BIJDAGYAN, Faddey Yervandovich; BONDARE"J, G.I., red. ~-Z-Q--- - [Food toxicoses, toxinfections and their prevention] Pishchevye toksikozy, toksikoinfektsii i ikh profilaktika, Moskva.. Meditsina, 1965. 206 p. (MIRA l8g3j  PEREPLUIN ., Sergey Romanoviaby BONDAREV. G.I., red. [Protective effect of food and vitamins in radiation lesions of the body] Zashchitnue deistvie pishchi i vi- tami-nov pri lu--hevykh porazhoniiakh organimia. Moskva, Meditsina, 1965. 164 P. (MIRA 18sl2)  BONDAP-V, G. I. 29100 - -Vybor printsipa sortirovochnogo apparata cilya salaki, melkcry selldJ i killki . Pyv. zhoz-vo, 1949, No. 9, s. Z3-z5 SO: Letopis' Zhurnal'nykh Statey, Vol- 39, 14oskva, 1949  WNDIAREV, G, 1. bf,"NIMAILN. G. J. --- "I1JVE!;TlrATirtj or 11M. ('VUiA7JNr, VRGCE,-,~, eA- A WiToi I 3ELF-IGIIITIC)I! WIT;l A DiVic)ED Cot4uv-,,TlOtJ CHAMM.R." ;U;3 ~ JUN '~P, N.1;5COwl ORDE;l (,'I' LEuin AviATION JUST IMENI SEPCO OPDZHotjiKtvzE (W-CRTATION FOR THE DECi?[E Or CAUDIDATE iti TrcfmiCAL SCIENCE) '40 - 1-1051WA, JAt4UArRY-DrCEflbE;' . VECHERHAYA 1952  BONDAREV) G.I. Shaft smoke-generator Ryb. khoz. 28 no. 7, 11052  ,_~~~~d.teldzn.nauk. Characteristics of and calculations for a shaft type smoke generator. Trudy VNIRO 35:97-101 158. (MIRA llill) 1. Hauchno-issledovatellskiy institut melffiAnisateii rvbnoy prowyehlen- nosti. (Fish, Smoked) (08' =*Ing. and "preservlnt-~-Ekuipmeut-.*W,.supplies) I   .- f : , "",II .-.1, SUMIETM- 09liec63 --.. - I - ,- z- ~`I NO PM SM. 004 r.; SUB CODE: HT I  CHELPANDVA, L.F.; FETROVp A.A.; BONDAREV2 G.P.; NEMIROVSKIY, V.D. Conjugated systems. Part 157: Synthesis and hydrobromination of 4-penten-2-ynal. Zhur.bb.khim. 32 no.8:2487-21+89 Ag 162. (MIRA 15:9) 1. Leningradskiy takhnologicheakiy ivatitut imeni Lensoveta. (Pentempal) (Hydrobromic acid)  BONDM~ ~rky Stepanovich; PLEVAKO, N.A.p red.; SHIROKOVA, M.M., tekhn. ~ed. --- [Transducers and automatic checking devices for transportation systems] Datchiki i pribory avtomatichaskogo kontrolia dlia transportirovochrqkh ustroistv. Moskva, Gos. ener izd-vo, 1961. 47 p. (Bibliotelca po avtomatike, no.45) &OIRA 15:3) (Automatic control)  BONDAREV G S., inzh. Moncontact electronic signal indicator. Mekh. i avtom. proizv. 17 no.12:33-34 D163. (MM 17-2) 1~11  /7 1?2-5-2/3S- AUTHOR; Bondarev G" (Cand.Tech.Sc.) TITLE: The Work of the Supercharged Two-Stroke Engine. (Rabota dr*htaktnogo dvigatelya pri povyshennykh davleniyakh) PERIODICAL: Vestnik Mashinstroyeniyav 1957v Nr 5, pp.5-8 (USSR) ABSTRACT: Results obtained in tests of a two-stroke, compression ignition engine, 2-PE-309 of 100 hp, working at an elevated pressure at inlet and outlet are reported. Before the tests, the scavenging chamber below the piston was disconnected and the air was supplied to the scavenging ports from a receiver held under pressure by special compressors. In one set of tests the engine traversed its load characteristics at 300 rpm at an exit pressure of 1.19-1'.215 kg/cm- 3. The inlet pressure varied between 1.42 and 1'.72 kg/cm-. In another set the maximum powpr was maintained with an inlet pressure of 1.65 kg/cm:~' or 1.72 kg/cm and a variation of back press- ure at outlet changing the ratio of exit to inlet pressure between 1'.5 and 1'.15. The tests are recorded in the form of graphs (including the load characteristic) giving powers, pressures and fuel consumptions, residual air coefficients and temperatures against the power out ut The same quan- tities are plotted against the outlet7inlLt pressure ratio Cara 1/2alld against the inlet pressure. In the conduct of the tests,.  122L- 5-2/35' The Work of the Supercharged Two-Stroke Engine. the excess coefficient was controlled to yield the same degree of excess air,- defined by a COZ content in the ex- haust between 9 and 9-0. The tests show that two-stroke engines with straight-through scavenging can work with high inlet and outlet pressures provided the outlet/inlet press- ure ratio is near unity. It is recalled that similar tests at the Moscow Institute of Technology (IMVTU imeni Baumana) have shown the stable operation of a similar engine at high inlet and outlet pressures but also in a region of inlet/ outlet pressure ratios near unity!. It is noted that with an 2 increase of both inlet and outlet pressures up to 1'.70 k&/cm the effective power increases from 90 hp at an inlet pressure of 1'.1 kg/cm?, with an outlet/inlet pressure ratio of 1'.55, up to 146 hp at an inlet pressure of fa kg/cm2 (outlet/inlet pressure ratio, 1,14)'. The power incr;-ase is limited mainly by the density of the inlet charge and the variation in the value of the residuiLl air coefficient'. The high exhaust gas temperature so obtained favours a turbo-superohaxger.There are 5 graphs. AVAILABLE: Library of Congress. Card -?/?  BONDAREV, G.Ye., kand.telft.nwak; KLI?WUV, G.V., inzb. Lessening the wear of fuel pump pistons in diesel tractor engines. Trakt. I sellkhamah. noIW-11 D '58, (MIRA ll:IZ) Mel pumps)  BONDAREV, T.I. Twenty years of operation of the Zuevo State Regional Electric Power Station Ele~. Sta., no. 1, 1952 Inzh.  BONDAREV, I.;,PORISENKO, N.-, P&WHAVYY.0 N. Decision on the introduction of new devices raising the power factor of electric pover conmndng industries. Prom, energ. 16 no.2:49-50 F 161. MIRA 14:3) 1. Nachaltnik.SoyuzgIevenergo-pri %BpIane SSSR (for Bondarev). 2. NachaLlInik Upravleniya elektrotekhniki i elektroniki Gosudaro- stvefinogo komitets. 3areta Ministrov SSSR po avtomatizataii i mekh- anizataii (for.Borifenko). 3. Nachallnik Upravleniya po avtomati- zatsii i oborudovaniyu d1ya metallurgicheskoy promyshlennosti Gosudarstvennogo komiteta Soveta Ministrov SSSR po avtomatizatsii i mekhanizateli(for peachanyy) I- (Electric power)  DONDAREV. I.; MUSIYENKO, K. Machine operators for Cuba. Prof.-tekh.obr. 20 no.20 F 163. (MIRA 16.-2) 1. Direktor Slavy4hokogo sellskogo professionallno-tekhnicheskogo uchilishcha No. 3 Krasnodarskogo kraya (for Bondarev). 2. Zamestitell direktora Slavyanskogo sellskogo professionalo- tekhnicheskogo uchil#,shcha Ho.3 Krasnodarskogo draya (for Husiyenko). (Students, Cuban) (Farm mechanization-Study and teaching)  ROVIKOV, LT.; FAVLENKO, A#St; SMIRMY, M.S.; CHIZHOV, D.G.; UVRENENKO, K.D.; NKRASOV, A.M.; HOSOV. R.P.; TAUSOV, N.Ys.; ZHDMIN, D.G. UGORETS. I.I.; IWITRIM, I.I.; DROBYSHU, A.I.'