SCIENTIFIC ABSTRACT PREDVODITELEV, A.A. - PREDVODITELEV, A.S

Document Type: 
Document Number (FOIA) /ESDN (CREST): 
CIA-RDP86-00513R001342910017-3
Release Decision: 
RIF
Original Classification: 
S
Document Page Count: 
100
Document Creation Date: 
January 3, 2017
Document Release Date: 
August 1, 2000
Sequence Number: 
17
Case Number: 
Publication Date: 
December 31, 1967
Content Type: 
SCIENTIFIC ABSTRACT
File: 
AttachmentSize
PDF icon CIA-RDP86-00513R001342910017-3.pdf3.91 MB
Body: 
S/126/62/Oi4/004/015/017 Distribution of impurities .... E193/E383 and ion-bombardment etching techniques were' used to produce the etching pits. The etch figures were examined with the aid of an optical microscope in the case of alloys containing less than 4c,.' Zn, an electron microscope being also used to examine the alloys with lower Zn contents. In some cases, cine-photography was employed to study the process of formation of etch figures. The angle between the surface of the polished specimen and the 0 basal plane (0001) of cadmium ranged from 0 _ 90 Rows of small etching pits were observed in specimens with the zinc content lower than 1%. Both small and coarse etching pits were formed as the zinc concentration increased. In specimens with 4% Zn the formation of isolated hexagonal pits was observe~d. Starting from the zinc concentration of 6%, plate-like pits of regular hexagonal shape formed in the (0001) plane were observed only. The density of the small and coarse etch figures was practically independent of the zinc concentration, which supported the view that the etch pits corresponded to the points of emergence of the dislocations on the surface of the specimens. The results of measurements of the etch pits formed on various alloys are reproduced in Fig.6, where the relative number (ni/5-ni ) of pits in a given specimen Card 2/4 S/126/62/014/004/015/017 Distribution of impurities .... E193/E383 is plotted against the etch-pits dimensions (d, 10., the vnriotis graphs relating to alloys with the Zn content indicated. Comparison of these distribution curves with the constitution diagram of the cadmium/zinc system shows that alloys with a Zn content lower than the limit of its solid s~olubility in Cd at room temperature are characterized by one system of (small) etch figures. Two systems of etch f'igures are formed In two-phase alloys, each with a characteristic size of etching pit. It can be postulated that the system of the coarse etch figures corn-esponds to dislocations decorated by the second-phase precipitates, whereas the fine etch figures correspond to dislocations with increased solute concentration, i.e. to Cottrell atmospheres. The results of the present investigation were taken as a proof that the presence of dislocations considerably affected the distribution of Zn in the alloys studied. There are 6 figures and I table. ASSOCIATION: Moskovskiy gosudarstvennyy universitet im. M.V. Lomonosova (Moscow State University im. M.V. Lomonosov) SUBMITTED: October 2, 1961 Card 3/4 5/126/62/014/005/005/015 E132/E46o AUT11ORS: Predvoclitelev, A.A. , nushuyeva, G.V. , Steparinvit . V.,X. TITLE: The -4tufly of tlie dislocation structure of crystals of zinc by selective etching PLRIODICAL: Fizik,% metallov i metallovedeniye, v.14, tir-5, 1962, 687-692 TEXT: "Fresh" dislocations, undecorated by foreign atoms, can be made visible in di!pth by removing successive layers by polishing and etching. The growth structure, twinning and the dislocation structure which arise under concentrated 1r).1ding, and the motion of dislocations in the 0001 1~lane in the ['LOTO]" direction have been shown for Zn. The distribution of impurities in the cell walls of an internal honeycomb structure was demonstrated. Dislocations with Hurger's vectors of the type 1 collect al.onz the cell .,balls. Thim confirms /3 Tiller's theory (J. Appl. Phys., v.29, 1958, 6n). Gliding on tlic basal plane 0001-Ls usual but if this is hindered it Occurs on the pri.5m planes (OlLn) in the directions [1-~l0-j , on the -- pyratni(jai pjanes (uiTi) in tlic directions ~1'~loj and on the (211-2) Card 1/2 s/i ,20/62/01 It /OC,5//('(. 5/01 The -9tudy -if thr, Ij.-jj()c,ttj()rj K 13 2 / i," 4 r, 0 planns -, ri thc d, rcc -j 'k h tor' , note s t ra r syuibol~; app-.ar ti-, be ii-,corrertlv givr-n with 11 indicc-~ Line.~ of etch nits wc-t-o observed -it 000 to each other distributed along rio'EO3 I.U. port I to the plane-,t of c I o -; u.~ t packing They corce-otond to the emergence of screw di-310cations 1/3 lying ill and it.--iving Burger's vector-, of -4:,271 T3 > Only pyramiJ da. 1. g I i (ii n!'otin(! a t room t empera ture There Eire 7Cl F~ 1-1 r f~:t - ASSOCIATION univer.-iitet ii,.I. N. V. I -,Oillollo ova C.,:oscow State University i;m--ni ,NI.V.Lomonr)qov)I SUBMITTED: March 31 , 1962 (initiaLly) June 0, 1962 (after revision) Card 2/2 by Z. G. PinsIcer P~asis -of diffractional f methods of investigauion 0 perfec. crystals"), RovinsIciv and L. M. R7bakova ("Investice-,ation of dep6ndence R- znoci~~z~icai iir-oporties on characteristics of structure of metals"-), ]~. !~_j 11te I~ci and P. M.. Usikov ("Application X~L! 11) of microscopy in investigation of structure of alloys k.--A. "radvoditelev and N A. T ap nina ("Role of ropro- _ __ "-1 Y duction of a[=o6__a_t_Ions in process of plastic flow"), A. V,,,- Partsovi 1T,-,-V. Fertsov and E. D. Shukin "ScIf-producin-S 1-H vernal dis-p-e-rision of =etals-under action of strongly auperficially-active~metallic malting") and I* L. Mirkin ("Problems of structural investigations .requirements of progress of toohnology It 5. re-:orts presented at the 3rd Intervuz Conference on Strength and Ductility of Metals, Petrozavodsk State University, 24-29 June 1963. (reported in Fizika Metallov i Metallovedeniye, Vol. 16, No. 4. 1963, P 640. JPRS 24,651 19 May 1964. L 32797-61 UF(q)/0,1T(m)/bDS_ _A~FTC/AW.- -,JD---. ACCESSION NR: A?3000773 S/0070/63/008/003/0405/0412 _i~~ ,.A'UTHOR- Tyapunina, X. A.; Predvoditelay, A. k.; Martj*nyuk, G. K.; Shvidkovsi%ly, Ye. G. TITLE: Investigation of dislocation-structure and the propagation of dislocations in cadmium crystals V SOURCE: Istallograftya, v. 8. no. 3, 1963, 405-412 TOPIC TAGS:- Frank-Read source,, hexagonal crystals, Cd,, dislocations., Burgers vector., slip band, ABSTRACT: Because the literature is unclear on how points are provid--d for spinning dis.locations t6 supply a beginning for a Frank-Read source, the authors have un er a en-t_Qtysis of possible intersections and interactions of dis- locations in hexagonal crystals. They have made experimental tests by selective etching to determine dislocationst and they conclude that hexagonal crystals have favorable conditions for the formation of points that pin dislocations during T)lastic deformation. They conclude further that the reptraint on dislocatio-.~5 ~o move in planes of the Drim or the second-order pyramid considerably cxces-~s the restraint on movement in the basal plane, which impedes transverse slipping. Thus, during plastic deformation in hexagonal crystals, dislocations apparently dard 1/2 .L 12797-63 ACCESSION NR: AP3000773 .occur chiefly by operation of a Frank-Read source, and this leads to the experi- mentally observed localization of slip bands. Orig. art. has: 4 figures, 3 'formulas, and 2 tables. ASSOCIATION- Moskavskiy gosudaretvennyAy universitat im. M. V. Lomonosova (Moscow State University),, SUBMITIBM, 06Ju162 DATE ACQ.- 21Jun63 ENCL- 00 SUB CODE: 00 NO REF SM 007 OTHER: 014 Card 2/2 ,kca,miar im: AP023434 S/0181/61t/006/004/l~2/1088' 1.117110.1133: ShvidkovBldy, Ye, G.; Predvoditclov, A. A.; Zaldiaroya.. Ms V. TI=. Conditioar. for Growing ca4mim irhirkcra by vapor ccnaennation -OU7ZE: Fizilta tvardogo tela v. 6, no* It, 1964, 1o32_1o38 TOPIC S%GS; whiGlxcr, acicular cryit-'.. cryGtal grmffh, crystal synthesis., artific-'_ al cry,,tal, cajarailln, vapor conclensation, argrcn abuoGglere ,'03MICT: This paper contains reGults regardin- the effect of argon ~?-=Gsu=c m the -,-.-arth of cadmi= whiL;;.crz. A method is proposed for cmputing .hc vanor oversaturation in the grovin, at which whis'Amr fomaticn bet-,ins. The =...'AoLl oZ cr.,,,atal groving employed ic do3cribed in variow places in the litera- On GraAng the crys- -=c (G. 'J. Scarz3. Aeta Met., 3, 367, 1955; E. 14. Nadgorny*A J_ , the gra.