SCIENTIFIC ABSTRACT KAMENETSKIY, G.D. - KAMENETSKIY, S.I.

SOV/68-59-1-8/26 AUTHORS: Bondarenkol i.p., Yamenetskiy, G.D. and Dovbnya, K.Ta TITLE. On the Choice of a Rational Shape of Lining of Coke-oven Doors (0 vybore ratsionallnoy konfigura-usii futerovki dverey koksovykh pechey) PERIODICAL: Koks i Khimiya, 1959, Nr 1~ PP 33 - 34 (USSR) ABSTRACT: The serrice life of door linings made from various t es and shEpes of refractory bricks (shown in Figures 1-41 is i,ompared. It is pointed out that bricks M119 and M120 shaped as in Figure 4, at present used in the Zaporozhe ovens, give the best service life of 3-4 years. This type of brilak is recommended for future replacements and new batteries. In addition, it was found that the service life of 3-4 years for the above bricks.is obtained when the beginning of the service coincides with the startJjig up of the new batteries. After replacement the service life decreases by about 50%. This is ascribed to the fact that whenitarting ovens., the doors 0are placed when the temperature of the d-rbn,"is above 800 C so that the lining bricks undergo an additional firing Blowly attaining their operating temperature. It is'therefore Card 1/2  SOV/68-59-1-8/26 On the Choice of a Rational Shape of Lining of Coke-oven Doors considered that a special camera for firing lining bricks with the door directly in the region of counterforts Bhould be designed by Giprokoks. There are 4 figu s and 1 table. ASSOCIATION: ZhdaaOVBkiy koksokhimicheskiy za-vod (Zhdanovskiy*Coking Wo'rits) Card 2/2  KAMNMSKIY,G., inilhener; BITXIN,G., inzhener measuring the volume of hydraulic fill. Rech. transp. 14 no.4: 13-14 Ap"55- (Hydraulic engineering) (MMA 8:6)  BARSUKOV, A.A., VABILOYNY, N.V.; ZATCUNKO, L%.; UKENWSKIY, G.I., KAZYRIH, I I.Y.; MODXL#, B.I., tekhaichesidy redaktor (General reference data on hydraulic equipment used in modernizing machine tools] Obshchle epravochnye dannye po gidrooborudovaniin, ispol'suemomu pri modernizateit metallorezhushchikh stankov, Moskva, Goo. nauchno-takhn. izd-vo maohinostroit. lit-ry, 1956. 151 p. OILRA 10:3 1. Mol,coVe Ikoperimentalinyy nauohno-issledovatel'skiy inetitut metallorexhushchikh stankovo . (Hydratlic machinery) (Machine tools)  AID F 5374 Subject MR/tingineering Card 1/1 Pub. 103 - 4/28 Author t lamenetokiy, G, L Title i Longitislinal vibrations in machine tools with hydraulic drive Periodical i Stan. i instr. V */\ 91 11-13, S 1956 Abstract t The author presents the analysis of longitudinal vibrations in machine tools. Vibrations developed in the basic rigid system and those additionally ooouring in the control-regulating and directional mechanism are analyzed. Twenty-three formulaep 4 graphs, 3 tables, 4 drawings, 1 oscinogram; I Russian ref- erence (1948) and 1 German reference (1952). Institution t None SWaItted go date  KAOMKIYj 0. 1. VHydraulic amplifiers and drives." Progrwwwd Control of Metal Cutting Nachines. report presented at All-Union Conference, Moocaw. 13-16 Nov 1957 yamblu Ak- NAU SWR. 1958, No. 2. pp. n3.n5, (author Kobrinakiy, A. Yo.)  / "mulle Tooehanisme for shookleF;n gear switch. Stan. i instr. 29 no.2:29 If 158. (Gearing) Owdraulia control) WPA 110 )  ZA)RIWITSKIT, G. 1. _- -, Hydraulic control panels for transverse planing mehinea and slotting mahines. Stan* i instr. 29 no.6:19-21 is '58. (MIRA 11:7) (Machine tools--Hydraulic driving)  fe~~ rJJ 25(l)' PHASE I BOOK EXPLOITATION SOV12383 Akademiya nauk SSSR. Komissiya po tekhnologii mashinostroyeniya Avtomatizatsiya mashinostroitellnykh protsessov. t. II: Privod i upravleniye rabochimi mashinami (Automation of Machine-build- ing Processes. VoA2: Drives and Control Systems for Process Machinery) liosco~, Izd-vo AN 8SSR, 1959. 370 P. Errata slip inserted. 5,000 copies printed. Ed.: V.I. Dikushin, Academician; Ed. of Publishing House: D.M. ~Ioffe; Tech. Ed.: I.F. Kuzlmin. PURPOSE: This book is intended for engineers dealir~g with auto- mation of various machine-building processes. COVERAGE: This is the second volume of transactions of the second Conference on Overall Mechanization and Automation of Manufac- turing Processes held September 23-29, 1956. The present volume consists of' three parts, the first dealing with automation of engineering measuring methods. The subjects discussed include automatic control of dimensions of machined parts, inspection metbods for automatic production lines, in-proce5s inspection  Automation of Machine-building (Cont.) SOV/2383 devices, application of electronics in automating linear measuring processes, and machines for automatic inspection of bearing races. The second part deals with automatic drives and control systems for process machinery, Including appli- cation of digital computers in the control of metal-cutting machine tools, reliability of relay systems, application