-, TXRYAKOV. V. S.; SAFOUNIZOV, F.V.; BOROVOY, A.A,; BAITNIX, V.P.; DASKOVSKIT, U.N.; RMVIN. N.A.; PZTROV. A.N.; MIKLINIKOV. B.V.; LATYSH. KONIN, F.P.; DIDY IN, P.Te.;, BOIM&M, I.I.; GUMUM, D.I~.; POIMGAYW. K.M. oilga Sergeevna Xalashnikova; obituary. Blek.sta. 30 no.2:95 F '59. (MIRA J20) (KalashnikDva, OllgaL Sergeevna, 1914)  BOIMA--:tFV, I.I., inzh. Decrease the cost of electric power. Elek.sta- 31 no.6:39-42 is 16o. (MBU 13:7) (Electric power)  AVTO.iOMGV,, B.V.; BDADAREV, BORISENKO,, P.I.; BURLAKA, S.k.; VESEIDV, XLIMEMO, N.D.; G.A.; NOTILEVaIl, D.G.; KUDISH., A.D.; LAVRENEENKO.. X.D.; MALTWIN, N.P.; MARINOV, A.M.; , NDLOKANOV, S.I.; PWUTIM, A.A.; FOBEGATLO, K.M.; FOGM7SKIT, V.L.; SAVINYKH, A.I.; SAFOZHNIKOV, F.V.; BERDYUKOV, N.P.; FINOGENOV, Ta.I.; CHALDRANTAN, V.P.; CHULKOVp Ye.I.; 4HANIN; V.P.; SHISHOVY V.V. Ivan,Konstantinovich Xhivrenko; obituary. Elek.sta. 34 no.2:96 F 163. (KRA 16:4) (Khivrenko, Ivan Konstantinovich, I " -1962)  18(5) SOV/128-59-6-17/25 AUTHOR: Bondarev, I.T., Engineer _= ----------------- TITLE: Centrifugal Casting of Brass Steam -Pump Valve PERIODICAL: Liteyncye Proizvodstvo, 1099, Nr 6, p A2 (UqSR) ABSTRACT: In the foundry department of the Yachine Plant at Nal I chik the castinps fnr the production of steam pump valves, system "Worthingtonn had been made from brass of the MISK 58-2-2 type , , and gave 101~ defective . goods. Poilowing a suggestion made by the ai)tlor, production was changed to centrifugal casting in me- tal molds. By this means the defects like porosity and blow holes, could be eliminated. The output Pro- ductivity rate was raised three-fold. There are 3 diagrams. Card 1/1  BONIMMII 0 1. 1. . inzh. Power engineering in the Soviet Union during, the period betwoon the 20th and 22d Congressos of the CIISU. Toploenergatik-a 8 no.10:10-15 0 161. (EIRA 14:10) 1. Soyuzglavenargo. (Power engineering)  f-,(jIi"'IAREVY I.M., doktor rwd.nauk Eyperimental study of the healing mechanism of pulmonaT-y tubercilous caverns. Probl. tub. 42 rio.8:77-89 164- (91 RA 18: 12 1. Otdeleniye eksperimentallnoy patologii I terapii (rukovoditell I.M.Bondarev) Moskovskogo nauchno-issiedovat--llskogo institute tub,--rkuleza (direktor T.P.Mochalova; zamestitall direktora po nn--hnoy chasti prof. D.D.Aseyev) Ministerstva zdravookhraneniya  0 V J: USSR/General Problems of Pathology - Immunity. S-1 Abs Jour : Referat Zhur - Biologiya, No 16, 1957, 71334 Author : Gordienko, A.11., Kisleva, V.I., Saakov, B.A., Bondarev, I.M., Nekrashas,-.E.I. Inst Title : Method of Isolation of the Carotid Sinus and Further Proof for the Reflex Action of Antibodies. OriC, Pub : Biul. eksperim. biol. i meditsiny, 1956, 42, No 11, 70-72 Abstract : The vascular-nerve bundle of the neck was laid bare; on on the inner side of the carotid sinus the sinus nerve was prepared. The arteries were tied together with the adjoining tissues. The sinus nerve remained intact above the tied vessels. Into the carotid sinus of a dog,0.2 ml of radioactive typhoid vaccine was introduced, containing 100-400 --curie pJ2 .1 in one ml. and 4 billion microbial bodies. The activity of blood and the agglutination ti- ter wAg'determined before the vaccination and after-.L- - Card 1/2 - 5 -  USSR/General Problems of Pathology - Immunity. 3-1 Abs -Your : Referat Zhur - Diologiya, No 16, 1957, 71334 5 minutes; after 7 days- only the agglutination titer. The initial agglutination titer was 1:20-1:80; after 7 days 1:160-1:2560. Vaccination after severance of the sinus nerve showed a slightly reduced Increase in agglu- tination titer (1:16o-1:64o). Card 2/2 - 6 -  GCIM,IYENKO. A.N.; KISELEVA, V.I.; SAAKOV, B.A.; TSYNKA1,OVSKIY. R.B.; AZHIPA, Ya.I.; LISTOYAN. A.V... YBGOROV. A.1.-. BONDAREV,I.M.; ZHIGALIHA, L.I. Reflex production of antibodies caus d b antigen injection into an 11 1 isolated spleen (with all-mary in Bnglis Biul.ekep.biol. i mod. 43 no.4:80-82 Ap 15?. (NIFLA 10:10) 1. In kefedry patofiziologit (zav. - prof. A.N.Gordiyonko) Rostov- skogo meditsinskogo institute. Predetavlona skedemikom A.D.Spezallp. skim. (ANTIBODINS form by reflex in system caused by antigen inject. into isolated spleen in dogs) (SPLM, pbysiol. antibody form by reflex in system caused by'antigen inject.-into isolated spleen in dogs)  BONDAREV, I.M.-, BUSUCR, I.V.-. ZHIGALUU, L.I. Method of rapid preparation of electrophoregrass [with summary in Jinglish). Biul.skep.biol.ned. 44 no.8:114-118 Ag 157. (MIRA 10:11) 1. Iz kafedry patologicheskoy fiziologii (zav. - prof. A.N.Gor&iyankc) Rostovskogo seditsinakogo inotituta. P"Astaylena deystvitelin" chlenom ANN SSSR N.A.Rothanskim. (BLICTRWEMISIS, rapid prop. of electrophoregram (Rua))  GORDIUMIKO, AX.. KISFILEVA, V.I., SAAKOV, B.A., nojmMv, I.m., ZHIGILINA, L.I. Pharmacological analysis of the affect of antigens on receptors of the carotid sinns during reflex antibodv production [with summary in English]*' Biuleksp. biol.' i med. 44 noo'11:72-75 N157 (MMA 11:11) 1. Iz kafedry patologicheskoy fiziologii (zave- - prof, A.R. Gordiyenko) Rostovskogo gosudnretvennogo medit~lnakogo instituta, Rostov-na-Donu. Predstavlena akademikom A.D. Speranskim; (ANTIGEN ANTI13ODY, REACTION, eff. of antigens on eRrotid sinus during reflex antibody prod. (Rua)) (CAROTID SITTLJS, eff. cf antigens during reflex antibody prod. (Rus))  GORDIUNKO, A.N.. KISELEVA, V.I., SAAKOV. B.A.. AZHIPA, Ya.I., TSYMLOVSKIT, 1-3., IXT'YEN, A.V.. YEGOROV, A.I., BONDAIW, I.M., ZHIGALINA. L.I. 11'arther studies on the bloolectric potentials of nerven following intracutaneoue injection of antigens [with summary in English]. Biul,ekap,biol. i med. 45 no.4:96-99 Ap '58 (MIRA 11:5) 1. Iz kafedry pntofiziologii (zav. - -Drof. A.N. Gordiyenko) Rostovskogo meditainakogo inst1tuta (dir. - prof. Ye.M. Gubarev). Predstavlenn akademikom A.D. Speranskim. (MMVE MlDnas, ph siology 1 7 bioelectric potentials after intracutnneous inject. of Fi.coli antigen (Rus)) (ESCHERICHIA COLI, antigen intrneutaneous inject. causing change in bioelectric Dotentials of receptors (Rus))  ___~ON~DARIIV. I.M. (Rost ov-na-Donu) Kochanism of protein regeneration following acute blood loss. -Pat. fiziol. t eksp.terap. 3 no.4:61-65 Jl-Ag '59. (MM 12:12) 1. Iz kafedry patologicheskoy fiziologii (zav. - Prof. A.N. Gordi- yenko) Rostovskogo meditsinekogo instituta, (BLOOD PRMEINS) (H3MRRHAGE ex"perimBntal)  BONDARAV, I.M.; ZHIGAIMM, L.I. Densitometry with a logarithmically calibrated lens and XKP-4m. lab. delo 5 no-3:53-56 My-Je '59. (KIIRA 12:6) 1. Iz kafedry patologichaskoy fiziologii (zav. - prof. A.N. Gordiyenko) Rostovakogo meditainskogo instituta. (DHNSITONST3M)  GORDIYENKO, A.N.; SAAKOV, R.A.; BONDOEV, I.M. Sensory nerve impulsen following antigenic stimlation of skin re- ceptors In immunized animals. 