SCIENTIFIC ABSTRACT BONDAR, V.D. - BONDAR, Y. M.

67882 Some Exact Solutions of the Equations of S/020/60/130/06/011/059 Compatibility for the Components of the Deform- B013/BO07 ation Tensor Under Simple Load first indices are linearly interdependent. If T11' ~22' ~33 are chosen as arbitrary functions, one obtains ~12 - a~jj~ ~ b~lj; 1 21 t~22; ~31 ~ 2. T33o T32 ' A ~331 'P13 ~21 - a T221 ti'23 = a b b - where a and b are arbitrary constants. This corresponds to the following values of the components of the tensor of finite de- formation (with arbitrary 0 E, 1 1 t22 33)1 E12 - !(a&-11 + 7 &22), 6 1(bs- F 13 - 2 lbF-33), F-23 2 a -22 + I F33) . There are b 2 Soviet,referenoes. ASSOCIATION: Matematicheskiy institut im. V. A. Steklova Akademii nauk SSSR (Mathematics Institute imeni V. A. Steklov of the kcademy of Sciences of the USSR) PRESENTEDt November 9, 1959, by L. I. Sedov, Academician SUBMITTED: October 29, 1959 Card 4/4  BONDARI V.D. (Novosibirsk) Tensor characteristics of finite deformations of a continuum. PrikI. mat. i mekh.-25 no-3:508-518 My-Je 161. MRA 14:7) (Deformations (Mechanics)) (Calculus of tensors)  BONDPR I . V. D. One representation of a tensor function. Dok3.. AN SSSR W no.1:16--*18 IT 161, (IMA 14 ' 11) 1. TTovosibirskiy gosudurstvennyy universitet. iradstavleno, akadavdkom L.I. SedovN7,. (Calculus of tensors)  BONDARIt V.D. (Novosibirsk) On the ponsibility of considering the deformed and stressed state of a medium as the initial state. Prikl. mat. i mekh. 27 no.1:135-141 -Ta-F 163. (MIRA 16: 11)  .,S/040 3/027/001/015/027 %36 08 4UrL MR. BonAar V. (Novosibirsk). TITLE: On - the ossibility of considering the stress-strain state of a medium: 4P ~he initial state PERIODICAL. I naya ikd' i' me Iriklad materipat Ichanika, V 27, no. 1, 1963, 135-14T TMM Using tensor mi3thods.1 the,huth6r investigates th6 mathematical- conse queue es--bf Considering -A medium as. a sccand ird-tial u stzite,.- A.. number of: coneltissions- -are ; draim as (corresponding to ph:~sical phenomena), may be ignored it is shoinn, their two first dcriva-_ f or -wc 1e that Mhen t4e , displacements and tives h resp6ct ~to' the cooidiriates. are all small, that,the dopen- Aence -of the maseive force - oiri the stress may be ignored. a brief discussion'is. igiven of an. elastic_'plastic mediura,' based on the -postu- late of D.Go DrucIter. SU M-UTTED 4uly 5" 196Z A:j 'Card l/V  B01ML111, V.G. GeIeBtita d6posit sasoclated w1tb kydrotbernal activity, of traps in the Siberian Platform. Zap.Vses.mIn.ob-va 88 no.2:177-180 '59- (MIRA 12:8) (SIberlan Platforirr-Celestite)  DERBAREFDR ER, M.I.; SIEREERENNIKOVA, K.L.; TERNOVSKIY, V.k.; Fririmali uchastiye; SHAROV, P.M.; NOVIKOV, L.Z.; LUr-,IY---, E.I.; P-IS'IE-N, M.K.; MRABIN, A.I. [de-ceaaed]; KGSTIN, L.I.- FROLDIT, V.P.,, MENEM, F.V.; GELIMMANOV S.G.; BONDARI V.G.- TIMHEYEV, P.I.; ~UNINA' L.V. MUKKOV F.F. T.Ye.; NUDELIMAN, V.G. Gasification of mazut wider pressure in a -stz--m-oxygen blast. Gaz. prom. 9 no.11:49-50 164. WIRA 17:12)  BONDARI, V.I. - Precision and smoothness of machining with a V.Kolesov cutter. Stan.i instr. 25 no.2:30-32 1 #54. (KWU 7:5) (Cutting tools)   AXCLIZIU. L.Ye.; BOROZDOV, I.A.; BEDILO, V.Ye.; TME F.R. Prinimali uchastiye: MMYAUV, P.R.; BRUMOY, N.V.; BUMI, V.A.; VAR VSM, I.N.; D=O, V.P.; TUMOV, V.S.; DUGIN, Ye.V.; IUKALOV, M.F.; IVANOV. P.S.; XONARSTA, V.F.; MONIN. M.I.; MOGILKO, A.P.; PANCH9WO. A.I., PCKnYUKOV, S.N.; MIKHODIKO, N.D.; RUBIN, I.A.; SIDMENKOO P.A.; TYUTYUHIK, Ye.I.; EDMINITSKIT, L.Ya.;..j301ffMR'q V.1 ;iKRIVT3OY, A.T.; LCKSHIN, V.D.; SDFITWO, N.P. RABIIIK43.~Z'-.. BOLDYREVA. Z.A.. takhn.red. (Types of mine croon section] Tipovye BachonM-a--garnykh vyrabotok. Moskva, Go9.nauchno-tekhn.izd-vo lit-ry po gornomu dalu. Voi.4. (GroEss section of mines supported by a aectional reinforced-concrete 'Lining of URP-11 panelB for l-, 2- and 3-ton railroad cars] Sechaniia vyrabotok, zakreplannykh sbornoi zhale-,obstonnoi krapliu iz plit URP-II, dlia l-, 2- 1 3,tonnykh vagonatok. 196o. 275 P. (MIRA 13:12) 1. KharIkov. Gosuderstvannyy proyektnyy inatitut Yuzhgiproshakht. (Mine timbering)  SEWO, M.F.; BONDAR', V.I. Inve!;tipating the averaFing of the thermoelectromotive force of naturnl thermocoup) es. Trudy KhPL Sor.mash. - - 19 no -5: 19-29,59. - (KRA 14:9) (Thermocouples)  :1111.1 1. VOLOSHINAP N.M., inzh.; BONDAP.I. V.1., inzh. Yenakiyevo metallUrgical plant. MetallUrg 8 no.9tr"-1-23 S 163, (MIRA 16tlO) (Yenakiyevo--Iron and steel plants)  BoNuR, . v. 4, .................. *Automatic and semi-automatic flux welding.* D.Vainboic. ReTieved by V.3ondarl. Avtom.svar. 6 no.4,.8Z-84 ii-ig '53. (MLRA 7: 11 1. Institut elaktroevarki im. Te.O.Patona Akademii nauk USSR. (Ilectric welding) (Taluboim, D.)  XAZIMIROV, AA.; B01MI, V-1h. Zou~le-arc welding 6f shoot strips on a -ego tio stand. Avtom. ever. 6 no.5:60-66 2-0 933. (K= 7:11) 1. Institut *lektrosvarlil Ia. To.O.Patona Akademii nauk UOR. (Steel-Welding)  -00 N D H 1i) V. vvn. AID F - 484o Subject USSR/Engineering Card 1/1 Pub. 11 - 13/13 Authors Ka,zimirov, A. A. and V. Kh. Bondarl Title Improved electromagnetic welding sets for assembly work Periodical Avtom. svar., 3, 102-107, Mr 1956 Abstract The two latest models of welding units developed at the Institute of Electrowelding im. Paton for the automatic welding of the metal sheets up to 20 mm thick used mostly in the shipbuilding industry are described. Five drawings, 2 graphs. 