SCIENTIFIC ABSTRACT KULIKOV, D.K. - KULIKOV, F.V.

Astronomical Yearbook (Cont.) SOV/5461 and K. G. Shumikhina; table for determining latitude by the altitude of the Polar Star - K. G. Shumikhina and P. A. Gutkina; preparation of manuscript for publication - V. G. Kudinova; review and edition of "Explanatory Notes D. K. Kulikov. There are no references. TABLE OF CONTENTS: Foreword 3 Times of the Year. Some Constants 5 Ephemerides of the Sun 6 Orthogonal Equatorial Coordinates of the Sun (1962. 0) 22 Orthogonal Equatorial Coordinates of the Sun (1950. 0) 30 Card--44&  84573 S/035/60/000/009/004/016 3, 'k-)-O 0 AOO1/AOO1 Translation from: Referativnyy zhurnal, Astronomiya i Geodeziya, 1960, No. 9, p. ii, # 8660 AUTHORS: Kulikov, D.K.A Batrakov, Yu.V. TITLE: A Method for Improving the\&bits of Earth's Artificial Satellites on the Basis of Observations Whose Instants are Known ApproximaT - 1y PERIODICAL: Byul. In-ta teor. astron, AN SSSR, 1960, Vol. 7, No. 7, PP. 554- 569 (Engl. summary) TEXT! The authors describe a method for improving the orbits of artifi- cial satellites when the instants of their observations are known approximately. In the practice of improving the elements of planetary orbits such a problem did nct arise due to their small motion across the sky, so that observational instart5, S even erroneous by as much as I , could be considered as quite precise, Aetifi- cial satellites move across the sky by 1-20 during 18, therefore any error in the observation instant will considerably affect the position of the satellite, Im- Card 1/3 'Ye 9 II MEN  8h573 8/035/60/()00/009/004/016 A001/AO01 A Method for Improving the Orbits of Earth's Artificial Satellites on the Basis 3f Observations Whose Instants are Known Approximately proving the accuracy of time reading is a natural, but not the sole, method of improving the accuracy of elements of the satellite orbit obtained from the ob- servations. A new method of compiling condition equations is presented in the article., instead of usual variations- Z\ rx,, -,/A (5 , are used the variations 6g, LG along the perpendicular to the apparent orbit of the satellite andalong the *.angent to the apparent orbit in the sky. Condition equations for /~ g do not: depend on errors In reading the instants of observation, but equations for G do iepend on them. The analysis of condition equations has shown that observations near zenith permit reliable determinationn of A i and A Q from the equations for A g. The equations for A a permi t determinations of corrections to elements Cj , Mo; n, e, but in this case errors in reading the instants affect the accuray of the elements obtained. In case of sloping pass es of the satell,-te, the I ~ n and A e, whose deter- equations for A g will contain 4 unknowns. 8 i,M6 / m1nation will be almost independent of errors in observation instants. The methcd is described for using artificial sat6llites for geodetic purposes, which Card 1~13  84573 S/135/60/ooo/009/004/016 A001/AO0l A Method for Improving the Orbits of Earth's Artificial Satellites on the Basis of Observations Whose Instants are Known Approximately permits the effect of errors in observation instants to be reduced to a minimum. The method described in the article is illustrated by an example of Improving elements by using condition equations. There are 8 references. V.F. Proskurin Translator's note: This Is the full translation of the original Russian ab- stract. Card 3/3 k -5~  3/0)5/61/000/007/009/021 3,14-o6 AO0!/AiOi AUTHOR: Kulikov, D.K. TITLE: Integration of motion equations of celestial mechanics on electro- nic computers by the Cowell qua drature method with autoTatic step selection iERIODICAL: Referativnyy zhurnal. Astronomiya I Geodeziya ab- no. 7 1961 : -stract 7A57 ("Byul. In-ta teor. , , , , astron. AN SSSR", 1960, v. 7, no. 10, 770 - 797) TEXT- The author derives Cowell's formula with an accuracy up tc terms of 12th orde r with respect to the integration step. Relations were found which make It pos3 lble to transform the integration table for any step W = ~, h, xid particular c ases of increasing and decreasing the step by a factor of two are considered. A criterion of integration step variation is developed., when terms up to fourth differences Incluzive are taken into aco-int. in the integration formula; wo rking formulae are given for this partic!ilar case to resalculate ~he integration table at increasing or decreasing the integration s4.ep by two times. Card 1/2 MAQ '10-01 ~ Mm" A,~, - -10 "Na "A"  S103516 1r-'DOPD7/09/021 Integration of motion equations ... A00 1,/A'LO 1 An operator logical diagram of the program Is prezented for carrjing c-it the Inte- gration process with aat----,Ta,.ic step seler.,Lllon. Worktrg formuaata are alsn gilven for integra~Aon taking into account sixth and e1glith differences at. changing the integrati-,n step by 2. There are 15 refererac-es, N. Yakhcr.,.~,.va [Abstracter's note: Complete translation] Card 2/2  ACCESSION %R-. AM01h6l3 S/0269/64/000/001/0022/0022 SOURGEi HZh. Astronomiya, Abs6 1-51-151 AUTHOR: Kulikovs Do Ke TITLZi Ephemerides of the major planets and the taLks of astrometry CITED SOUHCFt Tr. 15-Y''As.trometr4 konforentsii SSSR, 196o. M.-L., AN SSSRO 1963o 77-86 TOPIC TAGS: ephemeris, major planet.. astrometry.. superior planet, Nowcomb theorys.Mars, Venuso inferior planet, planetary massp planetp Sunj solar observation TRANSLATION: Ephemerides of the superior planets have been published since 1960 on the basis of the results of numerical integration from 1653 through 2060, done at the Washington Observatory. Newcomb's theory still is used for the inferior planets (Farcurys Venusj Earth~ Mars) although it is wall known that the thoory contains appreciable errorso A new analytical theory is being developed now at Card 1/3  ACCESSION NRS ARbO14613 Washington for Mars, for which these errors are particularly large; the Ross cor- rections already are allowed for in the ephemerides. The needs of ephemeridal astronomy now thorrefore are satisfied for the most part for the superior planats, but there are considerable discrepancies between observation and theory for the inferior planets. are The principal factors responsible for these discrepancies 1. Errors in development of analytical theories. These errors are larte for Mars -- the maximum deviations of the transverse component,6-< between crmputa- j tions based on Newcomb's theory and the results obtaiped by numerical integra- :~tion in 1961-1M are (in astronomical units) 288-10-0. 