SCIENTIFIC ABSTRACT BRODSKIY, A. Y. - BRODSKIY, G. I.

23281 00 S/1 3.5/61/000/007/004/012 DO A0061AI06 AUTHORS: prodskiy, A. Ya., Candidate of Technical Sciences, Baryshev, 7. M., 'Rakhman&v_,A_._3_., Engineers TITIE: On the weldability of 892T(V9VI) grade aluminum alloy PERIODICAL: Svaroohnoye proizvodstvo, no. 7, 1961, 13-17 TEXT: Res~ilts are presented from the first stage of investigations on the weldability of thermally strengthened V92T aluminum alloy. The work was carried out with the participation of L. S. Livshits, Candidate of Technical Sciences from VNIIST, for the purpose of evaluating the applicability of this alloy In welded structures. The tests were made with 10 mm thick Vqn-alloy sheets welded by argon-arc process with-non-consumable electrode and by automatic and semi- automatic process with consumable electrode, Plates of 130 x 130 mm dimensions with V-shaped beveling of edges were welded on dismountable steel backing pl.ates. The filler and electrode wires were of the same composition as the base metal. The content of the basic alloying components in the alloy was 3.9% Mg, 2.7% Zn, 0.8% Mn. From two chemical methods of cleaning thevdre, etching in 3C% ortho- phosphoric acid solution with small additions of potassium bichromate, for 20 min, Card 1/3  23281 S/135/61/000/007/()04/012 On the-weldability ... A006/A106 at 1150C, assured reliable surface treatment of the wire. Manual argon-aro welding was performed on a YAAP-300 (UDAR-300) machine. The seams were applied in 2 and 3 layers at 280-300 amps current, 15 1/min argon consum _Btion, 6 mm tungsten elec trode diameter, 4 mm diameter of the filler wire and 70 chamfering angle, Semi- automatic and automatic welding was made on the UU U-10 (PShP-10) semi-automatic and the APK-I (ARK-1) automatic machines. The semi-automatic welding conditions were: 270-280 amp current, 22-24 v arc voltage, 20 1/min argon consumption, 70 0 chamfering angle. Conditions for automatic welding were: 300-320 amps current intensity in single-layer welding and 280-300 amps in double-layer welding; 22-24 v are voltage 20 1/min argon consumption; speed of welding single-layer Joints 17-19 m/h; for welding the first layer of double-layer Joints 28-30 min/h, and for welding the second layer 22-24 m/h; total chamfering angle 60 0. The electrode was located vertically. Mechanical properties of the welded Joints were determined on standard specimens with reinforced welds. Toughness of the weld metal, of the fusion zone metal and of the heat-affected zone were determined. The experiments showed that the mechanical properties of welded butt Joints on 10 mm thickV92T specimens, performed by argon-aro method with consumable electrode were below those of Joints argon-are welded with non-consumable electrodes. The strength of welded butt Joints of medium thickness is 90-95% of the base metal Card 2/3  23281 On the weldability ... S/135/61/000/007/004/012 ADO6/A106 strength after three-month natural aging. Therefore manual argon-aro welding with tungsten electrode can be recommended for important medium-thick V92T alloy parts. This alloy is somewhat more prone to pore formation than AMg6 all(y in particular when welded with consumable electrode. The relative strength of joints produced by argon are welding with consumable electrode is 80%. Conse- quently, this method foil welding V92T alloy must presently be limited. Natural aging of the weld metal and the heat-affeoted zone of welded butt joints lasts for 3 months and proceeds particularly intensively during-the7first month after welding. As a result of three-month natural aging-the properties of the weld- produced by argon-are welding with non-consumable electrode and of the. heat: affected zone, Approach the properties of the-base-metal in its initial state. The process of natural aging of weld joints i's practically completed within three months. The V92T alloy is 'sensitive to -stress 'concentration. For this reason the surface of the weild Jbint should pass"smoothly into the base metal. There are 9 figures. ASSOCIATIONS: TsNII stroitel'nykh konstruktsiy AS i A SSSR TsNII of Building Constructions of AS and A SSSR - (Brodskiy and BELrysheV) MIST (Rakhmanov) Card V3  314h3 S/125/61/000/012/008/008 D040/D112 AUTHOR: Brodskiy, A.Ya. TITLE: Application of argon-arc weldinU in manufacturing aluminum structures in Czechoslovakia PERIODICAL: Avtomaticheskaya svarka, no. 12, 1961, 81-85 TEXT: The author visited Czechoslovakia to acquaint himself with argon-arc welding of aluminum structures at the De"c"in Plant of the Ministry of Heavy Machinery, and new welding equipment for this process at the Research Insti-_ tute for Welding Equipment and Technology in Prague (VUSTS). Argon-arc weld ing is the only welding process used at the Decin Plant, which produces equipment for the chemical industry, including conmainers made of aluminum, copper and stainless steel, and plans to build the first aluminum bridge in Czechoslovakia at the entrance to the Prague Kremlin on the basis of a pro- ject developed by Candidate of Technical Sciences V.Gorak. The bridge will be built from an alloy analogous to the SovietJ9Mr3 (AM93), usi.ng electrode wire similar to the SovietFiMr5 (AM95) grade. A plasma torch ("plasmotron"), designed by the Electric Welding Institute of the Ministry of Metallurgy in Card 1/3  31443 S/125/61/000/012/008/008 Application of argon-arc ... D040/D112 Bratislava,is being used for cutting heavy aluminum sections at the plant. The torch is mounted on a roller carriage moved manually. The arc burns between a thoriated tungsten electrode and a