4 Russian references (1951-53). Institution Electrowelding Institute im. Paton Submitted 6 D 1955  18(5)~ 25(5) SOV/125-59-9-1/16 AUTHOR: Kazimirov, A.A., Candidate of Technical qciences, Bondarl, V.Kh., Meshkov, V.V., and lozovskiy,V.P., ngineers TITLE: Three-Electrode Automatic Welding of Pillet and Groove Welds under Powder Flux PERIODICAL: Avtomaticheskaya svarka, 1959, Yr 9t PP 3-12 (USTR) ABSTRACT: In large serial production of structures with long welds, such as beams, columns, tubes, wings, etc., the speeding-up of-the welding process plays an important role. This impelled the Institute of 'P-I-Ilectric Welding imeni Ye.O. Paton, to carry out systematic research on welding under forced conditions. In 1946-1948, the Institute worked out the process of automatic welding under powder flux permitting making the longitudinal groove welds at a speed of 100-120 m/hour. Later on, the process of double-are welding was introduced and Card 1/3 raised the welding efficiency up to 150 m/hour. In  SOV/125-59-P-11/16 Three-Electrode Automatic 15elding of Fillet and Groove Welds under Powder Flux 1955-1956, resenrch on technology of three-elec'Frode automatic welding of large-section double-T beams was conducted. On the basis of experiments, it was deter- mined that groove welding of beams having wallsides B-20 mm thick, ("Rig 1), can be accomplished by the three-electrode method at a speed of 100-180 m an hour. Three-electrode welding can be performed using a 3-6 mm electrode wire; for this purpose both direct and al- ternating current can be applied. Welding with the first electrode provides good results independently of wheftr its current differs from that of the other two arcs. The fi-rst arc heats the edges to be welded, the second and the third increase the depth and width of fusing; combined action of all tI-ree electrodes per- mits welding at high speeds, which are unattainable when other methods of arc welding are used, Tables 1 Card 2/3 and 2 give specific conditions of welding for two-si- ded groove-welds. The three-electrode process enables  29-59-09-1/16 Three-Electrode Automatic Welding of Pillet and Groove Welds under Powder Flux performing of high quality fillet welds at a speed up to 100 m/hour, provided the carbon content in welds is under 0 13'~,; the groove welding speed can be brought up to 1~0 M/hour. Automatic three-electrode welding is a variety of three-phase welding and possesses all the advantages of the latter. Chemical composition of the weld metal and its mechanical properties can be regu- lated within broad limits by using electrodes of diffe- rent makes and diameters. There are 4 graphs, 10 tables 3 diagrams and 5 references, 4 of which are qoviet and 1 German. ASSOCIATION: Ordena trudovogo krasnogo znameni institut elektro- svarki imeni Ye. 0. Patona AY ITSMI? (Order of the Red Card 3/3 Banner of I-abor Tnstitute of Electric 71elding imeni Ye.0. Paton AS Ukr SSR) SUBMITTEM: April 8, 1959  ACC NRt AP6012433 SOURCE CODE: UR/0181/66/003/004/il AUTHORS: Ashe, M.;_ Bondar, V. M Sarbey, 0. G. ORG: Institute of Physics,AN UkrSS#,_,Kiev (Institut fiziki AN UkrSSR) TITLE: Dependence of the piezoresistance of germ6nium on the electric field SOURCE: Fizika tverdogo tela, v. 8, no. 4, 1966, 1188-1192 TOPIC TAGS: germanium, single crystal, piezoelectric property, carrier scattering, pressure effect, electric field, semiconductor band strucbze ABSTRACT: The purpose of the investigation was to check experimentally, in the case of aermanium, a hypothesis advanced in an earlier paper (PhYs. St. Sol.'V. 11, 255, 1965) that in semiconductors in which the intervalley scattering does not play an important role in the electron- lattice energy balance, the piezoresistance should have a nonmonotonic dependence on the field. To this end the authors investigated samples of n-type germanium, cut along the direction from a single crystal ingot with 01 electron density 3.25 x 10 13 err,-) and mobility 2. 6 x 10 1i cm 2/ v-sec, at 77K. Thle electric field was applied along the crystal and its deformation was effected in the same direction. The field was applied Card  ACC NRt AP6012483 2S Fig. 1. Dependence of piezoresistance of n-type G on the electric field intensity. 1 -- Experimental, 2 and 3 -- theoretical, based on the assumption that the tempera- tures and electron concentrations in the nondeformed state of the crystal are the same (2) or.different (3) in all the val- O.S leys. fa 10.3.. f03 10" E. V/cA in the form of rectangular pulses of 0.2 ~Lsec duration and repetition frequency 10 -- 15 cps. The dependence of the resistance on the pres- sure was linear up to 300 kg/cM2 and the experiments were carried out in. the linearity region. The results (Fig. 1) confirm the theoretically deduced nonmonotonicity of the piezoresintance. This confirmation, bow-' ever, is only qualitative, and quantitatively the minimum:of theoretical curve, and the experimental change in the piezoresistance due to the  ACC NRt AP60121183 field is larger than called for by the theory. The discrepancies are iscribed to the simplifying assumptions made during the calculation. Drig. art. has: 4 figures-,and 3 formulas. SUB CODE: 20/ SUBM DATEE: 24Aug65/ ORIG REF: 001/ OTH REF: 007 0 Card 3/3  BODAR' V.M,; SENI, Z.P., kand. tel-Im. nauk Autcmatie control of kiLns with walking floors for porcelain firIng. VU-,. Bandarg Z.P* Sento. Leh* proate noa-':'~c66-68 Ap-.Te'64 (MIRA nklt7)  LYUDVINSKIY, A.I.; ROMANOVSKIY, L.B.; KOREN, L.N.; MISHCHENKO, V.S.; FROLOVA, A.I.; KOTIK, P.L.; IgiIL'KO, M.M.; MOLCHANOVA, MJ.; VINOGRADOV, N.M.; FYIAYEV, S.V.; BEYGUL, Ye.I.; ROKHLIN, N.A.; MASYUKOV, N.T.;,BONDARI.,, V.I., In the country's steelmaking plants. Metallurg 9 no.q: 16-19 S 164. (MIRA 17:10) 1. Saldinskiy metallurgicheskiy zavod (for Pylayev). 