2, Errogs in the mas5es of the p1pnets. The maximum influence on&,C for Mars is 251910 and for Earth is 70,10-0. 3. Errors in orbital elements. For the Earth the corresponding influence is 170-10-8 and for Venus is 252-10-8. 4. Errors in ephemeris time. 1 Their influence for Venus is 40910-8. The total geocentric error for Mars can attain 611, for the Sun 2" and for Venus 411o Equations are derived r6lating the nonclosurea of observations (AJ%p 4aS ) of the sun and corrections of the zero a (A~*top points in ths catalogue &8o)-and the Earth's orbttal elements (&Los Th an, dits AOiej Zkf. e conditions under which individual unknowns are derived with maximum waijits are oonsidereds A total of 98600 solar observations at Card 2/3 SIM, lit- 1011 PE R 0, Wn~ UO 0, X.  ACCiLSSION Mi AAOM613 Greenwich, Washingtonj the Cape of Good 4opc and Ottawa were used to determine a the imntionad valucas The report points out a need,for greatly Increasing work in the Soviet Union on observations of the Sun and the major planets, Biblio- graphy of 16 itemee Khe Pottore DATE ACQ1 19Fob64 SUB COM AS ENCLi 00 card 3/3   FA T-n 4-1 4'   KULIKOV,- PI.K. d~lccased F-0-1r.,,n~,rVes of pl-net3. J,  moms= IVSI, 14. vZmj wwift by APPILMI" '4 ' 'Olttu Pais ,,v& ,d SMIUW 'CCUU&ws &re Slvco. C'IL N  1. XULTY011t D. V. 2. .USSM (600) 4. Plowing 7. Effect of shallow winter breaking on the operal.lon of a plow. Mekh. i elek. sellk-hoz. No. 3# 1953. 9. Monthl List of Russian Accessions, Library of Congresp, April -1953, Uncl.  ROYs, nauchnyy sotrudaik; ZALESSE:[Y, S.K., nEcuchny7 isotrudnik; KU!jMO,,. YUMM, Feg., nauchuyy BotrudiLik. Attachment to BD-24 and SZT-47 tractor-drawn drills for the placement of graxulated suporphosphate. Sallkhozmaahina no.4: 13-14 AP 156. (M"R4 9:7) I.LeulWadsk~.Ve otdolaniya Vaesoyuznogo instituta mekhanizataii. (Fertilizer spreaders)  K OV V -31-1 t7 ~Tt! VC! I) rlfJqXy Z -~PD,;)'- "It M- -LITI .I I ",7-7-j -"C.43U. Vrj,-,. m 161~ U~--r a irlok-' y ss I Pdovat--~ I Iskly Lact I It it, tity--'dr; 1~--Irg` I- prof's A.Pa Ra-modano,11jo Eyev,  0 S/109/62/007/007/005/018 D266/D308 AUTHOR: Kul ny. R. T.- TITLE: Variational principle for UHF circuits PERIODICAL: Radiotekhnika i,elektronika, 7, no. 7, 1962, 1091-1099 TEXT: The purpose of the paper is to propose a new variational .formulation suitable for the calculation of losey microwave cir- cuite. The derivation starts with the wave equations (permeability and permittivity of the medium are regarded:as tensor qqantitiee) and leads to the variational integrals V (rot E/u-1 24 rot,E - k EfE)dv Yqu-'rot Eli? d; = 0 V (1) Card 1/3  8/109/6 2 /007/007 /005 /018 Variational principle for ... D266/D308 -91 2 -> 4 I(H) (rot HF- rot H - k YH)dv - � LHF- rot A de 0 V S (2) where unit vector normal to the su'rface S. Equations (1) and (2) are stationary in respect of small field variations if the tensorB.-c andA are symmetric and if the trial functions are cho- ,a E (tangential component of the sen in such a way that the value 8 electric intensity) and (,U-1 and curl E), on the boundary of S agree with those of the exact solution. If the volume V contains .smaller volumes V1 whose conductivity ai is large but finite, the Leontovich boundary conditions (Issledovaniya po rasprostraneniyu radiovoln (Radio Wave Propagation Studies) , Sb. 2, Izd. AN SSSRv. 1948, 5 - 12) can be used leading to a modified'version of the va- riational integral (1). Three examples illustrate the applicability Card 2/3 77M 777F,"  5/109/62/007/007/005/018 Variatiodal principle for D266/D308 of the method: (1) Attenuation of the H wave in a circular wave- 01 guide, (2) calculation of the scattering matrix of an n-pori junc- tion (only one propagating mode permitted)q (3) thick diaphragm in rectangular waveguide. The refleotion coeffIcient calculated in the last example is compared with experimental results showing good agreement. There are 5 figurea.' SUBMITTEDs November 4o 1961 Card 3/3  /PT*; F fe w~-7,Vcj,7,,jjde circults 3pace i -fle, Sane a-n~-or, nG D =1 iui ao r, o f a v, -a I r~ -'-S- ---ed on s r zeaa a,, ~wr wor!, a-~ rot rot are -,he tensors o-," d-lelectric and e,~z medf'-'-, 3n %ne basis of the fore~~oi-~;, :~e I .' - - - - '-e:-Ij,~ -Y e fj,-J~- Y -edUCeS ~o a fo=i~ aD:~ Joto~)~ 30, 1962  L 18~21-6~ EWP(r)1EWT(m)1DDS AFFTC ACCESSION MR: AP3003728 S/0109/631008/007/iz67/iz6s AUTHOR: Kulikov, E. L. TITLE: Calculating electrodynamic hollow structurep having finite -conductance metal walls -2,f SOURCE; Radiotekhnika i elektronika, v. 8, no. 7, 1963, 1267-1268 TOPIC TAGS: electrodynamic structure ABSTRACT: A variational method for calculating resonators and waveguides suggested by the author earlier (Radiotekhnika i ele:ktronika, 1962, 7, 7, 1091) is compared with the conventional method of calculating losses associated with the finite conductance of metallic regions. Q-factor of a resonator and energy- flux attenuation in a regular waveguide are used as examples of application of the two above methods with this conclusion: The conventional formulas are, in fact, a first coarse approximation of the variational method. Orig. art. has: Card 1/2  L 18391-63 ACCESSION NR: AP3003728 10 formulas. ASSOCIATION: none I SUBMITTED: 15Dec62 .SUB CODE: PH, GE DATE ACQ: OZAug63 NO REF SOV: 005 ENCL: 00 OTHER: 001 0 Card Z12  Acc,~ 'S SION NO: AP4038638 S/0109/64/009/005/0800/0804 AUTHORt Kulikov, E. L. TITLE: Variational method of calculating lossy periodic waveguides SOURCE: Radiotekhnika i elektronilca, v, 9, no. 5, 1964, 800-804 TOPIC TAGS: wavognilde, periodic wwieguido, lossy wavogi-iida, wave.guide desing UCT: 'he variational nothod suggested by Sh. Yo. Tsiru-ing (Radiotckhnika i eio'U~ronE-a, 1957, v. 2, no. 1, P. 3y is furthor daveloped -to cover practical wavcm.1der, hav'ng a fjj-iiLo conlLictivity of U,i_,L- molal walir.