water-cooled copper ring. Two Ix welding generators connected in series,produce a d.c. current of 550 amps and 160 v for the torch which cuts 80 mm thick aluminum at a rate 0, 306 mm/min, the out being 10 mn wide with quite smooth surfaces. The author describes the techniques used for welding both aluminum containers made from 16 mm thick elements as well as thin-wall structures (1-2 mm), and gives a few details on the pickling department, where the welding wire and fairly large aluminum elements are treated. The plant also tests and debugs new argon-arc welding equipment designed by the Research Institute for Welding Equipment and Technology. This Institute has developed argon-arc welders for manual, semiautomatic and automatic welding of aluminum and aluminum alloys. Its manual T150 and T350 welders are already being produced on an industrial scale. The T350 is similar to the Soviet'"IAP-300 (UDAR-300) welder. Two new special nozzles for these welders are described and one, for strong current, is shown in an exploded-view photograph. The Institute has developed and is now testing the semiautomatic GAR-400RSAP-400B) argon- Card 2/3  31"3 S/125/61/000/012/008/006 Application of argon-arc ... D040/DI12 arc -welder -aith a consumable aluminum electrode, serial output of vrhich is planned for 1962, and is also testing a pilot unit of an automatic relder with a consumable elecirode, in which the electrode wire runs :Cx-om a vemti- cally mounted 1.7ire coil at a distance from the -;e1ding head. The author expresses gratitude to the administrators of the above-nentioned organiza- tions, and to Academician Gotsar, Candidate of Technical Sciences V. Gorak and Engineers V. Gromadko, Ya.Shveyde, Kinzell and O.Kratsik. There are 4 figures. [AAbstracterts note: All personalities mentioned in the text are Czechoslovakian] . Card 3/3  , CHZHAN SYU-CHZ, BRODS 'HI Chang Hsiu-chih) ~A ~Y Effect of the conditions of argon-shielded are welding of aluminum alloys with consumable electrodes, on weld surfaces. Avtom~, Aar. 14 no.3:27-31 Mr '61. (MIRA. 14:2) 1. TSentralInyy nauchno-issledovatellskiy inatitut stroitellnykh konstruktsiy'Akademii stroitel'stva i arkhitektury SSSR. (Aluminum a.Uoys-Welding) (Protective atmospheres)  BRODSKIY, A.YEL. - Use in Czeehoslomkip. of arr, n-arc welding in the manufacti.,.re ~o of alumin= structures. Avtorn. avar I/+ no.32:81-8-5.D 161. (,, r 14:11) (Czechoslovakia-"'ijumi~iun alloys-Welding)  BRODSKIY.. A.Ya... kand.tekhn.nauk,- TOIMCHEVA, Mop inzh. Investigating the veldabi-lity of nickel-free 14G29 YJbGSp and 15GS lov-alloy steel, Trudy TSNIISK no-4:134-210 - .(MIRA 15:2) (Steel alloys-Welding)  Mmuffactur-& of we'ded ateel ele.-ent-l! in czeCh1oBjO,,.;CiA.. PrIme, Btroi, 39 of cover 161.. (MIRA L', 12 (CysechoslOVakia----Stoe)p Structuml)  43270 S/842/62/000/000/001/006 E191/E435 AUTHOR: Brodskiy, A.Ya., Candidate of Technical Sciences TITLE: The weldability of aluminium alloys SOURCE: Primeneniye svarki v stroitellnykh konstruktsiyakh. Vses. konfer. po prim. svarki V stroi. konstr., 1961. Moscow, Gosstroyizdat, 1962. 29-70 TEXT: This is a survey of information both previously published and derived from original work at the TsNIISK at the Akademiya stroitellst%n i arkhitektury SSR (Academy of Building and Architecture of the USSR). The general properties of aluminium alloys are recited under the headings; Al-Mn, Al-Mg, Al-Mg-Si-avial', Al-Zn-Mg, Al-Cu-Mn, Al-Cu-Mg-duralumin. and Al-Zn-Mg-Cu groups.- In each group weldability is considered under the two headings of metallurgical and operational weldability. The first is the resistance against the formation of crystallization cracks, porosity and overheating of the fused metal. The second embraces the strength and ductility of welded joints under specified conditions of loading. Operational weldability differs for fusion and resistance welding. Weldability is determined largely in Card 1/3  s/842/62/000/000/001/006 The weldability of aluminium ... E191/E435 mechanical tests or welded joints and depends on design factors as well as the pror)erties of the alloy. The information is presented in some graphs and tables, most of which list mechanical pror,erties by alloy groups, types of joint and welding process. Soviet brands of aluminium alloys are considered exclusivr-ly. A final graph illustrates the weldability of 18 alloys divided into the seven groups listed above in terms of the strength,as a V percentage of tI)e parent metal strength, of the welded joint separately for thick and thin wall joints and in terms of the ductility as a percentage of the parent metal ductility. Alloys in the Al-Mn, Al-Mg and AI-Zn-Mg groups possess the best weldability. Some brands in the AI-Cu-Mn and Al-Cu-Mg groups have a satisfactory weldability. The alloys AMr6l (AMg6l), 1392T (V92r), q19 (D19), JP20 (D20) and D140-T-1 are recommended for applications in the building industry. The use of alloys in the Al-Mg-Si group in load carrying building structures is advisable, provided argon arc welding with a consunhible electrode is used. Semi-automatic welding with a consumable electrode and mechanized tungsten electrode welding are possible under the Card 2/3  S/842/62/00o/ooo/001/006 The weldability of aluminium ... E191/E435 'best conditions. There are 13 figures and 32 tables. :ASSOCIATION: TsNIISK Card 3/3  AIADAR-TUM , inzh.; BRODSKIY, A.Ya.,, kand.tekhn.naO, Local beat treatnont of resistance welded joints in 35GS steel reinforcement rods. Svar. proizv. no.6:9-11 Jo 162. (IURA 15:6) 1. TSentralInyy nauchno-issledovatellskiy institut stroitelinykh konstruktsiy. (Concrete reinforcement-Welding) (Steel-Velding)  SAVCHENKOV, V.A., kand.teldm.nauk;-TRUBILKO, V.I.v inzh.; BRODSK-LT,_A.Ya,, kand.tekhn.nauki FRIDMAN., A.M., m1adshiy nauchnyy i6t-rminik Weldability of St. 5ps capped reinforcement steel. Piom.stroi. no.10251-53 162. (MM 15:12) 1. Ukrainskiy nauchno-issledoratellskiy institut mot&llov (for Savchenkov, Trubilko). 