SOVI/1;5-58-12-2/20 Problems in the Development of Electric Arc Welding Equipment. by V.M. Shchitova, Ye.I. S,lepushkin and V.T. Belik), which was tested and successfully.used on modernized automatic machines for-welding under flux and in carbon dioxide, The development of new type's of rectifiers with stable character- istics and devices forarc voltage control is necessary. TheVe are 2 graphs, 1 circuit diagram, 1 photo, 1 table and 5 Soviet references. ASSOCIATION: Tsentrallnaya nauchno-issledovatellskaya laboratoriya elektri- cheskoy obrabotki materialov AN,SSSR (Central Scientific Re- search Laboratory for the Electric Treatment of Materials;: AS USSR) card 212,  26(L) PlIA59 I BOOK E"Loi*rmos SOV/2156 Soyeahchattlye po komplekanoy mekhanizatsLl- I 9vtomatizatall takhnalogicheskikh protseasov. 2nd, 1956. Aytomatizatslya mashino3troltallnykh protsessov; /trudy sovetthchanlya/. tam. Is Gor-jachayA obrabotka metalloy (Automation of KiChine-BuIldIng Processes; Proceedings or the Conference an Over-All ftachartl=atlon And Automation or T*Chnol- < ogical 5 1 It Hot Metal-PormIng) P10scow. 1959. 394 p. 5,000 copi:e*'r',Vn0tcd. sponsoring Agencyt Akad.=Iy% nauk SSSR. Znstltut machinavedenlya. K0011331Y& PO t*khn0l09iL Ma3ft_'n03trQYVnIYA. Soup. Ed.: V.I. DIkushin. Academiciani Compilers V.R. Raskatov: 9d. of Publishing Housial V.A. Kotov; Tech. Ed.: X.P. Kum-min. PUR"SEs The book Is Intended for mechanical engineers and metallurgillt3. f COVERAGSt The transactions or the Second Conference on the Over-AII t- Mechanization " AutomAtion of Indu3,rjjI processes, September 25-29, 1956. have been published In three volumes. Thl book. Vol. 1, containa articles under -.he general title. Hot Working of,Metals. ~ The Investigations described in the book were conducted by the Stations for Automation and Hot Working at Metals, under the direction or the following 3clenti3tst testing - P.M. Aksonov I D.P. Ivanov " 0.14. Orlor; farming - A.I. TaelikOV, A.D. Tonlenov and V.T. Me3hcherin; welding - O.A. Nikolayev, B.I. Prolov And G.A. Maslov. There are ld3 referencest 142 3ovist,.34 Inglish, 6 German. and. 1. Prench. ?AMA at Cown"31 Balkovots. D.S. am P.Zi. Chuloahnikov. Automatic Process Central In Contact Welding 266 Gromovs N.A. Development Of Automatic Welding Xquipsent 2T6 Nikolayev, G.A. Studies at the x"U is. B&uaaA& (Mae... RIgher Technical School Is. Bauman) on Automation or WeldIrig Processes 260 JLADPrzh&k- a-M-11IIE- A M.w-r- -.-I. SlePushkin, and V.M. Shchitava. or lur yefe 4" squlpftent tomatIng Welding 290 Vdrch&Ak*, V.A. Automation or Are UtildIng In a Pr+ctiv. Gas Radius 322 Fr%alft. I.i. Automatic Weld Sean of W-ar-Resistont Alloys 330 11abkLn_D.x., Automatic Welding Or Articles rrom Aluminum 90chanovskly. N.Ys. Work of the All-Unlon Scientific Research Institute or E2ectric Welding Equipment an Mechanization and Automation or Welding Processes 348 Lyubavakly, X.V., L.M. Yarovinakly, I.L. BrInberg. and X.M. MovozhLlov. Mechanization and Automation of Welding nvesswes In Heavy Machine Building 361 Seasnov. A.?. salting or metals " Utilization of this nomomenon 371 Ayblxd*r, S.D., Cold Welding or Metals 385 AVAILA Ut aLibrary of' Congress "Vair Card 13/13  YLADMIRSKIY, T.A., doktor takhn.nouk; VROBLEVSKIY. R.V., inzh.; GLEBOV, L.Y., inzh.; GODIN, V.M., kand.tekhn.nauk; WZOV, S.G., inzh.;,GULYAYKV, A.L. inzh.; YERSHOV, L.K.. insh.-D Koclwfovaiy. N.Ys.. kand.telchn.nauk; LYUBAVSUY, X.V.. prof., doktor tekhn.nauk; PATON, B.Ye.. skademik, prof., doktor tekhn. nauk; j1 ~INOV~ICH, js 9MOVICH9 ION* 0 __L __t. kand.tekhn.nauk; HADA. inzh.; RYKALIH, N.N., prof.0 doktor tekhn.nauk; MITOR, 0.5h., inzh.; MENOV, K.K., skademik, prof., doktor tekhn.nauk; CMUMIK, V.S., inzh.; CHUL02HIMOV, P.L.. inzh.; SHORSHOROV, M.Kh., kand.tekhn.nauk; BRATKOVA, O.H., prof., doktor tekhn.nauk, nauclinyy red.; RRIITBXRG, I.L.. kand.tekhn.nauk, nauchnyy red.; GELIMI, A.S., prof., doktor tekhn.nauk. nauchnvy red.; KONDRATOWICH. V.M., inzh.i nauchnyy red.; ElASOVSKIT, A.I., kand.tekhn.nauk, nauclinyy red.; 31AKUN, G.7.'j,kand.tekhn.nsuki nauchnyy red.; SMCLOV, Ye.V., inzh., red.; IVAMOVA, K.N., inzh., red.isa-va; SOKOLOVA, T.F., tekha.red. [Welding handbook] Spravochnik po avarks. Noskva, Gom.nauchno-. tekhn.izd-vo mashinootroit.lit-ry. Vol.l. 1960. 556 p. (NUIA, 14;1) 1. ANUSM (for Paton, Khrenov). Z.. Ahlefipfteftsspohdenty~ a AM .(for Rykalin, Khrenov). (Welding-Handbooks..menuals. etc.)  S/775162/002/000/011/011 AUTHORS: Kasprzhak, G. M., Rabinovich, 1. Ya., Sidorkov, V. B. TI'TLE: New rectifier circuits for arc welding. SOVRCE: Avtomatizatmiya protnessov mashinostroyeniya. t. 2: Goryachaya obrabotka metallov. Moscow, Izd-vo, AN SSSR, 1962, 246-265. TEXT: The paper surveys various types of rectifier circuits for manual and. automatic welding (WG) with referidnce to the anticipated general adoption of semi-, conductor-type rectifiers. Analysis of typical WG-rectifier circuits.. The external V-I characteristics of rectiliers used T-manual arc WG with coated electrode, automatic flux welding, and gas-shielded automatic and semiautomatic WG are briefly, de scribed, and the effects of the open-,circuit V and the V-1 slope on arc Ig-. nitionand process control are discussed, including the transient, problems occur- ring, in self-regulating systems, especially with flat or rising characteristics. .:. - Fundamental principles of rectifier-circuitr . selection and development: The TsNILELEKTROM of the State Committee of the Council of Ministers, USSR, for Automation and Machine Building has established the following fundamental -principles for the development of new WG- rectifier circuits: (1) They must be applicable uni- versally for the above-mentioned types of WG; (2) to minimize the power installed Card 1/3  New Rectifier circuits for arc welding. S/775/62/002/000/011/011 and the number of semiconductor (SC) valves, the external V-1 characteristic, must be gently descending, and an elevated open-circuit voltage (60-70 v) is to be provided by special arc-ignition devices; power fractioning is to be accomplished by booster- transformers, with a suitable stabilizing choke in the rectified-current line. One of the resu.!ting WG rectifiers is shown in a full-page circuit diagram and is described in detail. Details of the boos te r-transforme r circuitry, intended for symmetrical voltage regulation, are shown