2. Zavod im. Dzerzhinskogo (for Beygul, Rokhlin). 3. Yenakiyevskiy metallurgicheskiy zavod (for Masyukov, Bondart).  POLETAYEV, A.P.; BONDARI V.I. inzh. -1-11-111-1 Yenakiyevo Metallurgical Plant. Metallurg 9 no.llzl7 N 164. (MIRA 18:2) 1. Starshiy master Yenakiyevskogo metallurgicheskogo zavod (for Foletayev). 2. Byuro tekhnicheskoy informatsii Yenakiyev- skogo mA-tallurgicheskogo zavoda (for Bondar').  ACC M AP6026?27 SOURCE CODE: W0181166100810087F511 AUTHORS Sarbeyt 0. G.; Tomchukj, P. ORGI Physics Institute, AN UkrSSR, Kiev (Institut fiziki. Aff, JMA,!~9;0 MISS Dependence of the anisotropy of scattering of current carriers in n-Ge on the impurity concentration SOURCES Fizika tverdogo telap ve 89 not 8p 19669 2511-2513 TOPIC TAGS1 semiconductor carrier,, germaniwn single crystal, carrier scattoring ABSTRACTI The anisotropy para ter K = ji.L /pIlwas measured at the liquid nitrogen temperaturo on IsiLnfle cl- *talsif n-germanium doped with antimony. The carrier con- js centrations were between 3 x IoI3 and 8 x 1017 cm-~% Fig. I shows the measured aniso- tropy of mobility versus the carrier concentration in n-Ge. Curve I represents re- sults obtained without considering interelectronic interactionp and curve 2 shows them Ifith this Interaction tRken Into account. Vhth the exception of very high concentra- tions (n - 5 X 1017 am-3), a good agreement was obtained between the experimental re- sults and the curve calculated by allowing for the electron-electron inter.~ction. The value of 'rr") /r(^) , which characterizes the anisotropy of the relaxation timo'for 4 1 acoustic scatteringg was found to be 1-52. Authors thowc V. N. Vasilovskiy and A. N. Kvasnitskaya for supplying certain germanium samples and V.--M. Vsetskly for his assisto Card 1/2  ACC NRi Ap6o26727 ance in the measuremenbs. Orig. art. hast I figure. 12- Fig. 2 ib .10 to SUB CODEt 20/ SUBM DATES 2OJan66/ ORIG REF: 001/ r--Iq REFs OC4 I Card 212  -BONDARI, V.N..(Bondar, U.M.] Effect of the time factor on the permeability of concrete, Veotsi AN BSSR. Ser. fiz.-tekh. nav. no.2:130-135 164. (1L1 RA 18: 1)  ASHVERDOV, 1.14~; _BONDARI, VA. Effect of stuMletural and +-,--cbnolog4Lea2 factcrs :I--n '.I,e perm-eability of concrete. Dokl. AN BSSR 8 no.9~,584-580' S f64~ (Ml-RA V.-12)  GORBACHEV, M.S., doktor med.nauk, BONDARI, Y.P. Use of neocide in t realring brain tumors. Vrach,delo no,3$235-237 Mr'58 (MIEU 11:5) 1. llcyrokhirurcicheBkaya klinika Ukrninskogo nouchno-issledovatell skogo , -psikhonervologicheskogo institutn i lhar'kovskaya psi- khonevrologicheskeya bollnitsa. (ANTIBIOTICS) (BUM-2UNORS)  BONDAR', V. P.: Master Med Sci (diss) -- "tvakatl-o-xygen and the functional state of the kidneys in patients with* brain tumore". lOiarlkov, 1959. 14 pp (Kharlkov State Med Inst), 200 copies (KL, No 14, 1959, 123)  BONDARI, V.P.;,KOANOV, V.M.; SIMANOVSKIY, Yu.S. Miniature transformer torque transducer. Izm. tekh. no.g: 23-24 S 163. (MIRA 17: 1)  17( SOV/177-58-5-29/30 AUTHOR: Bondarl V.S., Lieutenant of the Medical Corps TITLE: The Image of the Military Medical Assistant in the Fiction (Obraz voyennogo felldshera v khudozhestvennoy literature) PERIODICAL: Voyenno-meditsinskiy zhurhal, 1958, Nr 5, pp 93-95 (USSR) ABSTRACT: The author reports on the heroism of Military Medical Assistants during the Great Patriotic War. He mentions A.V. Zubkov, Military Medical Assistant, Lieutenant of the Medical Corps, Anatoliy Kokorin, Military Medical Assistant, Zinaida Tusnolobova, blaster-Sergeant, who have been awarded the title "Hero of the Soviet Union". Many authors,, including K. Simonov, P.Y-e. Beylin, Hero of the Soviet Union V. Maksakov, A.Koptyayeva, Arkadiy Korovin, 0. Dzhigurda, A. Zaytsev and G. Skullskiy, have described heroic deeds of many other Military Me- dical Assistants. Card 1/1  SOW 137-58-7-14492 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 7, p 81 (USSR) AUTHOR: Bondar', V.V. TITLE: A Unique Case of Current Distribution in an Elec~.rolytic Bath (Svoycobraznyy sluchay raspredeleniya toka v eicktrolite) PERIODICAL- Soobshch. o nauchqk2-is sled. rabotakh chlenov Prjrnorsk. otd. Vses. khim. o---oya im. D.I. Mendeleyeva, 1957, Nr 3, pp 197-200 .;? ABSTRACT: Preliminary communications are presented on experiments in electrolysis with separation of the cathode and anode spaces by a partition with a hole. In some cases the partition used was a dielectric and in others it was a metal. It was found that when the electrodes are at a short distance from a partition with a round hole (5-15 mm.), the deposit on the cathode has a central spot around which there is a number of concentric circles; if the aperture is in the form of a slit, there is an oval spot and a series of concentric ovals. The phenomenon de- scribed was observed independent of the metal (Me) precipitated and the composition of the electrolyte. The anode also revealed Card 1/2 uneven dissolution of the Me, with formation of rings or ovals.  