2.-TSentralinyy nauchno-fisledoimtell- skiy.institut stroitelinykh konstruktsiy Akademii stroitel'stva i arkhitektury SSSR (for Brodskiy, Fridman). (Concrete reinforcement--Welding)  ERDDSKIYJO Mae, kand&tekhn.nauk; TOIMCHEVA, V.V. . insk. 9 Automatic welding under flux of insertion pieces for aectional reftforeed concrete constractions. Svar.proiw. senz28-31 N 162* (MIRA 15:3-2) 1. ?Sentralln7y vauebno-inaledovatellakiy institut, stroitelinykb konstruktsiy Akademii stroitelletva i akrhitektury US& (Concrete reinforcement-Welding)  ,BRODSKIY, A.Ya.,.kand.tekhn.nauk; TOUIACH&VA, N.V., inzh, Grad:e 15GS low-qMoy silicon-manganew steel for welded strvi,Aural elements. Trudy TSNIISK no.13:232-21+7 I&,. (MIRA 15:11) . (Steel, Structural-Testing)  BRODSKIY, A.Ya.; FIUDMkN, A.M.; MULINj, N.M.; ILYKIN, I.M.; ROSHCHINA, A.A. Low-alloy ribbed reinforcing steel with large diameters (40 t go mm.). Bet. i zhel.-bet. 8 no*7:303-306 Jl 162. (MIRA 15:7) 1. TSentrallnyy nauchno-issledovatel'skiy institut stroitellnykh Iconstruktsiy Akademii stroitel'stva i arkhitektury SSSR (for Brodaltiyj, Fridman). 2. Nauchno-issledovatellskiy institut botona i zholezobotona Akademii strol~ellstva i arkhitektury SSSR (for Mulin). 3. TSentrallnyy nauch~o-issledovatellskiy institutu chernoy metallurgii (for Leykinp Roshchina). - (Concrete reififorcement-Testing)  BRODSKIY, A.Ya., kand.tekkhn.nauk; TOLMACHEVA, N.V., inzh. Weldability of low-alloy 15 GS manganese steel. Prom. stroi. 40 no.3:47-54 162. (~aRA 15:3) 1. TSentrallnyy naucbno-issledovatel'Bkiy institut stroitelInykh konstruktsiy Akademii stroitel'stva i arkhitektury SSSR. (Manganese steel) (Welding research)  MODSKIY. A.Ya., kand&tekhn.nauk I Nev data about subaerged arc welding of batt Joint& of rein- forcement in assemblye Fromestroi. /+0 no.11t42-46 162o (MM 15912) 1. TSentralInyy naucbno-isoledovateltakiy institut stroitelinykh konstruktai7 Akademii stroitellstva i akrhitektury SSSR. (Concrete reinforoement-Welding)  ERODSKIY, A.Ya., kand. tekhn. naukj -YAIDMAN, A.M., in%h.; '-ZUBMVA, M.S., red.; KAS31-IOV, D.Ya., tekhn. red. (Investigating the welding of reinforcements for reinforced- concrete structures; welding of 35GS reinforcement steel] Insledovaniia svarki armatury zhelezobetonrWkb konstraktsii; svarka armaturnoi stali inarki 35GS. Moskva, Gosstroiizdat.. 1963 85 P. (MIRA 16:12) ~Concrete reinforcement) (Electric welding)  BRODSKIT A Ta kand.tekhn.nauk; FRIDMANp A.M., inzh. -- sl-~*~ Weldability of grades St-5 and 35GS steel strengthened by cold drawing. BetA zhel,.-bet. 9 no.5:210-215 My 163. (MIRA 16:6) (Concrete reinforcement-4,elding)  BRODSKY, A. Ya.; LOSHCHILOVP V. I. Resistance of welded-batt joints in large diameter 35GS steel reinforcement rods. Avtom. over. 16 no.3-028-33 Mr 16 (MIRA:16:4j. 1. TSentTai'My nauchno-ineledovatellskiy inatitut stroitell- rorkh konstruktoiy Akedemil, stroitelletva i arkhitektury SSSR. I (Concrete reinforeement-Welding) (Welding-Testing)  BRODSKIY, A.Ya.,,kand. tekhn. nauk; BAUD, V.A., kand. tekbn. ; STRASHNYKH, V.P., red.izd-va; SHCHEVCHENKO, T.N., tekhn. red. (Argon-are welding of aluminum alloys for building elements; tecbnological recommendations] Agrono-dugovaia svarka aliuminievykh splavov dlia stroitelInykh konstruktsii; tekhnologicheskie rekomendatsii. Moskva, Gosstroiizdat, 1963. 179 P. (MIRA 17:1) 1. Moscow. TSentraltrjyy nauchno-issladovatellskiy institut stroitellnykh konstruktsiy. 2. Rukovoditell sektora svarki TSentrallnoy laboratorii metallokonstruktsiy TSentrallnogo nauchno-issledovatel'skogo instituta stroitellnykh kon- struttsty (for Brodskiy). 3. Rukovoditell TSentrallnoy Is- boratorii metallokonstruktsiy TSentrallnogo nauchno- issledovatel'skogo instituta stroitellrykh konstruktsiy (for Baldin).  BRODSKIY, A. Yaj; PAL. R. Effect of tif,&.tiijm an the weldability of 14G2T low-elloy steel. Artom. mr. 17 no-4:15~-20 Ap 164 (MIRA 18:1) 1. 78entralln7y Tiaucbno-isaledovateltskiy Institut stroitell- nykh konstruktsiya  BRODSKJY A.Ya kand.takhn.r-auk; TOLbIACFFVA, N.V., kn7j,, I Weldability of thermally hardened St.31"kp stef-j~ Svaz,.Frc-'Zv. no.a2~.23-15 D 164, (M -T RA 118 t I ) L. TSentraltnyy naunhno-issiedovateViAly Institut struite,'-'nykh konstruktsiy iz.. V.A.Fucherenko Gosstroya SSSR,  BRODSKIY, A.Ya., I-and. tekhn. nauk; PUIDMAN, A.M., inzh. Resistance welding of hardened reinforcement rods, miade o' carbon steel. Svar. proizv. no.3:5-8 Mr 165. (MIRA 1835) 1. TSentrallnyy nauchno-issledovatellskiy in3titut stroitellnykh konstruktsiy.  AP5027602 SOURCE CODE: UR/0135/65/0001011/0022/0024 AUTHOR: Tolmacheva, N. V. _~Engineer); Br!~j~iy, A. Ya.-(Candidate of technical Z sciences) S 7 ORG: TsNIISK in. V. A. Kucherenko TITLE: Weldabilitv of thermally hardened IOG2S Xow-alloy steel qvls~) Iq 1~ SOURCE: Svarochnoye proizvods'_-_*0, no. 11, 1965, 22-24 TOPIC TAGS: weldability, steel, metal hardening, material fracture, metal aging, impact strength / lOG2S steel ABSTRACT: The results of a study of the weldability of lOG2S low-alloy steel (0.1% C, 1.3-1.43% Mn, 1.0% Si, 0.023% S, 0.022-0.024% P, 0.12% Cu, 0.05-0.08% Cr, 0.06-0.08% Ni) are presented. The steel was first rolled into 12, 20 and 30 mm thick sheets and heat-treated (water quenching from 910-900*C with subsequent high-tempe- rature tempering). O;~-ing_t- hardening, the ultimate strength of the steel was increased by.6%; by 20%;.and impact strength, by 34-57%; and the :-, lb i . critical.: temperature i~-ittletkess dropped below - 60*C; in add tion, proneness to -aging ~ decres, of thi-steal's 4eldability were investi-- as are, -promenisislof ened noo - th~ - Itzar 4, .Zat :-optiwav 4 of - -the A6911- local:- variations of Point ,and et-,-. -4*ing in -,tbe ~501W of vane ispa .