of gas-tube frequency converters in the control of Induction motor speeds, magnetic amplifiers and their use in automatic systems, hydraulic drives, and ultrasonic vibrators. Part three deals with mechanisms of automatic machines and auto- matic production lines. The subjects discussed include linkage, indexing, and Geneva-wheel-type mechanisms, friction drives, automatic loading devices, diaphragm-type pneumatic drives, various auxiliary devices for automatic production lines, and methods of design and accuracy of cams. No person- alities are mentioned. There are no references. TABLE OF CONTENTS: PART I. AUTOMATION OF THE PROCESSES OF ENGINEERING MEASUREMENT  Automation of Mao.hine-building (Cont.) SOV/2383 Gorodetskiy, I. Ye. ZD-eceased7. Automatic Control of Dimensions in Machine Building 5 AlItshuller, A.N. Determining Optimum Conditions for Controlling the Mean Diameter of Machined Parts 9 Kopanevich, N. Yo. ffenin prizewinnej:7,. Insp'ection Methods for Automatio Production Lines 29 Dvoretskiy, Ye. R. Standard Devices for Active Control 39 Vikhman, V.S. Application of Electronics in Automating Linear Measuring Methods 45 Klusov, I.A. Metrological and Statistical Checking of Some Automatic Inspection and Sorting Systems 53 Sh~tov, G.A., Ye. M. Dvoskin. Experience Gained in Develop- ing Machines for Automatic Inspection of Bearing Races 62 Card--34  Automation of Machine-building (Cont.) SOV/2383 PART II. AUTOMATIC DRIVES AND CONTROL SYSTEMS FOR PROCESS MACHINERY Mayorov, F.V. Digital Computers in Automatic Control of Pro- cesses 75 Khetagurov, Ya. A. Some Problems Conceniing Digital Control of Metal-cutting Mai3hine Tools 88 Zusman, V.G., and I.A. Vullfson. Designing Digital Program Control Systems for Machine Tools 9-8 Sotskov, B.S. Problems Concerning the Reliability of Relay Systems 107 Labuntsov V.A. Application of Gas Tube Frequency Converters in the Control of Induction Motor Speeds by the Frequency Method 117 Naydist V.A. Controlled Electric Drive for Metal-cutting  Automation of Machine-building (Cont.) SOV/2383 Machine Tools 124 Dunayevskiyo S.Ya, Magnetic Amplifiers and Their Use in Auto- matic Electric Drive Systems 133 Zaychenko, 1.Z. Dynamic Stability of Hydraulic Drives 146 KamenqtgkjyL_~G.I Hydraulic Drives With a Servo Control System (Hy`c'Lr_aulic Amplifiers) 162 Leshchenko, V.A. Study of the Dynamics of a Hydraulic Servo Drive for Copying Machine Tools 173 Barke, V.N. Study of the Transformation Ratio in an Ultrasonic Vibrator 192 PART III. MECHANISMS OF AUTOMATIC MACHINES AND AUTOMATIC PRODUCTION LINES Levitskiy, N.I. Development of the Theory of Mechanisms of Automatic Machines 203  ZAYCHENKO J.Z.; ~ftHLEVSKIY L.M.; ZAYTSEVA, K.V.;-XAMENETSKIY, V~i -TZMN O.V.; .G.I.; NAZYRIN,-LV.[deceased]; SHCHERBAKOV, 1~ 0 CHffiREVA, E.I., red.; KOVALISKAYA, I.F., tekhn. red. (Development of the designs of hydraulic and pneumatic equip- ment and of-lubrication and filtration-systeas for machine tools abroad] Razvitie konstruktsii gidravlicheskogo i pnevmaticheskogo oboradovan.11a, smazoohnykh i filltraiushchikh ustroistv metallo- r6zlniahchikh stankov za rubezhom; obzor. Moskva, TSINTIMASH, 1961. 101 p. (MIRA IA:5) 1, Moscow. Eksperimentaltnyy nauelmo-iosledovatellskiy institut metallorezhuahchikh stankov. (Machine-toole-Design and construction)  S/121/61/000/005/003/005 D04O/Dl12 AUTHORt Kamenetskiy, G.I. TITM Tracing hydraulic valves for program-controlled machine too13 PERIODICAL: Stanki i inBtrumentp no. 5, 1961, 13-16 TEXTi 'The desoribedlr68-1 (G68-1) valvesp developed at ENIMS9 are de- signed for program-oontrolled, copying and some other machine tools. De- tailed engineering information is given. The valve (Fig. 1 and 2) is two_ stagedj electri6iLlly controlled. The first stage comprises an electro- mechanical actuator and a needle valve, the second a spring-loaded distri- bution valve. The efforts produced by the mobile system are proportional to the voltage applied to the coil terminals. Existing actuators of this, type are described by V.A. Khokhlov (Ref. 2s "Avtomatika i telemekhanika", vol. XVIII, no. 10, AN SSSR, Moscow, 1957) and in an English source (Ref,, 3t "Applied Hydraulics and Pneumatics", no* 2p 19r-9). The G68-1 differs from them im that it produces a constant effort that does not de- pend on the coil position and its valve needle; its pressure is less de- pendent on the oil viscosity and temperature, or on the valve motion speed; it has low susceptibility to contamination of oil. Vibration is eliminated Card 1/14  Traoing hydraulic valves### S/12 1J61/000/005/003/005 DOWD112 in the major valve# and starting delay is not above 0.004 see despite the long travel of the needle. The electromechanical actuator (Fig. 2) has the following elements. A coil (19) with a textolite frame, with leads in