SOV/ 137-58-7-14492 A Unique Case of Current Distribution in an Electrolytic Bath A dielectric partition in electrolysis behaves like a flat dipole electrode. A metallic partition with a hole also behaves like a dipole electrode, but certain deviations from standard behavior are observed in the vicinity of the aperture. N. P. 1. Electrolysis --Test results 2. Cathodes (Electrolytic cell)- -Performance 3. Anodes (Electrolytic cell)- -Performance Card Z/2  STIA RSHTM, I.ya.;BPNWI, Y.V.; MALAKHOVA, S.I.; rgauwvA, A.T.; TSAREVSKAYA, Ye.A. Now method for the determination of nitrates. Dokl. AN Tadzh. SSR 1. no.2:11-15 158. 1 (MTRA 12~=1) 1,Tadzhikskiy sallskokhosyaystvennyy Institut. Predstavlene akademi- kom AN Tadzhiksko;r SSR S.Yusupavor. (SoilR--Analysis) (Nitrates)  -;C" V/ 11 Yu. M. olilk-arov . , T IT L 13' The -,Ihenomencm of Zone '~-Iormation on LIccts-o~11e* in the rocess of the Crystallization of ',,metals ( --avleniYe zono- ob:f-~.-z,ovani,va na elcktrodakh v protsecLe e lektrolrist all -.;Zatsi--' Met-al lov ) P7,RIODICAL: "rik'.Rdy 4'.kademii naull, S--~'SP, 1`-'-~50, Vol. 12o, lir -i, pp ABSTRACT: Tile authors investigated. the cloctric mreci-it,-:tJon c-f .2.1- loyo (73ii-71b, Cu-Zn, Cu-Bi , Cd-T,i, ::s v-'e] -3 of p;re Bi and others) and of the dissolu- Co Zn metnls Cu 11i ., , , , tion o' copper on the anode under conditions nirztlogcvto f tho~-e diuring thc~ exDt~rimerts C-ut bz.:r . 1,2l~,cal t --~ef In all casec diqt-'nc4-lv :*,c.!ce,-!' -'-,iio - I , I zones .,:ere forineO. According to rndiogv~rhicnl tosts the pre- of tl-~e alloys --;n the various nones by vhase com-ros-.t,*(-,n. The nonun--f,~r:,,j c-wrrr~nt oil ive~- rise to di.~'fertmt vi on ~,he c e e: b- 1.'~ in the center and on the periphery of the e,,.uthors carried out measurements of the potential of the cathode. J.n Card 1/3 11,a v:.-tvioua rarts. i, diagram shows the curves obt~-.nid for  20-3-32/67 The Pheno-menon of Zone Formation on Electrodes in the Prosess of the Electric Crystallization of i.etals the change of potential with increasing distnnce -f-om the center of the cathode. The material found experi..-.entally seems to indicate that transition from one vono to another takes place at certain strictly dafimible potentials only. The character of zone distribution depends on the cona~or-;Aion of the electrolyte -as well as on the distribut"on o' t-he current on the surface of the elect2-ode. A" So 4n tile Co-,, Se of tho- electric precipitation of pure mietals the form-ing- of zones may be observed. In this case the zones are dic'14-n~;uieh- ed from one another by the size, orientation, 1-nd by the nature of the boundaries of the crystals contained in ther.. in the case of the deposits of pure metals the forming o-f zones is apparently due to the difference in the electro- chemical conditions of the procipitation. 77here are *21 figure!!, 1 table, and 8 references, 3 of -..h4.ch are .-Ioviet. PRESENTED: October 4, 1957, by 4,. N. Frumkin, Member, ~cndemy of Sciences, U33R Cn-~,d 2/3  wl:,. 17iI'"~- I ~'i_-3- 32/67 The Phenomenon of Zone Formation on Electrodes in the 11rocess of the Eleotrio Crystaliization of Metals SUBMITTEN October 4, 1957 1. Electrodes--Structural analysis 2. Electrodes-Radiographic analysis 3. Alloys--Electrolysis 4. Metals--Electrolysis 5. Anodes--Properties Card 3/3  5W SOV12c,-1 23-4-41 /53 AUTHORS: Polukarov, Yu. Mt., Bondar', V. V. -------------- -- TITLE: The Dependence of the Structure of the Surface of Electrolytic Deposits of Alloys on Their Phase Composition ('?avisimost' stroyeniya poverkhnosti elektroliticheskikh osadkov splavov ot ikh fazovogo sostava) PERIODICAL: Doklady Akademii nauk SSSR, 1958, Vol 123, Nr 4, PP 720-721 t (USSP) ABSTRACT: Extensive material has hitherto been collected concerning electric deposits of alloys. However, the influence exer- ciEed by structural factors and the character of component interaction in the formation of alloys (by uhich the physico- chemical properties of the coating are, to a great extent, determined), have received but little attention. According to the results obtained by the present paper the forming of the non-equilibrium phase of an oversaturated solid solution is connected with a considerable structural variation of the surface of the deposit. In order to reduce the influence exercised by secondary factors upon the surface structure of deposits to a minimum, investigations were carried out on Card 1/4 such metals as permit common depositing, without the addition  SOV/20-123-4-41/53 The Dependence of the Structure of the Surface of Eluctrolytic Deposits of Alloys on Their Phase Composition of surface-active or complex-forming substances to the solu- tion. The system copper-bismuth is particularly well suited for this purpose. When using the solution Cu(Clo 4)2 o.6 N, 13i(ClO4)30-4 N,pH 0.6 (solution I), alloys were obtained which contain the phase of the oversaturated solid colution of biv.uth and copper (with a correspondln~ increase of the 0 R). The bismuth copper lattice parazz:euer up to 3.635 -- 3-645 content in the sol4d solution increased vith current density and, accordinla to the data of radiographic measurements, it attained 12 per cent by weight. With a further increase of current density, the lattice was disturbed to such an extent by the increase of oversaturation, that the lines on the X-ray picture vanished completely. A figure shows electron- microscopic pictures of deposits of alloys with different bismuth content. With an increasing oversaturation of the solid solution, the surface of the deposit becomes smoother, and if aversaturation is considerable it becomes ;,-lossy. The deposits forming in a solution Cu(Clo 4)2 0.2 