SCIENTIFIC ABSTRACT KAPUSTIN, A.M. - KAPUSTIN, I. (YAKUTSK, UAORW)

I 'n g devi cc o W'A. a t) r -Lrtt 4- 0 a flow. Trudy OMITT 38:2j.-.26 (MIRA 18*18)  KOUSTIN, A. P. PA lYf6l USSR/Dielectrics Jan 1947 Radio vaves - UBF 'Dr,idels Second Method Applied to the Measurement of Dielectric Fermeabilities and to the Determination of Dipole Mcments in 10-cm Waves," A. P. Kapustin, 10 pp "Zhur Ekep i Teor Fiz" Vol XVII, No 1 Xeasurements of the dielectric permeabilities of various binary system with a specially designed nagnetron with a ribbon circuit. 13T61-  of t of 00 go, mom !Im d (C.A., r POA Im 0 ku fte soft bm lp QAw --A" now WALLURWAL WINAIM CLAtWICAIM JI u so 0.4 ii ;A.;,*; all 0.0 . M M M a 0.01%. ;0U 0 Awlk Aml, 1.0in ImA OADIO 0.1 Omlo. 'I IAM. 1.0187, a wkb ff U(h_ hr do Mink tbb' SW At mummmummw mm~ do wMbAineVii. Mms I I k mom CO- V mom. tcushm" 4 som r 0 tew bumbvd The obm%lw N. Tbm Isom NOMOV a lid 0 w v I v N 9.9 6 2 go so 00 so of 00 so Of 00 so 00 so 00 lbe IS 0  -7 .......................... ~s Ultrasonics :Mly/jun 5P ~119xperimental Investigation of the Influence of,, ~.'Uitimoonics on the Kinetics of Crystallizaiionj- ,A; P. K"ust1n, Inst of Crystallography,, Acad Sci US9R '1z Ak. NaUk, SSSR, Ser.Fiz," Vol XIV, No 3, PP 35T~- iEstablished that ultrasonic irradiation of organic 7matter hom6genizee it and leads to finer cryst istructure and. greater strength of material. ;:F6und upper and lower efficiency limIts of ultra~- ..sonics on crystn. Clarified the influence of 187T81 itISSR/Physics U3.trasoxdca MaY/Jun 56', (Contd) i rasonic fld on distribution of adrdxts within ,alloy and the accelerating action of vibration "Of:container vall on solidification process. Siabmitted Feb 49 at a se'ssion of the Inst of Crystallography, Acad Sci USSR. P4 E-4  A. P. b~i OPP- W" d am ad" the "me 30 =W. im As a at dis &W, a Rb L-.483-10, of lbstolatW. T~t girticture of the "Id Is all, wkbM a ON. big* bomeg-Ollus with lk liseas at the tals of thr ' t Only towards OW rubt.sWlapCtW1 IMI lowfull &W bottom, at an &morva. rate al OD mm./aec.. wbervis in the aboem of a Gaikbed Is uneves am mom in an Wrep- kr mouser. The,'apAnd" dowairad motion of the crysts. frat boos at SM SIK. OW 11~11 If aPPIW to OW o8dilat ="I, of 0.6 kv am. i'HK further of the sp alteardw at E - O."T kv.1mos. If t- --Wok Is turmd of crystn. be- conics tuemicati ajid a eked d Very aft ;;;tallites Is we to fWas a, - I bdow tbe bomedw-7 and to sinvad towardis tM ~ bettens. lWdw wM obwr%-cd witb "Clid 6.--Pb--7-7. N. 71mn  KAPUST3Nj A. P. PA 165T84 USSR/PbW*ic'4..- Ultrasonics ~11 mar 50 ~Jnfluence of Ultrasonics Upon the Phenomenon of or- thotroplem in Organic Substances," A. P. Kapustin I'Dok Ak Nauk SSW Vol LKXI) No 2) PP 273-274 Describes experiments on organic substances that graphically shov influence of ultrasonics upon ortho- tropism and also clarify possibility of complete elim- ination of structure of"columnar zone or itb minJmiza- tion. Submitted 15 Nov 49 by Acad N.'T. Gudtsov'. l6n8k-  KAPUSTINp A. 08 Pbpl i, 21 mar 50 C tals "Obtaining- the- Teitdre " in Crystallic Substinces With the Aid of Ultrasonic Waves," A. Kapustin "Dok-Ak Nauk BBSR7 Vol LXXI, Iqo 3, pp 451-452 "Tekture)"is Preferential or 'pirincipl oriintii- tioh,of crystiL16-in poly~rystallic-aggregat6_. In- tikest in,6btiInIng--te*tureb`is connicted'4ith7- fiL~t-that--tb:oi6aa',-pr6-iii~tie's-'bf:cry6tiLl diftUnce p d4endo:n6fonly on di6position of atoms' 'In lat- tice_ but 'also- bii dimmions"bf separate'cr~ztals ind-their orientatioiC(gen6ral discuiudon). Sub- mitted 15 Rov 49 by.Acad N. T. Gudtoov. PA 165T85 165T85  I~IPIOSTINJI A. P. "Influence of Ultrasonics on Cr7stallization Proce--ses r~a-d at ti-le held n I,eniii,rad 1-3 51 c.-nferenco of the Acoustics Corrxdssion AS USSP 1.7-2161o, 25 Feb 52  WUST114i A.' ]~.' ffbqperimental Investigation of the Effect of Ultrasonics on the Kinetics of Crystallization." Sub U Oct 51j, Inst of Physical Chemistry~ Acad Sci USSR. Dissertations presented for science and engineering degrees in Moscow during 1951. SOs Sm. No* 480j, 9*May 5%  IT-P. lc of I I'llf nir, 00 'h~ Ink.*Ak ... K-Mil Nauk, 9631' Infikow"re " p8 K.11,jokill. (,,, A~. - . . livollon. , I S,., ., 191 . P. .,.11. J)" % I.,I  KAPUSTIN, A.P. Crystallization Effect of very high frequency sound on the speed of crystallization. Vest. AN SSSR, 21, no. 12, 1951- Monthlj List af Russian Accessions, Library of Congress, May 1952, UNCLASSIFIED.  KAPUSTIll, A. F. -- 17o-Tlv4- - ---- - -  Shot of wam m the dWiloodw of v&w a mM addWs of thmitim brindde 011"V Klassen-NAftudors and A. P. Kapu ,in sci. U.. S.R., Moscow). Poklady Ak". Saik sj. R. 7. a crystal 0( cubic TIBr + ,n know for its wery hisis pholurlasticity (.1~40akula And Kirin, CA. 43, ftVj), gnwn by abrupt e4wA4is mt As to leave diainct reddual stresses visible between crossed = q w-k fidd o1 720 hilobertzes, 5 the crystal axis, resulted in a Scient t disappearance of the isochroum, with the whole crysW becoming tuort or lem unifortaly transparent. and the strm pattern stpg. into discrete regions, nactuating during the "=" on rcmyal of the field, the original pattern is re- 11 in front less than I to 2'") sec.. depmilins an the length of the expomm. The effect Is evidently due to addul, stresses protluced by the supersonic field. Small variations in the suiwrwmic vibration of the quartz Sen. emlor give die to an iubtantaneous change of the stress pat. tern. This effed opens the possibility of using TIDr + T11 as an Indicator of the resonance stability of a supersonic generator ystern. N. Than  ed 1~t'~Giiiwd on the trntaulnuon It SV6-~ _ _ ti F4. 5"1Z T A. V. KAUM rk, Z*Vr. 4rkkl Z2, 76, T tj T V~2f. -~Tbe process of trystri. of ben)*- pbtnone " (1), (11). thMol (111), piperorm N). S, Wol M, aq. Sol". of NWACI (VI), and condensed milk (W) (in thin films and in bulk) wvs ob~ smed.*ith a polarization mkroscopt equipped with a _catnezix. :According to. their responses to the ultrasound these substances could be divided into 2 groups. Jn the n6fly formed cry'stallites- this process.was diretAly proportional to the intensity, of the field. ~ Thevystaiv vrere pushed, upwards by the vib6tions and formed a cryst. mass that filled the entire melt. This phenomenon tool place- _under various degrEes of supercooling and all the way to the M.P. -In the 2nd'group,(H, VvVI, VII) ultn'sound exised the ibre:iking 9 crystallites. Thest fragmcnis serveil-tis new centers of crystn. The appearance of the Ms of Men crysL - substances differed considerably frow the ~fthqse r4tained in the absence of the Vatru- botli kroups Was R~ at hundred Owes that under o _ ns. couditio 4- 7  OSSR/Metals - steel Apr 52 ~Dissolving Steel in Sulfuric Acid Under the Effect of. Ultrasound," A. P Kapustin, M. A. Fomina, Inet of Crystallography,, Acad Sci USSR; Magnitogork State Pedagogical Inst "Dok Ak Nauk SSSR" Vol LXXXIII, Tio 6, pp 847-849 Investigates effects of rapid mech vibrations on dissolving rate oi various substances (sugar, blue vitriol, hyposulfite, tbymol) and, in particular, on di3solving rate of steel in aq soln c. mineral acid. Experimentally establishes that stimulating effect of ultrasound on dissolving process depends to great extent on sound intensity. Graphically ,represents relationship. Submitted by Acad S. I,. Vollfkovich 26 Feb 52.   