SCIENTIFIC ABSTRACT KUZMIN, P.P. - KUZMIN, S.V.

P.P. 63  KUZININ,P.T. low production techniques of cast anchor chains. Lit. proizv. no.6:27-28 Je '55. (KLRA 8:8) (Die casting) (Chains)  KUZIKIN, P.V., iuzhener. Explosion In an explosionproof electric motor. Bnergetik 4 no*9: 17 S 056. (Electric motors) (KIRA 9:10)  AUTHOR., Kuzlmin, P.V,, Engirir-er SJOV-91-59-9-23/29 TITLE: Electrocution from a Telfer Press-button Control Set (Porazheniye tokom ot knopochnoy stantsii tellfera) PERIODICAL: Energetik, 1958, Nr 9, PP 31-33 (USSR) ABSTRACT: The author describes a case where a worker was electrocuted while operating the suspended press-button control set of a telfer line. He traces the source of the trouble in the set and lists the various safety precautions introduced and changes made to the apparatus in the plant as a result of this accident, There are 2 photos. 1. Electrical equipment.--Hazards 2. Acc_4dents-Cow_,te_r meas-kL,,,~s Card 1/1  KAZANSKIY, Nikolay Vasillyevich; KURIETSOV, Leonid Filippovich; KUZ'l-!lNj__T..V,#,j.-rodw - [Masonry and furnace work] Kamennye i pechnye raboty. 1.',oskva, Izd-vo V-va kommn.khoz.RSFSR, 1963. 38 P. (MIRA 17:6)  KAZANSKIY, N--iko-ljy Vasillyevich: SIVITSKIY, Konstantin Pavlovich; KUZIM-IN, P.V., red. (V,'oodworking operations; carpentry and joinery] Derevo- o~delochnye raboty; plotnichnye i atoliarnye. Moskvaq lzd-vo lit-ry po stroit. "3troiizdat,,' 1964. 49 p. (MIRA 17:5)  KU7 1,%ILN I II.V. , inzil. Experience in the operail~on of synchronous motors with simplified start networks. Prom. enorg. 10, nooF-18-20 Ag 164. OMIRA 17: 11)  KUZIMINI R. I------ Idquified gas for automotive transportation. Avetraup 40 no.7:54 J3. 162. imm 15s8) (Liquified petroleum gas)  , KUZI,MI-.N,.,g.:V.,,,inzh. Start of synchronous motors with close coupled exciters. Prom. energ. 18 no.11:8-9 N 163. (KRA 16z12)  TUM.1140TIT, II.I.; xWAAIN', R,?I. lmonerl-* cham!.tr,-.l raLftq -:.r, eiilys of n r, WI-,- ~ _,., t-m.3tas DAL A.9 :',.',.SR 165 no.)--i-l8-5'9 'N 165. 01-1RA M LI) 1. M.,.~tAnwik5.y gosu`.arst-mennyy cuta , Ju 3, 22,9 1965, 1 '~ t tz_q , I  L 13130-66 ENT(I)/r='iiT(M)/T/EWP(t)/EWP(b)/EWA(c) Ijp(c) JDIJ(; Acc NH: Ap6oool.89 SOME CODE: MVM56/65/049/005/1389/1393 AUMOR: lbr&iMOV,' N. S.; KUZ'sin, R. N. Zhdanov 0. a. 99 ORG--_&_8cow State Unlverj~ty (Moskovakly gosudaretvennyy universitet) TITLE: The Mossbauer effect/in compounds of the fluorite type (IrGn2 and PtSn2) e SOURCE: li;;;;i~al'noy I teareticheskay Miki, Y. 49, no. 5* 1;15, IL389-1393 TOPIC TAGS: Massbauer effect, platinum compound, Irldlum cotTound, temperature de- pendence, resonance absorptionp Gamma ray absorption# absorption probability t ABSTRACT: This Is a continuation of earlier work by one of the authors (K=mIrp with V. A. Bryukhanov and N. N. Delyagin, ZhETF v. 46, 137, 1964) on the Mossbauer line and its shape. The purpose of the present Investigation was to study, for a given type of crystal lattice, the effect of changing the surroundings of the Mass- bauer atom., the mass of the atom# and the structure of the d-band. The IrSn2 and PtS% compounds were obtained by melting the components in quartz ampoules and sub- sequent annealing. The absorbers were prepared by pressing powders of the com- orption of 23-8-kev 'Y pounds in mixture with beryllium oxide. The resonance abs quanta by Sn'119 nuclei -smn investigated In the temperature range from 77 to 6009, Icard 1/g  L 13130-66 ACC XR: AP6000189 Absorption probability (f and width of reso- F nant line No extrapolated to zero thickness j - The results showed a decrease in the resonance absorption con"U'4 1 ./Sea 7r K V~ a with increasing temperaturep sindlarto that-previously-ob- Irsno 0 73�0.05 0,39�0` '�':' served for Mg2Sn. The pro- PtSnj 0.43� +0.35*0.02 0:03 3:111.10 02 Mg1i'Sa -0,28�0,03 0, Ot 0.00 babilities for recoilless 68�0. resonance absorption of the y quanta and the widths of the absorption lines were determined.for bath compounds (Table). The results are interpreted on the basis of date concerning the struc- ture and the nature of the chemical bond in these coul"mdas Tests were also made with IrSn2-PtSn2 alloys with 25# 50,, and 70 mol.% PtSrt2. All three alloys gave single b6oasbauer lines, Orig. art. has: 2 figures and I table. OTH My: --004- SUB CODRt__ 2D/ SUM DATE t -- 25mv65/ oRM W 003/  j; Ail R ~ . -- - - -Q.ITCI;k rD,  AUTHOR: Kuz'min R.1 ?0-3--3-22/36 TITLE: An X-ray Structural Investigation of IrSb (Ren'ugenograf-i- cheskoye issledovaniye struktury IrSb) PERIODICAL: Kristallografiya, 1958, Vol 31 Nr 3, PP 366 - 35? (USSR) ABSTRACT: Powder photographs were taken of a specimen of IrSb with Cu, radiation in an 11.4 cm. dii powder camera. The material was made by heating the elements in a quartz tube to the softening point of the latter. The structure was of the NiAs type with a=3.970 � 0.001 KX c = 5.510 + 0.002 KX wi-t-.h c/a = 1-388., d obs. = 13.5 9/cc. Z=2~ The space group is probably C6/mmm = with Ir at (OzO,O), (0,0,1/2) and 6h I Sb at � (1/3, 2/3, 1/4). The z parameter of the Sb can-not differ" &eatly from 1/4 A table of observed and calctilated intensities is given. Acknowledgments to Prof. G.S. Zhdancv and N.N. Zhuralev . There are I table and 2 Soviet references. ASSOCIATION: Moskovskly gosudarstver..Uy universitet imeni Card 1/1 M.V. Lomonosova (Moscow State University imeni M.V. Lomonosov) SUBMITTED: July 11, 1957  0-3-3-26/36 AUTHORS: Zhdanov, G.S., Zhuravlev, R.N., Kuzlmln, RX. and Soklakov, A.I. The Establishment by X-ray Crystallography of a New Compound Bi3Rh in the System Bi-Rh (Rentgenograficheskoye ustanov- leniye novago soyedineniya Bi 3Rh v sisteme Bi-Rh) 17BRIODICAL: Kristallografiya, 1958, Vol 3, Br 31 PP 373 - 3?4 (USSR). ABSTRACT: Bi4Rh has been supposed to occur in three polymorphic modifications a 1 0 and y . Goniometric and X-ray obser- vations have been made on O-B4Rh . Its habit is identical with that of Bi3Ni and its cell dimensions a=9.1, b=4.2, c=11.4 A are close to those of Bi 3Ni (a=8.875, b=4.115, 16 d c=11.4??). Both have the space group Pnma = D~h obs. = 10.7 � 0.2 gm/cm3. gives Z nearly equal to 3 if lae formula Bi4Rh is used. It seems clear that the formula should be Bi3Rh giving z=4 and powder photographs also confirm this Cardl/2 resemblance to Bi 3Ni  70-3-3-26/36 The Establishment by X-ray Crystallography Of a New Compound B13 Rh in the System Bi-Rh There are 7 Soviet references. 'ASSOCIATION: Moskovskiy gosudarstvennyy universitet imeni M.V. Lomonosova (Moscow State University imeni M.V. Ioomonosov) SUBMITTED: July 11,, 1957 Card 2/2  7873-3-36/47 AUTHORSs Zhdanov, G. S. , Zhuravlev, N. N. TITLE: An Investigation of the System Bi-Rh (Issledovaniye sistemy Bi-Rh) PERIODICAL: Zhurnal Neorganicheakoy Khimiiq1958,Vol.3, Nr 39 PPo750-754 (USSR) ABSTRAM By X-ray analysis some compounds of bismuth and rhodiump especially Bi Rh and Bi Rh were investigated. The crystals of P-Bi 4Rh aAd OC,-Bi2i& were investigated. The -Bi4Hh- -crystals are rhombic and have t-- following lattice constants* a - 11t4 + Ov2 R9 b a 9,0 + 0,2 R" c " 4,2 + 091 R. The den- sity of the crystals is F- IM � 092 g/c;~% The compoundc)(,-Bi2Rh oFstallizes in the monoclinic system with periods a - 697 ,b - 698 iq a - 699 Ro The system CoSb was investigated at the same time and on the basis of X-ray analyses it was found that a-Bi Rh and CoSb 2 are isomorphous compounds. The crysta,13 CC-Bi 2a can be claosi- Card 1/2 fied with the structural type of markaBite. During the melt-  An Investigation of the System Bi-Rh 78-3-3-36/47 ing of antimony with cobaltp rhodium and iridium crystals of CoSb,, RhSb 2 and IrSb, were determined. These crystals have a manoaldjLia structure. The unit cells of the compounds CoSb 29 RhSb2 and IrSb 2 were calculated IV the roontgengonometric method. 