111, Bi(ClO 4)3 Card 2/4 0.8 N, pH 0.6 (solution II) are a mixture of pure copper-  SOV//2o- 12 5-4-41/53 The Dependence of the Structure-of the Surface of Electrolytic Devosits of Alloys on Their Phase Composition and bismuth crystals. The derondence of de,,-.,ogit structure of an alloy on its phase composition is confirmed also by the data on copper-tin and tin-lead alloyu. The third firure shore a pliotograph of the surface of the deposit of the alloy copper-tin. This deposit was of a dense and finely- crystalline nature. When obtainin.g. a tin-lead alloy from the,-olution Sn(Clo ) 0.8 N, Pb(ClO ) 0.2 11, lIC10 1N, no form- 4 2 4 2 4 ing of oversaturated solutions was observed ac(=ding to the data obtained by radiographic investigations. Deposits had a coarse-crystalline structure. The forming of oversaturated solid solutions exercises an essential influence upon the struc- ture of electrolytically deposited alloys in that it promotes the formation of finely-crystalline deposits. Finely-crystal- lin,~ and glossy deposits are thus to be exl-,ected Yhenever electrochemical conditions promote the production of over- saturated solid solutions. There are 3 figures and 11 ref- erences, 6 of which are Soviet. Card 3/4  "JOV/20-1,',?--4-41/53 I qlh~i Dependence of the Structure of the Surface of Electrcilytic DePositB of Alloys on Their Phase Composition ASSOCIATION: Institut fizicheskoy khimii Akademii nauk SSSR (Institute of Physical Chemistry of the Academy of Sciences, USSR) PRESENTED: July 14, 1958, by A. N. Frumkin, Academician SUBMITTED: June 21, 1958 Card 4/4  BONDARI, V. V. Cand Chem 6oi -- (diss) "Study of conditions determining the phase structure of eleetrodeposited alloys." Nos, 1959. 14 pp (Acad Sol USSR. Inst of Physical Chemistry), 150 oopies (KL, 50-59, 124) -3-  ALEKSEYEVSKIY, N.Ye.; BOINDARI, V.V-.-; POLUKAROV, Yu.M. Superconductivit.y of electrolytically deposited coppe.--bismuth alloys. Zhur. eksp. i teor. fiz. 38 no.1:294-295 Jan '60. (MIRA 14:9) 1. Institut fizicbeskikh problem AN SSSR. (Superconductivity) (Copper-bismuth alloys--Electric properties)  l--CjlUT,*,,-f-ROk7, Yu,m., GORBUNDVA. K.M.; EONDARI, V.V. Ce-7`lain aspects of the theory of electrodepositic.-I of Part 8. i"hur. fiz. khim. '116 no.9,.1870-1876 S 162. (MTFt, 1 -'?6) 1. Ingt-I'llutt fizlc-baskoy khirdi AN ~ZSR.  .1 BONDARIP--V.V.; IMINIKOVA, M.M.; POLUKAROV, Yu.14. ...... Electrodeposition of-hard rilagnetic alloy6; preliminary report. NTI no.1:28 164. (~ffRA 17:3)    -007 SOV.-:- Card 3/3  bd/l ACCESSION NR- 1146-. _S AT5004 ''/0000/64/000/OOD/0124/0127 Vq -M `ni~cr 1101UMrov Yu. 14, THOR: Zondar' AV Ai-- V LE Ally--.fiard a-ll-o S.- Part !I. Electr6dapo iu,40 y of cobalt-t tickel-phosphorus and cobalt-maganes -p~~horus alloys 41"/ SOURCE: Ali SSSR.1 Institut '-,hnoy- in t ii. Informatsionnyye si nau. forma stemy (In- formation systems). ',Moscw,;, 1.964, 124-127 TOPIC TAM magnetic! memory, ms~gnetlcally hard alloy, alloy electrodeposition, cobalt alloy, nickel alloy, p~ios,phorus containing alloy, manganese alloy, alloy magnetic property 'ABSTRACT: For the purpose of expanding the assortment of alloys which may be 'used in information recording (computer storage applications), and also of de- keloving electrolytes to operate in a wider pH interval, the authors 6tudied the e1fect of nickei and manganes,B ions on the electrodeposition of a Go - F alloy. A number of bibliographical ref~trences (most of them American) are cited In a dis- cussion of the maguetic properties of Co - Ni alloys obtained by the eleccrodepo- sition method. The authors call attention to the fact that Co-INI-P alloys, chmi- cally obtained, possess a coercive force of 4-14 oersteds and contain about 5Z F LCard 1/3  L 32904-65 1-ACCESSION NR; AT5004146. and different-quantitiea of nickel. and cobalt (these alloys have been used in the manufacture of memory elements 44Ln high-speed computers). An investi.-ation vas made of the conditions for the electrodeposition of Co-NI-P and Co-Mn-P alloys, and the effect of different factors on the magnetic properties and composition of the alloys was studied. For the electrodeposition oi a Go-M-P allo7 havirig a coercive force of 1000-14000 oersteds and a rectangularity raccor nf 0.7, an electrolyte of the following composition is recommended: Cocl ' DE20 100-200 g/l; 2 'NiC12 - 6H20 140 g/l; or NaH,)P02 25-100 g/l. 74 The pR of the electrolyte is 24563,* b afurd Is 40C. For the electrodepo t e te~peT sition of a Co-Hn-P alloy havirqj a coercive force of 500-900 oersteds, residual inductance of 6000-9000 gauss and rectangularity -factor of 0.65-0.85, the follow- ing electrolyte is recor=ended: COM 6H 0 or COSO - 7F 0 2G0-400 g/1; 2 2 4 2 MnC12 41120 or MnSO4 4H20 20-30 g/li  .L 32904--65 ACCESSION NR! M504146 A- bu f e ridm ix t ure' g/1- Trilon; B-:maV -~be- added to the electrolytes the' sition of t1he alloy occurring at*.a temperature of 18-40 C, p'll 1.8-5. The current 3 iiRureB. efficiency of the alloy it, about,10.0%, (zabalt anodes). Orla,; Art, bas, j'ASSOCLATION: SUMITTED! 08Oct64 ENCL, 00 SUE CODE 124, DF ND REF SOV. 006 OTHER: 008 Card 3/3   TITLE: A method for i,of a magnetic ternary all ., 0183S 4-8. No, 169371 SOURCE: Byulleten' izolbrsteni7 i tovarnykb znakov, no. 6, 1965, 101 TOPIC TAGS: electrolysis, magnotic alloyj, cobalt phosphorus, manganese, amonium compound, sodium compoimd q'ri I O~-13-1~ -uhi-s-Author-Cortiftot it;L0 of a magnetic ternary alloy-cOiita ~Cd&~lt and ~bosphorus. To obtain films of alloy cobalt-manganese-phosphorus, the process is conducted att. a tem-parrature 18-400, with current density of 1-10 amp/dm~, and a PH Of 1.8-5. The elacl.