USSR/Physics Ultrasonic degasification FD-1002 Card-1/1 Pub. 153 6/24 Author Kapustin, A. P. Title Degasification of liquids in an ultrasonic field Periodical Zhur. tekh. fiz. , 24, loo8-1011, jun. 1954 Abstract The process of degasification consists in ridding a liquid or solid of gas, and bence is of great significance in metallurgical practice. Purpose of present work was to collect experimental data clarifying the mechanism governing degasification in liquids under the action of ultrasounds. Liquids studied were concentrated sugar solution, trans- former oil, and glycerine. Concludes that degasification consists of two stages (conglomeration of small gas bubbles into co4lexes and their transfer to the surface) and ceases slimiltaneously with conglom- eration of the bubbles, and that ultrasounds can be utilized as depo- larizers in galvanic elements. Institution Submitted December 30, 1953  XLPUSTIN6. SPontaneous generation of crystallization centers in a supercooled malt subjected to the effects of an eltramonic field. Uch.zap.NGPI 88:53-56 154. (KWA 10: 2) (Crystallization) (Ultrasonic -waves)  7-7 -jc hit  Category Solid State Physics - Phase transformations in solid bodies E-5 e Abs Jour Ref Zhur - Fiz#a, No 1, 1957,No 1170 Author Bagdasarov. M.S., Kapustin, A.P. Inst i Institute of Cryst3llograplfy-, -ffq-u- Academy of Sciences Title Production of Etched F~ gur es with Ultrasonic Oscillations Orig Pub Kristallografiya,-1956, i, NO 1, 139-140 Abstract A description of a method of production of etched figures in an ultrasonic field. The crystal is placed in a saturated parent solution and is sub- jected to a brief (on the order of 2-3 mimLtesl Irragation in a-veak ultrason- Ic field. The etched figures are o'bt&ined on thi f6ce of alumo-potassium alums, on the cleavage plave of a benzophenon crystal, and on a piLace of a potas- sium bichromate crystal. Card   AVKMWIYV, S.I,,, doto.; VOLKOVA, Z.T., prof.; KAPUSTIN, A.F., prof.; VOIDHW, V.L., takhn. red. [Programs of pedagogical institutes; general'physics for lehysice and mathematics faculties; major: mathematics and physics] Program- mW pedagogicheskikh institutov; obohdhaia fizilm dlia fiziko- matemftcheskikh fakalltetov (spetsialinost I - matematilca i fizika). Moskva, Goo. uchebuo-pedagog. izd-vo K-va prow. RUSE, 1958. 21 ly. (K33A lltg) 1. Rassis, (1917- R.S.7.S.R.) Glavnoys upravleniye Tyashikh i srednikh pedagogicheskikh uchebnykh zavedeniy. (Physice--Study and teaching)  AVKS]INTIYIN, S.I., dots.; VOLKOVA, Z*V., prof.;.. KAPUSTIN. A.Pe, prof,; VCWHRK, V.L., tokhn. red. [Programs of pedagogical institutes; general physics for physics and mathematiow faculties; major., physics] ProgramV podagogiche- skikh institutov; obehehais. fizilm dlia fizik6-Matematieheskikh fakul'tatov (spot sial Inost I - fizilm). Ikookyap' Goo, uchobno- podagog. izd-vo X-va p;oev. BZFSR, 1958. 20 p. (MIU 110) 1 Russia (1917- R.S.F.S.R.) Glavuoye upravleniye vysshikh i s;ednikh pedagogichookikh uchebaykh zavedenty. (Physics-Study and teaching)  SOV/58-59-7-16328 Translation from: Referativnyy Zhumal Fizika, 1959, Nr 7, p 243 (USSR) AUTHOR Kapustin, A.P. ,y TITLE: n Effect of Ultrasonic Waves on CrystallizatioVand Dissolution Processes PERIODICAL: Uch. zap. Mosk, gos. ped. in-ta, 1958, Vol 138, PP 115 - 123 ABSTRACT: The article is a short survey of the author's recent studies in the kinetics of crystallization and dissolution in an ultrasonic field. Particular attention is devoted to questions of crystal nucleation and the effect of ultrasonic waves of various frequencies and intensities on the rate of growth and dissolution of single crystals and poly- crystalline aggregates. K.S. Aleksandrov Card 1/1  -h-A) ft, 24(2) PHASE I BOOK EXPLOITATION SOV/2353 Akademiya nauk SSSR. Institut kristallografft Rost kristallov, ton. 2 (Grovth of Crystals, Vol. 2) Moscow, 1959. 238 P. Errata slip inserted. 2',000 copies printed. Flesp. Eds.: A. V. Shubnikov., Acadezician.,.and N. N. Sheftall, Doctor of Geological and Mineralogical Sciences; Ed. of Publishing House- K. S. Aleksandrov; Tech. Ed.: T. V. Polyakova. PURPOSE: This book is intended for scientists and researchers engaged in crystallography and in growing industrial monocrystals. COVERAGE: This in the second of two volumes on crystal grov h. The first volme contained reports delivered at the First Congress on Crystal Growth. The present volume also contains an extensive study of corundum synthesis by S. K. Popov [deceased]. These studies reflect the developmnt of Soviet research in crystallography.in the period following the first congress. The studies contain some essentially new results obtained by Soviet scientists. The editors express the hope that these studies will unite the efforts of Sov- iet scientists engaged in studying the process of crystal growth and in grow- Card 1/5  Growth of Crystals (Cont.) SOV/2353 ing industrially valuable monocrystals. No personalities are mentioned- Refer,ences are given at the and of each article. TANZ OF CONTENTS: Foreword 3 I. THEORETICAL AND EXPERIMENTAL STUDIES Ehaimov-Mallkov, V. Ya. Thermodynamics of Crystallization Pressure 5 Khaimov-Mallkov, V. Ya. Problem of Experimental Determination of the Crystallization Pressure Value 17 Khaimov-Millkov, V. Y&. Growth Conditions of Crystals in Contact With a Macr6obstruction 26 A tin Y& tin A, and V. Ye. Kovalyunayte. Crystallization of Alum r ous ml-qq~uweous Solutions in an Ultrasonic Field 40 Card 2/5  Growth of Crystals (Cont.) SOV/2353 Slaynova, Ye. N. Adsorption of Thionine Blue by Growing Crystals of lead litrate and Its Effect on the Morphological Properties of the Crystaln 44 Nelankholin,, N. M. Growth Form of Crystals of Thiazine Dyes 49 Tsinober., L.I., L. G Chentsova, and A. k. Shternberg. The Green and Brown Tint of Synthetic Qxartz Crystals 61 Yawntsev,, I. Ye. Crystallization of KJ on a Biatite and Muscovite Surface 