SCIENTIFIC ABSTRACT KUTATELADZE, S. S. - KUTAY, A. K.

Session (in hoat exchanize during change of aggregate state of matter. 94-;-23/25 of the Acad.Sci. Ukrainian SSR considered the study of the process of hoat oxchange cuid the hydro-dynamics of flow of a film of condensate. Cand.Tech.Sci. O.A. Kremnev, of the Institute of Thermal Engineering of the Acud.Sci. Ukrainian SSIL gave the results of an experimental investigation of heat and mass exchange in models of air, and water coolers used in deep mines. Cand.Tech.Sci. K.I. flezzAkovich reported on a theoretical solution of the problem of calculating the partuneters of a cooled steam gas mixture. Mgineer A.L. Satanovskiy reported on 111eat exchange during air-water evaporative coDling of equipment'. Engineer L.I. Gel'man of the Central Boiler Turbine Institute reported about investigations on heat transfer during condensation of mercury vapour on a steel wall. Dotsent V.F. Yanchenho of the Ural Polytechnical Institute, Cwid.Tech.Sci. O.A. Nxemnev, Dr.Tech.Sci. L.D. Borman and V.A. Smirnov of the Power Institute Acad.Sci. Ukrainian SSR contributed to the discussion. The session noted the need for furtber development of investigations of combined processes of heat anti maHs exchmige; further development of study of heat exchan4e during chunge of aggregate conditions of promising now working substances; a profound study of the relationships and mechanism of the proco-is of hoat exchange and the production of data for practical calculations, and recommendations Card 6/7 for the desi.-n of new power plant. Me session directed the  Sessicn (in heat exchange during change of aggregate state of matter. 9r,-3-2312r, attention of the Acad.Sai. U.S.S.R. wid Gooplan U.S.S.R. to the need for rapid study of the physical properties of new working wibstances. It was decided to call it session devoted to convective heat exchange in tniform media in Leningritd, in 19-59. AVAILABLE: Libi-i,-ry Of (,:OrIL:ri;" -' Card 7/7  IJ W/131 -16 -57311 Translation from: Referativnyy zhurnal. Khimiya, 1959, Nr 16, p 245 (USSR) AT.FrHORS: Kutateladze, 3.3., Moskvicheva, V.N. TITLE: The Application of Gammascopy for Studying the Hydrodynamic Conditions of the Liquid-Liquid System F-11-MODICAL: V sb.: Teploteklin. I gidrodinamika. Vol 4. Mosicow-Leningrad, Gosener- goizdat, 1958, pp 12-15 ABSTRACT: The structure of flows has been studied by means oil -r-rays at the passage of a lighter liquid through a heavier liquid in the water-mercury system in a column with perforated plate. The presence of complex changes in the structure of the flow has been noted in the experiments, when the lighter liquid reaches a certain motion speed: first, mercury is split into small drops which are suspended in the water flow and later on a stronger dis- persion of mercury is observed and its removal from the column. It has been noted that the changes In the structure of the flow and the degree of their stability are connected with the stability of the surface film of the heavier phase and consequently with the presence In the system of sur- facc-active substances and finply-dispersed suspended matter. Card 1/1 V. Gertsovskly.  3 07/853- 59- 5 -4/4 0 R S Yutatela@lze, S. Boriuhanskij, V. ov i ? o v , I . I Supplementary Table: I'Liquid "Pi.:11lic ]bat QxrriEW(Prilozheniya: Zhidkometallichenkiye tel,lonociteli) PER IODTCAL: Atommiya wierjiyu, 1;5!1, 3uliploi,-,ont .), ln:,,ortel "@,tween lip 108 ond 109 (IISSR) ABSTRACT: This ia a nupplement to table 12.1 (pp 172-173) and the ex,11anation of the pou:itionfj 1 - 33 on tho drawint-, 12.1 (PP 177) in connection with tho paTer published in Atomnaya enerf-iya, 1)'J8, Supplemen@ 7.r 2. 