-- ta,', .he wathor noted a characteristic distribution of condensate alon, U :Uiz; tube. At first, condensatim took place at the crystallization temperature oj~ .ptions were observed when the f;row-inC teuc cadmiua (32CC) at. all pressures. Exec- was not filled with argcn (reoidual pressure, 10-6 m Hg). ThL- interval of at, all vapor-:pressures fran 10 to 600 = H- covered about 20-25C and IAy at Card 1/2 1 :ACCESSIa,f XR: APW28434 295-320C., but a change in argm pressure caused a change not only in the fLo3:M of the ,.fhislker but . also in the time of Growth. At low pressures the nunbers and sizes of crystals were much 3reater. Results s1hou that a constant CcL vapor oversanturatIcn prc?_uces acicular crystals at any inert-gas. pressure; the pressure merely mod-n-Lies tho rate of crystal growth, increasing or decreasing the diffusion rate of cadmi= atcms to the Graring crystal. Caaputations show that the whisker crystals beu-in :-'U;o --rair at, a vapor oversaturation of 0.17, which is a lower value than the 0.4 re- cordecl by P. B. Price (Phil- Mag-, 5. 473, 196o). Orig. art. has: 5 figures, 1 table and 7 f0mulas - 'ASSOCIATIM: Mloskovskiy goeudarstvanny*y universitet imv M. V. Lcmcnosova (Moscow :State University) SUIRCTTM: 170at63 DPM ACQ: 27Apr64 EUCL: QO SUB CME: Pa. No iw Son 004 t 009 BIP(b) IJP(c)/AS(mp)-2 ASD(a) AMIT ASD M)-3 D(f-)a6V -111-1~~6~5 EWT(m)AWP(t 6 EX/158/414 083VOS838 0 4 2 S/ ACCESSIOR,HR: AP4047 23 ESD(t) jD / AUTHORS: Rozhanskiy, V. N.; Predvoditelev, A. A., j of diffusioti0of point defects along dialoca- TITLE: On the role tions during the course of pladtic,deformation Dokla4y*, v. -158, no.. 4, 1964, 835-838 SOURCE,. AN SSSR. TOPIC. TAGS r crystal lattice defect, dislocation study, plastic deformation,, a 1 146 cgystal, zinc, dislocation motion ABSTRACT: The diffusion intera*ction of dislocations, which occurs with point defects~move 41ong a dislocation line, was investigated in a single-crystal-7~lfoil obtained by electrolytic polishing of thin chips Cleaved off a large single crystal cooled in liquid ' 1 allel to the nitrogeni. The (0001) plane uas-strictly oriented par surface of the foil. Four types of dislocations were observe d in an* electron 'i~icroscope, with principal attention paid to the cutting card L 12913-65 ACCESSION: NR.-. AP4047323. of-th y the motion of edge disl e ring of prismatic dislocations b 0- ns_during~the course of plastic de catio formation. The coefficient ~,of diffuai n in the interaction-of these dislocations is esti 0 mated -9 2 to be about 10 an sec at nearly room temperature, which is some ----_10--orders_.of_magnitudq jgrge~ than the coefficient of volume diffu i sion.. This large value -of the coef fii~leri t- -dhow4 -that -dislocations- can serve~aa efficient channels for transferring point dislocations between Various regions of the crystal.. "The authors are deeply gra~eful.to A. N. Orlov*V. L. Indenbom, A. L. Roythurd for valuable reniarks and Ye. V. Paryova.for help with the.experiment." This re- port was presented by G.V. Kurdyumov. Orig. art. has: 3 figures and 4 formulas 6 ~ASSOCIATION: :Institut kristallografii Akademii nauk SSSR (Institute !of C stallograp7hy,- Acadew of~Sciences.sss R);.Moskovskiy gosudar- :Stven,ny*y universitet im. M. V. Lomonosova scow State University) Card ~tl ~L,895-65 (b-2/VP(b)/EWA(c,) lip( C) rD ACCESSION Mv: AP5005271 AUTHOR t Prjd~v_Aitel A. A.: Z~~arova, M. V2 ~-7 TITLE-.- Concerning the strength of whisker crystals of cadmium and zinc 13 !.S=CE.- Mika tverdogo tela, V. 7, no. 2# 19659 379-386 filaniezitM cEystal, cadmium, zinc$ strength, dislocation density TOPIC TAGS: ABSTRACT: The-cadmium and zinc whiskers were grown by, condensation from vapor, us-ing a met had described previous -ly b-,-- the authors (with Ye. G. Shvidkovskiyj FTT,' 69 1082p -was measured with a special set- 19A) . The strength of the whiskers up built*in accordance-with a scheme described by H. B. M. Wolters et al ('T. Sci. Inst.o.v. 38s 250,9 1961). The load was measured with'a ring dynamometer. The :1 cross section area, necessary to determine the strength$ was obtained by phatogra- pby at large magnification, using the,MUF-2 microscope. The diffraction effect on the edges.werereduced by using ultraviolet light. The reduction of the experi- mental dats lq:-leastr aTiares bas shown that for cadmium in the range of diameters 1-50 .4 the strength is equal to 1.7 + 211/d2 (k#=2), where d is the diamter in microns* -xn the case of zinc in the range of diameters 1-80 ms the strength in I'Card,1/2.- L 34895,65~ ACUSSION NRt AP500~24 2 -unlike mawj other metals,,-the strength is proportional to the 9 + 127/d Thus reciprocal of the diameter squared, and not to the reciprocal of the diameter. The- values obtained for the strength are compared with the theoretical shear strength, and the possible effect of axial dislocations on the strength of whiskers is also discussed, ItAs-assumed 11hat the-start of.plastic flow is connected with the axial dislocations and their quaatity., then the strength should be proportionml to. 1/d2 since the -nu-mb4r of dislocations, inwhiskers is approximately proportional to A It is also possible that this behavior is peculiar to zinc and cadmium I only. "The authors,are deeply grateful to Professor Ye..G. Shvidkovskiy for a digcussioift.o:r the results." Orig. art has: 5.figures., 1 formula, and I table. MSOCIATION: Moskovskiy goandarstvennyy universitetim, H.'V. Lomonosova (Moscow i State University) sumarm t o7jui64 EKCL:~ 00 SUB CODEs SS -009 YTH REAF Soyt: 021 Card 2/2 _~7 R L~5252&-65 E dT (1)/E1,'jT (m)/T/tWP(t)/EEC (b),~awp(h)/F_WA (c P4-4 1JPW Ac=xqN,NR: AP5=714 )01817Q00V691108l 1 AUTIHOR t, Ra~mp H, Ke;. Predvaditelevp At A* TiTrz: Vation of dislocationq_Ad. relmtion of stresses in sodium chloride Me- tals '-SOURCE: Mike. tverdogo tela, V. .7. ~no. 4 p 1965, 1081-1085 TOPIC TAGS: sodium chloride# dislocation motion,, stress relaxation, seletrive I etching q ABSTRACT: An investigation was made of the motion of dislocation and stress re- i laxation in_gi_rg&2_c alsAf sodium chloride. The stress relaxation was measured Mste_ var a vith a relaxometer which made it possible to record d:Lrect3,v the i tion of the stresswith time (V. R. Regell and G. A* Dubov, PTE.No.. 6.. 102, 1958). The test samples measured 5 x 5.x 106~-8 x 6 x 16 mm. and, were cleaved from one large single crystali.,7he Initial average d1olocation density In the samples was 2 x 1 CM!,2. The sample was continuously etched during the course of rele.-Ation,, making it Poo- sible to investigate the dislocation motion. The etchant used was a saturated solution of cadndum mdde and a mixture of butyl and metbyl alcohols (5:3 ratio). Card 112 y STEPANOVA, V.M.; PREDVODYIVELEV, A.A. Interaction of glissile edge dislocations with block boundaries in NaCl crystals. Kristallografiia 10 no-32:384-388 My-Je 165. (PaRA 18:7) 1. Moskovskiy gosudarstvennyy universitet imeni M,V. Lomonosova. L 044r:7-6'1 ACC NRj A160 118547 SOURC.E.CODE ___ UR/01BI/66/00-8/666/18~~/2?- AUTHOR: Predvoditelev, A. A.; Rakova, 11. K.; Chebotareva, Ye. ORG- Moscow State Universit im. M. V. Lomononov (Moskovskiy gosudaretvenny univer_~ sitet) 1161 TITLE: Investigation of the motion of dislocations in NaCl crystals during creep SOURCE: Fizika tverdogo tela, v. 8, no. 6, 1966, 1834-1838 TOPIC TAGS: sodium chloride) creep, crystal dislocation phenomenon, relaxation pro- cess ABSTRACT: This is a continuation of e,3,rlier work on NaCl crystals (FTT V. 7, 1081, .1965), in which it was shown that rela:cation of stresses at room temperature is de- t ermined only by conservative motion of dislocations, and singularities in the law ~It governing this motion were established. The purpose of the present investigation was to determine -the motion of dislocations during creep in single-crystal NaCl at room temperature. Soft crystals were used with yield point 12C) g/MM2 and initial disloca- tion density -105 C1072. Special apparatus -was constructed permitting strains of the order of 10-5 cm. to be registered at room temperature. The motion of dislocations w9s investigated by the method of directly etching the samples under load. Quanti- tative investigations of the dislocation motion could be made only at stresses slightly below the yield point-~50 g/Mn2), before intense dislocation multiplication could be observed. At 100 g/mm: and higher, the experiments failed because of the Card V2 ACC NRt AF6018547 large dislocation density. No pronounced dislocation imaltiplication wa's observed during the creep. It is concluded that the creep is due only to displacement of al- ready existing dislocations, produced during the initial deformation of the crystal. Some 40% of the dislocations