68 Belyustin,, A. V. Possibility of DaterAining Surftn Energy of Crystals From Equilibrium States 70 11. GROWMG OF MNOCRYSTALS (APPARATUS,, WMDSO summon" WORK) T&shpar,, Tan. Growing of Calcite and of Other Carbonates 73 Qpendiarov, N. N. , and B. S. Alsksan&-ov. Growing of Anthracene Nonocrystals 78 Card 3/ 5  Growth of Crystals (Coat.) sCYV/2353 Popova,, A. A. 9rientation of Monocrystals of Certain Ferrites 84 Timofeyeva,, V. A. I and A. V. Ulesskiy. Crystallization of Ferrites From Liquid and Gas Phases 88 Tisofeyeva, V. A. Studying the Process of Barimm Titanate Crystal Growth in a Fwwd Solution With Bari-= Chloride 95 Bel.yayev, L. M., a. S. Belikova, and G. F. Dobrzhanskiy. Anarstus for Growing Organic Crystals From a Melt lo2 Boksba, S. S. New Type of Pistonless Compressor for the Production of Extremely High Gas Pressures 105 ChumLkov, A. A. Groving of a Benzophenone Crystal and Its Morpho- logical Symmetry log Sinyukova., I. A. 2 and L V. Stespanov. Synthesis of Ixtrapure Salts of Calcium Fluoride and Barium Fluoride for'Growing Cptical Monocrystals 3.15 Kokorishj, Ye. Yu. Effect of Cooling Conditions on the Creation of Dislocations on the.Creation of Dislocations in Germanium Crystals 120 Card 4/ 5  Growth of Crystals (Cont.) Sov/2353 Rez, I. S., and L. A. Varroloneyeva. Guanidine-aluminum x4lfate-bexabydrute (Syntheslo,, Growing of MDnocrystals, and some Properties or the Monocrystals) 126 Kokorish, X. P. Crystallization of Gerwisnium. on Silicon and Silicon on Ger- manium 132 Popov,, S. K. Growing and Certain Uses of Corundum Crystals 14o Ill. MMYS AND DISCUSSION ARTICIES Kokorish,, Ye. Tn. Dislocation in Germi= Cryst&Is (Survey) 211 Slavnova, Te. N. MIAin Trends in the Sti;dy of Mixed Systent Inorganic Crystals - Organic Admixture (Sur"Y) 223 AVAnAKE: Library of Congress TK/fai Card 5/5 9-9-59  AUTHOR: .Kapustin, A.P. SOV/70-4-2-35/36 TITLE: The Discovery of Dislocations Ultrasonically (Obnaruzheniye dislokatsly s pomoshchlyu ul'trazvuha) PERIODICAL: Kristallograflya, 1959, Vol 4, Nr 2, pp 265 - 267 + 1 plate (USSR) ABSTRACT: It is difficult to discover the exact etching conditions which will show up individual dislocations so that ultra sound was applied to the process of otching. Singlo crystals of LiF woro irradiatod in wat2r. Tho fri?quoncy was 25 kc/s and the intensity 0.5 W/cm . The crystals were freshly cleaved blocks about 1 x 0.5 x 0,2 cm and were stuck on the ends of wooden rods. After irradiation for 15-20 minutes they were examined with a polarising microscope. -Chains of pyramidal pits were observed. The same results were obtained after cleaving on different faces. On prolonged irradiation the pits become oval and there are more near the edges than near the eentres of the faces* Deformed crystals of LiF were then treated and also crystals struck by an electric spark. Similar Cardl/2 results wer'efound for other materials, the density of ~7F k, - MORE 0, R IBM -MM iS' _50 I'M 1" i  SOV/70-4-2-35/36 The Discovery of Dislocations Ultrasonically etch pits increasing markedly after deformation. There are 4 figures and 2 referenees, 1 of which is Soviet and 1 English. ASSOCIATION: Institut kristallografii AN SSSR (Institute of Crystallography of the Ac.Sc, USSR) SUBMITTED: December 1, 1958 Card 2/2  5(4) O-OV/69-21-3-7/25 AUTHOR: Xapustin,.A.P. TITLE: The Preparation of Highly Concentrated Lithium, Potas- sium and Sodium Concentrations in an Ultrasonic Field PERIODICAL: Kolloidnyy zhurnal, 1959, Vol XXI, Nr 3, pp 289-291 (USSR) ABSTRACT: The author reports on results of experiments intended to provide highly concentrated lithium, potassium and sodium concentrations with the aid of ultrasound. Lithium was dispersed in vacuum oil, potassium and sodium in kerosene. The dispersion was ca;ried out in a silica tube of a capacity of -_100 cm~'. In order to obtain mechanical high-frequency vibrations, a piezoquartz generator with a frequency of 700 kilo- cycles and a vibrator with a frequency of 25 kilo- cycles were used. During the experiments the audio - 2. power did not exceed 5 W/cm The author studied Card 1/3 four factors, vfrLich detei-mine the dispersion process:  SOV/69-21-3-7/25 The Preparation of Highly Concentrated Lithium, Pot-assiun and Sodium Concentrations in an Ultrasonic Field the delay time of the matter in the ulll-rasonic field, temperature, frequency and intensity of the ultra- sound. Previously to the treatment with ultrasound, the matter was cut into pieces of -1 cm3, which were put into the tube fill,,od with the corresponding liquid. The experiments showea that treatment with ultrasound at room temperature was inefficient. Good results were only obtained :,!hen the matter was heated to near the melting point and treated with ultrasound of maximum intensity. In the. case of lithium, a sus- pension %,dth a concentration of 0.2 g/ml was ob- tained. Treatment of the metal at a frequency of 2") kilocycles showed the same results. Under unchanged experimental conditions, the quantity of dispersed matter, however, proved larger than before. The ex- periments vrith sodium and potassium, essentially led Card 2/3 to the same results. In the case of sodium renewal  SOV/69-21-3-7/25 The Preparation of Highly Concentrated Lithium, Potassium and Sodiu Concentrations in an Ultrasonic Field of the liquid was necessary. Potassium has a low melting point and did not need preliminary heating. There is 1 photograph. ASSOCIATION: Institut kristallografii AN SSSR, Moskva (Institute of Crystallography of the AS USSR, Moscow SUBMITTED: 28 January, 1958 Card 3/3  -KA-ItS 1JA-1 A-' tip 2 9t 5; Z ft 'En Ix it r 1 21 IL -AK to it all 0 c -k I '0 TL jig TL  KAPIJSTIh. A. P. ; KOVALYUNAYTI, V. Yo. CrYstallizatiOn Of alums from aqueous solutions in &a ultrasonic fielle Rost krist, 2:40-43 '59, (MIRA 13:8) 1. Institut krjstaalogr&fll AN 85jR. 41um) (Ultrasonic waves)  0965 3/08 62/000/016/004/043 N. Ko 6 B168XB186 AUTHORS: Baj~dasarov, Kh. S., Berezhkova, G. V., KApustin., I.. P-~. TITLE: Growing of single crystals of zinc in an ultrasonic field PERIODICAL: Referativnyy zhurnal. Khimiya, nb. 16, 1962, 30, abstract 16BIBO (In collection: Frimeneniye ulltraakust. k issled. veshchestva. no. 12,' M.9 196o, 41-44) TEXT: Investigations (RZhKhim, no. 2, 1953, 3762) were continued with a view to clarifying the effects of the ultrasonic field on the distribution of dislocations. Zinc crystals grown in such a field by Bridgmants- methQd were tested for compressive strength before and after-calcination at 3500C, and crystals not grown in an ultrasoni6 field, but only irradiated# were also tested. The reasons for the former being stronger than the latter are discussed. From a comparison of the compression curves for polyarystals and single cr~-stals it is concluded that the toughening effect is due to increased block structure in the crystal grown in an ultrasonic field; this is indicated also by Laue diffraction patterns showing the reflex bifurcation characteristic of the block structure. Card 1/2  S/081/62/000/016/004/043 Growing of single crystals of zinc... B168/BI86 The fact that crystals grown in an ultrasonic field have a large number of block boundaries indicates that in these crystals the dislocation density is higher than in those grown under-normal conditions, and it is suggested that this effect is one of the reasons for the increased strength. LAbstracter's note: Complete tr anslation.) Card 2/2-  WIN, A.R.; KAPUSTIN A.P.., KOM., I.A:;.POPOV I.V.; PROZOROVA N.A. --i.