the center and at the ends of the winding (which makes-the actuator applicable in simple and in differential control systems), moving in the field of a permanent magnet (22) made from a special alloyl the coil winding stays within the uniform portion of the magnetic field and the electromagnetic forces are proportional to the voltage on the terminals and independent from the ooil.movements. A pointed needle (16) in bushings (18) closes a calibrated hole in a diaphragm (15) thus changing press-are in the system; sinusoidal 50-cYole current equal to about 0-05 - 0.1 of the maximum control current vibrates the needle axially and so eli- minates the effect of friction. A deflector (17) prevents air from being sucked into thq valve and solid particles in the oil from getting into the needle bushing. A maximum'of 403m-wtis needed for the needle valve control in a static state. A soft spring (20) balances the oil pressure at zero (no current in the coil) by 6 kgf/OM2. A screw (21) is provided for the initial adjustment of the spring (20). The needle valve has no sealings and'can be used in the vertical position only. Pressure increase Card 2/14  S112116110001-jO510031005 Traoing hydraulic valves ... D040/DI12 in the first stage:displaoes the valve in the second. A sprinc.; (1) Maket~; the valve output energy proportional to the electric input signal. A bushing (11), pres6ed into the casing (5), has bores (10) for oil from the pumpq (6) for draint and (9) for oil feed to the work cylinder spaces. The two bor:s (6) are conneoted. The valve (7) has oalibratea grooves (8) on its ages (their dimensions are selected in accordance with preocuro in the system and work load), The rigidity of the spring (1) under the valve is 2.25 kgf/mm. The valve moves upon pressure changes in the space (13) and changes the arose sections of the grooves (8) creating a pressure gradient (as in usual tracing valves). The valve (7) i's rotary, which prevents it from unilateral pressure against the oas .n d counteracts jamming due to solid particles in the oil. A turbine 74a)nrotates the valve (7) and is itseIT rotated by the oil flowing from the draining main through a radial (24) and one aXial (23) bore# and on into opposite ra- dial bores (3). The pxessure loss in the turbine is 1 kgf/cm4p and the latter's velooityAbout 300 r.p.m. (friction may also be eliminated by swinging the valve by aleotricaIly-driven cam mechanisms or -two electro- magnets, but the turbine is simpler and more dependable). A stop (12) Cara 3/14  S/121J61/000/005/003/005 Traoing:hydraulic valves.,. D040/D:112 and a washer (2) limit the valve motion, Its travel from the central to the limit position is LS mm in 0.06 soo (can be reduced by increasing the needle diameter and correspondingly faster oil flow). The control signal power changes in inverse proportion to the square of the time of motion of the valve. Valves with grooves (8) reverse more than twice faster than valves closing apertures completely. A special compensator in the form of bares (14) is provided for reducing the effect of the oil tilem- perature. The number# diameter and length of the bores are selected so as to make the friction losses of oil in them approximately equal the friction loss in the drain lint. Pressure on both ends of the valve (7) changes with temperature simultaneously and approximately equally. The valve is mounted in the hydraulic system without the use of pipes (for convenience). The casing (5) can accommodate a standard -iTr54-12 (PG54-12) valve. The technical specification of four lIG68-111 valves is given (Table 1): Card 4/14  Traoing hydraulic -valvi)s#.* Maximum work pressure .. kgf/cm 2 Maximum power fvom the slide valve, kw OD flow at maximum power ., liter/min Uximum. pump power .. kw Ataximum control.signal. power at maximum slide valve p6w&~ in simple control systems ** mw Maximum needle valve pressure 2 kgf/om Oil flow through the needle valve, Card 5/14 liter/min S/12 ij 61/000/005/003/005 D040/1)112 G6s-Ila o68-11 G68-12 p6a-13 50 50 50 50 0.25 0-5 1.0 2.0 5 a 16 35 0*62 1.25 2.5 5.0 125 135 145 170 8 8 8 8 310 3.0 360 3*0  Tracing hydraulic valves ... S/121/61/000/005/003/005 DOWD112 The dependence of the Iressure gradient between the spaces in the actuator on the general prebsur(l (kgf/cm in the system can be expressed as P-6r = ~hyc( Ptot (1) where P)r is the presoure gradient between spaces; Pt,t - the general pressure; 7h)vi- hydraulic efficiency of the slide valvev showing what portion of pressure applied to the slide valve is utilized by the hydraulic drive. The formulae for the oil flow (Q) and the valve power (N) are (S + 0-3)_ Q = 0 S otot max liter/min (2) Oaxd 6/14  S/121/61/000/005/003/005 Tracing hydraulic valveseas DOWD112 C (S + 0.3) N S F7~ 3;,kw (3) 612 max tot 6yot where 0 is