pictorially. The arrangement affords 20 steps of volt- -501 -1 in- age regulation (Z figures), with a saving of 30 6 of active materials, an 8 Z% crease in efficiency, and a power factor of 0.8-0.85, as compared.with circuits in which saturation chokes in, the a. c. circuit are used. Details of the arc-ignition transformer- rectifier complex are explained. Oscillograms are shown to illustrate the improvement in current control achieved. It is shown how the circuitry employed im roves the response to sudden ch length. Universal PC p anges in arc ,Ij- (Y�K-), type WG rectifiers: The criteria developed in the foregoing chapter were translated at the TsNILELEKTROM into the,VSK-type 150-a, 300-a, and 500-a universal rec- tifiers. A design analysis is provided, with especial emphasis on the features spe- cified in the criterial chapter. Thie characteristics of the three rectifiers are tabu- lated. An experimental prototype of the VSK-150-111 rectifier was built in 1958 and subjected to tests which showed (Z full-page graphs) that: (1) The external charac- teristic remains absolutely hard (flat), since the total equivalent resistance of the. Card Z/3  New Rectifier circuits for arc welding. S177516Z10OZ10001011/011 rectifier remains practically unvaried; (Z) a slight increase in a1v slope occurs in the circuit with two parallel valve blocks, which is attributed to a nonlinearity of the internal resistance of the valves; (3) the efficiency with two valve blocks rises from 67 to 7Z76 in the nominal regime (150 a, 23 v) and with practically un- changed power factor (0.82);. (4) the test data confirm the design assumptions. Test data are summarized in a table. Oscillograms illustrate the process. The experimental prototype was followed by experimental batches of VSK-150 and VSK-300 issued by the TsNILELEKTROM; since 1961 VSK-300 rectifiers have been mass-produced by the Dnepropetrovsk plant of mining- automation equipment. Conclusions are stated on the particular features of the VSK-type re-ctifier which afford it excellent arc-ignition, applicability in a wide range of welding jobs, sta- bility of operation, and conservation of active materials and power. There are 11 figures, 2 tables, and 5 Russian-language Soviet references. ASSOCIATION: None given. Card 3/3   RABINOVICH, I.7a. Results in application of urosulfanilamide preparations in treat- ment of chronic supurative otitis and wounds following radical  w FjO i'Ll'WI CH, I - YA.         n ZC ~rt F.. and. P:,C~jj;"ZC,.-, 7~ D I- T 'l. ErE,. Bc"'I. of Ch. Til Rch of Enc'. Scl.1 ~-And ~,UBI~:C*;'17,:f, ;n. A . A . Bch . fir I` n.f- V T B ch of "E~n-,. Scl. ~'Cj -d Q( PTC:lr S. A. i-n,, VT c n o V 1 .11 ~IC-7-DIT',TJK, T. B. Y En,", Tltle: TECIM'I i0F ~M!El'ATC!G?A`JY Series cefOmplislar.en ts c X' ~:oviet inc 34. Tc Jq Tri%~, t e T T Klnoslemcclirvlv~3 tekhrlik hej-,yti sov kirlotelk', e r i va c 7 t t Pub! L.-~Iin jo :J.-J.te: 30. Tech. I'd. No n e -1 i tn' r n e Ann 'Tone f: skl'~r raiser:, v iP  T Tf `Tf rle-!,i:~!n: lwncmn 1, n r Soviet r-c:ir I -i-,.e T Tlhe hrc'. ir, the Illnurth in Unn series "Acccm-11,1F,hi-ents of 3r;Viet -ecl-inique tr,.! descril;ps the 'basic inethuls of takine cclored virt*,c~i nlctu-~,s. T'he technIrme for bl-l.ck a -Whitc, photogr phy.was 7i-,ren in t.;-- t~tree Ur,.~vlous bc.,,)!.S. A -iescrinticl-i thle c~-mbined and spemai ty~nes of producti,~n now ~Ildoptpd in Soviet cinema studios -and the technique r)f be -)u'-' i shed cne r-' tit Alowi-W- St,.~: i~ Sel~ti-nvs w- .17 fc of 'Irle oem~-,S. The book nri--;r~rlly -Ic-scribes, Ve equirment, and ,'~,'Iec~ors, electric --wer units for 1iijint effpcts, and arrargements for b,-ilanc;~s of different irilten!,,ities. The boo'~r also r, -,f -1-Aa apparatus for rormal and ~Pjnchro-,-.ic ret--.Ols of t-zkir,,:, pictures; narr~~-..-i brc..,.-id flims; trl!.-~As of varb--:us types; c!-~nzl- :md aprx.ra.tuses. C:ener-,,l I.rifIcimatir-i-1 'L'cT- wl-7-- circle cl, ints in motion nictures. Spec ia tute for ',.citi on Fictures and Fhotoj=a phy Litie5: "CIC-Itific 2e"..rch Inst, e T V. T, 1. C!,ler.-m-stUdios i n "nc~cow and x!ne Referenc-s- A.I.D., r~f Ccn;--r~ss.    _T SOV/137-58-8-16554 Translation from: Referativnyy zhurnal, X-letallurgiya, 1938, INr 8, D 46 (USSR) AUTHORS: Zborovskiy,., A.A_ strelkov, L.K., Skul'skiy, lvf.K.,, no Rabi vich, Kh.l. ---------------- TiTLE: Employment of Autoradiography Methods in Determination of -tile Rate of Solidification of Ingots of Rimmed and Killed Steel (Opredelenilye skoros~i zatverdevaniya slitkov spokoynoy 1 Icipyaslichey stali metodorn avtoi-adiografii) PERIODICAL: V sb.: Stalcplavil'n. proiz-vo, Moscow, Metallurgizdat, 1958, pp 184-196 ABSTRACT: Radioactive Fe59 -.vas introduced into killed steel at differ- e nintervals of time following the casting of this steel into.a 2400-i-nn-i high mold equipped with a lined cover and having the following dimensions: 760x68O mm (bottom) and. 7Z0x5 10 mm (top). Experii-nental ingots were rolled into square billets (120 rnrn per side), specimens were taken along the length of the rolled billet, and.5-mm thick transverse templets were cut frorn it for purposes of radiographic studies. Assuming that. the ratio of the surface of activated.zone to the surface of a Card 1/2 transverse section of the~ingot remains unchanged during  SOV/ 137-:58-8- 16554 Employment of Au-o radio a raphy Methods (cont.) rollin,-, radiograms were employed in the computation of the thickness of a layer vAiich had solidified by the tirne the isotope was introduced. The data obtained coincide almost completely with the curve D=2.6 ,Ft, where D is thickness of the solidified layer of metal (expressed in mm); t is the time (in minutes) which has elapsed after the, mold had been filled; 2.6(cin.,/min) is the solidification constant of the steel in a cast-iron mold (obtained by the method of overturning of analogous ingots). When the molds w-ith the ingots were no, disturbed until the metal had solidified completely and the isotope was introduced into the inuot in three successive portions, four boundaries of isotope distribution, i.e., four zones of activity (tile maximum activity be- ina in the central zone) were observed in all but one experiment. It is as-, slimed that the appearance of all "extra" zone is theresult of intensifie d agi- tation of metal during the displacement (shaking) of the molds, a fact which may, therefore, have an adverse effect on distribution of liquates in an, ingot. The crystallization of rimmed steel was investigated in an analogous manner by introducing radioactive isotopes of Fe or S into ingots weighing 6,9 tons. In computing the thickness of the solidified layer, the volumetric reduction of metal :which occurs during rolling, apparently, was nottaken into consideration with, sufficient accuracy because the results obtained di- verge somewhat from the values obtained by means of the."Chipmen" form - ula, D~3.05+ 22.56 \rT, 1. Steel--Properties .2. Steel--' orfidiograpl-ky Aut Gard ZjZ 3. Iron isotopes,(Radioactive)--AT)plications L.K.  