`ff.,--CHIKHACHEV, S A ; 60OLOVP SAUid:R ~, R.I. ( de ceasepd .doktor geol-mineral.naukjotv.red.; SPRYGINAp L.I., red.izd-va; SUSHKOVA., L.A., tekhn.red. [Karst 1? nomena near Dzerzhinsk, Gorkiy Province] 'Karstov iavlaniirv ra~one goroda DzembinskaZor1kovskoi oblasti. Mosk;m, Isd-vo 1~kad.uauk SSSR., 1960. 121 p (Um.demiis 'hauk SSSR. Laboratoriia gidrogeolodicheakikh problem. Trudy v61. 32) (Dzerzhinsk:ii9io`n~z(Gorkiy Provi --Plarst~  36422 S/ 13 7/62/000/0 0 3/0 G 8/191 C). AOM/Aioi AUTHORS: Bagadasarov. Kh. S., Berezhkova, G. V., ~ TITLE: On the problem of growing single-ci"jstals of zinc in an ultrasonic field PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 3, 1962, 19, abstract 3A101 (V sb. "Primeneniya ul'traakust. k issled. voshchestva", no. 12, Moscow, 1960, 41-44) Zn single-crystals were grown by the Bridgeman method in sealed glass tubes of 3 4 mm in diameter. After the upper portion of the crystal, ':he ultrasonic oscillator was switched on. The displacement speed of the single crystal in the furnace was 37 =Vhour. The test temperature was 52OU C. Speci- mens, 7 - 8 mm high, were prepared from the grown crystals to determine comprGs- sive strength. It was established that the strength of crystals, groi-m in an ultrasonic field, increases considerably; for instance, the elastic limit is raised by about a factor of 6 as compared to a crystal grown without a8plication of an ultrasonic field. An investigation of specimens annealed at 350 C, grown in an ultrasonic field, and of specimens-which had been merely subjected to Card 1/2  S/137/62/000/003/008/191 On the problem of growing ... A006IA101 ultrasound, shows that the strengthening effect is removed only in the latter case. In the former specimens, the presence of a great amount of domain boundaries in the crystals proves that in these crystals the dislocation density is higher than in crystals which had been grown without applying an ultrasonic field. T. Kolesnikova [Abstracter's note: Complete translation] Card 2/2  IKAPWTIN A.P.- KGVAL)!UXAYTB, V.Ye. Growth of potassium alum crystals in an ultrasonic field. Kristallografiia 6 noo5.'805-807 S-0 161. (,%MU 141. 10) 1. I~stit t kristaUoprgfJl AN SSSR, crystale"mm4h) (Ultrasorxic waves)  KAFU-9TP-,AlekAmidr-Z&V1mdch- IMCM, Gj.G*v-.pVf,# retsenzeAF--- KUDRYAVTSEV,, B.B.t pr4f., retsenzent; SDMIXKOVA,, I.S.., red. izd-va; SHUIMIIOV) Aj. akademik, otv. red.; SIMUM.,G.S.,teldin.red. (Effect of ultrasound on the kinetics of crystallization] Vliianie ulltrazvuka ne, kinetiku kristallizatsii. Moskva, Izd-vo Akad. nauk SM 3.962 * lo6 P. (MA 15:3) (ultruonic wawsi' (CryoUls-Growth)  KAPUSTIN, A.P.; DMITRIYEV, L.M. Effect of ultrasound on the domain structure of liquid cz-jstals. Kristallografiia. 7 no.2:332-334 Mr-Ap '62. WRA 15:4) 1. Institut kristallografid. AN SSSR. (Liquid crystals) (Ultrasonic waves)  UPUSTIN, A. P. "Growth kinetics ana dissolution of single crystals in an ultrasonic fiela? report submittea for the 4th Intl. Congress of Acoustics, Copenhagen, Denmark, 21-28 Aug 1962.  S/Q70/6MOb-7AQ4/oo 9/ol 6 B132JE455., AUTHORS: Kapustin. A.P., Kova'lYunaytb,'V.'Ye.-" TITLE: The generation and develppment.of, centres.,of crystallization in solutions of ppta,soium,a,~uminium, alums in. ultrasonic . fields !J PERIODICAL:.Kristal lografiya, v.7, no'.4'. 1962;, 611*3-6,1'5' It TEXT: A series of experiments on the precipitation of supersaturated aque�us solutions of potassium aluminium alum by ultra sonle waves have been made. It is shown that precipitation takes place whether ~there is a seed or not. In the latter case it is important whether the seed is put at a node or antinode of ,thp standing wave system..- If the seed is at a pressure, antinode precipitation is seven time.-~; faster than if there is no seed. A frequency of 30 ke/a was used with an (acoustic) power of 0.42 W/CM2. Control experiments with simple stirrings,were performed. There.are 4 tables. ASSOCIATION: Institut-kr-istd1lografii AN SSSR (Institute of Cr - llb'grapliy'AS USSR) SUBMITTED: September 22, 1961 ,, ?7't~ , , , .1. 1 - 1. Card 1/1 Jj WE- 0 70 '-61-110 0-7 A 0Y /V/ 4 - 1o)4  PHASE I BOOK EXPLOITATION SOV/6022 Kapustin, Aleksandr Pavlovich Vliyaniye uIltrazruka na kinetiku kristallizataii (Effect of Ultrasound on the Kinetics of Crystallization) Moscow, Izd-vo AN SSSR, 1962. 106 p. Errata note included. 3200 copies printed. Sponsoring Agencyt Akademiya nauk SSSR. Institut kristallografti. Reap. Ed.t A. V. Shubnikovj Academician; Ed. of Publishing House; I, S. Sbitnikove; Tech. Ed.:, G. S. Simkina. PURPOSE: This booklet is intended for specialists investigating problems of nucleation growth and dissolution of crystals, and for teachers in qchools of 4gher education. GOVWGEs The booklet deals with the work of the author and his coworkers in the experimental study of crystallization and dissolution in ultrasonic fields of various intensity and frequency. It also describes the phanomona occurring Card 1/0 --.-?  Effect of Ultrasound-on the Kinetics (Cont..' SIDV/6022 in crystals under the effect of ultrasound. According to the Introduction, this-booklet repres-ents.the first attempt to explain briefly the most im- portant experimental material on the kinetics of crystallization in the ultra- sonic field. The author thanks Academician A. V. Shubnikov, and Professors G-G. Lemleyn and B. B. Kudryavtoev for their valuable comments. There are 87 referencest 59 Soviet, 16 Germanp 8 English, and 4 French. TABLE Of CONTENTS: 'Introduction 3 .Ch. 1. 