3 CoSb2 1 a - 6,5 R9 b -695 1, c-6,5 L A-118+1,cf-8,3 glom Z-4 RhSb2 1 a o 696 19 b o6,5 19 c~697 i, P-117�1,'T-9,0 9/cm3,Z-4 IrSb2 t a - 6,6 R, b -6,5 R, c-6,7 R, A-116+1,0'-10,859/cm 3 Z=4 B12 Rhs a - 697 Rv b w698 X, c-699 R, r'-117�2q6'u12 ' g/CM3 Z-4 A new group of isomorphous compounds CoSb 21 oc.-RhSb, IrSb2 and cy.-Bi2Rh was produced. There are 5 figures, 1 table, and 12 references, 11 of which are Soviet. ASSOCIATIONs Moskovskiy gosudaretvenny universitet im. M. V. Lomonosova (MOSCOW State University imeni M. V. Lomonosov) SUBMITTEDs June 25, 1957 Card 2/2  24(6) LUTHORst Zh=avlvv, N.N. 'I Pak Gvau 0., SOV/55-58-5-13/34 Kuz'minq R.N. TITLEs Investigation of the Luti-mony-Rhodium Alloys (Isaledovaniye splavov surlmy a rodiyem) PERIODICALt Vestnik -Moskovskogo universitet&,Seriya matAmtikip mekhwUki.~ astronomiii, fiziki., khimli ,950ir 5, PP 79 - e2 (USSR) kBSTRACTt it was stated that there result three combinations when melting together antimony and rhodium: Rh Sb 31 Rh Sb 29 Rh Sb. Rh 3b crystallizes in the monoolinic syngony with 2 d the periods a - 6.6�0.2 A* t b - 6.40.2 A , a -6.7� 0.2 A and 2 - 1170� 10. The elementary cell contains 8 antimony- and 4 rhodium atoms. The space group is C5 (P2 2h 1/0 The-authors us-e+t1re densities of Rh and Bb according to M.P. Slavinskiy [Ref 11/ and crystallographic dates of N.Ye. Alekseyevskiy. Card 1/2  12 Investigation of the Antimony- Rhodium Alloys SOT/55-58-5-13/34 There are 3 figures, I table, and 12 references, 11 of which are Soviet, and I is German. ASSOCIATIONt Kafedra fiziki tverdogo tels, (Chair of Physics of Solid Body) SUBMITTED: April 12, 1958 Card 2/2  S/120/60/000/03/041/055 0 E032/E514 AUTHORS: ZImelev, A. G. and Kuz1m1n, R. N. TITLE: Preparation of Zr-D Targets on a Copper Base PERIODICAL: Pribory i tekhnika eksperimenta, 1960, No 3, pp 139-141 1? ABSTRACT: The zirconium targets were prepared using the arrangement of ribbons shown in Fig 1. The innermost ribbon in this figure is in the form of a copper ring, the next is a zirconium foil tightly pressed against the copper and the outer ribbon is made of tantalum. The zirconium ribbon was 8 to 100 u thick. Owing to the difference in the expansion coefficients of copper, zirconium and tantalum, the zirconium ribbon was tightly pressed against the copper ring. By passing a large current through the outer two ribbons, the zirconium foil could be welded to the copper (700 to 8000C, 0.5 to 3 hours). The zirconium deposit obtained in this way was then saturated with deuterium by vassing deuterium gas over it. The best results were obtained at 6000C, 150 mm Hg. Zirconium deposits 18.7 ), thick could be saturated with Card 1/2 deuterium to a concentration of about 1.64 atoms of X  82001 S/12o/60/000/03/041/055 E032/E5i4 Preparation of Zr-D Targets on a Copper Base deuterium per zirconium atom in about 20 min. There are 2 figures, 1 table and 6 references, 2 of which are Soviet and 4 English. $ SUBMITTED: April 18, 1959 Card 2/2  KUziMIN, R.N.; ZHURAVLZV, U.N.; LOSIYZVSKAYA, S.A. Atomic structure of RuSb, and OsSb 2- Kriotallografiia 5 no.2:218-223 Mr-Ap 160, (MIRA 13:9) 1. Moskovskiy goeudarstvennyy universitet im. M.Y.Lomonosova. (Rubidium antimonide) (Osmium antimonide)  82594 S/07o/6o/005/004/004/012 & 0 E'132/E56o AUTHORS- Zhuravlev, N.N., Zhdanov. G.S. and Kuzimin R.N. TITLE.-. The Atomic Structure of Certain Cdgp-o~undsof Bismuth and Antimony PERIODICALs Kristallograftya, 1.960, Vol- 5, No. 4, pp. 553 - 562 TEXT: 1) Alloys of Bi and Sb with alkali and alkaline earth metals. PI-RbAl has a diagram of state like that of Bi-K. There are two compounds Bi P- Rb and BiRb3 which give maxima in the liquidus. There are probably two other compounds Bi. 2Rb- and BiRb 2 formed in peritectic reactions. The first-mentioned compound Bi 2Rb is superconducting and has the Cu 2Ng structure. The semiconducting compound BiRb 3 is hexagonal with a -- 6.42, c. 7 11.46 A5 and has the AsNa 3 structure. ~!~--SaA7 shows two compounds Bi-2Ca and BiCs 3' BiCs2 is formed in a peritec~-tic reaction. Bi. Cs is superconducting with the Cumg Card 1/4  82504 5/070/60/005/004/004/012 EI'152(EA60 The Atomic Structure of Certain COMPOM s of Bismuth and Antimony structure. BiCs- is semiconducting and has the SbCs- structure (cubic) with a = 9-324 A For the Bi2K, Bi2Rb, Bi2Cs series increasing cell size is linearly accompanied by increasing Tk (temperature of onset of superconductivity). Sb-Rb SbRb has a complex structure and SbRb is isomorpouns 3 with UiRb- and has a = 6.29, C = 11.17 A A P~~iSL and BI-Ba. The former is cubic, Cu Au type, with a 5.02 rand the latter is tetragonal 3with a = 5.188 and c 5.157 but is isostructural. 2) Alloys of Bi with group 8 transition metals. Bi-Rh The compounds Bi Rh, BiRli ~-~nd a, P and y- Bi Rh appear =--I - 11~ 7 2 it to exist but "P-Bi4RIO has an orthorhombic cell (a = 11-52, K' b = 9.03, c =-4.24 A) and a structure apparently analogous to Bi3Ni. The composition is therefore probably Bi 3Rh. Card 2/4  82504 S/076/60/005/Oo4/oo4/ol2 E132/E36o The Atomic Structure of Certain Compounds of Bismuth and Antimony a-Bi2Rh was reported isomorphous with Sb 2Co but this is -,uncertain, PAz&. The phase diagram is largely knoini (Zh. Eics. Teor.Fiz. 32, 1305, 1957). The y-phase near 50% by wt. Pd is hexagonal with a = 7,76, C = 5.86 X and appears to be a superstructure of NiAs. Below 1100 0C there is a eutectic decay to BiPd and V BiPd 3* It may be Bi 3Pd 5' ki, The phase diagram is kno-vm. There are the phases a- and P-Bi2Pt and BiPt. Various differences in the value of Tk reported for BiPt are explained by the possibility of obtaining this compound: in a defect state giving a 0.8% volume decrease in the unit cell. No Bi-rich alloys of Ru, Os and Ir could be prepared. 