capable of motion participate in the creep. An expres- sion is derived for the calculation of the creep from the measured moiion parameters. The good agreement obtainqd between -the calculated and the experime al datft gives grounds for assuming, as in the earlier study of stress relaxation,(tat the non- stationary creep of single-crystal MCI at room temperature Is determined by redis- tribution of dislocations within the crystal. It is pointed out, however, that there are essential differences in -the dislocation motion during creep and relaxation, so data on creep do not apply to dislocation, and vice versa. Orig. art. has: 5 figuresi 1 formula, and 2 tables. SWCODE; 20/ suBm DATE: 15Nov65/ om REF: oio/ oTH REF: o_16 Card 2/2 ACC NR: AP7005343 ~edra broadens with increase of aluminum content is described. Although the presence of the tetrahedra should increase the resistance to plastic deformazlion, lay hindering the motion of the dislocations, no change in the resistance to plast-ic deforration could be detected by measuring the microhardnessi it is therefore concluded that the tetrahedra do not act as major obstacles to the motion of dislocations. Orig. axt. has: 3 figures. SUB CODE: 20/ suBm nATE: 14jun66/ ORIG REF: 001/ OTH REF: 007 2/2 N]IMSIITM#,B*Zoj, nauchmy7 sotrudnik; FREDVODITELEVA, A.D., nauch-yy sotrudnik PARSHINA, NeNep nauchny-y--o-o-tr-u-dEa,--AGEPOVK,-A.D., nauchnyy sotrudnik; RAMPCHT. K.A., nauchnyy sotrudnik KOB12NTSp S.G., inzh.. Manufact.-we of chlorin knit underwear and its therapeutic use. Tekat.1wom. 21 no.6:71-73 Je 161. (MIRA 15t2) I 1. Voesoyuznyy nauchno-issledovatellskiy institut trikotazhnoy promyshlennosti (for Nirenshteyn, Prevoditeleva.. Parshina.. Agapova). 2. Institut obshchey i komnunall~oy gigiyany (for Rapoport,. 3o Trikotazhnaya fabrika "Krasnaya Zarya" (for Koblents). (Knit goods industry) (Underwear) MOGILEVSKIY, Ye.M.; KHORIKOVA, O.G.; FINGIM, G.G..-. IIREDTOIjjz'~~PVA, KUZIMINA. G.P.; MIIHAYLENKO, P.P.; TUMAYU, S.A. Continuous process for producing viscose rayon and for its finishing. Khim. volok. no. 6:25-27 160. (MIRA 13:12) 1. VsesoyuznV nauchno-isgledovateltakiy institut iskusetvannogo volokna (for Mogilevskiy, Khorikova, Finger). 2. Yseaoyuznyy nauchno-issledovatel'skiy institut trikotazhnoy pronWshlonnosti (for Predvoditeleva, Kuz'mIaa)- 3. TSentrallnyy nauchno-issledo- va tell skiK ids titut shelka (for Mikhaylenko, Tumayan). (Rayon) PREDVODITELEVA, A.D., kand.tekbn.nauk; GRECHUEHI11h, N.A., inzh. Experimental use of synthetic fibers in the Imitting industry. Tnkat.prom. 19 no.12:14~~i6 D '59. (MIX". 13:3) (Textile fibers, Synthetic) (Knit goods induatz7) -3T G. A. St : t - PREDVODITEIY,VA A . -, -,%-_,_kand.takhn.nauk; DUBROVSKATA, M.P., inzh.; NIMISHTEri, B.Z., inzh. Using new kinds of synthetic fibers in the knit goods industry. Log. prom. 18 no.7:20-22 Jl 158. (MIRA 11:9) (Knit goods industry) (Textile fibers, Synthetic) L 17721-66 EWP(J)/WT(z) RM ACC NRi AP6003415 SOURCE CODES UR/0190/66/008/001/0076/0079 AUTHORS: Predvoditelov., De.A.; Nifantlyev,, E. Ye.; Rogovin,_ Z. A. ORGt Moscow Textile Institute (Moakovskiy tekstilinyy institut) TITLE: New method for the synthesis of phosphor-containing cellulose esters SOURCE: Vysokomoleku]Lyarnyye soyedineniya, v. 8. no, .1. 1966, 76-79 TOPIC TAGSz cellulose, phosphate esterp esterification, phosphorylation, phosphorous acid , organic synthetic process , eater ABSTRAGTz Reaction of mixed acetic and methyl phosphorous anhydride (I) with qellulose (II) yielded cellulose alkyl phosphites (III)# while esterification of TI with methylphosphoric anhydride (IV) gave corresponding phosphate (V). Both reactions were of interest., as the prior methods of preparation of these compounds required rigorous conditions leading to the destruction of cellulose. Syntheses of both types of anhydrides were new and followed scheme- lt 't340," 0 CH.0 Q P +C1CQCHv.-_-jrC&.' "I lp_~DWCH~j HO/ \ /. ' - H H Card 1/2 UDCt 541.64+661,728.89 L 17721-66 AGG NRt AP6003W Q 0 (CIISQ)SP/ (C11.0).P Or U'lliel 6 C1180P 1110 0 and scheme 2t \ it \C1 Cr Preliminary activation of cellulose with fib% acetic acid was required. III was pared at 50--60C in an excess of I or in an organic solvent. Effects of time, ,pre teWerature, and catalyst upon the amount of F introduced into the cellulose eater macromolecule were studied. Preparation of V required higher temperatures due to the lower reactivity of anhydrides of pentavalent phosphorusv and thus gave less satisfactory results, Orig. art, hasi 2 figures and 3 equations. SUB CODEs 07/ SUBM DATEt 15Feb65/ ORIG REFt 0051 OTH REF: 001 net Y r 165. wy J ns Mos.Ko%,sk-y tsks til I i,:. ~ ~ - .1 ". PREDVOMEEIEV., D~P.; NIFARTIM, E.Ye.; RoGovIN, Z.A. lcynthesi.3 of celluinse p~ospljltes by The react"on of mncmethyl phosphite with cellulose and their subsequent tram f ormat low, Vysokom. soed. 7 no.6-.1005-1009 Je 165. (MIRA 18;9)' 1. Moskovskiv tek-stilluy inf;titnt, PREDVODITELEV) D.A.; IYUGANOVA, M.A,; NIFANTIYEV, E.Ye.; ROGOVIN, Z.A. Synthesis of phosphorous cellulose esters by reesterification of dimethyl phosphite and their subsequent transformations. Zhur.VKIIO 1.0 nu-4:1,59-461 165. (M.11,1A 18:11) y ;.rstitut. 1. Moskovski7 tekst',Ilny- - - 27-66 EWT(nI.)/E%P(J) RM L 23 ACC NR, AP600697h (AT SOURCE CODEt UR10190166100810021021310216 AUTWIIS: Predvoditelev, D. Nifant"yev, E. Ye.; Rogovin, Z. A. Omit MoUvow Textile Institute (Moakovskiy tekstilInyy institut) ations of cellulose alkylene phosphitea 1-~: Synthesia'and chemical transform (191-6 Ixt report in the -series "Study of the structure and properties of cellulose mid _4._,SO0KGE*. `_xyap~omolaktilyarnyye soyedineniyaj v. 6, no, 2, 1966p 213-218 Toe.' Aastic, phosphorylation, organic synthetic process cellaose p -AUSFkACT: Synthesis of cellulose alkylene,phosphites by phosphorylation of cellulose With amides of pr6pylene glycol phosphites or with ethylene glycol phosphites is df~scriboa.:* Efrect'or the structure of the amides, reaction time, and temperature x1pon the , was investigated amount of the phosphorus incorporated into the product aiid is illustrated in Fig. 1. Reactions of cellulose propylene phosphite with a variety of reagents and the products obtai~ed_are summarized by Card 1/3 _____UDC:_66.O95.26 L 233244,66, ACC NRs AP~66697h . 0 0 0-clis ello-O-POC11,1111ocilicl NO. 11,09. 00 1 / I cell-o- Coll P Colo S 0-cul t V \c11 o - i celk O-clf 0-01~ de,140-P/ \CHI . 0-cill 0 J 134-o- ~IOCIT C CH CH CHIJ A I S A 0 0 004-0 0 cellt-0 POCHICTISCIIIJ ce]J-O-POc11=cc1I & l- o Hydrolytic stabil, of all the resulting phosphite asters was studied; the esters l il 4i - - - v n' l~ava-lent o e e r e found more stable P w pk than those of trivalent P, No B. 46kolova ,.participated in the experimental work* C*4 2 .7.7.7 L 23327-66 ACC NR, AP6006974 CC r-4 1'2g4 I* rALUCT, 01 WTV p"U5PfIVFYJa&I2UfJ conditions upon the amount of phosphorus incorporated into the cellulose macromolecule (ratio 40): 1 - treatment at BWGI 2 - at IOOG; 3 - at 120G. a - Phosphorylation with dimethylamide of ethylene glycol phosphite; b - phosphorylation with dimethylamide of propylene glycol phosphitee 4 F /at time, hrs ;Orig. art. hast 2 tables, 1 figure, arml 11 equations6 ISUB GODEt 07/ SUBM DATEs 15Feb65/ ORIG RM 008/ oTH Pm, oo5 CC-rd 313 PRFIIODITEIZV, A. eN PREVCDITELEV, A. CA. 2-0-101-11115 Z. Physik 32, 861-71 (1925) Theory of diminuation of fluoresence. L a ~6 S, L AA A inteiMistiou a( The Mucture see M 01 u Is w n v u w .1 4p d 1. the hydmgva slam eccorWn, to i lo I Imes -1 fALjurGKA& Lifffifitt CL&JUPICATICk gee (W 0 4 IS it" It "1 1 14 IV It 19 n (I IS IS a 46 0 4p 0 0 0 0 00 : : : : : : : 0 4,* a * a * 0 o 0 0 0 Is u I) is w It Is IIIII IVOIJIV A 1, 1 'P 41 --. 1--l k-Y-il- ZIND jejump-all RU b0 a J. 0 is a v a $I L I 1--AA IV. (9 0 24;--!- A- A A a j - - 0 4 The possible irstaiwasbip ot Boke& postulates to III& equation* of IV g: SchMinltff- A 8 PRICUMOMNLRY, '.f RMIS I'hVi 711111.411 Math v f Wes O ' b 1 71 ~4 t j a fm 0 1 a 3 1 1 of or 41 A go* *0 0 0 0 0 0 O'A 0 0 0 111 5 6 1 S I a It 9 IS m a IS it 9 IT R 11 21 All Al al Is is 0 it U a a is 31 a 30 V is Q A) A s c n a 8 1 a a L a , p 174 4 0 a -A4 0 M 0 IX A- A - L 4 1 1 a A 40 00 00 - The wimaosity of UquWls and ga"m it= the t 10 1; 1. -Fiaw of C"k mbedon. A. S. limitt~htarkv. 1 1 1 2j, 1 f~ M G MXOI S X ) 3 Irk PA U ti 00 ' . ~ . - . . . a"ac YS. I . 04 1 btaM~~ with a given &jW orientation. OA P - . i FrCumatt. J. Fxpa~ Fkr,,rrl~ ' 0 r I kvt. (U. S. S. R.) 3, JIU-41 VIM.