. TITLE: Certain Regularities in the Pulsator Jigging of Finely Di-,, ided Tin-Bearing Material (0 nekotorvkh zakonomerrostvikh otsadki tonkoizmellchennogo olo%onusnogo mate riilu) PERIODICAL: Tr. V5es. Magadansk. n. -;. in-ta--1 M--va metal- lurgii SSSR, 1956, division 4, Nt 15, 63 pp, ~V, ABSTRACT: The results of investigations of the pulsator jigging of fne materials are presented. The regularities of the *,nfluerxe of variable parameters on the process of sepuratiov~ cf the ore materials by pulsator jigging are demonstrated. A number of practical and theoretical questions are invetigatecl,., 1) ueter- mination of optimum grain size and the most proitable weight. density of the bed; 2) determination of critical bed thicknesses of various densities and grain sizes; 3) deterrnira~`on oi optl . mum parameters for frequency and amplitude ct screen oscil- lations with beds of different characteri st;c s; 4) exper'mental- verification of the hypothesis that the bed functicn-, as a -,,alve: M. M. 5) determination of the possibility of pulsa~qr J.gging w;tho~ii Card 1/1 classification. 1. Ores--F)roccss:1.nv 2. 3, InduoLrial 4. 7r.,.-,.-;tri,'.0. --Design 137-1958-1-55 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 1, p 10 (USSR) AUTHOR: Kuznetsov, G. G. TITLE: Effect of Water in Pulsator Jig Dressing of Minute Materials (Vliyaniye vody v protsesse otsadki tonkikh materialov) PERIODICAL: Kolyma, 1956, Nr 12, pp 35-41 ABSTRACT: The effects of handling water and water beneath the screen on the results obtained by pulsator jig dressing of minute materials have been investigated. The material subjected to separations were the tailings of gravitation beneficiation of quartz ores con- taining no Sn, to which cassiterite concentrate is added to intro- duce (VI percent Sn into the mixture. The material was crushed in a rod mill.to under 0.2 mm size. It was found that the maxi- mum extraction of Sn and the maximum efficiency of the process was attained in the solid-to-liquid ratio interval of 1:1.5 - 1:5. Losses of cassiterite in the tailings increase with an increase in the speed of the rising current, and extraction increases at speeds of rising flow tending to zero. An increase in the flow of water be- neath the screen results in diminishing the yield of product there, Card 1/2 an increase in the heavy component percentage therein, and an 137-1958-1-55 Effect of Water in Pulsator Jig Dressing of Minute Materials increase in the loss of metal in the tailings. At a constant speed of rising flow of water from beneath the screen, the losses of tailings increase with any increase in the specific gravity and grain size of the bed material. A graphic method of approximated determination of the required speed of the water beneath the screen relative to the desired effectiveness may be recommended as an objective method for use in approximated estimates of the water required for this purpose. A. Sh. 1. Ores-Processing-Test results 2. Ores-Processing --Effects of water Card 2/2 137-58-6-11343 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 6, p 12 (USSR) AUTIHORS: Kuznctsov, G.G., Makhno, S.M. TITLE: Tests of a Method Developed by VNII- I for Washin- Prospectors' 0 Samples of Gold-bearing Sands (Ispytaniya razrabotannoy VNII- I skhemy promyvhi razvedochnykh prob zolotonosnylh pcshov) PERIODICAL: Tr. Vses. Ma-,fadansk. n.-i. in-ta za 1956 g. Ma,-adan, 1937, pp 147-149 ABSTRACT: A description is offered of a method of sampling that may be employed in prospecting and in exploitational operations. The system, combining mechanical pans with a concentration table, assures adequate recovery of M and is the method beat suited to the washing of prospecting samples of Au-containing sands. A.Sh. I. Mining induj;ry--Equipment 2. Gold--Pr,,duc-~ion Card I/ I SOV/137-58-9-18Z81 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 9, p8(USSR) AUTHORS: Kuznetsov, G.G., Kazurina, N.M. TITLE: Concentration of Complex Tin-lithium Ore (Obogashcheniye kompJek5noy olovo-litiyetoy rudy) PERIODICAL- Tr. Vses. Magadansk. n. -i. in-ta-l M-va tsvetn. metallurg-.,; SSSR, 1957, division 4, Nr 18, 20 pp, ill. ABSTRACT: The results of the investigation of the feasib:lity of the con- centrat ',on of Sn-Li ore are reported. The content oi usefu'A 0 Sn minerals, cassiterite and stannite, amounts to 0. 42 and 0. Ob 70, respectivelg ,. The Li minerals are lepidolite 4. 60/0 and amblv- gonite 0. 23 7o. The systems proposed are: 1) Combined grav i - tation - flotation;,.. 2) magnetic separation of the whole ore, flo- tation of the nonmagnetic fraction, and finishing on tables. In the latter syste'm dry grirlding to 0. 