-ro-11-3 .Y contains sulfuric acid or chlor'-ne salts of cobalt (200-300 g/~iter), of manza- nese (20-40 gAiter). armonium hypophosphate or sodium hypophasr:hatq g/liter), and Trilon B (10 g/liter). ASSOCIATIO.Ni none SUB=D: 17.Tu:L63 F21CL 1 00 SUB GODE, GO NO REF SOVz 000. DTHERj 000 '.C r i .~ a-d  BONDARIP V.Vl, lnzh.; KULEV, G.B., inzh. Application of polyethylene for the protection of pipelines against corrosion. Xhim. i neft. manhinootr. nos605 D 164 (MIRA 18:2)  j_�3 ~7. -T t)/ b JD ACCESMON NR- APS011420 1WO073/65/031/OD4/0359/0363 l AUTHOR: GaluBhko, V. P~., Bondar ., V. T. M T IT LE: Anodic behavlorof alum1mum under electr-wlishim conditions - ------ -7 :1 TOPIC TAGS:. aluminum lishin anode potential, polarization, curve, al ummum ox1de lay of,the,shodlc behavior of aluminum in -ABSTMACT: The artlole !B,devbted to. a. study i d l l S eterm ning ectro ytes, aimed at 04 - H,3P04 and H2SO 113704 - CrO3 mpeous e 112 l d U l ti bl ti f th i l; ons on curve an a so por ar za ons o the stable and unsta e st onary por e po urves viere where the process of electropolishing takes place. I - V, (P - t, and V - t c plotted. All the I - 1P curves dlBppUy three diotinct P01tiOnB (see Fig. 1 of the Enclosure) in the first (a - b), the current density Increases with the anode potential; the second (b - c) corresponds to the unstahle anode potential, where a sharp rise in anode 1*4ential -at! is associated with a smooth rise In current density; the third which has a nea ve slope, is associated -mith oscillatory processes (prenwmced fluctuation of the amde pDtentlal and current intensity in the call). It ww found that the electropoltshing of aluminum could be carried out beBt in the region of the portion having a negative slope: at the start of athis ''MME NP 0,   -,,77  BONW-RI, V.V.; IELINIKOVA, M.M. Mechanism of the eleatrodeposition of a cobalt-phosphorus alloy. Zashch. met. 1 no.5630-533 S-0 165. (MIRA 18,9) 1. Vsesoyuznyy institut- nauchnoy i teldinicheskoy informatsij AN SSSR.  L 3588-66 EV1T (m)/EVIP(i)/EVIA(~)/EVIP(t)/ErIP(z)/EI'IP(b) - LJP(c) -JD/3V ACCESSION NR: AP5022661 UR/0365/65/001/M5/0534/95 621.357.7 AUTHORt Bondar, V. V.-; YeVnikova, M. M.; Polukarov, Yu. M.- R' 1,75-11 3-~ YV, TITLE: Electrodepositioty of hard magnetic Co-Ma-P alloys 77 -j7 SOURCE: Zaschita metallov, v. 1, no. 5, 145, 534-538 TOPIC TAGS: cobalt alloy, manganese containing alloy, phosphorus cont-, alloy, magnetic alloyA'balloy electrolytic deposition, electrolyte cowp,. alloy film magnetic property ABSTRACT: Experimnts have been made to determine the optimum conditions for electrodeposition of thin films f Co-Mn-P 'lloy with high magnetic roperties. copper rods or foO ~T-ph..phfgus bronze foil with an area of 4 cm , were used as cathodes, cobalt or platinum were used as anodes, and the electrolyte temperature was varied from 20, 40, and 60C, electrolyte acidity (pit) from 1.1 to 4.8, and current density from 0.5 to 5 a/dm2. The best electrolytically deposited Co-Hn-P films - about 10-V thick, with a saturation induction Bm of (8-11 _103 go), x a residual inSuction B of (6-7), x 103 &a, a coercive force H of 800-6000C r c and a hysteresis-loop rectangularity factor B J%ranging from 0.65 to 0.85- - were obtained with an electrolyte containing 200 gR Cl2-6H20$ 25 g/1 MnCl2.4H 20, Card 1/2  L 3588-66 ACCESSION NR: AP5022661 25 g/l NH4H2PO2-H2O, and 10 g/1 Trilon "B"; the electrolysis conditions were*, pH 1.8-4.8, teeperature 15-50C, and cathode current density 2.5-1.5 a/dm2. A unique feature of the electrolyte is the wide pH range in which deposits with high magnetic and decorative properties are obtained'. Orig. art. has..,. 4 figures and 3 tables. RG I ASSOCIATION: vsesoyuznyy institut nauchnoy i tekhnicheskoy informatsii Akademii nauk SSSR (Ali-Union Institute of Scientific and Technical Information, Aca~~em.. SR)- f Sciences, SS T?r~ut Mcheskoy k0gi INadem na R F_41sical Ghe tr 4 cgdemy of-Sc ences. SSSR) SMITTED: 20Jan65 ENCL: 00 q SUB CODE: W1,GC 'ATD NO REF SOV: 010 OTHER: 005 PRESS:-~,//,~ fF dzl~L Card  ACC NR, AP6021486 SOURCE CODE: UR/0413/66/ooo/011/0128/0128 INVEWMR: Rabkin. D. M.; Yagupollsknra, L. ff.; Langer, N. A.; Dovbishchenko, 1. V.; I Nikitina, A. V..; Zotova.LL. M.; Martynova, A.; Yelagin, V. I.; Ishcbenko, A. Ya.; i ~Bondarl. V. V&"_ ORG: none TITLE: Filler-wire for &=n~shielded arc weldi' of aluminum_~ 7Class 49, No. 1824871 Institut - elek [announced by tho Electric WeldinR In*titute_jpL.,_Xq tro varkt o. ii, 1966, 28 SOURCE: Izobre~teniya, pronyahlennyye obraztsy, tovarnyye znaXi, n' TOPIC TAGS: welding, aluminum vNIMMMg. arc welding, argon.,,-1 i welding wire, aluminum wire, -, - ", a &$-1WW;AL. );rAdb ft-44-A4-~ ABSTRACT: This Author Certificate int fille -wire for argon-shielded'ai~e- Velding of aluminum. To improve the veld pqrrosion resistance, the wire contains 0.8-1.2% qbm1w and O-T-1.2% zirconium. IND) SUB CODE: 117 SUBM DATZ t 25Dec63/' 7ATD PRESS - 11, 13/ cow 1/1 um 621.791.753.93.042  BONDAF~ Ir.V,; MELAPED, A.V.