131al. eksp. biol. I med. 47 no-3: 66-69 mr 159. (MIRA 12:7) 1. Iz imfedrY natofisiologii (zav. - 7nrof. A.N. Gordiyenko) iostovekogo meditsinskogo instituta. Predstavlena deystvitellxWm chlenom AMN SSSR V. N. Chernipovskim. (N`_nVOUS SYSTEM, physiol. sensory nerve irioulsen after antigertic stimulation of akin receptors In imrminized animals) (ANT IGBM' Bame) (SKIN, physiol. sane)  BONDAREV, I.M.; ZHIGALINA, L.I. Hematoaspirator. Lab. delo 6 no.5:54-55 S-0 160. (KIFA 13;9) 1. Kafedra patologicheskoy fiziologii (Zav. - prof. A.N. Gordiyenko) Rostovskogo meditsinskogo instituta). (ASPIRATORS) (BLOOD)  GORDIYENKOP A.N.; KISBULVA.. V.1.; TSYNKALOVXIY, R.B.; SAAKOV, B.A.; AZHIPAp Ya.Lf-LEMEK, A.V.; YEGOROVP A.I.; OCHELENKO, L.N.; ,~El~ ZHIGALINAJ, L.I. Klectrophysiological analysis of the action of antigens on the angioceptors. Biul.eksp. biol. i med. 49 no.2:90-94 F 160. (MIRA 14: 5) 1. Iz kafedry patdfiziologii (zav. - prof. A.N.Gordiyenko) Rostovskogo meditsinskogo instituta. Predstavlena akademi-kom A.D.Speranakim. (ANTIMO AND ANTIBODIES) (CAROTID SINUS) (ELECTROPHYSIOLOGY)  ONDAREV, I.M. (Rostov-na-Donu) Hematological and iTminobiological changes in dogs with pulmonary tuberculous cavities. Pat.fiziol. i eksp. terap. 5 no.3:64-71 My-Je 161. (MIRA 14:6) 1. Iz kafedry patofiziologii (zav. prof. A.N.Gordiyenko) Rostov- skogo meditsihskogo instituta. (TUBERCULOSIS)  BONDAREV, I'M. Role of allergy in the appearance of tuberculous cavities of the lung in dogs, Probl.tuba 39 no63:80-88 161. (MIRA 140) 1. :1z kafedry patologichaskoy fiziologii (zav, -profa Ae.No Gordinenko) Rostovskogo--na-Donu melitsinskogo instituta. (TUBERCULOSIS) (= Y)  GORDrYn'KO, A.D.; BOV~ L.M. (Rostov-na-Donu) Mechanism of the deVelopaent of delayed allergic reaction. Pat. fiziol. i ekspo.-terap. 7 no.1:52-55 Ja'F'63. (MIRA 16:10) 1. Iz kafedry patologicheskoy fiziologii (zav. - prof. A.R. Gordiyenlco) Rostovskouo meditsinskogo instituta.. CALLERGY) (TISSUE EXTRACTS)  BONDAREV, Ivan Markovich; NIORDOVSKIKH, V.P., red. [For workers' bpnpfitl Dlia blaga trudiashchikhsia. Cheliabinsl-. Cheliabinskoe knizhnoe izd-vog 1963. (MIRA 17:7) 1. Prepodavatell kafedry istoril Kommunisticheskoy Sovetskogo Soyuza Chelyabinskogo pol--;tekhnicheskogo (for Bondarev). 58 p. Partii instituta  BONDAREV, I.L. Core box AO a pneumatic knockout device. Lit. proizv. no.12; 29 D 1610 (MIRA 14:12) (Coremaking)  JBPNDAREV.,_~. [Bondariev, K.], inzh.; MALEVANNYY, 1. [Mallovanyi, 1.], inzh. The LF-35 production line for beveling flat glass. Bud. mat. i konstr. 4 no.2:29-31 Mr-Ap 162. (MERA 15:9) (Glass cutting)  BONIIkREV, K., makhanik Dfivice for banging wallpapetr without using tables and ludders. Na strot.Hook. 2 no-8:30 Ag '59. (MIR& 12:12) 1., Stroltellw uchastok-73 treata. Moaotdolatroy No.l. (Paper hanging)  ivf 118-58-4-6/23 AUTHORS: Dukhovlinov, D.P. and Bondare ,_K.,D,_,_Engineers TITLE: The Breaking of Potassium Salt by Boring Deep Holes (Otboyka kaliynoy soli glubokimi skvazhinami) PER10DICAL: 14ekhanizatsiya TrudoyOmkikh i TyazhKykh Rabot, 19-)6, Nr A, PP 15-16 (USSR) ABSTRACT: The authors give a detailed description of a new technique introduced at the Stebnikovsk Potassium Salt Deposits. in general it consists of sub-level mining, in which minerals are crushed by blasting deep fan-shaped holes. The new method is less dangerous and increases a miner's productivity by 25~6- There are 4 schematic drawings. AVAILABLE: Library of Congress Card 1/1 1. Mining engineering-Applications 2. Mines-Production methods 3. Potassium salts-Production  SIESTAKOVp V.A., kand.tekhn.nauk; SNEGOV, A.I., gornyy inzh.; gornyy inzh.; ALIYEV, A.A., gornyy inzh.; AGZA140V, K.Sh., gornyy inzbe'; AERAMOV, N.F. Using deep boreholes for breaking ore in the Sumsar Mine. Gor. zhur. no,12:8-10 D 162. (MIRA 15-U) 1. Institut gornogo dela i metallurgii AN Kirgizskoy SSR (for Shestakov, Snegov, Bondarev, Aliyev, Agzamov). 2, 'Sumsarskiy rudnik (for Abramov). (Sumsar region-Boring-Labor productivity) (Blasting)  0 0 0 (It 9 0 0 0 0 o a Is 6 I a it it I) It 11 m 11 " it a A A -L-AL-JL-I-A 9 -L--I- A'. A . r a I L- I A- Ii. A 00 F PR I 00 00 Mamdacturat till %'. 1. VAIlill. A 40C t."t-'a 11.3 A1.0'. [).I j-, /tit). ILIA, Nato 11"A 4% a i4w. titillate. o ailtict the volor I its the batch, it, r Inching at lix7si al .! truills. I'Clu'll till Ivull. "eve Will 00 IX~aUW Of 411. ing tritip. dimin 00 stla- IWcOlow. III 00 -4 00 03 -I L A SITALL4,11MAL LITERATLat CLAWKiLf" loan, 11-watill. -7.1, - . -- - Cat L U 0 AT 10 t--'r 0 & 4 1 V v a a h h v X J- l- A4 a V. 0 a k, d--t I 1 Pulidat-v shoat ruby glass 9 -2 17 14. NO 20; 1938 A N..I "' NIU,. it: Kld'.of thr A1,1141 14, 6A I),:,. c,q). 11 1 'A al K.U, II.S -00 File fila., [ound oli.ii (I i 'flit, Uhmsits faclot, c of tub)- Kill-: W' All". of 1119"W"t unditiun- of mchii1m. 6) -filiffition -1 I *Oil I fill', W) timt- Of annicalijim at see tillvilitill Irtill'. of Ow 14- BvIt'l vO all U'util cli-v V., -1111. zoo W1 IhAt 11.111 Illij&I affivi till, SIa- tht. VIU%N III Ow m4lell- I-. thr town. ut thc till,)- iolm, if,, coo At Illithrl troll". M. C. re 0 00 coo also t:0 0 1:30 0 Wo 0 I!.- I till 0 01 9 or so a a I IT it lost waste vircin It.ailgill I 0 41 0 0 0 0 & 0 & 0 & 0 0 0 0 Vie 0 0 41 0 0 0 0 0 0 a 0 0 V 0 0 0 6 * 0 0 a 0 0 0 0 0 0 0 0 00060 i- 0 06 006 60000 0 0 * 0 0 00  Vtl ~64 ~69 0 6 0 0 0 0 0 0 0 0 -1. ji p U X I I _U I tt A I AA Nu I d I I t 9 0 I-IL t.-U 00 J, i T M-nd-1- - K Strength of chMed I 38 00 )'wm. 14. No. 7. :01- 10 V M . . 00 00 00 age 00 a** 00 &40 0 00 A; i I L A OfIALLUNGICAL LITERAIDNI CAL&ISIPICATICk r:- - we* W. It I T 1 u AV so As 1T1P w Platt It Aft z n , Kfi: s: x 41 0 * 41 0 0 j o o 0 q 0 q 4p 0 0 0 0 0 go 0 00 of, 0 41 0 0 to 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 gig  "A. (!~ 54, . I I,.="* IM)n" twl* 1, Wis No. G, -4~= %40S Xlm~ the Mdh t' i:l%e product im dme&*k-d by using the fini-hina the twmins. )at* am quoted to JkHr the extensive mwotnlc~ achirml h"vhv. M II'l. !  XH ~v 11 1 1 11 11 -u 11-18 It v--fr- a~-- OL 00 14 -00 96A catfilig of Sku with sillem mbidi vk"l& K. T .60 ItwhIjAmav. MrAd'vaya i Keram. Prom, 1947, No. rjT- It It it A.; al~trsovt"I In VAe.R. Zralt.. 1947, j I I./ IMI t446 ThC Ilq1I tVM,'I* ill Clittilla 81,01" 111"C' 'A ith %M11"I cladwr wbevIA44 Oll IOA)Srjsisj .14C and a IM-111411.141 qxM goal of Ito to 15 ln./Wn. M IIA .,Liu 00 0 -SOO I I a 611ALLUMOCAL 1,111114lopilt CLA%%WbCATION 4.10b, NIV 0%, s3st All it R ;00 0 V9 p colt am,64 son .it v K a n it 40 A I ma 0 0 0 0 0 0 : 0 a 0 0 0 0 0 0 0 4 0 0 0 0 6 0 a 0 0 0 010 a a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 010 0 0 0 0 0 0 6 a * 0 a 6 0 0 01  W W UP - Q - " - . . - W 0 ~ t- %f w - ~' - - - - aq I k if 11 1) 1# it TTI. 11 11 'A 0o 4 Q clap #~~ . .__ . ---- 1.0 .&CPt.111S I.W. 4# beert ------ "mod. _- 77 0 . eraw K *a K. T. SaIMAW. SAM ; ~_. ' . abstrea 31017. 1 12 /221 td In 2. p. 24 i 1037,-fw~ worwWO1 zortbods for bending SIAM 'are 'le- lee seribpd: (1) wAwag *, at fi- pul-Ited firthfick by means of metal or wood pattem and pressing the glam to be lee 00 deforwoed into tbe mold after walk4ent heating; and (2) using gypam molds. After defamation. tise ginsses are thennally hw*ned in specialty constructed devk". A1.11A. see off la Ze 0~11 logo boo ZZ too .j&L11 Ct 0- It, ts AV -0 is,]; Ir a n a 4( K it 19 it It a et (c 4 MG n I I U. 000000000000000000010oooesoooooooooooo ::::::iooooooooooooooo*ooolooooooooosooooosooslAA  B 0 11TIDAT UK v I-" . I I'l ul..