a proportionality coefficient depending on the width of the grooves (8); S - slide valve displacement from its zero positiong in mm; Smax - the maximum slide valve displaoementp in mm; 0-3 - the opening value of the slots at mid position of the slide valve. As can be calcu- lated by the formula Mt the maximum output power of the valve is at 2 i.e. at lo&is in the grooves (8)tequal to -1 'Pt t The de- 1101= 3 ) 3 .0 1 pen&enoo between the output.power N kw, displacement 8 mm of the slide valve from the mid polailion, pressure tt(kgf/OM2) in'the system, coeffi- cient and the voltage U on the terminals of the ooil (19) is expressed Card 7~14  Tracing hydraulic valves,,, by the formula 3-5N 1 1 U 28 + ;~2 7r ,tot rd S/121/61/000/005/003/005 D040/Dll2 volt, (6) where the figures 2 and 3,5 are coefficients determined experimentally. In a differential con-brol system and with a,o. control ourrezit the control signal* at static state inthe system will be higher than in a simple con- trol-systelm (Data in table 1), but it must not exceed 1 w (in order not to overheat the ooil). Pressure in the main hydraulic system is maintained by a safety valve (29) (Fig. 2). A separate pump (28) is provided for the valve. The oontrol system has no safety valvep and pressure increases with the effort developed by the electro-mechanical actuator. A valve (25) is provided for preventing air from getting into the system, for the needle valve has no mealing. The valve (25) is shown in a separate draw- ing (Fig- 7). The piston is covered with oilproof rubber. The valve shown in dotted lines (26) is a relief valve that is to be used in systems where the pump capacity exceeds the total oil flow in all valves connected to one pump, i.e. it is designed for maintaining the turbines pressure Card 8/14  Tracing hydraulic valves&*# S/121/61/000/005/QO3/005 D040/DI12 at 1 kg f/cm2 ther valves than the G68-1 can be used if a relief-tralve (29) is placed in'the system and not on the actuator). The valve control systems must be indepohdentf i.e"o a standard'twin blade pump can be used for two valves, after a slight design change. The described valves (with feed from a twin pump) are used in a program-controlled vertical 6M42 (6M42 pr ) milling taaohinep where the-program control of two motions is"*P performed by two valves - longitudinal table motion and cross carriage slide motion. The milling -machine was tested, and it was stated that there is no need for feedback for the work element motion speed, and that it is better to control the motion speed by lag from the programmed speed. The needle valves of the actuator's can be fed from the main pump through a set of diaphragms if the machine has more than two work elements. The diaphragm set design is illustrated (Fig. 8) (where (1) are diaphragms, (2' spacing shims.sealed with rubber rings (3); oil inlet is through the comer (4) to all bores in the casing (5); (6) flanges joining the valves). The system illustrated in Fig. 2 is designed for program control. If the G68-1 valves are used in copying machines, the usual slide valve (coupled by levers with the tracer) is replaced by an electric feeler, and its Caxd 9/14  Tracing hydraulic valvas*~#.* S/12 61/000/005/003/005 D040Y3)112 amplified signals are transmitted to the valve. A copying madhine tool hydraulic system is analogous with the system in Fig. 2 but includes the usual mechanical foedback of copying machines. The G66-1 valves may be used also in boring maohinea with hydraulic drive for the tool, A tacho- meter generator Taulat then be connected to the hydraulic drive, and feed- back provided between the tachometer generator and the valve. The vd ves make the hydraulic system simpler and the tool motion more steady. There are, 9 figuresp 2 tables and 3 references; 2 Soviet-bloc and 1 non-Soviet- bloc. The 'reference to the latter publication reads as followsz "Applied Hydraulics and Pneumaticellp No 2p 1959- Card 10/14  S112116210001001100110-Ni D040/D113 AUTHORt Kamerietakiy, G.I. TITLE: Hydxaulic torque amplifiers PERIODICAL: Stanki i instrumont, no. 1, 1962, 3-8 TEXT: 'The design? oporation and theoretical basis ofMrl8-1 (IJIG18-1) hydrivi- li(k torque amplifiers (Fig. 1), developed by ENUMS for application in machino tools, are described In detail. The components are an#HM (IMG15) hydraullic axial-piston drive,previously described (Ref. 1: Kamenetskiy, C.I.. "Stanki i p 4 !r1,11XL1M0-1t"1 no. 5, 1959), and a control valve consisting of a buzhing W and a round-it oock (2) with four slots (3) that coincide in sequence raih ducts ~41 and (5), an,d,four blind slots. Oil is fed and removed through tvr or I . b ?s (.7) arA flows in annular grooves on the bushing and the valvQ ~Pos UG or( ca5ing. A joint ;(10). securely connects the bushing with the amplifier shafi and