'Aie 'Lable con4aim? data on Physical prol)ortien of i:,,otallic heat carriers. There is 1 table. Card 1/1  09-4-5-3/26 AUT K OR S: Kutatoladze, S. S. , Dori shan f-,!:iy, V. T'. , 11ovi%ov, I. I. T i 2 L :Ie.,.t Transfer to Licuid Teploobmen v zhidlzikh i:,.ct_-llaI:h) PERIODICAL: Ltonnaya Ener-iya, 1956, Vol. 4, 11r 5, U pp. i@22 - 436 ( USSR) ALS.-1,111,CT: Fron forci@,-n and Soviet referencec, a survey of data is Civen that have as yet been obtaincd on the heat exchan@,-c be',-acon solid surfaces and -- flow of molten metal. Particular- ly the experimental data of the heat transfer to liquid me- tals are @-ivcn if these metalq flow in lon@; or short tubes in plane slits. The availab'o d%ta for the followin,@; canes are also .--i-.,en: The tuben or platcc nre lon@jtudinally coated by liquified motal; cylin,,Ioi-,3 @,rc flowed arouirl. transversely; there is free convection; a cozi,!ojination of the-vapor of the liquid metal occurs. An heat carriersmorcury, an outectic alloy of lead and bismitth, sodium and zoiium-potassium are used. The Car@l 1/2 influence od admixturen to theno hent carriers on their heat  Heat Transfer to Liquid Metals 09-4-5-3/26 transferring capacity is investiiated. The re3pective formulae are derived for the heat transfer in various casco.T:%ere are 11 fit;urca, 2 tables and 3o references, 14 of which are Soviet. STJ-j;J.'IT'_'ED: November 4. 1957 AVAIL,',D!,E: Library of Con,ress U 1. Liquid metals-Heat transfer Card 2/2  ATJ I I CTS Bori 91;rAr okij V .1.1 Briinj Ion and 11y'l I Lit, L @3'. :1 Liquid .1(itala in Cmular i 3c? p rf@,t ivleniye rr-, t,!cr-or.i n,,: I y I: t: t rubakh ) PERIODICALi -'Iw4rrial Tokhrirlic-. 1--yr F- A!,; 9 V 7 'k Tis:;1Z ) AB'-'TRACT The au th or o pe r f o d an (, f p(-'I- I r('T- 7,11 1 LIU C 9 :a t 11 Q t1j(2 11C.-It eMISi3iO-1 -LnJ Qf thP 1!1 th" f!OW of -viri')U,@; liquid mctal,.3 ir. t,.zbeG i@-ftl bi@qm-th e!Af -;t@c sodiam') ?hf,. vmr(@ mwie in isO - t 1) e rm a 1 10 1 9, r:ni ', f I @1 v wh .2 r i r hc heat rurrenta LIP to i "O'V`V)c k-'all':-2 domain of the Pe by lh,@ Pxpt.-,imen@-- 7rac '00 i 11000 that if the 1'r cot-ff",- n Go'; 2 C) G Y) ti.at of tile dia-(-t vr@' -f *'h"- tul-io fri-:,,@ --in -Lr-1 thaT the Ir-i n. -t)iq L/D 0000. ari 7 7 z3 t c n  ;j t n rl f! @ f "; I I rL 1) Circuiar a r t 11 bc!3 C 0 2 'D 0, 50; 0 lirric A*. @,:,o r @he derisi- t rof tht. y L L, .@n r: Ir r @tc,l 9 re 7,11j 3 "L"Z D Card 212  57-28-4-26/39 AWHORT Kutateladze 5. 5. TIT M; i 110at-Emission Durin,-, the Flow of Liquid .!otals in a Tube and on a Plate (Teplootdacha pri techenii zhidkogo metalls, v trube i na plast'ine) PERIODICAD Zhurnal Tekhniches.koy Fiziki, 1958,Vol.28, IIr 4,pp.848-854 (USSII) ." .1b ABSTRACT: Some problems of the heat-exchan.-C theory in media with Pr ecl in this arUcle for the reCion of finit@. values o.!r Roy-nold.04 nmnbor Is somewhat more emplicated, it is lo7 Cally lcr)G faulty. The expasrimental points for the injection o^ th@-- mo5t diveree Gazee fca- Card 1/,'!  43720-65 ACCRI)SION IIR: AP500493 valuc-5 or f,@ from 2 to 121J. ic unidentified in the text) axe closely groulcd alonE; the curve platted frcm-fhle calculated valuca. Orig. art. has: 5 figures and 22 f O-mulaz. fZISOMMOU! none StmM 'T I mcb64 EML: 00 SUB CODF.: HE ID FXF SOV., 004 0MR.