3) Alloys of Sb with transition metals of group 8. Sb-Co Besides Sb Co and SbColl'a new compound Sb-Co with a cubic 2 As-Co structure has been found. .;P Card 3/4  ' 250, 8 4 S/07o/60/005/004/004/012 E1381E;60 The Atomic Structure of Certain om ound-- of Bismuth and Antimony ,A Sb-Rh Three compounds have been found in this system and the Woftlammalm general lines of the phase diagram are apparent. Sb-Ir ..,,The existence of Sb-Ir, Sb 2Ir and SbIr have been established. Sb 3Co, Sb 3Rh and Sb3Ir are isomorphous. The structures of Sb 2Co, Sb2Rh and Sb 2Ir are isomorphous and similar to that of a-Bi 2Rh. Such isomorphism does not pertain in the Sb2M series. The superconducting transition temperatures of the various materials are tabulated and discussed in termsV~ of their cell sizes. There are 5 figures, 7 tables and 36 references: 5 English, 5 German and 26 Soviet. ASSOCIATION: Moskovskiy gosudarstvennyy universitet im. M.V. Lomonosova (Moscow State University im. M.V. Lomonosov) SUBMITTED: February 23, 1960 Card 4/4  2V,.21110 (1972-111rff1P4 S/07o/6O/005/o06/ool/oo9 E132/E360 AUTHORS: Kuzlmin, R.N, and Zhdanov, G.S. TITLE: X-ray Structure Analysis of the Superconducti Compound B-Bi 3Rh PERIODICAL: Kristailografiya, 196o, Vol. 5, No. 6, pp. 869 - 876 TEM There are three compounds in the Bi-Rh system; Bi Rh with three modifications (low temperature a ~ 1k intermediate teraperature P and high temperature y Bi2Rh has two modifications, a and P ; BiRh has only one form. Crystals of P-Bi Rh were obtained K 3 as needles very suitable for X-ray analysis by pouring of the liquid from a partly solidified melt. The crystals were ortho- rhombic with a = 9.027 +~o.oo6 1, b 4.24 + 0.02, c, = 11-522 + O.oo8, dob 8 = 10,7 9/cm3 dcale 2~ 11.0, z Cardl/3  6780'z s/o?o/6o/005/oo6/ool/0'09 E132/E36o X-ray Structure Analysis of the Super..conducting Compound P-Bi 3Rh The space group might be Pnma or Pn2a Using Patterson projections a trial set of atomic positions was derived and an a-c Fourier projection was calculated. The final atomic positions are (X,Y,Z) :- f1i 1 (0,402, 0.25, 0.180); B-i 11 (0-102, 0,75, 0,089); Bi 111 (0.201, 0.75, 0.386); Rh (0-402, 0,75, 0,018) . The R.-factor for the hot zone is 19.8% neglecting any temperature factor. It is concluded that the space group must be 16 Pnma = D2h The general similarity of this compound with Bi,,Ni suggests that the structure proposed for the latter is probably correct, The coordination polyhedra round the three Bi atoms are different. Bi I has 12 neighbours, Card 2/3  67 8;j 3 S/07o/60/005/oo6/ool/ooq E132/E360 X-ray Structure Analysis of the Superconducting Compound P-Bi3Rh BiII 11 and BiIII 12 The coordination number of the Rh atom is 9 and the Rh atoms lie in seven-cornered polyhedra and occur in zig-zag chains. The shortest distance between Bi atoms is 3.48 4 , Acknowledgments are made to N.N. Zhuravlev, I.S, Berezin and B,M, Shchedrin. There are 7 figures, 4 tables and 11 Soviet references. ASSOCIATIM Moskovskiy gosudarstvennyy universitet imeni M,V~ Lomonosova(?-joscow State U.niverpity imeni M.V. Lotnonosov) SUBMITTgDt Aprii 8, ig6o Card 3/3  KUZIMIN, R.N.; ZHIJRAVLEV, N.N. Problem of achieving greater accuracy in the conatitution diagram for the system Bi- Rh. Kristallograftia 6 no.2;269-271 Mr-Ap #61. (MIRA 14: 9) 1. Moskovskiy gosudarstvennyy universitet im. M.V.Lomonosovae (Bismuth-rhodium alloys) (Radiography)  KUZIMIN R,,,.N ,x, Device for fillin a vessel with liquid for hydrostatic weighW of powders. PribA tekh.eksp. 6 no-5:192 S-0 161. (MIRA 14:10) 1. Fizicheskiy fakulftet ~bskovskogo gosudarstvennogo universiteta. (Specific gravity--Measurement)  S/07o/61/oo6/006/002/008 E132/E135 AUTHORS: Zhdanov, G.S., and Kuzlmin, R.N. TITLE- The structures of the compounds of the isomorphous group MSb2% namelys COS, b2, RhSb2, IrSb2 and a-RhBi2 PERIODICALs Kristallografiya, v.6, no.6, 1961, 872-881 TEXT: By X-ray single-crystal methods the structures of the above compounds have been determined. The dimensions of the unit cells were found to be as shown in Table 11 and the atomic parameters (space group P21/c - arsenopyrite structure) as shown in Table 4. The probable errors in the atomic parameters are about 0.020. The metal atoms are each surrounded by six Sb atoms in a distorted octahedron. The Sb-atoms are 4-coordinated (in distorted tetrahedra) each by 3 metal atoms and one Sb atom. The interatomic distances of nearest and second nearest neighbours are listed. I.M. Rumanova and B.K. Vaynshteyn are twntioned in the article. There are 6 figures, 5 tables and 21 references: 13 Soviet-bloc and 8 non-Soviet-bloc. The four most recent English language references read as followsi card  The structures of the compounds of S/07o/Woo6/oo6/002/00 E132/E135 Ref.8! D. Harker, J.S. Kasper. Acta crystallogr., Vol.1, 70-75,1948. Ref.10* W.H. Zachariasen. Acta crystallogr., 5, 68-73, 1952. Ref.14: W. Cochran, M. Woolfson. Acta crystallogr,, 8, 1-12, 1955. Ref.18; T. RoBengvist. Acta Metallurgica, Vol.1, 6, 761-763-, 1953~ ASSOCIATION3 Moskovskiy gosudarstvennyy universitet im. M.V. Lomonosova (Moscow State University imeni M.V. Lomonosov) SUBMITTED; September 4, 1961 Card 2//,~  S/078/62/007/002/012/01Q, B)45/BIIO AUTHOR: Kuzlmin, R. N. TITLE: Use of the temperature gradient for studying phase diagrams PERIODICAL: Zhurnal neorganicheakoy khimii, v. 7, no. 2, '1962, 407 -- 411 TEXT: A survey is presented of the temperature gradient method for study- ing phase diagrams giving its advantages - continuous phase changes as a function oftemperature, short duration of the test, small number of samples, small material requirement - as compared to other indirect methods of determining states at high teMDerature. For sample preparation from metals difficult to work the melt was either sucked into quartz- or porcelain capillaries (diameter 1-2 mm) by means of a medical syringe, or pressed in by means of an inert gas. The determination of the transition temperature of (PtBi 2),v (PtBi 2)0 (temperatiire droP 40000, length of section investigated, 110 mm) is given as an example for the application of the It gradient method. The microscopic examination yielded T OL90 = 4100C at 10~5- by weight of Pt, in agreement with the phase diagram. Mention is made of Card 1/2  S/07 62/007/002/012/019 Use of the temperature gradient ... B145YB110 S~ A. VekshirLskiy, and M. G. Lozinskiy. G. S. Zhdanov is thanked for the discussion, There are 7 figures and 11 references: 9 Soviet and 2 non- Soviet. The two references to English-language publioations read as follows. W. Rosenhain. J. Inst. Metalls, 11~, 16o (1915); 42, 31 (1929), J. B. Newkirk. Rev. Sci., Inst., 2A, 1116 (1953)- ASSOCIATION: Mookovskiy gosudarstvennyy universitet im. M. V. Lomonosova Fizicheskiy fakultet Kafedra fiziki tverdogo tela (Moscow State University imeni 11, V. Lomonosov,. Physical Division, Department of Solid-State Physics) SUBMITTED: December 24, 1960 C~Lrd 2/2  KUZIMIN, R.M4 Simplified method of alloving for a0orption and the temperature factor ir, formulas describirg the intansities of X-ray interforences, Kristallograftia 7 no.5.'765-787 8-0 162. (MMA 15'.12) 1e Mookcvskiy gosudarstevemyy universitet imeni Lomonosova. (Xr-ray crystallography)  KUZIMINI R. N. Dissertation defended for the degree of Candidate of Physicomatheamtial Sciences at the Institute of Crystallography in 1962: "Investigation of Atomic Urystalline Structure and rhase State of Alloys of Bi with Ph, and of Arsenic with Ir, Ru, and 09.0 Vast. Akad. Rauk~;SSR. No. 4, Moscow, 1963, pages 119-145  KUZ I KLN) R. N. "Analiz elektricheskikh svoystv binarnykh sistem i Boedineniy na osnove ikh edinoy klassifikatsil." report submitted for 6th Gen Assembly, Intl Union of Crystallography, Rome, 9 Sep 63. Moskovskiy gosudarstvennyy universitet im M. V. Lomonosov.  