~ STAROBINSIKh, R.Kh. Anticorrosion measures In the shops of coke-oven gas purification by monoothylamines. Khim. prom. [Ukr I no.4-.73-75 O-D'63. iMTRA 17t6)  SHULITS, G.E.; BDND,ARI, V.V.; FEDLUVA, A.P. Effect of-foliar application of nitrogen fertilizern on the oxidation-reduction processes in'cotton leaves, Trudy Bot. inst. Ser. 4 no.16:64-74 163. (MIRA 17t2)  BONDARI, V.vo Case of torsion of the omentum. Nov. khir. arkh. no-3-.92 IAY-Je '60. (NI?A 15:2) 1. Khirargicheakoye otdeleniye Ulanovskoy rayormoy bollnitsy Vinnitdkoy oblasti. Adres avtora: Vinnitskaya oblast', s.Ulanov, rayonnaya bollnitsa. (MENTUll-DIS EASES)  Rare case of strangulated inguinal interstitial hernia. 1,ov.kh-Ir. arkh. no.l*.80-81 162, (14IRA 15:8) 1. Xhirurgicheskoye otdeleniye Manovskoy rayonnoy bollnitsy., Vinnitskoy oblasti. (HERNIA)  POLUKAROV, Yu.H.; GCFLBUNDVA, X.M.; Some problems in the theory of the electrodeposition of alloys. Part 7: Investigation of the phase-structure of copper-biewth alloys in relation to the electrochemical conditions of their production. Zhur.fiz.khim. 36 no.8sl661-1666 Ag 162. (KRA 15:8) 1. Institut fizichaskoy khimii AN SSSR. (Bismath-copper alloys) (Electrochemistry)  0 3/076/-2/036/005/001/011 B101/B102 AUTHORS: Polukarov, Yu. M., Gorbunova, K. M., and Bondarl,*V. V. Noscol~,) TITLE,: 6omp problems of the.alloy electrode-position theory. VII1. Study of the dePendence of copper alloy phasT structure on the electroche:nical c.ofiditions of depo'sition P-4010DICAL: Zhurnal fizicheskoy khimii', v. 36, no. 9, 1962, 1870 - 1876 TEXT: The electrode-position of supersaturatad solid solutions of lead, thallium, tin, or cadmium in copper from solutions' of perchlorates (Pb-Cu, Sn-Cu, Cd-Cu) or of sulf--tes (Sn-Cu), or nitrates (T1 - Cu) vas investiEat- ed. in all cases, the deposition of Pb, Tl, 6n, and Cd-started at morp positive -po+entinls than would correspond to the equilibrium potential of these 17let,113, and the lattico constant of the copper vins greatly expanded. The solid Sn-'Vu solution contained more than 22~0~ Sn, the lattice con3tant was 3-75.1~, and at a cathode potential more positi ve than -130 mV the CU Sn phase (hiCh-tomperatUre 6-phasc) v;nB formed. The solid Cd-Cu 31 Card 1/2  1-)/076/62/0361/009/001/011 Sonic proble-iis of the alloy ... B10I/BI02 ' Cd, the :naximum lattice constant ,r~.as so-,utiori cnnUdined -161;j 3.716 h At -0-350 V. 'ilje siqper~;lt-jration ob;,c-rvorl in explained as follovis: 0-xinr, to hic-h ovi!rve-tare, a -Ictive oil I.-ittice is formed in which t.';-!U (-.'ocltro- nc&ati-,rL- mel,:tls hnvc hiC,~cr soltibility, so that the separation pctelilial becomes more positive. 1he lattice, then loses its excuss one.rry, and a swoeraalu;,,~Iccl sc-lid soliition i's forned. The supern,zturation depencIp on the uatfn-U~ uvrrvoltn~,e nfJaini-m, ViiD -- '00 ;,,iv with ~tnrj 0 electrodepusi.tion. There are 4 A630GIATIC,'.,*: Alvilei:.iya nau,-- SSSR, 1not.ihat fizichcsl~oy Ithindi (AcademY of Institutf: Of Hlysical Chemistry) JeDtembcr Card 2/2  YP-'3HC.HENY,O.t AcAos gorrly3r inzh.; BOXF.Ans I .~ - ~-'- , Sr, t ~, BOND L API V.Ya., studen t Increasing the output of 41 trad. RGRI no.15253-59 16the IneAlUJOS 61.r'i.p wine. SUr. nauch. 3. (MTRA 17.-8)  BONDARI, Ya. [Bondar, IA.] The best people of the Interfarm building organization. Sill. bud. 12 no.8&6 Ag 162. (MIRA 15:9) 1. Sekretar partorganizatsil mizhkolgospbudu Yemilvchinstkogo ra,yonu, Zhitomirolkoi oblasti. (Collective farms--Interfarm cooperation) (Emiltchino District--Farm buildinga)  1. TOIMPNt N. A, ~ MAMOV, F & YA a j w6iffAd- -Y" ih- I 2. USSR (600) 4. Aluminwa Silicates 7. Structural diagram of the ternary system RaO-A1203- SiO2. Dokl. AN SSSR 89, no. 1, 1953. 9. Monthly L-ist Lf Russian Accessions, Library of Congress, may 1953, Uncl.  + ture of USSR Inst. of Silicate Wi (Dipl.-Ing., Leningrad) ntry) and BON 1, Y. A "The Influence of Calcium Fluoride on Crystallization Characteristics ir the System CaO-Al203-S'O;>"- paper subriAtted at European Assn. of Ceramics, Sixth Intl. Ccramio.:Congress - Wiesbaden, GFR, 14--l-0 Sep '58. C- ',e00,828, M~ 25 July 1958.  -BONDARI, Yelena Mikhaylovza; BRAGINA) L.F.# red.; ZAYONTS, L.A., . I I (pbqaibllity of cultivating the most frost resistant European grape varieties in Moldavia without covering them in winter] 0 vozmozhnooti Iculltury nai~olee morozoustoichivykh sorotV evropeiskogo vinograda v Moldavii bes ukr7tiia na zimu. Ki- shinev, Izd-vo "Shtiintea,m'1161. 73 p. (MIRA 16:2) (Moldavia-Viticulture)  32750. Rezistentnoet' gryz=cy k propgatu Okrysid". Izvestiye turkn, filiale akad. lauk seer, 1949, No. 1, a. 44-47 SO: Letople' Zhurnallorkh Statey, Vol. 44, Moskva, 1949  U&UAWiolne Rodents Apr 49 Medicine Taxonmy "Discovery in Turkmen SSR of Now-Type of Jerboa (Mingaroo House) of the Genus Jaoulus NrxI, (J. Turomenious Sp. Nor., mm=mjift, Roclentia) B. S. Vinogmdor, Te. P.* Bandar 1, 4 pp "Dok Ak Nauk SSSR" Vol IXVI No 4 In 1947, Ye. P. Bondarl discorered new form of jerboa in Rebit Dag region of Turkmen SSR s type is related to genus Jaculus Zrxl., r4;prT=i39nt- atives of which pre7iously bad been found only in North Africa an& Asia Minor down to southern Iran. Submitted by Aced Ye. 1. Psylovskly, 29 jam 49. Ar 41149T54  I In-act- ct -0o'), et, 'fns var Tr. (2!9 specics P'bstlact to the st-Lidiecl) includ"116 TI or z! Alith 110 oil, fetc - C" Cane "0.0 of land-0 I ti.-ven hLlb'!t-,%t!()" I d at t..O" of soecies i c !.;Or I I- ~ cl nev LTIffol"natioll On- ilolov an speciec of on aYc-' - '.L ' iv en ul ident-ill-Yi"C' Card 1/2 -V O"'s ;Ylstitutio'l"' -11" 34A65)4 fleas.). Card 2/2  3 M ARI. Ye.P., inshener. , Irecting transmission line poles over the Usa River. Nov.takh. I pared.op. v strol. 