4 mm and also dry magnetic sep- aration is carried out with the purpose of extraction of the Li concentrate. The 'more -practicable version of the systems men- tioned is the one condtiicted according to the scheme: flotation - concentration. For this, the ore is milled to 0. Z-mm particle size whereupon the Sn concentrate is separated by flotation. Card 1/1 1. Lithium tin ores-P.rocessling 2. Tin---Separation 1. M. 3. Ores--Flotation SOV/1 37-,58-9-18274 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr9, p7 (USSR) AUTHOR: Kuznetsov, G. G. TIT LE: " b7n_t~heProblem of a Rational Type of Machinery for the Jigging ot Ore Fines (K voprosu o ratsionall nom tipe mashin dlya otsadki melkikh rudnykb materialov) PERIODICAL: Kolyma, 1958, Nr 1, pp 33-36 ABSTRACT! The technical and economic advantages of jigging machines with a movable screen over those equipped with diaphragms and pistons, especially in the concentration of fine material, are noted. A new design for such a machine with a round (plan-form) screen is proposed. In it, the depth of the trough is decreased owing to the application of two cones, the one inserted into the other. The drive is located under the trough. The chamber is acce*9sible for observation of the process and changing of the screens. The screen moves vertically on a central shaft. The clearance between the housing and the screen is sealed by a ring-shaped rubber diaphragm. Com- parative testing of jigging machines of various designs showed Card 1/1 th4t the proposed machine is the most effective. 1. M. 1. Industrial equipment--Design 2. Industrial equipment-OperRticn 3. Industrial equipment--Test resul A lip! u Vol fl to olf -.1 7 : IV 9 s1 i37/62/ooo/bo4/144/2o i Ao60/A1O1 AUTHORS: Kuznetsov, G.'G.-, Zhuk, N. P., Lyubinskiy, B. E. TITLE: Electrolytic etching of high-alloy alloys PERIODICAL; Referativnyy zhurnal, Metallurgiya, no. 4, 1962, 104, abstract 41635 (V sb. "Korroziya i zashchita konstrukts. metallich. ma- terialov". Moscow, Mashgiz, 1961, 53 - 71) TEXT; An investigation was carried out upon the electrolytic etching of steel A 181412M27r (Khl8N12M2T) and alloy,-9W 435 (E1435) in solutions of H2S04 (anodic, cathodic, alternating. current, alternating Purrent with bipolar connec- tion of the specimens) and the effect of the H2S04 concentration, the electro- lyte temperature, and,D upon the rate of this. process, weight losses of the metal, and the quality of the.specimen surface after etching. The polarization curves measured upon specimens of Kh18N12V12T and E1435 both with and without scale indi- cate that the scale etching is under. anodic. control in H00h solutions. The scale of Khl8N1Z42T under electrolysis is removed by the etching action upon the base metal under the scale by anodic polarization, which Is further helped by Card 1/2 S/137/62/000/004/1411/201 Electrolytic otching of high-alloy alloys A060/A101 the mechanical action of the gaseous 02 given off. The etching action of the base metal at iow values of DA occurs as result of its rlow dissolution In the passive state. For both alloys the anodic etching of the scale is most effective. The etching schedule is cited. The etching of the scale by alternating current is a longer process than anodic etching. Scale etching by alternating current yields results similar to those under ordinary etching with AC, bot the rate of the process is lower. All the recommended methods of electrolytic etching of the scale on both alloys investigated are considerably more effective than ordinary dissolution of the scale in H2~01~ solutions; they accelerate the process of re- moving the scale, reduce the weight losses of the metal under etching, and raise the quality of the surface after etching. There are 11 references. V. Tarisova [Abstracter's note: Complete translation] Card 2/2 YaFDIOV:- -N.--G* KUZITETSOV. G, 1. 2. USSR (600) 4. Cabba#e 7. Growing high yields of fodder cabbage, Doat. sellkhoz. no. 5, 1952 9. Mon',-,hly List of Russian Acce.,3sions, Library of Congress* J5M%Aarv 1953. Unclassified. IOZU)V. V.S*; NETSOV G.I.; GAYDUEDVP V.P., redaktor; ILMIMVA, Ye.Ge, redaktor; P of takhnicheekly redaktor. [Deep well pump operation practice of the State Association of Azer- baijan Oil Industry] Oevoenie 1. ekepluatatelia glubokikh ekvashin naeoenym spoeobom; opyt Asnefti. Moskva, Gos.nsuohno-tekhn,izd-vo neftianoi i gorno-toplivaoi lit-ry, 1954. 31 p. (MIRA 8:4) (Oil well pumps) 6 '~~uchnyy actrudnik ISHCHUT, I.. nauchnyy sotrudnik; XMIMTSOT G*9 Water injection into the coal seam. Mast. ugl. 8 no-7:8 Jl '59. (MIRA 12.10) 1,1natitut rnogs dela AN SSSR. fcocal mi6s and mining) (Mine dusts) .KUZBET-SOVO inzh..