-The mcthod tit ' ",dV. . .'ed to, obtaining thetrystals, a tul-,)( i Ifilun. 11.8 mm- cocte. the melal, being lowered at a 00.3 rate of 245 mm. per hr. through a furnwe. For a jjjjw ensfing in a look capillary, truly thamerd. the hriaganAl 00 j axis of a Zn monorrystal i4 pertiendicular to the axis ,I 00 the tulw. Ulim the tube end% sit a capilUry it) whk.h a thin-ipl61 Sphere tit the SAIIHM diSM. I% Wid"l. JIM0111 041 tcKwhing the free end c;l the capillary, the hi-saxonal 00 z axis of the ruoucterystal is rwallel to the axis of the tube, 00 114 the capillary in this same form of tube in.&lws 2:1 Atiltit' t&. a with tbr axk of the tube. tJ:e hexagintil Am% t)f Ibc t A th,, tid- gl~wstixl also makes an angle of a .tit Ow axi-i nilay msultv were obtained ids., with Cd end Ssi. Matte (;.-)t,r L SITALLUNWAL UIRRAT4011 CLA%%IFKAIIC* $*Juba .41 QkV Q.( was.) -6 * - ; - a .0 All* IS it a IS a it it #A I -90 -0* as: zoo 0* 00 Zoo 690 ZO& Zoo Il 0 'roe ------- too 1 ~--' Al ina 0 00 0 0 o 0 0 0 0 vIv- 6 1 0 0 it it a tj m a is 11 4 a If a is v a IF a " lu .1 a 41 A o A f- A A 1p. AL -1. 1a CML 0 a A L- -t- t A If kA 4 0 4 A --A- ,u 0A 00, 00r -00 T#w dwacy od vWo*sft of I*uW& mad of meWcuW 00 7 t-se 0 -. sallocialWa. A. S., Pt.dvollitokv. J. 1,,pd. JAro,tr .00 : OZ 1 ju, S. S. Ro J. 217-2,J(HW). M. (,.,V,r *so 000 1 : 00 ce 00. =00 00 :- ~=Oq I S L A*EIALLUNCKAL LITIMPATLAIE CLASSIFKATIC" 48 0 u 0 a go n of up a it a m I o*000 :!0*0000*00400000 *0400 'a 0 0 4 0 0i,4 0 0000 00400t00040400400000 0 !000 100000000000 -00 zoo zoo 200 so f Z" c:0 0 %roe aa I, PLO 0 IM L 1 4 #0 0 0 1 W If 00000004000000 0000 I f t of is it At W 4T :9 f to go 00 00 go so lie, 0.0.' 4.7 AA Ai A 1 66 cr 0 0 0 0 0:0 a 0 0 0 0 a 0 0110~ 1041 0-0 0 * . 0 * 0 0 0 0 * 0 F 0 0 ' , f 4 0 4 0 0 4 0 0 0 a 0 4 0 a 14 It is As it a a 14 i~ 1; It u It M It At It $1 L 1; At At a fe I 1 9 J-1 -A I A, M 0 Uis - - .00 This botat cmdo0vilty of soUd host imalt"forst A. s. , t "Irdliudilvicv. J. Espl. thf,ted. I'Ayt. it s. S R 1 4, - 4 v -.r --Oil if, - 3 A (1104). e ljaii;, of At, -1, r 1 1 " ( -00 ' Ic wolves Ill istsmAl,k- -lidu a Ilit-my oil lit at c-md. 6 d- -00 vc-linted 01141 umpait'll Willi 1141a Am INAACI. 140. CAV". Nactil" Sit I'. gla-. so &% mal 1.1, Awl 'k, . At -00 t"V- 'actitls ""I. lit, 1411-. tilv .00 "' N,, Immim-nickirl -IM an.1 C.-timAn -ily-s The heal coadmitivity cd eletbum ccoducton. thod. NIS .1.1, On (he tmiisis of ni(Wrtn ~u~ptimt. tit the natutv .4 mallcr a It7y 6 glevehilAtil and cmipaird Willi Alai, I-Ar a nu. A wrimilt. P, 11, Haillismill -60 .00 00 =9 0 A 0 ct .$til' it .1 ICN A to 0 too 9 Q if 0 41 0 4 00 4 0 000.0 00-7 All I I R 01 -0 --- --j -A] - n t. im 4 0 6.0 0 0 0 * 9 0 6 0 0 a 0 0 0 0 0 0 101 ; *~~ 0 04 0 0 0 a 0 * 0 * 0 0 0 0 0 " T 0 0 0 14 SO a It At IS So a Is 0 a IF 0 it a it a OP 11 A 4~0 J-,P-ita LIT 00 09 (A) 00, E Thew. Phys. U.N.M. It.. A h 411111 : - t oory of heat M d l d l l 0 a co udlon is eve aru coniltarril uli ll pilled. ope 0 q mental data. Cm. Aws. It) 0: AO Gott =00 as 00.3 coo 00. Ogs =00 be 0 1 5 L A NITALLuar,11CAL LITINATU" CLASSWICATICH R-Z ---- ----- of Solaro WIP Otto Got ONI 4131 4111IL111 *0 0"1 Ill 00 V 9 a a a 19 it a It 'T I a (w 0 0 a 1 No IN 3 : d- '000 0 0 0 0 0 0 0 0 0 0 0 9 IN, 1 0 Is's e I 0 a 0 0 0 0 0 e 0 0 0 0 0 0 0 0 0 AVO-A Wg. 004- 0 to a 6 0 1 u _ f I 44-' 00 'Tito s .91 00 l .-I , M. A 1 1.0 I th" a ut", - 0 thr 'All's b"", is I 2%11 he Iu' ~ * 0 the OlAt t .,hln t d4lA h Z t, t from I'llt IS h aft 14.01inalln lirrien5t,91% Illin z:0 0 100 0 zoo _00 CL.%SIFK.T'C- rIK4L L'If"ITURf S L ITALO 43 it &V 0 : : 0 4 0 it v tr W 0 a o AJL-L U 11 : - n L A I -AL- A ;.0 040121 09 a :011 ail MONS SMAIIIIS 61 do* -00 ;-00 .00 .00 goo 001 get 09 600 '00 00 '00 Wes !moo Themy of IM NVONA MINN. Team. PAYS., USS.R. S. 4. pp. 364-W IM. criticism of 1-- :0 Ilklici*M's tbmry of the bunnn dame the authm stAtn that there is no lo ical T Ar t ki f th k d f & c Am or a e ve ) g n9 ty o unbwnt V" inside the cam of the 0o U= As PQTAIW W the 9~wfatriz of the cyhn&wAa tube tivough which d the gas is i.%charging. He peinta out thatonly a knowkdge ofth~ pmcnw CLWUWted with the dlvr~ of,e VAs into bw spdm will lead to -t dtagrumix of tho action. Mie User cons a# do Ame 6 shown to be 3 *0 repreic tation of the byearnical law of the diattibution ad velocities over the cro-&-metion of the bordL ISUM CA calculabedramults are shown to be in ckoe agraerneat with photographic reproductions of actuW flaumm. 00 a S. G. kk 00 8 TALLOSICAL LIMATtAt Ct-kSUFICAMM IL S 49 t 4v OM V II F; n At It R 0 "1-. -0 o- '. '-' 0 0 :10 *0 0 40 0: 0e* : 9 1W a IAl 9 j ft I a 0 * 0 0 0 & 0 * * 0 0 0 * * 0 0 0 * * 0 0 00 * *0 0 0 *0 & 0 00 * 04 * *00 a N of* 0 0 0 ear 0 0 o 0 0 a 0 0 0 4 0 0 : 0 1 11 It a IS SO IS 14 1? is " a It a a 30 n a is g -A- AL-1 a 9 f P - - - -1, L I- 00 irl 0 00 a 00 j 00 8 0o so 0 :0 V of Of ch in hio-frequelitiq *I" A 'r,.jZ`dv,X'fiI ',Icv. J. PAY$. CAM. k.) 6, The math. formulation 111cory of disper-joil atilt almnilligmil ld flight *I Fr(im the analtogy lwcwecn the ordtin (if a high-ft electromagnetic wave on a ga3 niedium ctmig. Innis action of an optic electromagnetic wave on a medi unomalou% di%pcr%ion, the (twunds v - .111B - give, tile tpecA tit a simple reaction.'where B is d riwal tit the mean life perictil of kin stoin, A a cams tile tf*ff. -if thimpIng. For nitift, comples tear which Wtieral allf"Is take flart, (hit forninfid 14-CCOO Z,W(fti -4p. Formula 0 1 agrm well with exptl I'll The change of Ot Into 0.- The alin-13. J *nil r;iIrd,iobr,f - 44SX IW, B - WX I ()., alld the Imritod4AanO~ioti-5.5XIi)-',.wc. Thedataof~ all,] Zahgin on the nxidatiun (A .50, in aim. &if ii frequency discharge (J. Phys. Ckm. (L'. S. S 4:111 44(1935)) agree well with the formUlA Y (H. - a) + A31662 - 0), wheft 'I' - M ft. - 43 X JUI. A, - IIx)X 11)4ww BI - 125X 101. proifitly #if each lif The ions taking pan in the rem for tile fir,it itm I/fi, - 2;1 X 10-4wc, &nil 1/11, - ~c. Tables given show the close, agreement with expil. speeds of reartkitts. F, H. lumit fAILLUNGKIL WINAIUME CLAUJAPKA10" 0 M !P"jF to'; 10n gig 011113 1#x - Ole 0 0 0 4 0 0 0 0 4 0 0 0 0 0 0 0 00 0 of : 0 0 0 : 011; ;!;;a, 1 11 6 Ole o 0 a 0 0 0 0 0 0 0 ce-0 4 0 0 a it 0 0 4 0 $ 4 ; 0 a 0 a a 0 union livisjosoil a" W 4540 . d I _. _L __. . . 1 .1 . 0 oil$ - 04 S, di S -00 D1 the -00 umini. flotency -00 nit i be -00 n with 6) (1) .00 recip- 800 still I '11,, in zoo 400 rc.ults 0 were moo Wmallift, too orhaeva it high- Is R. 1 6. 17 2 NO 0 - At,- Y UP. ::* 0 The life 4900 ion are X 10 ~ '00 cale'l. Malln '90 coo Nee 1190 a 0 V I ill ft S a G it I to " ( 0 6 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 4 0 0 0 0 0 0 4 41 1 to as Go ease 0:0 9 a go 4 4 1 is 11 1) it 14 it 4 1) J;3 Alb A1722911011 Vu Un Aim a P 40 $1 u 41 Is a a A I L A ft P 9 a I N CE mutt- k 1. *__ll A ~ k V 1 .1 % it- Ca".1 Comearming the eff*ct of wild admixturtle as the Velocity P P of flanto In cassibustible pe wilmam. S. of r0 ap ('41111,11va :!rA, Pycilv(xlilrl~v. 1reb. PkYs- V. S. S. R. 41* S. PO 4%(193miffil Frillish).- 41i'tts. of air and CO wrte 0 studied Phol#19TAphiwally its a tube :1 cm. in diam. and alout 2 tn. long. Thc c(fects were studird of adding SiO, 00 gel and activated chan-oal of av. particle sim% from 2 to 12 -so 00 8 P and 6 to 10 Ogesp., and in cuwns. up to !hx) and to 21) -00 00 mg./I.. resp. lame velocity is a linear function of the dust concti.; the fincr the dust, the gt"tet the slopc of thr x* 0 Um. Silica gel decreased the velocity. and charcoal dust 00 a A =** Ancreasedil. For SiOjSrI the flarnevriocity a Is given by 00 a a - 14 - CGIF, where irs is the Velocity In tile abwticr r.0 0 00 j of dust, r the &v. sixr. of the dust particles. G the dual -00 conw. and c a coast. The theoretical expressions ob- tabled from conkirral ions of thethtunal-cond. mechanism 0 and the temp. distributimi in the dame front confirm 0jumobtahled frtnn lite evild. thins. S. L. Gerhard 00 00 zoo lh* 0 00 boo A 5 a S L a RET&LLURGKAL LITERATLfit CLASSIFICATtON oil. 13r00 U It AV 10 0 0 1 Ar of 5 a 2 1 V J-40 1y ts a 0 'a 0 0 oio 0 0 41 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 & 0 OT441 1 00 O-S! : : o 0 0 0:0 o 0 0 0 0 0 o o a 0 0 6 0 0 0 0 0 0 0 a 0 * 0 0 6 a 0 9 0 000 : 00 0 10 11 u 11 Is is I? is 11 )a IIF n m 21 26 A 00 L I C IS I I L 9a.-1 -1 -to 11 V A y I -A& 0 x it, ..P J1 C 008 06 00 00 0 0 of 00-3 000 00.3 004 0 0000 ]a ]I U11 Un mv Alivado U&J"ace L-t -- L-i A.