1-%thods and Squipment for Studying the Crystallization and Dissolution of Substances in the Ultrasonic Field 7 1. Formulation of the problem 7 2. Selection of a substance for the observation of crystallization 8 3. Ultrasonic radiators. Wave guides 9 C ard 2/V Z  KAPUSTIN, A.P.; KovALYUNAM, V-Ye- Formation and development of crystallIsation centers in a potassium alum solution placed in an ultrasonic field. Kristallografiia 7 no.4t613-615 Jl-Ag 162. (NIRA 15:11) 1. Institut kristallografii AN SSSR. (Alias) (Crystallization) (Ultrasonic waves)   L 19-749-63 7. iw~(k)/k~Ttl)/m4p(q)/EWT(m)/MIP(B)/BDS AFFTCIASI)l ESD-3/IJP(C) Pf-4;': JD 'ACCESSION XR: AT3001935.1- S/291Z/62/000/000/0347/03581 AUTHOR: Ka2ustin. A. Pi, TITLE: - Growth and dis solution of single crys!als !R an ultrasonic. field SOURCE: Kristallizatelya i fazovyye P~rekhody. Minsk, Izd-vo AN BSSR, J96Z, 347~358. :TOPIC TAGS: crystal, crystalUzition, crystallography, single, ultrasound, !ultrasonic, ultrasonics, potash alum,. supersaturation,. high frequency, low fre- I ;quency, avalanche, solution, dissolution, etching.- figure, Ioffe effect, dislocation,,: Irate of growth, rate, vibrator, i agnetostrictive ABSTRACT: The paper describes an,experimental investigation of the effect of ultrasound (US) on the linear rate of crystallization (TiRC)_of an octahedral face of single crystal (SC) of potash a1um_TP_AJ_.__TR_e_M/'*as measured with and with- :out US under otherwise comparable coi-nditions. A quartz lamina excited byan -electron:-tube 2-mcps generpLtor with a maximum intensity of -0.2 w/cm7- served as, a source*. The US was introduced through the base of the cry~tallizer which was adjacent to a trrsformer-oil surface. Each crystallizer consisted of a glass vessel, 30.0 cm with double walls, between which water was circulated to C9rd I/V  L 19749-63 ACCESSION NR: AT30.019351 maintain the PA'solutions at a constant temperature (T) within 0.10C. The di'splace- ment of the crystallization front (CF) was observed with the aid of sighting tubes which afforded a record of the position of the,faces with an accuracy of 0.01 mm. Two crystallizers with joint thermostatic hose connections were employed simul- taneously. Highfrequency (HF) US effects on the crystallization and dissolution of SC's. In test runs without US, identical LRC's were found in both crystallizers. The solution.was poured intothe crystallizers at a T 7-80 above saturation T (TS)l whereupon primers were introduced. US was ducted into one of the crystallizers. ",The linear displacemknt of the faces was marked 15-30 min after the start of the' experiment and then hourly for 13-15 hrs,'whereupon the crystals were lifted out, 'dried, and weighed. . US was found to iritensify the dissolution of the primers at T. above Ts . In a sup4rsaturated solution the LRC with US is 2 to 3 times that with-*' out US~. US exposure accelerated the growth not only of thoface on which it im- pinges directly, but also the other faces. All this applies o"nly to weakly super- saturated solutions ~`and low US intensities. At 11(gh j4tqnsitles, US results in a dispersion-of the -c-~ystal.-MAaRl's- of experiments b V.E. Kavalnnayte on the of US waves of various intensities and frequencies on the growth and dissolu-. tion of SC's of PA are related. Effect of low-frequency (LF) US on the growth of SCIs of PA. In HF US the dimensions of the primer cry!jtals are almost 3 times as great as the wave length. In LF US, they are 1 / 10 the wave length. Ln Card  L 1974gr63 ACCESSION NR: AT addition, in LF US, the phe nomenon'd caltation take 9 plaIce. However, in the ,tests,, the intensities of the US (120.2 w/cm ) were held lo",Y~ enough to avoid cavita-' tion. The crystals were placed into the pressure bulge and the node of the standing 30 kcps wave. T 22.2 to 239C; Ts 260. The relative gain in mass of the crystal' -in the US field was found to be 576 greater than outside the field. Avalanche crys- tallization of PA from a solution under the effect of US. A number of new and inter- esting 'phenomena were found in the-experimental investigation of the effect of US (f = 700 kcips) on the crystallization in solutions. At 6-80 below T., and in the presence of a small primer, the activation of fairly intense US resulted in the im-- mediate formation of a large number of crystallization- centers (CC) which rapidly filled the entire volume of the solution.. In the unstable condition of the solutio-n' in- dicated the.reby, so many tiny microcrystals are for ed-that-the-s-616li-o-n becomes .-,A M .temporarily opaque,-, xiAtil ind1vidtml1y-gk6,Win__g crystals begin to deposit on the bot- tom.__The-prercij~itating crystals are either acicular or of the platelet type. If I is than, 0.2 */cm",, the cloud of-CC's appears only with 6 to.60 supercooling; at wlcmz, ev'en 10 supercoolingis adequate. Transfer of the* p*rinier from a node to a pressure bulge of a standing wave accelerates the nudeation of CC's. These results are in good agreement'with tes'its made by M. P. Shaskoll skaya and A. V. Shubnikov. Dissolution of crystals under US. Tests were made with rystals of Cu :sulfate, hyposulfate, sugar, and thymoi. The tabulated data show an acceleration of Card 318ie  19749-63 ACCESSION NR: AT300193'5" the dissolution rate of up to 20 times of that obserVed without US. US was also ex- tremely effective in acc 'elerating the rate of dissolution of steel in-an aqueous solu- tion of a mineral acid. In all instances, the rate of dissolution under US depended greatly pn its intensity. At low intensities, US exe"rted no influence at all. Only be- yond a certain intensity value of I does the rate of dissolution increase rapidly and approaches a certain limit value. Effect of US on etching figures. In the aut thor's 'tests, the c~rystal was placed in a sa:turated mother liquor, and was exposee., to a .,short-term (2-3 min) irradiation In a -weak US field. The 0.3-W/CMZ TiS was ob- tafned'in a, Magnetostrictive 40-kcps vibrator. It is noted that etching figures on the surface of a SC appear at any stage of dissolution, which apparently ca n be attributed to an increased rate of dissolution in the defects of the crystal. It is postulated that US irradiation produces on the faces of a SC a.multiplicity of microfissur~-- 'hich serve as centers of future etching figures. This premise was substani OV, measurements of the' A. F. Ioffe effect, that is, the weakening effect exerted by the "dangerous" surface microfissur s in air and in water. The results are tabulated. Detection of dislocations in crystals with US A single-valued relationship was es- tablished between the etching figu res and the outcroppings of dislocations at the sur- 4ce of a crystal, so that the usefulness of US radiation in the detection of disloca- ti*bns was established. Orig. art. has 4 tables. C.M Qfr-,~  ACCESSION Ma.