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

1 144M-63 ER i~ CIASD ACCESSION WR3 M,-*D32B9 i*i38/63/000/006/0020/0026 AUTFIDRSs Sakbnovskiy, N. L.; Revdkovskiy, H. V.; TOT!l1t~2T, V.. F.; Brodskiyp ITTLEs Effect of Vaicardzed rubber coatInA and of test types on the type aua ,amount of weer ;SOURGEt Ksuchuk-i rezina.. no 6j, 1963, 23-26 Topic TAost wear ~ABSTRACT`t In the present investigation various types of veo in car and truck #Mae were stafted under road conditions End by teating Iftsehines.1p The ftnangs were correlated with the kind Of stock used for tGe- treed, supplemented 'by microscopic analysis of tread sections. It was found that on modern class A roads under stand- !ard''Meds and loads the tread ves wearing-off -after- approximatelv-20-000-revolu----l~------ tilqns -of --the w so znwface of the tire being smooth and showing the so-called xeftuen-im.. wear. On-,7.j on. the* othii: boAd,, the abrasive tM_6f..Wesr am :"ftce*of sharo'curvels' Incireased' them we 3:& _~wear-MOre4up itudi4d;'and'thi f U6 pe relationsbip o ot r of wear of protective stock to the rodulus and ter~sile and tear resistance Card 1/2..  L IU,09-63 GESS100 NRS AP3DD3289 :,AC chartea. Experimental evidence was obtdned that tear and wear cousea an intensive: destruction of the molecules of natural rubberv as evidenced try a 2.4 times incresse in,vDlubility in chloroform after 72 bDur8 storage at 100Cv and a tenfold Increase follovdng rubbing against a concrete surface for the 3ame duration'. Since the internal tenrerature in this case was 40C, it was concluded that the change in Solubility was due to mechano-chaideal destruction of the pol~mqr. Further support ~of this point of view was obtained by subjecting natural rubllpr tbree times to a 45C9 stretch, vh1ch resulted in a sharp3$ lonered hardness and resistance to tear. Crig. papers hasi 7 figures and 3 tables. ASSOCIATICN: Fauchno-lesledovatellakiy inatitut shinnoy proW*Bblennosti (Scien- tific Research Institute.of the TLre Industry) SUBMITTEDi 00 DATE -ACQs- 10.TU163 ENCL: 00 SUB CODEi MA NO RV SM.' 005 OTHMI 007'- Card 2/2  -BRODSKIYp G.I. In the rubber section of the D.I. Mendeleev All-Union Chemical Society. Kauch. i res. 22 no.7950-51 Jl 163. (MIRA l6t8) (Tires, Rubber)  KOZLOVA., 0., doktor skon. nauk, prof.; BRODSKIY,.,G.I.DUDORIN, V.; MITIN, S.j'NIKONOVA, L.; SAWAIATIN, N.; BUDARNA, V., red.; KIRSANOVA., I., mlad. rLd.; ULAROVA, L., tekhn. red. (Use of electronic computers in production control] Primene- nie elaktronno-vychipliteltrykh mashin v upravlenii proiz- vodstvom. [By] O.Kozlova i dr. Moskva, Izd-vo "Mys1', 1964. 508 p. (MIRA 17:4)  L h1283-66 Ed.T(d)/EVIT(M)/M(r-)/F-'IP(V-)/DTP(J)/ 6P IP(~~ITI~WP~1-)- RY11DJ- %~k)/Z 0 ArUESSM NR: AP5024107 UR/O 38 65 000/009 03 00 4 678. 063:539.431 akv AUTHOR: Kragel',sMy, 1. V.; Rezaikovskiy, M. TC; DrodgL)dy,,-Q.-I,;.NepomnyaBhe y, Ye. F. 0 TITLE: Friction-contactliatigue of highly elastic materials SOURCE: Kauchuk krezina, no. 9, 1965p 30-34 1 TOPIC TAGS: rubber, fatigue test, mechanic~lfatigue, friction, test ~nstrumentatlon ABSTRACT: An experimental study of the contact fati e of rubbers-IW12as carried out at th IMASh *th a "Tsiklometr" instrument and at the NIlShP with a "PUPS" instrument. instruments and their operation are des`8A%;a-.' To establish the behavior of Both of th the fr;ction-contact fatigue of rubbers, use was made of the elementary model of friction, consisting of a spherical indenter which simulates a projection of a rough surface and repeatedly deforms the rubb# su4ace. Curves of contact fatigue were obtained for tread rubbers based on SKBI'NKAEuroprene, and an uncompounded NK-base rubber. The contact and volume- -fatigu~-were found to behave in similar fashion; in both cases, t e h fatigue resistance coefficients were similar. A comparison of the curves of the volume C ard 1/2  L 4283-66 ACCESSION NR: AP5024107 and friction-contact fatigue leads to the conclusion that in friction-contact fatigue) the breaking stress is the tensile stress of the surface layer due to the frictional force. The data obtained confirm the relationship between the wear resistance of rubber and its fatigue resistance. Orig. art. has: 6 figures and 2 for mulas. ASSOCIATION: Nauchno-issledovatellskiy institut shinnoy promyshlennosti (fetntific Research Institute of the Tire Industr ); Gosudarstvennyy nauchno-issledovat6l'skiy institut mashinovedeniya (State Scientific Rese airch InBtitute* of Machine Science) SUBMITTED: 00 ENCL: 00 SUB CODE: MT NO RE F SOV: -009 OTHER: 002 Card 2/2,1,P  1-1 35040-65 WT(m)/=.4c)/FVS) ?c_4/?r_L m4/Gs ACCESSION NR: AT5004094 S/0000/64/000/000/0021/0030 AUTHOR: Reznikovskiy, M. M.; Brodskiy, G. 1. TITLE: Characteristics of the wear mechanism of highly elast-1c materials SOURCE: Nauchno-tekhnicheskoye soveshchaniye po friktsionnomu iznosu rezin. Mo5cow i9bl. rriktsionnvy. izros rezin statey. lzd-vo Khimiya, 1964, 21-30 TOPIC TAGS; rubb-3r, rubber research, IT resistance, rubber property I ABSTRACT: The wear, mechanism in rubber is a complex process which depends on the combiuation of conditions which are characteristic of the operation at the point of friction. The basic problem in this study was separate conside-a7ation of the most characteristic mechanisms which corresDond to the most important limiting con- ditions. Photomicrographs of three characteristic types of surfa,~e w~~a- r*i~)ber- are given: abrasive wear, fatigue wear, and wear bv rolling. T~;,~ *h,,.,-' ~t wear results from the destruction of the surface laver of r,A)l1er formations of surface irregularities. This type of wear is chara~~ter~st:;- highly elastic materials and does not occur with solids. Orig. art. has: 5 fig- ures, 2 tables and 3 formulas. LCarj 1/4  Card 2/4  1-35040;~65-e ACCESSION RR: ATS004094 Crrd _3/4_ Al -Jj:W "i 0 ENCLOSURE, 01 (b) (C) Fig. 1 Characteristic wear of rubber under different wear conditions a- abrasive wear; b- fatigue wear; c- rolling type wear  --------------- --------------- Fig. 2 Different stages of rolling type wear when rubber is rubbed against a smooth anti- body Card 4/4 &%mmm,niogm- W- 4 W;  m F Fc L V ACCFSSION ~M: AT5004099 0 M. vskiy, M Remik k-l d .. s A17HOR: Bro y "t g', 4~qr z rvbber ionnomu iznosu rezin, A'lOScP";, f weshc T~"q g,,~ souRCE- Nauchno-tekliniches'kLoye s( Itai - of rubbe-A.. --sl;o -0 icanyY iznos rezin -M F s , 1961, - 106 5 - Izd-vo Knimiyj, 1964, 9 ynthetic rubber, rubber -ear, frl-t"" TA(,c itur-M nibber, s -rnp,( n., effect of abrasive surfaces. of atmosp!ieric ()x) p:;: 4 Tb e AF~STRACT: r-L an' ~)muhf ers was detf-m. m- - - - - t u ,i i . i Q 3 P. the - u~l SUri 0 ' ne_ DOU tYT di t I ~_ u a e lij5lau -was lu" tic rdb -determinePi4ir c, ro- el- th Th t t e e of natural or syn ts -ind with various cnrbon blncl~ flllor_~i. dd an presence or absence of antio) 1/3 Card  I g ~-M t-, F~- F ACCESMON NR- AT5004099 Grassell Or tial o on f thP sPecimen during wear tests Poten A P T, l t k l O vol ti T- ~i-nd bj,qf~V "-as Lnurf0a;1.1  L 3oo94-65 ACCESSION KR-' AT5004099 'd on nntural P1 rctmost:,ti- V-tnntiai (ESP) renerated during friction ,md wimir wRs MeA." 0 u f.