- -1 -0 a, a --t i Combusfion of a carbon particle in a cuffoont of gas A_S_-P1v-IvWiLCkv. J. 1'&h. Phyl. (t*. S. S. RA 10. ' mit-Lp(mm. The taii[tusituiiof&Cliarticleiiiat-ur- .rut tol got, was v%Amd. arvilyticaliv with the fidi'ming .4-uu,Ijt,ot~; (1) the ZAI 11- v,an tw dr~riloed by a 1- -09 trouiAl function, (2) 0 remtchc~ the surfact of C partich- iirtmgh the pr-vs~ c)( lart-cil ditlu%ion. (3) combustiant in ~ _19411 hr ~urfjLo: ox-curs in such a way thAt the rliffu%ional [low always rernains equal to the specific %perd of conaliumion. .00 (1) the tvinbustion reaction 6 of the first torder, (45) mi 600 the equiputentisd ~urfAcv. jui~~ing through the interwttion =90 I-irit 4)f X-j~ thm with C particle 1hevinicti. of 0 i-pial 1. the ... 11'.1 1.~ 1. 0 0 0 val itel Im.1 144,4dand G4111"S A A 2 - I L a 94TALLU90KIL 1.1111FAVUlt CLASMI'SCATOGN most -A I as[ b AV 10 111; It 9 0 'a 0 0 0 0 0 0 0 :0*00000000 00 00 00 0 0 G__v__v ob 0 4 too -90 ZICOO iti 00 An A I I rw 0 m 4 1 it 14 6 a a 3 ot I 0 0 : : : 'a 0 0 0 0 : 'Il'l so - 00 A 0 00 t a 1 10 11 It .14 Is to it W JAL 'Tr a H I L L- a K r Q t- -I. I V Y- In r I if T if ON f r d Pt '00 Combustion of the walls of carbon pores under wadi. dime Of far diff i f us on o OxYgen. A,4~-VtedvudiLcky and 0. A I-e Tsul:hanoya Jok J k 1 (U , . . r . yj. . . S. R.) to. I I 13-20(li),10 F 0 ).- or air velocnics of o.2 to 4i).u m.1wc. e th burninif of Co to Cot takes place 1wobatily only near 9D 0 Ih r Marface of coal. F,w x4tation of the prol,kru it 6 #A. ~Uojed that there in no secondary reaction lh ,! direct action of cost). Th tC u f , t in he temp. interval studied OW to I 1 W- 200 The rate a( oxid tion of CO near the surface of it t d i h f fi" ra e s o t e t order in respect to 0. From tneaturr. ments of the velocity consi. of the total burning proce- near the surface of "at the energy of activation is cak-d. as about =, DW , Rok"na Ca ow t L allAtUROKAL LffJOIATURIE CLA -IWK -AMY a. S"Waii" MOO map is -r--T-T-- - . .1 .1-- , 0, , Its U AV LP 9 a 14 19 0 0 0 0 in q 0 0 0 4 0 0 0 0 0 0 Ole q 0 0 0 0 0 0 0 0 0 sale W* - .14.01 somi"ir I&A 00000 0 1 .1 VA 0119cluds Ais OF list, 16099 math. teat of Ibe Process catubualm of * wbac tuhre.1,10ran, axygea sucam. 11, A."4wwost oi expd. data a number ot consts. for the dc- *0 vdaped 7ticas we" dad. MW the wtivatias map for 0 mwtkm with C vms ded. as 20~(M cal. G. W P&:v,;-ff 00 00 00 010 a - S L.L atf"LU84KAL 1.11140VOI C&AIIWKATMO W-W TIA i lee 00 00 r0 0 M*6 WOO "0e 1109 use 1 4 IM 0 W 9 1 It N 5 A 0 3 U 9 AT No, AS o Or it a a I't or IN 19U4 da a I III T- rr: : * 0 0 & t00 00 00 ~T: PT 00 2 00 a 3 0* foot oe 600 006 *0 0 to As 12 is a -9-A-A.-A-L malelrdt, 1944. 212pp. LLUftOCAL Lffg*ATW2 CLASWCATON f4ar'n 014f 4%v 4#1 AT 10 5 W - 2;j ;IP14; all 0 0 0 0 0 0 0 0 0 0 o 64 44 To A 0 0 0,0 0 0 0 * 0 0 0 zan-u Mill 4101 saw lot 80 08 so go '90 : 61 40 0 0 0 0 1016 -901 .00 .00 see WOO Igoe 9* 800 Igoe see goo woe Igoe woe r~w~_"_~i~^_'~-T__~ _'q lid CliSSifiCAV011 d t. -42 6ji. 1947, na~ 7 23 (1947).. (RussWan) -of :t notioit-Of-I tat al - A.'cr thi. dtabili!O a 196C systems- is first: c4tablished. -Certam, atepwise con Inuous We itatistical systems are int functions associated with sta to- dured. Identities, which are geheralizzboas *of. those due to Riernarm, Hugoniot and Hadamard are found between the above functions. Combination of these identities with the Hamilton-jaco'bi equation leads to equations of the Schrlidinger typeand of the Fokker-Planck-Einstein Eypet Which may be easily transformed one into the other. The transformations used in establishing this connection enable the author to define'canonic-ril distributions of real, itnagi- atural classifi- nary, and comp!ex m(Auli, This leads to a ru cation of statistical probkm in which claeslcM and quantum av statistic, systems are Shown to represent two asp-ts of -ime general principle. the s, G. At. Volkoff. Source:. 1950 Vol 11 No. 8 10 11 11 1) It Is 14 12 Is It ID a)U11 11 is is 21 aNI h v n A E S L I A A- A - A -,L--A. M--r -Q 91 1 v- IV A M-K-%-M-Q4j.-j_ P- 01 liss fumstWft In the tocabustim of cOW .04d. Na.k '09 Y.S.S. R., 13-09-40-71tree 18 possible chem. mechanism of ps formation am COUW 8*0 00 cred: (1) Cox is formed on the surfaft or in the intesim of =00 0-3 the COOLL CO fmlts from the secondary process of Cow redwtkm ou tJw COW SWUM OxYgen Is consumed solely 400 in the furmtt*n Of C0#- (2) CO and M~ am foemed J. i mUltaneMWy on the Surface or in the Inteyitm of the coal. i roe 7U reduction of CO: on the surface is a possible Kvoad&ry proem. 02 consumption produces either oxide. (3) CO and M am formed simultancotudy. CO forms 000 00 on or war the Cow bere them gs sufficient o see en. Reduction (so the surface k possible, espe- C=, Zee cial[Y Outside the limit of the 0 zone. All 0 consumption occurs oil or bw the surface. A detailed math. treat- Ago ment Is liven, based on mechanism (3). if. K. L. 3*0 I L A .11-,L&U#G$CA1. LIMATURE CLASWK41POM too flow 7 111W C.9 a- IS- *41310.1; rW g m el W N 5 A 0 An-, and 0 -- Pr u, v? it ON it AW n I I U V 0 41 o 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 *a 000 000 10 a 0 0 0 0 0 00 0 0 0 0 0 0 00 0 0 0 0 _90_9 00 060 0 0 0 0 0 It Cx Affhenius law in chernic4l kinetics of ps reactions. A. S . (Mosrow Siate Univ.). Poklady Akad. Nauk S.S.S.R, 57, fl,"1917).-Theorefical tli,*- C,m,lon of the effect of illeboic Colliions on the'listribution I)f vrlsx-ilics in a XMIP of material jurlides, p"firtsurly ~ripmg thoc whow activAtion encrgy is of thewder of k T. G. Ko~uj~ff 1. PMDVODITELEV, A. S. 2. ussft (60o) 4. Physics and Mathematics 7. Fundamentals of Heat Transfer, M. A. Mikheyev. (Moscow-Leningrad, State Power Press, 1947). Reviewed by A. S. Predvoditelov, Sov. Kniga, No. 4, 1948. 9. ~ Report u-3o8l, 16 jan. 1953, VDIT) U- tic statistic, sevible of niatte -Predvaditelevi A. S. at eq, no.,11, 41-44 aufhor'seaflifn-~% -42. - I - the of nik 1947, no. 7,23 1 se Rev., 11, 63-31 t Otlull s. Using the Ii I (lie ar pli)vr f-ked above tile. alu (liar ~su Is wave vituiti6n, at: Dim's rdativi-_A;c and at genc-ralizatiol"n"of 1100I.Which have no( yet (omid 14,!, applicatimisi Tht! Author poisils'niti dim ;I I he.,( Of -which hf. of Rienia,111711 lmiot-Mul,.116ril, lw~jbn, i mul, will Q.4 %611 lwd 14,11t of) tile opi ill 7 fife-da-LaWWWMdrodynam:6, live-s-fiya Akad. Nauk t5 do, la th& c i :,1 L,witeur.reprend [InIondemen ne cla Uque TylaxweR. Aprih, avoir 6tablites tquAtions & mouvement Wun fluide Yi3qumx,- R,-cssaye de forimr- fes'dqimtions-46 motmment en cc j& tnt I'hylk othtse.de.N fame It: Ila vitesse de transport dc d;IUx malt-Mc-9 qui St, CIIGUUP-qt Sant kgafm On,~trotive dc cette f. icon des &jtzatians de mouvem ent -:gZin4hfisanta cefics de Navivr-Stokem 12iUteur-applique de ces r4sfiltats aux courarits rizeux A doj,,c dimensiom Tchaplig-.Uine. At. Kitdi=i4cls (Paris). Sour.ce. Mathems tic,11 Reviews, Vol 47 x 09 - 0 0, :0 0 0 0 0 0 0 0 4M -"W" " W. me CL to U j A CtrISIA 1nv4rIAnt Quantities In the TWeery Conductivity and Vl'wmflv G( Uquids. (in Russian.) A. S. Predw),litelev. khi4rnal P'izi. rhepkoi Ehi"jii (Journal of Physical Chernktry), v. 21, 51sr. 194S. p. 339-34R. Filuations concerning mlmwo invariant quan!jtips or cunstnnts are derived and th,- r-mstimbi talm Inted for several groUltq of tliv nwrv coiiinwn organic compoundi. V* VO ZOO too + W 's~; r --j-T s 0 'in of it 99 it V1 V1 it at 07~ o 0 0 0 0 0 0 USSR/Chemistry - Ccoductivity, Thausa War., 1948 Chemistry - V180061ty "Several Invariant Quantities in the Theory of Heat Conductivity and the Viscosity of Liquids," A. A. Predvoditelev, inst or Phys, Moscow State U, 10 pp "Zhx-- Piz Xhim" Vol XXII, No 3 Selects most suitable for of solid and gasifat matter. Subjects this for to treatment with the aid of statistical physics processes to Investigate any functional relation between any parameters character- istic of matter. In vieFw of the difficulty of con- plate solution of almost all of the problems, varime 65T23 UM/Chmistry - CorAnotlvltY, ThWeMi mr 19W (Cmtd) limiting suppositions are made in the process Of Ola- culation. Covers the fundamental principle of tOft- persture conductivity; adiabatic invariants and the criteria of mechanical cotVarlsm; two PrinOIT160 omearning the heat conductivitv of liquids. ftb- m1tted 3 Jun 1947. 