SCIENTIFIC ABSTRACT GLEBOV, YU. - GLEBOVA, L.

 The Speed of' 11.1 In)- Up the 7~o.'- a Rollitil-I Mill by Xefrf 1. In flile IIIIAII~tl stat",e of' Holl of' spee(i oi' 'rioverientu dur-lii-,, rol-lLnE4: (1) of r,.10,1~oy (2) 31.ider; (~) I-I'let; Car(l  79t 606 E > 30; Ln PATH IN YUH41cT(I~ N f& rf4 k 0 LENGTH or t; CION OF DCUORMAT 101~ Fls~l . 4 . Rel,,,tl;Lo"l bet-aeen nioveinen', of fL,(:~rit r,ear (2) fac~e:j ot' :;,-jjnpj.p -r-j~j I . .1 X . , t of ~,O!Ilt Pei,lnheval r)f' (11) of' :;~ "!-l of' 1,01.1". . Can-I  L t IT k 0 R C G 10 14 OF W: I R#'A~l oll':-  GIL,BOV, Yu.P.; NIKOLAYLV, R.A. Force of contact friction in pressing- alumini-ra and eertt~j.in aluminum-base alloys. TSvet. met. A no. 4:0-50 lip '60. (MlIk 14:4) (Aluminum) (Friction)  GLEBOV, Yu.P.; KIRILLOV, P.G. Device to study I-he nonuniformity of metal flow dwin~: rolling. Sbor. nauch. trud. GINTSVETWT no.33:349-354 160. (MIR.A 15:3) (Rolling (Metalworlk))  E F1,6 AUTHOMS: III.I.; ) 11, 1 . L. W(l 6 1 Yll T LIT E,: D;~terl~li I) -It ion o I ti I (~ ji I, (,I ~1.. P I I:[, ~ 11. co It i ,tv i i~i Extrw;ioil wit'll it 1,1,1:,tic e DI,tc PERIODICAL: Tsvetilyye 111('t-ILly 1 9 Wl. ~ No - I I I:, . " '-I- T EAT " The problem of ker!pin.,, 0) ii-Linicowt (h(! of" di,~;card from I)ill(J bocoj;w5i, joartiI7ii[ilcly ull f-po r torit in e.,~truding costly metals or ;111,1 f1w ~I,l Icle (If!.,;- cribes a method of achit~,-vintr, tht..~i Plld~ Tho I'let'llw! I I () 1) t t:; I? (I i. ~i based on the ap!)lication of a conical di~-, tVii"d ].~*I coll,pinctioll wl,th a spacinr, disc of n plv~tic niot~-_tl (j,_LEjj sit:iilar to thos e of the exl:rud nd um t. er ial F) I.Eic :.(.I t~je extrusion ram and the extrusion billet. ['!to of the inethod is bost exiJained by reforriny; to Fig. I viuch :ihows (I) the e.,ctrusion biliet; (2) pla~;tlc mvt.il tli!;c aml (-I) ra.:i, before (A) and aftor (13) extru.,ion, Tlhe of the ~-iethod con,-;ists in thi.,it the rxiting surfaces of the extru6lcm billet and the spacin,,F, disc are not flat. but convex find coneave, re!;pecti.vely. If the corrf:!ct, slui-)e of ~.he curved inlc7rface (line Card 1/3  61 L':'~VG 1 /0(-,"./(-)0 L/005/0-10 1.1) E28 Determination of t lie Sli~,prt of the PL,~ne of C (i ii t..-i Ali !r)yi i;ith a 111;iit ic llres.:~urv Diji: D-C-E, Fig. I A) is chosoll. A t. bet. I'lill ( I I I, o1'.) - C - E 1. 1 g .I.B) after from the :.;o Lhat the LaLl (.rlfl of the extruded rod i.,; from the klofect olld does not have 1(. be, di-scl-trded. A ji)(Aihod of dotf!1-111111i'llp, tho c()I'l ect (1: tho curved interface from the co-ordinate net oattern, on the meridian face of an exoerii,ietital billet. is de 'zicribid. Anul v ing this method to alloy ecs'lb (D16) . eXtrUded at 1120 0C From a bil i 40 inITI in diZ%111Qt(--'-, to all L~')~11 iwi di,wwLt-r, x'od. tI i e I -I- i- (, 7; (, n I ;in ( hol- found that thO C01-1-(2Ct illt(~rf.!IC 0 (1011!~ t I tilt, ("; -A)i L hj~:~ ocl~~o . a quadratic Paraboloid. It is concluded that if L[11!3 method is employed in e:.tCUdin..-, metals at relac:iveiv Low tectporatures (below 0 500 C), the exLru.-iion process can be cz~rrle(l out %-~.I.Aliout )roduc-Lag a discard from the e~.ztrusioii billet, Tiiei(.~ cire it and 2 Soviet references- Card 2/5  1/00(j/oo.,/ u,,, --,j/ o I o E233 Determi.ii,ition oC th(I S11,A!'O Of 1:00 Pi.!11 Of t: ill with a Plzistic Pros.,iuve Disc Fig. 1 PHC. C.X(!Ma K Card 3/3  j/~)(.~')/1C,2/D 14/0 1 j- A111HORS, Perlin. T.L., Glebov. Y~A.F, TITLEt On the Shape of Elastic Zone in it Die Euring Pressing, '111,.rough a Single-Channel Flat Die PERIODICAL- Izvestiya vysshikh uchebnykh zavedenly, 1961, No. 2, pp, 131 - 133 TEXT., The shape of the deformation seat in preLlsing through dies is determined by the elastic zone. The effe,:t of' var!~~us on -1he vn.-agnitude of elastic zones has been dealt with in a number of (Re,, I - 4)~ However, they do not explain tha causes of a :ons-~an-j_v equal shape c-f the eur- face separating ~',ie elastic zone fronn the deforming metal volu-me. The shape of this boundary represen-2 a trajectory of the mc-,ion of peripheral layers r.,f -%he pr.~e2ed metal. Tnvestigations of -this toundary proy.1de drita (~r~ rt!gulftril~ies In mel.al flow during pressing; -;harac-.erlstica of the surface -)~ slip Ln the de- formation seat, and on the effect of the aforementioned boandary on force ccndi- tions. The authcrs attempt to explain the causes determining "lie surl'ace shape of the elastic zone. For this purpose it is zuggested to use :he prinniple of the least work and the least time for the traject~~ry of =7-,Ion (:.f' metal ~Rrticles Card 1/3  S/I IrOW/00 2/0141/0 1- AO,O;)/A!%X, 1 ~\// On "he Shape of Elastic Zone in a Die D~.jrlng Pressing Thromgh a 5ingle-Channel Flat Die (Fig. 1) . The trajectories of particle.~ froyr p3tnt A t-) B ca,-, be dietern-;:.ned a.Ia_ logous to the solving of Bernoulli' s problem of ~he brachLatrclirore whIch -shows (Ref. 6) that the given curve is a cycloid (Fig. 3) which iii concave in the mot'.on direction of the point and resembles by its shape the ~ound,%ry cf ttie elastic zone. Another method -of demonstrating the concave shape of the curve rearmed ty -~he tra- jectory of a point ,r.,7v.Ing at high speed and mirimurr. t-'rne is !3r:)wn in PLg-Ire 4. TI I he straight line m - m, parallel to axl!i x, crosses the 9 truj!