~,r xom-. Sakhp~)_vsKiv and i. in NO R F FSOV: 009 OTHER:  f T.,; -1 P G,: j'P14 rN. Pl /,-)I S/0000/64/000/000/1'l- AT t I Q v1 t-r r! C'r! C) o 1; ~AT T G, Merczhanny Brodckiv 77--S. B. NPW a ~~er -under rolling contact TITLE: brasio-n testeffor rubb Oz SOV-RCT . Nauchno-tekbniches1:01-e ---hchaniye no friktsionnomu iznosu rezl sov"S I - T-t' os re r nr il"i,er --; I ~j -~ I-iet o--! wea COW, IIJUI. Eli: likL-- -Lonnyy ign na d 1964, 183-191 -7,10scow, Iz -V0 Fli-miya, TOPTC -I %L5: rljbber wear, rubber a .brasion, frictional-vear, abrasion tester ABSTRAGI : An abrasion leoter ior rubber under rolling contart witI, cor+-rolled P slippagt~ on ren-evable abrastve surfaces and its application are descri6ed. j, I - -T ilyfhlennopti (Tire PTOr ion r3 'I is C(-.1LI 'orce api 1C -rE- 'IyEpared ty vulcanizatioj,, tested at F, given slippage S and given fri~:tion lorce) r, Card 1/4  ~.Lclr" -Z-65 ACCESSION NR. AT5004104 given load B on the specimen, or at given f-.Jction force and given loa6* Yhe te5t- ing procedure is dec;cribed in duetall. A formula is given for preparing a standard - r e n,-~, E:'Villg Lle airaslv;E~ vuic~71'nizate' . I . ~ Z - is !a1culaLe(i by P.-Isented 3quations from Tr-'as"Ired -face. Wear voluLotric loss to the LO ric loss F 2 f ASSOCILIMClo: No't~. 1-.1 C L: L7- i~D: NO REEP SOV: 000 000 Card 2/4  1 40,56-3-65- ACCESSION im.- AT5004104 ENCLOSURE: 01 49 p 3  ACCESSION' 'NR: X15004104 ENCJDSURE: Figure 1. The UIR-1 machine for evaluating the -wear resistance of rubber.- le- 4-londing device: 5-load-, 6-sample he,-,ter- 7-guide 1-drum, 2-carriage; 3-samp Lind 11-1,rakinp. wheel, 12- c,ral:~ i:i.-, C0,_d 4/4  0 so 0 0 0 11 341 al 116 11 UIJUJIM III$ fix Pat< a A the malm are digmvwd. 0 0 0 0 a a 0a a 0 6 III DUIVMZYXII~mll v 33 Ili$ )4 v Anv 41 Q 11 -1 IS - MOSImi 1931. No 1-2. 40-0- ~, I -0 0 PititithreftitieturfftinishRk-oil, PrIt"rraultsorr Is 1o"1. and still lectler It the phrool fraction, ob- I 107v NaOl I soln.. is uwd. Details of working up If. NI LICICT,11ITIrIt too see A 0 A 0 ASG.SLA m4TALtURGKAL LITIMATWE CLOSIFICAUCk C-Z- .20.1 III's A- S.vc.. .1. -1 t! _;_ ___j 0 _f__r An U 1 9Of 001 Ir be Al a 3, 0 v U 6 1, so 'Ile at Ivollopot wit I(St It It x KID n I1R4 en 0 0 o 0 o 0 0 0 o 0 t 6 * 0 0 0 0 9~ 00 0 0 0 4 0 01 : : : : :~;: 000000 * 0 0 00000 0 0 0 a 1:0*-* 006 - 000:  a W a s A, 0 0 0 0 0 0 a 0 a 0 0 ofil-67WIG ' 111 0 0 0 0 0 111 a 1670"WIAG 989t00480000860 -C if W H 14 31 k If 3v AD 41 4 43 are 3% 16 X A P~-L-A-L_t V ; 0 AA N M U46- A f I , 4 M A-D 1.0 o6offt 1 : f socissts A** Oacrtatols two($ _00 0 v"dWb of Obak tm wak &Wbydts. -C o S.N.UlbakuwWWO.S.11todsitif. Rues. 31,013, Oct. 31. C 1933. 7-be the presence of &0 an eddic or 9A. catalyst, mal-ly with s pmotloc-strippcd I-, O-WD' or of the &UmH k-all t w b f lWtk b f ti . m o a s a rec eat. ol this Am, wbcrtby the coadcuation product is fned from bydrocarbom by washinS. w3d the raixt. is 00 dried towthcr with fillem. . 00 .00 & 400 00 coo 00 =00 00 00 a 0 0 i0 ' !:Zoe 00 001 ASM.SLA MITALLUAWCAL LIT164TImIl CLAIWKATICII 00 110 k 0'J .10 CWv oat S?00 U AV to it 0 0 0 0 I F It It on It it ow 01 It is it it 9" 0 0 - 0 0 0 0 9 0 AAA toodo Nallerm!)" 91 40 on 11 1 .14" d44 0 6 CIS 0 0 0 0 0 4000400000 so : ooogoo* oooooooooooooes ooo~oosesoooosoosooeqlo i  :1 It 11 m 11 11 1$ IT 29 T It zi a IT 15 it .1 .0 it x A 11- L M j I AA 14 Cc tv 11~1 it 1: It M D b V 9 c 1, 11 ii it r A , A I A Po"ibWbu jor Mg un 01 sioropt, in pl&&Sc com. I T 3 ('a-Vs1-Ya- Ptagidskic assm- "As"C" PmPd- tFOW P&Pnnxl have rather jxxvr proWtim. ale If M. Lelmtff 00 * ~62 ASN-SL A -ITALLUPrKat LITIROURE CLASSIFICATION u it AT INO It IT tt It it or 44 cl 91 rt If 00' : : : : : : : : : : : -09 -00 go Coo Coe 0 :zoo AD n 1 14 41 1 1 Oil 0 9-iW�i-3430~l I 0 * 0 0 600 : : ::: 0 : : : : : : : : : 0 0 0 * 0 0 si A  ka 0 0 0000 0 0 00 & 0 00 1 4 1 A 1 9 0 is U 11 m is m 11 to a is z? a Id 5 is v x )0 oil 'Vi3ida bL, it jr a v #2 a)m 00 A AA -0 AZ M-U' V~ TL-j A AL 0 pm- tims of auk an aft tw=aumy& to fan "Odueb 00 simbw ft restil. 'I;. N. Ushakov and G. S-DrW-kil. S i d K i i apo am oor l mat W TymAhrlof Prow. Lexioltradf, P144mailui 1, MOM ' poctionImmshakoil.b M)-32t) ,giv",md%fwt(wyrr%iu% with ClIjO twhelm NsOll cw XYM ;% used " calitlym. 4id R l bi I Ui b t- e ua o ng neutral od in the min wt, a- a l( - -0* l4vok im. but tends to dmvmpUe at hirb tmlp. and -00 00 see 0& a .., .09 sea 00. 00 00 Nee !ties Alft.$LA OITAMUKAL -to 049 041 2141114-1, 1-9 -a~ vl.;W-;..T III OK 19 U s AV po is I* is fa It 6 K a t[ kt 14 *A II Itno. 90tv Ov 0 0 0 & a 0 0 0 0 *Is 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 10 0 0 0 & 0 0 0 0 0 0 0 * 0 0 0 0 Ole & 0 6 0 0 0 0 a 0 0 0 0 0 0 0 0 st Oi  00 84 00 &0 0 :0 -0-0- 0 o 0 0 0 goo so & 6 0 0 0 0 0 0 11 U I) M is 16 U a 11 v 2) 34 a 36 J7 22 -A VIU-A-L-M to M to 1 fit -b 1~ V.0111 - - 00 00 a 00 Igo Of U 00 a 00 fl ov 0 c 0 0 0 0 a 0 iso 'JO v 17 1) M 0 h A7 jr P 4, 14 42 4) v tsne b j -J.-t fiftedudindn at MWRB =4 Pbftol-"Wdtd P-dM- G.S.Drod"MOS.S.Tsitomerman. -00 Prose. S. S. S. R.- Smuch.4111"Id. -00 PidjilAtskikk Afair.. Plailkh"W AfaisY, SbmW 2, 199-20905137).-Mw powders of Ushakov and Prddb,,, it' the P- Of 6-5v. 2M$ " d M be d 39 A C -00 . . Kn . . P P , ) WQA)~ added in 2 portiosts to PM-veUt too rapid coadensa- 00 tim. 11 this omvili~thc lvduA will contain mom than -00 10%freePbOHnadlosvepomprWertics, Forhomopne- 9*0 shad^ be diawslyed in ous distributim W Mack Pi = PhOH osd &4dkd beface The pcmder =00 should be, ps into forms at IM-W. H. Nt. L. =0 0 Is ~ i. :j A_ L 1AMIRCKAL LIU4410t CLOSITSCA110% ass roo coo gee zoo goo we* -zoo bo 6 to 0 0~1 Islas., 0- 0.9 0 U0 AV 10 '1. T- I -FM Dd 0 M I Ir 64 9 a 1W " a P is I* it 0 a q a K It ft It K KM n I so 0 0 0 0 04 0 0 0 0 0 0 0 0 0 0 6 0 0 00 IN 9 isil 0 0000000 0 IN 0 0 o 0 0 0 0 0 o o 0 o o 0 0 0 0 0 o  too ISM AL Md JL IL Povx,!w dim, 00 my b# 7u AA lot as a 4~b , ". 1~1- I OdA16 R. T. "80 *of .00 00.1 WOO t 010 " I o : 0013 no so.) ago too a 00 log 16 00 . ago! Also 'woo 190 Ute"Taw CLAMPICAll" So* 11,00 woo "Dow.&* 401 44pt assnag- SkiAll DOW iff u goo  004 "D &to-�V. racist ' PIROCISS15 A"D PROP1111116 moll 0 00 4 09 a 09 C 09 a goo T;f 7semml 11. No. 9. 3-7 000 ' A view oil th prewar. sowflumit, " puillwat 4 1W.I.Sem. of The Skvtiet m krat incluory. M. J10wh goo see we* slow 11.1oliv. AEG. lo"InIf too IIIIIIIIJ .10 a., off AIIAIII ow 0.1 414 19 AV NO AS j go a it K Zo a, 1 1 ma I S a ad 0 IS 9 1 IF No 9 a ;: a V j  Insciluble pbgoIjaId, dF resins. 01111 GI. IZ~4r - a 4 1 Tr 71u, Al. c T With a] "I hilliflol by Ow 1, 171 M. I 7-,,r 1.11101iflaff-d fit: ~1+111111911 WIR aloill lilt, 1w W lw:tt bromi tktctir (163-de rcsills trit-V Pt()(T1-I'e=vtarc 111gilly it ktant f. IvalvT and cliviiiicals. nud are sol. in aliplialic and nitituatic liv. -d bint-da-%.  BRODS=I--G. S. a paper on chemically-resistant plastics and their prospects Presented at a conference convened by Glavkauchuk and the Leningrad section of VNITO, (VNITO Rezinshchikov). Leningrad, Goskliinizdat, 1955, PP. 143. full abstract filed under LABUTIN, A. L.  Al- L4, I ti cl ri fw uac uc  BRODSKIIZ, G. S., Cand Tech Sci -- (diss) "Study of thermo- reactiVe phanol-fornaldehyde-polyvinyl-butyra1 resins and their technical application." 140s, 1957- 2A 19 sheets (Min of Higher Education USSR, Order of Lenin Mos Chem- Technological Inst im D. I. Mendeleyev), 100 copies. rm4II_j-;IY-L Printed by duplicating prooe" (KL, 1-58, 117) _ 44 -  . T -7 IJ f Ij ~ ~ T _-, . PITROV, G.S., prof.; BRODSKIY, G.S., inzh. Substitutes for lead-tin solders used in the automobile industrr. Izobr. v SSSR 2 no.9:23,26 S '57. (MIRA 10:10) (Solder and soldering)  z PWROV, G.S.; RABITS, S.M.; 3RODKSIY, G.S. Highly durable materials for plastics bssed on rubber and formaldehyde-phenol resins. Izobr.v SSSR 2 no.10:11-12 0 '57. 