-,pio re5t`otion On tho in the filling ned1un. aT.31 C311;_:__11r1111._,(,1 i_i satijfiod at the waalz;. T,1-,.:) -La, are "ric-ft on a U,~.o of 'ho 111 10 il i's Li ;.,-I oxzulpla of a r) r i r, U-in, o r oly thanlkful to 15h. "o. Tzj~.,-wir,.-, ond~ r, Kat's ;L*o,- 'Uheir to trici -;-rork olnd the valuablo i;.dvj.co !.n tho cotir5o c-f the work." Ovi-. iwt. has j 2 f igaves and 15 formulas. Card 1/2  ACCESSION NO: AP4038638 1,.SSOCD%TION-. none SUBMITTED: O4Mar63 tSUB CODE: BG DXTE- ACQ: 05Jun64 NO REF SOVs 004 UNCL: 00 OTHM; 003 2/2   N-i  .KULlKOV. E.L. Variational methods for calculating microwave cirfnaitf~. Radlotekh. i elektron. 10 no.3:559-561 Rr 165. (MM 18: 3)  L 33579-FAr% rWrT t I ACC NRt AR6016256 SOURCE CODE: uR/oo58/65/ooo/oll/no38/Ho39 AUTHOR: Kulikov, E. L. TITLE: Variational method of calculating multimode waveguides w-.I-h 1nhomogeneities SOURCE: Ref. zh. Fizika, Abs. llZh263 REF =RCE: Tr. molodvkh uchenykh. Saratovsk,jua- . Vyp. fiz., Saratav,.'1965,,' 75-80 TOPIC TAGS: vaveguide coupler, waveguide, boundary value problem, Fourier analysis, scattering matrix, matrix element ABSTRACT: A variational method is proposed for calculating multimode waveguides with inhomogeneitien; thin method is a development of a method described earlier (RZhFiz$ 1962, l2zh144). The author considers a generalized waveguide structure, comprising a junction of N regular waveguides. A procedure in described for calculating the elements of the scattering matrix of such a device with the aid of n-inctionals ex- pressed in terms of integrals aver the surfaces of the waveguide cross sections, at sufficiently large.distances from the unction. By substituting into the functionals trial functions that satisfy the necessary boundary conditions, a relation is obtained between the Fourier coefficients of the complex amplitudes of the f ields. Inac:-.,1ch as these coefficients are unique*ly related with the 8-matrix elements, equations arl, thus obtained for the elements of the scattering matrix. An example of the calcula- tion is given. lation of abstract] SO CODE: 09,  JJACC NR, AP6036379 SOURCE CODE: UR/010!)/66/011/011/2074/2077 AUTHOR: Kats, L. I.; Kulikov, Eo L4 ORG: none TITLE: Feasability of using a periodic structure as a transmission line for the millimeter wave band SOURCE: Radiotekhnika i elektronika, v4 11, no. 11, 1966, 207.4-2077 TOPIC TAGS: transmission line, radio tranaminnionmicrowave compon'ent, millimeter wave, dielectric waveguide ABSTRACT: A periodic structure made of flexible dielectric tape with thin metal transverse strips deposited on its surface is proposed for millimeter-wave trans- mission. Tho Maxwell-equation for a two-dimensional problem is used to determine the geometric parameters and propagation data of the structure. The experiment was carried out using'Teflon tape (thickness, 0.09 X; width, 2.5 A; and specific inductive capacitance, E = 2.08 - j 0.02). The periodic structure had the following dimensions (see F'S' 1): 2a ~ + 0.12A, 2d 0.55A, k(d - c) - 0.3, 2  NRa AP6036379 atttw1ition 4. vf C 4 017 V 0,10 OW 400 /,/0 f,?O 1,00119 %Jd/v 'Z4 Pis. 1. Dispersion '(a 0.12A. k(d c) 0.3) Fig. 2. Structure attenuation, db/m (a 0.12A,I k(d - 0 - 0.2) (points are experimental data) Card 2/4  ACC NR% AP6036379 Distance from Natem, 7,S foA; Powerl S I JA, 7S .40- 47. 4~ Card 3/4 Nwer Fig. 3. -Distance from the structure on which 90X of the,tranamitted power is concentrated (a 0.12A9 k(d c) 0.3) Fig. 4. Maximum theoretical power which can be transmitted by tits structure (a - 0.12A, k(d - c) - 0.3) 419 04 010 Maximum power, kw  ACC NR. AP60.36379 and also 2a =.! + 0-113A, 2d'- 0.3Aj k(d - c) = 0.2, k = 22- The results of the 2 A study are presented in Figs, 1-4. Or.ig- art. has: 6'figures and 1 formula. SbB CODE: d9//SUBH DATE: 21Jan66/-'ORIG REF:, 004/ OVi REF: 003/ ATD PRESSi,5106  ACC NR: AP7002018 (A) SOURCE CODE. UR/0142166/009/00510610/0615 AUTHOR: Kulikov, L.; Win, V. K. ORO: none TITLE: New method of measuring line width of ferromagnetic resonance of ferrites SOURCE: IVUZ. Radiotekhnika, v. 9, no. 5, 1966, 610-615 TOPIC TAGS: ferromagnetic resonance, ferrite ABSTRACT: A thin -ferrite -plate -loaded waveguide segment is replaced by an equivalent quadripole (see figure), and formulas for the component impedances of the latter are derived by a variational method. Applied to the case of a ferrite- loaded rectangular waveguide terminated with a matched load, the above formulas permit deducing this expression for the width of ferrite resonance curve: d h2 k 2A/I= 4nM b -T The use of this formula presupposes a knowledge of the LT ..Card 1/2  ACC NR: AP7002018 ration magnetization 4 Ti M and the factor satu VIf giz, where Vcr - gyromagnetic ratio for electron spin and g - spectroscopic -split factor; -6 T , A 2 2 the longitudinal -resonance constant magnetic field H,1 W1 ~. Actual measurements of 4 different- S, ferrite specimens have proved the validity of the above formula. Although the required measurement of 4 jr M and ~ may be regarded as a shortcoming of the new method, these quantities have to be ZAN determined anyway in, designing many ferrite- containing devices. Orig. art. has: 2 figures, 17 formulan, and I table. SUB CODE: 0 SUBM DATE: OZApr64 ORIG REF; 00? 0TH REF: OOZ Card Z/Z  h-ULIKOV F. In addition to wages. Sov. profsoiysy 17 no.8:39-41 Ap 161. (MIRA 34:3) -1, Predsedatell profsOYU2nOgo komiteta zavoda imeni Ukhto!,~skogo. (Lyubertsy--Machinery industrT workers) (cost and standard of living)  ROZENDERGO m., Use of' keyboord computers In machine accounting. Revh.transp. 23 no.9t23-26 S 164. (MIRA l9rl) 1. Glavnyy b-dkhgalter Cherepovetskogo sudoremontno-sudostrol- tellskogo zavoda (for Kullkov).  