- To'-L-lI - -i --botni]-rov e Lar-naces, ;:-, . I. m-0111-*,,,~-,! I, 3ond~,.rev, K. T. - ch.r-~es in b,th f 11 '.- , ntekol. prom-sti, llo-coir.,, 191"', -:.). 1111-41.~ '000, 10 July 5'3, (Leto;ds 'Zhurnal St;;,toy, lo. ;r, 1940). SO: U-3 11 11 1  1 1 4 1 0 1 1 0 11 1) 11 as 11 14 It it It A a it It is Is. It I L IL r , s__A_,1__A it l' 14V v tam W, A K. T. Roximaltv i Kftd$lt. S kmai al oWatue of it thin-layer usechankne (T71 Zcliaan; tw, into a tank lumacv. Its uw at the 90"Ata"litiovalk glawq falittit. whk,h percatfut," aul- 00 I that irballe 6 Intritird let Alkent unibile glass. has Allyn resin, aftert It Is Ird Into the furnau'r. The nutPut (if I and the lufflave was sails"I to 11110 lacy 24 lar . .3 hlxbrf YOU" am still latfttilalr~ so so A S a. IL A ft tIALLUROCAL Ltttf&IUGI Ctas%*K&1100~ qv~'asl.. Is 0 JI a a Ve 9 0 0 4111 4111 0 * 0 004110000re0ioile-0 _x _C~" 0- . I, j . 1, ~ - I 41. '.~Jq as as ser 0 0 e 0 0 0 0 0 0 0 j- 0 - zoo see too _416 ts*  u " A.D JI-D "- I PROC-1 11 A-D 0,1101,1*111 A Revew vrandadmu of Russian Pwrs of laterftl to 0 the 61~w bduAry. Glan [Ndw#tfv, V. 29, 19tv. 194S. 96 P. 698-09, 722. ' kaya i Condensations of three papers from Stekol Prom thlennost (Glass and CA-r- ru i he k K 00 t m c s ava y antic Industry) : "Carborundum Saws for Glass," r '40. 40 0 K. T. Bondarev (no. 1. 1947, p. 18), "Ileai Con- - " b -00 . 3 1). B. GintI uric (no. Some Glasses, c U do tance " Vi h i , *40 scos Nomograins for t e ty . 9): and 7, 1947, v 0.0 0 , of Glass,' M. V. Okhotin (no. It. 1047. It. 8). - so.- ob .3 too 00 go sigo god Ue %sow, *-In" CA G*' Ass. 1 a a D ad a Malka sa  Wayo of lmp"nhv the IYki Tzoom ciam objuidn.) L. T. mmAam%.. sitlit i rrut.11-1 . 9. %I*%- 11M. P. VWW-~-- - 11-4. 1416 of file Fro-ro.o. TOM out f1m. francl'ttk-Y of Igia" 111.1 WA%% Of I'llnIVIAIMIJ it W di-A-UNI"I. VIIII is 11111hart of TaW Mikil-CiA APAI hVIMI Ilft'llw9tift W" tId%u6t*%I-    6~IZIXM Stlb!HtY *1 91-a5z, K. T. 11, No. 7. O~ Puwdex to a cbirzm c\ms~stlng of SiCh 75, Al,G, Q,43, Fc. Sul bility %va!; dad. sgaiw watti atd zlkaU. Alln. ul 6.1 0.3% ZrO~ lacrca~--d alkLli iresbtamm comsUcmbly; furthe. uddn tD I%rmulz-.tl in !mar.11cr ipcrta5e & reFi5tance. Ww Yd--d in amt. of 0.3-0.5% to charg-z in tank- fumace, b m - ~ rmWts wm rrt obta, ed bzmus~- of high temp. (14 9~ p, #9 - witemeltv. aud st,3311 takc-,Iff ('110 ks, glas-5 from 134-1.6 per 24.hm. for ae catire siOace), To ovemome thlsj lo~mhtlfiq KlIx-A cowg. zf)%_ ZY03 WaA added to the B. Z. Kalpich'.". MMM ON 4 MW-l ROM Ag SM I -1 m IF IR 07i alm  tb %RFV (Glusi W -)No' -X is a RUS q=rtz as a Dew UW 95 ast fiva STan gl-s 747. FUWd f0lQ124! MI 4t).RLFOri 01hastry ?AOSLow. 11, fpcrindic glass-tarks mJti;%9 Plant hu sistmfully uWd fustd T" im ing 5!~'. alkali'-- In 1 53 a ntin I ni, ft)r ptasi ontaint,19 &lass contain It tz jocks- this tank had 4 cold rp,, Sia .1. -er surf,,,-~, NAZO and I - was fine'd ks ght 51 u's ;Ioncs with a 1o%% aftcr 12 ~Uuj-quartz todes and so the)* are dissOl%ed -A% ft at 'no I unsion Ilan 5101- dtTi-vd f" d'(v~, Cr) improve the cOlOur 11 tainin -)*. c a' more easily. ~ (h=TIZ blocks ( . to pomskly is 3-4p,,' .. A Clult Of or be gLM% Tht j1pp:ITent po is to; I Irt . fragments of i,-31 c-avit f ~hkh are covered with B.-fore Ilam blocks is ft inIM31 cavil I -, the wear.of the blocks. C"bon cleCtro& and sW ?min d I" W that of a normal fiircbrick, bUt stallizatioN the detOMMAD11 softening ctystalll.ti.n (to C111SW ite) I e t ra are of the beginning Of incn,aw 10 4%-3u C urs 11,700 and 4M.-subsidenco at ~ --/.3u I a -11 1,710- C. 2 tables.) J   BOITDAIMV, K.T.; MALUAMMI, I.V. Cutting glass with abrasiva saws. Stpk. i ker. 13 ne.8:27-29 Ag 156. (Konstantinovks-Olase cutting) (KaA 9:10)  ~BOND_ gTo 147r-7-7-7 -ll - .-- wl~ Achievements of the Konstantinovka plant "Avtosteklo.' Stek.i kar. 14 no.10:11-14 0 '57. (MIRA 10:12) 1. Direktor KDnstantinovskogo zavoda "Avtosteklo.' (Konstantinovka (Stalino Province)--Glass manufacture) (Glass, Safety)  Rat i IYJ v I 4~i I III III Ig a TV 9V a a 13 IV, pa A SAV Am it  T-lr,-.rv fra FN I-- V/ AUTHORS: Bondarev, K.T., Director of the "Avtostekld' Works, 72-2-8/20 5u--brovskiy, V.A., Director of the Ukrainian Branch of the Institute for Glass TITLE: The Application of Rare Earth Preparations in the Glass Industry (Primeneniye v stekol'noy promyshlennosti preparatov redkikh zemell). FERIODICAL: Steklo i Keramika, 1958, Nr 2, pp. 21-24 (USSR) ABSTRACT., Cerium dioxide can be used for the decolorization of glass, but, be- cause of its high price, it is not used in a pure state. At present, however, cerium-dioxide-oontaining preparations are available at com- paratively low prices. They are adulterated in different degrees by lamthanum-, neodymium-, praeseodymium- and other oxides of rare earths (preparations KU-10). For the purpose of investigating the possibil- ity of decolorizing glass by means of these preparations 3 types of glass were smelted as an experiment. The composition of these 3 t rkres of glass is shown in table 1. L.G. Gurvits assisted in this wo Ref. 13 . The transparence of the gla--s samples was measured by means of the photometer 4 ~T -15. In their quality of glass decoloriz ing media pre- parations of arsenio- and antimony oxides, cerium dioxide, KU-10 and polirite were usea. The cerium dioxide content in the preparations Card 1/2 K LL -10 and polirite is shown in table 4. The results obtained by the  The Application of Rare Earth Preparations in the Glass Industry 72-2-8/20 glass-decolorization tests carried out by means of a mixture of anti- mony- and arsenic oxides are shown in table 2, those carried out with a cerium dioxide preparation in table 3, and those in which the pre- parations KU_-1O and polirite were used are sho= in table 4. The ex- periments are then described and explained in detail. As may be seen from fig. 1, polirite possesses the greatest polishing efficiency, and fig. 2 shows a. comparison with other polishing media. Folirite substances already used can be used repeatedly. By the introduction of polirite in the plant Konstantinovka "Avtosteklo" the efficiency of the polishing process has been increased to 1.3-1-8 of its former extent. Some of the other rare earths compounds might also find suit- able use in the glass industry: neodymium- and praeseodymium oxides as coloring agents for light filters and artificial glass, lanthanum oxide for the production of high-efficiency refractories. There are 2 figures, 4 tables, and 4 references, 3 of which are Slavic. ASSOCIATION: Konstantinovka "Avtosteklo" Works (Konstantinovskiy zavoa -'Avtostekldl) Ukrainian Branch of the Institute for Glass (Ukrainskiy filial in- stituta stekla). AVAILABLE: Library of Congress Card 2/2  AUTHOR: Bondarev, K. T. SOV/72-56-lo-3/13 TITLE- Manufacture and Use of Class-Stacks (Proizvodstvo i pri- moneniye steklopaketov) PERIODICAL: Steklo i keramika, 1958, Nr 10, pp 12-17 (USSR) ABSTRACT: Figure 1 shows a glass-stack consisting of 2 or more window- panes. The space between them is filled with cbhydrated j air. In z~z,..figures 2, 3,. 