compensates for misalignments. The maximum turn angle is + 350. AiT Js drained from,the valve topo The torque on the output shaft rises with th~E- lag 4qlef seen in the sohematio diagram ViC- 3) and drops with incrca~ina Card 1/  ACC NPtAP7006950 SOURCE CO));,,,':- Ull/oLtl")/66/000/021/0211/0211 VIVENT01i Kam y,4_ Q. I.,- Zayt,--eva, K. V. ORG: none TITLE: Hydraulic food-control device. Class 59, No. 188306 (announced by the Scientific Research Institute of Dcperiuiental Metalcuttiqgr I Lathes (1,;)Icsperimentai nyy rauchno-issledovatell skiy Zstitut i-.etallo- rezhushchilch stankov) ;SOURCE: Izobreteniya, promyshlennyye obrazt-sy), tovarn,,,Tye znaki, no. 21', J966, 211 TOPIO TAGS: hydraulic device, hydraulic pump, q29 Pisre-ol 6XIAL ABSTRACT: An Author Certificate has been issued for a hydraulic feed- control device for an axial-piston pump with variable piston stroke. It contains a double-arm lever connected with the pump's control element, actuated by hydraulic control cylinders and provi-ded with a shoulder which interacts with controlLbble, stops in the pump's housing to limit, Z. I the maximum supply, To assure a simultaneous uniform change in feeding- urhen reversing, a contrclIable regulating spindle in the housing inter- 0 -he evolvent surface of the lever's shoulder. acts through the steps with AV Orig. art. has: 1 figure. SUB CODE: 13/ SUBM DATE: none IWA.--98  Ilp-ldcri3r.)l. and nr u illdrens' Branch a I of Tartaric -;ti both ?Wonto ~nil lloaltlv .~hur. !.'-ikrol,)iol. zpid,~,mLlLol i Dumnobiol. 'Nlo. 6, 1'.414 .  PESHKOVSKIY, L.M.; KUYN) G.N.t Prof., doktor teldin. nauk, retoonzent; KARVYSHEV, I.A., nauchn. red.; XA1W _4TSK1Y. I.I. naichn. red.; AKATOVA, V.G... red.; SHVETSOV, S.V.p tekhn. red. (Designin footings and foundations for public and industrial buildingsi Raschety osnovanii i fundamentov grazhdanskikh i pronWsh:Lonnykh zdanii. Petrozavodsk, Rosvuzizdat, 1963.263 p. (MIRA 1?-2)  IIEDKOV, Ye.I., prof.j KMIENETSKIY, I.I., otv. za vyp. [Lectures for the course "Soil jnechanics~ footings3 and foundationst" the section "Frinciples of soil resistance under stress"] Lektaii, po kureu "Neklumika gruntov, os- novaniia i fundamenty, razdel "Osnovrye zakonomernosti soprotivleniia gruntov pod nagruzkami" (uchebnoe posobie). Moskyao Hosk. in--t inzhonerov zhel-dor. transp., 1962. 94 P. (MIRA 17:3)  KA1,',MET5KIYJ% 1. 116 "On the Smillest Interpolation and Pe Proceediog.," Dokl. All S-csR,, 25., No.51 1939 Voronezh State U.  KIIIMTNIETSKIY~ 1. Y. "ConcerninE; Interpolavion by Means of Derivatives and the Correspondent Processes of InterpollLtion," Dokl. AIN SSSR., 26, No.3, .1940 Voronez)i State U.  X41,2N TSM it x , 1. M "Concerning the Indicator of the Hypotahesis of a Complete Function of the First Odder and Concerning the Distribution of the Singularities of a Function Rppresented by the Associated Series of Taylor," Dokl. i,.11 SSSR) 26, vo.6, 1940  MDROZOV, V.I.; VORONICHEV, N.M.; NAiMIN, Yu.V.; GARMAZA, V.A.; WDVEDEV, G.I.; IZOKH, V.V.; BARASHKOV, V.D.; EMPARAPULO, V.Kh.; RAYEVSKIY, N.P.; P4ASHKGV, Yu.M.; GRISHIN, V.P.; SMYSLOV, I.I.; ROMANENKO, Yu.M.; SAKHAROV, B.B. Innovatiom, Avtom. I prib. no.261-62 Ap-Ja 165. (MIRA 18:7)  1E F'3 K I Y, 1, S. MORKINO 1.8,1 kan&ida 't moditsinakikh nauk, otarshty nauchnyy sotrudnik; XMIMTS11Y, I.S.0ordinator .Kwlbawwaltv 00 14,10*00 Imediate results of simultaneous therapy of syphilis with pentaillin and other antisyphills drugs. Veste van* i dorm. no.6:29-33 N-D 154. 1, Ix otdala sifilidologif (zav.-prof. I.D.Parkell) Odeaskogo nauchno- iseledovatelgekogo kozhuo-venerologicheakogo Institute. iment. Ye#S. Glavche Wio-nau'ehrgry sotradnik B.I.Shpolyanakly) (SYPHILIS, therapy pe&cillin with oxophenaraine & bismuth) (PINIdILLIN,* ther. use syphilis-.with axophonaraine & bismuth) (OXOPMMM;~;, ther. use syphilis, with penicillin & bismuth) (BISMUTH, tfier. use syphilis, with penicillin & axophonarsins)  OUGHKIII, R.S.j kavdidat madtisinskikh nauk; KW!LSKIY I.S. ordinator Yurther observations on the simultaneous treatment of syphilis with penicillin, arsenic, and bismuth (with summary in English]. Vest. dorm. i von. 31 no.3:24-27 MY-Je 157. (MIRA 10:11) 1. Is otdela sifilidologii (say. - kencliclat meditsinskikh nauk M.S.OrecWn) Odesskogo nauchno-isaledovatellskogo kozhno-veneri- cheskogo institute vendispansera (glavM7 vrach I.M.Koltun) (COCOPHIIIARSINN, therapeutic use, .syphilis, with bismuth & penicillin (RUBD (M;ISXUl.H, therspeuiic~uqe, iayphilis, with oxophenaraine & pernicillin (Rua)) (FINICILLIN, therapeutic use, Isyphilis, with bismuth & oxophenarsine (Rua)) (SYPHILIS, therapy, bismuth; exophenersine & penicillin (RUB))  KANWRTSKIY, I.