KUI~O XUTSOVSKIY, Filipp Ventaminovich; POSTMYAK, Ye.F., inzh., red.; YRNGER, D.P., tekhn.red. [Quickly built protective device for lathes; practices of the "Kalibr" Plant in Moscow] Bystradeistvuiushchee zashchitnoe ustroistvo k tokarnym stankam; opyt moskovskogo zavoda "Kalibr.11 Leningrad, 1956. 3 P. (Laningradskii dom nRuchno-tekhnicheskoi propagandy. Informatnionno-tekhnicheakit liatok, no.2. Moderni- zateiia i remont oborudovaniia) (MIRA 10:12) (Lathes)  Mvll"  KULIKOV, I.L., inih.; IMINIKOTA, N.M.. inzh.; DKITROTICH, N.A.. insh. Fazaty instructions for gaa-genomtor operatorse Besop* truda v prom. 4 no-7:36 J1 160. (MIRA 130) (Gas producers--Wety measures)  KULIKOY, F4G. ---"NNNWAV Operations of a calculating machine office. Proizv.-tekh. abor no.1:104-106 159. (MIRA 13:9) 1. Cherepovetskiy sudoremoutno-sudoetroitellny7 zavod. (Inland water transporation-AccouAting) (Calculating machines)  WMINLOW, MliknaLl YukovIevich: -KULIKOV, Fedor Georgiyevich; i~ORUUIA, A,, red. [Use c~f keyboard cal(.,ulat.ing m!lcbires where the journal- voucher a-counting system is in. operation] Primenenie ool-iottio-IclavisbrVkh mashin pri zhurnallno-ordernoi forme 13C "fit 0 V,)d:3 tNa .Mlo skve , F I voi i i sy, 19 65 .8-3 p. (lu-~u 18:7)  KMIKOV, F. R. Nngineer) "A techriol.orj for mnnufaeture nnd annf.~allng (if rdf~e I.Ines frr.-,m. alloytj of titanium. and AMg6 with thickness of walls 0.6-1.0 irm". Report presented at the regular conference of' the Moscow city adn,-Lnistration NTO Mashpro.,I, April 1963. (Reported in Avtomaticheskaya Svarka, No. 8, August 1,.-;63, PP 93-95, M. N1. Poj)ekhin) JPRS24,651 19 may 64  ACCESSICH NRi AP4029A 8/0135/64/000/004/0016/0019 AUMCB: KtLUkZv,, Fe Ro (ftgineer).; DCdina, A* Is (Engineer); Frolorp No 0& (Engineer) TITM Mechanized argon shielded sic spot volding of SH-~2 stainless steel and OT-4 titanium alloy SWRCE: Svurochnoye proizvodetwo., no. 4, 1964, 16-19. i TOPIC TAGS: spot velding, SN 2 stainless steel,, OT 4 titaglun aUcy.. arc we3A- ing, argon are welding ABSTFACT: The authors developed a method and equilment for mechanized argon- shielded spot welding of stressed structures open on one side only. In this method the welding gun In preased against the upper member1of the joint with a controlled pressure of 20-200 kg., which ensures a close coltact between the mem- bers adl improves considerably theqxality and, reliability of the velded joints. The sizes and breaking loDAs for spot welds in thin (0-4-2.0 m) sheets of BH-2 stainless steel and OT-4 titanium alloy am presented, with a' layout of the welder and the control panel* The beat results an obtained with welding under Card 1/2  ACCESSIM NR: AP029A rigid conditionD . Jjes p vith high currents. Argon are spot welding can be successfully used in various branches of the machine-building industry for join- ing thin sheets or thin sheets to tblek sheetse Orig. ext. hast 2 tables and 7 figures* ASSOCIMCINt none StMMMD 1 '00 MCL: 00 SUB CCIM M. NO 1W 80vt 000 Ormt -000 Cotd  KIJLIKOV , F.R. , inzh.; BULINA, A. I., inzh. S.trength of joints made by mechanizad argon are spot welding. Svar. proizv. no.8:18-21 Ag 164. (141RA 17:9 N A ta, Q~E.  a ACCESSION NR: AP4043207 S/0125/64/000/008/0069/0072 Pe. iAUTHORS: Kulikov,,._~_t_j. ::sidskiy, A. S. TITLE: Automatic welding of heat compensators SOURCE: Avtomaticheskaya svarka, no. 8, 1964s 69-72 TOPIC TAGS: automatic welding, heat compensator, steel bellow 1seam quality, seam width, seam height, compensator lining, non !.melting electrode welding, argon arc, compensator lining, seam roll- ing, seam testing, seam welding optimal condition ABSTRACT: Automatic welding was investigated as a substitute for the earlier, complicated process of manufacturing the steel bellows used as heat compensators in gas and air ducts. The seams have to be flat) since these bellows consist of 2 layers;.hermetic scaling is also required. Welding was done under argon by a non-melting electrode, with subsequent rolling of the seams. A low current was used, since high voltage lead3 to wide seams. For best results the length of the arc should bet!5 3 mm. The following empirical formula was found for securing optimal conditions: Card 1/2  ACCESSION NR: AP4043207 to 12) 6 If - (2,' 02-5)6'; B - (10 where 11 is the seam height in mm; is the thickness of the* strips to be welded in mm; and B is the seam width in mm ' In the tests 6 was 0.2 - 0.3 mm. The lining under the~'peams was preheated; steel lining was found preferable to copper for hermetic sealing. The scams were subsequently rolled; the machine used to this pur- pose is briefly described. The best results were obtained with a force of 250 to about 300 kg. Throughout the -experiments, the specimens were X-rayed for microfissures, and tested for mechanical strength. The editors remark in a footnote that such thin sheets may also successfully be welded by pulse-arc. Orig. art. has: 4 figures and 2 tables. ASSOCIATION: None SUBMITTED: 18Jan64 ENCL: 00 SUB CODE: MM NR REF SOV: 000 OTHER: 000 Card 2/2  L 968- 66 r~P v E E z_WW1AZ;._ r ng vy (t /E up ACC _NR APS027599 SOURCE CODE, UR/0135/65/000/011/0013/0016 AUTHOR: Kulikov, F. E._(Zagineer); Vas'kin, Yu. Y. (Engineer) -YY 1 -5 - -5 VY, ~_ 5 ORG: none TITLE: "ein f complex-shaped titanium-alloy pipe sections ~d 5~ qT Y3 SOURCE*. Svarochnoye proizvodstvo, no. 11, 1965, 13-16 TOPIC TAGS: metal tube, arc--welding, titanitm alloy, inert gas welding, welding equipment component ABSTRACT: The authors describe techniques and auxiliary equipment they developed for ihe annular ar#, longitudinal argon arc welding of intricately shaped sections of titanium pipe Vneasuring 50-200 mm in diameter and 0.6-3 mm in wall thickness (Fig.1). Since some of these sections reached 5 m in length, the authors developed a special device for shielding the atmosphere around the reverse side of the weld seams (Fig.2): the volume of inert gas bounded by two soft stoppers 1 is moved by means of cable 4 throughout tube 5 at a rate coordinated with the movement of the welding torch. The distance between the stoppers is adjusted by rod 2 and the gas is supplied by con- necting pipe 3. As for the welding of shorter pipe sections, this may be carried out in a controllable-atmosphere chamber. Since titanium is highly active with respect I to nitrogen, oxygen and hydrogen during its argon arc welding at temperatures of C,,d 1 /3 UDC: 621.791.753.93:621.643.2/3:669.295.!  -11 ACC NR, "5027599 Fig. 1 Die-stamped welded pipe sections of 9T4 titanium alloy (wall thickness 0.8 mm) Fig. 2. Mobile shielding unit. 1 - soft stoppers; 2 - connecting rod 3 - connecting pipe for admission of shielding gas; 4 - cable for pulling the unit along the pipe axis; 5 - pipe section 'Card .211  L,7 )IJ ACC NR1 AP5027599 >4000C, and this detrimentally affects the quality of the welded joints and leads to the formation of cracks and pores in the weld In some cases, the authors developed special techniques of surface treatment and assembling and welding which, if rigorously observed, assure high-quality welding. For example, surface treatment in- volves pickling in a RNO solution and, after final annealing prior to welding, in 3 a 11C1 solution. It is further shown that the few cases of delayed cracking of pipe sections welded by this method are attributable to the insufficiently high level of plastic properties of the base metal. Orig. art. has: 5 figures, 2 tables. SUB CODE: 11, 13/ SUM MTE: none/ ORIG REF: 000/ (YM REF: 000 3/3 77, Card  L-,;/ Z.;N A', a ;/ r'4'?k V I2.'iir I, r_"drke z )/ z4Tk bJr., ACC NRj AP6006182 SOURCE CODE: LTR/0135/66100010021002LIO024 AUTHOR: Kulikov. F -. R. (Engineer); Persidskiy, A. S. (Engineer); Frolov, N. G'. #(Engineer)- ORG: none TITLE: Strength and ductility of VT14,and VT6S titanium-alloy joints obtained by automatic argon-shiel -i ded arc weu Y SOURCE: Svarochnoye proizvodstvo, no. 2, 1966, 21-24 TOPIC TAGS: welding, arc welding, argon shielded are, titanium, titanium alloy, alloy welding; alloy weld, weld property/VT14 alloy, VT6S alloy ABSTRACT: Automatic argon-sbielded arc welding of VT14 and VT6S titanium-alloy sec- tions 2-18 mm thick has been studied in an attempt to obtain welds with a tensile strength of 115-120 kgjmm2 at satisfactory ductility (bend angle of at least 35* and anotdi toughness of at least 3.5-4.0 mkg/cmZ).It was found that in sections up to 6 mm thick the required mechqnical properties can be obtained by using a filler wire of the Ti-4.5Al-4.5tb.-OlRe-V6ystem or a wire containing up to 3.0% Al. In sections over 6 mm thick,-~-Iommercial low-alloy wires containing a-stabilizing elements yieldedl welds with a satisfactory ductility but a low strength, varying from 63.6 to 102.3 kg/mm2. Wires with composition similar to that of the base metal or with a high content of $-stabilizing elements yielded welds with a considerably bigger Card  _ACC NR, ANA06 -1-62 strength but a low ductility. It Is suggested that Ti-Al-V or Ti-Al-Mo-V alloy weld- Iments over 6 mm thick be welded with fillers of the Ti-2.7AI-3.2 V system and used in the annealed condition, which would ensure a tensile strength of 80-85 kgj= at a satisfactory ductility and toughness. With an electrode wire containing 4.5-5% aluminum and 4% vanadium, the strength of alloy welds in the annealed and aged condi- tion can be increased to 100-110 kg/wn2. This, however, requires the use of special electrode wires, which are now being developed. Orig. art. has: 4 figures and 3 tables. (ND] SUB CODE: 11, -13/ SUBH DATE: none/ ATD PRESS: 41 C~qrh 212  ACC NRI AP7001458 CA) SOURCE CODE: UR/0413/66/000/021/0202/0202 INVENTOR:-K-ulikovq F. R.; Gurevich, S. M.; Anoshkin, N. F.; Moroznikova, S. V.; Blashchuk, V. Ye.; Kushnirenko, N. A.; Persidskiy, A. S. ORG: none -.TITLE: tiectrode-wire for titanium-alloy welding. Class 49, No. 188277 SOURCE: Izobreteniya, promyshlentiyye obraztay, tovarnyye znaki, no. 21, 1966, 202 TOPIC TAGS: electrode'wire, titanium alloy, titanium alloy welding ABSTRACT: This Author Certificate introduces a titanium-base electrode wire which contains 3.5-4.5% aluminum and 2.0-3.0% vanadium, with 1.4-1.6% zirconium added to impro~~ve~ the weld.ductility. {ND] SUB CODE: 13, 1l/ SUBM DAM 28jul65/ ATD PRESSI 5110 Card in UDCt 621.791.042.2  ACC N AP7001459 SOURCE CODE: UR/0413/66/000/021/0203/0203 -INVEN TOR; Gurevich, S. M.; Blashchuk, V. Yeqj~uli~oyj_F. R.; Persidskiy,' A. S.; Kushni.renko, N. A.; Anoshkin, N. F.; Moroznikova, S. V. ORG: none TITLE: Electrode wire'for welding titanium alloys. Class 49, No. 188278 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 21, 1966, 203 ?14~ TOPIC TAGS.-. titanium alloy, -tiiaxd===a,1;boy welding, electrode W*=-- ABSTRACT: This Author Certificate introduces a titanium alloy electrode wire which contains aluminum, iron, chromiui6, silicon, and boron. To increase the strength and ductility of welds in alloy sections up to 25 mm thick, the wire contains. 1.4--m-1.6% zirconium while the content of other components is set as follows: 1.8-2.0% aluminum, 2.5-2.7% iron, 0.2-0.4% chromium, 0.1-0.15% silicon, and, 0.052 boron. (ND] SUB GODE.'"11/ SUBH DATE: HMO/ ATD PRESS: 5110 Card 1/1 UDC:  ACC NR, AP7001842 SOURCE CODE; UR/0135/66/000/01210033/0034.' ~~J, AIJ -11 !OR: Kulikov, F. R. (Engineer); Kirillov, Yu. G. (Engineer) wCRG: none ~TITLE: Weldability of thin A,'-1&6 alloy sections SOU'.INCE: Svarochnoye proizvodstvo, no. 12, 1966, 33-34 ~TOPIC TAGS: aluminum magnesium titanium alloy, weldability, thin metal weldability, weld porosity, weld air permeability, porosity scaling C-Akc") A3STRACT: Poor air tightness caused by hydrogen porosity is the main defect in thin :(0.6-1.5 =) AMg6 alloy sheet welds. All efforts to eliminate the poroaity by care- ul cleaning of the base material and filler wire and by strict control of welding ;conditions failed. Repairing the defective welds was of little or no help and, in :sore cases, had a negative effect, Some parts which were air tight showed a leakage ,after prolonged storage. Several methods for improving the weld airtightness were ~tested. Paidting the welds with an adhesive-base sealant produced the best results. ...7he sealant is not toxic; does not react with alloy, is corrosion resistant, and in- :creases the weight of structure. The strength of adhesion between t%e sealant and : alloy is 90 kg/cm2. The welded parts with sealed welds showed no leaks under an air I ,pressure of 3 atm. The properties of sealant are not affected by temperatures from Card 1/2 UDC: 621.791.011:669.715  ACC 114R: AP7001842 -60C to +200c. The effect of the sealant on the fatigue behavior Of AMg6 alloys :welds is being Investigated. Orig. art. has: 5 figures and 2 tables. 