4, 5, 6, 7, 8~ 9, and 10 various constructions of glass-stacks are shown and described. Fig- ure 11 shows an autoclave which consists of 5 chambers and is used for preheating, pressing, cooling and blowing of glass-stacks. In table I the consumption of raw materials for I m2 of glass-stacks is given. Figure 12 shows the usual construction of a window wing (a, b) and a wing furnished with a -lass-stack. Figure 13 gives a desi6nfor a three- wing window. Wings furnished with glass-stacks make a con- siderable saving of wood and workin.--time possible (Table 2). According to the resolution of the Council of Natlional EconarVof Staltao, in the 4th uarter of 1958 a plant for the -.1anufacture of 150 000 m~ glass-stacks 1,,er year shall Card 1/2 start operating in Konstant-inovshiy stokollnyy zavod imeni  Manufacture and Use of Glass-Stacks 'M/72-58-10-3/18 OktyabrIskoy revolyutsii (Konstutinovka Glass Works imedi Oktyabrlskaya revolyutslya). Glavkiyevstroy and Glavmosstroy also decided to use glass-stacks in 1958. The Akademii stroitel'stva i arkhitektury SSSR i USSR (Acadt-mies of Build- ing and Architecture, USSR and UkrSSR) take part in this action. There are 13 figures and 2 tables. Card 2/2  AUTHOR: Bondarev, K. T., Director SOV/72-58-11-3//15 TITLE: - -The Road to Fame in Work (Put' trudovoy slavy) PERIODICAL: Steklo i keramika, 1958, Nr 11, PP 5-7 (USSR) ABSTRACT: By decree of the Praesidium of the Supreme Soviet the Konstantinovka "Avtostekloll Factory was awarded the order of the Red Banner of Work on August 9, 1958. The factory was built in the year 1899 by a Belgian joint stock com- pany. At present it is one of the largest factories in the USSR and Europe for the production of technical and build- ing glass. In 1917 it was destroyed during the civil war and in 1925 it was rebuilt. During the Second World War it was removed to the Ural and later in the course of 7 years it was again restored with the expenditure of several 100 000 000 Roubles. In 1950 it had achieved its production level of 1940, and in 1957 its production was 4 times that of 1950. In the post-war years new types of technical and buildinG glasses were produced. The process of automatic metal-feed was introduced by employees of the factory. In 1948-1949 the glass production by the method of continuous Card 1/2 rolling was introduced, whereby the productivity increased  The Road to Fame in Work SOV/72-58-11-3/15 by 8 - 10 time and the quality of the rlaao was very marked- ly improved. A number of working men were involved in this work. Through the efforts of several foremen the capacity of the melting furnaces and machines was raised 2 to 3 times- The glass-grinding and polishing were also considerably improved. The control of the thermal processes in the furnaces was also made automatic. Employees of the factory in the past years offered over 4000 suggestions for improve- ments, which resulted in greater economizings. The technical level of the workers and the technical personel is constant- ly being improved by schooling. The factory has for three years been the leader in the All-Union Socialist competition in the undertakings of the building mateiials industry. The Seven Year Plan (1959-1965) includes extending the facilities and introducing new manufactured products into this factory. ASSOCIATION: Konstantinovskiy zavod "Avtosteklo"(Konstantinovka Factory "Avtostekloll) Card 2/2  k ij 1 ull Ti as a set a a :;A4 io all lyg 4 1 '4o 0 3i; bi zi 4 j via  AUTHORS. Bondarev. K. T., Kozlmin, M. 1.9 S/07 60/000/04/002/029 NtmWro-v-f-A-.--$-.y--*vv*llchukp M. BOV3014 N TITLE: Production of Heat-resistant ~heet-glass by Means of the Method of Continuous Rolling PERIODICAL: Steklo i keramika, 1960, Wr 4, PP 4-12 (USSR) TEXT: In the article under review the authors describe the methods used to produce hoat-resistant sheet-glass by means of continuous rolling, which were developed by them in cooperation with I. G. Gurvits, Ye. G. Gurvits 0. V. Vyshinska~jj D. F. Milodanov, G. 1. Poltoratskiy V. A. Zhelezteov, N. A. Korsun, and Ye. S. Gnedashevskaya. The first experiment was performed with RKE-1 glaffl'Ja the furnace shown in figure 1. An ordinary rolling machine with two rolls made of EKh-25 steel (diameter of 320 mm, water cooling) was used for this purpose. The glass band was annealed in a furnace of the type IX-100OX18 of the 2avod "Steklo- mashina" (Plant "Steklomashina-1). The temperatures of the glass-melting furnace are shown in figure 2. The quality of VKR-1 glass is listed in table 1. The heat-resistant glass produced in this way was unsuited. Nonalkaline glass of the sort Nr 31, which meets all requirements, was obtained by experiments. Its composition and some of its physicochemical properties are given. A new tank furnace was installed, whose design and temperatures are shown in figures 3-6 Card 1/2  Production of Heat-resistant Sheet-glasa by Means of S/072J60/000/04/DD2/029 the Method of Continuous Rolling B015/BO14 and 7, respectively. The EKh-25 rolling machine which has rolls 120 mm in diameter (instead of 320 mm), is illUBt'rated in figures 8 and 9. Data on the glass band and the rolling rate are contained in table 2, and the quality of polished glans is shown in table 3. Figures 10 and 11 illustrate the condition of the furnace lining after a campaign of nine months. Mass production of' heat- resistant 91ELOS is only possible by means of a tank furnace designed for high melting temperatures and an output of at least 300-350 kg/24 h per 1 m2 of the hearth. it is further necessary to build a rolling machine whose rolls are made of heat-resistant steel and warrant normal operation in the temperature range 1400-14200. It is also necessary to establish a continuously working annealing furnace which permits normal annealing of the glass band. There are 11 figures, 3 tables, and I reference. Card 2/2  S/072/60/000/010/001/004 B021/BO58 AUTHORSs TITLER PERIODICAL: Bondarev, K. T., Boroday, F. Ya. Production and Use of Light-sensitive Class \b Steklo i keramika, 1960s"'-~ No. 10, pp. I - 4 TEXTs Light-sensitive glass can be produced