1 (MIRA 10:11) (Plastics industry) (Rubber, Synthetic) (Resins, Synthetic)   AU"IAORS: Sokolova, A. A., Bogomolov, B. D., S-OV/156 -S--7'-'0/-'2 Krupkina, F. A., Brodskiy, G. S., Afanaslyeva, , V. TITLE: Alkaline Li,-nin as Initial Substnnce for the Prodnetion of Plastics (Shchelochnoy lignin kak syr1ye dlya proizvodstva plasticheshikh mass) PERIODICAL: Nauchnyye dohlady vysshey shkoly, Khi.,--iiya i I.-hi:n-icheshaya tekhnoloeiya, 1953, Nr 3, PP- 556 - 553 (USSR) ABSTRACT: Alkaline lignin represents a valuable ntartinj material for the production of plastics, since it contains reactive ~Youps. The --uthors prepared samples and determined the technical data as well as the physical and chemical properties of products of alkaline lignin. The optimum nothod for the prodrction of phenol-li,_-nin formaldehyde resin was determined. Based on inves- ti.-ations on the physico-chemical and electric properties of the pressed samples the following optima mixture was -,-.,orked out: phenol 100 parts, lignin 100 parts, for-,-,ialdehyde 17 parts, sulfuric acid 2 parts. By using this formula in the production of phenol lignin formaldehyde resins about 50-., phenol and 40~' formaldehyde can be saved. The stability of all:aline li~~nin in Card 1/2 storing for 2 years was investi,,.,ated and the results obtained  -Alkaline Li.-nin as Initial Substance for the SOV/156- 5-8 -4 a2 Prodliction of Plastics showed that the alkaline li.-nin is subjected to a chan,:-e of its structure, vith the formation of acid -,roups Pnd :in incl-Qnsc of the oxy groups. There are 2 tables and 2 refore-nees, which are Soviet. ASSOCINTION: Wedra ~,r~,aiticherikoy khimii i khimii drevesiny Arkhangellsko.-o lesotekhnicheskogo instituta (Chair of Organic Chemistry and Cellulose Chenistry at the Arkhan-ellsk Wood- Technical Institute) SUBIHT]M: Pebruary 15, 1958 Card 2/2  PHASE I BOOK EXPLOITATION sm14592 Moscow. Gosudarstvennyy nauchno-issledovatellskiy institut plasticheskikh mass Issledovaniya v oblasti termoreaktivnykh plastmass (Investigations in the Field of Thermosetting Plastics) Moscow., Goskhimizdat,, 1959- 98 P- Errata slip inserted. 1,000 copies printed. Sponsoring Agencies: Gosudarstvennyy komitet Soveta Ministrov SM po khimii; Gosudarstvennyy nFLilchno-issledovatellskiy institut plasticheskikh mass. Ed.: V. M. Yurlyev; Tech. Ed.: Ye. G. Sbpak. PURPOSE: This book is intended for chemical engineers and technicians,, and research chemists interested in tb8rANMttJA9 P3"tiQ&- COVERAGE: The collection contains 11 articles which reflect some Soviet efforts and achievements in synthpsizing plastics with special phydicochemical proper- ties, i.e., water-, acid-, heat-, and arc-resistance. No personalities are mentioned. References given are mainly Soviet and English, with several  .Investigations in the Field of Thermosetting (cont.) SOV/4592 French and German and accompany the articles. TAMZ OF CONTENTS., Petrov, G. S. (Deceased), F. A. Krupkina,.gj-B.--Brodsk1y and M. N. Bragina. Molding Mg."rials Based on Phenpl-Furfural Resins 3 Petrov,, G. S. (D!!ceased), S. M. Fabits, and'G. S. Brodskly. Phenol- Formaldehyde Resins Combined With Rubber and Molding Materials From This Combination 10 Pevzner, L. V. Water- and Acid-11esistant and Electric IhOolatink Phenolite and "D--korrozit" [Similar to Pbenolite] Plastics' 15 Petrov, G. S. (Deceased), and R. Y&. Fiskina. Thermosetting Resins From Furyl Alcohol and Their Use in Ind~stry 31 Izyumov, B. D., and I. P. Fanfilova. Heat- and Are-Hesistant Organosilicon Molding MELterials 45  6 1 3/19t AUTBOILS.. Loyrikb, T. E., Antanc,a. 1. T., Ss"I", T4. A., P TITLE. properties of Caner*%* Vith ?urvl "I line Basin k4lition PMUODICLL: Plastichiskiyo ai%toy: 1960, go. 10, yp. 8-42 TZIT. This is a report an the, iz;r"aaont or concrete propwrtios by the polymoriiation of furyl alcohol with aniline. lri4ino %s adlel at a hydrochloride. Puryl alcohol added to the cement suafp,mjl~n (20A). I t I if I 'r or down the concrete structure forz%ticaj 5~ C&Clo "a th.r.~r. dl. . scool.rabor. Th. addition. of hydrochloride of "LILr.. 10 TLrL*I, depending on the do.irod concrete properties, botwt*n 5 and 1=,%, referred to 1`~ryl alcohol. The rosin is formed under 11toration of theat . The liquid Lddltion is calculated by the -4u%tions generally in use for ordinary ccncrvte. The concrete prq;arw. from differ-at kinds of zemtot &ad aggregates with a furyl "Lline rosin zontont-vas tooted for -.-a technological properties. An_)A -116 (1-116) vibra-cr anr~*4 for to ' 6 Cord 1/2 o.dvn-t1vn. T.. foll.-ine, &I--A of tt.;,r ... i,. str:a-glh .'re fa~-l ' for zoacro-4 with * ratio 'Lquld ; b-4-31re Agent (cizmnt Plua R -emqa,t jr the F.2tz 0.45: ?or-Io.=d j sft-r 1$0 days 3 4 k C/= a Portlaid cement f typ an -nd.r t 2ry) of- r 160 1 Mikoljo,akly alod (111kalyw~ r-c ' - 2 ft l 90 d 4 't l er a ays .iotac. . The ,,jzp&4t xdo~tq wayor.tion 576 kg1cx 5 ~ k6-z/cm3; for 3v or d cv3cn- camwfmtt*5,1)k c=/az f r DTT g - o o g. , (W.35% more that in crdlamrs concrete or the bonl - - Z0 w4*a 9. 1 . ~.I 0. (&a between can-rwt* sad minforctzoit rx~njtd b* a c.c..t,), The chemc.1 .-ability as. aSsi at 0. to &" 0.15 in ordinary c f!N" o-1. =wino we-or. tooted to V4mssy getrol-z, k.r..ono. g4vjil, fainora. And ground toter from ;ovonl~ horlz=l. "I -mp'ov -M~Itol 6~oi -a #&-9r j;.r=,i%btI1ty s. for stability over 4 6-month t..ti,.,r t 70 -to) and A -72 (,L- 7z) go- LI.- t .)..c,.d that 6. , thick concrete roaained iapor-ible fz, !C are 4 fa-g-Ir.. And 2 table.. Card 2/2  S/!91/60/000/0!0/012/0!7 B004/BO6O AUTHORS: Rips, S. M., Brodskiy, G. S., Lavetskaya, A. I. TITLE: Cooling of Phenol Formaldehyde Resins by Spraying PERIODICAL: Plasticheskiye massy, 1960, No. 10, PP- 53-59 TEXT: The authors mention the rising production of phenol formaldehyde resins in the USSR, which brought about an enlargement of vacuum boil~;rs from 1.5-.2.0 to 5.5 m3. Boilers with a capacity of lo m3 are already been planned for new plants. As compared therewith., the cooling process islagging behind from the technical side. The following current methods of cooling the 100-1300 hot novolak resin are mentioned. The resin is drained from the boiler into open vessels which are cooled by air or water. Cooling plates are used for the purpose. The hardened resin is manually removed from the vessels and is then ground. The cooling process takes B-10 h; the manual treatment is noxious to health. The followiag previously suggested improvements are discussed: 1) The resin is passed through a screen, granulated in water, and conveyed to the mill by a conveyer band. 2) The resin flows onto a water-cooled disk and is Card 1/4  Cooling of Phenol Formaldehyde Resins by S/191/60/000/010/012/017 Spraying B004/BO60 scratched off by means of a rotating knife, 3) The cooling ve~-sels oontain chains by means of which the hardened resin is lifted cut (method of the Sverdlovskiy zavod - Sverdlovsk Plant). 4) Method by V. S. Titcv and B. A. Preobrazhenskiy: The resin flows toward the ascending air through a screen in a 4--5 m high Pipe- 5) ChairBare passed through the collecting vessel. The resin solidified between the chain links is removed by the chain pinion. 