SCIENTIFIC ABSTRACT KONDRASHEV, D. - KONDRASHEVA, L.D.

V5 SHM, laaak .Dmitriyerich; -XOXMSHV,,-.D., otvotstvenayy red.izd-va; WHATIM, S., tekhn.red. red.; TOLYPIIIA, 0., [Financing capital investments in state industry in the U.S.S.R.] Finensirovanis, kapitelinvkh vlozhenit v gosudaretvennuiu pro- oyeblennost' SSSR. Koskys, Goefinizdat, 1958. 24o p. (KIRA 11:7) ecopital investments)  KOMMSMW, Do 11-- r Book on the anortizption of fixed assets ("Obsolescence and anorti- zatIon of fized anusts" by P. Paylov. Reviewed by D. Xondrashev), Vop, akon, nool:128-132 J& 158. (MM 1113) (Amortization) CPaVlov,- P. )  .KONDnSHZV,. D,: - ~, -' ---~ . I , Price formation is an important factor in the development of the national economy and the strengthening of monetary circulation. Don. i kred. 16 no~9:19-27 S '58. (min 11:10) (Prices)  O.J.; p%VZMm, K.I., retiiencent:~XONDRUIOV--,-D.D.,~-kand. TARNOVSKIYO okonom.nauk, nauchnyy red.; pLEKTANNIKOV, KeHop re .. NOVA, T.A., tekhn.redo [zatablishing prices for shoss] Obrazovanie tsen Koskva, Gos.nauchno-tekhn.izd-vo lit-ry po legkoi 1959. 176 P. (Boots and shoes--ftices) B obuvlo promyshl.e (KIRA 12:11)  101-MRASHRY, D. "Conmodity production and law of value under socialiam" by M.I.Makarovs. Reviewed by D.Iondrasbov. Den.i kred. 17 no.10:87-91 0 159. (KM 12:12) (Talue) (makarova, H.ir.)  - -iO-7kp-AM-W,-D -I -- , - "PrInallal economic task of the U.S.S.R-"; methodological problems by I.A.21khonor. Reviewed by D.Kondrashav). Vop. ekon. no-7:227-229 JI 060, (KM 13:5) (Mosia'.-2conomic policy) (Tikhon*7, I.As)  XONDRASHE De.,doktor ekon. nauk --- ~ loonomio basis of prices. Fin. BSSR 21 no.1:44-54 Js 160. (MIRA 13i1) thloss)  KONIRASW Denis Dmitriyovicho doktor ekonom.nauk; PROKOFITET, S., red,; HOSMNA. R., 'tekhnred. (Preicas and business accounting] TSena i khoziaistvemqi reschet. Moskva, Izd-vo sotsiallno-ekou.lit-ry. 1961. 110 p. (KCRA 14:3) (Rconomice) (Prices)  KONDRASBr.,VL-D-.-, doktor ekonom.nauk Problems of prices, coste, and profit. Den. i kred. 19 Y.o.9: 15-23 S 16i. (MJAA 14:9) (Prices)  KONDRASHEV, D.., doktor ekonomicheskikh nauk Development of the wholesale price system in industry. Den. i kred. 20 no,6:23-33 Je 162. (KRA 15:6) (Wholesale trade-Prices)  AKOPOVY R.Ya., kand. ekon. nauk, dots.; BASYUK, T.L., doktor ekon. nauk, prof.; BIRM, A.M., doktor ekon. nauk, prof.; GRIGORIYEVp A.Yo., doktor skon. nauk, prof.; DOKUKIN, V.I., prof.; IKONNIKOV, M., prof.; KONDRASHEV, D.D., doktor ekon. nauk; KUFSKIY, A.D., doktor skon. HIN, E.Yu., doktor ekon. nauk, prof.; MALYY, L'G., kand. ekon. gauk, dots.; FERVUSHIN, S.P., kand. ekon. nauk; PLOTNIKOV, K.N., TYAPKINY N.K., kand. ekon. nauk; FILIMDNOV, N.P., kand. ekon. nauk; SHAFIYEV, K.N., doktor ekon. nauk; prof.;.BAKOVETSKIY,O., red.; KOKOSHKINA, L, mladshiy red.; MOSKVINA, R., tekhn. red. (Economics; communist means of production]Politicheikaia ekono- mAia; kommunisticheskii sposob proizvodstva. Uchebn1k 2., pe- rer. i dop. izd. Moskva, Sotsekgiz, 1963. 599 p. i (NIRA 16:5) 1. Chleft-korrespondent Akademii nauk SSSR (for Plotnikov). (Economics) (Communism)  KONTRA ~ I- ------- -I doktor ekon. nauk,- LEPIIIKOVA, To., red.; KIRSPIIOVA, 1.~ mlad. red.; FOSMIDA, R.~ tekhn. red. (Price and value in the socialist econorg] Tsena i stoimost' v sotsialisticheskom khoziaistve. Moskva, Sotsekgiz, 1963. 391 P. (Prices) (Value) (MIRA 16.12)  XONDRASHEY D. doktor ekonom.nauk Price Is an important means for creating a comminlat econow, Fin.SSSR 37 no.404-43 Ap 163* (MIRA 1614) (Prices)  KCIMISFEV, D. Vi. KOMUSHEV. D. ~i. -- "Author's Abstract of a Dissertation Presented In Competition for the Academic Degree of Candidate in Technical Sciences on the Subject "The Meebanical Stepless Friction Chain Drive of I.-Setal Cutting Machine Tools and Other Adjustable Machines." I-Lin Higher Education U---SR, Odessa Polyteclluulc Inst, Odessa, 1955. (Dissertation for the Degree of Candidate in Technical Sciences) SO; Knizhnaya Letopis I: No. 39, 24 Sept 55  3 V-~' A -< - '~ \~N e. 'j , '~O - `~- ~ FILATOV, A.A., insh.; KaKMMHBV. D.S., insh. I Log-lomdlng conveyer. Trensp.strol. 7 no.5:31 My 157. (MMA 10:11) Omber-Transportation) (Conveying machiner7) (Loading and unloading)  KOHDRASHN, F.S., inzb.; LYAPIN, D.P.. insh.; PRIVALOV, T.P., inzh. Stoping. without miners. Bes.op.truda v prom, 4 no.1:12 Ja l6o. MIRA 13:5) (Coal mines aid mining) a  UiPIN, D.P.0 inzh.; I(ONDFASR1,79 F.S.p :Lnzli.,- SILAFAf B.'F.p inzh, -------- New techniques in coal mining- in s' ep aea:7.s. 3ezop.truda v prom. 5 no.l*.10-il Ja 161. C0 - (MIRA 14:2) 1. Donetskiy nauclino-isglolovatel':3kiy %ollnTy institut. (Coal mines and minin.-Tecluiolo--ic-l innovations)  LYAPIN., D.P., inzh.; KONDRASHEV F.S.; MOGILIVIKOV, F.S.; RUDENKO, P.F. Results of industrial tests in the Donets Basin of the new technology of mining steeply dipping seams with the drilling and blasting method without the presence of men in the stope. Sbor.DonUGI no.20139-59 161. (MIRA 15t6) (Donets Basin-Coal mines and mining) (Blasting)  KONDRASEV, F.S.; VINAPSKIY, I.S.; GETIMAIN, P.V., inzhener-okonomist Criticism and bibliography. Ugoll Ukr. 7 no-10:53-52 0 163. (MIRA 17:4) 1. Donetskiy nauchno-issledovvtellskiy ugollnyy institut (for Kondrashov, Vinarskiy).  GELYUKH., I.D.p inzh.1 KONDRASHEV, F.S.p inzh. -.I-,-_ - Mining with caving or filling depends on local conditions. Ugoll 38 no.9:4-8 S 1634 (MIRA 16:11) 1. Donetskiy nauchno-iosledavatellBkiy gornyy institut.  STARODUBTSEV, V.L., inzh.;_jj~ ~ inzh.; LYAPIN, D.P., inzh.; OPREEDELENNOVY B.Ye., inzh. Effect of the worked-out level on the gas conditions of the underlying block. Sbor.DonUGI no.2009-76 161. (KRA 15:6) (Mine gases)  KoNDR&sm. y-;,~ P.OPILI SKIT, R-Ta. )bthods for wasuring the pressure of the air content in and the 91>ic exp&nsion.of ceramic raw materials. Stok.t ker. 17 no.3: 29-31 Mr '6o. (MM 13:6) (Ceramics)  31562 S/081J61/000/022/043/076 Bilo/B101 AUTHOR: Kondrashev, F. V. TITLE: Experiments of cleaving for determining the tensile strength of ceramics PERIODICAL; Referativnyy zhurnal. Khimiya, no. 22, 1961p 296, abstract 22K177 (Stroit. keramikao Informo-tekhn. ob.9 no. 2(6), 1960, 36-42) TEXT: The author studied the possibility of determining the tensile strength by cleaving the samples with a concentrated compression load. Two 40-50 mm long bare were sawn out of cylindrical samples. One was cleft in the direction of pressure, the other one in transverse direction. Unburnt samples were cleft by means of special frames, the working parts of which mere two 1 mm thick knives lying in one plane. When examining the unburnt samples, the cleaving stress on the frame was transmitted by filling shot into the bucket of the lever. When testing burnt samples, the cleaving stress was transmitted by the V-5 (UM-5) testing machine used for compressing and stretching various samples. This method permits a Card 1/2  31562 S/081/61/000/022/e'tz' Experiments of cleaving for ... B110[BIO1 direct determination of tensile strength in any part of the semifinished or finished product in nearly any form. Results of strength determination are tabulated. IlLbstracter's note: Complete tranalation-i Card 2/2  h0078 S/123/62/000/016/008/013 AOO41A1Ol AUTHORS: Kondrashev. F.-V1.2 Popillskiy,-R. Ya. TITLE; Some factors determining the'elastic expansion and lamination in pressing c~ramie powders PERIODICAL:, Referativnyy zhurnal, MashInostroyeniye, no. 16, 1962, 31, abstract 16B173 C'Tr. Oos.n.-i. in-t stroit. keramiki", 196o, no. 16~ 84 99) i TEXT iri~estigated the elastic expansion process in pressing The auth~ XX -speed fine-grained powders Vvarious types on high-speed mechanical and low .hydraulic presses at cl~fferent degrees of hupidity, without and with vacuum. They .,established the dependence of the magnitude-*,~f-elastic expansion and the properties of the pressed items on the volume of th6',:~,k~~hed-in air and its pressure in the pore*. Cylindrical specimens 60 mm in df&iAer and approx. 