L 12811-65 E 7,'P ( qF Wi TB D S A FFT- / AfD D V'rIVS31,112 Na: Ap3c*07M S/CC~70/6,2/C,~38/C-03/0453/04~-4 t7 AUTHOR: Kuzlmin, R. N.; Mkitin 3 V. TITLE: Structure of compounds of rarn-ear'h mot_12s with antimon1f and bismuth having the composition A) ------------- ~SOTJRCF: Kristallotrafllyf.L, v. 8, no. 39 10,63, 45)-454 TOPIC TAGS: Semiconductcr, sikaerconductivity, rare eartha, 5b, 5i, covalent bond ABSTRACT. This study was made to discovor new compound3 of th6oe eleme!nts. The resttlts --dd to the information. cf czystal chcrni3try of sunerconductivity in binary alloys. '17he compounds obtained represcnt N!iCl structure, a2 1-M-licated by a Com- -iris son of calx,,ilated and mc-agur-ed intrnr--itins on x-ray Dhotographs. The inter- J I atomic distanceD 3iimest the prestnef, of a =xcd ionic-coialcnt chemical tx-rd. In view of this and of the result-S in gen-rr,!, tho~ Pvathors conclude that condtictivit s-hould rot r1T),",`r in r,,rc ~-arthzi v,'fh 3b and Bi Y t~e~ comoounus ar4n: scmicon~.tz-toro. and tho pr~?oervation of N,~_ thcm -,mpo,tq,,t subects of investiratio, n --Clafllve to their orot),~~rties. Crig. art, hfs:I -L~ ble  W(q)AWr(M)/BW AnICAM JV'TG FAIIC-CESSION NR tAP3W'1348 S/0078/63/008/008/1906/1914 AUTHWLS: Kuz'min, j,, N.; Zhurayley'. H. N.; :~hdanov, G. S. TITLE: Thermal analysis of the system Rh-Bi SOURCE: Zhurnal neor-ganicheakoy khimii?"t. 8, no. 8, 1963, igo6,1914 TOPIC TAGS: DTA, Rh, Bi. differential themal analysis, rhodium, bismuth ABSTRACTs Differential thermal analysis has been conducted for the first time in Rh-Bi equilibrixLm systems. An equilibrium. diagram has been eonstructed for the above system, starting with pure Bi and ending with a 22.5 weight % of Rh in the system. Rh-Bi thermograma were taken after the alloy had been homo- geneously heated fop 48 hours at 720C. The only effects shown in th6 heating curves aria the ones corresponding to the eutectic transformation, reactlon of RIMIL formation, and the polymorphic transformation m-8-RhBi2- The differential effect corresponding to the eutectic transformation disappears completely when IV-he Lqard  L 17427-63 ACCESSION VR I AP3000~448 j Rh content is 10.5 welght At 11.0 weight % of Rh, the poly- morphic effect of transformation a:1,Q-RhBi iB noted. This effe-It Increases with an increase of Rh content. Authors concluded that a RhBi4 compound exists. Orig. art. hast 11 figures and 1 table. ASSOCIATION: Moskovs1cLy gosudarstvenny*y universitet, Plzicheskiy faku.11tet, Kafedra fizIJILIci tverdogo tela (Moscow State University, Division of Physics, Department off"Solid State Physics) SUBMITTED: 26Jun62 DATE ACQ: 2!Aug63 ENCL: 00  KUZIMIN R.N.; ZHURAVLL7,, H.N. 0- "? I I Phase diagram of the system Rh - Sb. Vest. Moak. un. Ser It Fis., astron. 3.8 no.2s9-14 Mr-Ap 163, (KIRA 16365 - L Kafedra Miki tvardogo tala Moskovokogo univOrsiteta, (Rhodimn-antimony alloys) (Phase rule and equMbrlum)  ACCESSION NR: AP4012533 S/0056/64/046/001/0137/0141 AUTHORS: Bryukbanov, V. A.; Delyagin, N. N.; Kuzlmin, R. N TITLE: Resonance absorption of gamma quanta in magnesium stannide. 23.8-koV absorption line with natural line width SOURCE: Zhurnal eksper. i teorete fize,'v. 46, no. 1, 1964, 137-141 TOPIC TAGS: Mossbauer effect, photon absorption, resonance photon absorption, magnesium stannide, recoilless gamma quantum absorption, magnesium stannide chemical bond, recoilless resonance absorption probability, tin 119, absorption line, absorption line width, natural line width ABSTRACTs Continuing earlier Mossbauer-effect studies of tin oxides (ZhET1F v. 40, 713, 1961 and v. 43, 432, 1962), the authorslPvesti- gated resonance absorption of 23.8-keV gamma quanta by Sni nuclei over a temperature range from 77 to 290K in Mg 2Sn, which has a struc- Card  ACCESSION NR: AP4012533 ture of high symmetry, so that the electric field gradient at the tin,nucleus should be zero. The experiments were also almed at finding a source of 23.8-keV gamma rays with natural line width. The probability of recoilless absorption of the gamma quanta was found to be 0.77 and 0.28 at 77K and at room temperature* respective- ly. The width obtained for the absorption line in Mg 2Sn was 0.32 + + 0.02 mm/sec, -which-agreea'wel with the value obtained from the lifetime of the 23.8 keV excited state. in view of the pre- dominant role played in Mg2Sn by the interaction between the tin and magnesium atoms, the contribution of the optical vibration is con- siderably reduced for the heavy tin nucleus. In this connection, interest is attached to the study of'compounds with structure iso- morphic to fluorite (P tSn2or IrSb2 with metallic bonds, where an increased effect of the optical vibrations for the tin atoms is ex- pected. *The authors thank Yu. Kagan for interesting discussions of CSM - -2/3  ACCESSION NR: AP4012533 the results." Orig. art. hasi 4 figures and 2 formulas. ASSOCIATION: Institut yadernoy fiziki mookovskogo gosudarstvennoco universiteta (Nuclear Physica institute, Moscow State University) SUBMITTED: 18JU163 DATE ACQ: 26Feb64 ENCL: 00 SUB CODE: PH -~NO REP SOV: 007 OTHER: 003 Card 3/3  -Ar"rF SION NR: AP4042558 S/0056/64/046/006/1996/2002 AUTHORS: -Bryukhanov, V. A.; Delyagin, N. N.-, Kuz'min, R. N.; Shpi- nell, V.'S. TITLE: Mossbauer effect in binary compounds of tin SOURCE: Zh. eksper. i teor. fiz., v. 46, no. 6, 1964, 1996-2002 TOPIC TAGS: Mossbauer effect, tin, tin compound, resonance absorp- .tion, phonon, lattice parameter, lattice constant ABSTRACT: To provide.a simple interpretation of the decrease.of the effective Debye temperature e, which is used to characterize the - probability of the Mossbauer effect, with decreasing temperature, in analogy with the explanation of the increase in () with decreasing :tempLerature presented by the authors earlier (ZhETF v. 40, 713, 1961), 119 the authors investigated reson'anceabsorption of y radiation by Sn. nuclei in the binary compounds SnAs, SnSb, SnTe, and SnPt over a Card  ACCESSIOUNR: AP4042558 wide range of t~emperatures.' A simple model of the phonon spectrumf constructed by superposing-the Debye.and the Einstein spectra, was used in the analysis. The probability of recoil-free absorption ,perature dependenc'e for all four compounds cannot be de- and its tem saribed by a--~-Jrqgle parameter in the Debye approximation. This~ re- sult is attributed to the influence of the o tical branches'.of the 1P phonon spectrum. The measurements of the absorption line widths, quadrupole interactions, and chemical*isomeric shifts are used.to analyze the properties of the chemical bonds and the structures of the investigated compounds. The structure and parameters of the lattices were determined by x-ray analysis. Although the experi- mental results agreed qu4litatively with the model, there was no. quantitative agreement and the observed temperature dependence of 6 exceeded the predictions based on the considered phonon-spectrum model. "The authors thank A,. I.* Firov for his assistance." Orig. art. has: 3 figures, 3 formulas and 1 table. Card- 12/5  ACCESSION NR: AP4042558 ASSOCIATI~014: Institut yadernoy fi"ziki Moskovskogo gosudarstvennogo universiteta (Nuclear Physics Institute, Moscow State Universityk.. SUBMITTED: 17Jan64 DATE'ACQ: ENCL: 02 SUB CODE: SS, NP NR REF SOV: 007 OrniER: 001 Card- 3/5  AP4042556 ENCLQSt)PYs 01 PAncipal characteristics of the Mossbauer effect coe'llitle. 