by the admixture of gold, silver, or copper to any technical glass containing silica, oxides of alkali metal and of bivalent metal. The optimum amount of light-sensitilre components is tabulated. Lithium-, potassium-, and sodium-oxide are used as alkali-metal oxides, and any oxide with which colorless glass can be obtained5 may be used as bivalent metal oxide. Glasses with gold or silver content lose their light-sensitivity through the presence of copper. The light-sensitivity of glass is influenced by its melting con- ditions, the character of the furnace atmosphere, and the presence of redox agents. Depending on the glass composition, radiation dose, and thermal treatment, white and colored semitransparent and nontransparent pictures can be obtained on transparent glass, as well as colored pictures on subdued white ground. Lithium-containing glasses of special Card 1/2  Production and Use of Light-sensitive Glass S/072/60/000/010/ooli/004 B021/k58 4, light-sensitivity have been developed at the experimental departmen. of the Konstantinovskiy zavod "Avtostekloll (Konstantinovka "Avtosteklo" Plant). The glass0was molten in the crucible furnace at a temperature of from 1450 to 1480 C in oxidizing atmosphere. After rolling, the glass was annealed in the tunnel kiln. The samples were treated with ultra- violet as well as X-rays, mercury-quartz lamps of the type CBAUJ-1000 SVDSh-1000) and TTPK-7 (PRK-7) and the installation of the type 'PYT-2 P-2) being used. The glass is etched in hydrofluoric acid in order to C obtain plastic pictures, the difference of etohing between the exposed and unexposed parts of the light-sensitive glass becoming noticeable, Plastic glass products may be obtained by exposure of the glass through a photonegative by means of ultraviolet rays, heat treatment and subsequent etching in hydrofluoric. acid, as can be seen from Figs. 1 ., 4. By this method, tiniest openings can be obtained on thin, light-sensitive glass. There are 4 figures, 1 table, and 2 non-Soviet references.. Card 2/2  86455 S/072/6o/ooo/ol 2/006/008 B021/BO58 AUTHORS: Bondarev, K. T., Minakov, V. A. TITLE: Submicroscopically Inhomogeneous Structure of Glass PERIODICAL: Steklo i keramika, 196o,.,No. 12, pp. 22 - 27 TEXT: On the basis of the curves of dispersion intensity of small-angle X-ray scattering, Ye. A. Poray-Koshits and N. S. Andreyev inferred a sub- microscopically inhomogeneous structure of sodium borosilicate glass. 0. K. Botvinkin and N. I. Ananich showed that these glasses, such as noneks, ~C-9 (ZS-9), and others have two phases. Electron-microscopic studies were made with an 3M-3 (EM-3) electron microscope which has a resolution of 100 A. X-ray structural analyses were conducted on the YPC-50 (URS-50) device. The liquation in glass of the system Na 2O-B 203 is illustrated in Fig.l. L. I. Demkina and A. A. Appen demonstrated the possibility of the transition of boron into the tetrahedral form. The glass was melted by Ye. 0. Gurvits and 0. M. Vyshinskaya; the heat treat- ment was performed by S. Ye. Dvorkina and G. S. Porvenkov; and Card 1/3  86455 Submicroscopically Inhomogeneous Structure S/072/60/000/012/006/OOB of Glass B021/BO58 V. P. Stativ and V. N. Karlyuk assisted in the structural analysis. The electron micrograph of the surface of B203' 3sio2glass is shown in Figi2. The results of the authors agree with the conceptions of Ye. A. Poray- Koshits and S. P. Zhdanov on the structure of borosilicate glass. Sodium borosilicate glass (6% Na 0, 29~; B20 65% SiO ) shows inhomogeneous zones but remains perfectiy transparKlt (Fig-33, thus proving 0. K. Botvinkin's hypothesis on the structure of glass. The heat treat- ment of these glasses at temperatures between 490 and 8000C changes their structure radically (Fig-4). Large and small pores can be detected by irradiating a preparation of porous glass, which was obtained by com- pletely leaching out sodium borosilicate glass in hydrochloric acid (Fig-5). Tests of some industrial glasses, the composition of which is tabulated, showed that phase composition is characteristic of most types of glass. Inhomogeneous regions were detected in samples of Pyrex glass with slight opalescence (Fig.6). The mass-produced glass No. 31 has a submicroscopically inhomogen.eous structure, which is distinctly marked after heat treatment (Fig-7). After hardening, zirconium glass ~-18 (Ts-18) shows inhomogeneous regions (Fig.8). Inclusions similar to Card 2/3  86455 Submicroscopically Inhomogeneous Structure S/072/60/000/012/006/008 of Glass B021/BO58 crystal formations were discovered in samples of mass-produced window glass which had been subjected to heat treatment and remained transparent (Fig.9). A liquation in the absence of a crystalline phase was discovered in continuously rollod glaso after heat treatment (Fig.10). The mass- produced transparent glass 0253 has a submicroscopically inhomogeneous structure (Fig.11). Lithium-containing glass remained transparent after heat treatment and exhibited a submicroscopically inhomogeneous struc- ture in the absence of a crystalline phase (Fig.12). Transparent glass of the cordierite system showed no chemical inhomogeneity but a crystalline phase (Fig-13). The properties of glass and microcrystalline materials IY can be influenced by xegulating the process of liquation, i.e., the sepa- ration of glass into phases. The authors' studies of the submicroscopical- ly inhomogeneous glaso structure contradict Zachariasen-Warrents hypo- thesis on the structure of glass as a continuous, disordered lattice, and prove the crystallite hypothesis by A. A. Lebedev and the aggregation hypothesis by 0. K. Botvinkin. There are 13 figures, 1 table, and 13 references: 6 Soviet, 4 German, and 3 US. Card 3/3  FW 15. T1 AUTROR.