20 mm In height from two powders (these powderb are used for the manufacture of floor tiles and falence facing tiles) dre pressed in a specially designed press mold. Analyzing the depen- dence of the volume and pressure of the pressed-in air on the humidity, pressing pressure and pressing rate of the specimens from Nikiforov clay, the iuthors draw the conclusion that the volume of the pressed-in air during the pressing of Card 1/2 S/123/62/000/016/008/013 Some factor: determining the~elastia expansion and... Aoo4/AlOl fine-grained clay powders varies from 0.370 to 0.715 relative to the total air vol- ume in.the filled-in charge.This 'dimensionless magnitude was called the coeffi- cient of pressed-in air (K The air displacement up to 85 - 95;,~' during the press- ing of fine-grained clay pgw~.ers stops at a pressure in the range of 5 - 20 kg/crn2. With an increased humidity ofthe press powder the necessary pressing pressure is reduced, while the volume of displaced air Is increased. As a result of the Inves- tigations it was found that, with good surface conditions and sufficient rigidity of the press mold at the moment 'of ejection, cracks do not originate, while the eva- cuation of air from the powder is of practical Interest in solving Problems con- nected with an improvement in: quality of ceramic articles and raising the effi- ciency of the equipment. T. Kislyakova rAbstracter's note; Complete transla~ n] L Card 2/2  KOIIDRASHEV.- F,-V.-- -_ _ ljoe of a vacuum when pressing ceramic powders. Stek.i ker. 19 no.5:19-21 My 1629 (NIRA 15:5) (Ceramics) ' (Vacuum affaratus)  KONDRASHEV, F. V., inzh.; POPILISKIY, R. Ya.,kAnd tekhn nauk Pressing in air and elastic expansion during the compression of lean coarse-#ained ceramic bodies. Trudy NIIStroikeramiki no. 19:54-65 162. (MIRA 17:5)  inzh.; FOPn ISKIY, R.Yai p kand. tekka. naak ~qgjp Elastic-expanBlont preBsing of airg and effectiveness of deaeration during molding of eeramic waron. Stek. i ker. 21. no.1:17-22 Ja 164. (MM 170) 1. Gasudarstvennyy nauchno-iBaledovatellsidy institut Btroitellnoy ker=lki (for Kondrashav). 2. Moskovskiy khimiko-tekhnologichookiy inatitut imeni D.I. Mendeleyeva (for Popillskiy).  EDNMASMffj G.F. Council of Innovators of,leningrad lbterprises. Ixo'br,i rats. no.9; 33-35 8 160. (MMA 13tlO) 1. SeIrretarl Leningradskogo gorkoma Eommunisticheskoy partii Sovetskogo Soyuza. (Ioningrad-Technological innovations)  VAL' DMAN, E*r Karlovich; _KOj)UaffN,_LLred.; BIRYUZOVAj ye.I., red.; FAYNS M DTP F.Ya., tekhn. red. A=Oing problem .in naval art and science] Zanimatel'Us I enno-morskomu delu. Moskvat Izd-vo Dow, 1963. zadachi po vO (MIR& 16:6) 142 PjNaval &rt wid science-Problems, exercises, oto.) '  KAPWTA, A.S.P -',nzh.; KONDRASHEVp I.V., Inzh.; BAIISK~Y, -'nzl-,. I." ~ The F-u-62 adapter, Avtom., telem. i sviaz' 8 no.7g4-6 Jl 164. (MIRA 17-.12)  The FiieA Focusing L.5'9iitef Cy6loir-on, by L. M. Nemenov, S. P. Kalinin., L. F. Kondrashov, Ye. S. Mironov, A. A. Naumov, V. S. Panasyuk, M. D. Pedorov, N. N. Khaldin and A. A. Chubakov, Atompaya Energiya, Vol 2, No 1. Jan 57, PP 36-41 Describes a 1.5-meter fixed frequency cyclotron. Construction on the cyclotron vas completed in 1946. The first deuteron beam was ob- in 1947. The following energies have been attained on the cyclotron: protons to 12.2 Mev, deuterons and hydrogen ions to 19.6 Mev, alpha-particles to 39.2 Mev, and nitrogen ions to 120 Mev. The electromagnet is of rectangular cross section and weighs 330 tons. -The core is made or "Armco" steel and has a 1,500-mm diameter. The magnet .:can develop. a....field .8trenah-up, to,18.000 oersted. s ".  The resonance system, high'.;frequency generator, alit sources for in- troducing ions, corrections to the magnetic field, the acceleration chamber, resonance lines, and the dees are described. Also discussed are the vac- ,uum system and the deflector and focusing system. Modifications made in some of these components since original construction are noted. At the present time,, "research continues on developing a deflector with focusing properties. Methods for making a beam of charged particles monochromatic and for correcting the magnetic field to permit variable ion energy are also being developed." The following members of the Scientific Research Institute of Electro- physical Equipment, Ministry of the Electrical Engineering Industry, are participating in the project: D. V. Yefremov, Ye. G. Komar, 1. F. Maly,3hev, N. A. Monoszon, M. A. Gashev, and N. S. Strelltsov. (U)  1-2 Z_ Novikov tovoyt, Neuenov~ i Pas ti iiRaidirt,, N.U. wia Chubakov, A.A. TITLE: A G--,.s O"Upply Bench for the Ion Source of a Cyclota~on. (",ten.d -azovor,o pitaniy~j ionno,-o istochrilra tsiklotrona) ~ I U i-11 P&Ii"LIODIv'AL: Pribory JL Tekl-ini.K-a Eksperimen-a, l')5'?, Dr U (Us.:D'A) AB.3-211ACT: A description is U'liven of a workin;T' j~as suo]?ly bench for .L the ion source of a cyclotron. The gas su.,.-:Iy beach is shown. aia,-ramatically in Fi-.1. It consist's of a systoera of -,as holdie;;rs, an electrolyser for ob"Uainin.,- douter-Jual, a manometer, a device for measuriw2. cas flow,, and various valves for adjustin- this flow. Tb--- gas -in the gas holders Q L3 is aclwayo at atraospheric -oressure. A special admission valve is described and is Shown in Fic-D.. The systea alaits a consu'a-ut amount of -ps and is simple t _2''! 1- LD '0 :30rvice. -a ad- niosion can be regulated in the rankle 0-:;0-; cn~'/houx. V~aei~o are 3 aia-rams, no tablos caid 1 Russian r3f,~~re-nce. U ,~J13.'.JTT1':1'D: January 16, 1957. Library of ConSress. 1. Ions 2. Cyclotrons 3. Gas-Instrumentation  -~- '~ 'a- ~Z~ Y~ ~- -4 , \_ . ~ . ;.' UTHORS: Kondrashev, L.F., and Panasyuk, V.S. 120-6-18/36 TITLE: Measurement of the Absolute Magnitude of the Magnetic Field of a Cyclotron without Releasing the Vacuum (Izmereniye absolyutnoy velichiny magnitnogo, polya tsiklotrona bez narusheniya vakuuma) PERIODICAL: Pribory i Tekhnika Sksperimenta 1957, No.6, pp. 79 - 80 ~USSR) .i-_ -TRACT: A magnetometer using the principle of nuclear resonance absorption (Ref.1) is described. The instrument was constructed in 1951 and was used on the 1.5 m cyclotron. Measurements were carried out in the range 11 to 12 kOe. The instrument is very small in size (30 mm in diameter and 1 200 mm long) and could therefore be introduced in the form of a probe into the accelerating chamber of the cyclotron. The accuracy of the method can b of the order of 10~'J*; the accuracy actually used was 10-1%. The following persons collaborated: L.M. Nepenov, A.A. Naumov, P.I. Vasillyev and L.I. Yudin. Th T ere is 1 Slavic reference. SUBMITTED: September 24, 1956. AVAILABLB: Library of Congress. oard 1/1  SOV-120-56-1-2/43 AUTHORS: Kopdyaa L.F., Kurashov, A.A., Linev, A.F., Sidorov, V.A _4~ N.N. o V'-' IN, _' M -41 K h a 1 d i n , TITLE: A Spectrometer for Fast Neutrons (Spektrometr bystrvkh neytronov) PERIODICAL: Pribory.i Tekhnika &ksperimenta, 1958, Nr 1,-pp 17-21 (USSR) ABSTRACT: The measurement of the fast neutron spectrum is one of the most difficult problems of experimental nuclear physics. The most common method employed in neutron spectroscopy in the energy region of a few MeV is the method of proton recoil. The measurement of the neutron spectrum is reduced to the measurement of the spectrum of the recoil protons which are produced by the neutron beam in a specimen containing hydro- gen. There are a number of methods of measuring the proton spectrum. One of these is the nuclear emulsion method but this is very time-consuming and therefore not always