--torles in points c, d, f. Time is gained when the shorter section _,s passed at a lower speed and the longer section at a higher speed. 3ections of the co-arst, passed by a point at the same level and by different trajectDries, are irl. the relation Ac < Ad < Af, i.e. a-~ the beginning of motion at lower speed, "the concave trajec- tory provides for a shorter course, and for a Longer course at the end of motion at maximum speed, -gince the section of the Ti-Ijectory telaw m .. m are In relaticn Be -,y Bd > Bf. Thus the shape of the elastic zone sarface durIng pre:scing ,hrc'LL.;h flat dies, corresponds directly to the principle of the leas-~ work. !hIs is im- portant when develr.-~T*,.ng methods of determIning fcrce f:~r pressure work- ing of metals by the least work principle, uslIng variatic)nal Data 0b- Card 2/3  S/149/6 1~W/002/1014/0 1-17 A006/A001 On the Shape of Elastic Zone in a Die During Pressing Through IL Sin.gle-Channel Flat Die tained may be used for designing pressing tools. Figure Ii Figure 4: Schematic drawing of an elastic Schematic drawing explaining the shape of the zone during pressing with a flat boundary between the elatitic and plastic die. zones during pressing thi-ough a flat die. 9 A M C d %f M L There are 4 fig-area and 6 referencesi 5 Soviet and 1 non-Sovlet. ASSOCIATIONS: Krasnovarskiy institut tsvetnykh metallov (Kraanoyarsx Institute of Non-Ferrous Metals). Kafedra obrabotki metallov davlfaniyem (De- partment of Pressure Working of Metals) Card 3/3 SUBMITqIM: October 5, 1960  ("j:-" -61 S/ 13 6/6 1 /000/oo4/004/006 AUTHORS: Glebov, Yu,,P,, and Nikolayev, R,IL TITLE: Stresses Due to Contact F.-iction Dur.ing Ex'klru!~ion of Alumin.ium and Some Aluminium-Base Alloys PERIODICAL: Tsvetnyye metally, 1961, No, 4., pp. iiB..50 TEXT: The a(-;curacy of analytical determination of extrusion pressure depends to a large extent on the accuracy of data. on contact friction, used in the calculations, Althc)ugh several formulae for contar,-t frictton have been derLved they all contain parameters which are diffi(,ult* to determine either analytically or experimentally- Consequently i.t. easier to determine the magnitude of contac.t fri.c-tion experimentally, The, contact friction phenomena during extru-z:tori of aliininium or aluminium alloys have r-ertain speciftc features, owang the fact that these materials tend to stick to the containe*-- wall and form on it a lining, so that friction takes- pla.-P not b#:,-.weqn stee2 and the extrusion material, but bet-ween the weldE.d-on lining and the extrusion billet ~ When the temperature of the r.,-,-n~ainer JQ near to that of the billet,, welding, may readily cc.,;ur between the lining Card 1/ 5  sl i 36/6 i/ooo/oolt/mi lom.) E193/E-183 Stresses Due to Conta,!t Friction During EXtTU71011 1-f .41L]Mtriium and Some Alumin-ium-Base Alloys and the billet, in which case friction is repl.aced by plastic shea:-. v When different alloys are extrude-d from one rontairier, t,hu 31tuatIon Is complicated by the fact Olat the "'henfl.ca-1 C.ompooAtion (and, consequently, the pToperties) of the container lintng Changes continuously, h-eilng often dfffElrent from that of' th4 eXI;T'ilded alloy, For this reason the only reltable data- el,.an be obtained fTOM experiments carried out. under Lndustrial r:onditions, and Since data on contact friction durl.ng extrusion of aluralnl'um axe scarce, the present investigation was undertaken Th,~? ~tresse--- due to contact fri,-tion were determined during extrusion on LL-'00, 1500, 2000, and 5000 t presses with the aid of a metht)d due to 1J., Perlin (ReO+) which ~~onsisted in the fo'Llowini! Tpo ext-,,jr ion. p~vessvtz (P, kg/(,,m2), as Indicated by the r1jant-Injoer, ww-. plotted against the distance U., mm) tra,Telled by the ext-ru~-i---.)n am, 'Nio points were then chosen on tt,.a linea., portion of the P L) (Airve, and the /^\ T difference Iri pTe~ -- -,u ~ i~, ~P, and the :-ovre~p, nding di2tan-e travelled by the PXIT-,V~iQT1 TJM between the~-c- twc p-.,!O,!~, 4~iie Card. '2/ 1z  ",94~~2 S/13 6/61/000/004,100V 006 E193/BI83 Stresses Due to Contact Friction During Extrusion of Aluminium and Some Aluminium-Base Alloys measured. The change in the magnitude of the friction area, Ftp, was calculated from the formula: Ftp JFDK U7 (3) where DK is the container diameter (mm) . The I"ri (:tion s tress, 'Fkp, in the plane of the container wall was then calculated from: 'Ukp Ftp where Fnjq is the cross-.section area of the extrus-.Lon ram, Data, obtained during 200 tests car:ried out under vario-iij conditions of temperature (t), extrusion speed (0, and elongation (p), were analyzed, Typical results are reproduced in Fig.2, where '-Ukp (kg/mm2) is plotted against the extrusion temperature (t, oc)~ Curves 1-6 in Fig.2 relate to the following conditions'. (15 aluminium, extruded at v = 31-.52 mm/sec, 21,j (2) aluinini=5 Card 3/ 5  694"'12 S/13 6/61/000/004/004/006 E193/EI83 Stresses Due to Contact Friction During