18 no.il:19-22 N'56. (MLRA 10:1) (Blectric lines-Poles)  .. :: I I .-.7.-- I inzh. Platform used in assembling composite girders. Nov.tekh. i pared. op. v stroi. 19 no.12:32-14 D 157. (MMA 11: 1) (Prestressed concrete) (Girders)  /_I BONDARI, Yo., inzb. Reusable enclosure for the hnating of composite girdora. Stroitall no.11:14 N leg. (1411th 13:3) (Girders--Cold weathor conditions)  BONDARI, Ye., inzh. I -- ". - -1-- - .- - Devices for winding reinforcements into channels. Stroitel' no.10:8-9 0 159. (MIRA 1312) (Girders)  IV I BONDARIP Yee, inzh. Stands for assembling NII-200 boaws. Stroitell no.3:14 bir 159. (MIRA 12:6) (Girders)  Bona', Ye.p.,inzh. ~ Belt hoist. Mekh.strol. 16 no.2:21-23 F '59. (~aRA 12;2) (Hoisting machinery)  GANSBURG, B.M., Inzh.; BMW, Te.P, Assembling precast reinforced concrete long-span galleries. Prou.strol- 37 no.12:29-33 D 159. (MIRA 13:4) 1. Treat Stallmoixtash - 5 (for Grasburg). 2. Proyektny7 institut Promatal'konstruktolys (for Bonder'). (Precast concrete construction)  inah.: WASOVA. N.A., insh. -, KALININ, B.P.. inzh.; KOPP, L.M., inzh.; SCKCLOVA, A.D., kand.tekhn.neuki TSEGELISKIT, V.L., Anzh.; UTMMOT, V.P. p kand.tekhnonauk Edeceased]; BWDANOV, S.I., inzh., nauchnyy red.; TRUBIN, T.A., glavnyy red.; SDSHIN. A.T., zam.glavnogo red.; GRINWIGH, G.P., red.; MWIPANOT, S.P., red.; ONUFRITZY, I.A., rod.; KHOKHGOV, B.A., red.; ZIMIN, P.A., red.; SKYORTSOVA, I.P., red.izd-va; GOLIBERG, T.M., tekhn.red.; ELIKIRA, takhn.red. [Handbook for the erection of reinforced-concrete elements of industrial buildings] Spravochnik po montashu zhelazobatonf4iffi konstruktaii promWehlennykh zdanii. Pod red. B.P.Kalinina. Moskvs, Gos.i3d-vo lit-ry po stroit., arkhit. i stroit.materialam, 1960o X5 P. (MIRA 14:3) 1. Moscow. GosudarBtvannyy inatitut po proyektirovaniyu stallnykh konatruktoiy. (Reinforced concrete construction)  BOIMARI, Ye.. inzb. Using jigs in erecting columns. Stroitell no.21-19,22 F 160. (MIRA 13:5) (Columns, Concrete) (Jigs and fixtures)  ---IRQ14DAR I , _1p, P-1- i nz h. Reusable devices for asaombllz~,.T raInforced concrete girders. Ret.l. zhel.-bet. no.6:266.--~9-?l Je 160. (MIllh 13:7) (Girders)  VASILITIV, A.M., inzh.;; GANSPIM, B.M.s inzh.-, Using, assembly-line methods in assembling construction elements of a 2800/1700 sheet rolling mill. Hont.i opets.rab'.v stroi. 22 no.4:10-14 Ap 16o. (MIU 13!8) 1. Trost Stallmontazh-5-i Proyektnyy institut Promsta,11konstruktaiya. (Assembly-line methods) (Rolling, mills)  GINSBURO, 3.M.,Inzh.,- \,BOEW'. TO.P.,Insh 4_~_.___ Asusubling the crossing poles of electric transmission lines. Monte I ispets.rab.v stroi. 22 to.11:22-25 N'60. (KM 13 - 10) 1. Treat Stallmoutash-5 I Proyaktuaya kontora Glavotallkonstruktoil. (Blectrie lines--poles)  B01MARI, Ye.P., inzh. 5etting up of a power line span across the Sheksna ri7er. Elek. sta. 31 no.6:73-76 Je 160. (MIRA 13:7) (Sheksna, River--Electric lines--Overhead)  BONDAR'v Y -P.-g_jnzh.; RONZIMIAp A.A.0 red.izd-va; ABRAMOVA, V.k.v -~~--ekbn.red. . . .gineering guide__fqr assemblere.of reWorced- [Safety en concrete structures] Paml.&Uta po to'kbnike I*sV&vnosti d3la montazbnikov zhelexobetonrWkh.konstruktsii* Moskvaq Goo.izd-vo lit-ry po stroitp arkhit, i stroit.materialamp 1961. 23 P. (MM 14:7) (Reinforced concrete construction-.Wety measures)  BOIDARI, YesPe, inzh. Truck transportation of precast reinforced concrete beams and trusaeo. Bet.i zhele-bet, no,6:261-264 Je 161, (MIA 14:7) (Precast concrete-Transportation)  ; , Y".P. . inz,'-. Staiia-ard anchor. -ont. -; Spsit2. ral:. v str, f ~ "" JI P61. (la"l, 1-1. Z:'-,r,:U tre5t,-.. Stv-1.11,on, ( i L- il I.-. i-Y )  GkNSBURG, B.M., inzh.; BONDLRI,-Ye.P., inzh. Assembly of a meta2lic arch with a span of 76 m. Promo stroi. 39 no.3t53-55 161. OGRA 14:4) (Estonia-Metal arches)  BONDARIJ Ye,PIJ, inzh, ,Z:777~-- -.,- --,- - Erection of large reinforced concrete slabs. Mont. i spets. rabo v stroi. 24 no.1:19-22 Ja 162. (MIRA 15:7) 1, ZhSM4U tresta Stalikonstruktsiya. (Precast concrete construction)  I BOITDAR I J1 Yevgeniy Petrovich, inzh.1 FETISDV, Konstantin Semnovich,, laureat Gosudarstvennoy premii, inzh.,- KALIND4., B.P., inzh., nauchn. red.; YUDINA, L.A.,, red.; SHMSMEVA, N.V., tekhn. red. [Assembling reinforced concrete structures] Montazh zhelezo betonrqkh konstruktaii. 14oskva,, Gosstroiizdat, 1963. 246 p. (KIRA 17.- 1)  :/A, (~ ~,' Y '11T -~~d BOIIDA:"y Yevgeniy Petrovichy dnzh.; "Y '4A, N,~ : -0 (Safety manual for assembling rei-Tiforcod concre,.e elements] Pamiatka po tekhnike bazopasri,.,stl dlia r..oiitazhnika zhelezobetonrWkh konstriiktL-,ji. Izd-2., ispr. i dop. Moskva, Stroiizdat, 19641, 31 P. (1-11P2, 17:6)  BURDMEV, A.S.; BONDARI, Ye.P.; ZHURAVLEVAP V-I- Mobility of greater gerbils (Rhombomys opimus) and its epizoo- tiological role in compact colonies in thq northern desert (southern Balkhash region). Zool. zhur. 43 noelt115-124 t64 (KIRA 17 z7) 1. Central-Asiatic research Anti-Plagae Institute, Alma-Ata.  BONDAR,,- Tu, o -inxh. - * . ; " '~" '.' ~"t-, i4-14X47~k~ . ; Cinder-concrete blocks made of brick Industx7 waste, Strolemat. 4 no,10:40 0 158a (Cinder blocks) (KrRA Moll)  RONDAR Yur 17 MikhsYlOvich; YAKOVLEVAI, A. I. I red. -, DONSWA I G pD q p tekbAg r [Manual on safety measures for loading and unloading operations- PWatka rabochamu na pogrusocbno-razgrusocbMkb raboVakh, Mo., skvaj Wauchno-tekbnj izd-vo H-va aytoitiobillnogo tranap i sipsoeUVkh dorog RSFSR, 1961. 40 p. WRA 3-4j8) (Loading and unloading-Safety measures)