conven- ient. The other methods employ coincidence circuits. Such a system is usually called a "telescope". These telescopes can be used in two ways. In the first method one measures the range of the protons in special absorbers between the counters and in the second method one measures the amplitudes Card 1/3 of the pulses from a scintillation counter which is the last  A Spectrometer for Fast Neutrons. SOV-120-58-1-2/43 counter of a-telescope. The first of these was used in the present worInc. The telescope (Fig.1) consists of 4 proportion- al counters, A polyethylene "radiator" is placed in- front of the first counter and two sets of aluminium absorbers are used to measure the range of recoil protons in aluminium. The first and main set of absorbers is placed in front and the third counter and the second set of filters in front of the fourth one. The first, second and third counters are in coincidence and the fourth in anti-coincidence. Thus one records recoil protons formed in the radiator and whose path ends before the fourth counter. An eatimate of the proton loss due to multiple scatterin was made, using the curves of Dickiuson and Dodder (Ref .25. The figure obtained for this loss was less than 51166 of the recoil protons. A photo- Graph of the telescope is shoima in Figs.2 and 3. The tele- scope can be used in studying not only neutrons but also charged particles. The spectrometer was used to study the reaction T(p, n) He-2 for proton energies between 7 and 12 MeV. The neutrons were obtained at a target of a 1.5 M Card 2/3 SOV-120-58-1-2/43 A Spectrometer for Fast Neutrons. cyclotron. The derived neutron spectrum at zero ~Lngle for above reaction is shown in Fig-5. The following persons the on: N. A. Vlasov, S. P. Kai4- are thanked for their cooperati oylov. There are 5 figurest Inin, A. A. Shubin and L. N. Sam no tables and 6 references, of which 2 are English and:4 Soviet. SUBMITTED: June 19, 195?. 1. Neutron spectrum analyzers--Equipment 2. Neutron spectrum ana4zers--Performance 3. Neutron spectroscopy Card 3/3  S/12o/6o~d0;[r0/OO4/O12/O28 E032/E414 AUTHORS: heX-,L.F Rybin, S.N.. Sokolov, N~I. and &22_daa Maldin, N.N. TITLE.- Thin Vacuum-Tight Windows PERIODICAL: Pribory I tekhnika eksperimenta, 1960, No.4, pp.102-.105 TEXT: In nuclear reaction studies it is frequently necessary to have thin vacuum-tight windows, The present paper describes some of the designs of such windows which were used in experiments on a 1.5 m cyclotron in which these windows were used for gas targets, vacuum chambers and other devices. The simplest solution of this problem which ensures that the thin window is in a vacuum.-tight contact with -the body of the apparatus is to solder the window to the body or to attach it with a suitable adhesive, However, this leads to a certain amount of contamination of the evacuated*region during the soldering process and the contamination is difficult to remove. In the case of soldering, a further difficulty is encountered since It is difficult to attach the window uniformly over the perimeter. As a result, the thin window is nonuniformly loaded when the apparatus is eva~~uated. The heating of the material of the window during soldering may lead to nonuniform Card 1/6 67 ~_, 3 S/120/60/000/oo4/012/028 E032/E414 Thin Vacuum-Tight Windows changes in its mechanical properties which are also undesirable, and non-demountable designs present difficulties when it is desir6d. to replace the windows. Fig.1 ( 1 - window, 3 - thin toil, 415 - rubber packing) shows a demountable form of a window in which the thin foil has a cylindrical form and vacuum tightness 1.8 ensured by rubber packing. With a gas target of 5 cin in diameter, window height of 1.2 cm and window length along the circular periphery of 9 cm, an 81L thick iron foil withstood pressures in excess of 2.5 atm. With a gas target 10.6 cm in diameter and two windows Of 1*7 cm x 5 cm and three windows 2 to 3 cm in diameter. a 301L copper foil withstood pressures up to 1.5 to 2 atm, Thi' type Of window was used by Bogdanov et al (Ref.1) in their studiess of the proton spectra of the reaction He4 + d at 30% Fig.2 (I - mica plate 1.0-1i thick. 4 - rubber packing) shows another type of target in which the window is plain and consists of a loll thick mica plate maintained in position by brass grids on either side. The transparency of this arrangement was about 65%. The window is made vacuum-tight by rubber packing. A plane window Card 2/6  s/12o/60/000/004/012/026 E032/E414 Thin Vacuum-Tight Windows designed for working pressures up to 10 atm. is shown in Fig-3. Here again, the foil 3 forming the wall of the window is supported on a brass grid 4 having a transparency of 70%. Rubber packing ensures vacuum tightness and -30'9 copper foils and 10 Ii iron foils were used with this design. This type of window was used by Bogdanoy et al (Ref in their studies of the -3) polarization of neutrons produced in the.T(p,n)jje3 reaction. Fig.4 shows a similar window in which the foil I is supported by a tungsten grid 2 made of 0.2 mm diameter 'wire. Fig.5 shows a ,design of a thin window used with a P-spectrometer. The cylindrical wall of the window 3 was made from alumInium ribbon 0.5 mm thick; rubber packing ensures vacuum tightness. This window was used by"Vlasov and Rudakov (Ref.4) in their studies of the angular P-y correlation in the case of Ba139. Finally, Fig.6 shows the design of a gas target with a plane, thin wall 3 which was used by Bogdanov et al (Ref-5) in their studies of.the spectrum of fast neutrons produced in th6 bombardment of deuterium by deuterons. Here a platinum foil 301L thick is soldered to the body. The foil is separated by a grid of tungsten Card 3/6  8.7 ;7 S/12o/6o/ooo/oO4/0l2/028 E032/E414 Thin Vacuum-Tight Windows wires 3. The window was found to withstand pressures up to 4 atm. The above devices were assembled and prepared for experiments by A.A.Shubin. There-are 6 figures and 5 Soviet references. 170,1 0 SUBMITTED: May 27, 1959 7 7 4- IR Fig.l. ptLc.iramiaR MITMCUb C T0111fOrl AUMMAPH- Card 4/6 necitorl eTelixort  67137... S/3-20~6 0/000/006/012/0,--P,. Thin E032/E414 Puc. 2- TO"HaR c T-luxa cner~ n"a 0 ABYMII IloAgep;RuBalo- Illum pemeTxalH Puc. 3 Pue. 4 Fig.2. Fig-3. Fig.4.  PHASE I BOOK EXPLOITATION SOV/5881 Xondrashev, Lev Fedorovich.and Nikolay Nikolayevich Khaldin Oborudovani e ally, a yadernykh issledovanly (Equipment for Nuclear ResearM Moscowp Gosatomizdato 1961. -146 P. 3700 copies printed.. Ed. (Title page): L. M. Nemenov, Doctor of Technical Sciences; Ea.: A. F. Alyablyev; Tech. Ed.: N. A. Vlasov. PURPOSE: The boQk Is intended for physicistap design engineersy personnel working with particle accelerat.orst and teachers and students In related specialities at 4chools of higher education. % COVERAGE: The book deals with the problems of the designing$ constructing, and adjusting of special equipment for operating cyclotrons and for conducting nuclear experiments. A descrip- tion is given of the Cyclotron Laboratory of the Institut atomnoy energii im. I. V. Kurchatova AN SSSR (Institute of Card 14 Equipment for Nuclear Research sov/5881 Atomic Energy im. I. V. Ehrehatov,, The operation of this installation and proved to be reliable. Some.design in the book can also be applied in authora thank S. P. Kalinin, N. D. TI-mos,huk, and the staff members References accompany each chapter. TABLE OF CONTENTS: Academy of Sciences USSR). was checked extensively elements discussed other laboratories. The Fedorovp N. A. Vlasov, D.V. of the Cyclotron Laboratory. Editorla Foreword 3 Fteom the Authors 4 Introduation 5 Ch. 1. General Ideas cri Designing Equipment 7 Brief consideration of the cyclotron laboratory 7 Card 216  GUDKOV, A.S.; KIYEVLENKO, Ye.Ya.; KON N.P.p retaenzent; LAZtKO RI-AKOV., , Ye.ff.y retsen n ; pETROV V.P., retsenzent; TATARIIYOV, P.M retsenzent; KHOTENK, m.M.