Extrusion of Aluminium and Some Aluminium-Base Alloys V = 4-5 mm/sec, F = 4 5j (3) alloy PY6 (AK6) ~r 0 5-1.5 mm/seo, )i = 19 allo 8~5 (V95), v = 0.2-0.6 13-33; alloy AB (AV~, %r = 11-18'mm/sec, 15-35i (6) alloy AMf'5B (AMG5V), = 0.8-1.0 mm/sec, ~i = 22, The f ol louring conc-lus Lons were reached, (1) At a constant extruston temperature the stress due to contact friction during extrusion of aluminium alloys varies within wide limits. depending on the extrusion speed arid on the elongation, the former-parameter having a more pronounced effect,. (2) Above a certain critical value of the elongation (~O which amounts to 13-15, further increase in p has practically no effe-.t on 'V'k (3) The results quoted in the CoUrBe Of the pTosent investyglation were obtained under cond'itions most frequently met in industrial practice and can be used for calculating the extrusion p:,essure for the alloys studied, There aTe 4 figure-z and 6 Soviet referen~:P~,, Card 4/15' .Y  6W,1 13 6/61/ooo/oClWCr)V,'-.-, 6 Stresses Die to Contact Friction... 1"1193/1"1003 xy .1,0 ix jlg jpd .1sy S"I 4L7 J, 41's 4~7-Ttv I-V -T-1 Card 515 Fig. 2  PERMIT, I.L.; GIEBU, Yu. P. Sha rf V-e elastic zone of d-leo in pe die stamping. Izv. itchev. zqv,; ts7et. met., 4 no.2;131-133 :61. I%MIU 1-4:6) 1. Krasnoyarskiy Institat tsvetn7dch metal~ov, kafedra obrabotki metallov devIeniyeri. (Dies 1"MO,n1work~ng))  ..: - GLEBOV, YII-P- J,~~ IdAll L, L. , .,I , , . , - ". ." . - ., I . . - I i . !:~ , - , . . I I  S/149/62/r4Q/OC3/0O9/r) I I AOO I /A 10 1 AUTHOR: Glebov, Yu. P. TITLE': DOW1.111inaLlon of maX11111111) 111,11n deformation hi 111"!! sion of round rods PERIODICAL: Izvestiya vysshikh uchebnykh zavedenLy, Tsvetn,.%ya rn~-!tal-lurFj.ya, no. 3,1()632, 135 - 146 1 TEXT The author studied, under the guidance ot' 1. ~Ll. Perlin. the proce;-,.- of extrusion of round rods with the purpose of determInlrig shear (~eformatf.,)n and the magnitude of maximum main deformation occurring during this prooess. He dL- vides the volume of an ingot, being extruded through a d!F- to produce a round rod. into three sections: first zone, preceding the deformation seat, in which there is no plastic deformation; second zone or the seat of' plastic def'o-7nation, and third zone which represents the rod after extrusion. The motion of 11h-e poLnts within each of these zones is a-nalyzed, considering the process as ar. ;-~Kial-sym- metrical one and neglecting the friction losses.' As a r(?sul.t of thi! analysis, approximate equation of the curve is derived Into which a st.raig-,it tr~Lnsverse line Card 1/3  Determination of maximum... VOI/A101 of' the rod co-ordinate network transforms vinen tile extriision a steady state. Differentiating this equation author tl.nds the )i' angle , which Is tile wigle of shear deformatfon, expressed In Lerrilz )I- ~nt'-~al co-ordinates X: tg c where ;. Is deformation degree, being the ratio of cross sectionr, of' -,,he int;o~ and the rod; : is a coefficient whose value depends on the die ang-11, (a. &,raph show-* Ing their relation is presented In the article); De Is dLametev, of' coiftatne-v In which tile Ingot isplaced,i.e. initial diameter pr1or to extiiislon. Thc! maFtiltude of relative maximum main deformation for values of ji 1 10, which is u~uaLly the case in practice, Is expressed by the following forniula: In , x ~ In ('4 + D A` 0 On the basis of this formula, the necessary magnitude of' total Proosurc, is determined, which looks as follows: lard 2/3 1  Del~erminatton of rnaxtmum... AO01/A101 P D'~ hi (k vinere Sd,,,, is averai;e value of y i e I d 1) o i n r oe 1, t i I e d e *',:, r III; I_)Y1 _'e aaf 1 j 1- ; 2 addi - in orrcetion coefficient taking into account the _tLonal shedr x! , -, fh'lert .aL direction of indivLdual (,oncentric layers. T'he (~r this "-!f a is compared wLth that txerted by another coefficient in tho Pi-.-r1lin f'orn-iiiia ("Tsvet- nyye metally", no. 9, 1957), and corrections found by both ways wP-re found tO bF_' of the same order of magnitude. There are 7 figures and 3 tables. ASSOCIATION: Krasnoyarskiy institut tsvetnykh metallov (Kriisnoyarsk In_ztitutr~ c;f Non-Ferrous Metals), Kafedra obrabotki metallov davienlyern (Dipart- ment of Fressure Machining of Metals) SUBMITTED: May 15, 1961 Card 3/3  GLEBGV, Yu.P. Pressing rods without leaving butte. Met. t:pf;. 35 no.7:55-70 J1 162. (MIRh 15: 11) (Power metaUurgy)  ZLOTIN, L.B.; GLEBOV, Yu.P. Determining the design value alp deformation resisz.ances in car,- tinuous processes. Izv. virs. achob. zav.; tsvet., Lrot. 5 no.4: 169-173 162. (MIRA 16:5) (Metalwork) (Strains aDd strasies) q7/  '63-  CESSI Oil NR: A?4015111 S/0136/64/000/002/0062/Oo65 AUTHOR: Perlin, I.L.; Glebov, Yu.P.; Yermanok, M.Z. TITLE: Effect of tEnperature, degree and rate of deformation on the Arength of aluminum alloys. deformation !SOURCE: Tsvetny*ye me+vally*, No.2, 1964, 62-65 ';:TOPIC TAGS: aluminum alloy, D16 aluminum alloy, V95 aluminum alloy, 'AD31 aluminum alloy, deformation strength, deformation rate, deform- ation tomporature, deformation strength temperature funotion ABSTRACT: The effect of different temperatures (360, 420, 4800) and various deformation rates (0.19, 0.8, 220 and 880 mm/sec) on the de- formation strength SS was investigated for D16, V95, and AD31 aluminum alloys. The deformation rate -vr affects S,.5 ; and with Increased de- gree of deformation V,, the intensity of the growth of !