6) Cooling on a metallic conveyer band passing through water. 7) The same on toothed rolls. 8) Blowing of resin into an air flow. In methods 1--7 grinding is always still required, while a too voluminous cotton is obtained with 8). The authors propose the following course (Fig. 13). The resin is pressed into an air-oooled tower by means of nozzles (air pressure 4-6 atm), drops onto a grinding ventilator and is separated as a fine powder in a dust catcher. Resin No. 18 was comminuted in this way. The molding powder obtained therefrom (by the methA of the zavod "Karbolit" - "Karbolit" Plant) type K-18-2 (K-18-2) sati-sfied the requirements of FOC-P(GOST) (measurements were made by L. I). Andrianova), The authors carried out a calculation of the technical d ta ~oncerai%g this method and a comparison with cooling on rolls. 7 m~ of air of resin were needed. The heat capacity in roll cooling amounts to Card 2/4  Cooling of Phenol Formaldehyde Resins by S/191,/60/000/010/012/017 Spraying B004/BO60 2 I/M2. 42 kcal/m C-h, and 180 kca OC.h by the spraying process. The use of rotating disks instead of nozzles is said to be inadequate, because the spraying power is too low, and cannot be made to fit the production volume, which is possible by the operation of several nozzles. There are 16 figures, 1 table, and 5 Soviet references. Legend to'Pig. 13. 1 = melting vessel, 2 = compressed air, 3 = liquid *resin,.4 = compressor, 5 = nozzle, 6 = air, 7 = spraying chamber, 8 =*pres- sure fan, 9 = dispersion rotor, 10 = electric motor, 11 exhaustor, 12 dust exhaust chamber, 13 = cyclone, 14 = exhaustor, 15 place of filling, exhaust  s/,191/60/ooo/oIC/012/017 B00413060 Rix! Cxota oxnamizemin n AHcneprjfr~oq~~pjjjj Card 4/  KAMN, Die [Cunneen, J-I-1; MHOMY, G.S. [translator] Cis-transigomerization of natural P02yisoproneo. Kauch.i rez. 19 no.10:59-6k 0 160*' (MIRA 13:10) (Isoprene) (Ioomerization)  42736 S/852/62/000/000/010/020 B136/B101 AUTHORS: Piskina, R. Ya., Brods y TITLE: New anticorrosive materials based on condensation products of furyl alcohol SOURCE: Primeneniye polimerov v.antikorrozionnoy tekhnike. Ed. by I. Ya. Klinov and P. G. Udyma. Vo scow, Xashgiz, 1962. Vses. sovet nauchno-tdchn. obahchestv., '75-87 TEXT: A large number of furyl and furyl phenol formaldehyde resins, either purelor modified with polyvinyl acetal,reaia,-epoxy resin, or other resins, were synthesized from furyl alcohol obtained by hydrogenation of furfurol. The furyl resin JA-2 (FL-2) is soluble in:alcohol-acetone mixtures but insoluble in gasoline and kerosene. The tima of gelatinization is 47,201, at 16o0C, and 52" at 300 0C, where zne resin passes over into a resite-like state. Water containing levulinic acid and traces of formaldehyde is liberated during polycondensation. The content of hydroxyl groups drops with decreasing content of free ~uryl alcohol. This proven that OH groups react with hydrogen at the alpha position in the first stage and that Card 1/3  3/852/62/000/000/010/020 New anticorrosive materials based on B136/B101 polymerization occurs at the double bonds in the second stage. FL-2 solidifies at 18 - 200C in the presence of acid catalysts such as naphthalene sulfonic acid, Petrov's contact, p-toluene sulfonic acid, D-toluene sulfochloride, aniline hydrochloride, etc. At 150 - 1600C solidification is accelerated in t~ie presence of boric acid, maleic acid, and other acids. FL-2 displays good impregnating properties, strong adhesion to various materials, high heat resistance, and stability against acids and lyes. A resin with a gelatinization rate of 20 - 9011 at 140 - 1500C was synthesized from furyl alcohol and from a water-soluble phenol formaldehyde resin containing many methylol groups (phenol alcohols). At 80 OC, the resin becomes a very mobile liquid which polymerizes rapidly. Solidification sets in even at 140 - 150 OC. The resin, which was designated 'til(FL), displays good adhesion to metals, plastics, concrete, glass, wood, cement, etc. The fu_rYI phenol formaldehyde resinif-8 (F-8) was obtained similarly. A special furyl aniline resin muaes it possible to obtain concretes that are impbrvious to water, gas, and gasoline; the resin may Card 2/3  S/852/62/000/000/010/020 New anticorrosive materials based on ... B136/B101 also form inside the concrete. Other cements mentioned-are ~Jj-l (FL-1) and Vr4 (FL-4) filled with graphite; T -10(F-10) and'~-9 (F-9) which are furyl phenol formaldehyde resins modified with polyvinyl acetal;(�-7-F (F-7T) which is made from furyl phenol formaldehyde resins combined with polyvinyl acetal in a mixture of alcohol and ethyl acetate; and V-4C(FL-40 which is a - furyl formaldehyde acetal resin combined rith epoxy resin *. The beat anticorrosive properties are obtained by using hot-cured cement based on these furyl resins with graphite, microa8bes*tos,- and other fill-ers. The newly developed resins are stable against acids and lyes but unstable in an oxidizing atmosphere. There are 2 figures and 2 tables. Card 3/3  UMRIKHINA) Ye.N.; BLAZHEAT10H, V.A.; STALINOVA, 11I.A.; JLAY-pVSK,1,yjjj V.I.; BR.ODSKIY, G.S.; RABINOVICH, A.B. Use of plastics in the sealing off of the flow of stratial waters in oil wells. Plast. massy no.8:36-40 164. (MIRA 17:12)  JL-293746 E va (M)IF. PF-~)AWPOJ)/iIETC(m) WV/RM- ACCESSION NR: 'AP5024395-.-- UR/O?26/65/000/015/0079/ 0. AUTHOR#.~ Brodskiy, G. Sh.; Krol', H. L. S.; Krqpkina, Serapegina, 0. A. !TITLE: Preparation of porous material. Class 39, No. 173401 SOURCE: Byulleten' izobreteniy i tovarnykh znakov, no. 15, 1965t 79-80 170PIC TAGS: foam plastic, resin, polyethylene, phonolformaldehyde NO RER SOVI 000 OTHER: 000 (~Q) -Card ABSTRACT: An Author Cert~jicate has been y4esued for a preparative method for a water- -and heat-resistatitFtoamed vlaBtieftased on a formulation involving a phenol- formaldehyde resin (nonMD(Yfied or modified by furfural-acetone resin) and poly-- ethylene. ~15 - 43- [BO) ASSOCIATION: Nauchno-isoledovatel'skiy institut plastmass (Scientific Research Institute of Plastics) SUBMITTED: l4Aug63 ENCL: 00 SUB CODE: MT ATD PRESS., fto/  BRODSKIY., G.V Morphological changes in congenital listeriosis. Akush.i gin. - no-4:103-105 161. (MIRA 15:5) 1. Iz 3--boratorii mormalinoy i patologicheskoy morfologii (zav. - prof. B.V. Kulqablco) Instituta. alusherstva i gine- kologii (dir. - cblen-korrespondent XMN SSSR - piof. P.A. Belo- shapko [deceased]) AMN SSSR, (MOVONUCLEOSIS) (INFANTS (NEWBORN) --DISWES)  BESKROVNAYA, N.I.; BRODSKIY, G.V. Case of malignant degeneration of a parsovarian cyst. Akush. i gin. 39 no.5:151-152 S-0 163. (KIRA 17:8) I..Iz otdeleniya operativnoy ginekologii (zav. - prof. M.V. Dubnov) i laboratorii, normallnoy i patologicheskoy morfologii .(zav'. - prof. B.V. Kulyabko) Instituta akusherstva i ginekolo- I. gii (dir. - prof. M.A. Petrov-44aslakov) AMN SSSR. I  BRODSKIY, G.V.; YEIGORCIIIA, A.P. Effect of Listeria infection on the outcome of preo.-nancy and on the fetus in inf(cted rabbits in various st-ages of pregnancy. Akush. i gin. 1,0 no.2:18-24 Mr-Ap 161,. (MIRA 17: 11) 1. Bakteriologiclieskaya laboratoriya (zav. A.111. Y-3.gorova) i !a- boratoriya normallnoy i Fatologicheskoy morfologii (zav. - prof. B.V. Kulyabko) Instituta akusherstva i ginekologii (dir, - prof. PI.A. Petrov-11-laslakov) AMN SSSR, Leningrad.  0-YO. ip.jj.',rAi.or for sinz!C-TAP~' f Lc-.,,;-through SY5tOMS ir, foltoma-ric ri . 