-. MIKHALYUK,, F.P.,p inzh. I . ..................I Loosening coal massives by water infusion. Bezop. truda v prm. 4 no. 50-10 My 160. ~(MIM 14:5) (Selidovka-Coal mines and mining) VEZIROV, R*R.; KUZNETSOV, G.I., MARTIROSOV, S.G. Some data on the temperature cooditions of the mineral deposits of the Zyrya area. Azerb. neft. khoz, 39 no.3(403):29-30 Mr 16o. (HIRA 1419) (Apsheron Peninsula--Earth temperature) KUZNETSOV gornyy inzhener Preliminary loosening of the coal block in the hydraulically mined sections of Donets Basin. Ugoll 36 no.11:31-34 N 161. (MIRA 34:11) 1. Institut gornogo dela imeni A.A. Skochinskogo. (Donets Basin-Hydraulic mining) KUZNE-TSOV, G.I. Step-by-step measurement with universal measuring microscopes. Ism.tekh. no.020-21 AP 163, (Miaroseope) "\\\ (KMA 16s5) MWEETSOV, German Ivanovich; FAYN, Genrikh MolBeyevich; SHTAMBVRG, IValentin Fedorovich; MMINA, Antonina Aleksandrovna; 14IKMZVp M.I., red. (Drilling pipes from light alloys) Burillriye truby iz leg- k1kh splavoy, Kuilwshev., Kuibyshevskoe k-aizhnoo izd-vo 1964. 51 P. . (MIRA 17tl21 - ~, I 1 0 0 ~ I I ~,;f 11 1, " K~ PYO:~ F. - Jul ~7 - '," *NA, A.A.; . I fW ? 11;VA , . .- . -, i a. . III - , ; - ~ .1 c'.14. Drilling wells ustng Ught.-alloy Irill',;ig I.LrA~ i . ~rl VNIIBT no.1202-92 161, (MIRA I-IsO KUZN--'TSov G.I.p lnzh. I - -- - - - I.... )'' ~ Deformations Of mooring structures on the, Yenisey in t1he AbaP&n region. Transp. stroi. 14 no,6z25-26 J. 64. (MITRA 18:2) 3M AUTHORt Kuznetsov, G. 1. SOV/50-59-4-16/21 TITLE: The Problem of Ozone (Problema ozona) PERIODICAL.- Meteorologiya i gidrologiya, 1959, 11r 4, pp 62-67 (USSR) ABSTRACTr an -the bwds of foreign papers (Rafe 2-251,(tranalations from English) and one Soviet paper by Sh. A. Bezveikhniy (Ref 1), a survey on the present',state of the problem of ozone is given here. Bezverkhn'y pointed out in 1955 that in Alma-Ata an analogous correlation between the quantity ot czone and the temperature exists in the stratosphere as it was found by Ch. We=and (Ref 20)t the high temperature in.the stratosphere is usually connected with a higb ozone content. L2 Alma-Ata, the coefficient of the correlation with temperature at a height of 13 km attains the value of MNO.03.-Summarizing it can be said that there are many inv~Rigaticns where the course of the ozone content observed is explained according to latitudes and seasons from different standpoints and by means of different methods. Althaa& none of these investigations can thorougbly explain the real picture, one thing is clear% the distribution of oione depends very much on the Card 1/2 circulation on a large scale in the trop8sphere and the lower The Problem of Ozone SOV/50-59- 16/21 stratosphere up to an altitude of at least 35 km. There are 2 figuresq I table, and 25 references, 2 of which a" Soviet. Card 2/2 3(7) S/059/60/000/02/014/016 AUTHORs Kuznetsov, G,_Z-. B007/BOO5 TITLEt All-Union Conference on Atmospheric Ozone PERIODICALt Meteorologiya i gidrologiyal 1960, Ur 2p PP 56-59 (USSR) ABSTRACT: The All-Union Conference on Atmospheric Ozone was held in October 1959 at the fizicheskiy fakulltet Moskovskogo gosu- darstvennol;o universitets, (Phvoice Department of Moscow State Univerci ty). It was convened bys Ministerstvo.vysshago i ared- nego spetsiallnogo obrazovaniya SSSR (Ministry of Higher and Secondary Special Education of the USSR), Glavnoye upravleniye gidrometeosluzhby pri Sovete Hinistrov SS5R (Main Administra- tion of the Hydrometeorological Service at the Council of Ministers of the USSR), and Akademiya nauk SSSR (Academy of Sciences of the USSR)* The Conference was attended by 17 dif- ferent organizations. 21 reports were delivered. L. A. Kudg- Axtalva (TsAO (Aerological Central Observatory)) reported on come results of investigation of the vertical ozone distri- bution in 1959 by means ofN'~ookets. Aa So Britayev (TsAO) presented a new chemical method of ozone etermination. R. G. Card 113 Romanova reported on ozone determination from an airplane for All-Union Conference on Atmospheric Ozone S/050/60/000/02/014/Oi6 B007/BO05 some horizontal and vertical sections. Ye. S. Kuznetqpy_yre- aented methods of using electric comput~_rs in computing the vertical ozone distribution. K. Ya. KondrELLev reported on work done at the LOU (Leningrad State Univer to investi- gate the infrared absorption spectrum of at-mospheric ozone. H. S. Stebloya spoke about experiments (now to the USSR) of determinin- the ozone-layer temperature spectroscopically. G. P. Gushphina spoke