~a Is decreas6d and in some cases even lowered (for LD31 S lower ,j is at a rate of 14 sec.-/ than at 4 see.-' ). The curves which show t*&-.e dependence of on degree of deformation have a maximum, and it im also shown tha:b--"- Ci=ld  ACCESSION 1TR: AP4o15111 the degree of deformation depends on temperature and rate of deform- ation. As temperature increases the maximum on the curve is shifted in the direction of smaller deformation values; and with Increasing rate of deformation, it Is shifted in the direction of larger deform-'! ation values. Working diagrams (fig. I ) of the Q,~ = :f(t") relationship irere constructed by extrapolation from experimental data for the 3 temDeratures investigated. Curves are also included for the most Dro6ble deformation periods encountered in extruding the given alloy& The loiter curves aw show the initial values corresponding to S.~ for I ~, = 3-6110 and minimum rate of deformation w = 0.03 sec-1 - Orig. art. has: 3 figures ASSOCIATION: None SUB CODE: ML DATE ACQ: 121-lar64 MICL: 01 VO REF 3073 009 SUM-11TTED: 00 OTHER: 003   JAMMU TW6:"sof Sao= pxe CU Card J   1 04- i M.   Ofs"Ll-:, Cila e.d j T. ~Lrj 0 f'() 11, L0.-1 u-I Ott, (le-ree C)~ 1, r o c ns 7 nn. ~035-1.11- A64 I  Category USSR/;tIle,-,tr3(-;'Lty - Semic-nduc-~rrs Ct- 3 Abs Jour Ref -712?)X - PILik,.1, No i, l';5'( N- ir~O 1 .1 J,- Author i Glebcv, fu 3 , Karavayeva, A-r? , S-C. Title :-Mle-CE-rlc~,Driductivity -,f DXY'A'!rc. Oriff Pub Sb, L-eninCx ~ in-La t :cluioy me-k(i.,zm. opt i"A ~~j- p, 18, 163- 6 L Abstract Investignt.j..Dri 1'eU111.10 are glv~.Il on o' oxyferi; Tht- t er-i+ltre depetiaence (.' tile ros~3t,on(:- cb(!y,~ tIv! ,!xp:)n(!nIial law TT - rj L or. this Diw is observed R = Ae M.1y at high tempe. A devintion "r at temm!r.2ta:1-~3 be-IL1w 4(f, at tlit* ma;,gniric propertits 0--:, the Ord-fezs manifest -'%-?m~zej.ves : '4Y-7 Js the Ojx-m.- pnin-- I The de~.,)endence of Tit R on T ajid on C~ -7- f' ~ T, 'I, has a maY-imLLn -. i, 4(:r, The distributicn. of the potential over the specimen is practically -1-Ino:qr Tile x-,Itage aoroscz the contacts is much higIner 11-5 - 20~) than the LDplie,.d to the ~,Pttcimeun, urith tile percent- age voltagc! drop across the cnntact~-, iricreasinE; witn Increased a plied voltage p (,from 0.5 t-- 1.5 vc;lts" . Tht aj-!- t'Lised,",n silv!!r, The static vol- t3v--,Lrr-er).t ~Fluacteristic,3 :A-i-r tlvi-, the-- oxlfftr., ar(! to thez*aistorz in prc-perties . Unlik-:! tb,~ the law-freq,lency volt9C,,7-cu=-~nt characteri.~,ti-s -)f a-re dtter::.jIed not by thermal Card : I // "  Category &7xpiconioctcrs, Abs Jour Ref Zhur - Fizilal. lll,~, !, G-3 phenomena, but s-tle special pr--~ctr~s, a sl-l:Av r.1' wllll-h -'-elp e:rplain the mechanism 4- .-he vonduct-LviJ.y -f ckyfeiz The re~-,u~tm,t voltaj,~e-current chara-cterUt:.c~; ,S-e similar tc u), th-ir, metallic fillu, by lic po~-,dprs,. and by Y-ie 'ca3.-ic concluirtion Inecbs-nism of Ox _3 -9p rently cl'~seiy phf!-rlomf!na between the yferst, I I grains e:,f lie The R i-,f the -~-,rL,!!r (f) with maximi-mi r~tduf-,tion in F. hting vt~.] at. J.-Cw -valli(!z; of f'. A further increa.-,t! n f fr:,ri 16 c- 2) kc tlie~ ::f Lhe o:cffer but llttl,~ A ~on.31.uFi~n is b-,)vi U;f, "!I properties of the rllri~ Card 2/2  00 's a, lot,- I rL 1.4 qF 'A rl  r a-y ~~dv :-:-J:, a *-,E: err:!-5 T.r  GIEBCIV-KOTELINIKGV, Erik Anatollyevich; KATS, A.M., red.; POIMIIIA, G.V., 11 _ - - - --red*-; -MTKCVA, R.N. I tekhn.red. [Application of accounting-punched card machineii for preparing consolidated constructional and technological documewtation] Primemenis schetno-perforatsionwjkh mashim dlia mekhmlizatsii soBtavleniia svodnoi konstrifk-torokoi i tekluiologichmkoi dokumentatsii. Moalcm, Gosstatizdat, TqSU SS,-E, 1961. 41 p. MU 15:5) (Machine accounting) (Punched card systema)  USSR/Zooparasifolovy. Parasitic Worms. General Problems. G Abs Jour: Ref. Zhur. Fiol, No 23, 1958, 101+052 Author Kaslyanova, K. A.1 Glebova, A. A. Inst Title Case of Diphylli-Mosis in Mon Orig Puh-. Ped. parazitol. i parazitarn. bolevii, 191~'8, 27, No 2 ~ 219 Abstract! No abstract Carl 24  -MMOU, Antonina. lvan=19 SAVON121, Yevgeniy Fedorovicb; SINELEV, I. --- -- I ~ [Economic accountability at enterprises of the Penza Econonic Council) KbozraBehet na, predpriiatiiakh Penzenskogo oo-7markhoza. Penza, Penzenskoe knizhnoe izd-vo, 1960. 24+2 p. (MIRA .14:7) (Penza Province-Accoitnting)  r, c r) w (55-57) f:VP u." f ~ilfte.,- ru )tare i v 'ol! occurs ~:.ft~LT I' to 5," :~!Ozt~-s Gf t L P.: ut rn t C- ils V- s tudj, E~ c',- ~i L~ 11 .. c d f F~ i- S zipl~ re. c s w[) F I;,, of s V.,n CL, C. t :.Orc t t v L)L- (i L a P-.