$ retsenzent- MAK " FEDYUK; V-1s, nauchn. red SIMOV,-A.A.p nauchn. red.; [Pundamentals of prospecting for Piezo-optic mineral de- Posits] Osnovy poiskov i razvedki Mestorozhdenii ptezo- OPticheskikh mineral V; Metodicheskoe ruko-vodstvo skvap Gosgeoltekhizdo 6 Mo- at, 1963. 217 p. (MIRA 17:6)  ZDNDBASHIV,_ r-- , Subsurface gooloaterigip aM development of the Chelyabinsk grabou-0 liv, vys, 'uchef. sav.; gool, i rauve no*3:20-35 Mr - 158. .(NM 3-1: 20) leVesseynsuff manchae-looledevatellnkly ugol'Wy institut. . (Chelyabinsk Pro-viace-qoal. geology)  'UTHOR: Kondrashevj...SoN. SOV/132-58-12-5/1-4 TITLE: Some Problems in Forming Polar Graphs of Apparent Specific Resistance (Nekotoryye voprosy formirovaniya polyarnykh dia- gramm kazhushchegoeya soprotivleniya) PERIODICALt Razvedka i okhrana nedri 19581$r'129 PP 32-39 (USSR) ABSTRACT: The author describes some problems connected with the compil- ing of polar graphs of apparent specific resistance, to ob- tain the most characteristic curves for a definite type of geo-electric cross-section by means of a three-cathode dis- simetric-installation. The obtained polar graphs permit one to classify the surveyed media as anisotropic or horizontally non-homogeneous. There are 3 charts, 1 set of graphs and 6 Soviet refereiiees. ASSOCIATION: VNIIP Card 1/1  KONDRMHEV SA.-,-AWRIYEV., Yu.N. General problems relative to the use of geophysical methods in pros- pecting for piez6'6ptie quarts depogto. Trudy VNIIP (HSI 3 no.2- 51-60 '60. (HIRL 14:4) (Quartz) (Prospecting--.Geophysical methods)  USSR-XLI y 6 Apr 61 .of -F-, / MDIDRAMW9 V. 9 Colo suther of the article "This rs Nero ?Wm ftstmt" a for*lsm political oomontary an Orosee. Off 6 Apr 61 26 (1) t9  BARMIN, So?,; 901MRASHIT, V.A.; XUAL&TIN, V.I. ---vk Gutting In on a gas line with the use of rubber balls. Gas. prom. 4 no-7149-50 J1 159. (14IR& 12r1O) (G", Natwaa-Piplines)  BMIXI S'F'; KORMSM, V.A*; KHALATINO V.I. IMOrgOnCT rePalr service D 159. of gas P'Pel'nOg- Gaz- prom. 4 no.12:41-42 (MIRA 13:3) ~Gas P'P*G-K&IutGnance and repair)  KRALA IN, Ma, NORDRASIW V.A.. BARNIN9 S*7e# XLGAZANIX* Ta* No Interconnocting &w maluse Gax.prom. no.2:40~41 7 060, (a". liatural-Pipal Ines  BARMIN, S-F-; 11ONDUSHIff, T-A-; XHAIATIN. v.j. 3all cocks on m&ln PIPOlluss- Gan-prom. 5 no.9:4.o-43 8 160. Was, Natural--pipeltnes) (MIRA 13:9)  KLIMCHWO, I. Z. AXOPUAN,K.X.; )(IRONOV,N.P.; KONDRASM,V.F.; LoWHITSEZY. M. H. Comparative rating of the reliability of various methods of calcu- lating the suslik population. Trudy probl. i tem.sov. no.5:29-3855. (KLRA 8:12) 1. Rostovskiy protivochunnyy inatitut (Susliks) Iikl XLIHGHMO,I.Z.; KOLBSNIKOV,I.K.; KOM)RASHZV,V.Y. Mechanical method of controlling the lesser sualik. Trady probl. i temesove no-5:48-60 155. (MLTLA 8:12) 1. Rostovekly protivochunnyy institut (Sualike)  III Mimi . . ..... Duo n.  , ~~i 166 irthe-type fitem of M4 (WMOM% to Wif, Was 0.1141411" fit W*b $*OWN*# 0- VA) IM 4111014111AI I divill. a" uolwom". 01.1`~Yh w11147, Nth tor Madilolvic Is 4a. nw. "It cli, a" br War. d raM s9n. d Pb(NW, fto 4/9 N to 2 N at c.C SEP./JR. to.. Durnks W" 1.4my Patte MOM in" -1 P ~ to an "lad" istaftiAw tolle WM dftkw leanii M"M man. of Pb(,VOI), S at CA. OAM1,41M Cn. Rloetrobvh of 'N Saw. 41 WWI at CA. _001. aw of saim. of Pb(ONa)t in X&OH in a wW map 40 cowsta. &ad CA, ftol I I II With a my WMU W. of x-ray NMI and a am of I itka. Flee PC do of Ilie" deptwit's = proved.-b I iss. to to a Wir ftM of PbOs. dr.Ac- item as 4 took. In the viriterat&ry ccU, a a 4.Wk It - 8.10111111, c - 3.40 A.. spam group Dtf - Mo. Tl* vdia b am aftettiedw Is (ne low of digavig-skaped clisim of popuhted and of mply aria- The ki its ow ro call emisitt. 4 Pb stow. 0. '/s, wft 0.17111. uA 8 0 atom witli The tvkdi- Tbirdbtsomft-0 TbVb at tho mmocin Mv of the ILI A Aj.6tbe W actakf4m A. snuctwe W a-PbOt k claw to IMbi, a-4--dw of MO%) lwkb ibe actabodwaa puptAkled with an" kind of .atin_ M. Timm   ali; X-Ray. Analydix, USSR/Met CO "X-Ray Study of the Dispersed Electrolytic beposits-'~ of Ni-Pd," Yu. D. Kondrashev, 1. P. Tyerdovskiy Zh. L. Vert, State Inst of Applied Chem "Dok Ak Nauk SSSR" Vol LXXVI.II, No 4, pp 729-731 Expts for studying syst Ni-Pd alloys., obtained in dispersed form by joint electrolytic deposition; dealt with detn of dimensions of structure cell., deg, of dispersion (size of monocrystal) and lattice die-, tortion. All 3 detns were based,on principle of X- raying with std. KC1 was used as std in part of syst rich with Ni andlatter served as std in part 18h.T89'' USSR/Yjetals X-Ray Analysis (Contd) .1 Jun 51~~ ;rich with Pd. Results graphed. Submitted by Acad. A. N. Frumkin 9 Apr 51-  the. ftvf-r- tli- !!7. L.U4 Z LJF W-- ui~u 41- -.1 J~ a= X W L= xf ft# tImOt 1610 41 :,re vo the: law, 1"I(A. Vol. & CuD, 0; cnm,,~--~-' to ~-l t:4j. A. ia "'n("C--" c~~ A. in   -14,F, V P_ A USSR/Chemistry.- Physical cheidst'rj Card 1/1 Pub. 22 2,9//,,7 Authors Kondrasbov, Yli. D, an nd Tverdovskiy, 1,1111. Title X-ray analysis of dismrsion Ag Pd and Cu Fd depositions obtained by electrolysis, Periodical Dok. AN SSSR 99/1, '109-111, "Itov 1, 1954 Abstract The real crystalline ztructure si7e of nucleus, dispersion and defon''mtion - of lattice of bin-ary, solid A.,,_F4 and Cu-rd solutions, obtain-ad through com-, binod alectrolyticdacou-ition, was investilated. The derivation of the elec- trol,ytic dis-xersiori de,-Dsitions is described. The average displacement of I I aton, SY ch-aracterizins lattice deformtion and its rimximum value at a silver content of 1Z,:., -N-ere established. The fori-,iation of a continuous series of !3olid solutions, ~5~- ce jmlno3is between disrersion and deforrrdty of the latti and the externa I fom, ~ of the monocrystals, were found to be the general char- acteri le .- sties of e" ctrolytio'dispersion derositions. Seven references: 5- -USA ar -German (1933-1951). Gr USSR; 1 nd 1 aphs. Institution : 11inistx~y of Cheju.cal Industr7, USSR, .State Institute of Applied Chemistry Presented by: Academician N-. llvoril~in,~ Juno 2121, 1954 C Caltegory: USSR Abs jour: RM-Kh, No 3, 1957, 7767 Author : Markovskiy, L. Ya., Kondrashev, -fu. D., and Kaputovskaya, G. V. Inst : Not given Borides Title : on the Cowposition. and Chemical Properties of Magnesium Orig Pub: Zh. Obshch. Khimii, 1955, Vol 25, No 3, 433-444 Abstract: It has been established by x-ray and chemical analysis t hat 14g and B begin to react at 720 :t 200. At temperatures up to 800c, MgB2 (1) is formed regardless of the Mg/B ratio. At higher temperatures 1 decomposes, forming one of three other boride compounds) depending on the temperature; the same compounds are also formed in Mg-B mix- tures of varying composition at the same temperatures. I is a dark brown powder which is slowly decomposed by water and more vigorously by acids. When I is treated with hot concentrated HC1, boranes are evolved (0.8-1.1% of the total B content) as well as 2.11-2.12 moles H2 per mole I. The boride I crystallizes in a hexagonal lattice (of the AlB2 type); the space-group, is D~h, a 3.085, c 3.519 A_U_ Card 1/2 -8-  r UsSR/Chemistry Applied chemistry. Card 1/1 Pab.. U 17/47 Authors I Harkovskiyj, L. Ya i;IK ondrashev, Yu. D.; and Kaputovskayaj G.-V. Title Composition and structure of-magnesium borides Periodical i Dok. AN SSSR lW/61 1095-1098, Feb 21, 1955 Abstraot I Data aIre presentedxegarding magnesium borides synthesized from elements in an atrilosphere of purified electrolytic hydrogen. Magnesium borides appear in. the f oria of a dark-brown powder which. decomposes (PartialiA during continuoud,heatingAth. HCl. H 0 . slowly and gradually oxidizes r e~xt th 2 a vie nt- I nit ic acid. T a t e ~~AkVo~~Ie an ca _p. 6 -er es magneii :bbrides-arfd descrihed-. - Six- refeteftcest- ---I- USSR I En&lish,, 1'frenchi:ZUSA., and I-Scandinavian (1906-1~52). Tables; Inatitutioni Kinistry of Chemical Industry- SSMO State- Institute of --Applied _Chem.