0 65T23 Predvoditeley, A. S., Khitrin, L. N., Tsukhanova, 0. A., Kolodtsev, Kh. I., and Grodzovskiyj M. K., "Combustion of Carbon. Experiments in Building Up the Physicochemical Principles of the Process." Academy of Scienceg UIS'S'R, 1949, 408 pp, 2,500 copies. A. S. Predvaditelev, A. S., "Some Representations on the Operator Methods of Wave Mechanics." Vestnik Moskovskogo Universiteta (Seriya Fiziko-14atematicheskikli Yestestvennykh Nauk, Plo 1), No 2, 1,049. A. S. Fred-vaditelev, A. S., "Some notes on the Nature of Elementary Particles." Vestnik Moskovskogo Universiteta (Seriya, Fiziko-14atematicheskik-h i Yestestvermykh Nauk, No ~,), No d, i949. PUMV0DIPELEV, A. S. I 'I-.ork on the Cor-bustion o,- stolid F~-lels., I! 7est. A!- !.auk SSSR, 15-50 Cor. llbr., AS USSR PREDVODITELEV, A. S. Statistical Mechanics Clausius' theorem on the mean ergal and stable statistical systems. Vest. 5 no. 6, 1950. 9. Monthly List of Russian Accessions, Library of Congress, ~Invpmhpr 195;. Unclassified. 2 tekv. DAWy AimW. Wuh S.S.S.R. -Conaklerstles of a Mqvdd as a statistical with 04r0" was der Wells futgrmcdo" a4 spin" "b" ft's-Ir. win --, in #he name, I I and iu trisumt as a Materiel pla"M with My-cood""t wave 010001116 he& to as repression Fw the caeff. of beat COnd. k - A ColVAP, whent t. has the soraning of a beef repecity (Without brIP4 equal to It), mild Z that of an as-n. factor. For nortnal liquids, X - IIthe ratio k/je (P - d.) ought to be tensp. Intlepentlent; this Is vrriW for Q114 toluene (SM.WPIC.), and w- C4"s"Vs(2"I7*X-)- tl[,Obrhavr~ like% normal liqukl -above 150*C. Below that temp.. if liquid water is treated me a soft. of ke (HgO). (with a - 6 or M) In I*kf 160. the ratio y of the me. of mob. of ke dismolved in I a. of water and the no. of mob. of ice an Freezing, is Sims by the D-Muz lonnals y - 0.157 e-4-00w, where r - centigrAde (emp, Ifeacv, k - 11of I - ((s - I)yl forroula bworn" k - IM21 X 11) '11 - OXIW-4"" III,. Y"ifird between Ij anti V, I*C. X. Thon PREDVODITEUV, A.S. chlen-korrespondent, otvetstvennyy 9 [Problems of rocket engineering; tranplations and iodical literature.] Vop.raket.tekh. no-3:3-123 redaktor. surveys of foreign per- '53. (KrH,' 6:6) 1. Akademiya nauk SSSR. (Rockets (Aeronautics)) KRITRIN, L.B.; PREDVODITEIZV, A.S., chlen-korrespondant. Basic characteristics of the combustion process of carbon. Izv.AN SSSR Otd.tekh.nank no.4:543-561 Ap 153. (MT.RA 6:8) 1. Akademiya nauk SSSR. (Combustion) (Carbon) WAN k A A , tv Stair tif R B T I PlE R 4 1 imn.)"A. S. Pretivi I lzvl iA o o o S11 Iva gdelepife reffinichcA I N(filk. 1913. r1o. 5, N V. 3 no. 3 p. 705-707. 1954 Revirm's Wnrk nfvScm navAbitrin, and'dinklianov, 3 ref. I X7 . uels and Uombu3tlon KNORRE, G.F.; PREDVODIT&MV, A.S., clilen-korrespondent. .l.- ----- -- -111--, -- ,tpplication of the modern theory of combuBtion to an efficient grganiza- tion of furnace Drocesses. Izv.AN SSSR Otd.tek-h.nauk no.5:7.10-734' My 15~". (M,RA 6:8) 1. iikademiya nauk SSSR (for Pradvoditelev). (Coribnation, Theory of) (F~irrmceis) PREDVODITELEV, A.S., chlen-korrespondent. Results of the scientific-technical conference on problems concernirg the theory of the combrustion of fuel. Iz7.AII SSSR Otd.tekh.npuk no.5: 741-751 MY '53. (KMA 6:8) 1. -Akademiya nauk SSSR. (Combustion, Theory of) USSR/Physics - Solid State Oct 53 "Problem of the Liquid State of Matter," A.S. Pred- voditelev Vest Mos Univ, Ser Fizikomat i Yest Nauk, No 7, PP 39-52 Historical survey of Soviet and Western high-pres- sure studies. Votes that sufficiently complete optical and x-ray investigations have not been successfully organized, especially if Rayleigh and combination (RaTnan) scattering close to the region of liquids and of x-ray and electronographic study of phenomena during solidification. States 273T92 tht Ye.V. Stupochenko, Ye. G. Shvidkovskiy, V.A. Zamkov, et al will participate in this new Tield in the new Physics Faculty Building. ---------- A, --d compce'salblifty of''th-t* bbmy'- ds* iqm Intituli- tU.. _he~ * that has a top critfW tempandure, of solution and a compuisou with the values of thase-parame- ters in tha criticM region for a liqu(4-vapar qcterd. P.-A. Smircov and A. "Iedirogiteltv (M. V. Lowniteinvi Ta-. XUrn. 28,,168140 State Un r xr. Iv, &~.~ , ~e . ;.I", -The b (11)54).~ ange n . and compressibility, 6. with temp. for the binary mixt. CH;OH-Cq11j# was studied ever the temp. rarip 18-46' which, depending an thi conen., In- eluded tht crit. rejeon. The nnture of this to be tween th~: crit. state of u liquid-vapor system = "Of aviran; mixt. with a top crit, temp. uf soln. Is discussed aud the' F* of thermodyuitmic fitetors Is evaluated. e4_ PMVCDITKSV,A.B., ; Pages from the annals of the University. Tekh. mol. 23 no-5:2-5 my 155. (MIRA 8:6) 1. Chlon-korrespondent Alrademll nauk SSBR. (Moscow University-ftstory) USSR/ Physical Chemistry Liquids and amorphous bodies. Gases B-6 Abs Jour Referat Zhur Khimiya, No 4, 1957, llo62 Author Fredwoditelev A.S. Title On the Coeffickent 6f Thermal Conductivity and the Viscosity of Liquids and Compressed Gases Orig Pub Sb. posyashch. pamyati akad. F.P. Lazareva. Moscow, AN SSsR, 1956, 84-ii2 Abstract On considering thermal notion of a continuous system as being randomly pro- pagated waveprocesaes and utilizing the notion of local, in time and space, temperature 4,so that thermodynamic temperature is the me&n of local; see Vlasov A.A., Teoriya mnogikh chastits, Gostekhizd the author deri- 1950), ves the correlation (I + x W/2 = 0, whereinW /2 --mean, kinetic energy of unit of mass, G --mean phase tate of pulse of temperature fluctuationsi J6 --ratio of -, potential energy to mean kinetic energy. TtLis correla- tion, Debye's ideas concerning thermal motion as a combination of acoustic oscillations, and the results of Eckert (Phys. Rev., 1948, 73, 68) ara uti- 11 zed for the derivation of the well-knovn formula of the author for ther- mal vel6cities of molecules and of resilient thermal waves. By the use of these invarients axe derived, in the opinion of the author, the most general CL ~2/; Card 1/2 ffibffi~ - - --------------------------------------------------------------------------------------------------------------------- PREDVODITELEV, A. S. and SUTIDUPff, I. N. "Problems of Combustion and Flame Frogapation in T;.o-Phase Mixtures (Liquid Fuel/ Air)." 8 paper submitted at the Sixth International Sympoab m on .0 Combustion, New Haven, Conn., 19-24 Aug 56. Predvoditelev and Sundueov, Institute of Energetics AS USSR, ~bscow, USSR Abstract of Papers, E-4519, Branch 5 A-528o6, 9 Jul 56 PHASE I BOOK EXPLOITATION 999 Predvoditelev, Aleksandr Savvich, Professor, Corresponding Member, Stupochenko, Yevgeniy Vladimirovich, J Professor; Pleshanov, Aleksandr Sergeyevich; and Rozhdestvenskiy, Igor' Borisovich Tablitsy termodinamicheskikh funktsiy vozdukha dlya temperatur ot 6oooo do 120000 K i davleniy ot 0,001 do 1000 atmosfer (Tables of Thermodynamic Functions of Air for Temperatures of 6,000* to 12,0000 K and Pressures of 0.001 to 1,000 Atmospheres) Moscow, Izd-vo AN SSSR, 1957. 301 P. 3,000 copies printed. Sponsoring Agencies: Akademiya nauk SSSR. Energeticheskiy institut. Laboratoriya fiziki goreniya, Moscow. Universitet. Fizicheskiy falculltet, SSSR. Ministerstvo vysshego obrazovaniya. Resp. Ed.: Predvoditelev, Aleksandr Savvich, Professor; Tech. Ed.: Zelenkova, Ye.V. Card 1/4 Tables of Thermodynamic Functions (cont.) 999 PURPOSE: This book is Intended ror thermodynamJc Ist3, engineers and othe.-s working in the field of heat exchange and gas and thermo- dynamics. COVERAGE: The tables presented in this book form part of the re- search on the properties of gases at high temperatures conducted under the general direction of Corresponding Member of the USSR Academy of Sciences Professor A. S. Predvoditelev in the combustioi physics laboratory of the Energeticheskiy Institut (Power Institute, of the Academy of Sciences., and in the molecular physics depart- ment of the Physics Faculty of Moskovskiy gosudarstvennyy uni- versitet (Moscow State University). Up to the present time, the staff of the laboratory and the department have compiled tables of thermodynamic functions of air for temperatures form 1000* to 20,0000 K, and also tables of the gas-dynamic and thermodynamic values of the air stream behind a straight compression shock and at the surface of a cone for approach-flow speeds up to 15,500 m- sec. The tables of thermodynamic functions of air for temperatures from 60000 to 12,0000 K are the first volume of the above mentioned series of tables. The entire work of compiling Card 2/4 Tables of Thermodynamic Functions (Cont.) 999 the tables in the present volume, including a general analysis of the problem, the solution of a number of theoretical questions arising in the thermodynamics of gases