$,; (N)LIDW, M.I. Complications of gonorrhea in males with reference to modern methods of treatment. Vest. derm. i ven, 32 no.6:59-61 N-D 158. MIRA 12:1) 1, Is Odesskogo oblastnogo koshno-vanarologichei3kogo dispansera (glavuy vrach I.M. Koltun). (GO]161~, compl. (Itue))  GMtEVICH2 Yu.N.; KAKKNETSKIY~ I.S. Heiterlo syndrme treated with corticosteroids. Vest.dem.i ven. no.21:67-69 161. (MIRA 34t34) 1. Iz Odsookogo oblastnogo kozhno-vonerologichookogo dispansere (glavxwy vrach I.M. Koltun). 'i (REITEals DiszAsE) (AWMOCORTICAL HORKORM.-THMIAMTIC 'USE) I  Le \PoiF-Nrz.-TsKjV I J FSPUR 1" BWX EXPLOITATION SOV/3838 Bliskunov, N. AO, and L Yho Kwm;&tekiy Tekbwlaoya Imoizvocletva e1AtrovaImu=ykh priborov., Ch. 1: Izgotovleulye kato&w, pAogx*mta1ey, i gazopoglotiteley (Production Technology of Fae*t-ro-Vaimum Devices, Pt. 1: 7te Manufacture of Cathodes'Heaters, and Gss AWorbers) LeningreA. Gosenergoizdat, 1959. 219 po Errata sUp inserhad. l0jpOOO copies printed. Ed.: S. A. ObailensUyj Tach. Ed.: O.S. Zhitaikova. PURPOBS: Thim book is intended for persons working in the electro- vacvm industry, and can also be used by students of schools of higher education ntuMmg the teabnology of electro-vant, devices# - CDVMG's; TI)a book explaiwe tbp, te0nological principles of the mmu- facture of cathodes., heaterz., md gas absorbers of modern electron tdbea. Mie authors tbaxt R. A. Savrilov,, S. A. Obolenskiy, R. A. giletaer., and B. N. Nothzboyajoy. 'There are 10 references: 3 Sovi6t and T EUV-Ish- Card 1/ 4  Production Teahnology (Cont.) WV/3838 TABIS W COUMM: Ch. 14 Teelrology of Mth*U *muiscture 1. D*Mign and, physlaoi-themical Wop.LxUes of cathodes used i~ electro-va== dev:L*az 7 2* N&terlaJA and speciflostAons for *atheds base 14 3. Mmizel and purifice-ion, of materiels used &r dirvct-heating aatkole basee, 26 4. bkebinlaal tests and bvd"~tn arsnesUng of fine vire and tape. Bronzing of tuapten virs 33 5. Violding of d1rect-heaUng cathoda bases 40 6. NechAnt treatmemt of indireot-hiating cathode bases 47 7- Meansing of indirect-beating cathade bases 55 8. Reat treAtment. and sintaring of lmdirect-heating cathode bases 76 9. Oxide caqoetition axd te,~Imolcgy of their preparation 85 10. AppUcation of oyIda, =poeLtl on on aathode bases 101 11. InapectIon of aidde e,%th,-%A-S3 327 car& 2/4 .  Productionk TeeLmology (Cont.) SOV/ .3838 12., Carbide coating of cathodes 124 Ch. 11. Technology of Heater Manufhature 1. kk%teriala and specifications of heater bases 132 2. Specifications for IiisixUting coating materials and methods of purifying .. and testing them ik 134 3* Mecba--I*al manufacture of heater bases and the technology of their trfttment 140 4. Wthods, of app34ing ipsulating layer ~on heater bases 152 5. Anneallng of %eaters 172 6. Armoring and inspection of beaters 175 Ch. M. Tec&nology of Gas Absorber Mmufa--ture 1. General. info rmation. on and specifications for gas absorbers 181 2. ToohnW.ogy of the preparation of metall#:,barium 185 3- Preparution of alloys of barium with aliAminum and IFAUDA ium M 190 Preparntion. of gas aVoorbers of the barium-titanitm z ti) and of the barium-tborium (bato) type 194 Card 3/4  gig-, ...... .... .. (~-Itqvii Production Teelmology Nont.) SOV/3838 5- FroparlstLon of batalum ptttr,#, ribbon gas absorbers, and paste gebters [formir-getterl 199 6. Prlej*rstlon of tubu3w getters (barium vitb metal coating) 205 7. Zirconium and cerium-thorium pe-aboorbing coatings 209 8. Gas-atitiorbing construction materia3z 216 BiblioMphy 220 AVAIIANX: Ubrary of Congresa Jp/RM/ec Card 4/4 7-14-60  KA)MNETSKIY I.Ya, Effect of e4aptation to high-mountain conditions and the action under these.oonditions of Dorogov's antiseptic-stimulant ASD an the healing time of skin wounds in white miceo Trudy KirgNOAGE no#2t3&-39 165o Effect of adaptation to high-mountain conditions and the action 'Under these conditions of DorogovIs antiseptic-stimulant ASD on the healing time of skin wounds in white rats. Ibid..*39-42 (MI RA, 18 111) 1. Iz kafedry giatologii (zav. - prof. A.A.Braun) Kirgizskogo gosudarstvennogo meditainskogo instituta.  -T ............ .... . .... .. VywPaW to ACC 104 ' ; .. ! i . t~;-: ; I I . I 1 11 SOURCE 00 0502806 !i V VE: M/0236/65/000/020/0064/0064 wtokly. ?Ta I A.;. IZD r:;Y~ --J V; A U M IM A I re nnt Ye. Nq 0 nov, P; ye 'Ina K. A' 3iAsr, L sha-UnriT.- P'.. W ORG: TITLE., ;Surfacing. or mot.inic and reinforced concx-oto docks. Class 39# No. 175643, an!~Dun O'd r or g4u ga ~ or *0 StAto Co=gtffie-6-0-n-sm Oonst ction SM c"P 0 P ru follreAnligWYA gMdarstl~bxwogo koriteta po sudostroyeniyu SOMCH t: D yullete lrol~! a Unty i tovarnykh snakov, no. 20# 196% 64 Topit TAGSt polywj co.*,pplyaer, rubber, mineral filler, pigiwntp metal surfacing reil r concraim shi!~~ component -rHETIC A w 8 6 0- Y' 5') .! 