~ Presented by: Academician I.-I. Chernyaev, flovember 25, 1954  USSR/ Ch,.mistr5r ,plied chetnistry Card 1/1 Pub.'22.- 25/51 Authors g 11:.,arkovskiy, L. Ya, 19',ondrashev, 'Cu. D.; and Coryacheve, I. A. Title About, the conTositim of - b,-ryllium borides pariodleld I DOIC, "a', $5-M' 101/1. 97~-98 Nar1 1955 -Abstraot Preliminary-d&*-'~-bre presentc."' ~on th,!.-cobV-psitiGr~ of -beryllil~n borides. ' nt th S e ft cz,- 1 3amples of 11, -borides v_6re _nynthesiz~4 c' emc S, I. c PUV~C-nbl~nt of Which we Ire bviqu,,tted at a fixcd cciponent ratio and- tam,pe"'a"'we DI -an-11n %atnto--phere.- Chemi~-j.'-l sml x-ray aralyses shcw. the st tv phascs in the prc-I bits! pr pared w t4 a p rence of at c Q VI e ponont. mtic.- of Be- . S 2;1 -, -";2- d 1,,l. ThcrI!,voico-chemical com- al r'rc'-e-V'_S of t!,,-_' zclOblc un'l !n~obtblc!3c.-bo,.Idcs are llstcL'. Three Ocr=n Tables; L-raph. 'c nc~-,q; I "Er 1 US~" ond I Institr-~--n 1 C1 'rnI=tr_Y Ar'nl ice, 'Chomis try A 7rc.,s _n   KCITDRASHO, Yu.D Reciprocal transitions of manganese dioxide varieties. Zhur. neorge khin. 2 no.12:2694-2699 D 157. (MIRA 1132) 1, GosudarstvenW institut prik,Aduoy khimii. (Mangaaese oxides)  68925 SOV/81-60-1-644 Translation fromt Referativnyy zhurnal. Khimiya, 1960, Nr 1, P 91 (USSR) AUTHORS: Markovskiy, L.Ya., Ll!vova, V.I., Kondrashev, Yu.D. T=; on the Production of Elemental Boro an Electric Glow Discharg PERIODICAL- 'V-sb.: Tr. Konferentaii po khimii bora I yego soyedineniy. Moscow, Goskhimizdat, 1958, pp 36 - 45 ABSTRACT: It is expedient to carry,out the process of BC1 reduction by hydrogen in an electrical glow discharge at a pressure ol 30 - 200, mm Bg. The formation of elemental boron in the highly-dispersed state as well as in the form of a growth on the electrodes depends on the kinetic and electrical conditions of the process. The laboratory production of highly-diSDersed boron in the glow discharge with a purity of up to 99.9% with a yield of up to " from BC13 Is possible at a single passing of the gas mixture through the discharge. According to the data of comparative roentgenographic investigations of elemental boron obtained by various methods, electrodis- charge boron is the purest and the most typical sample of microcrystalline boron. I Card 1/1 Authors' summary  AUTHOR: Kondrashev, YU.D. 70-3-2-17/26 TITLE: a 6 of Halogen Derivatives of Diazo- r -17M-yMnr-ene ~(!~MsuMllicheskaya struktura galogenproizvod- z n,vkh diazoaminobenzola) FERIODICAL: Kristallografiva, 1958, Vol 3, Nr 2, pp 229 - 231 (USSR). ABSTRACT: The structures of the compounds X-C6H4-NH-N=N-CH4-X have been established. X represented Br or Cl. The unit cells are monoclinic with dimensions: 01 derivative: a=16.94 � 0.01 A, b=4.68 + O.Olt c=22.00 + 0.02 0=136023' + 101. dobs.~1.42. Z=4.Space group P21/e Br derivative; a=16.75 � 0.01 A, b=4.73 � 0.01, c=21.96 + 0.02,1 0=1340181 + 101. Space group F2 1/ca They were found to be isomorphous. The x and z atomic co-ordinates were found to be the following+- (for Cl derivative first, followed by corresponding values for Br derivative) card 1/3  70-3-2-17/26 The Crystal Structures of Halogen Derivatives of Diazoaminobenzene. Card 2/3 Cil.Bri C12'Br2 Ni N2 N3 C1 C2 C3 C4 C5 C6 C7 C8 C9 (0.01750.336) (0-300, 0.402) (0-3461) 0-658) (0-675, 0.817) (0-590, 0.746) (0.1162 0.436) (0.0907 0.471) (0-145, 0.528) (0.2?27 0.585) (0.296$ 0.552) (0.239, 0.490) (0.6?01 0.639) (0-564, 0.611) (0-547, 0.640) (0.021, 0.336) (0.298~ 0.405) (0-350, 0.662) (0-.672, 0.81?) (0-595, 0.?52) (0-130, 0.445) (0.090, 0.467) (0-170, 0.547) (0.278, 0.593) (0.31?, 0.5?5) (0.237, 0.499) (0.673, 0.645) (0-559, 0.600) (0-534, 0.637)  70-3-2-17/26 The Crystal Structures of Halogen Derivatives of Diazoaminobenzene Clo (0.629, 0.?20) (0.630, 0-?14-) Cli (0-740, 0-750) (0.741, 0.762) C12 (0.?601 0-719) (0.761, 0.?28) There are 1 figure, 1 table and 3 English references ASSOCIATION: SUBMITTED: Card 3/3 Gosudarstvennyy institut prikladno, i- - (State Institute for Applied ChemNv%~r str April 20, 1956  BOV/70-3-5-14/24 AUTHOR. Kandrashev, Yu..D. TITLE: c-On-te-r-Ya-l-n-Pe-e-U-ITR24,ties in X-ray Diffraction Pictures of Diazoamiziabenzene (0 nekotorykh osobennostyakh rentgenogramm diazoaminobenzola) ODICAL: Kristallografiya, 1958, Val 3, Nr 5, pp 617-618 (USSR) ABSTRACT: Diazoaminobenzene, C6H5 NH-N N-C 6H5 , usually crystallises in monoelinic crystals with a = 11-37 + 0.026 b = 5.07 � 0.02, c 18-4-1 0.03 A, '5 = 81 081 + 101 d = 1.2451 g/cm and Z = 4 . Anomalous extinctions Wslariations in intensity are, however, sometimes observed. Besides the-reflections OkO with odd k the reflections 2h,0,21 + 1 are also absent. Piezo- electricity is observed so that the space group,appears to be P21 0 Two different modifications I and II were obtained by crystallisation from benzene and from a mixture of octane and ether, respectively. I has: a = 11-36 + 0.02 b = 5.07 + 0.02, a = 18.41 + 0-03 A,- 0 = A00401 + 101-. hkI reflections Cardl/2 are presenf only when h + L is-even. A halved cell with  SOV/?0-3-5-114/24 On Certain Peculiarities in.X-ray Diffraction Pictures of Diazo- aminobenzene space group P21 could be chosen. II has: a = 11-39 0.02, b = 5.07 + 0.02, c = 18.42 + 0-03 A~ P = 810081 + 101. This had the, space group P21/c Usual pictures represent a a" of the two forms. The form I consists of identical . layers (in the x,70 plane) displaced by. 1/2a with respect to each other.~ Form 11 has successive play, connected by a centre of symmetry and by glide planes. There are 3 figures and 7 references, 2 of which are Soviet,, 4 English and 1 German. ASSOCIATION: Gosudarstvennyy inBtitut prikladnoy khimii (State Institute'for Applied Chemistry) MMMITTED: July 2. 1957 Card 2/2  AUTHOR: Kondrashiev, Yu. D. BOV/70-3-6-6/25 TITIZ: On the Crystal Structure and Composition of Crednerite, CuMn02 (0 kristallicheskoy strukture i sostave krednerita CuMn02) PERIODICAL: Kristallografiya, 1958, Vol 3, Nr 6, PP 696-699 (USSR) ABSTRACT: If-cop8er and manganese oxides are heated at above 1 000 C the beta non-spinel phase can be formed. The cell dimensions were found by McAndrew (Ain. Min. ,,.1 6, Vol 41, p 276) as a = 5.58, b = 2.88, c = 5. i's 0 = 1040 and the space group,was determined as C2/m C2 or Cm. . He identified the material with crednerite .but gave the composition as Cu2Mn2O 5 * Materials of varying composition were prepared and examined by X-ray powder photography, the Cu/Mn ratio of 1:1 giving the purest specimens which had a density of 5.39 (compared with McAndrew's 5.03). The powder diffractometer records gave the improved dimensional measurements of a = 5.530 + 0.005, b = 2.884 + 0.002, c = 5.898 + 0.005 A, 0 = 104.60 + 0.10. Experimental and observed spacings and intensi7t-ies-are tabulated. The new cell size and  SOV/?0-3-6-6/25 On the Crystal Structure and Composition of Crednerite, CuMnO2 density give Z = 2 if the formula is CuAIn02' (Zobs.m"9'3) The structure resembles that of CuFe02 (rather than that of low-temperature IIaNiO2). With the space group C2/M the atomic co-ordinates are 2Mn in 2(a) 000 2Cu in (0.,1/2,1/2) and 4 0 in 4(i) (x,O,zi with x = 0.416 z = 0.143 The co-ordination round the 3+ Mn atom is ocathedral. with 4 oxygens at 1.92 and two at 2.28 The Cu+ atoms lie between layers of MnO 6 ocath1dral linked by edges with Cu+-O distances of 1.80 (two co-ordinated). There are 2 figures, I table and 12 references, 3 of which are Soviet, 5 English, 1 French and 3 G.ermari. Card;;*L.5.,  5 '(2) AUTHORS: Markovskiy,IL. Ya.9 Kaputovskayap