SOV/137-58-12-24207 Translation from. Referant'riyV, ZlItti-nal, MetallurgiVal J958,.Nr IZ, p 41 (USSR) AUTHORS. Sf~ved, F. NRabinovicb, KY.,, L TITLE. Oxygen Applcat-,.ons in Stle,el Melong at lbe MysbepPlant for Re nforc - -'in-lenenii kisloroda pr, vyplavke stali ri~ Myshegskom ng Steel. (0 P! arMaturnom zavodel PERIODICAL: Bvtil, tekiri,-ekon. inform. Sov. n;ir. kh-va Tul.'sk. ekon. adm. r-na, lq58, Nr 1-2, pp 45-46 ABSTRACT 02 blow, of St at the Mvsl,ega Plant, was adopted in 1952 and is now em- ployed in the niclt~.ng of acid-. res,.s' ant steel (SO from scrap. The rbarge consists of 80-90114 scrap. O~ is employed during the melt - down ;,nd omd-/inp -- eriods ~n the melting of carbon St. To protect The metal ag;onst excessive oxidation, the percentage.of conversion pig iron in 0-%e mix is increased to 25%. 07 consumption during the melting period is 12- 15 m3/t. St, Tiie electric energy saving is.150- 1,80 kwh /t, tl,c mell itime is &.M~ -nished by 15",o. 1 -The 02 is intro-, duced into 0-c fitrivice by Fe lances. The tubes are coated with a bulk mixture of fireclay powder and water glass. Ca ra11 V. B.:  RABINOVICH) L.     255  20204 Hl q-/182/60/000/011/006/016 A1617AO29 ~AUTHORs Rabinovich, L.A. TME~ InveUtigation 'Into Metal Flow in Stamping of Complex Shape Hollow Forgings in Horizontal Presses 7, PERIODICALk Kuznechno-shtampovochnoye proizvodstvo, 1960,,No.ll,,pp.21-25 TE".: Hor-lzontal forging machines or "GUN (for gorizontalino-kovo- chnaya machina) make possible the forging of hollow work with nearly accurate shape of ready parts. Thearticle contains information on experi-, ments with several types of complexhollow forgings~ with a-protrusion-on thefront. end; with two protrusions in sequence on the outside; with two flanges, and with a flat ey -e on the bottom portion. The flow of metaluwas studied on composite b2anka (a screw with tightly fitted cylindrical n ts screwed on). The first three of the listed types were forged with four passes after single heuting,i The displacement of metal.was watched by the coordinates of marked points in cr oss sections (Fig., 1). After failures with the second type (two protrusions, incomplete filling of the die, Fig~ 4),the following operations sequence proved to be correett forming the Card 1/8  202C14 S/!82/60/000/011/006/016 A161. /A029 Investigation Into Metal Flow in Stamping of Complex Shape Hollow.Forgings in Horizontal Presses collarand firsL protrusion in the first p-is& preliminary piercing (for &depth ensuring a collar length equal to 0.8 D) with simultaneous final formation of the first protrusion inithe second pass; piercing to final ,depth with simultaneous final formation of the second.protrusion in the third pass; in the fourth pass the forging was separated from the rod.-.The second-type forging is shown in Fig, 5,, No upsetting and no flow of metal toward the piercer was observed in this procedure. Deformation in the.. sequence shown in the photos (FJg. 6 and 7) proved right for the third type of forgings with two flanges,from steel, commercially pure titanium, and for AR. (AV) aluminum alloy. The last.type with end eye (Fig. 8) from ~115 (VT5) titanium alloy was forged in two dies with.reheat. The eye was formed in the first die with three impressions and the cylindrical part in the second die., During the forging in.,the second die the blank was hold in place With special.tongs by the ready eye portions In the, first impression of this die the. metal.was collected in the piercer with a conic- al hollow; the c6llar was formed in the second impression (to prevent up- Card 2/8  202T_4 S118216010,00101110061016 A161/AO29 Investigation Into Metal-Flow in Stamping of Complex Shape Hollow Forgings in Horizontal Presses setting during piercing); piercing was done in the-third and fourth pass with constant blank length and metal flow mainly in radial direction. The following conclusionsare drawn.-, 1) the*investigation method,with compo- site blanks permits observations of metal flow to be made-in the real production process; 2) the,nomenclature of forgings produced in horizontal pre33eS can be extended.after determination of the nature and magnitude of metal displacement in typical forging patterns; 3) the shaping of'hollow complex forgings requires preliminary redistribution:of metal on the blank in order to obtain the hollow with minimum axial flow of the metal; 4) the horizontal presses are suitable for complex hollow forgings from steel, titanium alloys (VT1 and VT5) and the aluminum alloys AB (AV) and AK5 (AW. There are 6 figures. Card 318  20204 A161/AO29 Investigation Into Metal Flow -in Stampinc. of Complex Shape Hollow Forgings in*Horizontal Presses Fig. 1, p "Ai -IN 5~, Mr Card 4/8   20204 B11821601000101110061016 . A161/AO29 Investigation.Into Metal Flow o R-olex-I ShaDe HollowJorgings in Stamping of C in Horizontal Presses - ' ' 677~~ Fig. , I A Card 6/8  20204 S/18 601000101110061016 A161YA029 Investigation'Into Metal Flow in Stamping of Complex Shape Hollow Forgin 9s' in Horizontal Presses Fig. V9 x jr , ! mf- k~ A-'i:-1 -N yo, ..J Card 7/8   S/122/60/000/010/009/015 A161/AO30 AUTHOR: Rabinovich,L.A.; Engineer ~TITLE~ Study of Piercing Process in Horizontal Forging.Machines PERIODICAL: Vestnik mashinostroyeniya9 196o, No.101 pp.47-52 TEXT: The existing manuals for forging on the F K M (GKM) machines con- cern mainly solid forgings, and for hollow forgings the technique has to be cale-ulated using one's own experience, the results not always being good. This article gives the results of an investigation of the formation of hol- low forgings and the effect of the piercing tool shape. Cylindrical billets (rectangular are