-6rd 1/9  ACC NRI AP15027602 toughness in the zone of thermal influence in the butt-welded joint and the prone- ness of steel in the zone of thermal influence to brittle fractureig, the presence of natural and artificial stress concentrators. The welding a-n-F-testing 'procedure is described in previous articles by the same authors (Brodskiyq As Yas, rolTachevaj N. V. in coll: Issledovaniya po metallicheskim konstruktsiyam, Gosstroyizdat, 1961; and Issledovaniya po stallnym konstruktsiyam, Goestroyizdat, 1962). The overall weld- ability of the steel was determined by comparing the test results for the weldments with the results of analogous tests for the base metal (in thermally hardened and hot-rolled state) as well as with official standards. Findings: the optimal linear energy of the welding arc for this steel is 5-10 kcal/cm. If the COOling rate of the near-weld zone is 4-18*C/sec, the steel's mechanical indicators (impact strength and yield limit) remain acceptable. Resistance to aging and to brittle fracture in the presence of natural and artificial strength concentrators is markedly higher for thermally hardened lOG2S steel than for hot-Tolled steel of the same kind. E55A-type electrodes may be recommended for the welding of thermally hardened lOG2S steel. Orig, art. has: 4 figures, 2 tables. SUB CODE: 11, 13/ SUEM DATE: none/ ORIG REF: 002/ OTH REF: 001 2124  ACCESSION NR: AP4029253 S/0125/6410001004/061510020 AUTHOR: B.r.odskiy.A. Y&. (Candidate of technical sciences); Pal, R. (Candidate of technical sciences) TITLE: Effect of titanium on the weldability of low-alloy l4G2T steel I SOURCE: Avtomaticheskaya avarka, no. 4, 1964, 15-20 TOPIC TAGS: steel, low alloy steel.'14G2T steel, 14G2 steel, 14G2T steel weldability, weldability ABSTRACT: The weldability of 14GZT steel containing 0.06-0.1516 Ti made at the Zaporozhstall plant in basic open-hearth oxygen furnaces was experimentally investigated. The steel rolled at over 1, OOOC could not be used for welded structures due to its low toughness. However, after normalization (at 900-910C for 4 minutes per 1 nun thickness) the steel acquired high mechanical 'charac- teristics (tabulated), which varied but little with the plate thickness up to 40 mm, Card J/Z NMMVRIN`~, OR  ACCESSION NR: AP40Z9253 and a high resistance to embrittlement; its resistance to crystallization -fissure formation manifested itself in welding in CO.Z or by coated electrodes. It was found that satisfactory 14GZT-steel welds can be obtained with an arc energy of 1, 700-5. 000 cal/cm, with 12-rrun-thick plate which corresponds to the rate -of - cooling of the weld-affecled zone of 60.0-5. 5C/sec. Sv-08GS and Sv-08GZ~ electrode wires are recommended for COt welding, and UONI-13/55A, for manual, arc welding. The above results probably hold true for other low-alloy steels, such as 15GS, 14KhGS, 14KhGSN, l5KhSND. Orig. art. has: 4 figures and 3 tables. ASSOCIATION: Tsentrallny*y nauchno-issledov.atellskiy institut stroitel'ny*kh konstruktaiy (Central Scientific Research Institute of Building Structures) SUBMITTED: 06Aug63 DATE ACQ: 27Apr64 ENCL: 00 SUB CODE: NO REF SOV: 003 OTHER: 002 Card 2/2  MODSKIY A.Ya., kand. tekhii. nauk; BALDIN, V.A., kand. takhn. iia-uk; Prinimal uchastiye BARYMEN, V.1-1., inzh. LArgon-arc welding of aluminum alloys for building structures; irnIrstrial recorpmendations] Argon-dugovaia svarka aliuminievykh splavov dlia stroitelInykh kon- struktsii; tekhnologicheskie rekmendatoii Moskva Gosstroiizdat, 1963. 170/ p. (VIRA 17:10~ 1. Moscow. TSentralln37 nauclmo-issledovatellskiy institut stroitellukh konstruktsii. 2. Rukovoditell sektora svarki TSentralIncy laboratorii metallokonstruktsiy TSentrallp-ogo nauchno-issledovatellskogo instituta stroitellnykh kon- strulctsiy (for Brodskiy). 3. Rukovudite2 TSentrallnoy la- boratorii metallokonstruktsiy TSentrallnogo nauchno- issledovatellskogo instituta stroitellnykh konstruktsiy (for Baldin).  (a C. 00 AP 00 a, OW it Lei.- _4 L ~,Gdmdiw d wed W "INVU, -1MW4K2).-4bmA' I ~ zoo WIN" Of AA in UCW 09 W w hk COU :,o0 top 0, 11. are 0 . 8 arc Cos r coo i X0 : I NG too troo I law got :tn4sloot -Witial d. o..-It. Aulu 0-0 it a U III AV 10 a w 0 00 0 as : : 0 0 0 0 0 0 ; 0 0 0 0 * 0 0 0 4 0 o 0 000 *TOO 90940:006606 00000*000009060000 ~ 0~4 ___; 0 0 0 0-0 6 0 0 0 0 0 0 a  Sit A I L-JLA -3 ILA 5 A et F .,0o -00 00 .00 ..0o ZL ao&wwm 901 a -ili i see =0 of ;. l 0 a t. lt~ 0 : f as akob* a thm of. AmCk A 400 j - m "d '"0 -aws ~mtjmZmi aftolks a* four MW- fteqwndw of Am% febbb is a npLw py..,id) roe It ftp~ sow, IM @I*. go rade &S"6 is alay slkhqv almah"--at- de b d o y bu the 6wk r- bhuw kalle A fi w cir am"" b about , N -, I A. M. j 4010 I .,NSA.. C.. oat u III 4T 40 Is 0 0 0 0 0 0 0 0 & 0 0; 0 0 me 0 0 0 - ? 0 : 0 0 & 010 0 0 SO e 0 * 0 0 0 9 0 :.AJLALAk illijil 019 0". $91 0 at 0 a a 3 & 0 0 0 0 0 0 0 0 0 0 0 AALALILO*0000 000000  0 0 0 fo .0 ,0*0000 00 000000*00000000000000*00 00 . If 2C CtYGOIJKL a 11 CPU 11 It*", .ve- 0 0~1.11 II".11 -P 2.11 LIMP r 0 OIL 00r;, 00.1 On W~, .