about the importance of turbulent mixing in seasonal and latitudinal variations of atmospheric ozone. A. Kh. Khrgian reported on the causes of the daily course of atmospheri ne in different regions of the terrestrial globe. V. D. Reshetov presented an original qualitative hypo- thesis on ozone formation on water aerosols. T. P. Oushchin (GOO) reported on the rei~tion between ozone content anT- position of the e current axis. G. I. Kuznetsov (Mau (Moscow State University)) reported on the relation between ozone con- tent and intensity of the zonal and meridional circulation. T. U. Karimovs, (AAKII) and T. S. Gollm (AKIO Dikson) reported on the characteristics of tH-e-aeasonal and latitudinal ozone- content course according to observations made by the Soviet Card 2/3 ozone-measuring stations in the Arctic. B. Ye. Shneyeroy O.Go) All-Union Conference on Atmospheric Ozone S/05q/60/000/02/014/ol6 B007/BO05 spoke about observatione of atmospheric ozone in the Ant- arctica. G. T. Kuznetsov (MGU) reported on the asymmetry found in the latitude distribution of the total ozone content with respect to the polo* Reports by A# S. Britayev (ToAO)t T. R. 0011M (ANTO"DikiW, and R. 0. RorRnova (_GT07 described the relation 'getween ozone and some atmospheric parameters on dif- ferent levels. Sh. M. Chkhaidze (Abastumanskaya aBtronomiches- kaya observatoriya.(Abastuman Astronomic Observator )) could not ascertain such a'rdlation. The Conference expressed the wish to hold similar conferences every 2-3 years. It was de- cided to publish the reports of the Conference. Card 3/3 8/169/63/000/002/018/127 D263/D307 AUTHOR: Kuznetsov, G. I.,*,: TITLE: Ozone and genera.1'atmoEipheric circulation PERIODICAL: Refera.tivnyy zhurn'all Geofizikat no. 2, 1963t 14, ab- atract 2B112 (In collection; Atmosfern. ozont M.t Mosk. un;-t, 1961., 82"-102 (summary in Eng.)) TEXT: Large variation of atmospheric ozone may be caused by its 4. koransport during dynamic processes occurring in the lower strato- sphere, such as e.g. the interlatitudinal exchange, turbulent mix- ing, etc. All these processes are related to the general atmosphe- ric circulation. The authors studied the connection between overall! ozoni"concentration and the zonal circulation index. The zonal air-;' culation index of the 40 - 650N belt was used, encircling the en- tire northern hemisphere.-Circulation indices for 1957-1958, for the 500, 300, 100 and 50 mb levels were determined by the Otdell dinamicheakoy-meteorologiii Teentallnogo instituta prognozov (Do- __partment of Dynamic Meteorology of the Central Forecasting Insti- Card 1/3 S/169/63/000/002/018/127 Ozone and general ... D263/D307 tute). Correlation coefficients r between the overall ozone content: (12 European stations) and the circulation indices for winter, spring, summer and autumn 1958 were calculated. Of 105 values ob- tained, r was positive in 37 and negative in 68 cases. A. fairly clear trend was observed - increase in the ozone content with de- creasing zonal circulation in.the 40 - 650N belt. A particularly clear negative connection occurs in winter and cummer months. Greatest values of r are as a rule formed at the higher (100 and 1.500 mb) levels. A positive cox-relation between the two quantities was observed at some stations in early spring and autumn. The.foi- lowing explanation is proposed for this relation. 1,1'eakening of zo- nal circulation leads to increased interlatitudinal exchange, due to which ozone is transported from the northern 0 3-rich regions to the south, where its content 'is~increaaed. Conversely, during more intense zonal circulation and less pronounced interlatitudinal ex- change, southward migration of ozone is hindered and ozone accumu- latle8 i;i latitudes 60 - 70 . A secondary summer maximum in the sea- sonal variation of the overall ozone content was noted at a number Cai:d 2/3 S/169/63/000/002/,018/127 Ozone and general D263/D307 of station3 in the northern hemisphere (Alma-Ata, AbastLunani, Voy-_': eykovo, Ikl', Reykyavik) in 1957-1956. In June-July the average monthly ozone-contenti3--at--thes-e--stations rose by 0.015 - 0.02-'cm with respect to the overall annual course. It is suggested that this maximum is caused by advection. It is noted that, according to IGY data, the ozone contents are higher in the southern hemi- sphere than in the correspondin latitudea of the northern hemi- sphere (for the same seasons). 2-Abstracterls note: Complete trans- lation.