- 008  j L 52160-65 Acamium uRt Ap@camo 01, AUMFS V020himy, Sr L (Nmalbirsk)l FAIULWAI& jjg Lemt1ray, A. I.. (No"sibirsk) TITLEt Interaction between'& #u@b@aw @t@@nd a golld wall SOUIVEs Zhurnal prikladW makhardW. i takhaohaskoy fiziAp ncle 2,p 1965# 50-53 TOPIC TAGS C Nueselt number, turbulent flowt tmtulent jet,$ bm-,VAarjr layer# skin ifriction$ Stanton rombGr ABSIRAOTt The consemUen law of wall turbulence relative to chups in boundaz7 conditions was used to imestigate.the interaction between asubma%ed -turbulent.- 1jet w1th a zollA wall. The schematic of the flow in shown. in Fig. I on the iZ=Ioaurer. I momentum integral'usthod ic usod to obtaia, the avuentust conservation 44,hcre -not-I 'Card  L 5216o-65 ICCEWION IlElt AP5013370 arA this relocity profile in determined from the one-seveath power 1w. An expressioa is derived for the akin friction c,)efficient C after a correUtioM with experlimatal data it, is raduceii to tkw form 0 C-34 _.:: Us tble- expreasion-in the definition of tba Stanton number# two equations are obtained for U jetp Is -g:ivm br LI X-464 P44. and for the wall jet with a weak w*W.'V 3W Ow :::@i This latter equation Is shaffn to colool" wM th6 remats of 6, Jakobs RtR0800 ad M. Spiel ma (ffsat' Tkmnefer ftw an Air, sut io a PIMM Plate witi, Mtrairment Pr' a of Water Vapor Frba the go. 6),.Zor 0,71, Oriz. artt baqt 23 AS=UnOKg never Card -2  L AGC=Olf MR& AP5M3370 SMM-,Ml V*NA VULt 01 MB CoDst mg NO R" sovt 005 OMRI. 006 Card  L 41774-65 EWT(I)/EPF(c)APF(n)-2/EWG(m)/EPR Pr-4lPc-4lPu-4 WW ACCESSION KRs MOMS 8/0170/631006/001/0007/0010 AUTHOR: Kitatelafte,, S. S.; Leonttyev, A. r.; Kirdyaswn, A. G. TITLE-, Contribution to the theory* of beat exchan in =1 to boiling SOURCE: 1nzhenerno-fizicheakiy zhtu*n&l, vs BF no,, 1# 1965& T-10 TOPIC TAGS: nucleate boiling, heat exc%.&nge Reywldz MMberp Prandtl numberr Nusselt number, bcundary Wer ABSTRACT: It is shown first that in the case of nucleate boiling,. the ratio of the thicMess of the boundary layer in the liquid to the average linear dimensiod of the quadratic cell per effective steen formation center ia quite small, so that boundary-layer theory can be applied, to the heat exchange processes occurring in- nucleate boiling. It is also shown. that the heat transfer to the liquid can to regarded as occurring in the vicinity, of the frontal point. Using the boundary- layer theory and the laws of free turbulence, the authors deriya the folloW-rig re- lation for the r&tio of the Nusselt to the Reymolds PuWier NuAe* el + cz Pe* Card 1/2  L 41774-65 ACCEZSIOII XR9 and show by plotting this formula and the available experimental data,, at well as by plotting the experimental dAta againat the theoretic&I curve Nu, - c Pr", Pe,% 'that the extension of the boundary-layer theory tolnucleate boiling is Y&Iide They also conclude that the boundary-layer theory can aerve, tLa a bania for a more de- tailed theory of heat exchange during boiling. Orig. art. hast 3 figures and 9 formulas. ASSOCIATION: Inatitut teplofixiki 80 AN SSSR, Novosibirsk (Inatitute of Thermo- 0A 111 COCO% SUBMIT=: 2q4r64----- am cowt KPI,- X9 MR MY SWt 004 Onnt 003 Card  IL2Z F'WT(m)/EWPM WWIRM ACC NK, APS028621 SOURCE CODE: UR/0030/65/000/010/0025/0031' ALMIOR: _KutatQgdze tor of technical sciences); Rozenfelld, L. S. S.. (Doc (Doctor of technical sciences) Y- ORG: none TITLE: Problems in geothermal power engineering SOURCE: AN SSSR. Vestnik, no. 10, 1965, 25-31 TOPIC TAGS: electric power production, heat energy conversion, heat pump, heat exchanger ABSTRACT: The authors discuss the various thermal power resources hidden deep with- in the earth which show up as volcanic eruptions, geysers and hot springs. A de- sign Is proposed for a heat pump which uses the thermal power of undergre ktgs Water is pumped from a well Into a freon evaporator and cooled. Th njIMOYrr' is then