considered impractical) with a screw and tightly set round nuts were pierced in a IIGKM-41I machine. Deformations were measured with a carbon dynamometer placed in the piercer holder. The effect of a "collar" on the billetend was studied on two "collar" types. The first version ensured at certain billet parameters the formation of a hollow with minimum metal flow and no change of the billet..Iength. The observations are discus- sed in detail. Diagrams were plotted showing the variations of effort with Card 1/2  S/122/60/000/010/009/015 A161/AO30 Study of Piercing Process in Horizontal Forging Machines a different shape of piercing tool end. The billet with "all collar required 15% less deformation work than that.with.Ilb" collar. A conical piercer tip with 90-1100 taper,proved most effective. The following is recommended: to employ deep-piercing on'billets with a cross section area,equal to the cross section area of the forging; to use a "collar" on the front end of the billet, of D.> I.IDM diameter and 1 > 0-3Dm length (where D is the outer diameter of the forging); to prevent ,longitudinal bending ov the bil-. let and increase the piercing depth up to four diameters of the initial bil- let in a single stroke of the machine slider by changing the initial billet ,cross section shape to a rhomb (from initial circular), which is possible in dies with simultaneous formation of the "collar". There are 6 figures and 4 Soviet references. Card 212  455 5/18 61 000~008/0013/005 ItIOD D038YD!13. AUTROR3 Rabinovich, L.A* TITLEt The preparation.of forgings by pressing on horizontal forging, machines PERIODICALs Kuznechno-shtampovochnoye proizvodstvo,4;. 89 1961, 8-13 TEXT: Thearticle deals with.an.experiment*where.forgings.are.manufactured in a die consisting of two-perpendicularly placed sections. -It is stated_ that since the forgings can be removed from the dies by tongs after press-.' ing, the production of the dies should be less labor consuming. The.AK6 (AK6) and RB (AV) aluminum alloys were used for the production of brackets, smooth and embossed surface shells and valves. The dies wereheated to C prior to pressing, and animal fat was used asla lubricant. The work inserts for pressing were made from 3X2138 (3Kh2V8) steel.which was heat treated to HB 444-514, the guides were made from 40Y (40Kh) steel (HB 341- 368) and the punch from VC3 Mh3) steel (HB 415-477)0 Thedimensions of Card 1/2  24552 s/182/61/090/008/003/005 The preparation of forgings .... D038/DI13 the working,part of the punch must allow a t gap - 0.2 0-3 mm between the punch and the container. A speed and capacity range for deformation, and an example of a method of pressing a bracket are included.- It is stated, that brackets can be pressed at a 1250-ton press capacity at approximately 180 cm/sec. The producedforgings hardlyLrequired any finishing operations, and only 6-8% of the metal was wasted. The range of forgings could be con- siderably expanded by using aluminum and steel alloys. Horizontal press, forging machines could be widely adopted for the production of forgings if maximum permissible speeds of pressing were'adopted in the new process.The following took part in the worki Ye.I. Sokolovj V.11. Sapozhnikov and MA. Khlyntsev. There are 6 figures, 1 table and 5 Soviet references* Card 2/2  A: r JD )/BDSAWT (in) -AFFTC/ASD L Moi-63 W(q AP ACCESSION Mts 3000079 1-7 Rabinovich, L'4 AUMORt TITIE: Determining the thermal a 5 of ~Uitlc' deformat on, and of the formability of a metal SOURCEs lluznechno-shtwopo~ohnoye ixv:,- no*' 5#*~1963v,1-5~ -pro TOPIC TAGSi forgijpg,, stamp"g# -deformation,, work,-.vressure, mechaiii"i iiop~. plasticityp temperature all ito -f ABSTRACT: Tfie auth oritteli a the in. ties of ng Mv Gy or Be and stamping establ-tobsents %4th,no data' or - on3Y, 1"itildient data' for - forml;g, these alloys. He suggests that-such'information-should contain Instructions. psr~_-.41~ _ilt' taining to: 1) the. allowable amunt of dsformatl:~e; 2) Vork and pressure required;f, 3) mechanical properties of the product; metal-plasticityi and 5) temperature be calculated' range for metal forming. The allowable amount' of deformation should from the formula: Delta h = Z_(H _' H subl)/9-7m', Awe: H is -the original heighi-f! of. a &Lmple, H sub 1 is the' height'of on", For a 6y3bidri- a le after Aeformati 1 WZ(D B/D cal sample the formula Is Delta h sup _71W,, where D in the original din ter ani B is the height after deformation,.-Tests should be made at different. c a rd  L --- --- I ICK MRs AF"06M 4'. tea apISIMS no lkiaixiiiti yeraftres and 'should. be aontlamed'untla the first crack should consist or a 100-4 drop bamerp 42OD-ton press# 'and tented samples should be 20 in diameter and.30 me hlgho:.,Tbe tests-abould'bel- 4 started at 501D above the temperatur a or .recrystallization.for a ii"n metal and should be continued: up to temperatures of 100-15M below the melting point. Aver-, age work and pressure may be determined from the results of the preceding experi- mente by dividing total work or pressure causing deformation byAhei contact area Data on mechs~dcal properties of the produats-sbould give theirstrength, relative, elongation, roplative area 41minution,, and resistance. to impact. Plasticity of metal should be determined bjy, placing a sample in a block.41th a *depression into. vhich a 41* vith a conical recess may be forced.- , The amount of plasticity Is t n'. he determined by the. height to which the tooted metal enters tM-6onlcal 3~ecssifo. The, plasticity in designated by the. letter PM vith tW indoxas. upper ind*x`i~,,. dicateB the'tomperaturs, at,which the deformation ocaurred,, the lmr Indicates.1tho am6unt of work expended in producing this deformation, The temperature range -for forging and stamping a given alloy to -determined in thi course of the I ha experiments. Orig,,. art,, hasi .4 grap equations, 3 iabl4s','and 2. figure. ASSOCIATIONs. none SUBMITTED 00 -,"DATE i0: OQ NO REFASOV z (W V 000, SUB COM Cani  L,r ............ If Al IL 1 di ;:; -. i! il I I 8 V oil 11 J, 'a! U hl 3 ", '15 a 'J 2 i A 12 gel 4v J lo J) % :11      RA61 N QVre 0, L. M EXCE-MM'.. SPC.13 Vol-11/3 Dermatoloa, etc. Y'ar57 742. RABINOVITCH L.M. Chair of Pathol.Anat.. Ins t. for Perf cc tion of Doctors, Leningrad. *Odontogenic subcutaneous granuloma of the fac e (R u s s ia n t e x t) VESTN. VENER. DERM. 1955.1 (14-17) Illus. 