~ 0 G~t i O_q 0,1 :0:- 0- 0o-, so..' 1 a x .1 R $1 m it 000000000000*0*0 0 ad is - 17 ca &T a .1 - - III 1.0 AND 4t- 04010S 6404,100, Amt-11401 1.14.0114,11fkaw v 1% nt. I If WW Ihn't JO) to-ol sk 00 gQ "Itul 'am"twill -two i:.,:1) 1101.4 All 00 tiff IWU1406U (Nil III ()NJ its .41.1iffm 091 JkIjj"WWqu v 00 10 wa (m)l INIPkillula.44 (q 116oulumilats 00 "PDA' V141 14 !j)IW 000 VPV) VAOIA J, 00 SA111111 ROO 00 jj lp 00 a 00 00 so 0 0 00 13 a 35 #1 WI, ... j 11-Al 1-11-7-11-1--1--y-tv-7-111 . 00 -T, o 44 a a a Of a n it R U M 0-000000000 * - ; 10 G, 90 00 di rs : _ W- a 0 0 & 0 0 0 0 0 0 0 0 0 a 0 o  fee m- L a A A, If 0 a a I ISI AND JIM 0 ONO plopt9fics MOCA i ~io a if I? a 0 a if V a IN a A) A I and, A s a - s L A MITALLURSOCAL Lfft&&TWI C&ASWCATOGN low 111,14141v4 wdeo wit Osy Get QlAgnamt 414tal 4K a.. At, T F T r 7A A fm 0 0 w I At of I A a 3 9 1 u a AV No I be 10 0 It n w a I a 0 0 0 0 0 * 0o0000 0000:40 ~****Or-*0q0qsq* -00 Wee see woo, goal wee too u0s see  00 A 0 * I 00.4 00, 00 c Ogg ood ood 008 00 -r 09.3 000 00.3 OOW 0011 -A- 0 -111 It- Q U-M -;I M -1? -4 -19- 0 0 0 0 0 0 0 0 0 0 0 0 0 0 it is A, 4: u 41 - a ablow"We d ow0bam is hmavy vmAw. A. X Novou arml A. A. ZAWK0 (Act& PkymkeAim. U.B.ILS., Im. 5, Vill-010).-Thr ;xtirdion m m ~ of 0437 mol. LuW in H 0 and in 434 and 92-7% Djf0 We been m;!Zm between 540 mW M up. Mw am-ff. is m4uord Ivy D,0, the rodudion bPW4 approx. ac No]. 0.0 a -13 1-00 00 -00 see zoo Zoo zoo 1000 ttoo 1 11300 9 &IS-ILA ULLUNGICAL U11111040112 CLASUPICATIN Igoe -j wee U 9 AV 10 T-91 , LO 0 W to it It 0 A a a - 110 0 0 000000 00 0 Do 0 00 00000000000000000*00 0 0,"1;0 0 0 0 0 0 0 0 0 0 0 0 0 0-0-2 0 0 4 0 0 0 0 0 0 0 0 0 0 0 0 0 oe~FA  AMON 00, so-, 1-00 00 so 00 00 064 so 00 .00 0941 00 d 00- 6 - 00 , t 'l ON M At 00 416. 0013 T. og . . !, a ""*W zi 00 ~ t ,go" 00 01*mp M ~M 40 00 goo W.&A t . . 00 - 00 o g see . Xoo w o o zoo I boo 00 glow 0001mv 100 t v sdan- 71- - 14"W* kit 017 Got . 411311 w a.. It, i I F I 41; ; A a a ; a, ; 0000000000000000 a v a 101 004 10 s a bd 016mimm-ima 'a 009 :,Cwi]~ 6*00009 0 A 0606666609006006 006 00000 00006066  MML a if v a to 0: 4 If LJ ?'I I 0 4, 1,911(l lift .40 06 00 06 o0 of ftevor MW MOYAntat" vuver W~. hodsis 800 A. B. ?tsd!M 0- Q DOWNW. 2- L DONOWS &Dd M- M- 8 Is- 411-00. 1#37~A method Is dew-ribed by 000 wMch the dm*ycd -aW m be determinedwith an -of 0-3 to 0-4 y. 0: The iAxetent* of D visid OU in ONO WMPWS of snow and eight MmPka Of 0 water basis Clavicaslan mountain rhwa am determined by measurements of 0 dowkyasidreftactiveisAm. The snow isfound to contain about0-2 to coo 0.8%lessDand Ito$% mareOPStbannormairlivw --tei. Inwinterthe a r constitution of the nwantain riveir water is nornW. but later In 2 ir the yftr is inilioenced by the viefthig of thie snowsi. An exchange, experi- 006 ment botwvm Ordinary .&tin and atTnwphwk ox)-Pn is carried out and Ise 10 a done" iric"m amounting to 10-7y. due to enrichment of 0U. is obwnvd. This result is in agreement with theovelical conswerations. L. A. W. 0 00 00, as t U P P It ft 94 K 6 It 9 Pt It cc It IN If I M 41 0 0 0 to 0 0 0 0 0 0 0 o 0 o 0 0 0411110-9 0-0 0 0 0-00000-0 0 060 a 0 0 )00 0 go goo** 00 0  *to 000 000#0 0 Ogg a I flat& FE 1"llanbinuvismis 0 Oei 002 00 -a 008 Oad 004, 004) 00000*00000000; 0 "I- nil villds Aim A J4 w 41 41 A) m a 4 0 41. -00 1-00 1,66 .00 WOO t IW. ~Ilwo. 200 Wftb roe fCOO ro 0 W. R. A. Iroo coo goo ,zoo No* I A. I L a INTAMMICAL LITIROWS CL"WICATIM tso* Wes -MIR -AT- 10- a L a fm 0 11 8 1 v IN s A] o 3 0 dna 00000:10000000*004 oe:[::oooooooooooooo::: 04000 OOOOOOOOOOWOWW 0 0000*000000000  . . . . . . . . . . . . . . . . POC0011% Allo 1,4001911tt WWI 09* 00 O's 00 0 Abommum, v""_ Mt Oft 0 *0 0 3 13 AP 00 i! 066*9 =mom Ar1"*bwqww.vwvvw.; 00 'a ~! 1 00 W. IL A. logo so also 89 Uoo salew itit Owl cot 431111 OK a-- ill 0 at N ~43-V-V-Z'14 u 09 0 0 0 0 0 Ill 4D 4b 0 Ob a 0 0 0 0 a 0 a 000 goo** 0 0 a 0 0 0 0 0 0 0 0 0 0  *!ooooeeoo*oooo* 00006 01*1! 1 1 4 1 1 1 1 1 to It 12 13 U Is III pill Z? 30 36 27 111 ,A, I L L -L--f 6, 1 L I tt~, QL 06 00 00 00-1 00 0 0 so S COMICIMUGUILlilk Ild Qe beavy INOT of ammm -00 d WOW- 0- - &AMR ,d .00 0 A. E. Smopm . .1 1. A-d- 8d. U.R.8s.. &s0 so Ji- :"*^1 H$"() b" back Oblaitwl =00 by FOOMW fiw AM is of as* o: Nampin. L. J. J. coo ,fis AS*-SL- ITALLVRrJCAL LITFOATWE CLASPIFICATICOO ------ lvI!vj,.I9 a" v CIC I , , 1 -1 it K a a 99 9 0 0 0 0 e 0 0 0 111 0 : 0 0 0 0 0 0 0 0 0 0 a a age 0 0 G see 0000090 0 'is 1, 17 is U a I& v v It w it a 11 a fS PO .14 -06 i-Ge 00 -00 '00 -60 coo a 00 see co 0 !X09 !goo Leo ties -so Ron, L 1 0 rw o It S -1 of Im 5 a -0 ~l 0 v afta 0 a 0 0 0 a 0 0 a a 0 0 0 0 0 0 & 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  It Isu u m is 1*6 v of If v a a x v I so J. a 0 a p I Q 4. a -Atv 0 00"Illas Ake POOPERI'll .I,## 00 9 so 00 0, V. S. 00 - '%. t. s"n "4 1" 00 0 varylas art . Ix od wmplo H.0 al. a id bal Tb-Yli wilarmal 190 L4 0 content, am4 sansal D Igb no content. F. G. OOW 0 .00 Are be 0 A 10. L AWITALVURSKAL LITIMAILAII C"MOKAIAN %.kdej .19 ON. got &1 10 k% u a 0 w I w n k, to 0 It a Is , "' : , " ,w . a 0 * 0 0 0 0 0 0 of Offle 00 0 ~& 0 0 0 0 0 0 0 0 0 0 0 : : : : : V: 00 0000  *04 see 008 die go it* W1 M 11, 11. 40 0 11 4) G 0 a A-L J. A%2.SLA ONIALLNGICAL LMIATW CLOWCATM SIVINIA I*" map wev N31101 w a-V All , " , 2, ; TA I N 0 0 a 4 2 1 1 In S AVV i it MA =00 109 see 80* Igoe so* 300 lee we* ago vot  d dim .s7 .5 .s.. that so exchanr occurs 11160 efirkbod in "0 o", ,, ,.Mtfhl med'u"': mce jhB, in an AHKI in a ncif&l nit"ilill". lwtween and Nit, d N"I"C -Ib 11,o an - R"'tim 0t ,~'Ilangr n"Un im dgtcctcd, i I DWW cUirst'jo ,nWd bY J,ut in 41C kamd PO C.'m is &=-I tj with I earrawownt fearmnirewl't .huwiNit the lZmano - 9 of o a. 11.0. ad 0,4 "direct ill .4ilhinatim  n"t &w efliciency A. 1: Cak 61 the Sw-nuy ujm j 11F. oitions Aie MWW U ty tbwuW d2ulp for the wparatim of "' n,"J',ojd ;; finion ,,ergy ex wnded in WIN-tion is 40-00% Of ths'. F. It. of th, P&t~ nucici.  