- AP4025001 3/0070/64/009/002/0297/0300 AUTHORS: Kapustin., A. F.; Larionova., L. S. TITLE: The behavior of anisotropic liquids in a.~ electrical field SOURCE: KristallografiYa., v, 9, no. 2,j 1964,, 297-300 TOPIC TAGS: anisotropy, aaisotr~pic Uqad, electrical field, mesophaseo paraazox-~ -yphenetole, polarizfng mi~6rosccpe, domaih structure, light transmission ABSTRACT: For a mespphase the author used paraazoxyphene~ole, because its~liquid- ~crystalline phase occupies a broad temperature field (28C) and it, is relatively easy to prepare, The material was placed on the glass plates of a condenser separated by a layer of mica 0.2 rm thick. The surfaces on which the paraazoxy- pll~erietole was placedwere made conductive and served as electrodes. The.entire system was placed on the stage of a polarizing microscope for optical'observation. Studies were made in electrical fields both normal and parallel to the glass sur- face* The preparatj~6n was found to change noticeablywhen ihe eleictrical field was koplied, In a parallel field the domain structure was altered at 10W V/C% C-rd 1/2  14 ACCESSION NR: AP40Z5001 0 streams beginning to, form; the fibers neAr the electrodes orienting themselves along the lines of Ae field. At higherlifields (up to 4000 v/cm)., dark twisting --lines appearad....aAending from electrodecto electrode, The intensity of trans- mitted light decreased appreciably with increase in field strength,, more ciably in the lower fields:than the higher, The coloration 6f individual parts (domains) of the meso"phase changed appreqdably with change ih field strength and change in texperature.. Houton rings were observed. From optical observations :1. Was concluded that at loli fields (100-200 v) the preparition occurs in small drops :with rippled surfaces, In greater fields strong movement takes place'and the amount, of transmitted lig1t is reduced "Uch as 40%. Orig. art. ~ has 1 7 figures., ASSOCIATION: Institut kristallografii A9,SSSR (Institute of Crystallography AN ckc ZR) SUBMTTED: l8jul63 DATE WQ: 16Apr64 FAM: 00 SUB CODE: PH NO REF SOV: 002 OTHER: 000 2 Card 2/2 7 7 777TOA.1! 7 7". T!-9-1 7.71   tht- neinatic -to the soli-&-tt-Ae- - if'-'3c 13 Nb-"ttrueture Is- 1producced  ZVFREVA, G.Ye,~ KAFIRSTIN, A.IP. -1 Measurement of ultra-acoustic; parameters in liquid-crystalline cholesterol caprinate. Akust. zhur. 10 no.1:122-123 164. (MIRA 170) 1. Moskovskiy oblastnoy pelagogicheakly InEstitut imoni. Krupokoy.  KAPUSTIN A*P.; VISTINI, L.Ke Ferroelectric properties of liquid crystals. Kristallogra-fiia. 10 no,1:118-121 Ja-F 165. (MIFU 18:3) I* Inatitut kristallografil AN SSSR.  45532-66 EWP(k)/EWT(1)/EWT(M)/T RM 13713 SOURCE CODE: C058/65/ /OM/1074/10% R66 AUTHOR: Zvereva,-G. Ye.; Kapustin, A. Pe TITLE. Investigation of the abso i ar 71d+orasound in liquid-crystal nIn-nonoxyl- benzaltoluidine SOURCE: Ref. zh. Mika Abs. 10zh497 REF SOURCE: Sb. Primeneniye ulltraakust. k issled. veshchestva. Vy'p- 20. m... 1964, 87-93 TOPIC TAGS: ultrasound absorption,, organic crystal, liquid crystal, phase transition, temperature dependence, ultrasonic velocity ABSTRACT: A pulsed method vas used to measure the absorption of sound in n*n-non benzaltoluidine in the frequency range 2-15 Mcs and in the temperature intervall -70C, including the region of the following phase transitions: isotropic liquid - nematic liquid crystal (phase transition 1) and nematic - smectic liquid crystal (phase transi. tion 2). The ultrasound propagation velocity was measured by an interference method at 2.2 Mcs in the temperature interval 80-70C. In the isotropic liquid, far from the phase transition 1, the velocity decreases linearly with increasing temperature. Near the temperature of the phase transition 1, the velocity begins to decrease and reaches- a minimum value at 75-5c- With further decrease in temperature, the ultrasound veloc ty increases. The appearance of the smectic modification influences the slope of the curve. The experimental data on the absorption of ultrasound are discussed on the Card 2/2  L 45532-66 ACC NRt AR6o13T13' :~) I basis of the relaxation theory. Ye. Sheludyakov. [Translation of abstract] SUB CODE: 2D LAk- Card 2/2  ACC N.R; j%!',6)G28l')9 SOli-ilCE-CODr--.---Li-1/0058/66/000/005/EOO'U/l~007-~-f ~"AUTEOR: Zvereva, G. Ye.; Ka-pustin, A. P. TITLE: Investig,~ttion of the absorption of ultrasound in liquid-crystal cholesterylcaprinate SOURCE: Ref. zh. Fizika, Abs. 5E47 RE,'. SOURCE: Tr. 1-y Mezhvuz. naucbn. konforentsii po primeneniyu molekul. akust. k issled. veshclicstva i v nar. kh-ve. Tazhlzcnt, 1964, 65-92 TOPIC TAGS: liquid crystal, phase transition, ultrasound absorption ABSTRACT: The authors measured the absorption of ultrasound (a)'in cholestery1capri- natc, which has a cholesteric modification when heated and a smectic modification when cooled. The measurements were made by a pulse method in the frequency region 2 -- 15 14c at temneraturez 72 -- 91C. An absorption maximum was observed near the phase transitio'n between the isotropic liquid and the cholesteric crystal (phase transition 1). in the cholesteric modification a/v2 decreases smoothly with decreasing tempera- ture, and t1hen drops sharply near the phase transition from the cholesteric to the zmectic crystal (phase transition II). The abrup 2 is due to the ,t variation of a v U appearance of the smectic modification. With increasing frequency, a v2 decreasest and the cholesteric and smectic states tend to equalize in an isotropic liquid. A 1/2  L 083 64-6? ~kCC NR: A116O28139 0 discussion of the experimental data was carried out from the point of view of re- laxation theory. It is assumed that the relaxation is connected with reorientation ofmolecule. groups in the ultrasonic field. The experimentally observed growth of the, excitation time with decreasing temperature confirms its proportionality to the size I of the molecule groups. In the liquid-crystal state, the relaxation process is due I to reorientation of the boundary molecules of the swam, which is not rigid formation.1 The investigation confirms*the existence of swarms as thermodynamically stable forma- tions in liquid crystals. 1. Nikolayeva. (Translation of abstract) SUB CODE: 20  KAFUST.-LN, A. S.. PP 1114609. Tvoreboakoe oodruaheetv9s (Pasrabotka koniptruktaii i oavoyenive proizvodotva vyaokoproizvodit. Mashin po do he kuskovogo torf;t). .-Ka34nin, Kn. izd., 1954. 