'SUB CODE: 13, l1/ SUBM DATE: none/ ORIG REF: 003/ ATD PRESS. :. 5111 2  ACC NRz A117001399 SOURCE CODE. uR70413/66/000/021/6075/0075 INVENTOR: Kulikov, F. R.; Peraidskiy, A. S.; Alekseyev, A. K. ORG: none TITLE: Chamber for local gas shielding. Class 21, No. 187902 SOURCE; Izobrateniya, promyshlennyye obrazcsy, tovarnyye znaki, no. 21, 196~, 75 TOPIC TAGS: welding, gas shielded arc welding, titanium welding, titaniu;a alloy welding ABSTRACT: This Author Certificate introduces a chamber for local ga's shiej1ding in are welding of circumferential joints in spherical or cylindrical parts (see Fig. r 1). The chamber consists of two hollow semicylinders, the side walls of which have openings for the part to -be welded and carry a Ws pipeline with nozzles for creating a laminar gas flow and a gas outlet. To ensure airtight seallng in welding parts made of chemically active materials su Ch as titanium and its alloys and to make it possible to rotate' the parts with- out breaking the seal,--the joint of the seraicylinders is built in the form Card 1/2 UDC; 621-791-753-9.037  ACC M AP7001399 A-A ,rig. 1. Chamber diagram, o" a water-cooled flange, and the openings of the side-walls are.provided with 4eal -ing flanges consisting of a rotating flange mounted on a supporting ring. In a variant of the charber, to enable welding of cylindrical parts of dis- similar diamaters, the rotating flanges are provided with exchangeable elastic rings! in-the shape. of.truacated cones. Orig. art. has: 1 figure.' .1 - Water-cooled flange,-. 2 - six?porting ring;- 3 - rotat- ing flange-; 4 - clamp~n& ring; 5 - elastic conic ring. SUB CODE: 13/ SUBM DATE: MarOf ATD PRESS: 5111 Card - 2/2  NALIVKIN, V.D.; ROZAROV, L.N.; FOTIADI. X.E.; TEGOROV, S.P.; TENGURAZOV, I.I.; KOVALEVSKIT, Yu.S.; KOZACHENKO, A.A.; KONDRATITETA, M.G.; KUMSTSOV, G.A:; J,~.; LOBOV, V.A.; SOYRONITSKIT, P.A.; TATARINOV, A.G ; Turiy Alakmandrovich, redaktor; DATLY', G.A., vedushchiy redaktor; GEITIUDITEVA. 1.M., takhnicheakir redaktor. [Volga-Ural oil-bearing region: Tectonics] Volgo-Ural'skaia me neftenoonaia oblast'. Leningrad, Goe.nauehno-takhnAzd-vo neft. I gorno-toplivnoi lit-ry, 1956. 312 p. (Leningrad. Veasoiuznyi neftianoi nauchno-iseledovatellskit geologo-razvedochnyi institut. Trudy, no.100) [Microfilm] (Wah 10:4) (Volga Valley-Petroleum geology) - I (Ural Mountain Ragion-Petroleum geologr)  1-,ULIKOV. F,S, %:t -- . .V - - -1 1 - Gabbro-diabaste intrusions in Pro-Devonian deposits a' B&*Wrj&. I Tool. nefti 1 no.3:53-56 Mr 157. (mm 10:8) (Bashkiria-Gabbros) (Bashkiria,--Diabaves)  14(5) AUTHOR: TITLEt 07"' -59-2-4/16 Kulikov, F.S. The Arlan-D -,urtyulin "one (,',.rlarr,-7,-Yurt.yulin3- k.,,y,t neftencamiya -.ona) PERIODICALs Geoloiriya nefti, i ,,Pa%a, 195~, Nr -1, pp 15,12 (Us:~T,1) ABSTRACTs The Arlan-D,rurtyulin oil-bearing :_4reE~ is situated in the North-West P&rt Of the BasbkIrskaya USSR lund spreads from the South-East to the North-Viest over a length of 85-190 L-1:1. In this .Lrea oil .-!(,rn tll:_ in the coal-bearing stratum of the "!ftrbonifereus. -J it is supposed that oil d9posits U/.ist in form~,tions of the Vise~,,n -3tage and in structures detected by structural drillinG. T,,,e author gives a detailed description of oil explor-tion in this zone. The drilled wells reve!leed the existenco of o!tnd ccIlectors, and it ;r;% ( t -rintl- rook!j in the torri~.,~~no deposits of the Lo,;~:.u 0&T'brjnJ-fei-0_u^ I.-eriod. It ii.,~s -A-ated that ero- aion of Touvw~i_:.i..;,i ndl Z-A:,erni-.n rooks i1n(I trarjj-re_-.,Ave 3tra- tification of these dijo2its h-d occurreit on lift'erent hori- zone of the Tournaisian and Famennian stage3. It is oupposed Card 1/2 that the j~_rlan-D~-urtyulin atru(jtur,,.:l zore aaz for;:ied in the  The Arlan-Djurtyulin Oil-Bearine ""one - 51, -2 -4," 16 Tourn:.Izi,)n daring the perio-J of general tectonic L-.ovemcnts, which caused the form-ition of coniplicLited peculiar structures. The- conclusion is .7,Lde th;tt Devonian and Lo-.-;er Permi-n rocks hiivu ~Uf'erent 3truvturej -.~nd thr-t uil in Devonian rocks will be extremely diffiovlt. T~'.e ..uthor nocessi- ty of exten(led preparator,'; or% ~,n(t of uoloric nothods with the uue of rerrL..etoki .:,. v o:j 01;01 '~z deej~ (J."i kling of additionil yrospecting ;;ells. on the *hule !bo-.it 160 explo- rutor~- -well;3 must b-~ drilled, that is to s',y one well per 400 h--,. The L.uthor augge3tq, howevur, th-A (,ne .,QlI yer 'iN, ha would b(., sufficient, thus reducirL. the time of exploration. There ~,re one geological mup and 2' c r o os s e uo r Z, ASSOCIATONS Ba3hvostoknefterazvedka Card 2/2  4ULIKOV, F.S. Petroleum prospecting methods in Bashkiria. Geol.nefti i gaza 5 no.9:37-43 S 161. (MIU 14:10) 1. Trest Bashvostoknefterazvedka. (Bashkiria-Petroleum geology) (Bashkiria--Gas., Natural-Geology)  PRITULA, Yu.A.; ABRILKOSOV, I.Kh.; AVROV, P.Ya.; KAZACHENKO, A.A.; KILIGINA, N.I.- KULIKOV F.S.; MELINIKOV, A.M.; TATA.RINOV, A.G.; TRO'iiPttiW'*ff'- TSYPLENKOV, G.G.; SHPILIMAN, A.I.; Y I DAYEV, G.A., vedushchiy red.; LINDTROP, N.T., red.; YASHCHURZHINSKAYA, A.B., tekhn.red. (Volga-Ural oil-bearing region; oil potential] Volgo-Uralskaia neftenosnaia oblast'; neftenosnost'. Leningrad, Gostoptakhizdat, 1957. 175 P. (Leningrad, Vsesoiuznyi neftianoi nauchno-issledovateliskii geologorazvedochnyi institut. Trudy, no.104). (MIRA 16:8) (Volga-Ural region-Petroleum geology)  NALIVKIN, V.D.; KULIKOV, F.S.; MOROZOV, S.G.; SLEPOV, Yu.N. New big graben in the east of the Volga-Ural region. Geol. nefti i gaza 8 no.3t14-17 Mr 164. (MIRA 17t6) 1. UfimBkiy neftyanoy nauchno-issledovatelinkiy institut.  