0 5 YN ABSIRACT t. This Aut~or Cortificato presents a surfacing material for metallic and r 0 cr a n atol decko~.' The sixifecing material is based on a binding polymer aud rin~rs i~w' pigments, To increase its resistance to abrasion and cor. t At,6 slipperiness, a copDlywr of styrole with nitrylacrylic aoid and :with.;')utT1' porylicrubber is used as the binding po SUB; C0DFa 3-1/ Mk DkH: Mara d; iA' UDG: 678.746.2-139.678-046.3 (378-047  KAW,NETSKIY,.,,togpad..Borisovicb;.,!,IPSKAYA, V.P., red.; GORYACHKINA R.A.9 tekhn. red. [Manual for the bulldozer operator) bulldoiera. Moskva, Avtotransizdat, (Bulldozers) Pamiatka mashinistu 1963. 30 P. (MIRA 1618)  Leonid Borisovicb: LAPSKAYA, V.F., red. ,ZAM,F4 [Handbook for a bitumen-boiler operator) Pamiatka mashi- nistu biturmogo kotla. Moskva Transport, 1965. 36 p. (miju 18:6)  KAMRnTSKIY, L. ~ " .- 7 - ~I , I . . I.. Eliminate the abortcomings of cbronometric observations in coal mines. Soto.trud 4 no.3.-91-93 Rr '59. (NIR& 12:4) (Coal mines and mining-Researeb)  KAI-MINSKIY, Le Ye., insh. Some reoulte of using a new wage systrm for Chel7abinek Coal Basin miners. Ixv.v7souchubocave; goreshure no.4:20-25 159. OAIRA 13-.5) 1. Leningvadskiy ordena Unina I ordena Trudovogo Krasnogo Znameni gorny7 institut imeni G.V.Plekhanova. Rekomendovana Wedro7 ekonamiki i organizate4i pro12vodstva. (Chelyabitak Basin-Coal miners) (wages)  XOMTIMKIT, L.Te, Integrated work orgaplotion in the Chelyabinsk Coal Basin. 1zvovys,uch9bvzav*,, gorahtir. noo4:51-56 158, (MIRA 11:11) lo Lquingradskly gomyy institut. Whelyabinek B.aoin-Xine management)  KAYM.TSKIY, L.Ye., kand.ekon.nauk Standards for calculating the amount of other expenditures during the designing of open pit coal mines. Shakht.stroi. 7 no.5: 6-7 My 163. (MIRA 17:4) 1. Gosudarstvennyy institut po proyektirovaniyu shakht.  KORBUTP A.A., inzh,; KAM--'NETSKJ,Y-,.,L..Y t kand. ek(incm, neuk; VAYSBUIRD, M., inzh. Using linear programir.r -- 'I-ods in planning the exWs! n of the Kansk- AchLnaR coal basin. IzN.vys.ucbeb*zav*;gorezhuro 7 no,,L4-E~-51 164, (MIM 'LC?~,12) 1. Laningradskiy vychis2iteltnyy tsentr (for Korbut). 2. Gosudarctvannyy instAtut po proyektirovaniyu shakht (for Kamenetakiy, Vaysburd%  KAIENETSKIY, L.Y9.0 kand. ekonom. nauk; KORBUT, A.A. Using the linear programming method for solving probilems-in the-ex- pansion of the Kansk-Achinsk Basin. Ugoll 40 no.2t29-31 F 165.-- (MIRA 18s4) 1. Gosudaretvennyy institut po proyektirovaniyu shakht (for Kamefietskiy). 2. Leningradakiy vychislitellnyy tsentr (for,Korbut).  KAMMSKIYJ (g. tadiyevka) Light in neon from a long distance. Zhil.-kom. khoz. 12 noja 8-9 Mr 162. (MIRA 15S.10) (Luganak Province-Commmity life)  M - , w- "r-- TS Anzho KAMNE ~Lb,JM Detemining the efficient structure for the processing of slag by linear programing. Stroi.mat. 10 no.8814-15 Ag 164- (MIRA 17212)  1y 113, 1 e ctri cPouer 3upply frcll ?."blie-jowN, ce A;I'iorls i i !. It i v L; I -,9t- coritur%.r. 'I -~ , o,' Cand. 'ec:,mical !)c-. 5u~. CcL 10 .,n-inrj~x n-, ln~5t, irroni ll~rzhiz anovokl- ca. a ~c -OW!, 3uamry 3"', 1.3 Doc !>'2, Presented f -,ering in lloscovi 0i- Da,7r~es in Scienn ~w Sr4~im in 19142. F-ram Vew.-harrwayij ~Loslkinaa-. Jan-lk--,c 1,,',43.  - - f VII Uji ........... I KA1,01ETSKIY, M. 0. Russia's First Electric Power Stations (Pervyye russkiye elektrostantsii), Gosenergoizdat, 132 Ipp, 15151, Book W-2251.7, 29 Apr 52  V, AM ENETW%~' M - --, . BERGER, A.U., professor (Imeningrad); KAMMTSKIT, M.O., inzhener (Leningrad). P.P.Xopniasyle role In the activities of the Russian school of electrical engineering. 11ektrichestvo no.1:71-72 Ja '54. (MLRA 7:2) (Kopniaev, Pavel Petrovich, 1867-1932) (Electric engineering)  AUTHOR KAWITSM 11.0. PA. - 3103 TIT" -ratermiang Feed in currento During Faults in Low Voltage Circuits. (Opredeleniya tokov podpitk-I pri korotkikh zapykanifth v setyakh niz- kogo napryaheniya -Russian) PLUIODIGAL Jaektrichestvop 1957sVol ? Nr 5. pp 4o - 45, Received 6/1957 Reviewed 7/1957 ABSTRACT The experimeate were carried out wIth a circuit of 38o V and,the overcon- sumption of the &synchronmotors which were used was determined, With a c:Lr- cuit voltage up to looo V and a corresponding fall of voltage the asynch- ron-notom emit a current to the short circuit point for a certain timee The purpose of this particular work was to aulyse the fading exay of this short circuit current. Farallel to this experiment another calculation was carried out whereby the noDdnal output of the motors basically determines the amount of the load before the short circuit, and the concept of "the apecific false outputh (the comparison of the false output to the self sus- pended output) was used by 6,A.Mitkovich, It is demonstrated that the ape- cific false output can aleo be analytically determined. The formula for the fading away of the short circuit current is derived. The experiments and the calculations differentiated themselves at lo - 15% and both eon- firmed that with