`,tr freciuent -:Qf--rt~ 1, l ni~t ",eer. ,-,ruved ey-)e-- So: :,:C-  GLKBOVA, A.N., uchiteltnitsa The school zooln~V study rooia. BiOl. 7 silkoLf-, Y-D 158. (101A 11:11) 1. Krupotakayn f3rodnyayR ehicola Inipetskop rayorni Kurskoy oblAsti. (Zoology--Study and teaching)  BARANOV, A.A.; RUNIN, K.P.; (jL713CJVA, Kinetina of the second :3tawp o!' graphilUzing, c,uit. iror, 11iUl spheroidql graphite. Izv. vyr. ncheb. zav.; ch(irn. met. 6 no.'0:172-175 163. (:,JRA 16:9) 1. Dnopropntrov-,kiy IntOd'-ut. (Cast iron-Mptrd2oi?rnphy) (Annelaim, n" rr~-ttnlr )  :) ' ! ~ 'I . . . Lr,,-. , , . I I ~: I . . . f~ .1 ~ ~ i . .". . -r,~ - . I ~ -, ~'-. ~ 0 . I . . I I I I I t  - -~: 7 . t : ~ - . !;UMU", :,., ., 1". -~;( , , , I- - ..I , , :, . , - ~,~ I '.- I-,, c .. . I FI :-;. .  I J,.',HA'IOV I A . A , ; 6i I,.! v V A, E. 1). I I 't i, - ,; U . 77.fif .. . 1, , .. 111V y.:. -,-hob. UT, ca,- -oll - ~; - 1 ~~, (m -, ZU'l.; IfIet. 7 nu . 4 - 133- 10, '(4. 1 ~ !. V : 5 ) 1. irlOtAt"'I'l-  , A. A.; --I'!.. , .-,.D. (',r(-wt,;i rZ frrat,hitiz~.d ;ror u] %;. '. I I I - Ii point. j'.w- vys, uchel). zav.; ch,!rn. m-t. '' 1 ".1 . ('- - 1 z'. .-I P -, 1. Dneprot e trovsk Ly :r.,! ta'L 1'~~ r-~7 ic`i- z I'll A y ~,m, t: ti. L.  - - - '. ;!I . . I ~ . . . (-,:l ~ t j,,n at. I : : ~~ I : : , . . 7 t . . .  A N , K . i U! i- I) -in '-Lf~ cyl: c h mal .j,l.,:C",U:ral. changf~ -,Io~- -,r tre,it-mPnt of cas'. iron. Dok! . AN 1, 4 no.1-84-8,5 5 165. OrlRk 18.9) 'Im',tItut. L)'-ul,rd t t,-d Janizat-y 3C, 196~,:.  GLEBOVA, G.D.; KOSHELEVA, G.N. Use of FiSherla reagent in determining the srater mitlet of certain reagents. Trudy IREA no.22:115-U8 '58. (I-MU 14:6) (Cheraical tests and raegenLu)  U192s()V, Voovolod A*xksove vi ell; IVANOV; -~MBOU, l-'retu Iyanoyna: a VII,,.idimir Vlgdirqirovich; NIKTJLIIJ. Mkolty Jyr,n(,!i4.r;h; Alln Potrovnn; OSHANIII. I.M. , prof. , r( d. ; VU DANG AT, rad. SnXTOROV, L.D. P' red.; ME - NTSOVA, Ye.11. , rad. -, SOBOLEVSK11YA, E. S. , teIrtlin. red. [Viotnw,bose-RimBian dictiowiry] Sost. I.I.Glebova I dr. PwI rud. IJI.Oshan~.w) L VL lb--q, Ata. Okolo 36000 olov. Mon1m), Goo.lml--vo :.nontr.,J rintsionolln7kh nlovnroi, 1961. 616 1). (JUIB 14.4) 1. Vostochnty~i rednktBiyn GoL31idarE3tveniio;-,o A7,dnt-,)I'Stv;i I atrannykh i natsionalInykh slovarey (Ili)r Yo.B.Zalpntno-rp, S:10ktorov). Onnsmose  I  Chemical Reagents) ~ I - 1 1. .,. - 11 F - -1 I - I - . : ; .1 . i ~ ..; . ; , , . I r,. ~ ! . " I , , .,  BEREZOVSKIY, V.M.~ GLEBOVA, G.D. New reaction of' o-phonylenudiaminen witi, vlcl,~rlc ticid. DOkl. AN SSSR 143 no.6., 1341-1344 Ap 162. (MIRA ll~:/,) 1. Vsesoyuznjy naiichn(.~--Iqslpdovptpl'qkiy vilrvninnji inntLtut. Predstavleno akademikom B,A.Kazanskim. (PhpzVloneiinmi no) Viobiric !icid)  d of oynthesizing alloyazines. (;ond(.jnsAicn oC aromatic s with violuric acid and it3 thio analolls. Dc;kl. AN no.2:355-358 S 162. (MIRA 15:9) 1. Voesoyuznyy nauchno-iscledovatellskiy vitamirmTy in5titut. Predstavleno akade-mikon, 9.A. Kazanski-m. (Alloxazine) (Violuric acid)  ar,  tMITUTOVA, K.M.; CLiCWVA, G.1. r- , - , , * Amount,t*~~'M-O"kle compounds in Podzolic noi-A In Poncow Ewith summar7 In English]. Fochvovedenie no.8:45--52 4, '58. (MIRA 1l: 9) 1.14oskovaldy gosudrastvannyy universitet. (Moscow Provinco-Podzol)  . S . ; CTL,-~, I-'.3(-"','r A , 0, 4 1 0 P- %1 -1 , K . ye . Anallysi E of' the di.,.i !.r Ill, ~i t I on )f in the fjcil 7p, (if ile baaed j,,, tho c1 I rvol c-, svwc ~.ra .-h E., shkolyl `o1. riaul::L 1.? ':'22 66, 0- Nai~ch. v, id 14) ta.  USSIR/Geology sq)),Oct. 29,17 Pyrites "New Sulphur Pyrite Lodes in Mir-elia," G,. (), Glaborm, 7 Pp "Razvedka Ned-T" No In 1940 - 1941 work uader the ~Luthority of the 1,-xn:in- grad Geological Administration uncovereil a n9w MULL- phur pyrite lode in the Segezha region of the Karalo-: Finnish SSR, some 15 kilometer:3 from Kaobkoma. StatIon on the Kirov Railroad. This region is I:noiir- as Parandovsk and the lode has bean named lbr:j Par&-qd.oi,sk Lcde- Presents a geological mip of the araa LO 27745  GIEB OVA, trans Istor]; EELENTSOV, V.A. [trauslatorl; IN-Allov, Y-V- [translator]; M01OVINOV, V.P. [translator]; IIIICJLFU, 11.1. [translator]; SOLTOVA, A.P. [tnfinlatorj; 17RIYO.4011, Y., rod.; DANILINA, A., tokiin. red. [Progress in the routoratton of' the natLonal ecor,omy of the Democratic Republic of' Vietnam, 19-55-19.~61 Unpijlc~l 7oastanovlantia narodnogo khozi.-sistva Demokraticheskoi Respublild Yletnrsm (1955-1956 gg). Moskva, Gos. izd-vo Polit. lit-ry, 1958. 271 P. (MIRA 11:5) (Vietnam. North-1;coriomic nonditions)  USSR/Zcoz~am sitolo,-y - Parasitic Worms. General Problem. G. Abs Jc)ur Ref 2~hur - Biel., No li, 1051~3, 48179 Author Garkp~vi, B.L., GletQv'1,-,1.:L'-~A- Inst Title The Eovelopment f)f Cestsdc.,; Ilyi:iciiol~,pL, fv.,-,Lrn:i 1906) and Lf~ ~.enoleLis naw~ ~~f White Mice. OriFt 1:ub zool, &., 11057, 36, N-~ 7, Abstract by mcan~'-, of dirwectLon (-,,' whLte, mice, by H. 'L'raterna arid infcoLcd ex-peririentally with tb(-- (j, ave 1~c!en asce~, tz~nA this i~Lirasite and If. nai-,a, -,here hr the r.'A~Xation of the of hyr-enolepis (apparertly! durin_ f-.uperinfestatijn) and their Lzowth in 7hc iie~e-ntcry tic 11 ~d ~)f thc 1r-,phati,-, the ETowth 1.11 t the larvae TjaGs throu!,h -,ar.e staCps, Di~ly at rate. Card 1/1  3:E30',jjI,, T. va., C-,nd Vet Ved -- (diss) "Dorivation of the attontuated vaccine strain of bird pastourollas by tho inothoJ of subino~:~uiation of guinea p~jrs." St~~ivropol I , 19i-A, 15 pp; (il-lin-i3try of A.'ricu!Lure RSFSR, Stavropol' Agricultural Ir.:ititute); 150 copies; price ro'. .