-7 6/'101 '6 5/000/002/024/127 D263~D307 AUTHORS: Khrgian, A. Kho and Kuznetsov, G. I. TITLE., On the daily variation of atmosphoric ozone PERIODICAL% Referativnyy zhurnal, Geofizika, no. 2, 1963~ 16, ab- stract 2B119 (In collection: Atmosfern. ozont M., Mosk. un-t, 1961' 184-186 (summary in Bng.)) TEXT: The magnitude of the daily variation of ozone was determined from a consideration of daily ozone measurements taken during the IGY. It was found that the amount of ozone Qndergoea conaiderable non-periodic changes from day to day, although a systemtic daily variaL.tion may be found by calculating the mean values of %he overall ozone cont. -ento for individual hours. It was thus shown that at Vignia-di-Valle (Italy) during July-August the amount of ozone in- creased by 0.005 cm from 9 to 16 lira and during September-November it increased by 0.006 em from,10 to 16 hrs; in Elmasse (Sardinia) during July-September the overall ozone content increased by 0.011 -cm between 9 and 16 hra, and during October-December it rose by Card 1/2 3/169/'3/000/002/024/127 On the daily variation D263/D307 0.016 cm between-8 and-16-hre.-The'observed values of the daily accumulAtion of ozone are considerably higher than those calcula- ted from the theory of photochemi*cal equilibrium. It was also found that during the late evening and early morning hours the overall ozone contents were increased in comparison with the near-noon period. ~-Abatracterls note:'C.omplete translation.-7 -KUZNL?TSOVp G.I. Some relationships between general circulation and atmospheric osone. Izv. AN M..Ser. geofis. no*39467-477 Mr 161. (MIRA 14SO lo Mookovokiy goeudarstvennyy univeraitet im. M.V.Lomonooova.' (Atmosphere) (ozone) S/169/61/000/011/032/065 D228/D304 AUTHOR: Kuznetsovp G.Io TITLE. Some conclusions from observations of atmospheric ozone during the International Geophysical Year PERIODICAL: Referativnyy zhurnal, Geofizikap no. 11, 19619 8-9, ab6tract 11B68 (Mezhdunar. geofiz. godp Inform. byul~, no. 9, 19619 29 - 32) TEXT: Some tentative conclusions are drawn on the basis of the analysis of the materials of observations at world-wide ozonometri-^ stations. The meridional gradient of ozone over the USSR was found to be considerably greater, at least in 1957-1958, than over West- ern Europe. In the eastern hemisphere at latitude 42 - 430 the ozo,-- ne contenT markedly diminishes towards the heart of the continent, reaching its maximum value in spring. For example, the difference in the ozone content between Vinlya-di-Balla and Alma-Ata reaches 0,14 cm in April. The ozone content's maxima (mean daily values) decrease from the north to the SOU4h of the continent, The monthly Card 112 B/169/61/000/'011/032/065 Some conclusions from D228/D304 amplitude of the ozone content (the difference in the maximum and minim,,.im values of the mean daily ozone content for a given month) markedly grows in spring for all stations~ A small secondary maxi- mum is noted at all stations in July~ The rapid accumuiation of ozone is observed at all stations at the end of winter; this Is, probably, explained by the abrupt intensification of photochemical. processes in the stratospheres LAbstractorls note: Complete trans- ~~L t -. on Card 2/2 42135 0 S/203/62/002/002/011/017 AUTHOR: Kuznctsov. G. 1. 1046/1246 TITLE: Procedure for the calculation of the vertical distribution of atmospheric ozone PERIODICAL: Gcomagnctizm i acronomiya, v. 2, no. 2, 1962, 305-312 TEXT: An extension of V. A. Ambartsurnyan's mathematical method (1934) for investigating the atmos- pheric ozone layer by observations of the direct solai radiation in the ultraviolet. The author applies his formulas for the total amount of ozone and for the height of its center of gravity to specific observations made in summer 1957 in the lower reaches of the Volga. allowing for selective scattering on the atmospheric aerosol, he obtains ho = 24.0 km for the center of gravity of the ozone layer, this being in excellent agreement with the general curve in Ref. 3 (E. S. Epstein, A. Adel. Vertical ozone distribution from absorption and radiation by ozone. Ozone Chemistry and Technology. Washington, 1958, 221). The accuracy of the method is strongly improved when making observations on wide intervals of comparatively large zenith distances (not excceding, however, 75-78* because of aerosol scattering). For optimum zenith distances, ho can be detern-tined within - 8 % in spring and - 12 % in other seasons. There arc 2 figures and 3 tables. ASSOCIATION: Moskovskii gosudarstvennyi universitet. Fizicheskii fakul'tet (Moscow State University, Department of Physics) SUBMITTED: July 4, 1931 Card 1/1 KUZNETSqV, G.,I.,.. '.