G. V., SOV/78-4-8-3/43 Kondrashev Y TITLE: On the Problem of the Existence of a Magn-sium Boride of the Composition Xg B (K voprosu o sushchestvovanii borida aagniya 3 2 sostava Ng 3B2) PERIODICAL: Zhurnal neorganichookoy khimii, 1959, Vol 4o Nr 8, PP 1710 - 1714 (USSR) ABSTRACT: In his classical paper on boron H, Moissan pointed to the fact (Ref 1) that boron forms several compounds with magnesium, :--- among them one with the formula Mg3B2~ This opinion in maintain- ed also in the papers of other research workers (Refs 2-5). In earlier papers of the authors (Refs 6,7) simul+--iously with~ American scientists (Refs 8.9), however, no sa '~£ M93B2 was found. Table I shows the new experim-a~.,t . resultse Figure I shown the formation of tatraborane In dependence on the composition of the sinter. The yield in tetraborane in- creases with the magnesium content of the sinter. By means of Card 1/2 infrared spectroscopy it was found that tetraborane is formed  On the Problem of the Existence of a Magnesium SOV/78-4-8-3/43 Boride of the Composition Mg B 13 2 as final product in the hydrolysis of VgB 2* Table 3 shows the interplanarepacings for the various compounds of magnesium with boron. It may be seen from it that magneaium boride with the formula Mg3 B2 does not exist. There are 1 figure, 3 tables, and 14 referencest 7 of which are Soviet. ASSOCIATION: Gosudaretvennyy institut prikladnoy khimii (state Institute of Applied Chemistry) SUBMITTED: .,October 11, 1957 Card 2/2  S' 0- - 2 7 - 4 - 3 o/6 o A UTNORS - Tvrrdovakiyj Is F,t Vert, ZhoL., Kondrashev, Yla. D. TITLE.- Datermination of the Dimensions of an Ele-mentary Cel-I ~f Cathade-pola=11 zed Dispersion Alloys Pd-A-u and Pd-Cu PERIODICAM Doklady Akademii naulk SSSR, 1959, Vol 127, Nr A, PP 835-837f (USSR) ABSTRAM IYL the present paper, the lattice parameters of an ele,-trode Nvere determined during its polarization. Those lnvestiga~lons permit checking of some assumptions concerning the dependence of the overvollua.-a of the hydro.-en deposition ou the inller- atomic distances in the alloys. Investigations were carried out by means of the binary dispe5?aed all.Dys =~:ntloned in the t--ble. These alloys dissolve hydrogen in a Sj.Lff4caently wide coap.,3s.1- I - ;. tion interval. The dissolvecl hyiJr:)gan was eliminated 'by ar,06.1~, polarinzation of the alloy un"I 'he de-pos"Jon ef the first hydrogen bubbles. For the reoordings, a special Plexiglas oell was used (Pig 1). The recording was made by means of a URIE-50-1 diffractometer. The lattice per-iods could be det,~,rrmined up to an acouracly of 1 0.001 kI. The experiments we7c~ made in '111 H,SO 4- Card 1/2 solution at room temperature. The data ~)btairied for them  Detarmination of the Dimensions of an Elementary Cell cf SO'57/120-127-4-30/60 Cathoda-Polarizod Diopornion Alloys Pd.-Au and Pd-Ca lattice periods is compiled in table 1. The vallues obtained showed an error of only 0 0041 !;.X. Tha vai~jes for the alec tro- I.ytically deposited alloy eo-~,ld not be obtairied ve-th th,:, same, a~-;curaoy. The lattice 1.exiods for the alloys after j;-lariza~.1-,n a--re shown by figure 2 for the varioas systems with different A-,z- and Cu-content, and alao-in the 7,rocess c," hyd:r-:~gi~n depo.-I- tion. There was gecd agreement with tlhe :resu'ts obtal-n-sd by Kuznetsov (Ref 10). The stvong~st enlargament of the paramsters of the elementary cell resulted ~;n pxre pailadiam. By the intro- duction of gold or Cu it dporeases, and dsappears c~)mpleteiy at a content of 65% Au or 50ro Cu, rospeotively. At. a low palladium -cnter the solubility of hydrogen :;.n- the allcy also dec.-reasss down to zero. A change -in the ourron" intensi+y dur--Ixg Vie exper- Jmpnts had nearly no effect on the lattice parameteT'S. Therz- are 3figvxe,;E~ -i tablej and 15 referencesq 7 ef which are S:~viet. ASSOCIATION: Gosudarstirennyy institut prikladnoy khimili (State Institute of Applied Chemistry) PRESEFTED3 Alril 1.3, 1959, by A. N. FrurAinj Academl-,~i~tn SUBMITTED: April lAg 1959 Card 2/2  26885 5/081/61/000/013/025/028 B117/B203 AUTHOR: Kondrashevt Yu. D. TITLEt X-ray study of polytrifluoro ohloro ethylene PERIODICAL: Referativnyy zhurnal. Khimiya, no. 13, 1961, 703, abstract 13P44 (Sb. tr. Goa. in-ta prikl. khimii, no. 46t 1960, 15a - 165) TEXT: Polytrifluoro chloro ethylene may exist at temperatures < 2000C both in crystalline and amorphous state. The amorphous state i,% charac- teristic of polymer powders and products pressed therefrom. Thi-crystal- line state is characterized by a ring with a distance of 5.3 R. A diffuse ring corresponding to a distance of 13.5 1 is characteristic of the amorphous state. In the temperature range of 2000 - 2100C, the amorphous phase (ring 5.97 X) appears besides the crystalline one. At morethan-, 2100C, the polymer is completely transformed to the liquid state which differs from the crystalline one by position and character of the principal maximum on the X-ray.picture. The liquid phase crystallizes in cooling. Dimensions of crystals and their growth rate are strongly Card 1/2  26885 S/081/61/000/013/025/028 X-ray study of... B117/B203 dependent on cooling conditions. Below melting point-, crystallization of the amorphous phase is practically not observed. Addition of a plasticizer facilitates crystallization. bstracterts note; Complete translation 26886 S/081 61/000/013/026/028 B117 B203 Kondrashev, Yu. D. X-ray study of polydifluoro vinylidene PERIODICALs Referativnyy zhurnal. Khimiyaj no. 13, 141, 703 - 704t abstract 13P45: Sb. tr. Gas. in-ta prikl. khimii, no. 46, iq6ot 166,- 168~ TEXT% A study of the crystal structure of polydifluoro vinylidene shows that there are two molecular types with different identity periods% 4.66 and 2.55 A. The first period corresponds to a zig-zag chain, the link of which consists of two carbon atoms. The second period corresponds to an ordinary zig-zag distribution of carbon atoms in a plane chain. When heating the polymer, its crystallinity decreases, aud the transition to a completely amorphous sts~te occurs at N 19000. This temperature was assumed to be the melting point. LAbi~:tracterls note- Complete trans- I&tion ] Card 1/1  24451 B/081/61/000/007/004/010 B107/B207 AUTHORS: Kondrashev, Yu. D., Gladkova, V. F. TITLE: The nature of the nickel boride catalyst PERIODICAL: Referativnyy zhurnal. Xhimiya, no. 7, 1961, 68, abstract 76512 (7B512) (3b. tr. Goa. in-ta prikl. khimVi, no. 46, 1960, 268 - 273) TEXT: A nickel boride catalyst was subjected to X-ray, electron diffrac- tion, and electron-microscopic studies. The catalyst was produced by reducing nickel salts in solution with boron hydrides of alkali metals. The catalyst was found to consist of nickel in extremely fine distribution- the size of crystallites is between the cr stalline and amorphous state. [Abstracter's note: Complete translationT Card 1/1  YU, AUTHORS: TITLE: B/078/60/005/008/005/018 B004/BO52 82325 Markevich, G. S., Kondrashev, Yu. D., Markovskiy, L. Ya. A New Boride Phase in the System Beryllium Boron PERIODICAL: Zhurnal neorganicheskoy khimii, 1960, Vol- 5, No. 8, pp. 1783-1787 TEXT: In 1955 the authorB published data on the phase composition of beryllium borides (Refs. 10 2). Besides the cubic a-phase (Be 2B), P-phase BeB2 , and I-phase BeB 61 they had also determined a new 6-phase richer in Be which develops at 1000 0 C during the aintering of a mixture of pulverized.boron and pulverized beryllium containing more than 70 atom% of Be. The present paper reports on the investigation of composition and properties of this 6-phase. Mixtures of B- and Be powder were produced in the following ratios: Be : B ranging from 9 : I t1o 2 : 1, and they were radiographically examined (Table 1). Single crystals of the 6--phase (Fig. ) were obtained after 100 h of continuous heating in evacuated quartz ampuls. Data of the radiographic investigation-of these crystals are given Card 1/3  V_ A-New Boride Phase in the System S/078/60/005/008/005/018 Beryllium - Boron B004/BO52 82325 in Table 2. The new boride corresponds to the formula Be 5B, and its crystals are tetragons with the lattice constants a - 3.362 + 0.002 kXj C M 7.036 + 0.005 kX, o/a - 2.093. The specific gravIty d4o, pycnometrioal- 3 2 ly determinedg is 2.06 - 2.14 g/Om . The specific electric resistance does not differ from that of the a-phase. The hydrolytic decomposition of Be 5B into 8 N of HCl was inve stigated, and the liberated hydrogen, the A developing boranes, and the dissolving boron suboxides BO were determined (Tables 39 4)-.On the basis of these data, the following reaction equations are given: Be5B + 10H20 BH3 + 5Be(OH )2 + 3-5H2 (1) BH3 + H20 BO + 2.5 H 2 (2) Be5B + IIH20 BO + 5Be (OH)2 + 6H2 It is assumed that primary BH 3 develops, and the formation of di- and Card 2/3 .40 A New Boride Phase in the System - Boron /60/oO5/008/005/018 Beryllium S/078 B004/BO52 82325 tetraboranes is only caused by the Polymerization of BH Since the reac- tion. between BH i_= 3 and water is intensivej no more than 8% of borane develop, calculatea with respect to the total amount of boron. Be B still is the boride yielding the maximum amounts Of borane 5 2% of boranes. There are 4 figures, ' since Be 2Bonly develops I table, and 6 Soviet references. ASSOCIATION: Gosudarstvennyy institut prikladnoy khimii (State Institute of Applied Chemistry) SUBMITTED: May 4, 1959 Card 3/3  JKONDRASHEV Yu.D. Crystalline and molecular structure of p-dihalogen derivatives of diazoaminobenzene. Kristallograftia 6 no-4:515-523 J1-Ag 161o (MIRA 14:8) L Gosudarstvenn3v institut priklaftoy khImU. (Triazene) (Halogen compounds)  29532 S/078/61/006/011/010/013 B101/B147 AUTHORS: Sapozhnikov, Yu. P., Kondrashev- Markovskiy, L. Ya., Omellchenko, Yu. A. TITLE: Study of phase composition and luminescence properties of the system ZnO -MgO, activated by chromium PERIODICA.L: Zhurnal neorganicheakoy khimii, v. 6, no. 11 , 1961, 2550-2557 TEXT: On the basis of a paper by A. L. Smith (see below) whL qtudied the luminescence of nonactivated MgO and ZnO mixtures, the authors examined the system MgO - ZnO activated with 0.5 ~6 of Cr (added rd ammonium bichromate). The mineralizer added was 3 % LiCl. Savple,~ were produced at 1100 and 1300`C- Powder,patterns were taken by a Y""'-50-0 V (URS-50-1) apparatus.- Two limited solid solutions were found: Zn(Mg)O V\ and Mg(Zn)O with the structure of the initial components. The unity cell volume of the solid solution Mg(Zn)o increases continuously. The incorporation of Mg ions into the hexagonal structure of ZnO causes a slight increase of parameter a and a considerable decrease of parameter c; thus, the unit cell volume is reduced. The upper limits of existence of Card 1/3  Study of phase composition and ... 29532 S/078/6i/006/011/010/013 BIOI/B147 activator of ZnO and of solid Zn(Mg)o solutions. A paper by G~ S. Zhdanov, V. A. Pospelov (Dokl. AN SSSR, 93, 97 (1953)) is mentioned, There are 4 figures, 2 tables, and 10 references: 4 Soviet and 6 non- Soviet, The two most recent references to English-language publications read as follows: A. L. Smith, J. Electrochem. Soc., 55, 155 (1952); '11. A. Runciman. US Patent no. 2736712, February 28, 11T~6. ASSOCIATION, Gosudarstvennyy institut prikladnoy khimii (State Institute of Applied Chemistry) SUBMITTED: September 30, 1960 Card 3/3  S/080/61/034/009/009/016 D204/D305 AUTHORS: Gladkovap V.F,.p Antonovska*~4~jp,.I., and Kondraahev Yu. TITLE: Blectronographic and X-ray investigations of the surface of passivated iron and a few steels PERIODICAL: Zhurnal prikladnoy khimii, re 349 noo 99 19619 2026 - 2031 TEXT: This study was carried out owing to the absence of a general- ly accepted theory on the nature of the passivity of chromium and chromium-nickel steels. The nature of films fnrming on the surface of Armco iron and the steels lKhl3 and lKh25 after being passiva- ted in liquid oxidizersp and also after anodic polarization of these wteels and of the chromium-nickel steel lKhl8N9T waF studied electronographically. In addition, an attempt was made tc determi- ne by X-rays the lattice dimensions of all the above steels in or- der to find the change in chemical composition of their surface af- ter anodic polarization. It was found that the passive film on Card 1/2 S/080/61/034/009/009/016 Electronographic and X-ray sea D204/D305 chromium steelep produced under the action of concentrated nitric acidp does not appear in the electronograph in the form of a 3e- parate phase, in contrast with an analogous film on iron. This evidently indicates that it is exceptionally thino Under the ac- tion of stronger oxidizers (70 % HNO 3 + K2Cr2o7) well defined Fe304' or y-Fe203phases appear on the surface of chromium ste-2s. As the result of anodic polarization of the steel lKhl8N9T, the NiO phase appears to form on its surface at the repassivation po- tential~ There are 2 tablesp and 18 references: 8 Soviet-bloc and 10 non-Boviet-bloc. The references to the 4 most recent &glish- language publications read as follows: T.N..Rhodin, Corrosion, 12, 3, 41t 1956; Hal. Jearianp H.E. Borent ReEa Warrg Corrosiont 12p 11-0 1956; R.T. phelpsp A. Gulbransent J.W. Hickmang Ind. Eng, Ch., Analyt. Edit., 18, 391, 1946; A. Gulbransen, R.T. Phelpsp J. We Hickman, Ind. Eng. Ch.9 Analyt. Edit.9 18t 640t 1946. SUBMITTED: October 319 1960 Card 2/2  "The crystal structure of ZnSeO~-M20.11 report submitted for 6th Gen Assembly, Intl Union of Crystallography, Rome, 9 Sep 63. Inst of Applied Chemistry, Vatnyi o. 2, Leningrad.  GUDKOVA9 V.F.;_KO14DRASBEV, Yu.D. Crystalline structure of ZnSeO3.2H20. Kristallografiia 9 no.2:190-196 Mr-Ap'64. (14TRA 17:5)  KONDMUVP YUX, Cr7stalline structure of paradimethyldlasoaminobenzene. Kristallograftia 9 no,N403-405 Ry-Je 164. (MIRA 17s6) 1. Goaudarstvennyy institut prikladnoy khimii.  tCIT" f /M_~ % JFJ ~& r r," L L 11217-6 ACCESSION MR: -AP3001631 S/0192/63 /004/003/0434/0455 N. A. AUTHOR: Kondras hev, Yu. D AqA "AAA a Nza am*" &0'VV___r TITLE flew mo.dificati on of qgJe_niuq -carbamide SOURCE: Zhurnal strukturnoy'khimii, v. 4,.noo 3o 19639 454-455 TOPIC TAGS:. selenium carbamide structure, thiourea ABSIRACT., An X-ray investigation of selenium da.rbaaide structure has been com- pleted. The large,and almo.st.colorleas crystals obtained from an aqueous solution vere subjected to a number of physical measurements. The refraotive,coefficients were found to be N sub y = 10'84, N sub P _= 1.79, molecular refraction 25.6 cubic cm, the density determined by the two methods was 2.09 g/cubic cm,and 2*06/ cubic cm. The periods of hexagonal lattice established by X-ray rotations are: a.=,'-5.37 is close to 270 The-- We compounds-of thiourea and urea do not have.hexago.nal-, structures, and it is characteristic for the. molecules containing selenii~ma The t obtained periods agree with.the rhomic lattices, including that of thiourea where a approximately equals 15-8 and e approximately equals 12.5 Angstrom. According to Card 112- ... .... ..... .......   ~LNEgLSgY,jIg.,D.; OWLICHENKO, N.A. X-ray-diffraction study of some oxide and sulfide systems. Zhur.noorg.khim. 9 no.4t937-91+3 Ap 164.