1 re. illie 1 ittOxx 2 _ n, K I . J~ V, tc I w K I 2M SnAs ,34 �O, 2 ~ 7�0,03 0, 0,62�0.02 A,W�O.n5 ~d 0,20�0, M-15 00�10 snsb 2 0.4 �O 0 041 ~ FA:kO (M 0 i t 0:() 0 7rj�(),0:1 '43 () 03 0,31�nA) 1 0 0 03 37 O,MI:F5 655 ' 0 070 0 000 110�6 5 120 i44�3 3 139 SnTo 0.3 0� ,03 2 ,S � + 1 , � , :t , , * � SnK -0,22�0,02 -D,3f)�():02 10,50�0,0G 0,30:~%0,04 t45�t5 210;jIO Compound, 2 Card 4/5  ESSICH NRs AP4042558 ENCLOSURE: 02 - SnPt snot Z&V - 0 kS,.sb.S4T' ~snu 42- We SnTe snsb ell xV M, Iw 4 VK L /oil M r, K Temperature dependence of reooilless absorption probabilit'y (ieft) and of the effective,Debye temperature fot the compounds SnAs, SnSb, SnTe, and SnPt Card 5/5  -7 1.--- ~-, ~.. ~ .-.I. .. - - I ~ -, -I..- a lt-e),Cj: Ir" lf'~- , : p ify-, I fill A I In-, OC .- - . , - I ", ~, 1. ,  ~, -i . Card 1/2 K-1-1-0 - Z- R WE, I'l, ~, -i~ ~ fz*!,~I~l iPA~Z~t-- 5: 't, i .,-; ~., 4., - 1 R  laAe I + t ?,it A F, IP, S 7- 71?,1 -9- 11; uAl ru 7- -e L, 19i YPI Tq- ZHDANOVq UsSe; 1,11i7LM~TV, Masbauer effect used in the 6L.~dy of chewcal brnds i-n metals and alloys. Izv.AN SSSR.Neorg.mat. 1 no.10:1660- 1672 0 165, (WRA 180.2) L Fizicheakiy fakulltet Moskovskogo gosudarstvennogo universiteta imeni M.V.Lomonosova. Submitted July 5, 1965.  IERAIMOV N.S.; KUZIMIN R.N.; ZHDANOV, G.S. .0 1, The't"asbauer effect in compounds of a fluorite type structure UrSn and PtSn ). Zhur.eksp, i teor.fiz. 49 no.5sl389-1393 N 165. 2 2 (MIRA 19.-1) 1. Moskovskiy gosudarstvennyy universitet.  L 2V47-66 ljp(C, M/ Tn. ~ACC NR: -AP6007212 SOURCE CODE: 6TVdOr'-F 6/oc:0/002/0330/0 /6 AUTHORS: Kuzlmin,_R. N.; Ibraimov, N S.; Zbdanov, G. S., ORG: Moscow State University (Moskovskiy gosudar8tvennyy universitet)~ !TITLE: Mossbauer effect in Heusler alloys ,SOURCE: Murnal eksperimentallnoy i teoraticheakoy ino. 2, 1966, 330-338 flziki, v. 50, TOPIC TAGS: Mossbauer spectrum, absorption spectrum, ternary alloy, line shift, heat effect, line splitting, alloy phase diagram ABSTRACT: The authors investigated the Mossbauer absorption spectra of ternary Heusler alloys namely Co MnSn$ NiMnSn., Cu MnSn, Cu FeSn, 2 2 2 119 Cu CoSn, and Cu NiSn, using Sn as the Mossbauer isotope. The 2 2 isamples were synthesized in quartz ampoules in vacuum from components! 1 in stoichiometric ratio. The Mossbauer spectra were recorded with apparatus in wbieb the absorber moved at a constant velocity, using a Sn source. The absorbers had the same thickness with respect toi'- M92  L 23747-66 ACC NR: AP6007212' 'tin as the source (15,mg/cm') and were made of powders of beryl, jiurg I dioxide alloys. The source and the absorbers were kept at 77K. _Two~_l different heat treatments were used -- quenching after annealing, and annealing followed by slow cooling. The Mossbauer lines and the chemical shifts of the different compounds are described briefly. The results show that the Mossbauer spectrum Is sens:Ltive to the beat'i treatment. The most int6resting Mossbauer spectrum was btained for CU MnSn after quencbingi since the Mossbauer line wats split into nine's 2 ,components of almost equal intensity, Instead of the six allowed by 115 the splitting of the nuclear levels of Sn in a magnetic field This anomaly in the spectrum may be due to a disordered distribution of the tin atoms in the nonequivalent posit-ions in the structure of this compound. The-internal magnetic field.at the Un nucleus was I determined for the compounds MnSn and nSn and found to be 42.0' 002 NY and 70.5 kOe, respectively. The results are compai~ed with those ob- tained by others and the causes for the differences discussed. It is~ noted in t-1he conclusion that although the Mossbauer data yield much Ivaluable information on the structure, properties, and phase transi- tions of Heusler alloys, in some cases the spectrum atructure is tooli  L 23747-66 ACC NR: AP6007212 !complicated to be able to obtain quantitative reaulta, so that the 'Mossbauer method must be used in conjunction with other methods. :Orig. art. has: 5 figures and 3 tables. !SUB CODE: 20/ SUBM DATE: 03Aug65/ ORIG REP: 008/ OTH REP: 013  ii:~777 f 7- T J ACC NR: A26014763 1W SObNCZ GODE: U;li/0000/65/000/00O./Ol~5/0129 AUTHORS: Zhdanov, G. S.; Ibraimov, 11. S.; Kuzlmin, R. N. ORG: none TITLE: Application of the 16ssbauer effect to the investigation of superconducting alloys SOURGIZ: Soveshch&ni-ye -po metallovodeniyu i metallofizike sverkhpro-'rodnikov. Ist, 19641 eniye w -d iiiiiics of meta Yetalloved ls 123-129 in superconductors); trudy soveshchaniya. Moscow, !zd-vo 'Nauka, 1965, TOPIC TAGS:. superconducting alloy, lf6sabauer effect, chemical bonding, tin, isomorphism, hyperfine structure ABSTRACT: .4. survey is made of t various applications of the MUssbauer effect to the study of superconducting allpys.k~The method of determinin.- the type of chemical bond is discussed by using the-iso-morphic shift of 1.16ssbauer lines, or For white ti the I Tu (0) 12 * versus 6 curve is used to obtain the ef f ective number of Llii - s-electrons, quantitatively. Then, utilizing the fact that superconductivity iu connecLed with phonon-eleotron interactions in a crystal, the M6sabauer effect in used to determine f where r, 3 3 C . (0, T) = oxp -(2jlfcl.20) ord //Z  L 3~'541-66 ACC iTR. M- If J1 is determined experimentally for a metal in both normal and superconducting states, the Debye temperatures before and after transition can be directly compared. This, however, is shown to be a very sensitive experiment and is vary difficult to perform. Finally, the possibility is investigated for using tile Mossbauer effect to serve V a low-temperature/thermoinet,er This could be done by observing the splitti. 57 of the Fe ground level i*Ito two sublevels for which a unique temperature can be determliie'd. Once more, it is stressed that because of small magnetic moments the phenomenon of splitting is small and the experiment very sensitive to noise. Grig. art. has! 6 figures and 3 formulas. SUB CODE: 20) 11/ SUBM DATE: 23Dec65/ ORIG REF; 003/ MH RrY: 012 Card  L 02459-67 Fvrr(1)1EV1P(t)1ETI IJP(c) JD ACC NR: AiQ24,664 SOURCE CODE: UlVO0701661olVO041031110519 AUTHOR: Kuzlming H, 14,; Kolpakov, A. V.; Zhdanovt G. S. ORIG: Moscow State Univor sit im. M V.1omonosov (1-toskovskiy gosudarstvonnyy et) TlTLE: Scattering of MossbAuer radiation by crystals SOURCE: Kriatallografiyaq v. 11, no. 4, 1966, 511-319 TOPIC TAGS. Mossbauer effect, gamma scattering, atomic structure, crystal structure analysis ABSTRACT:,% The authors prosont a theoretical analysis of the application of the 1'1ossbauor;"off9ct,.and ospociaUy rosonant scattering of quanta by nuclei of atoms in a cryst4lMo the Investigation of the atomic structure of crystals. The theory of the method is reviewed and it is shown how measurement of a sufficiently large nun-bor of reflections makes it possible to establish the crystallographic plane,% which contain Mossbauor atoms. The experimental data which can serve as a basis of structural analysis by the Viossbauor-atom method are reviewed. It is shown that the Xossbauor method combines the advantages of other structure-analysis methods and in .addition has a greater flexibility. It also permits an analysis of complicated Card 1/2 UDC:,  L 09459-67 ACC NR:'Ap6o246& biological cr7stallino objects. Although there are still many experimental diffi- cultios, it is concluded that there are grounds for assuming Mossbauor scattering and diffraction to take their place among other diffraction methods of structural analysis. Orig. art. has: 4 figures and 18 formulas. 