1. central he t . .. J! r,,), 18~-!V-188 16~, .riding. Nwich. tri7dy :k-;, 17-?"'  1. BRODSKIY, I - 2. USSR (600) 4. Electric Current Converters. rram for a vibro-converter in an intensified KRU-2 radio network on a 7. Wiring diag collective rams. Radio no. 12y 1952. 9. jj~ List af ssian Accessions., March 1953. Unclassified. an Accession Library of Congress, ._ hL_ _  BRDDSKIY, 1. Change the wages for workers making models. Sots. trud no.12: 98-99 D 156. (IWA 10: 2) (Ingineering models) (Wages)  BRODSKI ... iTF;,~- --, ~, I ... Ilormalisstion of the Staffing of specialized research institutes. Sots. trud no.7r92-95 J! '57. (MLRA 10:8) (Research) (Personnel -.mnap-eqwnt)  L E7i~ F, T, ACC NRs Al~,02(634 SOIR. Cv. CODE: C Z O034jG6[G00/UUWVZYWUZ~~f IINENTOR: Chvorinov, Ii. (EnGimuer); Snrha, L. (Engineer); Brods4t',-I (Ene-Aneor) ORG: none TITLI-: Shapes for steel or alloy steel casting througk tke bettomi Claas 31c, No PV 4567-65 ~PW,.LCE; Ifutnicke, listy, no. 4, 1966, 294 TAGSs metal casting, metal surface, steel ABSTRACT: The article is a summary of Czechoslovak Patont Application Class 310, 14, PV 4567-65, dated 17 July 65- The basis of the inventiori is the fact that the part of the form which contacts the molten metal is hollowe Slag feridm powder is Added directly in the casting shapes; the process proxid" ingot@ vith iWroved 'iarfaoes. Origo art* has: 1 figuref EJPkSt 360649 SUB CODE: 13 / SUBM UTZ t now Card 1/1-  S/133/61/000/007/002/0-17 405VA129 AUTHORSi TITLEt Shmrga, Lyubomir., Brodakiy, Ivo, Engineers The application-of exothermic mixtures and inserts in heating ingots PERIODICALi Stall, no. 7, 1961, 598 -'604 TEMs In the Vitkovitakly Metallurgical Plants (Ostrava, Abstraote2% note; Czechoslovakia) exothermic mixtures were applied in heating ingots, in view of the possibility of controlling their chemical reactions, utilizing their heating ca- pacity and preventing their effect on the chemical composition of the metal. The calculations of the economic effect of various exothermic mixes gave the following results I Ferro-alloy ThIermio mix Exothermic mix mix Amount of head crop % 8.o 5.3 5.3 Spec. consumption of the mix, kg/t 0.9 10.0 3.0 C ard 1/ 5  S/133/61/000/007/002/017 The application of exothermic mixtures and... A054/Ai29 Cost of the mix Czech. crown/t 4.05 19.40 13-90 Saving in rolled product, crown/t 9.50 17.15 22,65 The most efficient use of exothermic substances is applying them in the form of in- serts (whereby the head crop is reduced from 8 to 5%). In order to prevent the formation of'shrinkage cavities, the metal of the ingot head must be kept liquid by heating until the ingot solidifies. In 650 kg ingots (with 250 mm sides) this takes 16 1/2 minutes, in 3,850 kg ingots (with 580 mm sides) about 88 1/2 minutes. The exothermic inserts known hitherto - which burn much too short a time - are not suitable for heating 3,850 kg ingots; their service life Is also short. A new composition was developed for this purpose, containing 20% aluminuM sleet, 50% oxidizing agents, (nitrates, bases and fer-ro-oxides), calcined chamotte and slag, to make the mix porous, to provide heat-insulating properties and to delay reac- tions. As binding agents synthetic resins are applied. By increasing the ;Aluminum content of the mixtures, the metal solidifies more quickly in the ingot head. In order to increase the effect of the exothermic mix, the dozzle should be lined with Card 2/5  3/133/61/000/007/002/017 The application of exothermic mixtures and... A054/A129 a heat-insulating material, for instance with foam-ohamotte. The gap between the exothermic mix and the heat-insulating layer should be filled with a porous sub- stance permitting the gases to penetrate which are produced during the burning of the insert. To ensure an efficient and rapid heating of the steel surface from above, the following methods were tooted: the dozzles of three ingots were provid- ed with exotfiermic*packing (at the sides), while, moreover, two packs containing g 4 kg, were added on the surface in one ferro-silicon + sodium nitrate, each we ,Ighin ingot. In the dozzle of the second indl besides the afore-mentioned chemicals 4 kg exothermic bricks were laid on the surface, with the same composition as the pack- ing, only the ore-content was lower and in the third dozzle only exothermic ' bricks (5 kg) of the same composition as the packing were added. In or-der to prevent the carbonization of the metal by,the insulating mix, the ingot surface has to be coat ed by sand. In the first ingot,the head decreased by 1.5%, in the second by about 3%. Due to the application of ferrosilicon-containing mixes, however; the metal was enriched by C and Si on the head surface, and during shrinkage these C- and Si-enriched parts sank down in the middle of the ingot. Better results were ob- tained in the second ingot with a 3maller amount of C and Si in the central parts. 7he third ingot, to which only a 5-kg pack of briquettes was added on the dozzle surface, displayed deep shrinkage cavities. Based on the tests it can be astablish.- Cax,d 3/5  3/133/61/000/OC)7/002/017 The application of exothermic mixtures and... A054/A129 ed that It is useful to combine the heating of the ingot head from the sides with heating from the surface. In that case a head of 4% can be obtained and no chemi- cal change takes place in the metal. An exothermic mix consisting of 50% aluminum sleet, 35% sodium nitrate, 10% manganes ' oxide and 5% calcium silicate was found to be very efficient. Exothermioexatring from the sides and from above is most effective for medium-sized ingots. The exothermic heating can also be carried out using the mix in the form of bricks. The bricks suggested by the authors can be used either as a frameless dozzle or for lining the dozzle. These bricks may contain either 1) exothermic and insulating substances, reacIng without explosive effects or 2) efficient exothermic additives or 3) an insulating and an exothermic layer (bricks in 2 or more la~rers). For all three types of bricks resins are used as binding material. The bricks can be produced by the cold, hot or combined meth- ods. In the cold method good results are obtained when phenol-sulfonio, phosphoric and sulfuric acids are added. The refractory mix (of calcined chamotte) aontaining 5% req&n and 0.8% phenol-sulfonic acid had a strength of 280 kg/OM2. When the hot methS# is applied the resin-containing mix solidifies already during the pressing. In the combined method, which is the most productive, the solidification of the re- sintbontaining mix is accelerated by additional drying at 3DOOC. After a 10-minute card 4/5  3/133/61/000/007/002/017 The application of exothermic mixtures and... A054/Ai2g 2 drying period the mix, con,taluing.3.5% binding agent has a strength of 500 kg/cm The consumption of exothermic substances in bricks is lower than when it is rammed into the ingot head. The exothermic bricks moreover can be produced outside '.,-.e plant, they can be stored for an indefinite time and are easy to transport. The use of exothermic heating.also produoefa large saving. Based on a consumption of 9.1 kg/t packing (rammed), 1.82 kg/t eitothermic mix and 2.7 kg/t aluminum, the pr 0 of the most expensive steels can be out by 320 [Czechoslovakian] crowns, -3ount'ing 300 crowns for the manual production of insert collars from perforated sheet. There are 8 figures and 9 referencess 5 Soviet-bloc, 4 non-Soviet-bloo. Card 5/5  L~) h" U!5~T-' 1 7- --) -1, - /-I -, AGALINA, M.S., inzh.; AKUTIN, T.K., inzh.; APRESOV, A.M., inzh.; ARISTOV, S.S., kand.bkhn. nauk,; Bj'ZGSTO'LSKIY. O.B., inzh.; BERLIN, A.Ys,,inzh.; BESSKIY, K.A.. inzh.; BLYUM, A.M.. lnzh.: BRAUN, I.Y., inzh.; BRODSKIT, .I.A., inzh.,- BURAKAS, A.I,.Inzh.; VAYNHAN, I.Z., inzh.; VARS~ ~VSKIY~'--' I.W-.',inzh.; VASILIYICVA, A.A.,inzh.; VORONIN, S.A.,inzh.; VOYTSEKHOVSKIY. LjX., inzh,: VMLEVSKIY, A.A.,inth.; GERSHKAN, S.G.. inzh.; GOLUBYATNIKOV, G.A.,inth.; GORLlN, M.Yu., lnzh.: GRAMMATIKOV. A.N., inth.; DASEIEVSKIY, A.P..inzh.;DIDKOVSKIY, I.L., inzh.; DOBROVOLISKIY, H.L.'inzh.; DROZDOV, P.P.,kand. takhn. muk,; KOZLOVSKIY.A.A.,inzh.; KIRILENKO, V.G.,inzh.; NOPELYARSKIY, a.D..kand. tekha. nauk,; KORETSOT, H.M.,Inzh.; KUKHARCHUK. I.N.,inzh.; KUCHFR, H.G.,inzh., HER71YAIC, M.Y.,inzh.; MIRONOV. Y.Y..insh.; NOVITSKIT, G.V.,inzh.; PADUN, N.M.,inzh.; PANKRATIYEV. H.B., inzh.; PAR OKKKKO, V.I.,kand. biol. nauk.