-iven. 50-60, page 135)  MASYUKOV, A.V.,, veterinarnyy vrach.; GLLBOVA, I.-Ya., veterinarmyy vrach Living vaccine against Fasteurellools of poulti-jr -,nd mate.--ials on its testing . Ja 1.1. Veturinarila 38 no-1:-'+'i-51 (MDIA 15 -4) I. Yrasnodarskaya nauchno-is.,iledovatellskaya veterinamaya stantsiya, (Chicken cholera) (Vaccination)  v .-l r r F1 - 1 1 ci I i v u i ly-  SCROKITp Nikolay Stepanovich, slesarl-mekhanik; GLEBOVA, L., red,,; TYTRWEVA) As$ tekhn.red. [A story about workers' pride] Rasskaz o raboebii gordooti. Moskva, Gos.izd-vo polit.lit-ry, 1962. 54 p. (10-U 15:4) 1. Baltiyakly sudostroitelIrVy zavod imeni Sorg.) Ordzhomikidze, Leningrad. (Leningrad-Shipbuilding)  YERSHOV, Petr Nikolnyevich, GLEB).VA, L. , red. ; GLIULSEVICH: Z. , tekhn. red. [Chemical rninbowl Khimicheskaia raduga. tomerovo, Komaerov- skoe knizhrioe izd-vo, 1962, 181 p. WIRA 16:7) (Dye5 and dyeing)  GLEBOVA, L. Authors of books are industrial innovators, shakh. 11 no.10:41 0 162. (MIRA 15:9) (Coal mines and minin:-Technologicni. innovations) n  11 L" F. "LEBOVA) "Hyciene A-)-,)raLsal of the I)ecentrali7ed 'Exhaust, 7entilfil-irr. in Pr I . - . - -- I ouuc-nf, Hayon," GiF. i San., ':o.6, ll,)L~q Inst. Hygiene and .-jf LispaEe, J~--E 717,,S--'T, ints. Gen. and Gomarunal  Perm"ble toleritace of bydragen su)fide In tho aline. phete. L~ F GIO.- (,if 41 1 Nina 1950, No .(, I~l 2L -Expt, iflichildni, L,pf (,I --ml,d "Ith Vt'ww pliw, Alu-) typ)"I mlll~llv .1111 wit ~y it iptotm c,iuwd b I I w, i,., it y .,),, t -if I okk m4tetul, bv the mw)w", d.01mg. Di, vinproul, ."'. Iv.d,ill "Ith"ovil dirtit of C~. 1-I o- r Ii kill, ~11,1 His coucin m ItI,mr r, th~- ii.,Q4 i? W. all, , ii, ,, ,, I'll I Apj liv vu ihi", l~ - )( th, .-Al "'w'. of If's I Ill. ."Im ph"i d to tr4tisfer the tiur~rig lit it tl- aq-t- III, lit C. M Kolobj:"I?  GLFBOVA, L.F. All-Ruasian interdepartmental conference on coordinc..tion of sci- entifid research work on air pirification of industritl fumos. Gig. Sanit.. Moskva 110-1:55-56 Jan 51. (CUAIL 20:5)  GLKBOVA, L.F.. kandidat meditsinskikh nauk Use of lowered ash catchers for removing floating ash from gasea in boiler rooms and electric power stations. Gig. i uan. 21 no.6:72-74 Je 156. NLRA 9:8) 1. Iz Glavnogo oanitarno-epidemiologicheakogo upra-rIenlya Minister- stva zdravookhranoniya SSSR. (SMOXX PR19VX14TION)  GLEBOVA, L.F., kandidat neditsinskikh nau1c Detection of dust In nonferrous metal industry. Gig. I oan. 21 no.8: 56-57 Ag 156. (ML,A 9:11) (DUST of nonferrous metals in air, detection Ji removal in Indust.) (INDUSTRIAL HYGIENE dust of nonferrous motala in air, detection & removal)  w.- 13 7 - -:18 -1 3 1)2 T ran s la t i on f roal R v fra t, 11 1y y Zill I r Ila 1. Mt,-t I I t I 1-~ i vit, r 1: AUT[ 10 R (; I f~ h() " 'i. I .. V T IT L E: Sanitarv Requirernerits for Purification, of Exhaust Gases ;,or .1-I'MIS Metallurgy Plant.-; (s,illit'irlivve Irl Nollf( pri ochistkt, ()tH1')dyas)lt:llildl gaz')v zavodov tsvetiloy ril-tallur';1l) PERIODICAL: Sh. niatcrialov po tsv~~tn. Moscov., N-letallul-gizdat, 1957, pp I i- It., A BSTR ACT: Illve sti L!At lons of tfiv liolit'l-l-l-ous rnctal-dus! cout''llt Of *~~v atmosphere in areas adjacent to nonferrous nit-talliarqy plants have shown that the concentration of nonferrous rnetal dust .ri atmosphere is 100-20V~ higher than in the xorkshops. 1- is proposed that methods be developed for the rernova'. of non- ferrous metal dust from the air. Ili particular, pro:;pc-:*ts f~, r al r pil rifi( atioll hy 111rall., ()f pre, 1pitat Ion fillc 1-:~ ~i rc :ic-tcd. Y e. L. LIT  GIABOVA. L.F., kandidat meditsinskikh nnuk Present state of purifying industrial refuse relf.;jaBed into the atmosphere from nitrogen oxides. Gig. i san. 22 tio-5:93-95 my '57. (NITROGEN, (MIRA 10:10) oxides in indust. dischargeB into atmosphere, purification (Run)) (AIR POLLUT ION, by nitrogen oxidma in indust, dischar6:es, purification (Run))  L~h  -GLXBOVA, L*T*,-~tarshiy nauchny7 sotrudnik; MUROVANNATA, S.I., starshly nauchnyy sotrudnik Third All-Unlon Conference of E(yrianic Protoction of the Mr. Gig.1 san. 25 no.1:107-109 Ja '6o. NIRA 13 :5 ) 1. 1z Instituta obshchey i kommunallnoy piglyar-y imoni A.Y. S~reina AMN SSSR. (,AM--POLLUTIOIT.--CO'IGRv-Sr,33)  KOVARSYTY, A.G.; 11-MOKS, T.S.; Prinimali uchastlye: GLI,'a',IIIA, L.F., 1-1 YA1:111) L.V.; ZI'DAFWi, a.LQI0V S. .1 PaUSTOV, L.N.) red.; irJIAYJ,I,,, tekhn. rod. [Collection of official materials rehtii-E; to la'Doratory workj ';'bornlk oCitsiallnykh materialov po laborO,arnormu delu. No- okvti, Book 1. [Manuel for laboratai"y do(~tors, sanita- tion and eplde:-iologist~.,Ij 1; uomoshchl vrnchan~- la', -o.-antar., ,,,--,nitarnyr, vrachor. i vraclhw-~e F, i6(-::m i(:) lo Cam. 1961. 1~62 p. (ITUk 15:2) LA),',ORATO:iIES) (DIOLOGICAL 1,ALG.IJi,U.,I-,I':-) (CIE11CAL Ukb]RA~-)ORIES)  I': A A r,: U!-; 0 TSOV A .-,A' A, 1. taklir:. refft. or. the ci-I. n",.-atinn of reoearcli~ .2 ,ollution alir !Y~ th-c 0 1 th,-~ o "C.- (. t ():, atl,.(Vl~ !.-,:,:Lc on thQ ind :- P.*tni,. ,inri nv.