KULIKOV, F.S.; MOROZOV, S.G.; SLEPOV, Yu.N. Geologic history of ancient structures in the eastern boundary of the Russian Platform in connection with oil and gas proopecting in Bavly sediments. Neftegaz. geol. i geofiz. no.11:10--15 165. (MDU 18: 12.) 1. Ufinskiy neftyanoy nauchno-iss.Ledovateltakiy institut.  0000000000*006000 0 so 0 00 00 0 0 is to 01, is ~100,1~ 10 , T', 1000 p W, 1 T. 1 '1111,;-: 11. v 14. ,aj A sea gee so -00 so a &on KoutI. apy irl I Ole 4011kQW. Riklj6, -PIS -.00 00 J V;: -C c -C =00 J300 a -3 Ii dm br if-k wbom A and *1 am coust4L. wd c is the tow 4a. 0 0 Wa zoo son C100 001 coo Age 0 woo too ngo I A I aILA *CTALLURGICAL UtIRAN49 CLAISIFICATIC00 -Too kA  11 c 9 L-f fi .11 .. j .. L Distribution of isova so 1~ T-1,,lialikar and A. ' 4 00 .- cf. 0. A. 29, 4964 of 6 variations In Cl Is, C~, 250 (Cland "a the WIS r an arg. solveat. reap *a 0-523-0-04551 1 672 5 - . 7-759, 0-100-0-ObOo, j 00, low I MIR L A ,00 S U %I '1 0) is 0 0 0 at 0 * 0 0 0 0 to xP 1: r1o sold betvian two liquid phases. 11. N. A. Kolosovskil -00 kturov. J. Goa. 0h=6 (U. S. 6. 1.) 4. 2253-6(1934)1 a* n the followirg ~-phsas systems the lot figures show the 04, rA the 2ad figures correspondiag variations in ClIC2 at its. of Isove2arlo &aid in c. oquiv. a per 1. of R 0 and of o-c we (KG --'O-OOb7- ,ci.oi62-9.210. 0.95-0.05 1 k0- 157-5-2-.0, 0-7`16- 0.0591 R O-Ii6-C H 0.0110-1 S. L. M&4*rsky 0 41, 0 a 0 00  .- _.- 00000 000 SOV-2,11 L a P" P 60 so DistrlbutPn of btttyr so r Irolosomnaki I j F. tL XU so _ 7 (1934)s Of.'2'-prec* 00 is madobf that street es ution botvesn R 0 and 00 in Q~,+ 0 go I-M92o 5-70-0-3621 1 7-30, 0.100-0.2001 as 00 j 0.264,; in 1~1~-PhWO.: ' 0.2391 inND-1&o- XW 00 ': too a to 0 00 t .00 3 01 11 ,;- -1 ~-, al 1. 41 0 * 0 0 *_* 0 Is P Z: V 1) D A 1 7 it 1 -I see 0 ;5 16 71 j" 31 OA 116 'a and loobutTric wide bOvean two liquid pham. 1. A. 441 Bokturov. ol. Gan. Ch#& (U. S. S. 1.) 4.1231- 7 ~ 00 ,T_ a -17a this series of expts. zade nt 250. a study -00 of strtwtvxo (Isomerl=) of a fatty acid an its diatrib- 00 an org. liquid solvarnt. In the following mystmes tbe 00 0 /0 mv Civen: (a) butyric acidt InWCIA.01791- ~ ~ .00 so R K z 0.010-7.909. 2.5-0.10, in ELO- 0. M64- but o t a socid in cci m1425-1mos4, 1:7~2- 1~ t 309-6 043 1 33-0 8 n R &AMW 0 QMT-7 65 0 119 7 . - - - , - . X 0 so M355-5.2527, O-A33-0 to 274. S. L. Madorsky. 00 00 .00 0 0 0 6 41 0  0 a 0 0 0 0 4 0 0 0 0 a 0 0 40 0 MR I Of 11 0 a Jd A APPAIX), bib& v is IF a 41 U u I I ~A 1. AA CC 0 ilt+$ I d. 9,1 0* fit A, j b;dm ad ashwatod nowbask aliphatic "Ws be - water amid aiLlimWitioas. N. A. Kuk),.vku aw -00 J. Cast. C". (U. S. S. ft.) 4. 13-.u .00 0: .29,0631. -Bydesi4n4ling as C, and CI 11)v 00 11 Rks of fatty &chi In g. ~qLdvff. par 1. of 11,43and o- n 'Amm. resp.. fista are itivirn for C, stud Ct be flit, .400 00 1 ft mckiv. at -"I*. Pf'r IfC(K)Il. 1" viirk-q frwil 40 0~ I to 17.703 and Cs frout 0.(M.' tfp.*1.W;i); (,.r Ac(ill, VI 0.1418 Q.7S2 Co 0.0049-5.(1157; (or CII.ClWooli, 200 00 a 0.009 -9.fW'. OFu OAW 7.991; f(w CIficificill- 00 11. C.. co. 0.0tol, 41.&P); for (01.), 400 C. Radom, Cf. 0,0151) 0.488, Cs, 0-1r45 .4-1,C11; f,,r .00 00 c .. IC0011, Cl, 0,=4-7.11u1, C', (MUM :1.r,4; 6'r X*o 00 c K0011, Ci, OMM 4,457, Cj, 0,(01VJ +K3h; for C C0011, C1, 10WIM. C,, 0.1XIM-3,1M. see 00 512(tor%k), OR go '00 '09 i ii ASIA A LITINAT CLAUMPKAVID81 A.. 11,00 Q., oaf 0 41 ad 0 u AV to all, a 1,,, 11, low, a, Is of 'I at a a it a, a "I a' 40 o Op * q 0 0 0 6 0 0 0 0 0 0 00 0 4 0 0 o o 0 o 0 a 00 00 0*10 0 0 0 0 0 0 * : 0 __ to 4 0  0 0 o 0 0 X..t--l 4 00 110) 644 NAis The 014 00 tko 00 Alw~ in 4 0 ter" curt 111511 chlo The fi 4 cm conc 00 4 .0 t Alit.$ 81 #1", :10 0 0 0 9 0 0 0 t [ o 1 ISO Olin ava It a It U a A- I ojqjt~ pkmlu b d (h u om 0 b*fto" witat md oz , 1 N. A out F. H. Kulikov. f4raim. . In 40tM7(M-RuqWn)._ . frp"W"ling the change at 2,16 in the coeff. COMION M 111A h*IwWQ Webt And IKI()A&,, w0h A coft"S. &bows a I,(vildY drctema .I the "wil.1 - ve full tho I rftm wat-f-AmflAo boil 2 Owl, I.An;% I J 04 dIV 1W Art a WItts OW: that I'm the -yo. t -00 walff-RI malortate to Parmialle In f(Win I'bt, 1 .00 are la.Wally thartrat It" ilptite ot,lap1w.1 1,,t - lion III Vari'JUA said. "Um"Im4ft. 'Ield. dtod Al., 0 .b . -subsfituted Wid,; ttetwee" " inittli4elble im)(%rnt%. 00 , groups have In comtwm only he tenifency of tlicir = of distribution to approach I with inermse in 'ripin X0 0 .00 40 0 so Ao - tjo o 91 Joe '- 1*0 a boo 4 1 it it X 0 o o 0 0 0 0 AID 0 0 0 :0 0 4 0 0 0 0 0 0 a 0 0 g000 0 111 0 0 0 c0 0 0 00 0 0 0 0 0 4 0 0 0  06 . 00 't k u i it 0 as*:$ A AITALLUNWAI. 1.119141 10)053 N -V'. . I u 9 11 03 : & bj* 0 0 0 9 WiSIAMANA.MLI ~09 a : it It 1, n m P A p 11 U" be* set) anx W . A I .,ugs 41 a v AA a Q Itl 1 4 k v 1,4001 Px"lM$ 00 d Urtuk and citric adds betwoen water and doe Kulikov. N. A. Kolosovskil and F. S 20 19M f C A Zk 9 143 7 - . . . sir. K". ); c ( , . -The tektive conco. of the scids in the aq. taycr 0 with increasins dilo. H. C. A. too see e CLASSOKATION 91, ti woo coo it, V I ; 'p, ; 4 ota It a W 0 a v -1 x Im -3 a a 1014 I, I- dR4 A 4 0 a 0 0 0 91- 0 0:0 e e a 0 0 0 0 a 0 4 0 0 a 0 0 0 4 04 * 4 * a 0;0 0 0 0 * & e 0 0 0 0 0 0 * * 0;  0 CF see Is 0 0 It R 09 04 00 A UzWbutiam of niMice beAween wAtef and Orgluic SM 00 veats. N. A. KilliKnvkil ajul F S, Visa. A stat Mridum I TA~W nt - !~Z-i t MM); cf j;,-,I._ 30. 1114.11!'14-1 C.H., %lihill. IIIIAITtl. 11)[111 -941 CIIII, k 11.1t, 11111f. VIINI 1 ~= R ; -00 ", I 4 k,f 1, 10"Myl ether, Yl A, .~vk-hczawmr MA M. lvv , all-I 1. tw,, it djv,,l,4 And -90 Oil at 23% have fArve fkW M 4-u-1 11 C A so Ao is 0 S 01 t A OTSLV,Fwif At (11100tal CLAMPKATfCk -so ST 9 0 0 00*0 0099*0 0* oo* 0 0 09,000 0 041 0 0.00 V* @go**  U 11 u I L G~ 60 stills i Ilerivatives CA "tvftttd kT4 J-61" Of cf. C. A - 24, twinS the "micn%. of chlo"macelic j halogen 414-fiv, of a sold. hydr(mcall 06 rrqp.. V 2P, the results are list lit 0 and 2nd lor CO: (CIC the MY111CM Cllj( Cell 11.1011174A; 11'(11r.4 00 UC), OANN"'); 2XV1, 11.010; M.M 00 OAMS; 7AM, O.W3, 9.1418. 