5 100 patients with lesions in the soft tissues of the face are presented; in the course of these limit(!d foci a proliferative inflammation of the type of a granuloma formed in the subcutis. The pathogenesis of these granulomas Is closely linked with teeth affections. The nuthor proposes to call them odontogenic s. c. granulornis of the fnce; he differentiates them further in stationary and creeping (serpiginotts) forms of the disease. X-ray examination reveals various lesions around the apices: sha- dows of a granuloma, cysts and imited osteo-myclitic foci. Histologically, 4 types I of granulomas can be differentiated. (1) exudative-proliferative, (2) proliferative, (3) scarring, (4) mixed. For the treatment and prevention of odontogenic granulo- mas it Is necessary to follow-up the tooth extraction with an obligatory scraping of the socket. Kozhernikov - Leningrad     0 : : : No '0,000000*04110 001110160 1 ! 0 a Ik 14 1) w 11 1. If to rv 11 21 a 11 )4 n11 fP 16 It it 11 W 4 hl Ifu I U It C&fboftla SillUtioull in 411 ummosi~ uWale. A~ M. Muitin still iswre abowift that romill.-TAW.- empollsics evil lw "rarcled in Ilm FIm. W Nils IrQlll L'A-nvu gas by CtdiVr#%kM AA in the wtubbing li'llit'r to X114MAI fur tile r"wvrry of Nil, by disu* it. mind cmirn. 00 by Jilin. 00 00 of 00 0. of rof moo Do- zoo Zoo CkAWFK*TtC* L)71#Alkkf 00 4 K. t#j Is ifmW13 0 0 0 0 0 0 0 0 0 go* 0 0 0 0 * * 0 C * g OS 0 q S 0 0  ,-.;~ADINOVICITI, L.S., rvferent I-  L 09 66-67 F~IIP(o)/EWT(m)/T/EWP(t)/ETI/EWP(k) IJP(c) JD/MV/JG/DJ/Vtll ACC NR. AP6030609 SOURCE-, CODE: - UR-/0-4,13/66/000/016/0095/009.5 INVENTOR: Babin.2vich, L. S.; -jMovL A. M.; !!~kijL~ktij, L. I.; !tidqTyqel'skiy, I. D.: Klimenko, V. H.; Konchakov;k4ya, L. D.; 4~~p _19.eEko, G. M.; !!~kjjqValov, V. M. ORG: none tITLE: Cp _materlals~~) Class 40, No. rLwt IFL~Q691jannounced, by the Institiite of (Institut problem materialovedenlya AN ffkrS~~R) j ,SOURCE: Izobretenlya, promyshlennyys obraztsy, tovarn"s anakii no. 16, 1966, 95. TOPIC.TAGS: Iron wmet f- t. cast iron C steel coar4&Laimi, Ma&GS"! --,,v-_&_ . C_ ABSTRACT: This Author Certificate Introdu .ces a sintered material containing (for better wear resistancei/560-7,,70Z iron powd%r, 20-302 cast Iron powder, and 10-12%.. steel powder, such am Kh-301%teel powder-~$ This material Is used for extending 'the service life of stators and disks WT -rotary double-action PUMPS* (ND) SUB CODE: 1l/ SUBM DATE: 27jul64/ ATD PRZSSv 5.077 Cord ill not UDC: 669.018 -.25: :621,762.2    z-rd N. L. Yti-molenko, N. F., Rabinovi&., L. V., and Lemets, N. L. - "The rimal dependence of the surface activity,of solutions of~surface- (Iteport), Soobshch. o, nauch. ,uctive mQterl;ils and Ce~r mixturest? rabot2kh chIrnov Vsesoyuz. khtm. o-va im. L'-Iend6leyevi, 19491 Issue 1, p- 14-15. So: U46301 16 Sept. 53, (Letopis 'Zhurn2l Inykh Statey, No. 23, 1949')-  /"lye V /C t1l. ' )6neilcz of the swelling, of d' 1 UIT I -1tr" 11 k- Owth a" al N F E l v d ; l . . - - 11 9 me l. . rmo en o an 1 i -A"' f4, 38-10, zapiski I 1. Zhur-Khins. 1954, No. 4-9813.-The eflect of polar T!,,"bf,"tances (rtOll, p-pitrophenol, and ~-uitrophcnol) added to h,!nzcne an the swelling of vulcanized natural rubber studied. The swelling was detd. by the Ermoleuka and Mazel method (C-4. 4 7, 14r#i). Aida. of 0.5% of EtOll. Increa,ed swelling; this Is attributed to solvation of the double bonds In the rubber mol. with mols. of EtOff. Addit. of jp- and o-nitrophcrfol lowered, swelling, and this is ex- plamcd by a raore intense interaction of the nitrophenols with benzwcthan %ith rubber. Themme wa3o~scrvcd oil addn. of large quantities of EtOH. The expti. data on the kinetics of swelling are In good agreement with the Noyes- Whirne and - Maz _Ermolcuko equations '(cf. C-4. 49, e1 354hT H h 10( - 05c a  -2- P. tIlln Ix medla--:N; F.-JIn! r, ti I.. V, m ed , "m a. o d - - P B tl f y ; A INOVICIt. e r7rZ- orfj icilye Z 1,1 1 m. Vm r c N6.' 14~ 39-46, Referat. zhw.' whim., 1944, No. 42813; Chem.. AN-193A, 49, 14360. The offrct of.iminr miWattreH (ethyl Alt-01101, p-nilra- phenol. find 6-nilropbettul) ridded to benTAIne on thp mvelling of villenn.6ed ratmel rAtwir vrm nttiditd. Thu mi-velling stris dotvrr~mcd b ~ the 1, N. Bmiolenko j and At. 1, Mazet mkh6d (this jouinal", 3955, mms. 4031). , Addition of 0 01 of ethyl hIC01161 Ihmsm j fivrelling this is at6ibsted to - solmtion of thim doublo Honda in the ru4cr molemile with mole. ' cules of ethyl alcohol.. Addition of p. and a-:nitm- phenol low;red sivellitig, andAbis 1 , o m mintenho inter action of the it benzene than 'with mblWr. ~ The sin.. on additlot'i of large quantities of ethyl Almhol. The experimental data on the kinetics of swelling aro in good - agreentant- with the Noyoe-Whitney and Mazel-Ermalenko.!  23 PHASE I BOOK EXPLOITATION Ra binovich, L. V. Elektroavtomatike aviatsionnykh elektromekhanicheskikh ustanovok (Electric Automation of Aircraft Electromechanical Installa- tions) Moscow, Oborongiz, 1957. 421 p. 8,300 copies printed. Sponsoring.Agency; Moscow. Aviatsioruqyy institut im. Sergo Ordzhonikidze Ed.: Grigorash, K.I.; Managing Ed.: Letynin, Ye. V.; Ed. of Publishing House: Suvorova' I.A.; Tech. Ed.: Rozhin,:V.P. PURPOSE: This monograph is,addressed to students enrolled in course in automation of electromechanical installations on air- craft. According to the author, it represents the first, attempt to write a textbook on electric automation. Engi- neers and technical workers in the field may also find-it, useful. COVERAGE: This monograph explains thedesign and construction prin-, ciples of cdmponents and systems used in the automatic con- trol of electromechanical Installations on aircraft. It consists of three main sections: 1) elements of electric Card 1/11  2-4 Electric Automation of Aircraft Electromechanical (Cont.) automatioN. 