- TITLE: PERIODICAL: Bondarev. K. T. ------ I "-~ 87577 S/0-172 61/000/001/002/00~: B021YB054 Stresses Originating in Leaching Sodium Boron Silicate Glasses of Steklo i keramika, 19611j^-No. 1, pp. 19-23 TEXT: In leaching sodium boron silicate glasses, compression stresses originate in the porous layer due to swelling, and stretching stresses due to shrinkage. In the non-leached part of the glass there occur stresses whose sign is contrary to that in the porous layer (Fig. 0. S. Molchanovals investigation showed that amount and sign of stresses in leaching depend on glass composition and heat treatment, At the V testing department of the Konstantinovskiy zavod "Avtosteklo" (Konstanti- novka "Avtosteklo" Works), the author supervised investigations of stresses in leaching sodium boron silicato glasses. N. N. Bazhenova, Ye. G. Gurvits, S. Ye. Dvorkina, G. S. Porvenkov, and L. Ya. Seraya assisted in the operations. The change in volume of the porous layer was measured by an HKITB(IKPV) interferometer. Stresses in the porous and Card 1/2  87577 Stresses Originating in Leaching Sodium S/072/61/000/0011'002/'005 Boron Silicate Glasses B021/BO54 the non-leached glass layers were determined by the birefringence valuc by means of a polarimeter coupled with the interferometer. Pig. 2 shows the volume change in glass leaching as a function of its alkali content. Fig. 3 shows the content of sodium oxide in the ranges of heterogene2ty of sodium boron silicate glasses under various conditions of heat treatment, as dependent on the content of sodium oxide in the initial glass. Fig. 4 shows the dependence of the amount of stresses in glass leaching on the composition of the heterogeneous region. The type of stresses originating in the porous layer in leaching sodium boron silicate glass is based on th,~~ two-phase character of the glass. Amount and sign of stresses in leaching depend on the composition of the easily liquefiable, heterogeneous phase. The composition of the regions of heterogeneity, however, depends on the glass composition and the conditions of heat treatment. There are 5 figures and 4 references; 2 Soviet, I German, and 1 US, Card 212  S/833/62/'000/000/001/004 D034/D114 AUTHOR: Bondarev, K.T., Candidate of Technical Sciences T. IT LE: 11,11icrocrystallinc materials on a glass basis, their Pro-perties and fiOldS Of aT~plication- SOURCE.- Voprosy razvitiva stekollnoy i farioro-fayansovoy promysh- lennosti. Ed. by F.D. Dvcharenko. Kiyev, !zd-vo AN UkrSSR, 3.962, 47-51 TEXT: 11licrocrys tall ine materials on a glass basis, known in the USSR as sitall and in the USA as pyroceram are described and their struc- ture is explained. They have a higher mechanical strength, better heat re- 6istance, higher softening temperature, and.a h1gher degree of hardness than the original glass. When the temperature of the supercooled liquid Class drops, the movement of the m6lecules is retarded and will result in a homogeneous formation of the crystallization centers or heterogeneous crystallization or processes o~ crystal growth in.the presence of catalysts. The process of formation of crystallization centers may arise due to the Card 1/2  Microcrystalline materials on a S/833/62/000/000/001/004 D034/Dl14 action of x- or ultraviolet raya on the cooled glass. The light quantum -when interacting w-'th Claps either excites a ailver, gold, or copper ion reaction a or ionizes there ions rea-ction b - produoing a free electron: (Ail+ Ag t hv During the heat. treatment proce~-- o:F the glass, the electrons knocked. out -by the quantum of active radiation neutralize the silver ion following the reaction 0 4 V. At prevent, foL~r bit .sic methoas are Ag -1- 0 _>Aa + 11v '11 used for obtainin(~, microcrystalline materials on a glass basis. Fluorine, light-sensitive additions, such as Cold, silver and copper, titanium oxide, ferric and manganous sulfides may be used as crystallization catalysts. Sitall based on magnesium-alumosilicate compounds and sitall on a cordierite base proved to be promising in building, radioelectronics, electric engi-* neering, and machine construction. There are 3 figures and 3 tables. ASSOCIATIONi Zavod "Avtosteklo" ("Avtosteklo" Plant), Konstantinovka Card 2/2  BOINDAREV, K.T. 61-- "Polished glass" by IU. A. Brodskii. Reviewed by K. T. Bondarev. Stek. -- ker. 19 no.1:47-48 Ja 162. OMIRA 15:3) (Glass manufacture) (Brodskii, IU. A.)  BONDAREV K.T.; BREKHOVSKIKH, S.M. !41~- "Glass technology." Edited by I.I.Kitaigorodskii. Reviewed by X.T.Bondarev, S.M.Brekhovskikb. Stek. i ker. 19 no.2!48 F '62. (MIRA 15- 3) (Glass manufacture) (Kitaigorodskii, 1. 16)  BONDAREV, K.T.; MITKEVICHO G.I. Glass doors. Stek. i ker. 19 no.8:11-13 Ag 162. (MIRA 15:9) (Glass construction) (Doors)  S/bBI/63/000/002,1043/0;3t) B156/3144' AUTHOR: Bondarev, K. T. TITLE: investigation of structural transformations in eodium boroailicate glasses PERIODICAL., Referativnyy zhurnal. Xhimiya, no. 2, 1963, 375, ~Lbstract 2M65 (Steklo. By-ul. Goo. no-i. in-ta stekla, no. 1 (110)1 19619 10-18) TEXT: The results are given of an investigation into the structures of sodium borosilioate glasses which have undergone various heat treatments for 10 hre at temperatures of 470-78000 in a gradient furnace. The process of lea6hing-sodium borosilicate glass was studied. It is shown that the concentration of the H01 affects the volume of the porous layer and the stresses during leaching. It is established that the spear-shaped curves for 'theswelling of the porous layer are not associated with structural changes taking place in the glass during leaching, but that they are associated with the different extents to which the silicon dioxide swells according to the concentration of pH ions. 12 references. Abstracter's note: Complete translation.] Card 1/1  KITAIGORODSKIYY I.II, prof. (Moskva); BONDAPEV, K.T., lumd.tekhn.nauk (Moskva) New crystal glass materials made of slag. Priroda 51 no.9:3-11-114 s 162. (MIRA 15:9) (Glass) (slag)  GAYDASHR B.I., inzh.; DONDAREV.. K.T., kand. tekhn. nauk New high-valtage rod-type insulators from crystallized glass materials. Energ. i elektrotekh. prom. no.l: 29-30 Ja-Mr'64. (MIRA 17;5)  ~~Ni-6~ 5YT(o)/ZPA(s)_2/ EWT (m)/-PF(n)_2/EPA(w)_2/EPA (bb)-2/DiP(b) Pab-10/ -!ACCESSION NRI AP4048556 Pq-4/pt-lo/Pu-4 S/0286/64/000/01910032/0032, wellwH :AUTHORI V41MLRVU00-1~.!_,Y~- I - I -Bon 0gr8V T. ; B a raukov , H . I !Lazorenko"_V. 1. ; knin j:77, Mitkavich.'G, I.; Parvankov, G. S.1 D 0-YI-0 I GV ITITLEt He thod, for manufacturing flat foam pyrocarn products. 'Class 32, No. .165528 :SOURCEt Byulleten' iz6broteniy I tovarny*kh znskov, no. 19, 1964, 32 !TOPIC TAGSt An Author Certificate has been issued for a method of imanufacturing flat foam pyroceram (sitall) products based on glass imade from slag. The glass is beat-treated in two stages-in order to ,obtain a porous surface, while maintatning a nonporous subsurface. :While the subsurface Is being cooled. the surface is heated to ~iOO-150C above the crystallization point to a viscosity not to ex- ,'ceed 400-500 poise, and maintained under these conditions for 10-30 .minutes. ASSOCIATION t~'_ none Cord .1/4  ............... . . . . . . . . . . . . . . . . o~,ItPOf~c '~(~)/EFA(v)-P /DP(j VC( b b,-) ACCESSION NR: AP5018930 UR/0363/65/001/006/0943/0946 661.1:642.6 .44- AMIORA. Bondarev K. T.; BakaukKOV. M. 1. - Gollua T. Ye.; Minakov, V. A.; TITLE - Effect of abrupt temperatare changes on the structure and properties of certain pyroceramICB SOURCE: AN MR. Izveattya.'NeorganIchealdye materialy, v. 1, no. 6 1965 943-94G TOPIC TAGS; pyroceramic allizbd pyroceramic, glass structure, glass tnechmieaL property ormally crYBtalllzell AMTRACT: Samples *In pyroceramics were 6ubjected to addition: 1 invatiple heating up tothe maxbv~~wori=dngtem~perature and were then cooled to the ambient temperature. To prevint mechanical failure, the rate of the thermal changes was chosen by allowing for the Areas relaxation time in the material. The phase analysis, was carriedout with R URS-50I difEractometer. Structural changes were studi6d with an EM-5 electron microscope and Npd-BM metallWaphic microt-icope. It w-as famd that a process -Df "final" crystallizWon lasting 2-3 days and changing into recrystallizatiGn  't~ -Z~7  -BOINDI~~,O.Ev " "1.4,7", ~111 I' ~;i , ; -,A, NA, A ~ .