-I . - Effect of drainage on the counterpraosure at the baae of damo, Strol. v raion. Voat.Sib. i Krain.SEv. no.3t8l-94 162. (MIRA 17t22) S/169,/62/000/011/020/077 D228/D307 AUTHORS: Khrgian, A.M. and Kuznetsov,-.-G.I, :TITIZ: The meridional circulation of the atmosphere and the global transfer of atmospheric ozone PERIODICAL: Referativnyy zhurnal, Geofizika, no.-il, I *962, 19-20, abstract 113132 (Geofiz. byul., Mezhduved. geofiz. kom-t pri Prezidiume M'=R, no. 11, 1962, 3-11) TZXT: The relation between circulation at the 500-mb level and the total ozone content is examined. -It is noted that the nat- ure of the fluctuations in the variability of ozone (difference be- tween the maximum and minimum mean-daily value for each month) and the index of meridional circulation are close to each other. The authors reckon that there is a quite definite relation between the total ozone content x -and the meridional circulation index 1 1-2. Thus, the correlation factor r in March 1950 between x for Vinia-di-Valle (Italy) and f-1-2 is 0-55; in July 1957 r . 0.20. Yor the station Bismark (USA) in 19ril 1958, r - 0.41. The average total ozone con- Card 1/2 S/169/62/000/011/020/077 The meridional circulation D226/U307 tent for 11 months (July 1957-11'ay 1958) was calculated for Vinia-di- Valle, at different states of circulation (meridional and zonal). When the state of circulation at Vinia-di-Valle is meridional, x a 0.348 cm; for zonal circulation x a 0.339 cm, i.e. 2.6-/'0' more. 'Me authors point to close relation between the total ozone content and the circulation type, characterized by the disposition of high- altitude ridges and troughs over West Zurope and the Union's ;~uro- pean territory. The nature of this relation, however, sometimes changes into an inverm one, on the transition from the cold to the warm season, ,f7Abstracter's note: Complete translation2 Card 2/2 F-mcrimental atudies of filtration at th,, with noncrete. 7rudj Lab.gidr.sooruzh, VODrF' nc, L~1,53-163 163. g g gg C." KHRGIAN# A.Kh.; KUZNVI'SOV G I - KONDRATIYEVA, A.V.; NASILOV, 1-1--fink' ,p DoI., otv, red., STAK, G.V., red. [Collection of artiqlesj Sbornik statel. Moskva, Nauka. No.8. 1965. 89 p. (MIRA 18:3) 1. Akademiya nauk &96R. MezbduvedomstveW-y -tofizicheskly komitet. II razdal prograM HGO. Meteorolo~lya. DRABKIN, V.S.; KUZNETSOY,_.qp,_~A; FAYN, G.M, Stand for asBembling light anoy pipes with couplings. Mash. i neft. obor. no.7126-27 165. (W RA 18:12) 1. KuybyahevBkiy nauchno-issiodovatellskiy institut neftyanoy proqrshlonnosti. 21, ~,L 5086-6& EWT (d) IJP(c) !ACCESSION NR: AT5024115 d URP136/65/000/838/0001/0021, 0q. Cie S7 ;AIYTHOR: Vilenkin, N. Ya.; Kuznetsov, 0. Smorodinskiy, Ya. A. .31 TITLE: ju4mgmaigail~("6iFt7~e7Liplacian realizing the representation of the groups M2), SU(2), SO(3), U(3), and SU(3)6 and the symbolic method SOURCE: Hoscow. Institut atomnoy energii. Doklady, IAE-838k 1965. Sobstvennyye funktsii operatora Laplasa~ realizuyushchtye predstavleniya grupp U(2), SU(2)s SO(3), U(3), SU(3) I simvolicheskiy meted, 1-21 TOPIC TAGS: Laplace operator, characteristic function, function analysis, group theory ABSTRACT: In order to find the irreducible representations of the groups U(n), in addition to the abstract-operative method, it is also possible to use the method employed by N. Ya, Vilenkin and..Ya. A. Smorodinskly (ZhETF, 46, 1793, (1964)). This method 1..,3 based on the utilization of the Laplacian acting in the space of s6 -homogeneous polynomials of the W4 degree. The solution obtained is used for the realization of the representation of the groups U(2), SU(2), SO(3), U(3), and.,- SU(3). "The authors thank Yu. A. Daniloy for his Interest in the work and for discussions." OrIg. art. has: 4 figuresl,~,59 formulas) and an appendix with 10 11 f ormulas. Card 1/2- .01 e1 to 1 C L 5086-66 ACCESSION NR: AT5024115 ,J.ASSOCIATION: energii in. GosudarBtvennyy komitet po ispol zcrvaniyu atomnoy energiL SSSR ttee for the Utilization of Atomic Energy SSSO Institut atomnoy I.V. Kurchatova. f Atomic Energy) r~ 2/.2AJ- ..,Multidimensional L 26686-66 EWT(d) IJP(c) ZCC NR, Ar6 '-s"66ii-i-C-0-D-Es -UR/0367/-65/00-2/005/0906/0917 AU111OR: Vilenkin, N. Ya.j -Kttznetsov y --Smorodinsky.