2) electric. automation of a controlled speed drive, and 3)electriq automation of remote control systems. Some Soviet-produced equipment is discussed. Petrov, B.I., Docent, and Terskov, V.G., assisted in preparing the book for the press. The following Soviet personalities are cited and their contri- butions in the field discussed: Buylov, A. Ya.; Kovalenkc, V.I., and Sotskov, B.S. (p. 23 and P. 76);.Tsykin, a S. (p. 2411; Mikhaylov, A-V: ~P*'346); Marlyanovskly (p. 34~); Solodov- nikov, V.V. (P 02 403, etc); and VoronovP A A. (p. 412). There are nine bibliographic entries, 7 of whi;h are Soviet, (2 'translations) plus references to various Soviet sources which appear in the text and as footnotes on pp. 150, 170, 295 and 395. Card 2/ji  23 Electric Automation of Aircraft Electromechanical (Cont.) TABLE OF CONTENTS: Page Preface 3 Part 1. Elements of Electric Automation Ch. I. Electromagnetic Systems 5 1. Preliminary considerations 5 21. Contacts and their-characteristics 6 3. Mechanical and traction characteristics of electromagnets and their matching 14 4. Tractive force of electromagnets. 22 5. Design of magnetic circuits 33 6. Design of 'electromagnet windings 44 7. Operation time of the electromagnet 56 8. Release time-lag relay 6o ,Card 3/ 11  23 Electri c Automation of Aircraft IElectromechanical (Cont.) Ch. II. Electronic and Ionic Relays 71 Types and characteristics of electron t,.vbes used In automatic systems 71 10. Electron-tube relay with an electromagnetic acttAating relay 78 11. Noncontact electron-tube.relays 86 12. Thyratron d6sign and characteristics 91 13. Thyratron operation whenthe anode circuit is fed from a d-c source 97 14. Thyratron operation when the anode circuit Is fed from an ac source 99 Ch-III. Magnetic Amplifiers io6 15. Design and operating principle of magnetic amplifiers io6, 16. Applications of magnetic amplifiers 122 Card 4A1  23 Electric Automation of Aircraft Electromechanical (cont.) Ch. IV; Pulse Generators 128 17. Pulse generators with capacitor time relays 128 18. Thyratron pulse generator 136 Part 2. Electric Automation of Controlled1speed Drive 19. Introduction 141 Ch. V. Drive With Dynamotor .142 20. Operating principle of dynamotors 143 21. Characteristics of dynamotors, 147 22. The simplest dynamotor.system and its defects 23. Effect of the feedback potentiometer on the characteristics of a dynamotor 156 24. Characteristics of drive with feedback potentiometer 163 25. Selecting the elements of a,drive system 167 26. Connection of stepped-up speed 170 Card 5/11  23 Electric Automation of Aircraft Electromechanical (Cont.) Ch. VI. Electric Drive with Reed-type Voltage Regulator 173 27. Principle of operation 173 28. Reed-type voltage drive 177 29. Determination.of overrun time and overrun angle for dynamic drive braking 179 Part 3. Electric Automation for Remote-control Systems 30. Follow-up drive and its basic components 187 Ch. VII. Error Data Units 190 Selsyna Operating in a Transformer Circuit 31. Design and operating principles of selayns 190 32. MagnetomotIve forces of stator windings 194 33. Relation between the voltage on the receiving selsyn rotor and the displacement angle 199 S4. Vector diagram of transformer-selayns 202 35. The differential selsyn 205 Card 6/11  23 Electric Automation of Aircraft Electromechanical (Cont.) 36. Design features and accuracy of selayns 207 37. Increasing selsyn accuracy with the aid of a precision channel" 212 Potentiometer Error Data,Vh1ta 38. Use,of linear potentiometers as error data units 214 39. Effect of load on the operation of potentiometer error data units 219 40. Effect of potentiometer design parameters on their accuracy 223 41. Using functional potentiometers as error data units 226 Ch-VIII. Electron-Tube Amplifiers Used in Follow-up Systems 42. Types of amplifiers 228 AC-Amplifiers Card 7/11  23 Electric Automation of Aircraft Electromechanical (Cont.) 43. Voltage amplifiers 231 44. Power amplifiers 236 DC Amplifiers 45. Voltage amplifiers 242~ 46. Power amplifiers 251 Phase-Sensitive Rectifiers 47. Triode characteristics when there is an &C emf on the anode circuit and a de eaf on the grid circuit 257 48. Triode characteristics when there Is an ac emf on the anode and grid circuits 264 .49. Effect of capacitance shunting.the anode load ~ 273 50. Using pentodes in phase rectifiers 275' 51. Differential phase-sensitive amplifier- rectifier circuits 279 Card 8/11  23 Electric Automation of Aircraft Electromechanical (Cont.) SeparationCircults for the Operation of Coarse and Precision Channel Control 52. Relay channel separation 283 53. Neon-lamp channel separation 287 Ch. IX. Servomotors 290 54. Characteristics of a d;c motor 290 55. Characteristics of a two-phase induction motor 293 Ch. X. Static Characteristics.of a Follow-up Drive 302 56. Static characteristics of a follow-up drive wlth~a dynamotor 302 57. Static characteristics,of a follow-up drive, with an ordinary c+c generator 307 58. Static characteristics of a follow-up drive with a two-phase induction motor 310 Card 9/11  23 Electric Automa,tionof.Aircraft Electromechanical (Cont.) Ch. XI. Differential Equations and Transfer Functions for a Follow-up Drive 313 59. Differential movement equations of a follow-up drive with a dynamotor, without stabilizing feedbacks 313 6o. Transfer function and block.diagram of the drive 318 Ch.XII. Stability of a Follow-up Drive 339 61. Stability conditions 339 62. Application of.the Hurvitz criterion 341 63. The"Mikhaylov criterion 346 64. Determination of stability from the amplitude- phase characteristic of an open-circuit system 355 65. Logarithmic frequency characteristics 369 Card 10/11   AUTHOR: Rabinovichp: L.V.- TITLE: On the Application of Highly.-Solid Aluminum Alloys V 95 for the. Construction of Geodeti--al Apparatus (0 primenenii -vysokoprochnogo alyuminiyevogo splava V 95 v gooaezicheskom priborostroyenii) PERIODICAL: Geodeziya i Kartograflya, 1958, Nr 1+, pp. 22-29 (USSR) ABSTRACT: In the laboratory of a plant. the alloy V 95 vi&3 investigated %vi,".h respect to the possibility of replacing brass LS 59- 1 by V 95, in. newly projected apparat-as. Matallographical irnrestigations suoh &Q~ concerning the technological properties in consideration of the. demands made, as well as of corrosion resistance and resistance against downward pressure iver-a carried out. In the ca-se.of the new. theodolite type TT-5 V 95 is %Lse3 . so that in -the case of TT-50 weight Yms reduced from 5.2 kg to 3-1 kg. The chemical ~ompo.sit:lon of V 95 according to GOST 4"t'84.-1+9 is' 5--1% zinc, 1,8=.208% manE,-)-, - nea3, 114-2% copper, 0.2-0.6% magrv,-~.Um, 0.1-0.25% chromium, not more than 0.5% iron. ani 0.5% zi'~ioor., an3 the rest -,- ab-'num, When hardened ra ar,"ifio-italuy agea~j v 95 has a ten-sile strength of 52-60 kghm-, ar. elongation of 8-12%9 anJ a har3ness of 80-90 Card 1/2 R 1-00 B- Specifi3 weight'. 