-, PINSKIY. Ye.A.,inzh.; POI]LUBNYY, S.A., inzh.: PORAZHENKO, F.F.,inzh..; PUZANOT. I.G.,inzh.; REDIN. LPAnmh.; REZNIK. I.S.,kand. takhn. nauk.; ROGOVSKIY. L.Y.,inzh.; RKAH, A.G.,inzh.; RYBALISKIY, V.I.,inzh.; 5ADOYNIKOV, I.S.,inzh.; SEVEROYANOV, N.N.,kand. takhn. nauk.; SMSHKO. A.T.,Inzh.; SIKKIM, A.Kh., inzh.: StrAWTOVICH. I.N..inzh.: TROYINOV, V.I.,inzh.; FIWER, K.K.',inzh.; ITALKOVSKIT. A.M..inzh.; FRISHMAN, M.S.. inzh.; GENALSHNEV, V.A., inzh.; SHESTOV, B.S.. inzh.; SEW". K.I., inzh.-, SHUNYATSKIT. A.F..Inzh.; SHCHEMAKOV, Y.I.,inzh.; STANCHENKO. I.K., otv. red.: LISHIN, G.L.,inzhi,red.,:-IUAVTSOV,Ye.P., inzh.,red.; GRIGQR'73V, G.V.,red.; KAMINSKIY, D.N.,red.; KRASOVSKIY, I.P..red.;.LETTKAX, L.Z.,.red.[daceased1,-, GUREVICH. H.S.,inzh.,red.; DANMVSKIY. A.S..inzh..rad.; MIN, A.M., inzh.,red.; KAGANOV, S.I.,inzh.,rad.; KAUFMAN, B.N.. kand. takhn. npuk, red:.LISTOPADOV, N.P-,bizh.,red.; MENDEUVICH, I.R., inzh. red.[deceasedj; (continued on next card)  AGALINA, M.S.... (continued) Card 2. PERTKOVSKIY, H.I.,inzh.,red.; ROZENBKaG, B.M.,inzh.,red.; SLAVIN, D.S., inzh.,red.; FEWROV, M.P..inzh.,red.; TSYMBAL, A.V.,inzh.,red.,, SHIMOV, L.V., red. izd-va,; PROZOROVSKAYA, T.L., tekhn. red. tKining ; an encyclopedic handbook] Gornoe delo; antaiklopedicheskii spravochnik. Moskva. Goo. nBuchno-takhn. izd-vo lit-ry po ugollnoi, promyshl. Vol. 3.[Orggnization of planning; Construction of surface b-dildings and structuresj Orgenizatsiia proektirovaniia-, Stroitelistva zdanii i sooruzhenii na -ooverkhnosti shakht. 1958. 497 p. (WRA 11:12) (kining engineering) (Building)  GORODNICHXV, Vasiliy Kikhaylovich; BRODSKIY, I.A.. otv.red.; ZVORYKIRA, L.N., red.izd-va; SHMYAR,-S-.T&;-,--t9kbn.red. [Kodern methods of controlling the swelling of rocks] SoTre- mennye metody bor'by s puchaulem gornykh porod. Koskva, Goo. nauchno-tekhn.izd-vo lit-ry po gornomu delu, 1960. 99 p. (KIRA 13:7) (Kining geology) (Barth movements)  SHIRAY, Yevgeniy Nikolayevich; TRUPAK, li.G., doktor tekhn. nauk, prof.., ratsenzent; BRODSKIY, I.A., otv. red.; FETRAKOVA, Ye.P., red. izd-va; MlILINA,, L.11.1 tekhn. red.; MINSKER, L.I., tekhn. red. [Vibration method of shaft sinking in shifting sands] Vibrometod pri prokhodke, stvolov shakht v plyvunakh. Mosk-va, Gos.nauchno- tekhn.izd-vo lit-ry po gornomu delul 1961. 99 p. (MIRA 14:11) (Shaft sinking)  KAPUSTDI, Nikolay Georgiyevich; KV011, Sergey Syn--Guvich; BFUU, A.Ye., inzh.p retsenzent; KOVSH, B.I., inzh., retsenzent; MODSKII,-I.A., inzh, retsenzent; CHECHKOV, L.V., ved. red.; BIRYUKOV, R.A., prof.., otv. red. (Principles of designing coal mines] Osnovy proektirova- n-iia ugollnykh shakht. Moskvap Nedra, 196-1. 267 p. (MIRA 18:2) a. Vsesovuznyy tsontrallnyy gosudarstvennyy institut po proyektirovaniyu i tekliniko-ekonomic lie skim obosnovaniywn razvitiya ugollnoy promyshlemosti (for Derlin, Kovsh, Brodskiy).  BRDDSKIYJ I.Its-insh.; GNILIRIKO, B.A.; p=OV. G.Ta.; M&RSWX- V-,'; Modernization of a continuous pipe-rolling mill* Kakh.i avt0m- prolsy. 14 no.1:24-26 Ja 160. (MR& 13:5) (Pipe Bills)  . BFMYA14SKIYI M.G., inzh.; BRg~~, inzh,; KRYUKOV, G.Ya., inzh.; SLYUSIMVI MI., inzh. Autcmatic marking of hot pipes. i4ehh.i avtom.proizv. 15 no.3-1: 15n18 N 161. WIRA 14: 11) (Marking devices) (Automatic control)  s/i3o/6q/boo/6n/wq/oi, A006/AO01 AUTHORS: Berdyanskiy, M. G., Brodskiy, 1. 1., Voynov. V. P., Gnilenko, B. A, Grinval'd, V. A , Kryuk)v,- G . Ya- TITLE- Mechanization and Automation of a Core-Extractc-r of a Continuous Pipe Rolling Mill PERIODICAL: Metallurg, 1960, No. 11, pp. 30-33 TEXT. Information is given on the mechanized and automated operation of a Co-re-extractor of a continuous pipe-rolling mill including the following com"Po- nents: a rest (Fig. 2); an automatic trolley (Fig. 3); a core-drqppJ-r-g mach-4qe (Fig. 4) a pipe-extractor (Fig. 5) and a pipe-drMping machine (Fig. 6). The pipes with the cores are supplied to the rest whose jaws retain, the pipes during the extraction of the cores. The opening of tthe jaws allows the passage of the cores only. The jaws are exchangeable depending on the diameter of the coi-e. One or two cores may be extracted. The simultaneous extraction of two cores is performed with the aid of the automatic trolley, Two torZs with jaws are opened -ing the cores allowing the passage of the core heads which fall upon when contact the pawl tail and disconnect it from the protuberance on the traction hook nob. Card 1/7  S/130/601'000/0!1/009/011 Aoo6/Aooi Mechanization and Automation of a Core-Extractor of a Continuous Pipe Holl-Ing Mill A spring puts the lever underneath the pawl to prevent its clutching with the aforementioned protuberance during extraction. Under Me effect of its proper, weight the hook is switched on. The tongs, brought together by a spring, clamp the core head and extraction is started. After completed extraction the tongs are opened and the core released. The trolley moves back to the rest. The cores are removed and rolled down into a cooling bath, After removal of the mandrels, the pipes are extracted from the rest and dropped into a housing. The Info--mation includes the detailed description of the automatio control system, Card 2/7  5/130/6U/000/0 1/CG~f/01 I A006/AOO1 Mechanization and Automation of a Core-Extractor of a Continuous Pipe Roiii.:,Z Mill Figure 2, Rest I - Jaws; 2 - counterweight; 3 cams; 4 - shafts. FiEre 3. Automatic trolley I - tongs; 2 Jaws; 3 - pawl; 4 - tr traction hook; 5 - lever; 6 - springs; 7 - roller; 8 roller of the dented section; 9 - rod; 10 --.stem; 11 hinge. Figure 4. Core dropping device I - pneumatic cylinder; 2 - vertical cylinder; 3 and 5 - levers; It - stem. Figure 5. Machine to extract the pipes from the rest 1 - pneumatic cylinder; 2 - fing. Card 3/7  3/130/60/000/011/009/011 A006/AOOJ Mechanization and Automation of a Core-Extractor of a ContJrtuous Pipe Rollifig Mill Figure 3: ep,WeAfb Card 4/ 7  S/1~0/60/000/on/w9/611 A0061AGOI Mechanization and Automation of a Core-Extraotor of a Continuous Pipe Rolling Mill Figure 3: Card-.5/7  S/130/60/000/0 9/011 A006/A001 Mechanization and Automation of a Core-Extractor of a*Continuous Pipe Rolling Mill ---Figure-4: Figure 5: 12 Carckfi/  S1 1 30/60/OW/0 1 1/vG 9/0 1 A006/AO01 Mechanization and Automation of a Core-Extraotor of a Continuous Pipe Roijing Mill Figure 6. Pipe dropping machine I - lever; 