'SUB-COD13~. 20/ SUBH DATE: 14Sop65/ ORIG REF: 001/ OTH REF.- 015 Card 2/2 ....... . .  -L 07113-67 EKT(l)/EWT(m)/E'WP(t)/ET1 IJP(c) /GG ACC NAI AP6029107 SOURCE CODE: UR/0048/66/030/006/0937/0961 AUTHOR: Zhdanov.0.8 Ibraimov N.S.; NO min,R.N,; Chochernikov,V,I, ORO: Physics Departmeatt Moscow State University Lm, H.V,Lomonosov(Fizicheskiy fakulftet Moskovskogo gosudarstvennogo universiteta) TITLE: The Uossbauer effect in the intermetallic compounds C01 010~ and Nil On 5epor All-Union Co-nTe--r-e-nc-e-o-n-lNe-Physice of Ferro-and Antiferromagnetism hold 2-~ July 1963 in Sverdlovsk7 e SOURCE: AN SSSR, Izvestiya. Seriya fizichookaya, v* 30, no. 6, 1966, 957-961 TOPIC TAGS: Mossbauer spectrum, Mossbauer effect, magnetic susceptibility, cobalt alloy, nickel allcy,tntermetallic compound ABSTRAC`r: ,Yhe present study was undertaken in conjunction with the growing interest in in intermetallic compounds, in particular those con- taffilmg-rurromagimVIT WERRT.77-Specifically, there was studied the Mossbauer effect in C01.4Sn and Hil.4Sn. The compound specimens were prepared by vacuum melting of the components, followed by homogenizing anneal in sealed tubes (50 hours at about 800oc) and then slow cooling to room temperature. In the same manner there were prepared t speci=e s 9 xtures of the two above-mentioned compounds, I*eol representatives of C 0 the U rystem. Among the last only samples with the NiAs structure W selecte, -if 9e for the KoWs-bauer measurements. The Mosubauer effect was studied on the~Bn nuclei a.-d 1/2  L 07113-67 :C NRt AP6029107 in specimens with a 11tin" thickness of 9 mg/cOe The source of the 23.8 ksV gamma rays was a 5 mg/cm thick Sample Of U92Sa. The measurements were performed with the source at liquid nitrogen temperature. The Mossbauer spectra obtained for Co Sa at different temperatures of the absorber and for a series Of COI.48n-Nil,48n 5011A solutions (0,9,26,60 and 100% COI.4Sn) are reproduced in figures. Also presented in graphics are the temperature dependences of the reciprocal,ousceptibility as obtained by the authors and taken from the literature (M,Asanums, J,Phys.Japan, 17g 3009 1962); the agreement for C01.45n is better than for Nil.48n. The temperature variation of the Mossbauer spectra shows that quadrupole splitting persists up to the temperature of the phase transition, that is, up to the temperature of the break in the reciprocal susceptibility Versus temperature curve; above the transition point there is observed only the singlet Mossbauer line, The results are discussed briefly and ressonpcare hypothesized for the absence of ferromagnetism in the studied interestallic compoundso Further investigations zuet be made before a full interpretation of the preleft re- sults can be offered* Crig. art. has; 4 figures. SUB CODE: 20,07 SUBM DATE: 00 ORIG, RUS 005 OM RN: 004 2/2  SOURCE: Vestnik mashinostroyeniya, no. 8, 1965, W-41 TOPIC TAGS: rhite noise, noise Zenerator, noise analyzer, tape racorder, electronic amplifior/~q~-I-Woise generatorVMAG-8 taperecorder.-UNCh 5 electronic lifier MIU electronic amplifier ABSTRACT: The frequency of natural oscillations of the gas column in inter- stage compressor lines is determined chiefly by the geometric characteristics of the lines and the volumes connected by them. Therefore an acoustic method may be used for determining this parameter. This requires excitation of acoustic vibrations by a spopM radiator placed at tho and of one of the lines with receivers at varikNpoints on the line where the gas column is in oscillations The authors describe a stand developed for this purpose. I UDC: 62-it  ACC NRt _AM017406 Stand for aconstic tests of interstage compressor lines in the 40-300 cps frequency range: I ani 3--ID 36-BAmicro_ phone 2--buffer space; 4---dynamid loud- speaker; 5-sonic, radiation chamber; 6- ZG-10 sound generator; 7-wUte noise - generator or MAG-8 tape recorder; 8--UNCh 50 W amplifier; 10 and 11-automatic recorder; 12 and 13--analyzer; 14-- M multichannel measurement arplifier., 15 and t6--phonomaters, Orig. art. has: I figure,. fjpl~a7 SUB CODE- 09 SUBM DATE: none   "being Produced, to avaluat.~ nev designs -and eheclk againsi comDuted valuen.  BORISOGLEBSKIY, A.I., inzh.; KUZIMIN, R.V.., inzh.1 VASILIYEV, Yu.V., lnzh. Stand for determining the frequency of natural oscJllations of a gas column in interstage communications of canpre3sors. Vest*mashinostr. 45 no.8:40-41 Ag 165. (MIRA 18:12)  VOZNITSKIY. Igor$ Vitallyevich. Prinimali uchBatiya: IVLNOV, L.A., kand. tekhn.naukj,.,-=%1JVk~,4 %-X-.,,,.jnzh.. ROZHANSKIY, G.S., kand.tekhn. nauk, reteenzent; jOif MIY, V.V., dotsent, red.; AIUBZMA, L.S., red.izd-va; LAVRENOVA, N.B., tekhn.red. [Engines and power plants on modern trawlers) Dvigateli I silovye usta-uovki sovremennykh rybopromyslovykh sudov. Moskva, Izd-vo "Horskoi transport," 1959. 201 p. (MIRA 12:12) (Trawls and trawling) (marine engines)  KUZININp R.Vt.; LIUTOV, I.L. Indirect evalUation of the technical conditions of a diesel engine by its vibr~tlon parameters* Inform. abor. TSNIIMF no.68i'Takh. ekspl.mor.flota no.11:40-49 161. (MIRA 15:9) (Marisw diesel engines-Vibrations')  I evicb- ZDCHENKO, V.I., kand. tekhn.nauk, ~b _ pi~ ~ retsenzent; DUAN, N.T., kand. tekhn. nauk, red.; LAPINA, Z.D., red.; KLAPTSOVA, T.F., tekhn. red. (Acoustical method of detecting defects in marine engines] Akusticheskaia defektatsiia sudovykh mekhanimov. Moskva, Izd-vo ffMorskoi transport," 1962. 1U p. (MIRA 15:4) (Marine engines-Defects) Oloise-4%asurement)  -26.03 ACC NRj AP5023332 M souRcE com: LIR/03171'61,:i/000/003/0069~/0063 AUTHOR, S. (11'aJor general of -ar,tillery,' 11ero of the Soviet Unf6~) ORG., None TITLE: Appraisal.of the state of armament SOURCE! Takhnika i vooruzheniye, no. 3, 1965, 62-63 TOPIC TAGS: ordnance, weaDon ABSTRACT: After outlininta.. -eneral aspects of the arriament inspection and stressing the importance of keeping weapons and technical equipment in the state of operational readiness, the author discusses the problem of readiness ratings. Generally, it is recommended to check basic weapons in proportion of 50 to 100% in small sub-units .