compressed and condensed under pressure. The heat from the compressed vapor is transferred to the water circulating in the heating system. This reduces energy losses by a factor of 4-6 in comparison with direct steam heating. The ust of heat UDC: 525.215+620.04 Card 1/2  L 15273-66 ACC IIR: AP5028621 pumps for air conditioning units Is discussed and the bromium-lithium absorption machine is recamended for temperatures above the freezing point of water, while the water-ammonium machine is recommended for temperatures below zero. The brcmium- lithium absorption mischine consists of two dru4s, a heat exchanger and pumps. Tho upper drum consista of a boiler and condenser, while the lower is made up of an ab- sorber and an evaporator. The water from hot springs is fed to the*boiler tube where the heat is used for boiling the water from an aqueous solution of lithium bromide. Tubes supplied with water from a cold spring are uacd for condensing the steam in the upper part of the drum. The condensed steam is cooled by a spray sys- tem in the lower drm and the water vapor is absorbed by a lithium bromide solution in the upper part of the drum. The lithium bromide is then fed through the heat exchanger to the boiler. The cold water is then used to absorb the heat from the ambient air. Methods are discussed for generating electricity ljy the use of subter- ranean heat sources. The capital outlay for geotherCnal electric power stations is high, however in certain regions they may be considerably more economic than conven- tional thermoelectric power stations. Orig. art. has: 4 figures. SUB CODC*. 10/ SUBM DATEt 00/ ORIG REr: ooo/ OTH REr: 000 Card 2/2  L 24246-66 _fWj A_I)/EWP (e)Zgp (&)1nT(m)1Ep -'bo/65To -6166-61o ACC NRi AT6006920 SOURCE CODE: UR o 0 U 0 tateladzes Be So; Leontlyev, Ao I. ORG: Institute of Thermopb sics, Siberian BranchAN.SSSR, Novosibirsk Institut teplofizikig SibirBkoye / I(it TITLE: The turbulent boundary layer of a gas on 9_p@rous surface SOURCE: Teplo- i massoperonos. t. II: Teplo- I massoperanos pri vzalmodaystvii tel a potoksmi zhidkostey i gazov (Heat and mass transfer, v. 2.: Heat and mass transfer In the interaction of bodies with liquid and gas. flows), Minsk# . Nauka. i tekbn1ka, 1965, 351-360 TOPIC TAGS: turbulent boundary layer, gas dynamics, Mach number, surface property ABSTRACT: If the effect of tbermo-p baro-O and dino-diffusion are neglected, than the system of differential equations for a binary boundary layer assumes the form:  L 24246-66 AtC N" AT6006920 0 dP J aw 01W. ,&7 + P W. + P W, - ; dy a (P W.)+a (P 0 OY & & + W. "P - 0, PWX + P wo, (Dp dy al@ ax OF dy W. + WS, 0 the basis or the above Initial equations, the author develops a iatbematical solution of the problem, taking into account the iermeability of the surface,, for blowing and auction over a wide range X Macb numbers. The results are compared with several series of data Irom the literature, and are exhibited graphically* Orig# art* bas: .6 formulas and 5 figures. ORIG REF: 0021 OTH REF: 006 MB CODE: 201 SUBM DATE: Ogffov65/  )j'IYWP(-m) ACC NRi AP6021363 SOURCE CODE: UR/0207/66/000/003/0149/0153 ,AUT11OR: Volc-hk-ov,,E.