at high temperatures, the development of the method of computation and the computation formulas, the programming for the electronic computer, and the actual computation on the machine, were carried out by a group of coworkers of the combustion-physics laboratory and the molecular physics department of' the Physics Faculty, consisting of Professor Ye. V. Stupochenko (leader of the group), Ye. V. Samuylov, I. P. Stakhanov, A. S. Pleshanov, and I. B. Rozhdeatvenskiy. A large part of the total computations was performed on a high- speed electronic computer of the Computer Center, Academy of Sciences, USSR. Checking the tables and readying them for printing were carried out there under the supervision of L. S. Bark. Some control, intermediate, and auxiliary computations were oerformed at the Pervaya Moskovskaya fabrika mekhanizirovannogo sch6toz4VMt Moscow Computing Machine Factory). There are 14 references, of which 12 are English, 1 is Soviet, and 1 French. Card 3/4 Tables of Thermodynamic Functions (Cont.) 999 TABLE OF CONTENTS: 1~ Preface 3 2. Description of Tables 4 3. Tables of Quantities h, u, s 1/" 1 Cp.? Sv loly-.1 a 9 4. Tables of Quantity x x0j, x x I x I x x x N-' Arl N 2 02 NO N 0 xAr +' xN x0 x N0+' xeJ, -f 107 AVAILABLE: Library of Congress Is/nah Card 4/4 12-22-58 PMMVMITEL'EVY A. S. "The Effects of Inner Electromagnetic Fields on the Propagation of SoLmd in Electrolytes, " report presented at the 6th Sci. Conferenco on th" cf ii, Ut, in the InvastigaLi.on ),- 'I-J o.", 3-7 Feb 19)3, %Wcarw, Mill of Ltjj,~L,1~)rl Azscow Oblaat Forif-c-o4j.., 1 -).-3 1, ii N. K. Knipekprn PREDVODITE-L-EV) A. S. "Concerning Spin Detonation." "Theoretical Examination of Vibratory Movement of the Flame Front in Closed Vessels." "On Automodelling Processes in Chemically Active Media." paper5submitted at 7th International Symposium on Combustion, London/Oyfford. 27 Aug - 3 Sep 1958. u, r-"V 0 L z- L/ i~ 24(l) 3 PHASE I BOOK EXPLC)ITATION S VseroBsiyskaya konfc-rer.tsiva gicheskikh institutov d pedago- -Primeneniye ulltraakustiki k Issledovaniyu veshche-tva; trudy kon- ferentsii, Vyp. 7 (Application of Ultrasonics 1,--r-Analysis of Substances; Trans~ctions of the All-Russian Cci'Af'i_!~,ence of Pro- fessors and Teachers of Pedagogical Institutes, 11P 7) Moscow, Izd. MOPI, 1958. 283 p. 1,",00 copies printed. Tech. Ed.: S. P. Zhitov; Eds.: V. F. Nozdrev, Professor, and B. B. Kudryavtsev. PURPOSE: This book Is Intended for, physicists, techiicians, aero- nautical engineers and other persons concerned with ultrasonics. COVERAGE: The book contains twenty eight artil-les -which treat ultra- sonic phenomena In five general categories: 1) historical data on the development of ultrasonics In the Soviet Union over the past forty years; 2) the speed of sound In susp~-~fnsions of varying concentration and number and type of components and the relation- ship between sound velocity and the compressihility of electrolytes; Card 1/7 Application of Ultrasonics Nont.) sovl~~jlc~zo 3) ultrasonic invest Igat lons of phy3lc~ti an,-, properties of materials and the determlilatIon of' physlcal and chemical con- stantd, e. g. density of aqueous solutions, adlabaLlc compressi- bility, molarity of solutions. (with given temperatures), viscosity, surface tension, saturation pressure and also ultrasonic Investi- gation of the carbon content and petrographic state of coal; 4) industrial applications of ultrasonics, e. g. emulsification of reagents, cleansing of LexTile fibers and enhancing the sucepti- bility of some sy-rithetic fibers to dyeing, etc.; and 5) apparatus which produce ultrasonic waves. 'No personalities are mentioned. References accompany eaen article, TABLE OF CONTENTS: Nozdrev, V. F. Development of' M,-)lecular A,-_~CA13ti,:-;; In the Soviet Union in 40 Years 3 Kudryavtoev, B. B. The Sp-_~-ed of Sound Propag~,'Lio,-, Sus- pensions 17 Card 2/ 7 Applicat lon of III L ratmi,ic., ! Predvod1telev A S. Trie -1 11 e r; La w 11~ 1 c 2 -1? Wic. C,~Iqe of LhE, F;-i-- -f Predvoditelev ~3 Gudova, R. A. Applic,,.itloij of Ultra.9rnic Adiabatic Compress I b11 I Ly [nv :-jLud.,j.Inj_, Aw IL-it- ('1-,P7,cLt,, of a Polyatomic Liquid 59 Mikhaylov, I. G. and Yu. P. 6yrnikov. The Pcnblorn ,)f the Compressibility of Solution. cf Electrolytes 65 Larionov, N. I., N. A. Dmitpiyeva. and G. In- vestigation of the Physical,and CTlemical Propf:!rtle..-~ of ACMeous Solutions of Rimethyl Formamide in the Ternp-eratUre Interval From 20 to go C With tile Ultrasonic and Other Methodq 75 Otpushchennikov, N. F. Investigation of the 13peed of Ultra- sound In Naphthalene and ffypo,,~(ilfire In th,~- H,,-ng- of Phase Reversals of the First Order 91 Card 3/7 Application of Ultpjjs()j,jeq Dt, t Osadchiy, A. P. The Dependtr:rjc~, of the j t sound Upon Its Intensity Gershenzon, Ye. M. The Use Of IlLtras-)und Structures Bryukhatov, N. L., and G. P. D'yakov. Some IN-l-, Magn-~,)Stric- tive Materials Savinikhina, A. V. Ultrasonlc Method of Determinin~,. the Saturation Pressure of' Plastic LiqUIdS Grishin, A. P. Ultrasonic Method of Intiestigating Lhe Crystallization Process of Parafinic Petroleum Products Matveyev, A. K., and Ye. G, Martynov. Sp--~~J of Propagation of Transverse Ultrasonic Wa~ieo In Coal Kirillov, 0. D. Emulilification of' FloLation by Ultrasonic Waves 101 105 ill. 1.21 127 135 143 Card 4/7 Application of !J-Itlrns-r~lo,~~ iI so v I C) Greshnev, A. I. e,3 t I II f t b e E Ultrasound on th~, Pnysi:-,al ----rid hygienic fropf Fibers During Purificatit-ai 149 Goryachko,G. V., N. A.Itirtitrl~eva and N. 1. Application of Uitrasou,nd PiOring Dyeing c-f P,7)1-..:i-- I t ri 1e Fiber of the "Nitron" Type 161 Yegorov, N. N. Application of Ultrasonic f,- Measure- ment of the Depth of a Surface T;a,;er 169 Yakovlev, V. F. and A. D. '111pir. Elementary Theory oC a Quartz Converter 185 Kallyanov, B. 1. Measurement of the Coefficlent- Absorp- tion of Ultrasound in the Critical Range of M,~th-,-i -'..-,-tate by the Pulse Method 201 Kallyanov, B. I. Mothodolot;I(-al Pecullai-ILie~-, c;C gating the Coeffi(-Ir--nt or Ab,:iorptlon of Sttbst,111,--~~3 i,,-, the. Critical Range by the, Fals~~ Method 207 Card 5/71 Application of Ui 1, v~isor~I (~z-, . ) Sobolev, V. D. The App I I r: a t 1 cm of'a for Measurement of the Speed of UltrasOLInd b,, the OptIcal Method Bormosov, Yu. 11. arid 0. A. SzaL-c-stina. A f--r the Measuring Chamber of a Photo,~!e-~tric Api~aratu.-. Maksimov, Ya. S. atid A. 1. i-.,,.m()v. fi Generator With UltrasonJc Indleatot, Mellnikekv, A. S. Some Experiffic-z,is UL-~ Application of Electrcacoti:3tic Ppparatus Kudryavtsev, B. B. The. P., ic)n of' Belinskly, B. A. Yr;e 1* Speed Dl.,~ I Coefficient of Absc.L-Ptit-,n of Ult.rasourid Ji: Organic Acids Akulov, N. S. The Thectry (Af Phase Tranis I t Curie Points Card 6/7 217 221 225 229 257 269 279 Applicat Ion of U-1 i r~-,-srn 1 -:-; ) 111) 0117 1 -- I IM: 0 AVAILABLE: -,f (Qr i Card 7/7 TM/os 2/16/60 WITOROVICH, Boris Veniaminovich; PR=VODITELEV, A.S., otv.red.; IVANOV, V.M., rf;d. izd-va- UUT, V.G., tekhn.red. [Fundamentals of the theory of combustion and gasification of solid fuell Osnovy tooril goreniia i gazifikataii tverdago topliva. Moskva, 12d-vo Akad.nauk SSSR, 1958. 598 P. (MIRA 11:12) 1. Chlon-korrespnndent All SSSR (for Pradvoditelay). (Combustion) (Coal gasification) PREDVODIMM, Alcksandr Savvich; SAYMMOKO, Yevgeniy Vladimirovich, prof.; 1102=512VENSKIY, Igor' Boridovich; SWtffWV, YevVniy Vaaillyevich; PLEMUNOV, Aleksandr Sergeyevich (Tables of aerodynamic and thermodynamic values of a stream of air behind a direct shook wave) Tablituy gazodinamichookikh i termodinamicheakikh velichin potoks vozdukha za prismym skachkom uplotneniia. Moskva, Izd-vo Akad.nauk SSSR, 1959. 77 P. (mim 14:2) 1. Chlen-korrespondent AN =R (for Predvaditelov). 2. Labors- toriya fiziki goreniya Energeticheakogo institute AN SSSR (for Stupochenko. Rozhdestvenskiy, Samuylov. Pleshanov). (Shock waves) FRUVODITELEV, A.S., otv.red.; KOSYKH. R.I., red.izd-va; MAKUNI. Ye.Y., -40khm.X*A;~ [Physical gas dynamical Fizioheskaia gazodinamika. Moskva, Izd-vo Akad.nauk SSSR, 1959. 165 p. (MIRA 12:4) 1. Akademiya nauk SSSR. Energeticheakiy institut. 2. Chlen- korrespondent AN SSSR (f6r Predvoditelev). (Aerodynamics) MDVODITELF,V, A.S., prof.; STUPOCHMO, Ye.V., prof.; PLESMIOV, A.S.; iAKUYLOY''Ye.V.; ROZHI)ESTVENSKIY, I.B. [Tables of the thermodynamic functions of air; for temperatures ranging from 12000 to 200000 K and pressures between 0.001 and 1000 atmospheres] Tablitsy termodinamicheskikh funktaii vozdukha; dlia temperatur ot 12000 do 200000 K i davlenil ot 0,001 do 1000 atmosfer. Moskva, Izd-vo Akad.nauk SSSR, 1959. 