- and. of 30 to 60 percent in larger units. This inspection percentage --lies between-15 and --- 30% -in-lease - of- techL-'-cal - equipment--. - - The num- ber of -variouo - units -to be inspected is determined by a general inspection plan. The inspee- tion is based upon two approachog. The first is to examine the state of technical opeTational readiness while the second is related to mainten- ance inspection. The readiness appraisal has preponderance over the Card  L 2603M6 FA C NRt AP56i3_3M, Ir mintenance inspection. Each weapon 'Ind piece of equipment undergoing a the inspection must properly be evaluated and the readiness and mainten- ance ratings must be assigned. The collected individual data are used f6F_the~ Yu'rther appraisal of the state of readiness and inainterl'ance in combat branches of various arris (mi.,3siles, artillory, Qrtiiorod tanks, If en(,,ineering, chemical ammunition and viarfare, etc). The ;Iexcellont" is given -Por an excellent state of readiness ana for a mairiten- rating ance state which is Toted notj lowor than "clood". 'Llie ratil)~Y, 4 coiabines a (good rer-Olness and fit za ontisfactiory maintw,,,~i rice. The 4 9 1 b-sfactory" maric is asnnignod .7hon both ieadines-s anq inainteriance ratings are 8ati sf a c t-ory. If one of t~iaoo two re-lGings 1 -0 unsatL~isfactory the ccnibinod rating i3 also "unsatisfe-oluoril,". Tlie o~irno procodure of -aspection is applied to larger milibar-Y forraitiaus~ SUD CC)D-',',: 19 SUPRI DATE' lNome QRIG REIF. C) C 0 M1 _BF,1' 000 2/2  RASTYANNIMV. VIktor Goorglyevich: ='KIN. DITAEDT, A.M.. otv.red.; FAVrUSWVA, Y.N., rad.14d-va; NOTICHKOVA, N.D.. tokhn.red. Cloonou'ic problems of Pakistan] ProbleiW skonoldici Pskiatauo6 Hookya., Ixd-vo vostochnol lit-ry. 1958. 214 p. OaRA 1212) (Pakistan-1conomic conditions)  KUZ%U..-Staaijjav 11~~evich,- DIYAKOV. A.M.. Otv.red.; LIOZUOV. A.G.. red.izd-va; ij-R-A~YA-,-A.K., tekhn.red. [Economic development of Pakistan and the foreign market] Zkono- michaskoe rezvitie Pakistana i vneshnii rynok. Moskva, Izd-vo vostochnoi lit-ry, 1960. 90 p. , (MDU 13:8) (Pakistan-Economic conditions) (Pakistan--Com rce)  MALITSOV, K.A., kand.tekhn.naukl KUZIMIN, S.A., inzh. Construction and testing of a dam made with three-hinged arched ohords. Energ. stroi. no.27148-54 162. (NIRA 15:9) 1. VoesovumW nauchno-iBeledovatel'akiy institut gidrotekhn4-ki im. Vedeneyeva. (Dama)  MALITSOV, K.A., kand.tekhn.nauk; AVTONGV, S.S., inzhq Way)s to lower the costs of building arched dam. Gidr. stroi. 32 no.5:20-23 My 162. (MIRA 15:5) (Dams)  CHICFN.OV, V.M., inzh.;KTJZIMIN, S.F., inzh. lv-~- --V~N -~tr*-Mwa*4* Durning milled peat under sectional heating boilers. Torf. prom. 35 no.5:27-31 158. (MIRA 11:10) 1,Gosudarstvenny7 institut po proyektirovaniyu zavodov torfyano7 promyahlennosti (for luztmin) (Boilers) (Peat)  TAKOMNY, V.A.; KUZIMIN, S.G.; RYBAKOV, P.A.; KORNYUSHIN, A.K. Induction furnace using industrial frequency and equpped with a cylirArica cast-iron crabible for smelting aluminum alloys. Prom. energ. 14 no-1:39-40 Ja 159. (MIRA 12: 1) (Blectric furnaces)  KUZIMIN, S.I., professor. Present state of the problem of calculating heat transfer In firing chambers. Sbor. LIIZHT no.149i122-132 155. (MM 9:6) (Locomotives--Firaboxes)  - I '- 7- A U 4'- / i i /'V, " -, , YMIOIAYEV. Aleksandr Alekeendrovich; KUZKIN. S.I., red.; ZABRODINA, A.A., tekhn.red. rTheoretical foundation of heat engineering] Teoreticheakie oanovy teplotekhniki. MosIrva, Goo. energ. izd-vo, 1957. 349 p. (MRA 11:3) (Host enginaering)  S. 1. FILIPP9V, 1. 1. (-vnrr.)'; k 0 nSpecial Features of Casting fleat-Resistant Alloys by the Lost-Wax Process," (Metody polucheniya otlivok povyshennoy tochnosti (Methods of Making High- Precision Castings), Moscow, Mashgiz, 1958, 14() p. PURPOSE: This book is intended for engineers and technicians at plants and insti- tutes, as well as in research and planning organizations In all branches of the machine -building industry.  8/123/59/bOO/006,/02()/025 A005/001. Translation from: Referativnyy zhurnal, Mashinostroyeniye, 1959, No. 6, p. 221, # 21653 AUTHORS: Filippov. 1. 1.-, Kuzlmin~- S. I. TITLE, Specific Features of Precision Casting of Heat Resistant Alloys PMUODICAL- V sb_ Metody polucheniya otlivok povyshennoy toohnosti, Moscow, Mashgiz, 1958, pp. 93-99 TEXT- The authors considar the methods of preventing scab forma4ion in precision cast:L-zg of turbine blades of heat resistant alloys,'/The scabs o-P Al 0 Cr 20 3, and Ti2O forming on the metal surface destroy, when ge tting into the moQ' the compactness of the casting and deteriorate its mechanical prope--ties. The overheating of the metal cast reduces the scab formation, but yields a crust and decreases the heat resistance of the alloys. The bottom casting system and +-he application of portion furnaces with filling up by the swinging method yield good results. The elimination of 0 2 from the mold cavity and filling in with the metal in a neutral gas atmosphere is an effective mode of preventing scab f-arma- Card V/2  S/147/59/000/04/020/020 E031/E413 AUTHOR: Zolotukhin, V.K. TITLE: The Scientific-Technical Conference at Kharikov Aviation Institute PERIODICALtIzvestiya vysshikh uchebnykh zavedeniy, Aviatsionnaya tekhnika, 1959, Nr 4. pp 161-165 (USSR) ABSTRACT: In May 1959, the 16th Conference of Professorial and Teaching Staff took place. At a plenary session the following reports were read: "The XXI Congress of the Communist Party of the Soviet Union on the Further Development of the Two Forms of Socialist Ownership" by N.N.Aleksandrov, Director of the Chair Marxism- Leninism; VIThe Contemporary State of Rocket Tec_hnolo,AY11.)2 by Docent, Candidate of Technical Sciences I.P.Goldayev,, "Efforts to Produce the First Aircraft Wholly Manufactured in China" by Docent, Candidate of Technical Sciences S,I.Kuzlmin. The work of the Conference continued in twelve sections. Social SciPr(,A.-% Section., The following papers were readi Contemporary Bourgeois Philosophy" by Senior Instructor --enamb-d*.Ll S. I. Epshteyn; "Discussion on Trade Unions in the  KUZIMIN, &j.., kand.tekhn.nauk; LIBEDYAIISKAU, N.D9, kand.tekhn.nauk; ZAYTSZV, A.H., inzh. ftlosive forming of sheet materials. Izv.vys.ucheb.sav.; mashinostr. no.7:87-95 160. (MIRA 13: U) 1. Kharlkovskiy aviatsionW institut. (Sheet-metal work)  V,~:nz,MIN, S~t~of. Some formulae for calculating gas temperatures in the firebez. Sbor. LIIZHT no.168:242-250 160. (MIM 13: 10) (F=nacee)  Kuztmin, Sergey Plavka i litlye Smelting and Nashgiz,p 1962. PHASE I BOOK EIPLOITATION SOV/6018 Illicho Candidate of Technical Sciences zharoprochnykh splavov i staley v vakuume (Vacuum Casting of Heat-Resistant Alloys and Steels) Moscow, Errata slip Inserted. 6500 copies printed. Reviewer: S. P. Nestertsev, Engineer; Ed,: A. I. Sirotin, Engineer; Tech. Ed.: G, V. Smirnova; Managing Ed, for Literature on Hot-Working of Metals: S. Ya. Golovin, Engineer. PURPOSE: This book is intended for workmen and engineering personnel of precision casting shops and sectione:specializing in th& vacuum melting and casting of heat-resistant alloys. COVERAGE: The book deals with the latest industriAl. experience in the vacuum melting and investment casting of alloys &nd steels, and with the results of scientific research work relating to these processes. Principal types of vacuum induction furnaces used for this purp~ose- and working practice with these furnaces are described. Problems of the selection and behavior of refractory C ard lA  Vacuum Smelting and (Cont.) Soy/6018 materials of crucibles and molds under conditions of vacuum melting and pouring a r e also- analyzed. Results of the study of the structurey propertiest and chemical composition of nickel- base alloys melted and cast in vacuum or inert gas are presented. No personalities are mentioned. There are 43 references: 27 Soviet, 13 English, and 3 German. TAXX OF CONTENTS: Introdugtion 3 Ch. I. The Netical Problems in the Vacuum Melting of Metals 7 1. Met 'a, gassing . 