-Ya, A, ~~~,.G, I,1 Smorodinskiyp Ta. A. ORG: none TITLE: Laplace operator eigenfunctions which realize the representations of thee ggrrouu 9 U(2), SU(2)0 SO(A U(3) and SU(A, and a symbolic method BOURCE: Tarlernaya.fizlkaj v, 2, no, 5# 19650 906-917 TOPIC TAGSi Laplace equationp algorithm ARSTRAur, The article presents a graphic method of solution of Laplace equations whiehis applicable for Uoth iunltnrY and drthogonal groups, The use of symbols allows the ford ,mulation of a Gimple algorithm for writing the equations in now 'variables and solving them* The solutions obtained are used to .realize the representations'of the groups V(2)t GUMs 6004 U(3)t md SU(3)- Orig, art, has% 69 formlas, LIM-47 SUB CODEt 12 SUBK VATM 06Apr65 MIG REN 003 M1 R&F1 002 SOV REF: 003 Card 1/1 L 29892-66- ENT(d) rJP(c) ACC N& A16MU6 SQRM COM URj036fj66/60)/6Q/O,'Aj/OMj At.MIOR: Kuwwuovg no I*; Smorodinskly, Ta. A. 31, ORnt Ooint, Institute for Nuclear Research (Ob'Winennyy institut yedarnykh TITU-.*t Integral repracentation, of relativistic amplitudes in the non-physical raglan SOURCEt WermWa finika, ve 3, no& 2, 19661 383-M MPIC TAGS: 'nathematio operator, relativity principle, differential ",omtry, Laplace transforu Ir ABSTRAM Hathods of Into al reoro~a are uood to obtain the orpandon of ampli- turins in the non-plv-rd ta of the It-nMaIntam pland in terms of the eigennmatlon~ of the Laplace operator on throe-dimnuional mnifoldas Formulas are obtninod for thc, inverse transformatlon6 All calculationa are parforvwtLjn the spherical coordinate systeme Origs art* hant 3 figures and 73 forntlas6 LpaBed on autliors' Eng, abatff Li-PP49 SU13 CODE1 12 SIRIM DATEI 09Aug65 ORM Rr,,Ft 008 OM REPI 001 COM A( A-060~00!15 col)l,: wVo*,6;-,/6G/(,k);-1/oWI IW551W(l Ku"'.11O."Mv, G. I.; lgirgian, A. 101. 0."ii;. I'lorcow State University (Mookovskiy gosudarstvannyy universitet TITLE: Amospheric ozone and its variations) connected with circulation over the Atlantic Ocean SOOCE: AN SSSR. Izvcstiya. Fizika atmosfery i okcana, v. 2, no. 8) 1966) 659-871 'I'OPIC TAGS: atmospheric ozone,, atmospheric circulation, radlariondc, synoptic mctcoro-! I.o,-,y, atmospheric wind field, atmosphcric pressure, air temperature, atmon-pheric front strato:;plicrc, wind gradient A11IGTRACT: Ilic observations of the total amount of atmorpheric ozone, measured on boartl the --lilp M. Lomonosov' during a cruise over the tropical Atlantic in Auguzt- .;ovcmber 1963, are analyzed in conjunction with data of ships radiosonde measurements and meteorological observations, and with the world syonptic map--. 11be data con-iztedl of 1550 observations made with a universal ozone meter (GGO no. 2) calibrated against direct sunliGht. The radiosonde and radiowind observations made simultaneously with the ozone measurements gave the air temperature, the wind velocity, and the pressure. One observations showed that the ozone content varies greatly in time and space. A lower ozone content was observed in the region of the intratropical convergence of the t-radc winds (ozone equator). A maximum of ozone, connected with more intense photochemical processes in the stratosphere and the maximum insulationp was observed Card - -1/2 ACC to the south of the ozone equator. Penetration of cold fronts farther south also in- creases the ozone content. Thin in accompanied by strong western wind propagating from the upper troposphere downward. 7be connection between the ozone content and the 26-month cycle and the vertical stratification of the circulation in the tropics is also discussed. The conclusions confirm that changes in temperature, pressure, and wind velocity in the upper troposphere are appreciable in the tropical region and are accompanied by strong meridional currents contributing to appreciable change of air between the hemispheres. These nonporiodic fluctuations of the circulation and air exchange cause the great variability of the ozone content. The results prove that a study of the ozone can contribute to data on the circulation in the tropical belt. The authors thank the members of MGI AN UkrSSR and Corresponding Member AN UkrSSR - y for help in organizing the research and for supplying the materials A---G-,Kole.rni%9 for the aerometeorological observations. Orig. art* has: 9 figures and 2 tables. SUB CODE: 04/ suBm DATE: 3zor66/ ORIG RU; 008/ 07H MW: 001 ,,.Card 2/2 L 08175-67 L'WT (1) ACC NRt M66`24M2 SOURCE CODE: UP/0056/66/65i/col/6216/02Z AUTHOR: Khznetsov, G. 1. ORG: Joixw'J~G~Mire""&riuclear Re!earch (Ob"yedinenrr1y institut yaderrWkh issle&/ .raniy) TITLE: A remark on the miltidimensional Coulomb problem SOURCE: Zhurnal eksperimentiLlInoy i teoreticheskoy fiziki,, Y. 51., no. 1., 3,966., 2,16- '221 TOPIC TAGS: hydrogen., atomic spectrum, wave functions Coulomb interaction, continu-' ous spectrum, line spectrum ABSTRACT: The relation between the degeneracy of the levels of the hydrogen atom and hidden symetry of the system, first pointed out by V. A. Fok (Z. Physik Y. 98, 145, 1935), is considered in this paper for the multidimensional case. Explicit