-P. (Hovosibirok); KutateladzeA,_S.S. (Novosibirvk);-Lerchenka -.N. Ya. (Novosibirsk); Leontlyev, A. I. CN-ovoa6irsk) 39 ORG: none JITLE: Baffle coolingjn the case of a current blowing into a turbulent y und-ar -1&04 .through multi-aperture and grid grates iSOURCE: Zhurnal prikladnoy makhaniki i tekhnichaskoy fiziki, no. 3, 1966, 149-153 !TOPIC TAGS: turbulent flow, boundary layer, cooled boundary layer ABSTRAM An analytic method is proposed for determining the effectiveness of baffle cooling of a plane thermally insulated wall when a cooling gas is delivered through grater.. Results obtained for the cooling effect of a gas passing through a single aperture are rliown to be applicable to the more complex problem. Equations for the degree of energy and momentum loss are introduced for the second aperture as an exten- Ision of those for the first. An estimate is then made of the effectiveness of heat pro- I .tection, the measure of which is taken to be the temperature of the insulated wall. 'These estimates are shown to agree with experimental data. Orig. art. has: 23 formu- las, 6 figures. I SUB CODE: 13/ Cord 1/1 nat SUBM DATE: 2lApr65/ ORIG FXF: 006/ OTH FXF: 002  ACC N7 AP 7 3 71-.: U'I'::k)R: Fu tat el adz e. S. S. Novoslbirok) Leorit yci, B. P. (Novonihirnk) none ..L Calculation of turbulent heat t-ransfer on a so.-Apt-_-:7.eable sur- face with injection of foreign gas SGiRCE: Zhurnal prikladnoy mckhaniki i tekhnicheskoy fiz_"*.@:i, no.5,1966 123-125 .TO?IC TAGS: turbulent heat transfer, semipermeable surface, sweat ,coolin,-, suboonic Z-, flow PLBS"21ACT: A method is presented for calculating the heat ",-ransfer on a 'se-miperincable surface under conditions of subsonic fl"J'a w 4, th foreign -hod is based on the solution of the energy equa- ,-as iri'ection. The met ko ID tion and the use of the asymptotic theory of the turbulent, boundary :layer. Figure I shows the comparison of the calculated rezult-3 with ex.- on periment-al data obtained by Tefik, Eckert,, at-al. (Then-..al diffusi ieffects on energy.transfer in turbulent boandary layer.with hel,-Ium- ii njection. Proc. of the 1962 heat trainsf@r and fluid. Me'chanics ;'Institute Stanford University Press, 1962). Co,d 1/3  ACC NRiAP7V^OC)O 0 Z.1. Varialk-lio A. n of .I @unctlon ol' A. le Stanton nu.-Ibers; b ijection paramneter. ':Figure 2 shows the rate of gas injection for the case where a is d'f p ferento for the Injected and maln gasea. .L-Card 2/3  ACC NIR, AP70000533 2 Fig, 2. Variation of J,Vt /j 11 with k2- (Jw- rate of gaz in@ec,,ion) The calculation was performed for: k2=0.005--6.o; R=0.25, C /a Pl P0 0.25; '@=0-303-0.9, where k is a function of the wall and -,as temneratures, and a ang a are the specific heats of the 'Main aria injected gases@o Pl respectively. The obtalned results show that'the rate of Injected gas Is only slightly affected by.the physical properties of injected and main gases. .:i'Oris.art.has: 2 figures and 20 formulas. (WA-88) i SUB CODE: 21/ SUBTM DATE: o6Aug65/ ORIG REF: OOl/ OTH REF: 001 Card  U.- '-i: Lcont'Yev, A. I. Pirenov, A. K. @,R of of -:I"; L I.t Lf".110fizil"I 0"ibirskoE;o otdcleniya Akadem-'11 n.,iu;, -oil o' U ion t( Ie CRICUlAt" 4 1 1cvl@narical ch@uu,.cl for urbitrui-y iI!;tr.ibu*.-Ic)n of for cosen- a "Ay conditions ,r @r tu 4 no. ysoklkh I v 77,-,@C Cu:; I'low, tuxbulert flow, Reynoldr, transfer is a co-Linuation of cz,.rIlcr i-,,tza C-,-ur'I'-U--LQnt Boundari Ii4yer 0, aG-". SG AN Z`-'R w@tkl un :n tl"@@ cy, Uay" of aroun,i t',-.Ore, bar-ed esnential-- on ri - --y i;-, Lhe fom o", a :Cunctional rclittlo-i a..:!, Beynolds mumber of the boun,iar/ lityer, i@- I., -,rcscrlt -,,a;)er @o the ti;1i)uleit flow of gas, in a ior.@ cyline-1c.,,I y --juL@u;I of the 'Icat 1C.'Id. 7ne wall caicl;L@I.c". 0., 00 the A. u:ialoa 'u(.-Lween the external and internal Problem and on the baris of t@.e conser--rative Card V2 UTC: 536.24.oi; 532.51-2  ACC NRi 3 9 5 6 nature of the law of heat exchange relat've to variation of 'he conditions @Ihe infiuuncc of the non-isothermal conditions on heat in L*.