4o s. s. m. 2o5m,ijog Ekz, (55 - 33) P 622-331.0025St+001-.6st SO- Kn!Lzhnaya letopstal, Vol. 1, 1955  ROUNPUNM, Hikolay Fedorovich; SHELYGIN, Leonid Al-eknandrovich; -KAUZ=v evich ,,&g ergey ZABRODINA, A.A., tekhn.red.; SOOLEVA, Ye.k., te*Rr."rel. [Atlas of peat mnehinery; types for Twohine peat] Atlas torfiauykh mashin; mashiny okakavatornogo sposoba dobychi torfa. Pod red. N.F.Rozenplentera. Monkva, Gos.energ.izd-vo, 1956. 63 P. (HM 12:3) (Peat machinery-Design)  IMILI, A.I.; KARPINSKIY, V.I.; KAMSTIN, A.S. Factory laboratories are guides to technical progress* Tranap. stroi. 24 no.7246 J2 161+.. (MIRA 18?1) 1. Rukovoditeli laboratori:v TZentrallno o nauchno-iseledovatellskogo instituta svyazi (for Imill, KarpinskiT 2. Starshiyr tekhnolog Mentrallnogo nauchno-iosledovatel'skoRo instituta svyazi (for Kapustin).  KAFUSTIN, A.V., inzh. A two-stage ash collecting system. Energetik 11 no.1:9-10 ja 163. 1 (KRA 16: 1) (Boilers)  KArIUST"IN, A. V. Ympustin, A. V. -- "Legal lelledical 7valit-tion of Injurier, of the Spine 8nd !3pimal Cord." First Moscow order of Lenin Medical Inst, II/losco-.-I, 1955 (Dissertation for De- gree of Doctor of Yedical Sciences.) SO: Knizhnaya Letopis', No. 23, Moscow, Jun 55, PP 87-104  uSSR/Pharmacology. Toxicology. Narcotics and Hypnotic Drugs V jlbj3 Jour : Rof Zhur Biol.., No 11., 15158., No 51870 .Author : Kapustin Inst : '2=%Rru_ of Central legal Mo?-~cal Examination and of Depart- ments of IAgal ModicinG and Pathological Anatomy of the Stalinabad Medical Institute Title On the Toxicology'of Nombutal Orig Pub so Sb. tr. Cyuro g1. sudebr omed. ekspertizi i Kafodr sudeba. med. i patol. anatomii Stalinabadsk. med. in-ta., 1956, vyp. 4, 67-73 Abstract Two fatal cases of nombutal (I) poisoning, following internal administration of I and 3 g doses were described. Upon anatomopathological investigation., a largo amount of white foam was discovered in the larynx, trachea and large bronchi; pulmonary edema., edema of the brain and meninges and conges- tion of the internal organs. I causes severe damage to the cerebral matter, as manifested by ectopia of the nuclei of the nervous cells., their destruction, central chromatolysis Card 1/2  KAPUSTIN, A. V0 dotsent; NAMOV, F. V. , dotsent Forensic medical evaluation of plastic operations in expertiDo on an incurable facial disfigurement. Trudy KMI no.2:W-148 160. (MIRA 15:7) 1. Iz kafedry sudebnoy meditsiny - zav. kafedroy dotsent A. V. Kapustin i lhirurgicheakoy stonatologii - zav. kafedroy dotsent F. V. NEtUMOV. (SURGERY, PLASTIC) (FACE-SURGERY)  KAPUSTIN, A.V., inzh. Mechanized unloading of milled peat from railroad cars. Energetik 8 no.9:3-4 S 160. (MIJU 14:9) (Peat-Transportation)  KAPUST.M. A.V. Diagnosis of direct and indirect fractures of the ribs. Sud.-med. ekspert..5 no.ltl4-16 Ja-Mr 162. (MIR&'- 15-4) 1. Kafedre, sudebnoy meditsiny (zav. - dotsent A.V.Kapustin) Kalinin- skogo meditsinskogo instituta. (RIBS-FRACTMM,)  KAFUSTINj__A.V,L,AD-tsent DetermincLion of sex by tissues with various postmortem changes. Trudy KGMI no.'10:113-116 163. (MIRA 18. 1) 1. Iz kafedry sudebnoy meditsiny (zav. kafedroy dotsent A.V. Kapustin) Kalininskogo gosudarstvannogo meditainskogo instituta.  EAPUSTIN A.V. the traclei Of Marpholog'chal .,hara,-teristi-s of sex chromatin in .L t, V - calls from various human U.3suea. Tsitologiia. 6 no.3:291-2`98 MT- A 164. (MI%k 18:9) 1. Kafedra sudebn,:y meditsiny Kalininskogo meditsinskogo instituta.  -1. '. GMWXXVIGH, S. ; WUSTIN, 131. Ings. - 2. ' ' ij~SR (600) 4. Feeding and Feeding Stuff a 7, Model feed house for livestock farms. Kolkh. prois. 12 no. 12 1952. 9. Monthl List of Russian Accessioas. Librsa7 of Congress, X-h 1953. Unclwssified.  KAPUSTIN, B., glavnyy inzhener Mechanized feed plants for animal breeding farms. Sell.i~troi. :LO no.1:14-17 Ja '55. (MLRA 8:4) (Farm mechanization) (Feeding and feeding stuffs)  KAPUS' AL ; KOZORE"UOVA, A.A.; HATSKIN, L.A.; STARKOV. BERBZHNAYA, V.D.; KIIL B G.V.; TITKd-Y, M-.--'-6-99UANSKIY, V.A., rodaktor; SOKOLOVA, H.U., takhnichookiy redaktor Cmauual on petroleum products in agriculture] Spravochnik po nefte- produktam v sellskom khoziaistva. MoBkva, Goa. izd-vo sallkhoz. lit-rY, 1956. 343 P. (MLRA 10:4) (Petroleum products)  KAPUSTIN B.N., glav. inzh.; GVOZDEV, T.T.j, glav. inzh.; GRIGOROVICH.. -in;'zh.; KONDRASHENKO, A.A., inzh.; AMEYEV) Yu.A.) inzh.; RYADNOV) A.A., inzh.; YEGORYCHKV) V,P,t inzho; SMIKINj B.A., inzh.,; MARSHUTIN, S*F*j inzbq KHODZHABARONOV, K.G., inzh.; FEDOSOVAI Ye.M., tekbnik)* OSIN) V.I., tekhrik; MIENOVAj, Ye.P., telcbnik; AVSARAGOVA.. G.A., tekhn1k; PASHKEYEV, D.A... inzh.; KAFUSTIN, V.N., inzh.; NAGOROV, L.A.,, inzh.; IONOV3 I.T.,, inzh.)- KOPEYKINA., L.M.., inzb.; TELEPUEVA., T.P... tekhnik; CHAKURIN., MG., tekhnik (Album of the -mechanization of labor-consuming processes in stockbreeding] Allbom mekhanizatsii trudoemkikh protsessov v zhivotnovod8tva. Moskva.. Izd-vo Giproselikhoza. No.4.(Equip- ment and supplies for the mechanization of labor-consuming processes on livestock farms] Oborudovanie i inventarl dlia mekhanizatsii trudoemkikh protsessov na zhivotnavodebeskikh fermakh. 1959 [cover: 1961. 229] p. (MMA 15:7) 1. Gosudarstvannyy institut po, proyekti.rovaniyu sellskokho- zyaystvenrqkh sooruzheniy (for Kapustin, Grigorovich, Rondrashenko., Abadeyev, Rvadnov,, T9gorychev,, Sbmellkin.. Marshutin., Khodzhabaroncrv, Fedosova., Osinp Semenova,, Avsara- gova). (Continued on next card)  KAFUSTIN,, B.N.-(continued). Card 2. 2. Respublikanskly gosudarstvenzWy institut po proyektirova- niyu sovlcboznogo stroitellstva (for Gvozdev., Pasbkeyevj Kapustin,, V.N.: Nagorov, lonov, Kopeykinal Telepneva2 Chakurin). (Agrimdtural machinery)  '. I I., k I - -- I I I ,I J. 11 Fk rT - j , r - ,j YANOVSKIY, H.I.: KAPUSTIH,,R!~S.; NOGOTKOV-RYUTIN, V.A. The nothod of rapid 49termination of molar radioactivity during chromtography of Cl labeled games. Probl. kin. I kat. 9091-398 157o (Radioact ivity-Measurement ) (MIRA 110) (Gassm) (Chromatographic analysis)  KAPUSTTJI~ E. A. (Zhdanovskiy metaLlurgic institute) "Analytic investigations of heating of mixed liquid metal in steel smelting aggregates, taking into account accompanying chemical reactions". Report presented at the Section on Heat Exchange in Single Phase Medium, Scientific Session, Council of Acad. Sci. Ukr SSR on High Ttmperature Physics, Kiev, 2-4 Apr 1963. Reported in TL~plofizika Vysokikh temperatur, No. 2, Sep-Oct 1963, P. 321, jpRs 24,651. 19 May 1964.  TRIFONOV I. (g.orisha, Vitabskoy obl.); BOLDRMV, K. (g.Bryanek); KAP ig. Rubev, Kalininakoy obl.): BUGAYW, V.(g. Svatovo. .Liuxxgand0 KARLINSKIr, G. (g. 7ergana); VATSMAN, M. (g. Tambovka, Amurskoy obi?,' GIRSON, I., tekhnoruk (g.