2 - connecting rod; 3 - housing; I and II - corresponding upper and lower position of the dropping lever; III - trajectory of point flail during operation of the device. There are 6 figures. ASSOCIATION: Truboprokatnyy zavod im. V. I. Lenin (pipe-rolling Plant imeni V. I. Lenin) Card -007  S/133/62/000/001/007/010 A054/A127 AUTHORS: Berdyanskiy., M. G., Brodskiy, Burakovskiy, V. N., Grinval'o, V. A., Dol'nik, T. I., Sidorenko, V. M., Engineers TITLE: Friction-type tube pushing and turning device on the automatic tube rolling mill PERIODICAL: Stall, no. 1, 1962, 6o - 61 TEXT: To replace the cranky pneumatic drive of the 1114011 automatic tube rolling mill of the zavod im. Lenina (Plant im. Lenin) by a member more suitable for the automatic process,.a new pushing and turning device has been developed at the Tsentrallnaya laboratoriya automatizatsii i mekhanizatsii Dnepropetrovskogo sovnarkhoza (Central Laboratory of Automation and Mechanization of the Dnepro- petrovsk Sovnarkhoz) in cooperation with V. F. Veyevnik, En,-'ineer, L. F. Kandyba. Engineer, I. P. Ivanov, Engineer, Ye. B. Byutner, Engineer, L. I. Vitnov, Tech- nician. The new device, which consists of friction rollers, is mounted on the front table of the mill, at 4,850 nun distance from the roll axis. The mechanism pushes the tube onto the stand and turns it through 900 before the second pass. The pusher is controlled from the mill switchboard. The friction rollers are in Card 1/ 2  S/133/62/000/001/007/010 Friction-type tube pushing and... A054/A127 constant rotation and the distance between them is regulated by the operator via an electro-pneumatic distributor. The head part of the tube is gripped by the friction rollers when it slides down on the inclined frame and is pushed by them into toe stand. The rolls then return into their initial position. When thp- first pass has been completed, the reversing rollers move the tube on to the front table. This time the friction rollers grip the tube, lift It and turn 14. over, at, the same time feeding it into the stwid. The new device cuts down the feed time of t1ibe blanks (105 mm in diameter and 900 - 1,050 am long) from 1.1 to 0.67 sec, while turning over and pushing in the tube for the second pass i-axes 0.9 sec. The rolling cycle was out by 1.33 see with the friction type feeding device. DiffereneGs in wall-thickness (longitudinal and across) of the tubes could also be eliminated, because the new pusher ensures an accurate positioning in vertical direction of the tube edge before the second pass. The mill outrrut. has increased by 5%. There are 2 figures. Card 2/2  VATKIN, Ya. L., kand. tekhn. nauk; BERDYANSKIY, M. G... inzb.; BRODSKIY I. I. inzh.; DRUYAH, V. M.,, inzh.; KOLPOVSKIY, R. M., I - ~OHP A. S,, inzh,; LUDENSKIY, A. M., inzb. Fixed mandrels on automatic mills. Nauch. trudy. DMI no.48: 174-185 162. (MIRA 15:10) (pipe mills)  BERDYANSKIY, M.G.; CHUS, V.G.;,BRODSKIY,l.1, '-, HYETNIK, V.F.,, VITNOV, L.I.; GRINVALID, V.A.; TOLDAYEEV, A.S. Automatic machine for screwing unions. Biul. telch.-ekon. inform. Gos. nauch.-issl. inst. nauch. i tekh. inform. 17 no.12:27-29 D 164. (MIRA 18:3)  doktor tekhn. nauk; N',IIDYANSKIY, M.G., inzh.; BFIODSKIY,,I.I., VATKIN, Ya.L., I - inzh.; DOLINIK, T.I., inzh.; KOSTYUGH],"110, 'V.~,,inzh.; T~'IbA'YEV, A.S. inzh. Regulator of the longitudinal wall thickness variation in pipe. Stall 24 no.9:83.2-833 S 164. (MIRA 17: 10) 1. Dnepropetrovskiy metallurgicheskiy institut i TSentrallhaya laboratoriya avtomatizatsii i mekhanizatsii Pridneproysliogo soveta narodnogo khozyaystva.  BERDYANSKIY, M.G.; ERODSKIY, I.I.; DONETS, V.V.; VEYEVNIK, V.F. Mechanism for introducing dry lubrication into the pipe shell before entering the rolling mill. Metallurg 10 no.6:28-30 Je 165. (MM 18:6)  OLWC COD Co'~ None : 16610~001 /Tr2,zz. 1, 000 /0j lann * m . 0 Ounce ultipa 00 9, 0 '0 trub.pr d b V e-,I,,,t 0020 Okat the N kill for X. X48 txm 8 ~ProPetro,,, JS0I)PCZ: 'rtObret241rOd)j Ipe 'Roiling C eoj'.. Pavi4g P4e on a short ZAGS. Oetal. e4 Plant IMen Aftnclrel. TRACT qyYe Zenj C248 F De QU 2%. Obrazt 11 (,),ne a 7, t, a sh -1- Authorr pe, tore ~'rO.Petr. "d Ort 'Z83268 witj~ dr a C, re-Ijabjz Ong V! t zDandr I tj, llskix atr _,,, e l RrtiflcRte - znakt, J70. h the te * 22le 4',,t antro 23, ft ed ..b "mdr I's 4 recelV, cons. duces -1966, 0 enag.1ccImPen ), J.0 e, 4t ng t Ist,7 A 9--Z0 j drii Sato 40ting 0 tube able - Of a t re th ort. g a. e r W t h t r4ck A Ods roughs Vith draft Zo.. -40dirl" cin a ratio a Or . -Mill n4a rel - and a -Ive for 44b - unit ) 11122 'Ping lot, - c ZOV-4b.Z '~Iltjy 1. . for - ers, avine tuce 0;%01;8 derl e truc,, Pro set t . a And 4 - ce - and 'red the ftreir eqUIPPed eqLj se --rods 4rrAR;Zn~'ith therm ctne t r1br le,,e 'Mech th the 2-pull c rx? 1-main drive. -r-receiv 9 a .37e 6-jubricstOr 9 ods 10-6 6 00R-5 9'!-r 21re04 qdB CODE' 3-3/ . rUM DAT6.  BRODSKIY, I.L. strengthening contractual discipline in the textile industry. Tekst. prom. 23 no.10:40-" 0 163. (KRA 17:1) 1. Starshiy arbitr Upravleniya sherstyanoy i shelkovoy proryshleftnosti Moskovskogo soveta narodnogo khozyaystva.  BRODSKIY I.M. Consolidation of wire broadcasting in the Stanislav Province. Vest. sviazi 22 n0-11:15-16 N 162. (MIFA 16t12) 1. Glavnyy inzh. Stanislavskoy direktsii radiotranslyatsionnoy seti.  BRODS NL3*Z, Establishment of duplex conference commtuiications in industrial administrations (work practices of the communication workers of the Ivano-Frankovsk Province). Vest. sviazi 2-4 no.lOt2l-22 0 164. (MIRA 17812) 1. Glavnyy invh. Ivano-Frankovskoy dvustoronney gruppovoy telefonnoy svyazi.  BRODSKIY. I.M., inzb. Supervisory and signal equipment of the 2 PIS-4.5 1U)-9 petroleum motors and used at power stations Trudy Sol-t.radiofik. i VRS Ukr. VTOBAS n0-3,.21-22 (Radio-Squipment and supplies) power sets baving of radio centers. ' 56. (MIRA 1211)  KOSM%IIN, V.G.; FEDOSOV, V.A.; BRODSKIY, I.S. Model workshop. Mashinostroitell no.8:30-32 ky 165. (MIRA 18:11)  BRODSKIY9 I.U. ,AUto*atic regulation of.the thickness of a cold.rolled strip. Piul.tokh.-ekon.inform. no.5:10-12 160. (MMA 3-40) '? (Rolling(Metalvork)) (Electronic control).  ."Ir , ..,XMIEGUDOVjI P.; BRODSKIY, I.U. Automatic Bwitching t6 thre6 lin6s of & hot-rolling mill. Biul*tekh.- okonoinform.Gos,nauch.-issl.inst.nauch. i tekh.inform. no-4:7-9 162, (M3RA 15:7) (Rolling Mills) A  BRODSKIY, I.U.,-inzh. Automatic stopping of a reversing rrill. Mekh.i avtom.proizv. 17 no.11:5-6 N 163. (MIRA 17:4)  AUTHOR: TITIE: PERIODICAL: 89819 1068 S/193/60/000/W5/00.3/10 12 Aoo4/Aool Brodsk Automatic Gage Control During the Cold-Rolling of Strip Byulleten' teldmiko-ekonomicheskoy informatsii, 1960, No. 5, PP. 10 - 12 TEXT: The Leningradskiy staleprokatnyy zavod (Leningrad Steel Rolling Min in cooperation with the Tsentral1naya laboratoriya avtomatiki (Central Laboratory of Automation) and the Leningradskiy politekhnicheskiy institut (Leningrad Poly- technic Institute) has developed systems of automatic gage control for the cold- rolling of strips on four-high and twelve-high reversing cold-rolling mills. The roughing operation is carried out on the 4/222 four-high mill. The initial material is hot-rolled strip. of 3-3.5 mm thickness, The minimum end gage is 0.5 mm with.� 0.05 mm allowance. This strip is the initial product for the cold- rolling of a 0.08-0.10 mm strip with an allowance of.