0 f* P to 0 4 a w . .4 4 0- -yA sea go .00 see so fell too 004 Too t-09 tie aI L & WTALLMCA LITIVAIM CLAIWCATM no: %$Sm ""all" tie. V"Ol lapava map Gv ~ ;41 Lon, ;1111 11i4aw I lus, I v 1 0 0 0 0 0 a 0 0 0 a 0 0 so 0 16 0-ft-AiLe 11% a a a 6-0 to 0 0 0 0 0 0 0 0 0 9 *  IMCDSKIY, A. E. and Nah==, G. P. (Mov) 1- k- ~] "Untersuchung u*ber don Austausch von Schwefel-Isotopen in Schwefel-Verbindmigen." paper presented at theIntl Conference on Radioisotopes in Scientific Research In Paris, 19-20 Sept. 1957- AnSewandte Chemle, 110. 3, 1958.  VS0T0F,C EXCHANGE Or DXJ,Gy~ri ix 4 f)  BRODSKIY, A. YE. "Utersuchengen uber de chanisms einger Reaktionem der Peroxydverbindunges 280'11 mit Hilfe des Isotops Report presented at the 2nd Conf. on Stable Isotopes East German Academy of Sciences, Inst. of Applied Physical Material Leipzig, GDR 30 Oct-4 Nov 1961.  BRODSETY, A.Ye.~ IMIMACH"VA, N,.V, ROMVIdii~ P, Softening of healw-treated structural is~eoj, Met6d-lowjd. i term. obr. met. no.8g47-49 Ag 164. (MJPM 17~10) 1. TSentrallnyy nauchno-IssledovateVskiy institull stro~te~lnykh konstruktsiy i Budapeshtskiy politekhnicheskiy in8tItut,.  BRODSKIYP B.; VARSHAVSKIY, A. .... t - "- Giant. Znan. sila 36 no.10:34-35 0 161. (14IRA 16:12) - - - -- m  BRODSKIY Borls- [The entire world is in the southwest] V6s.1 mir na IUgo- Zapade. Moskva$, Izd-vo "Znanie" [19611 66 p. (MIRA 15:7) (Exhibitions) 0  --- - ___ __ __ - ___ - __ - __ BRODSKIYV B.9 kandAskusstvovedeniya; VARSHAVSKIT~ A.v kand.istoricheokikh na* It Bronze horseman. Znan.sila 36 no.ltl4-17 Ja 161. (KMA 14:3) (Leningrad--Monuments) (Falconetv Etienne Maurice, 1716-1791)  BROD,',KIY,--B,; VARSHAVSKIY, A. Marseillaise. Znan. sila 36 no.12:35-36 D '61. (MIRA 15:1) (Paris--Arches, Triumphal)  - - ~ -- ), ff(, C) S I -ning x 4. T , Forms, I/- grad, "Pxializ Gote Lekarstvennih Form," ArIalysis of Prepared Medicinal 1950.  PRCDSY,-IY.-2'.-Q, 17 25972 Brodskiv, B.S. "nacheniye Nar"agnichivaniya Vnutriglaznykh Cskollkov Dlya Usreshnogo Udaleniya Ikh Yagnitor.. Oftalrol. Zhurnal, 1948, No.2 S. 55-57. 0 SO: Leto-,is' Zhurnal Statey, 110. 30, Yoscow, 19,48  'I'?(li 1: 1 , , , _i . ~a . . I J:~ -, 26659 Znac,ien,,e poqtoyannoro uvqmita brodskofro--kudlfa v imlovlya;,~h vo.,~,ennoi7o vremem. oftalinol furnal, 1949, No. 3, a. 123-25 SO: LETOPISI ITO. '35, 1949  -END=, B. ej.- Bro(-'-.,Kiy, -D. S. - Tiagnetic Operatiom iii Ocular Pracbicc. 11 Ode3sa State Medical Inst imem N. I. Pirogov. Odessa, 1956 (Dissertation for tale Degree of Doctor in Iftedical Sciences). So: Knizhnaya Letopis', Ho. 10, 1956, pp 116-127  Yame BRODSICIY, Bentsion Samoylovich Dissertation Magnetic Operations in the practice of Ophthalmology DoGree Doc Yed Soi Affiliation Zn-ot indioato!17 Defense Date, Place 19 .,pr 56, Council of Odessa State Ned Inst imeni Pirogov Certification Date 15 Dec 56 Source BMVO 7/57  BRODSKIY, B.S., dotsent *Problems in injuries of the eye; collected papers from the Department of Ophthalmological hthology at the Gor'kii Medical Institute in Stalino." Revieved by B.S.Brodakii. Oft.zhur. 12 no.2:125-126 157. (MIRA 10:11) (M-WOUNDS AID INMUS)  ~pqwuy, 113.S., dot's. organization of first aid for the eyes. Uch. zap. UBIGB 4:344-346 158. (NIFA 12:6) 1. Ukrainskiy ekaperimentallrqy in8titnt glazmykh bolezney i tkanevoy terapii imeni almdemika V.P. 7ilatova. (VII-WOUgM AND IMURIM)  -BROLSKIY. B.S., doktor med. nauk ExperimentAl data on the condition of the seleral incision following trepnnntion for removal of a splinter from Inside the eye. Oft. zhur. 13 no.1:26-29 '58. (mm 11:4) 1. Is kliniki glaznykh bolezney (zav.-prof. S.F.Kallfn) OdeBskogo maditainskogo inatituta im. N.I.Pirogovn. (BYE--SURGERT)  BRODSKIY, B.S., dots. doktor med. nauk. Comparative estimation of results obtained from X-ray localizatiou of intraocular splinters according to the methods of Komber&-Baltln a-ad Abalikhin-Pivovnrov. Oft. zhur. 13 no.6:337-342 158. (KM 12:1) 1. 1z kliniki glasnykh boleney imeni akademika V.P. Filatova (zav. -prof. S.F. Kallfa) Odesskogo neditsinskogo inatituta imeni N.I. Pirogova. (3Y11-TTORNIGN BODIES)  BRODSKU B.S. I doktor med.nauk Choice of a place for opening the sclera for effective removal of eplinters from the eyei bft.shur'. 13 no.7:439 158 -.. !KMA 12: 1) 1. Is kafedry glaznykh bolezneV imeni akademika V.P. Filatoya e (sav. - Prof. S.F. Nallfa) Odeaskogo meditsinakogo inatitutao (zrx--FmIGN BCDUS) (SCUMA-SURGIMT)  ERODSKIY. B.S.. doktor med. nauk "Battlefield ophthalmologym by B.L. Poliaks Reviewed by B.S. Brodskii. Oft,zhur, 13 n0-8:496-"7 158. (MIRA 12:2) (OPHTHALHOWGY) I - (NOICIn, MILITAFT) (POLIAK, D.L.).  BRODSKIT,j~..5.o,-_doktor med.nauk, dots. Prevention of adbosions In eye burns. Oft.zhur. 14 no.6:337-343 , 1q4 A (MIRA 13:4) 1. Iz kafedry glaznykh bolezney (zav. - prof. S.F. Kallfa) Odes- skogo meditsinskogo instituta im. N.1 Pirogova. (RIC--WOUNDS AND INMMIRS) 6URNS AND SCALDS) (M, IIISTRUKKNTS AIM APPARATUS FOR)  BRODSKIT, B.S., doktor med.nauk 41ye Injuries In Industry and their prevention* by 0.1. Shereshavokaia. Reviewed by B.S. Nodskli. Oft.zhur. 15 no.2tl24-125 160. (MA 13:5) (M31-WOUNDS MID INJURINS) (SM VSKAIA, 0. 1.)  BRODSKIY# B.S., doktor *editsinskikh nauk z "Eye injuries in agriculture; a manual for the practicing physician" b7 A,G,Krol', Reviewed by B.S.Brodskii. Oft. zhur. 15 no.5:314-315 160.,, (KMA 13 t 9) (EYE-WOUNDS AND INJURIES) (KROL'q A.G.)  (Odessa) Does television harm vision? Zdorovle 6 no. 11:31 N 160. (MIRA 13:10) (TELEVISION-PHYSIOLOGICAL-EFFECT) (VISION)  13RODSKIY, B.S-; RABINOVICH, M.G., red.; MATVEYEVA, M.M., tekhn. red. I (Vagnetic surgery f4 the extraction of metal frrgments from the eye] Magnitnye operatsii dlia izvlechenlia metal- licheskikh oskolkov iz glaza. Moskva, Fiedgiz, 1963. 142 p. (MIRA 16:7) (EYE--SURGERY) (MAGNETISM--THERAPEUTIC USE)  DrugDA-11-i -13. T-a. Brodskiy, B. Ya. - "Moscow University honors a leading Ooviet scientist. On the occasion of the 50th anniversary of the bii-th of 'Academician 7'. D. Lysenko,', (Summary of the speeches given at the anniversay dinner), Vestnik Ibsk. un-ta 1948, No. 10, P. 13-19. SO: U-3042, 11 March 1953, (letopis Inykh Statey, No. 10, 1949).  -B,RODSKIY BO.Yu.; kapitan med. sluzhby j Organization and execution of prophylactic disinfection measures in a garrison. Voen.-mGd. zhur. no.8:71-72 Ag 160. (MIRA 11,97) (MILITARY HYGIENE) (DISINFECTION AND DISI1,TECTANTS)  BRODSKrY, D. Innovators should join the society. NTO 3 no.6:29 Je 161. (MIRA 14:6) 1. Predsedatell Volynskogo oblastnogo pravleniya Veseroyuznogo khimicheskogo obshchestva imeni D.I.Mendeleyeva, g. Utsk. (Volynsk Provin:!e--Chemical industries)  -1- 03576-67- W1F1JNbqW ACC NR. AP66~-~11'8-f-- sou'~~L-' INVENTOR: *Khanin, I. M.; Smullsov, A. S.; Brodskiy. E. 1-1,1zin, V. At ORG-. none TITLE: Liquid atomizer. Class 24, No. 186066 SOURCE: Izobret prom obraz tov zn, no. 18, 1966, 83-84 TOPIC TAGS: fuel atomizer, fuel atomization, fuel injector ABSTRACT: The proposed liquid atomizer1consists of a housing cont'ain- ing a gulde assembly inside it.---1-n6-r"d-er to obtain uniform atomization of large volumes of liquids at low pressures,, the nozzle guide assembly is provided with disks, placed one above another, and having offcenter openings with different diameters. A cylindrical partition is mounted under the upper disk (see Fig. 1). Orig, art. has; 1 figure. [WA No. 883 UDC: 697.932.6 7 1-1001-101=11-41M NOW.. t  ACC NRt AP6033481 Fig* 1e Liquid atomizer 1 - Housing; 2 upper disk; 3 - lower disk; 4 - parti- tion* SUB CODE: 21/ SUBM DATE: 15Apr65 1"71-4-1 Carci 2/2  BRODSKIY, E.YEI., inzh. IIII I Roducing the volume and improving the quality 6?technological documentation. Sudostroonie 24 no.2:.54-56 7 '58. (XM 11:3) (Shipbuilding--Contracts and, specifications)  fiux re I-! nement,-!-e-,over;~~,--"an~-19~I ,A b--M---' ~~T : T he ni e~. hod of Dxygen an d nitrogen cc was used to assess the effectivity removing aalmlx~~"I.---3. T., 1 LLY refining was employed and specimens taken from  7 A CICESS ION ~~R, A FF of the metal with respect to chlorine. Thlis, the authors w-r-, eve" c' -,-r. IT- NR REF SOV: 00o OTHER: 0 0 2" Ccrd 2/2  L 21.2oi-65 EP,%(e)-?,/EVT(m)/Epy(n)-2/EPR/V.VP(t)/EPA(bb)-2/r$P(b) P8-4/ Pad7P-t-- -107Pu-4 IJP(c) JD/YIW/HW/Jo ACC M-ION KR: APS000940 S/0136/64/0001012/0053/0056.,c AU771OR: Roclyakin, V. V. . Andreyev, A. Ye. , Boyko, Yu. N. , Vaynshtesm, G. M. . 41. Karain V. M. , Brods-gy-, E. Y-e7-,I)OTa-barova, N. P-7.-WiFic-h. V. S. TITLE: Transportation of liquid metallic mwnsium Iq SOUR.CE- Tovetnyyo metally, no. 12, 1964, 63-56 TOPIC TAGS: liquid magnesium. liquid magnesium transport, titanium production, magnesitun.contarnination, vacuum ladle, nLickel purity ABSTRACT: A special vacuum ladle was designed for the transportation of liquid magnesium which protects against reaction with nitrogen mid oxygen and contamination by. inclusions. The metal was sampled from the electrolytic cells, from the vacuum ladle t and from the reactor, which to the route the magnesium followed, and the content of 0. N. CI, Fe, SI and Ni was determined in tho4s samples. Ile content of all Impurities except nickel dropped during Qe intake mW tranapdrtation of the magnesium. Thequality of the magnesium deteriorated when charged into the reactor, the nitrogen and oxygen contents in the eamples having increased owing to poor air-tightness of the charging unit. The content of chlorine also Incre"ed. Mw mapmsium was contaminated with nommetallic C.1d 1/41~-  L 212o1-65 ACCESSION NR: AP500OD40 inclusions maWy during the operations of sampling from the electrolytic cells and when pouring into the reducing reactors; the Content Of MOWIto impurities remained unchanged. To improve The sampling methods, and thus avoid contamination, further studies are to be directed toward excRiding contact of the magnesium with the air, creation of a shielding atmosphere, and reduction of the number Of operations a 8 clated with urin nko (deceased), fS.N. rcbM the liquid magnesium from vesselto vessel. "Yo. V. -Pirozboh, Yru e I.P. Muntyano , N. Yu. Sukhorukova, K.K. B-uTa-n-aY-a.-R-.'Ya,--AXhtemeWw -Bragin also took part in the wprk." Origi art. h": 4 figures. ASSOCLATION's SUBAUTTED: 00 ENCLt 02 BUD COM MM, IS NO REF SOV: 002. OTHM 000 Cod 2/2  BROTISKIY, F. I - BRO76KIY, F. !.: "The role of the water factor in the pathogenesis of convulsive attacks in epilepsy.11 Kuybyshev State ~'iedical Inst. Kuybyshev, 1956. (Dissertion For the Degree of Candidate in Medical Sciences.) Knizhnaya letopis', N.;. 39, 1956. Moscow.  BRDDSKIY, F.I. New preparation used In the treatment of epilepsy and its therapeutic effectiveness. Zhur.noyr. I polkh. 55 no.9:682-689 '55. (MLRA 8:11) I. 3-Y& palkhtatricheskaya kliniks (saw. F.I.Broduk!Ly) Ukrainskogo n&ucbno-I*sle&ovatel'9kogo poikhonevrologicheskogo inetituta. (APILIPSY, therapy, .mixture containing various drugs.  1. B-FODSKIY, P. I. 2. ussR (6oo) 4- Stock and Stockbreeding 7- Initiators of socialist competition for high quality in stock- breading, Sots. zhiv., 15, No. 2, 1953- 9. Monthl List of Russian Accessions, Library of Congress, April, -1953, Uncl.  