-Kuybyshev) In the precongreas labor campaign. Prou.koop. 12 no.11:6-7 N 158. (NIRA 11:11) 1. lopolmyayushebly obyasannoott predoodatelya pravlenlya artell po orgmesovoy rabote i kadram (for Trifonov)..2. Prodsoaatell pravleniya artelt "Yatal'list." (for BWez~kov)--3. Inspektor orgotdola ob1pronsoveta (fc;r Karlinski3r);"4. Fredse4tel' prav- leniya artelt "Bollebevik." (for Vaysman). 5. Art~l~'-U"rnlk.-' (-far.Glnon). - (Cooperative societies)  KAPLUANY ~~. D. k=".); i-LbuN, jLa. 'v. ~_Eil_g.j 0 Xl. "The Use of Unit Machine Tools in Small-lot Production of Instrwaerits," Automation and Mechanization of Production Processes in Instrument Manufacturing, Moscow, Mashgiz, 1958. 591 P. PURPOSE: This book is intended for engineers, technicizns, and scientific per- sonnel concerned with mechanization and automation of production processes in instrument manufacturing, and for students and teachers of this subject in vuzes.  KAPUSTIN, G. Highway transport workers In the Ukraine fulfill their pledges. Avt.dor. 25 no-3:1-2 Mr '62. (MIRA 15:3) (Ukraine--Highway transport workers)  JUPUSTINO G.; FISHER., Ye. I --------- L--~ Over-al.1 mechanization in the Vladivostok harbor, Mor. flot 22 no.9:13-15 S 162. (MIRA 15:12) 1. Glavnyy inzh. Vladivo6tokskogo porta (for Kapustin). 2. Nachallnik planovogo, otdela Vladivostokskogo ports, (for Fisher). (Vladivostok-Harbor) (Cargo handling-Zquipment and supplies)  KAFUSTIN, G. Improvement of the road system in the Ukraine. Avt. dor. 28 no.12:25-26 D 165. (MITM 19: 1)  KAPUSTIN, G.A. Simple method of fixation of shoulaer dislocations. Xhin=giia no. 8:76 Ag 154. (MLRA 7:11) 1. Iz Takehangskoy bblinitay lostromskoy oblasti. (SHDULlMR, dislocation, ther.) (DISLOUTIONS, shoulder, ther.)  GORDON, I.B., kand.med.nauk;_WUSTINP G.A. Diaghosis of echinlococaosis alveolaris of the liver. Sav. med. 25 no.10::L2&130 0 161. (IIIRA 15:1) 1. Iz kafedry terapii. No.2 (ispolnyayushchiy obyz=nosti zaveduyushchego - dotsent G.A.Golldberg) i, k&fedry re4tgenologii (zav. - prof. D.Ya. BogAin) Stalinskogo instituta usovershenstvovaniya vrachey (dir. - dotsent G*.L.Starkov). (LIVER-HYDATIDS)  KAPUSTIN G.M Roadside planting in the Ukraine. Avt.dor. 20 no.6:17 Je 157. (MIRA 10:10) (Ukraine-Roadside improvement)  DFUSTIN. G.M. im" Radical reorganization of the bridge Avt.dor. 20 no.11(181):14-15 N '57- (Ukraine--Bridges) system in the Ukraine. (MIRA 10:12)  KAPUSTIN, ~.'- Road building in t be Ukraine. Avtodor. 21 no.6:31-32 Je 158. (MIRk 12:10) (Ukraine-Road construction)  KAPUSTIN, G. . Improve highways leading through settlements' Avt.dore 22 U6*3: 25-26 Mr '59- Odessa Province-Roads) (MMA 12:4)  15394-66 Y4T(m)1IW(jVIk -ACC NRs AP60DD968 SOURCE CODE: UR/0286/6,-/000/022/W53/0054 AUTHORS: Chukhin. A. A. P 1yakov, L V. Ulybin, M.Gj! 55 ORG; none TITLE: A press for vulcaniz rubber products. Class 39p No. 176382 /announced by All-Union Scientific-Research Institute-of Rubber-Industrial Yj9ghgg;a1 Engineer- Vsesoyuznyy nauchno-iBsledovatellskiy institut rezino-tokhnicheskogo mas nostroyeniya)-7 SOURCE: By-ulleten' izobre.teniyitovarnykh znakov, no. 22, 1965, 53-54 TOPIC TAGS: drive, rubbertechnolo,gyp rubber vulcanization, pressure apparatus, manufacturing facility,, manufacturing method ABSTRACT: 'This Author Certificate-1wesentsa press for vulcanizing rubber products, for example, rubber-metal easkets P The press includes devices for the withdrawal and o ning of the dies.(see Fig- 1)* These devices are made in the form of hori- pe ~ 6 zontally positioned guides fastened to the plates of the press. The guides carry a sliding die vhich travels with the help of a cylinder. The upper rotating part of the die is connected to the base of the press.by hinged arms. The design is intended to increase the productivity of labor. The press contains mechanisms for loading the stock material and removing-the finished products. These mechanisms are in the form of a vacuum cartridge connected by a hinge joint to the cylinder and are .,Card 113 UDC: 678.058.39 - _2  ACC NR% AP6DDD968 .9 V Fig* 1. .1 Vacuum cartridge;,2 cylinder; carriage; 4 support; 5 screw couple; 6~- spindle magazine; 7 - conveyer; 8 - conveyer belt of specified length- 9 - middle part ofdie; 10 - projections on themiddlesection; catches; 12.- guides of the press. .J .:rigidly connected by coupledscrews to the carriage moving on the guides of the support. To automate the processes of loading the stock materials and removiD.7 the finished product., spindle nagazines for the stock materials are used in the press. These magazines are mounted on the frames. The press also uses conveyers, 'along.the loops, of which we fastened conveyer belts of a specified length, The .Card 2/3  Card  KA',DUSTIN, I - Trade-Unions ion. V pom. profaktivU . workers of the Appralsement and Conflict Cor*'Bs Seminar for 13 no- 12- 152. Monthly T-lat of. Russian hccessions Library of Congress. August, 1952- Unclassified.  ---- -h-o -,T-" Al ) T' XAPUSTIN, I. spiral anten-s. Radio no.1:26-2? A 158. (MMA 11:1) (Radio, Shortwave)  AUTHOR: Kapustin) I. (UAFRYI) -107-58-7-24/43 TITLE: Miniature Spiral Antennae (Malogabaritnyye spiralinyye antenny) PERIODICALi Radio, 1958, Nr 7, PP 34-35 (USSR) ABSTRACT: The antenna described is a transmitting dipole antenna. The dipoles are made from 3 em bakelite tubing 110 cm long on which are wound two spirals each of 77 turns. In the (520 cm) apart and in first antenna, the dipoles are X/ 4 the second-A/ (260 cm) apart. Copper tubes 45 cm long are , fitted into the ends of the bakelite tubing and connected to the spirals. Copper tube of a smaller diameter is fitted inside this and can be moved in or out to tune the aerial. The whole is supported on a mast. The aerials were tried out at 1 km distance from a receiver fitted with a signal level indicator and the results are drawn up in tabular form.. There are 6 diagrams and 1 table. 1. Radio operators--Amateurs-Diplomas Card 1/1  6(4) SOV/107-60-2-25/52 AUTHOR: Kapustin, I. (Yakutsk, UAORW) TITLE: Tl-e-~Rias E'7 e Output Stage of a OW Transmitterl PERIODICAL: Radio, 1960, Fr 2, p 21 (USSR) ABSTRACT: The author suggests connecting an SG-2S voltage stabilizer tube and one additional resistor to the grid bias circuit of the output tube of a ew trans- mitter, in which the keying is performed on one of the preamplifier stages. The latter causes contra- dictory requirements for the load of the bias recti- fier of the output tube. The author's circuit arrangement meets these requirements. He tested this method for 12 months on his transmitter, where the output of the,~G 80 tubpAwas increased by 20% (700v anode and 31 V screen 'grid voltage). There are 2 circuit diagrams. Card 1/1