--i-nac _i"' 111 CCI iion,~ of tb,, j.,Dpul%%-,donl, sa- izuchtmiia vliir.,riia a-,r-.oJ-'erm'-.h za :-iizn(lnU 1--- zl,.izni -,,A 16:22) I. .,u -Aa U 3 sa- nit nitarn~.ya i r. z p e k ti-.a. in.--pektor ~;osuu-'arstv--anrl-y ::an-'tal-Pv)- z~ravookhrancniyn ' :~SS`l (for l.'edo, T~:,cliemk~) - Pollution) (.Ai- -  ~'Is inry an -,lc-ctr.:m ~i cr,~z- Tr7,r.-,F L 14--it o,," ti,~ ih I in 'Lw-t~ :ln ,,AL In!  iiF J A r AUTHOR: Glebova, L.I. Engineer 67-6-2/23 TITU,': The Ef'fect Produced by Heat Production Upor,. the Dynamics of the Adsorption of Steam (Vliyaniye teplovydelcniya na dirvurliku ad.,;orb-tsii vodyanogo prLn) PERIODICAL: Kislorcd , 1957, Nr 6, pp. 11-18 (USSR) Received: April 7, 1958 ABSTHACT: In oxygen production active nlumina is used az adtiorbent of iiteain from compressed air; as the ad3orption process is acooincanied by the development of heat, the endeavor is made by thin raper to deter- mine the effect produced by this heat on the dynamics of the adsorn- tion itself. In the chapter: Experimental data conc~e_KpinL d ~rptio~n dynamics the protective effect of the height of the layer of active alumina on heat emission during adsorption is discussed and compared ,xith the penetration velocity of air into the alwaina layer and the heat adsorbed on this occasion, which is sho-wn here in form of 3 diagrams. In the chapter: Calculation of the kinetic adsorption C07 efficient it is said that the adsorption isothenrz of steam by an active alumina layer is a curve which can be coarcuted according tc C a rd 1/4 the following fermula-  The Effect Produced by Heat Production Upon the 67-6-2/25 Dy-mjaic.,i of th(-,~ Ad3orption of' :jteam 514. Co whcxe- c, c0 denote the concentration of "Ite,1111 at Ulf.- output luld input on the adsorbent; (),) - tht~ flow velocity of Steam; the time needed for the work; the error integrals; ad- 3()rl)t!Oll coefficient (it-(lynamic nativity) . lind )(.fi)t!tk)c Co- efficient. In the chapter: The heat wave in the adsorption layer the effect produced by heat sepamtion on the adsorption dynamics is dealt .vith, and heat propagation is asstuned to be a function of timc. As a result of the statement made the following in said. as the adsorbcrs used in industry are provided with heat insulat- or-j and because the surface concerned is of little imrortance in comparison to the adsorber volume, the lois of hent in he atmos- phere is not taken into account, and therefore the maxitaim. temper- ature along the layer is considered to be const!int. Todes and Lesin [Ref. 5] distinguish between 2 different cases of adsorption: firstly, if the velocity of the heat ~-rave is greater than that of' adsorption, the heat effect of adsorotion exercl.ses no i-rifluence Ca rd 2/ on its dynamics, -ahich is al%-iay3 the case if' hy'fropUle adsorbents  The Effect Produced by Heat Production Upon the 1) 7 Dynamics of the Adsorption of Steam are used; otherwise, the temperature curve N-13 .:t filaXiTZIM. at that point of the adsorber which corresponds to the position of the ad- sorotion front. In the chapter: Calculation of the heat conductiv- ity coefficient Croi.i the adsorb~.-r to the i,as f,h,!- nitio: - -'-- ___ ___ - - - - __ -"-Z. Nu = 0,23ReO,863 is given as a rule accordiro.-- to zledorov; this rule governs the Re-values of 15 T' 160. In the chapti!r: T~(., erfect pro- duced by the heat conduqtiviM_.coefficient upon the distribution of i~jat in the laye it is said that this coefficient is uoually in- si,~nificant and that therefore the development or hent, by adsorption leads to the heating of the layer, -ahich 1. connected -;:itli the dif- fusiona-1 progress made by the vertical adsor~:ticn Crent. In the course of computations the vague of the heat conductirity coefficient of the volume = 0.0027 cal/cm-~ sec.OC is obtaine.-d. In the chapter. The effect T-,roduced by the te )erature of the I M ir ~ 1 rig o' the adsorbent an its adsorntive powe it is shown that the said adocrption power 4L3 reduced considerably if the adsor~bent is heated, ahich must, of necessity, be taken into account when calculatinj,, it:3 dynamic ac- Card 3/4 tivities. The conditions holding for such calculfttiona are given.  I "'! -1 ~ The El'fcct Produced by fleat Production Upon the ~, Dynamics of the Adsor.ption of Stearn I Them, are 7 figurfm and ll~ Slavic refercucem. AVAILABLE: Librnry of Congress Card 4/4  C, 17 'J.1 pIt 1, .-c -q 0 "o 0~ -1: 1 T I j L 4 E J) C, U .1 J, U I ill .1 0~-j P~,2 11 j~.i S q, LZ 7.~ Cl!: UT 0 1,"j.7 ~~j V 4 1.1 J, 7' IT LT, I IT,  L Obla& i ff,~rtm t ta 1 A L VA 11, !Z: 1. AlMin a.-Ad 3 o.~~pt ilo-..~z -A ppl 4-c, at ion c2. Cfarairdcs  AUT.1-T, R; b 67- 1, 6 T I T T,:.: Z!. ~:Ii. i c C C)i 11 t ti. C I I lza~-a k 011C 1-1 tri t L i Im St.u:.y District: i c i i: I r, t r, ib I u- t orr_-grenerate the soeberit iri thu dryiii;.7 ~nZ hOt undrI(A air fron the 1-djr..-prQz!nure 1).y blaw. :ncr;i tion cn,!-i b( c, rricd uit by of r. 1-t' toi- t1if ofalin, (.X ti-,(.