2.8 g/;;~, thermal expansion factor 23.';  On the Application of Highly-Sol--*3 Al-,~%num Alic~y:A 6, ~58-1,-W!8 V 95 for the Construction of Geodet-icall Appa_-a,;U13 thermal conduotivity faotor 0.28 cavcm aeco. The alloy IS not magnetic and is subjected -to therm&I treatment. The application of V 95 requires car.-iful treatment of molds, which must be selected with a minirmim of concentrated striss. On the strength of thisl investigations it may be said that : 1.) V 95 can be vridely u3ed instead of bjyLss or low-oarbon stiel.3. 2-) V 95 is more suited than braso 13 59--1 for tht production of parts subjected to frln- tion with low specific stress. 3.) In the case of constant lubrl- cation V 95 can be used Yrithov.-k special coatings, b-al. for parts subjected to friction sat anode oAldatilon (strength of anode layer not below 180 H,,) is to be recommended. 4.) 7 95 can &]1so be izsel for the production of metal parks of optical apparu-~Us. 5-5.) The oxidized alloy V 95 can be ri,5ed for the production of th-:~ o-_J~~r parts of apparatus used in zones of moderate olimatle. In damp ani tropical climates -the oxide layer mast ba provided with a co-Iting of protective varnIsh., Th,~rv art! 2 fig7irei5 and 4 tablei. AVAILABLE: Library of Congress Card 212 1. Goodeties-Instrumentation 2. Al=inuw.alloys-Applicstione.  18(4) SG'V/1 54-59-2-1/22 AUTHOR: Rabinovich. L. V., Engineer TITLE: The Use of.Light Alleys in the *xauf acta re of Geodetic In- struments (Primeneniye legkikh splavoy pri izgotoylenii geo- dezicheskilch instrumentov) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Geodeziya i aerofoton'l- yemka, 1959, 11r.21 pp 3 .5 OUSIZ) ABSTRACT: The industry.of the USSR produces a great number of light metal alloys:,aluminixm alloys with a specific weight of if;ht of 2.7,g/cm3 and maenesium alloys with aspecific we , 3. Also titanium alloys, havin,~ 1.8 G/cM U a specific Yteig~t of 4.5 g1cm3f have been produced in recent years. Oxide layers having a thickness,from a tow pup to 100';- are formed by way of an electrical surface ireatme.zit of the aluminum alloys. All-aluminum alloys are nonmagnetic, their technological prc- perties are satisfactory and in addition, they are cheap. The following aluminum alloys are of importance for the construe- tion of geodetic instruments: duralumin of the D-1 and D-16 type for simple parts, which are not subject,to wear. Card 1/3 Aviall of the All type for the same parts zhich, ho-vever, are  The Use of LiCht Alloys,in the Mazrafacture if Geodetic SOV/154-59-2-1/22 Instruments produced,by drop forging.- Aluminum-magnesium alloys ANG, AMG 3, A!VG 51,AAIG 5V9 MIG 6t ALIG 6T for parts req-airing high corrosion resistance (scales, limbs); aluminum alloys for parts drawn by cold-sw-Cing. The most interesting is the new high strength aluminum alloy V 95 - It nerves for the produc - of parts subject to wear (axe*s), is not inferior to bronze as regards hardness nor to the unhardened steels, and it exceeds brass in this respect. The tensile strength of V 95 amounts to 50-60 kg/mm2.,p urthermore, aluminum-ailicon alloys AL-2, AL-9 and aluminum-magnesium alloys AL-8, AL-13 are to be employed for the construction of1geodetic instruments. In the case of AL--8 the tensile strength amounts to 28 kg/mm. 2 stretchin- to 9,,t. AL-8 is highly corrosionproof, is easy.to cut and polish. All the alloys mentioned here have so far been employed very little both in the USSR and abroad; this is why instruments are usually.heavy and,do not meet operational requirements. The alloys in question are reco=ended here on, the stren.-th of factory tests made in the years 1956-1957. At pres'~,t, most of them are already,employed in the mass r Card 2/3 production. Limbs are also.being produced with light metal  The Use of Light Alloys in the Manufacture of Geodetic S(",V/154-59-2-1/22 Instruments alloys. Among the titanium Ploys.some have already a tensile streneth of up to,'120 kg/mm with a notch impact strength of 3-6 kgm CM2 and a hardness according to Brinell of up to 350 kgymm'2. These high mechanical properties of the alloys are preserved at temperatures of upto 5000c: they are, how- ever, suitable also in the case of operations at low temper- atures. Titanium can be welded, it is not only corrosionproof in the atmosphere but also in sea water and a number of che- mical reagents; it is nonmagnetic; it exhibits a low linear expansion coefficient which almost equals that of,oDtical. glass. The use of titanium housings for the reinforcement, of glass limbs in theodolites excludes a chanEe of eccentri- city in optical theodolites Yhen temperature oscillations. occur durinG operation. Card 3/3   ," - -- --- , ---- -- - [~j , , .  L 154M6 EWA(d)/94P(v)/,3-4-P(t)/DIP(k)/r,iP(h)/ EWPW (b)/&1P(1)/LTC;(-.i) itf?(--) )1j1)1Wd1W1C1'9 -1 ACCESSION TIR: AT502010 Wbooo/65/boo/ooo/W4/01671 AUTHOR: Rabinovich, L$ Ve TITLE: Use of aluminum alloys in friction'junctions or devices SOURCE: AN SSSR. Nauchnyy sovet po traniyu i smazkam. Teoriya smazochnogo deystviya i novyye materialy (Theory of lubricating action and new materials)e Moscow~ Izd-vo Nauka, 1965, 164-167 n TOPIG TAnsi bearing material, bearing'p'roperty lubricatio , aluminum alloy/ V95. aluminum alloy, ALBU aluminum alloy., M friction mi-achine f ABSTIMICYP: The use of aluminum aloys to replace copper bearingg in applications requiring extremely sma~ ~ance:3 (1-5 micron) and operating under small-bo-'' moderate loads for long periodsof time ist a range oflemperatures of.-50 to 50C was investigated (for example, 4n theodolites, levelss ate). After eliminating AL8u, e investigated on. a numbeniof alloys, alloys V95kdnd wer machine"'~4t 7 and 21 kglcW-)0.37 arsec! 2,000 rpm (OKB 122-5 ar:ii(-=K-20 ricants) and cornared with some commercial copper),kUoys (Bror 6.5-0-15,"LS59-1P It was -Eer found t6t dry operation of V95 aiid-71M ~riciion jin-iitio-na gave'--iim C'rd 112 -7;7- -7.  