@,e -L--i-bulent. V 1 4 @. C@ -, ; 4' ucund,-A.ri Layer is estimated in accordance with a limitin,; theo,-j . @;e described in "lie earlier paper. It is assumed that the distribution of 'I.,e veloc".1les rand of t o..... )er,,turc Js conservative with respect to tlno@ influence of t',.e c@-,:idIlLionL. it is concluded that. the resulta of the calc*alations can ey?lain Maj-4 of the pu1jliL;hed experimental data. Orig. art. has: figures and 13 for.-Lulas. SbB CODE: 201 SIMM DAIVE: OlDec64/ ORIG REF: 008/ U.-iii ELF: COI ... .......  ABULAMIC, A.S., prof.; PATLODZE, Tu.B.. prof.; KTITATNLADZE, TO.A., doteent; ANTELSTA, A.T., assistant; GIONTI. L.r., assistant Yluorine content of food products and drinking water in the Georgian S.S.R. Gigj san. 24 no.1l17l N 159. NIRA 1314) 1. Iz kafedry btokhimii 7billeekogo maditsinakogo inatituta. (WATER SUPPLT) (POCD)  17689-66 ACC N1- AP6006335 S()URrE rnm: IIP/0413/66/(100/0()7/()05R/0058 INVENTOR: Karotkov, V. P.; Kudryashov, A. N.; Kutavenko, S. S.: Polovoy, P. A. nRG: none TITLE: Contactless titmne relay Class 21, No. 177986 SOURCE: Izobreteniya, promyahlennyye obraztsy, tovarnyye znaki, no. 2, 1966, 58 TOPIC TAGS: time relay, delay circuit ABSTRACT: The contactlese time relay shown In Fig. 1 consists of RC networks, blocking generators, and flip-flops. To increase the titne delay and simplify the Fig. 1. Time relay .Card 1/2 1-4 - Coupled blocking generators; 5, 6 - flip-flops. 621.318.57  ACC NRj AP6006335 circuitry, one of the flip-flop outputs drives blocking generator I and the other complementary output drives blocking generator 2. The output of the third blocking generator driven by the first to connected to the 0 input of the first flip-flop (5) and the I Input of flip-flop 6. The 0 input of flip-flop 6 is connected to the outpu of blocking generator 4. Orig. art. has: 1 figure. JBDJ SUB CODE: 09/ SUBM DATE: O&lul64/ ATD PRESS:  i.71-:'Al", -,. I:. Canrlilat@,- o4' Technical 5ciences "Tolcranccs Cor Sp@-cial ,3.11 Stilki I 7rjCtrt,,,.,rt Vol. 15, ' 11 - I - No. in- s i @jh !@:t '?2.-,- @@(--119  KUTA@, A. K. Proizvodstvennyl kontroll ra=erov mashinnostroitellnykh detalel. Leningrad, Mashgiz, 1947. 297 p. diagre. Bibliography: p. 293496. Industrial control of dimensions of machine-buillding pRrta. DLC: 'ril3l3.K84 SO: Manufacturing and Mechanical Engineering in the Soviet Union, Library of Congress, 1953.  1,"-n 1 y 25574. KUTAY@ -A. Tba L"Otody fir."lliza rc.,;y Tc@frn. Obrubot'A'; V sh: NckctcrT@a vo-.)rc!-,y lglx, 11 ato. 's- I Zhurnal .3t ltoy, No. 10, ncow,  a.""! c-ritrol i-". r'."Ch"Ulical f,!l "anufactiii-im, and :'echinical. @,-)V`ot "ni, i of Coni-,rex, 1"';3.  GOMMAN, P.N.; KUTAY, A_X.. kandidat tekhnicheakikh nA-A, dots@-r.-,, --r- dakt or; SO'KO.WVA, L.V., takhnichookly redaktor. [The scroving together of screw-thread3 with protectivo coft*,irg9j Svinchivaemost' rezlb s sashchitnyml pokrytitami, Mcskva, Goo. nauchno-tekhn. izd-vo mashinostroit. lit-ry, 1954@ 74 p.(KLRA B-2) (Screw .-threads)  MYAGKOV, V.D.; KUTAT. A.K., kandidat tokhnicheakikh nauk. reteentent; BOTTSOV, A.S.. kaudIdat takhalchoskikh nauk. redaktor; DLLW- KAMKAYA, Ts.A., takhalcheskly redaktor. (Tolerance and fit; handbook] Dopuski i pasadki; spravochnik. 2-e Ird., perer. I dop. Moskva, G*s. nauchno-takhn. Isd-vo nashino- strolt. i sudostrott. lit-ry, 1954. 367 P. (KIIA 7:10) (Tolerance (Ingineering)) (Xachine-shop practico)  XMT, A.Z. Investigating the accuracy of the geometric parameters of motion- -picture films. Trudy LIKI no.3:131-140 '55. (KLRk 9.8) 1. Kafedra tekhnologii tochnogo sashinostroyaniya. (Cinematography--Yllus)