- ad--or- Tit d q i9 it pos!;ible to fmn.t air ir, 'I r(- -:,.,~ratirii of a1w.toCc-I aiid silica el. ~7 fro-~i 'lie -idso ic- Id s-;rr. hen rbent t'.Ie _L 'I;-Z_,:._,2 U~, to I a ,Cc' ih,~ii the adsorbent in fillcd .,,,ith silica in th-~ ~a~:~ of an active alw.,dna filling ur to 24C-260cll. proces:, of r2b~iinr-,itLon c,,,.ii be loelrcd uron as Ccur-pleted if the P 0 - T i, j~it the outpoir cf fUi,_ ~Idscri~cnt has it tum crature of cc,-T R- Car,] 1/1-2 fillirl~,,, 11A in the case of ,Ii,, activ,, alui~.'.iia filling  Teclhni,-.~il to Hca,.Ior %.Ilultior.3 7- 1,9 - 3 , c il -.-clc. + For regfrier.-ttion Of cf !~,:i -~3 riccc,-,!3 ry ,j oil t)f Ilic :Ad2or~icnt in tht: ilryirv- t10-1, Of 3 u, (2 d car'.1  AU i'R R: ';lo:b-,)va, . I., EnZince r TITLL: R,~rJy to i~(.adcni ( 6) (0 tv,~! ty chi tn tf FERTODICAL: Kislorod, 1'.-11)F), 'i'l. ji., TIT), lilt (n,~Iz) Ll~~;TACT: To: A. ;. Apo3toiov ol' Nikolnyev oblast). (1uw(*Ct1Cr1: ,i~lich is the hi~,,hest posnible uow~eiit o.t moisture of silicca gel and activc alundrut. ahen wicil dn orying blocks ' *- An2-aer: Undt.r werking conditirmq active "llumilin, 11n. ~Idnorbtmt, absorbs zitcimi in quantities of' of its diy weight; with Silica WC1 this is thc .;aze up to 6-9%. .,,ut.,jtion: Up, to uh-at tc-np~-,rawre should silica gel. be heatu,~ for the run)(,.je of ? Ann-amr: In t.ll;s cane the oilier filliiig -1:-, blk-0-an throuj,,h with nitrogen Iv:p-tcd up ~o P. temperature of 16C-;-'C-COC Md with a velocit.y of i Ln~4/cm~-,. ~.,u(:jticn: chat dangt:r -.xi3ts in connection Tdth the conveying of dut from adsoii)trJq into thf~ fractionati.ng tipparat-us " Ansvicr: Crushed partic1cs of active aluridna or of' silica gel can in this cnoc be conveyed into the fr-actionzating apparatus, wher,! tht~y might sicl, to the plates of the av-.anttus Lf they contain Card 112 de7"o---,tS of at; tL~s Trny disturb tht! on,,na-icn of the annanat-i~.  R-?iD-!y to Readers (01) 11' th(~, rrune particl(;s o,' thc-ls~ stick to the bottom ;~alvtj may be dizLurbed A vernt~dy awga.Jrizt. I r-ami -ni IC I-(: t`l- P3077,167- 58 -4-23/ 29 of' stop vr:.-Ives, th,~, ::o that pmmat,-ar,~ ~~ :L~'VW'l th:,,i 4 ;j d V;., , 'I -",-;-Ii,2on ri-Laxide-'Propertics 2. SIlicon diaxidu- FrccossinF, 3. Silicon dioxide-!!nzarls, TITI-E': Silica Cel Card 2/2  50 ov/ ,'J;THORS: Mir oslavskaya, Yu. A. R of Technical Sciences, GlAQva, L. 1, , TITLE: Gasifier of Liquid Oxy,~en INith Vacuum. I111~111'-A'ior zhidkoC.o kicloroula s vl.'~uumnoy PERIODT('.',L: Kislorod, V`5-3, Nr 6, ',)1) 0 - 15 ABSTRACT: Th~-- gasifier mention-I mainly con~i--tn of' t-.-ic cancentric balloons and a vacivim 1-t-.-ieon T,i,-- ~rnt~r r-lon hf-.~ capacity of 25 1. A funnel len!q to it, ;;it,i ft t1lbe for t,ie supply of li~piid oxyl:-on, v;;~ich ~;tirv(!!: tl~2 of -plus vt.-,, -ube f")r dischar~,ing the nui. - or, anA L ..fjod ~,(!--!d t vaporous oxy-en from tho r0ceivcrs f,)r t!ie Cdrot ijz-~)dnc~ion of overpros~,ure. The inner li-.uid oxyl,~!r f'-d tul,~ also E~(!~... r-:~ the purpose of t'.k~ oxyfien linto absorbing device ia faetened to th, oi;tc--, of the inner balloon to aboorb :,,ny o)r.,v,:Pr, thit lni!:~' '.r, 1(~,11- t-J.-'y cracks or pores. Th,. .,;holo device ~~nd th,~ innor balloon separately were c:iec'~ed by mearns of strument of the PTI-4A ty!ie. 7;,ore lr-.!,.a,-e -u-is f'oun~! to Card 113 from the inner contriir-,r, -,,hich -.n. - 'o I.' ~ n.~Olic:.tiwn -)f  Gaci f i er of Licu id' Oxv,--c-n W; t 1 1 V ab!, -i r 1- 1, n ~~ c e;7!; ~ i-y. I ri vcq t ltt~ --, f f. - t i v on(! i- on t -r- i re n (I r - _,-; 2 111'(" 1. A provo,l h ,j f vi c n v,i t i o ri ot hc Ii. ;iit! -n c n 11.,c1, n th" hl-~tf' 1)'~ 1 1 t IIvi1, t h. i ss c - 1 cil tf-.e tc. 1)12'r ~lr:ll Of t~!-' Ollt;:T' 1-f ll!~ ,If'll-1 t c-,jt -C for t Ito d i1"'! ullcul-t to Icc n 1 /hou r Card 2,"3 th~: v- 'i Aion fr -r: r  la-~if i,~r of Liqui~! Oxy :en ti-ron't tl.o Cunt. .1 r.. r a n~-e of +20,0 -.1 0 Ox 11 V,-~.7;Orl 4 5- I. oil card 31"i  j 0 ------------- -- --- T IT LE: US -'R) 3 S 2 RA c 3 .3 1 ~2 Yrzl! rro r T! u, r. it 3 te a 1 -  4 !I j rj I J f r i J 0 11 n Machine- atild-UlL, lndust:~7,r Liquid, c,-r*t-,,,.riAl,D.-~i(l-!-."IoiL;l~,-ii-,~,, con~efif, 2. Hum.'d ity-Measurement  KAGNER, M.G., kand. tekhn. nauk; GI&WVA.. L.I....inzh. Thermal conductivity of insulating materl-als in a 7acirm. Uplorod 12 no.1:13-18 '59. (],'IqA 12:6) (Insulating materials) (Heat-Conduction)  XAGANER, M.G., kand.takhn.nauk; GL3BOVA, L.I. Vacuum-powder insulation in vessels for liquefied, gases. Truilly VNIIKIMASH no-306-50 t6o. (MIRA 13:9) (Liquefied gases) (Insulation (Heath)  Teci. jc-". o--" Pro- cess f)f Dryi.-I lUr :)v Actjj,,i*.~~:,. lumina, " ,.o: 1 "OE;Cow Incit. Of oi,erli. ou;)Lx~s (KL Qujp  GLEBOVA, L. T. , end KALATTER, M. G. "The Effect of Various Factors on Illeat Transfer Through Porous Ma-t,erials In Vacuum." Report submitted for the Conference on lleaL arid Mas.,, Tcaruffe-r, Minsk, BSSR, June 1961.  KAGANER, M.G., kand. tekhn. nauk; SFMEIIOVA, R,S., inzh.1 GLEBOVA, L.I., inzh. Expanded perlite sand an heat insulating material for appiwatus operating at low temperatures. Trudy VNIIKIMASII no.5tI09-.118 162. (HIRk 18:3)  64 8,90414 -,1,2-. -T' '-,'T 077 BIJLIT~~' D'EINSITY 0',17' PC)IIOUS M."rM IL O.N.HEL' T 'KA'!LN':~FER 3 if o 1'.." C) ;,..I: III 71 Til in --naztz-v:L~d and nt t fec, C, (p~r