229 p. (MIRA 13:2) 1. Chlea-korrespandent AN SSSR (for Predvoditelev). (Air) (Thermodynamics) PRBDVODITEMY, A.S.,prof.; MT.ODZEYEVSKIY, A.B., prof.; ZAYTSEVA, M.G., M.S., tekhn.red. Ivan Filippovich Usagin. Mosk7a, 1959. 297 P. (MIRA 12:10) 1. Hoocow. Universitet. Fizichaskiy fakulltet. Kabinet istorii ,fiziki. 2. Chlen-korrespondent AN SSSR (for Pradvoditelev). 3. Fizichaskiy fakulltet Moakovskogo universiteta (for M16dze- yevakiy). (Usagin, Ivan Filippovich, 1855-1919) ro F 211 Fla LV, in ;t7 R-9 83638 S/081/60/000/015/004/011 A0061AOOI Translation from: Referativnyy zhurnal, Khimiya, 1960, No. 15, P. 45, # 6o442 AUTHOR- Predvoditelev, A.S. T-1=': On the Propagation of Acoustic Wavd in Rarefied Gases PERIODICAL: V sb.: Primeneniye ul'traakust. I issled. veshche-stva,. ',11-. 81 Moscow, 1959, pp. 19-62 TEXT- The author analyzes equations of motion for a non-.deal dense medium assuming that the extrapolation of the generalized E-Uler' equaticn ip to thermal motions is admissible. The specification of the Nevier-Stokes equa- tions is discussed for the case when the velocity gradients aicng the length cir the molecular free path are not equal to zero. Equations are derived for the motion of a medium having the properties of a non-ideal continuity equa-~ from which an equation for the sound velocity in a non-ideal dense medium 1Z derived. The equation obtained Is correct for any rarefied gases. Mon,,atcmic gases are discussed in detail and an equation is found for tile s~u_nd abz,_-rpt::n coefficient. The continuity equations which are correct fo-r '~he stai5!.-_c system established can not be applied to describe macroscopic processe-i prrloeed- Card 112 83638 S/081/60/OCO/O 15/cOLIC, V, A006/AOOl On the Propagation of Acoustic Waves in Rarefied Gases ing at a rate which may be compared to the relaxation per!,:~d. Tneref-.re eq~-,-a- tions of relaxation aerodynamics are derived and from the la-.~er an ftr the sound velocity and the absorption coefficient is fcund. Die expre-z-=- ff;r the coefficient of sound absorption in monoatomic gas permi-, s a with. the experiment. The derivation of the la-~ter expression iS ba---ed c~n assumption that there is some concrete mechanism of transition of *,'-- acoa-~t.-'C- mction into heat, which is not considered as absolute. B. Kud--yav--c:ev rr'ra. I -- nsial-or's note: This is the full translation of the original Ru~ziari abstract. Card 2/2 SOV/24-59-2-24/30 AUTHORS:Kastelin, O.N., Mit'kina, Ye.A., P--edvoditelcv, A.0-.(Yoscow) TITLE: Melting of Bodies in a Supersonic Current (Flavleniye tel v sverkhzvukovom potoke) ]PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye te-Ichnicheskikh nauk, Energetika i avtomatika, 1959, Nr 2, pp 140-141 (USSR) ABSTRACT: Cones of Woods metal were exposed to a supersonic air current at Mach 1.7. The cones varied in height from 9 to 33 mm and in angle from 10 to 50 degrees, and their melting was observed photographically. The maximum disintegration occurred at the nose shock wave, and the melting occurred with constant velocity, independent of the angle of the cone. There is 1 table and 3 figures. SUBMITTED: October 141, 1957. Card 1/1 o5na .0.9), 24(l) AUTt"R, Y..S., C..dId,t. f Technical S,le.- the of flit--d I. the TITLR, A Se' .,t- Us, TWIODICLL, I-xtty. 1..htkb cl,.b.y%h Rdi.t.Unike, 19,10, V.1 1, .14, 3, p 3116 (t=R) SIMMACT, Pree, February 10-14. 1050, the 31weath Scientific Conference on tb: Application of Ultrasound far the of Patter -I. Was.- at the M-k-ki7 Obl..t'..7 p.d,g.gi,h- tit:4 I'ly i=, t. i-i M.K. K-P.U.7 W'- Oblast P.da,.4ic.i t..ti- tat,iverni M. .11, -, 500 111. 1-t-t... fr- 1--c-, L-,;,-d. Krau-7-re-1, Xamme., StnIicr%d,..d scientist. I- the :_ r.wrati. Re bit. and Poland par(i.l a'.'- race -". or. Lh-PISO paper. -:t-d at Kg ... tion. vur, r,-i. cut,:: or t su-tic., industrial p,,Ii.It thud., ;,-pg%ti- of ultrasound i:.dolid b.dl... dro-t-ti.. of c.- ti..l ph-on I. school. Mae.. At the first plenary session, Cued I/* the pp.r or 11Padre, road MysleaIPrinct.,I- of T.ch- '77~7,77,.ZZZO A-lit.d. Cadry-t- rpap:r.-The A4,plicstion of Ultra, no a- *.rtrr_. Th* ;:dlhi -.d I I I s,,ins p p re vere rold at the plenary -8j at -,,* ,, d I- in P-ri.,j it_ of Sitic. G.1 It.D. Pl,cwtion of, the L:OsInd ri-ti-.-. N, llvo' , Poland, -Th I.en In, KI.-Li. n.11Y f Ga... to t,,. Pr!b_ I -Verb. "th of "7h. rh..ry W. ap~%p r f Professor r. Kitch,r, pol- and. U.-rch in th i;ld If It--,-d ease quids eas th, aahj. :tC. the Papers of B.D. aO.A. &-.tima, V.11. Za!--ft. v.D. K.- yy-- ,:." -,d.,,- Shirk-L.S. L.P. V-sheb jim,N.L. X.A- (;. 1. - Thy^per Jointly pro--'need by D.D. Xudr"rt.*v, V.F. Ndrew,Na "" and V.r_ Y.1-1- - d.,.t.d to the cb- .id.ratless -blecaut In the develop,*nt of molecular cous es. -t K L, De.t1tatlward d.li,;.r*d .-p-Li th.,dy.1-i. .9-ti.. .( the . r . _.g , c. -It a"tI. . l1q. 7h , -out* ..cill.ti... rd 2/3 were subject of the reports of Th.M. 7ystrov. X.S. Trafiniv, A.I. L-.hik.,, L.P. Lap.-clk.; hem, . .4 ;%.%'. Th. "part or L.A. 01, ban y, A.T. 11, d,Iat- h -d other. dealt with f alt--d in old- Aug- Ls the of the P-p - of th;.rolpavtng authors vere rmd, D.l. U117anovj V. T Lo:r I A. - - 1: III Ir and T. Xoralwa. These reports dealt tthl' Put- ei n;.r- Lag d, or I, *city d absorption If It--*-d* Th, rp, Iasth, .1 It ._d :a Jct . he r.. Irall in lid bodies va. the subr ;,t. f L.G. Merle. Ch.rk..hi., L.A. W:-I.,,.A*!;tDr1,',I1, A.K. MALT-7'er "d the action dealing -ithI c' Id..I I r. d.111- utration at school. ad the full"ing d, -U.A.-Grob-1,17 and vAt_T*P*"" of UltrasoundIW.1 I. ntal IN-onstr. tt In of I. ftdi-t- for 0-,.,Lrt on Card 313 :..d t 11 YX h-.d the ri.- Ing 1.1, - - - t I. problems or applying It ra: -Od to the i-stig.- it- of mtt.r. The number or participants and the m=ber of sub- 3UUbaTr=t ASP_~i,13, 1959 J.ct. I. ri.i.g steadily. 5(4) SOV/20-127-3-35/71 AUTHOR: Predvoditejey,,.A...,5., Corresponding Member, AS USSR TITLE: On the Theory of the Adsorption Wave. The Dependence of the Patiguo Layer of the Catalyst on the Rate of Gas Motion and on the Thickness of the Layer PERIODICAL: Doklady Akademii nauk SSSR, 1959v Vol 127, Nr 3, pp 602-605 (USSR) ABSTRACT: In the present paper the motion of a gas through a porous adsorbent of cylindrical shape is investigated. The following processes take part in this motion: The.diffusion of the gas on the surface of the adsorbent grainB,-the adsorption on the surface, the chemical reaction occurring-thare, the desorption of the reaction products and their removal from the adsorbing layer. All these processes influence the-rate distribution of filtration. The process develops in a front like the burning of a coal layer. This front is characterized by a certain rate, i.e. the parameters participating in the process are not themselves dependent on time but only on the position of the front at an arbitrary instant. Thus, individual varia- tions in the process may be expressed, like that of the Card 1/3 density Q in dependence on a variable ~ - x/t. The filtration On the Theory of the Adsorption Wave. The of the Catalyst on the Rate of Gas Motion Layer Card 2/3 SOV/20-127-3-35/71 Dependence of 'the Fa%ig-ue Layer and on the Thickness of the rate would, in this one-dimensional case, be: m~ dQ - d(QW) W - filtration rate, m - porosity of the adsorbent). By inte- gration this results for the two instants: 1) Penetration of the front surface through the adsorbent layer. 2) The position of the front when it begins to move at constant velocity g). Equations are thus oMined from which g may be c, culated: 9 ~ W + 1 Q dj + gk. M Tq~~27 m (2) In this expression gk is more closely investigated; 9k ex- presses the mean velocity of the front at the beginning of adsorption in a small layer d k up to the beginning of the constant velocity . For this purpose, the time T is determined, which is required for the complete penetration of the front through the adsorption layer. T depends on W. It follows herefrom that the filtration rate depends only upon the physi- cal nature of the adsorbent. For this purpose, the influence of the grain size in dependence on the thickness of the SOV/20-127-3-35/71 On the Theory of the Adsorption Wave. The Dependence of the Fatigue Layer of the Catalyst on the Rate of Gas Notion and on.the Thickness of the ~mfyer adsorbent layer upon the time T is briefly investigated. There are 4 figures and 1 Soviet reference. SUBMITTED: March 30, 1959 Card 3/3