FADYK. P.I.;,,*ODSKIY -.' F.I.;-ROM"OVIGH, Te.F. redaktor; VICSKOVA. YO.I., tokhnichaskiy re"t-Mr [Vinniton stockbreeders] Vinnitskie zhivotnovody. XOBkva. Goo. lzd-vo selkhoz. lit-ry, 1956. 221 p. (MM 9:8) (Tinnites ?rovince--Stock and stockbreeding)  BRMSKIYP G. Loss reduction in metallur&7. metanurg 7 no.n:33 N 162. (MIRA 15:10) 1. Predstavitell Dnepropetrovsko f-0 sovets, narodnogo khozyaystva i Oblastnogo soveta professional rqkh soyuzov po obaledovaniyu zavods. im. Dzershinskogo. (Iron and steel plants)  2922-66 Eilr-(d)/EWP(C)/EWP(v)/T/EWP(k)/EWP(h)/EWP (1 IJP(c) BB/GG/JXT ( C 2)_~U M04M70 )BOOK EXPLOITAT1011 UR/ _~r / 6 2 5 'P75 04V tiq P'qtS&l ' Kozloya,0 Os; Brodekly Oi_,budorins -V.1 Mitin, So'f NikonoM, L. omatin, No 4q Application of electronic cgMtera to oduction o ~(Flrimeneniys elaktronno- E2~ ) H 5cow) Izdvo aylel", 1964 vychialiteltnykh mashin v upravlanii DproU_i=VodTsi=Vom) M~ 509 p, illus., fold-in diagre. 7000 copies printed. Under the editorship ofs Professor 0, V. Kozlova., Doctor of Economic Scienceal Editort V. Budarinal Junior editor: L. Ulanovs; Froofreaderai L. Chigbmv Yu. Starikovaj, Of Meltni- kova,, So Novitskaya TOPIC TArGSz automation. electronic computer,, production control PURPOSE AND MERAGEs This book In expected to be of definitive assistance to industrial personnel* The book was based on research perforwd in the Nauchno- isaledovatellskaya laboratoriya ekonomikii i organizataii proisTodetya Mosgorsov- narkhoza at the Moskovskly inzhenerno-ekonmichookly institut imeni Sergo Ord- zbonikiftee All ths work has bben subjected to experimental introduction into practice at several Moscow enterpri3eso Card 1/2  L 2922-66 JAW49670 TABLE OF CONTERMt Frois.the authors 2 Cho 1, Principlesof production control with the aid of electronic computers -- 3 Cho IL~. Technical-economic planning,with the application of electronic computers Ch. 311.~ Application of electronic computers in operational 56 production planning of series productIp - - 109 Ch. IV. Operationstl_pK2ftuction_plsLnnindAith the application of electronic com.- puters Jn unit and in small-aeries production - - 194 1~ Cho V. Application of eloctronic computers in intraplant accounting_ Ch. VI. Infomation concerning the operation of enterprises with the aid of electronic computer@ - - 419 Cho VII. Questions of the economic feasibility of applying electronic computars in production control - - 493 SUB CCOEt IS SUBMn t 3Jan64 RR MW SOVI OU7 OMM ODO Cord 2/2  BRODSKIY G. Quality and reliability first. Metallurg 10' ric.7:44 -,] 1, :: -1 )-,. 18.7) 1. 7avod im. Petrovskogo.  BRODSKIY, G. Now achievements in the current seven year plan. Metallurg 10 no.8:34 Ag 164. (1-11RA 17: 11) 1. Metallurgicheskiy zavod im. Petrovskogo Pridneprovskogo soveta, narodnogo khozyaystva.  BRODSKIY G. I -Z~;w i~;, .. Improve vork of vage boards. Sov.profsoluzy 4 no.6:50-52 Je '56. (MLEL 9:8) 1. Starshiy inzhener otdela organizataii truda zavoda imeni Petroyakogo. (wages)  BRODSKIT, G.A. Uperlerice in using the AUh filter In resioving iron from water. Vod.1 san.tekh. no.8:31-32 1 155. MRA 9:3) (Filters and filtration) (Vater-Parification)  b v J, I ! ~ r% I i I- 't , BRODSKIY, G.A. (Kiyev) A well-less water post. Vod.i san.tekhn. no.9:29-30 S ;57. (MIRA 10:11) (Water-supply engineering--Apparatus and supplies)  ---- BRODSKIY, G.I.; ICREZHANNYYF S.B.; REZNIKOVSKTY) M.M.; SAKHVOVSKIY, N.L. E-~aluation of sef~lce life of protective rubbers. Trudy Nwach.- i:ssl. inst. shin. prom. no.7:78-90 160. (14M 14:8) (Rubber-Testing)  S/1 A051/AO29 AUTHORS: Brodskiy G.I - Sakhnovskiy, N,L.; Reznikovskiy, M.M.; Yevstratov, ~x, =~~ TITLE: Mechanical and Thermochemicall Destruction in the Wear c1' Pubber Under Various Conditions PERIODICAL: Kauchuk i Rezina, 1960, No. 8, pp. 22 - 29 TEXT: Brief reference is made -.-o the preTious theories on the wear mechanism of rubber described in Refs, I - 10. It was found that the relative role of the mechanical and chemical factors in the wear mechanism of rubber depends on the te,-t- ing conditions. On smooth surfaces with a low thermal conductivity the wear-cut 'in rubber takes place primarily according to the mechanism of thermooxidizing dest-ru2- tion. On rough surfaces it takes place mainly according to the meohaniEm of 'ne- chanical wear-out. The experiments were conducted on a HIMUn HMt11 (N-'r!S-hp lm"T) Dunlop-Lamburne- type machine. The various Types of abra-=�ve surfac;es selectted _'~ the study were: a s~mooth tin-plate, smooth plexiglas, i steel plate with spe-tially cut-out grooves on its surface, (the carbon blaok dosage was 50 weight parts to 100 weight parts of rubber), a plastic (vinyplast) plate, also wiTh groovee, a Monocorund 150 polishing skin and a 4-mm plate of hard rubber (hardness = 84, ac- Card 173  S11 ~8/60/0o/o,08/OC6/!~-15 A051/A029 Mechanical and Thermochemical Destruction in the Wear of Rubber Under Varlou,~ Con- ditions cording to shore). It was shown that the braking force F depends comparatlyt,41y little on the nature of the weari-ng-out surface and the composition of "he rubber. ,J The wear intensity evaluated from the volume loss per mivi. changes more signifl- cantly. It is deducted the wear index v, depends on the nature of the surface ani the nature of the surface material Just as much as the wear Intenzity, and _J_= characteristic only for a given friction couple. The investigated material's of t~ie abrasive surfaces fell in the following sequence acnording to increase In wear in- tensity: tin< plexiglas