0.201; IVAN. O-COZ; It* the bYstem OKI 0 0 CtH,Br OJWl, 0.1itioll. 41.246, 0.01 60 0.747.0UW,, 1.421.11.11HI 2~W,Q 5A15, 0.3m; 7.01A. 00117: T-M 1. 1A 1tS; for the systrin CjfjC1C(X)11 UaM (1048; OAW. (MRWJ; 11.0 ', t 4 io 0 0 a 0 0 0 0 0 46 0 0 0 0 0 td 11 it to JD I I a n A 6 J~ "t X I' 1_1 1, k' y W_A r I A. to LO It ii,~ aa4 s. N. A, r OAMI; 1.468. 01"ll; 11-14 -'1'; "1-4K7" . W. tt-R-N. 0-N3; t.4t4. 1).A4; N lUl, I - elici l h IM f C, WKI cru e 'v' or t t 8.4m, L ; 'll; mind H.Ar)Q' OAX in JJVO anti a CMH in 11,0 anti CC40.216, ll.IXNPC;I; D,462, DAWN; it, mols per I., 1)~W, ).491, 2.210, ().frXi; 3.L!iAl, staimb hw C, 11.0427: 4.501. MINI-28; 114181, 0.09.1; 6.7311. ')AW, X)ll ill 11A) Will IIAMA. 1). 147; 7..'01, 7~%91, 1) 4.7,2. 7, 76~!. 'ItA17; And 11,101:149; 1AMI A.798. 2.9711; (or like %Ystrill 01cl,cq Kill in If,() 811.1 , 5A-14, C'11.11y, ().W48. OAK% 11.417,Llfi. 11;44, 11(p.13, .00 3. 0.4a',; anil 014W. 0.164; WWI, ll.;bA; 1.1a?, 11.4N,; 2.M." lvqw:.N~ , 00H in HP and :I.=, 11.910; and 4.691, 1 It'% to. the symcin COMPOll 0; 0.452. 0.113LNI; in 11,0 vid C161, 0.1974, (10041; (1.3345. fl.fr_111; 91; Jul' 02a; 0.508. 0,(kU4; (WO. (1.124; 1.146, O.ZW; I.W01. A 1* 1 .51.. and 7.W.. 0.544; Vile 2.514, 0.98). 3.441), 1.324; 3.4-0), 0.719; it 11.0 atki CHJ : tw; anti 2.11:11. 2.107. The rrults are 1.7(12. 3.1-#4 1. *41 ()AlfQ'; J)'91% 4wivarrd with thoor lit othef iny"iijislom S. L Nt. .14 fit ft il-ta n 42 ' 010 a 0 0 0 0 0 a 0 0 0 0 0 0 6 0 0 4 0 0 0 0 * 0 0 0 0 4 t 00 0 0 1 1  1 10 TI 11 11 H 11 A ll f- A.-L-f- A a -jo P, a 4 t1f A,,O ~ ge 1 6 c. A. W,-. 71 * two efes. at 4 e .,.1 t*twten fit1k, PhNU14 z tnitylic i,41-Bt)OH OAW #A and CCh. 00 bew 0* o lwtwwn Ho , 00 twiwmu 11,01, 06 A011. slutur 10 rAd Igo a 00z AmOlf sad 00 jillgwytft~4ic I 0 Al 0o 00 Oof I L -lT 0o8 -LLtIVGKAL Dot 0 0 0 f o o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ' ~ ly If pf a 11 11 h D ks i e 27 . v 1 1 x J1 v 11 1- a J. v 11 j a it to . - g , YLV-A L CS4 v 1 1 j i , -, i0 CIAII - ad be"0919 twO knv od A l g u 4 n c' .-Go 1.1ble. iih.-w lkw pots. S7141-4-Alxmit nil "vat Cowl*. tog The syWITIS: P"44,11W .0 am 3'yk-. d"Its. ( .11L.4. ML, MeCjj.No,. go-HU011 and t-o-AmUH. HO OW PhNt.16, o-Me(4m,%,0f. War a-A-OH; mombetinc " belwtm [fig) &M im-AmOU; k-,akfw We 1 . CHCI,.CCI,,EtSr,yh% imo-11160111 OM 120-Auroff; IICW' its* md PhNow mad Acull A PbNo, and a-MtC41L.NLh; a lacts, d citric wW and nsalonm- &cut lwt~os Little . aminnir " bowc,,tt 110 &nil ZH; *tbylmabmw acw bctweca If.0 mod ); PYQH betwtva IfoO mW ism-11WH; J bctwwu HoO aed InAte suit it. A. Sondc 900 '00 No 0 ..Oo ;s 0 'A 0 " ~ 0 0 0 0 00 0 0 0 0 6 0 0 0 0 0 0 0 0 0 0 0 - 0 0 010 0 0 0 0 0 e o o a 06 0 00  #I is m A 's 00 00 so 00 00 0 g if's. It "TALLURGKAL L111 4 if 0 1 1 0 44ig f . a solute between of disWbutiolli 0~ I I. s -4 parad6s 12 eel- b IM id two uqu K k4" .l x 'j tvvvcn i' U l"O still- "Tw of 11%v Iit tirivul"I at 11 " W h - e t " " h 414%vilt . At Ally the W", li)Cfcwd by the 9"4 'lutI, ill INIA d to h, tellip., the 1.4mcn. Tho is attribuic I _Aos,,j I)y Lhcir iolultel""U"" Y' oe caw s 1) phitIel f tile I 040 -_Oo goo 'Go '00 '00 woo Wit J.11. $,,1l ~ j CRT o" Wit W&- U S MOD el 011~ I. U 0 It 0 0, o' 0" 0" o 0 0 0 0 0 0 0 0 o 0 0io 0 0 0 0 0 0 a 0 0 0 0 0 0 40 0 0 0 0 .9 0 0 0 0 olo o o 0 0 0 0 0 a 0 0 0  0 0 A x 0 1 4 - ~ - otgu J, Gto of 716h' the to Of flit, (A :0 1 I 4.11 1J.11 00 't. W Acid 0.14 11CA ww"T I 'A)! it TALLU 6K AL t. It If0 Boo- 11.14,1111. wag* :u 0 0 0 4 "Bit "9110 njom*v n1m 11 Wit bojolovxpovd. Vol &I a cu 1 1 4 1 1 ?.-A I I AA 0 U w (f a I A44 00#r sOveac IN, A. KjtlowwAil siA 11, S. KU1W;- Ckew. (11. S. S. R. I S. 114 1 .11 PUI), f. C. .1 ~ ZO. -AJI the mcasurelucalm, wwr at In III, in. be 1*4 numl-r in rach pair r.-p#rwnt*,,*wn. 44 yoridin lyrrfol and t1w 2nd nil"11wr, its ('wwn. ill cr Ing. 41M. I'm the 4youll P114istinit. mill m -1- CIIC4 WUN. 11.405; 11.413. 0.817; 2AW; lJ11A, 3.0). Fto lwlvmlt-ow fid trol + ClIcls D.10A, OJI2101; 11,19172. UAW'. OX137: U~AXW, 1.7243; 11X;1l..1.lrJ19, U.,'4vd. (Mitill), VOW1. Ptor iwvuh-rie Acid in xlytt-rof ~nef)AM1,I)AMA; 0.424,01157; 11.07*2,0~'Nil.' UA849. 0.2119. ),W76; 0,31!01, 2,1416: IP.IA127. O.Mw' 6,110); I.Xvis), "JxAJ. F"t owwaWA, glyer of + C41141'4(h OJJJ'r~$' ii,Ojfjx. r ".2014, 0.47,32, WM3, OA-116; 1). 1461, LAj6.'. 2.91311; 0..%04.5, 4,377A4; 1.51M. 5JANIS. Its fit, ivivak-ric jicid in Slycvr,)l -F OWL, xivvrl,,l lw~ hr k)wcr layrt bv&ninig with di,tribuivon of ifir (M-1, 4.1 IWi. MA"I'Ly CLAS -I-10.KAll,go boo Q.c allow" 1114" : 0 0 0A 0 0 0 0 0 014 0 9 0 0 0 0 0 0 0 0 0 .00 doe '00 '* 0 as*    U5SRjCh6--d5'ury - Book review Card 1 /1 t Pub. 147 - 20/27 Authore KUMO'Y'*- F.1- 5 i - Title Regarding the report by S. V. Gorbachev and E. Ya. 1,Undovich entitled, "Distribution of Picric Acid", Parts 1 and 2 Periodical 2 Zhur. fiz. khim. 28/12, 2232-2233, Doe 1954 Abstract Critical revie-er is presented on the report by S. V. Gorlyachev and E. Ya. Mindovich entitledo "Distribution of Pieric Acid". The critic points out the errors in the report and explains that the errors originated because the author., applied the Boltzmann distribution la-.,, vehich is inapplicable in such a ca3a in3tead of the B-3rthellet la-.7 which is bost catted for such problems. Five reference3 ; 1 Fronch; 3 IISSR and 1 (1870-1953). Institution : ........ Submitted : Mirch 26,, 1cw'54  r -5c)0 27834 S/03 61/027/010/007/022 Bi 1OYB101 AUTHORS: Lipshits, B. A., Smirnova, G. K., and Kulikov, F. S. TITLE: Determination of iron in highly pure antimony PERIODICAL: Zavodskaya laboratoriya, v. 27, no. 10, 1961, 1199 - 1200 TEXT: The determination of iron in Sb metal by means of thiocyanate is disturbed by the formation of a yellow precipitate. a, a'-dipyridyl forms a stable, soluble ferrodipyrilyl complex lon, whose red color exactly obeys Lambert-Beer's law, and whIch is concentrated in a thin cresol layer. 1 - 59 of Sb metal was dissolved in a mixture of 5 parts 0of HC1 1:1 and 1 part of HNO,, (1:1), and evaporated to iryness at