exp:res- sions (with all normalization factors) are obtained for the wave functions of thi-dis- crete as well as continuous spectnuri/;f an f-dimensional Coulomb potential. The jro- cedure used is that of considering the coordinate of the momentum vector as the sterec graphic projection of the points of an (f + l)-dimensional hypersphere and showing that the Fourier transform of the wave function when projected on this byperaphere is a known solution of ~he angulso part of a certain rAplace equation. An "addition theorem" is derived for the functions of the continuous spectrum on this basis. Thead functions form a convenient re*esentation basis for the rotation pmp O(f + 1) WA L 0817-g;-67 I ACC NRI ArAnolmo ----.-ACC-NRt AP7001550 Ji AUTHOR: Kuznetsov, 0. 1. ---------- W~ SOURCE CODE: UR/0020/66/171/903/05871058V ORG: Moscow State University im. M. V. Lomonosov (Moskovskir gosud&rstvennYY universitet) MLE: Atmospheric ozone over the tropical belt of the Atlantic. Ocean SOURCE: AN GSSR. Doklady, v. 1719 no. 3. 1966, 58T-589 TOPIC TAGS: atmospheric ozone, atmospheric circulation# atmospheric temperature gradient, atmospheric current, radiosonde ABSTRACT: The author reports on ozone distribution investigations made together J with observations of air currents and temperatures in the free atmosphere over the tropical part.of the Atlantic (between 25'0 north and 25* south latitude) in August - November 1963 on the exploration ship "Mikhail Loomonosov." The results showed that whereas the pressure' and temperature were quite constant near sea level, there were strong variations in the air currents in the free atmosphere, accompanied by noticeable changes in the ozone content (X). A clearly pronounced mexitnum, X = 0.293 cm (total height of ozone in atmospheric column), was observed directly above, the equator (60x - 40s), and was found to be of photochemical origin. Somewhat far- i ther to the north (6 - 160N) a local minimum was observed (X = 0.260 - 0.2TO cm), due to convergence of the trade vinds. This minimum could be traced also over the Card 1/2 UDCs -551.510.534 -ACC NR~ -7 African shore. The observed latitude variation of the ozone content was found to be i subject to sporadic fluctuations connected with sharp variations of the upper- It atmosphere circulation, including waves in which zhe ozone cohtent rose to as high as 0.398 cm. An analysis of the ozone content, carried on together with radiosonde observationsp shows that the abrupt increase in the ozone content is due to strong currents under the tropopause, with meridional v6locity components exceeding 20 =/sec.,, These currents are evidence of an influx of,air from higher southern (and sometimes north'. ern) latitudes. This confirms other observations of north-soutA air exchange. The author is grateful to the management of the Marine Hydrophysical Institute AN UkrSSR for the opportunity of participating In the cruise of the "Mikhail loomonosoy." Orig. art. has: 1 figure. SUB CODE: OW SUBM DATZt 12Jaa66/ OFJG RV: 003/ OTH REF: 001 ATD PRESSa 5112 Card 2/2 XUZIMICH, I.A.0 kand.tekhn.nauk; ISHCIPJK, I.Go. kandotekhn.nauk;_P?~4~T�qy,_,G.I., inzh. Weakening rhe coal massif is a means of increasing the efficiency of hyarL..Lic m.Lning. Ugoll 40 no-3234-36 Mr t65. (MIRA 18t4) 1. Institut gornogo dela im. A.A.Skochinakogo. -77 A Rapid Vothod for the Quantitative Determination of Sugar," Zavodskaya Laboratoriya, No 8, 1952, pp 958-959. ,-.= IMTSOV G K. Improving the wringing process of ratted bast fiber materials. 1zv.vyq.ucheb,z&v,; tekh.tokst.prom. no.6:30-33 159. (MIRA 13:4) VKostroukoy tekstil'iW institut. (Textile fibers) (Flax processing machinery) G. K,, Cand Tech Sci - (uiss) "Invest-gation of tl-;e- operating .conalUoris for bast-fiber w;-ter--als," Kostrouna, V)60, 16 pp, (I.Qszow Iextile Institute) (KL, 384460, log) Determining optimum characteristics of the elastic casing of wringing rollers. Isvevysouchobezav.;tekh.toket.prom. no.3:29-35 160. (KM 13: 11) 1. Kostromskoy tekstillWy institut, (Textile machinery--%sting) (Bast) XU~N~ET q~, G.K. Equation of power exp*ed in rolling with smooth rolls. Izv. vya.ucheb.zavo,; tokh.taket.prom. no-3:33-38 161. (MIRA 14:7) I* Kostromskoy takatilln" institut. (Textile machinery) KUZNETSOVs G. K. Nov dooign of the wringer-waher machine for rotted flax atraw* Inv@ vroouchebe savo; tAkh, takets promo no 4 7-41 162* IMIRA 15;1013 (Flax proossaing machinery) KNNETSOV., G.K. Drive of the olastle; I.,)P roll of ttle pressing. pair. Izv. *.,y3. uchab. zav.; tekh. tekst. promo no-3:41-49 62. (!4'iu 17: 10) 1. Kostrcmskoy tekhnologi3beskiy institut.