7 egass 2. Mechanis of reduction of oxide films 8 is 'of 3. Evaporatiom, of metals in vacuum 13 Ch. II. Chemical ComKsitionp Structure# and Properties of Vacuum Melted Al~'Ioys 17 1. Chemical oomposi io-A-1 17 2. Structure of',vacuum te alloys 21 Card 2/S  KIZ11~1E, S. IMI. I'DeterimLiation of the Coefficient of Traction Load Irregularities of Electric Railroads.." I... JU-. Nauk SSSR, Otdol. Tekh- INawk, No. 9, 1941, Sulornitted 12 I.Tay 1941, ReQort U-1530, 25 Oct 1951  .-II - ~-,. KARAIDAYND K.B - KUZIHIN S.M.. redaktor; IARIONOV, G.Ye., tekhaicheekty redaktoir2 [Methods of electric measurement; differential. bridge and compensating] Ketody elaktricheakikh ismerenii; differentsialInys. mostovye i kom- peneatatowye, Ntiekva, Gos.energAzd-vo, 1952. 335 P. (HLVA 10:10) (Alactric measuremockta')  BELIKIND, L.D., professor; SHATELEN. M.A., redaktor; KUZIMIN. S.M., re- daktor; SHEVCHENKO, G.N., tekhnichaskiy redaktIovq-?,.w-*-,v, (Pavel Nikolsevich YAblochkov; works; documents; materials] Pavel Nikolaevich Ikblocbkov; trudy, dokumeut7, materialy. Moskv&.I%d-mo Akademii nauk SSSR, 1954. 463 jj*' (KEBA 8W 1. Chlen-korrespondent Akademii nauk SSSR (for Shatelen). 2. Aka- demiya nauk SSSR.' (Electric engineering)  STAROSKOLISKIYx A.A.; KUZIMINs S.N.; MALITSEV, N.D.v retsenzent; AKSENOVA, 1.47- ~re.;~SHINA, L.A., tekhn. red. .1 [Chemical plants for dyeing and finishing processes]Khimi- cheskie stantaii, krasillno-otdelochnogo proizvodstva. Mo- skva, Rostekhizdat, 1962. 185 p. (MIRA 15:11) (Dyes and dyeing-Apparatus) (Textile finishing)  GRIGORIYEV, Aleksey Hikoloyevich; ASLAKAZOV, Gavork Mikaelevich; J=IHIN, Sergey Favloylobi Prinimal uchastiye:POLTAKH, B.S.. Uk~SZV~.- -3 --ytt. . red.; KHITROV, P.A., tekhn.red. LRailroad tank care; design, operation, and mnintennneal Zholezno- ,,Aorozhnye tsisterny; ustroistvo, ekspluatataiia i remont. Moskva, Gos.transp.zhal-dor.izd-vo, 1959. 214 p. (MIRA 12:12) (Tank cars)  KMIMINt q-,T.T-;.-qHBRNOZHUKOV. W.I. -~ - Using carbamide for removing paraffin from lubricating oilo. Izv. v7s. ucheb.-zav,,; neft? i gaz no.1:111-117 '58. (MIRA 11:8) l.Moskovskiy neftyanoy inatitut Im..akad. I.M. Gubkina. (Urea) (Paraffins) (Lubrication and lubricants)  SOV/65-58-10-3/1-r- Arm-HORS: KuzImin, s. T. and Chernozhukovp No Is TITLE: The'Deparaffination'of Lubricating Oils with Carbamide (K voprosu. deparafinizatsii smazoohnykh masel kar- bamidom) PERIODICAL: Khimiya i Tekhnologiya. Topliv i Masel, 1958', Nr 10., pp 12 .- 16. (USSR) ABSTRACT: By the Interaction of carbamide with organic compounds, it is possible to separate normal paraffins from mix- tures. The formation of complexes is due to the adsorption of paraffin hydrocarbons by the oarbamide crystals. The authors investigated the Influenco of 0 various solvents (methyl ethyl ketone, petroleum, alk7l- ate, acetic acidg isopropyl alcohol, benzene and a-^e- tone) and of additives-on the deparaffination of lubri- cants. Most satisfactory results were obtained when using methyl ethyl ketone and isopropyl alcohcl. Methanol and normal heptane were moat suitable as activators. The quality of the raw material influences the de- paraffination process and very good results were ob- tained when using light oily fraotions. Two treat- Card 1/3 ments with carbamide suffice to separate the solid  SOV/65-58-10-3/15 The Deparaffination of lubricating Oils with Carbamide hydrocarbons. The experiments were carried out on fractions boiling between 350 and 50000 of Tuymazy petroleum when using Isopropyl alcohol as solvent. The deparaffination process consists of the following stages: the reaotion between the earbamide and the distillate; the separation of the complex by filtration; the washing of the residue with the solvent; the de- composition of the c(,mplex and the sepaistion of the solvent by distillatAon. 5 to 20% methanol, water and ethylene glycol were used as additives (Figs. 1, 2 and 3). The best results were achie-red when using 9 to 10% methanol and 5 to 10% ethylene glycol. The influence of0process temperatures was investigated between 60 to 25 0. The interaction of carbamide with solid hydro- carbons starts at tempemtures above 4000, and opplex formation oocurs ~t an initial temperature of 55UCI bet-Keen 20 and 40 C de pa ra ffination is minimal. Tests were also carried out when usizg 50 to 175% car- bamide, and the separation of solid hydrocarbons was most satisfactory whdn using 100% carbamide. The length of the experiments varied between 10 to 90 minutes and the optimum time of mixing found to be 30 minutes. The Card 2/3 degree of purity of the paraffin depends on the amount  SOV/65-58-10-3/15 The Deparaffination of Lubricating Oils with Carbamide of the solvent used and on the number of washings. 96% pure paraffin was obtained whan washing, the samples twice and usirg 50% of the solvent. The authors also attempted to Improve the solidifoation points of the lubriCantsby using 1% of the depressant AzN11 (see Table). In this way the solidifiroation points can be-lowered to -25 to -301C. The method of extractive crystallisation makes it possible to manufa--ture ti:ansformer oils with solidification point,~ of -45 to -500C and oily distillates of motor oils with solidiAcation points of -9 to -1000 There are 3 Figures, 1 Table and 13 Roferances: 4 Soviet, 8 Xnglish and 1 German. ASSOCIATION:MNI Im. Gubkina (MNI im. Gubkl.n) Card 3/3  KUZ.'MIN, S.T.; CHEMIOZHUKOV, N.I. Dewaxing of lubricating oils with carbamide in the presence of isopropyl alcohol. Trudy HNI no.23:62-69 '58. (MM 12:1) (Lubrication and lubricants) (Urea) (Isopropyl alcohol)  /7 32-8-45/61 AUTHOR GOKHSHTEYN, Ya. P. 'UZRIN S. V VOLKOV A. F. t YA1WCHEV TITLE Oscillographic Polarograph "Geokhi". (Ostsillograficheakiy polyarograf "Geokhill.- Russian) PERIODICAL Zavodskaya Laboratoriya 1957, Vol 2,1., Nr 8, pp 988-992 (U.S.S.R.) A13STRACT A new highly sensitive device for os,rrying outenalyses is I concerned here. The experiments of the quantitative deter- minations of small contents of Bi, "-;b, Cd, and Pb at high content of uranium-are given as examples. The radioteoh- nioal scheme of the apparatus is -iven here which shows that to the main part of the apparatus there belonge the generator scheme with two tubes, a pentode with reversed negative binding in the cathodel in the wiring cirouit of the second stage there is potentiometer which regulates the amplitude of the saw-tooth-like oscillations which are then recorded by the generator by MOans of a capacitor. The next tube (A.) has an oscillation limiter the treshold of which is re,:ulated by an alternhLt,ing resistance. The oscillations are received by the next tube (4) which has an electrolytical cell and a cathode, repeater, after which CARD 1/2 they are transmitted to the next tube (8) with the cascade