- (NIRA 17:4)  16051-66 evil' (a) AWT (m) /EWP (t) TJF(c) JI)IJG ACC NA: AP6005515 SOURCE CODE: UR/0060/66/039/001/0013/0020 MTHOR- Markovsk~y, 'L1._La.;,Vekshina, H. V.; Kondrashev, Yu. D.; Strag aho 1. H. none JIM- Ternary compounds in the b -boron-carbon Mllium SOURCE, Zhurnal prikladnoy khimiii V. 39, no. 1, 1965, 13-20 TOPIC TAGS: beryllium compound,.boron compound, carbide, crystal structure -ABSTRACT: To study the reaction of beryllium with boron and, carbon, powder ru,xturlesl :of the components were sintered at 1200-20000C, and.the,products were subjected to x-ray and chemical phase analysis. : The data showed the existence oftwo beryllium. and.BaC Bi . The structure of BeC2B2, (studied by the single borocarbides, BeC2B2 2 'crystal method) is characterizei by a hexagonal system, Laue class ~'Mm, and lattice constants a = 10.84 and a = 6.18. The structure of BeC2BI2, (studi4d by the powder:-- ~method) belongs tR the B4C(BUCO structural type. The lattice constantsarea J :5.615, c = 12.28 A, c/a-= 2.187. It is shown that in contrast to alkaline earth and orare earth borocarbides, beryllium borocarbides are chemically stable compounds and __.UDC:~ 546.45127126-' 'Card 1/2  -67 -WT(m)/EWP(t)ATI IJP(c) JD 4733 C 0 -ACC-Nk-, AP6027006 SOURCE CODE: UR/0080/66/039/005/0973/0977' AUTHOR: Markovskiyq L. Ya.; Veksbina, N. V.; Kondrasbev, Yu. D. ORG: none TITLE: Chromium borocarbide -,- IV1 v/ SOURCE: Zburnal prikladnoy.kbimii, v- 39, no. 5, 1966, 973-977 TOPIC TAGS: chromium compound, chromium carbide, boron compound, carbon compound, phase compoaltrIon, X r&7 diffraction pattern ABSTRACT: The phase compositions of the reaction products of cbromium with boron and carbon in the Cr-B-C system were studied. The existence of the ternary co pound, chrqmium borocprbide Cr7BC was established: rhombic, a = - 1P b = 9.22A, c = 6-95A. Polder paWtern data is given. When the molar ratio of Cr in Cr:B:C is small, CrB and CrB2 are formed; as Cr content is increased the carbides Cr C2 and Cr7C are formed. It was established that all chromium caxUdes react i~ltb boron and-witb borides forming either solid solutions based on Cr7C3 or Cr3C2 or the borocarbide Cr 7BC Chromium mono- and diborides are characterized by high stkLlity with respect to carbon. The lower borides, Cr2B in particular, are converted in the presence of carbon at Card 112 UDC: --546.2-71-1 1h AP6027008 to 10 at,% boron and the high temperatures to carbides c0nta:1'n!LnE up borlde CrB. Orig. art- b1s: 14 tables. SUB CODE: 07/ SUBM DATE: 17M&165/ ORIG REF: 004/ OTH REF: 004 r  KONDRASHEVAS -A. L.., mladshiy nauchnyy s otrudnik DeterrA=Lng the content in ferrous oxide or chromite and chlrome- magnecite refractories. Trudy Inst. ogneup. no.34QIM18 '630 (%IaRA 17-.10)  KONDRASHEVA, A.L. Methods of quantitative detem~natiOn Of ferrous oxide in raw materials. Ogneupory 28 no.10475-478 163. (KMA 16:3.1) 1w VossayusiVy institut ogneuporomr.  BRIER, N.H.,',,Y0"MASH%VA' I.A. the manufa of spinnerets during cture Ifays for preventing c1099i . Khim. IF010k. fio.2:70-72 '59- of viscose cord fiber (IiIRA 12:9) 1.1alininskiy filial Veegoyanogo UaUchno-jaeledovatel Iskogo instituta iskusstvannogo volokna. (Rayon spinning) PHASE I BOOK EXPLOITATION 1236 Okhotsimskiy, D. Ye., Kondrasheva, I.L.9 Vlasova, Z.I.p Kazakova, R.K. Raschet tochechnogo vzryva a uchdtom. protivodavleniya (Calculation . of Point-source Blast Taking Counterprk,,-ure into Cone ideration) Moscow, Izd-vo AN SSSR., 1957. 65 Pe (Series: Akademiya nauk SSSR. Matematicheskiy institut, Trudy. t, 50) 2s5OO copies ptinted. Reap. Ed.: Petrovskiy, 1-0.8 Academician; Deputy Reap. Ed.: Nikollskiy,, S.M.0 Professor; Ed. of Publishfmg'House: Gurov, K.P.; Tech. Ed&.: Vanyushenkova, V.V., Makuni, Ye. V. PURPOSE: This volume of the Works of the Mathematics Institute, Academy of Sciences, is written for the specialists working in the field of blast waves. COVERAGE: This work consists of an introduction and four sections. In the Iniroduction, the authors describe certain Soviet and American studies In this field and outline briefly the methods of solution, the characteristics of the results, and the computation techniques. In section one the statement of the problem is given. Assumc-d is a gas which satisfies Clapeyron's equation. DensIty F.' pressure Card 1/9  Calculation of PoInt-source Blast (Cont.) 1236 IDV -kfA 2f -Oin A -f- 4 9 =-a rr 96- E-L;v-; 49 - 0 1 where PL , 9 are known functions of The basic functions to be determined are now 99 To solve the problem, the boundary conditions are set aAhe 6rigin and front of the blast wave in the form of the equations: ar /0~0 2r(-, I T(c ;L r- Card 3/ 9 Calculation of Foint-source Blast (Cont.) 1236 Where C is the velocit7 of the blast wave. To integrate system (2) at the given boundary conditions' as initial conditions are used the solution of the automodel problem (for r=ro. where t is sufficiently small) obtained by L.I Sedov [Ref. il. Before integrating system (2). the behavior of unknown functions in the' neighborhood of the blast origin (6-PO ) is investigated. Considering the order of change of unknown functions in the .neighborhood of the blast origin and conditions or- the outer boundary of certain intervals close to the origin, asymptotic formulas are derived by which it is possible to calculate the values of functions in the central interval using the values of functions on the outer boundary. Section three deals with'the numerical solution of the system of partial differential equations (2) by the method of finite differences. The computational net is constructed taking - 6" = constant, E= constant, and a mesh size Such a mesh size selection is convenient, because the wave always will pass through the lattice point of a calculation net. The system of differential equations (2) is reduced to a system of difference equations by subsitituting for partial derivatives the finite differences according to the scheme. Card 4/ 9  Calculations of Point-Bource Blast (Cont.) 1236 In the second stage 46 calculation intervals were taken. The initial mesh size war taken Calculations were carried out to The results of the second stage are represented in 23 graphs and 9 tables. The authors express their gratitude to K.V. Keldysh for his scientific supervision of the present study. They also thank IV-heir coworkers of the Mathematics Institute, K.I. Babenko and V.V. Rusanov, for their help in theinvebtightion of the stability of -computing schemes and the selection of a new wave-computing version. The authors also thank laboratory workers T.A. Loboda,, Yu. S. Userdova, Ye. I. Dolgova and N*P. Baranova for their calculations on the high speed electronic computer of the Academy of Sciences of the U.S.S.R. and for processing computational resul+f; in the formof graphs and tables. There are 7 references, of wh1dh 2 are Soviet and 5 English. Card 7/9 Calculations of point-source Blast (Cont.) 1236 Tatz.'OF CONTE 8: Introduction 3 1. Statement.of the problem 1 - blast center and on the blast th 7 e . conditions in -Equations 2 8 vave.1hitital data Computation net. Difference equatione Order of the 13 ,oompi,tation. Control of~comPutation accuracy 21 '5.:~Computatlon results: Table 1. parameters of the, front ofa blast wave 41 43 -Tjtble--_2, Parameters of the front ofablast wave - dius (at ra Table 3.. Distribution of the parameters on a 45 different time: moments) t 52 s a in fixed poin Table 4. Change of the parameter value the positive Table 5- X~Lpijlses of overpressures and duration of pressure phase (at different distances from the blast center) 59 Card 8/9  WN-1 ~ SIR TO - �r SO woom  XONHWHNVA, L.D.; PODWSHMKIT, I.T.; PROW7113T, T.K. Photoelectric methods In "Isolon spectroscopy. Zav.lab,21 no,12t 1446-1455 155. (MM 934) :(Spectrum analysis)  14A. Bon OR I'- .;Otis :.C 3.A-- FM El !l. .11! a U. 1 5 ;jl Itina lie. 0 91=1 gig Wl vilzo .0 " 9 13 -03 0. a -. 0." oug I .-Jju -00 I W Ww- .3 v 09 % Ila Z.- 160 A: c F -3N J1,4311-.1i .0 .08 0 10i - I M. jaw-C .4 33-10V H - I -. .0 H" 9 IR ago it U.: lun .8 MUM H a Ali 49 0 o 16 1 z :A; wo ghl .0 0 -C "21 -i C; - L 1 -1.1a Al v a h%C *16 rh 0 %a 10 all Al :