� 10~L . The author points out that the flying micrometers used as pickups in both control systems and mount- ed at some distance from the rolls cause a lag of the acting signal in the control system, which leads to an "overadjustment" of the strip gage. If, e.g. the strip thickness exceeds the given standard, the motors of the pressure device act on the Card 1/ 3  89819 Aut-omatic Gage Control During the Cold-Rolling of Strip S/19_3/60/000/005/003/012 A004/AD01 rolls which are drawn together, so that the strip gage is being reduced gradually. When the standard strip gage is attained the micrometer still shows some positive deviation, but if the micrometer shows the standard thickness the actual strip gage is already below standardl i.e, that the former deviation has been "over- adjusted'. A far greater accuracy and improved quality control is effected by the time-pulse control system used on the reversing four-high cold-rolling mill. With the aid of a scale on the micrometer the required gage-is set, while any deviation from the given thickness, through an electron relay pulse generator, is signalled to an electron amplifier, then passed to the electromotor amplifier, thus acting on the pressure device motors. An analysis of the operation of the automatic system proves that the strip gage can be better controlled than is the case with manual control. Thus, e.g. if 08 grade strip is rolled with manual gage control the root-mean-square error is 12 J.,-, while it is only 9 L with auto- matic gage control. The best results are obtained with carbon and ler hard strips which have considerable and frequent thickness fluctuations. Manual gage control with these strip grades results in fluctuations from -4o to +4olA, while automatic gage control caused these deviations to decrease to 20_25/~ . Higher precision standards are required for the automatic gage control of strips workid Card 2/3  89819 S/193/60/000/005/003/012 Automatic Gage Control During the Cold-Rolling of Strip A004/Aool on the twelve-high mill since these strips are much thinner and have lower al- lowances. One of the main difficulties is the selection of the right play in the roll displacement system, which takes 2.5 seconds. Since the rolling speed on this mill is 5 m/sec, more than 12 m of non-controlled strip have passed before the play has been selected, which, of course, affects the strip quality. To ob- tain a higher control accuracy-the system provides for an automatic effect simul- taneously on the pressure device and the outgoing strip tension system. The front micrometer affects changes in the roll gap setting, while the rear micrometer, by way of varying the current of the rear coiler motor, changes the outgoing strip tension. Thus with deviations in thickness up to 3_4A~_ gage control is effected by variations of the outgoing strip tension while deviations of 5,;-A, or more are compensated for by changing the roll gap setting. Radioactive non-contact RT~ 495 (ITU-495) micrometers are used as pickups. The operation principle of the device is based on the dependence of the degree of beta-ray'absorption of the radioactive isotope on the thickness of the material being measured. An ioniza- tion chamber serves as recording device of the quantity of passing radioactive rays. The device has two ionization chambers: one for operation and the second for compensation. Tests of this automatic gage control system showed that errors do not exceed 6-7 1A at a gage tolerance of 10 ~- for 0. 1 w size strip. Card 3/3  BRODSKIY, I.Ye.,inzhener; ROFA, A.E.,kandidat meditsinskikh nauk. OAKR-PO plastic material and possibilities of its practical use in dental orthopedics. Stomatologiia no-5:53-54 S-0 155. (MIRA 9:2) 1. It Kharikovskogo zavoda subovrachabnykh materialov (dir. Ye.G. Aronov) (GUMS AND RES101S, SYNTHETIC) (UMAL FROSTHESIS)   33RODSMY, I.Yee' Highly dispersed polynothylmathaerylate As a plastic for the medical supplies industry; Ned. prom,* 12 no.10:46-47 0 158 (MIRA 11:11) 1. 1harIkovskly savod subovrechebnykh materialovo (MMAaRyLiC ACID)  U7P I.LV S/081/60/000/018/006/009 A006/001 Translation from: Referativnyy zhurnal, Khlmlya, 1960, No. 18, P. 543, # 75438 AVT-?O,RS - Yukhnovskiy, G. L., Brodskiy, I. Ye. MILE: Inhibition of Emulsi on Polymerization of Methylmethacrylate PERIODICAL: Tr. Khar'kovsk. politekhn. in-ta, 1959, Vol. 26, No. 6, pp. 221-223 TEXT- For the purpose of reducing the intensity of the process of poly- methylmethacrylate polymerizatio in the presence of an ini-,,iator and emulsifier at 7-1 - 8O'C) and of preventing the branching of the polymer chains with the formation of transverse bonds, a hydroq.Anone inhibitor was u!3~d as a regulator in an amount of 0.006% of the monomer weight. An investigation of the relative viscosity of polymethylmethacrylate sulutions In dichlorethane, of the specific impact. toughness and yield limit in static bending of polymst-kylmethacrylate bars with and without admixtures of hydroquinane showed that its Introduction SNmewhat reduced the molecular weight and the specific Impao~t toughness of the polymer. nowever these changes affect only slightly the physical properties of the finished prod7uct. Moreover, the use of hydroquinone has a most favorable effect on the technological process. homogeneity increases (in respect to the screen ccmpositalm) Card 1/2  857lo S10811601000101810061009 A006/A001 Inhibition of Emulsion Polymerization of MethYlmethacn-late j as well. as the yield of the commercial product; the conductan,,:e of the process is facilitated and the operational conditions of -418 equipment are improved. T. Renard Translator's note: This is the full translation of the original Russian abstract. Card 2/2  *Survey of the Quantitative Distribution and CovTosition of the Zooplanicton of the Northwestern Part of the Sea of Japanj," Zool. TmnBactions, DAN USSR, Vol. 7., Noel, 1941  E-IICDZI'IYI Y. UMB/iIedialne Jkrlne OrMnIm *Y 108 Hadicine Plankton "The Zoogeograpby of Clay in the Northwestern Part of the Pacific Ocean," K.A. Brodskiyj 4 PP "Dok Ak Nauk SSSR, Nov Ser" Vol LK, no 6 Data presented is the result of bydrograpblo eurv4We conducted in the summer of 1946 to study the chw- acteriBtics of deep-vater planktor from the north- western parts of the Pacific Ocean. Submitted by Academician L.B. Berg 19 Wx 1948. A T low 6M7  i~ '. , - . -0-L . , A. A. 42202. BRODSXIY, K. A. - Asi.-rimetri3ra i ovobodnozhivushchikh veslonogikh rachkoy 'Calanoida) k RELk priznak spetsializataii* Doklady Akad, nauk SSSR, Novaya 0 seriya, T. LXIII, -*0. 4, 1948- c- 451-53. SO: Letopiel Zhurnallnykh Statey, Vol- 47, 1948  US"fi("Icize - Plankton Xer 49 Medicine - Marine Organism "The Vertical Distribution of Copepodous Crayfish (Calancidall and the Connection of the Northern Arctic Ocean With the Pacific anit Atlantic Ooeans,' Ir. A. Brodskiy, 4 pp "ftk Ak Nauk SSSR" Vol LXV, Wo 3 CouWas nunber of zooplankton form found at vorlo= levels in northwest section of Pacific Ocean, In Sea of Japan, and in central section of North Arctic Ocean. Tables an& graphs show vertical distribution of forus for Pacific Ocean, western share of Green'AnA, Sea of Japj an& 39 t9T68 UM)kedlcine (Contd) mar 49 iwA North Arctio'Ocean. Date introduced may serve an an index of vertical vater circulation, VMch Is closely linked with plankton circulation. ftbaitte& by Aced L. S. Berg, 28 jan 49. 39A9T68