~ . - I. rayn~ c a ~ lzv. '. a il ~-.. a.~. F2 - ~~ ,, c,:i n Y. orrv; j., e n fi -'~ '-,y o ~' g -';- s b t- :I it - iuJ c y r f -~ e 10, nat,- I no.;--~916*,I-.'1618 , o '65t, (\,I*-,RA 1&8)  ban I 60-9h&-65 DW-7(1)1 C4 P(We".-TPO )/EFA 6-0-2/ 'r. 4~ 777 Z~ ACCESSION NR: AP5018934 UR/0363/65/001/006/0969/0972 G61.1:542. 65 .-AMEHOR:-Bondarev X.T~.;-K~jlyuk .--N. - MinakoV, V-A. TITLE: -K1n(3ticB of hgtro eneous cUBtaRization of a alag oceramic V-1 SOURCE: AN BBS11. IzvoBtlya.'Neorganicheskiye, materialy, v. 1, no. 6, 1965, 969-re 2 .-TOPIC TAGS: pyroceramic, glass porce'lainj,pyroceramic crystallization, heterogeneous cry-9tallization --nu6khii6n ce-n-t-erns:--a-364-t h-, egrowth of crysti 9 ther AiMURACT: The formation 6f con were lag pyroceramic and in glass porce'sain. stuffied as a function of temperature in a -B The specimens had been subjected to a special heat treatment in a platinum furnace with a highly extended temperature gradient. Electron microscopy, x-ray Btructural anrodysis, and differential thermal annlysis were employed. Tho curves representing the teniperattire derendence of the number of nucleation centerB and linear growth of the crystals were found to be similar -to the known curves of homogeneous formation of nucleation centers and mptal growth in supersaturated liquids, and to curves predicted theoreticaIly for the cuie of pyroceramIzation of glass. The maximum quantity of separated nucleation centers ww observed in the region of a weak exothermic effect preceding the main one of the curve C13ril 1/2   Y.T., 11-and. tehhn. nuuk; MIMAKCIV, V.J'-.., in"'In.; ZAJ*Kr-,I., ir-zh. IiivcL:;tigating the composition and the nature of ches-nical heterogeneities in industrial glass. Stek. i ker. 22 no.8:13-15 Ag 165. (MIRA 18:9) lo Zavod "Avtosteklo".  L 06476-67 EWT(M)/FWP(8 EWP(t)/gI IJac) WH/Mr ~JW JD ACC NRi AR6028233 SOURCE CODES URloo8116610001009IM12IM12 'AUTHORS B*rA&r~vg K. T,; K#Irlyuk, V. N.: Minakov, V. A, 3 TITIZS Nucleation of catalyvt and crystals in certain ocIeramios 13 SOURCES Ref.-th. Xhimiyal, Part Ilp Abe. 9M REF SOURCES Steklo.Tro In-ta steklap no. 3(128). 19659, 103-109 TOPIC TAGSs nucleation# catAlyted crystallization, glass property,, glass product ABSTRACTS A study was made of the temperature dependence of the quantity of centers and growth of crystals of the main silicate phase on them in the glass of white slag- pyrocera.mic and for the purpose of comparing some other pyroceramics. The studies were made on samples which had undergone a special thermal treatment in a Pt furnace with a highly stretched temperature gradient. The soaking time was 2 hr. The temper- ature-dependence of nucleation was studied by means of quantitative electron micros- copy. The temperature curves of precipitation of nuclei and growth of-cryBtals of the main silicate phase in the slag-pyrocaramic and glass porcelain were found to be simi- 'lar in shape-to curves of homogeneous nucleation and growth of crystals in superoatu- rated liquids and curves theoretically predicted for the case of glass crystalliza- tion. However, in glaeqes tending toward liquation, the nucleation of Zn, Fe and Ym sulfides andlfluoridesQrobably occurs immediately upon ctuling of the glass malt. The curve of the number of crystallization centers as a function of the reheating temp- Card 1/2  -L-06476-67 ACC NR, AR6028233 perature of the glass has a characteristic horizontal branch. The cause of the ob- served warping of articles made of tho slag-pyroceramic has been dotormined and ex- plained. This occurs when the temperature curves of the precipitation of nuclei and or7stal growth do not overlap. The observed temperature dependences of nucleation and crystal growth in the slag-Moceramic and glass porcelain showed the fundamental pos- sibility of plotting the temperature dependence of the nucleation rate and crystal growth and theit relationship to the chemical composition. I. Hs [Translation of abstract] SUB COM II card 2/2  SOURCE~-CODE-,--UR/0363-/66/oo2loog/1716/17~ AUTHOR: '_BondarovA__4,_.Tj, Karlyuk, V. N. ,3/ ORG: none 15/ TITLE1 Controlling tho crystallization kinetics of a olag pyrocaramio SOURCE: AN SSSR. Izvestiya. Noorganichaskiyo materialy, v. 21, no. 9's lWo, 1716-1719 TOPIC TAGSt crystallizationp silicate glass, fluorine, slag ABSTRACTZ The effect of various amounts of fluorine on the pyroceramization kinetics in a slag pyroceramic was stucbnd. Meroscopie analysis showad no appreciable influence of fluorine on nucleation: as'in the fluorine-free slag pyroceramic, the nuclei formed in the molt continue to exist in the 20-5306C range. A further rise in temperature incroazes the density of nuclei per m3 and decreases thoir size.. Dobye powder pat- terns and x-ray structural analysis showed that the introduction of fluorine causes the separation of crystalline phases at lower temperatures, a redistribution of the temperature domains of their existence, end the separation of now crystalline phases. The results obtained indicatoth~titjs possible in principle to control the kinetics of pyroceramization by changing the temperature course of the viscosity curve by moans of fluorine admixtures, which lover the crystallization temperature, and eliminate the - tom.perature gap between the processes of nucleation and silicate crystal growth in C6rd t/2 um 666AI542.65  -D U-0-f:7,L,-Vr  n g a u o h. -te  AVANESOV, V.T.; MAZOV, E.G.; GUSEYNOV, G.P.; BONDAREV K.V.. : Analyzing results and evaluating possibilities of Sub-Kirmaki, flooding in the Chakhneglyar field. Trudy AzNII DN no.3:169-209 '56. (MM 11:6) (Apsheron Peninsula--Oil well flooding)  RZABEKOV, Z.F.,- AVANESOV, V.T.; BONDAUX, K.V. FXfect of surfactants (in th-~ ol-i -ing properties of sea and river water. Nefteprom.d9lo no.11:13--.16 163,, (MIRA 17:3) 1. Azerbaydzhanskiy institut p0 dobyche, nefti.  BONDAREV,L., student 4-go kmrsa --'- ~'. A single line. Vokrug sTets, no.5;6-7 NY '55. (MLRA 8:6) (Angara River--Scientific Medition)  -,-A Kolpakovskiy Glacier [with summary in French]. Rab. Tian'-Shan. fis.-geoge lab* no-1:55-64 '58. - (MIRA 12:8) (Kolpakovokly glacier)