L 1548-66 AGGESSION NR AT502o44o coefficie4~cf friction and wear than the copper alloys, that a thin (3-7 micron) oxide MW8btained by anodic oxidation-improves antifriction'and wear propertiesp that lubrication further improves performanceP and that mixed V95-ALBU friction junctions provide best performance (no quantitative results are presented). An extensive program of applied testing of the alloys in actual instruments (at +50 and -40C, under 12-15 mm. amplitude., 120 cps vibration5 and.in 96% humid environment) showed that in all cases the aluminum alloys gave comparable or improved performance over the copper alloys for 10- and 20-year simulated services (Again no quantitative results are given.) These allays are recommended to. replace copper based bearings# j- A SUBMITTED: 22M&y65~ ENCM 00 WB COIDII Wt is ND REF SOV 1 000 OTMI Card 2/2 7,0 7-7 -  08513-67 Ua(d)/SVP V)/EWP(k)/EV1P(h)/EWP(1) ACC INR: L'46006282 monograph Rabi-novich,,,,Lev-yladimi*rovic4-,,.. .Zetody Phase plane methods in the theory and practice of relay servomechanisms fazovoy ploskouti v teorii i praktike releynykh sledyashchikh Bistem) _)'Ifoscolv, Izd-vo "Energiya", G5- 0150 p. illus., biblio. qjOO0 copies printed. TOPIC TAIGS: servomechaniom, nonlinear automatic control system automatic control L theory PURPOSE AND COVERAGE. The theoretical bases of engineering nethods for the study of relay nervornechanisms with nonlinear servo drivers are prosented. The,method oV consruructing phase trajectories using -templates is descrJ ed, allowing the rapid ib determination of the motion with arbitrary mechwiical characteristics. The effect 0 ane oid f relay unit lag with actuation and release, as well as the effect of r elements before and following the relay, on the dynwaic properties of -the system isl_ considered. The boundaries in the space pf parameters which se-oarate the various types of notion are determined. From the information presented the pro-nerties of a'.! ific class of relay sorvomochanisms can be Ianalyzed and the connection of these: sDec L Droperties with the parameters can be established, i.e., certain synthesis problems cari be solved. The book is intended for scientific workers, eng-ineers, and Card 1/2 uDc:.- .62-1-50   RABIPOVICH, L.Ya. kand.med.nauk (Leningrad) Course of left ventricular aneurysm in a patient with pulmonary tuberculosis. Klin.med. 39 rio.5:124-125 MY '61.. (MIFU 24 9 5) 1. Iz tuberkuleznoy bollnits7 laningradskogo otdela zdravookhra- neniya ch S.P. Duremkov). fraywra...) (HMT-DISEASES) (ANIMSM)    KOV AROVA I Y , Al Antind But-loovich, zhw-willn' red. [A month in the director's chair; a business diary] Me- siats v direktorskom kresle; delovoi dnevnik. Voskva, Politizdat, 1965. 86 p. (MIRA 19:1) 1. Korrespondent IlEkonomicheskoy gazety" (for Komarovskly).  RnLinoy~icLn~, an.~-! Ycnov-J ova, F. A., Cn, alkt-loid--~ from Dipasc-,;s ,.zureus Scir.renk. From dipsac~.s azureus is evolved a or-,,5talllipe alkaloid of comlosition C E 0 11 10 2 of z- non-saturet-ed. charecter containinC a lactonic cLping. ~)ehydr de ivative 10H,102111 L gr _ c r ~is obt3ined and. clurLng o;qCtati,on GqH70411 acid is evolved. The Orzhonikidze All Union Sci. Ruse C)lc-.iiiico-Flitir.%ac.cut,.IcaI Inst. Ijjb. of Chemistry of Alkaloids, Moscow. April 12, 1947 SO: Journal of Generttl Chemistry (L3S L8 (1948) R (Srj) No. 8       AUTHM Kamenichnyy. M. S. TITLE: News In Brief (Kratkiye soobshchaniya). Production of Ultralight Refractory Products (Proiz-vods .tvoul~tralegkovesnykh ogneuporov) PERIODICAL~ Ogneupory,,-9513, Y,~I.- 23, Tir 6) pp. 284-285 (USSR) ABSTRACT: In March 1958 a maetinC took place. at the Snigirevo W orks for Refractory Products whi Ich had been called 'by the Department for Refractory Products ofthe Scientific- -T--:~-~hni_-al Society for Metallurgy, and which wae de-votai to the problem of -the metihanization of the produoti~~n of ul~,xalight relracto:~y products.. More than 60.p,~rsonstcck, pa~-!t in. the meeting: _--~spresentatives.of the works fo= titute fo-r vefra,3tox-j materLal!r, of the Leningrad InsT Refrac-iory Materials, as well as of other organizaTlons. *11ow ng reports were:heardi. fs~-. AV Fedorot-a on the technology of the producTion 01, ~Itrallglvh refra tory,products 2) 1. G. Ulrfsk'ly,on machines fo-z mold'Lng and grinding light refractory materials.  _4 ~Naivs in Brief 151, 58~6 .1/14 Rroduction of Ultrallghz fiefraotory Products 3) P. S. Potemkin on t-he drying and burning ~f uots. refra,: ozy lighi pr:,d -a the prcdu~, k '...)a 41' 11. A. Rabinaor4ch on.the qxparlanoe i -f refxa,:~ cxy mater!a-La at thzo Snigir~_-rc~ works The -'solat-loa pr,.-p,4rti-~ps of -Zh6se produott., aze- 2 k1i'mes bettir tharA thcae of tht, othir 11.ght refta~_Aory pl~~du-zts. Experiments at. the 1.4ningrad Insbi-tute,for Ref ra._-tory. Products i~~arrlled out with ultralign-, 2 cefractory-products (weight.by volume 00 - Uc4 9/1191 showed that the heat losses de-3ruas6d by 47 -the heating period of the kiln by 26 %, and the ouvl-put pez-,hcuz _,Icz~asad per 19 u/~o. The prodiietion of these' pro-lu-Ults as as of the usual foamy ones Is based om the foaming of -4atp-r.su6pensions of clay and chamo-LU. The mass of ~he u "tralightprodu-ats contains 80 % of clay and 20 % of jL chamotte, whereas the-mass of the usual light produ-.-~t-s 1`,b. The dxying f t' e. contains 10 ~o of clay and 90 % Of chamct 141tralight products requires -a mild reglme andlast- Cla-rd 2/3 days. The'nhrinkags excee da 15 % vwht--,h e a s 1 1j ~-u ssCak 4~    ARTDIOV, Yu.M.9 kand. ekonom. nauk; OALIPERINg N.S.9 kand. ekon. nauk; GUBIN, D.V., kand. ekon. nauk; ZHUKOV9 V.N.v kand. ekon. nauk; OCHKOV, M.S. kand. ekon. nauk; OSKORDOV, V.P.9 ataYsWy ekonomist; BARNGOLISTSt S.B.p dotsent, kand. ekon. nauk; SIBIRYAKOV, L.Ye.; IVAHGVp N.N.; RABINOVICHj M.A..,,,,ekspert; LIPSITSp V.B. p kand, ekon, nauki VOLKOVV S.Is'--t land-.- na4; XOROLEVA, Ye.P.p aspirantka; RYININ, S.M.9 red.; SUBBOTINA, K.p red.; TELEGINA,,T.9 tekhn. red. [Planning and calculating the cost of industrial production] Voprosy ila- nirovaniia i kallkulirovaniia sebeatolzasti promWshlennoi produktsii. Mo- skva, Gosfinizdat, 1961. 183 p. (KIRA 3-4:8) 1. Moscow. Nauchno-lssled6rvtipllaki~ fimnsovyy institut. 2. Sotrudniki Nauchno-issledovatellskogo fihiwovogo'instituta, (for Artemov, Gallperin, Gubin, Zhukov, Ocbk6v9-'Oskordov).'3. Vsesoyuznyy zaochnyy finansovo-ekonom. institut (for Barngollts).4.Glavny-v bukhgalter Moskovskogo elektrozavoda (for Sibiryakov). 5. Starshiy kmiulltant Upravleniya bukhgalterskogo ucheta Ministerstva finansov SSSR (for Ivanov, Rabinoviph). 6, Nachallnik podotdela obshchikh ekonomicheskikh voprosov tsenoobrapovaniya Byuro tsen pri Gosplane SSSR (Lipsits). 7. Moskovskiy ekonomiko-ptatisticlWskiy in- stitut (for Koroleva) (Costsp Industrial)