the correct evaluation of the circuit voltage and of the noxinal motor output, the calculation results are throueal reliable for those eaves where the short circuit results in the top portion of the low Card 1/2 voltass circuit. With.medlum or greater distance of the short circuit, pointej  r~Rt,'\E-NETSKIY, M.O. 105-9-19/32 AUTHORt Kameaetskiy M.O.1 Candidate of Technical Sciences, (Leningradi TIT;,Et B.Arnold'a Activity in Russia (Deyatellnost' B. Arnollda v Rossii) PERIODICAIA Blektrichestvo, 1957, Nr 91 IPP- 65-68 (USSR) ABSTRARTi 1856 - 1911. From 1874 - 1678 Engelbert Arnold studied at Zurich at the Tsihnical High Schoolq faculty for mechanics, and worked as ebgineer at Leipzig and Offenbach on Main# In 1880 he was appointed assistant at the Technical High School of Riga. He ob- tained the venia legendi on September 22, 1883 on "Transfer of Electrical Energy". In 1886 electroteohnics was introduced as an independent compulsory subject and Arnold was given the chair for this subject. A special eleotroteohnioal laboratory was established at hie initiative, The Technical High School at Riga was one of the first in the world and the first in Russia at which electro- engineers were trained. In 1882-1892 Arnold was a member of the editorial office of the "Riga Industrial Newspaper". At Riga he wrote his two basic works "Details of Machines" and "Armature Windings of Direct Current Dynamos". From 1891 - 1894 he was head of the aleotroteohnical department of the Oarlikon-Works at Zurich and from 1894 - 1911 he held the chair at Karlsruhe Tech- nical High School. From 1896 - 1898 the Institute for Eleotroteoh~n Card 1/2 nice was established at Karlsruhe under his management. From 1906 -  E. Arnold's Activity in Russia - 105-9-19/32 1907 he was rector of the Technical High School at Karlsruhe. There is 1 figure and 1 Slavic reference. AVAILABLEt Library of Congress Ctrd 2/2  ThIISHYEV, A.A.- GOLOUSIMIX, Y.N.; XAWtV%1T. H.O.. kvnd.teIzhn.naukg nau;;;;; red.; VOROBIM,.G.S., red.izd-va-, GURDZUTRYA. A.m., tekhn.red. (Developmont of electric anginasring in the U.S.S.R.) Rasvitie elektrotekhniki v SSSR. Leningrad, Ob-vo po rasprostrananiiu polit, i nauohnananii RSFSR, Leningr.otd-nie, 1959. 45 (~I 1).-4) (Blectrio engineering)  POPILOV, Lev Yakovlevich,-. KMMr,S-K-IYI II.P._, kand. tekhn. nauk., retsenzent; 'SIAVUVI PA.-,-Rand. kbina VyAcjil, nail I dots., red.; GRILIJMS, S.Ya., red. vypualml YAMPOLISKIY, A.M., inzh. red.; 01~IISHCMMKO, R.N., red. izd-vaj- DARDINA, AoAoy tekbne red* [Electroplating] Gallvanoplastika. Pod red. P.M.Viacheslavova. Mo- skva, Hashgiz, 1961. 62 p. (Bibliotechka gallvanote.khnika~ no.6) (MIRA 14: U) (Electroplating)  OMERP maq-ummany -M.S. .-====L Secondary bypertrophic pulmmu7 oateoartbropathy (Mairle-Bamberger m.drcme); alWeal characteristics and role in the-diagnooio of' pulmmiM cancer. Teraparkho 33 no#3&41-46 Mr 161* (MIRA 3.413) 1 Iz klitiki propedevtioheekoy terapil. (ioo. mavo - kandit-at m;ditsinakikh nauk M.S. Obnoyder) oanitarno-gigiyemicheakogo - i pediatrioheskogo fakulltatov Stalinakogo meditsirakogo instituta, (ACRQMMY) (WNGS-CANCEM)  WIENETUn. M.S. --P; Evaluation of L-ray methods of examining e3cternal respira, tion. Vraoh. delo no.8s73-75 Ac'63- (MIRA 16:9) 1. Rentgonovskoye otdeleniye Vtoroy gorodskoy bollnitsy Donetakoo betaU= ichoskogo zavoda. 1~ "; - -40' . I (X RkISI (RESPIRATION)  1 37-1958-1-219 .Translation from: Referativnyy zhurnal., Metallurgiya. 1958, Nr 1, p 34 (USSR) AUTHOR: Kamenetskiy, M. V. T IT LE: ri-ga-tio"n of the Ternary System NaGI-KCI-TiCI3 (Issledovaniye troynoy sistemy NaCI - M - TiCl 3) PERIODICAL- Nauchno-tekhn. inform. Byul. Leningr. politekhn. in-t, 1957, Nr 3, pp 3-12 ABSTRACT: The binary systems NaCI-T'C'3 and KCI-TiC13 are studied. It is shown that t'he system KCI-T'C'3 contains a stable chemical compound 3KCI- TiCl melting temp. 7600. In the interval in- investigated, this sys?e- m' has a eutectic of the composition: KCI 85.2 moL. - percent, TiC13 14.8 mol - percent, melting temperature 6760. The composition of a second eutectic was 61114-trmined by extrapolation. It: consists of 66.4 moL -percent KCI and 33.6 mol,, -percent TiC13, melting temperature 5950. The system NaCl-TiC13 is eutectic, NaCl 77.6 mole -percent, TiC13 22.4 moL-.- -percent melting temperature 5400. It is shown that in the NaCl-KCI-TiCl system the minimum melting ') is that. of the following mixture temperature (5900 approximately Card 1/2 (in mol- -percent): NaCl. 40, KC1 48, TiC13 12. The existence  137-1958-1-219 An Investigation of the Ternary System NaCI-KCI-T'C'3 of a chemical compound 3KCI - TiC13 is proved. It is suggested that there is a compound of the composition 3 NaCl - T'Cl3 - N. P, L Metal abloride coxpemda-4nalpio 2. Metal chloride co"mdo -?ropertiee Card 2/2  AUtH0R'. KamenetEkiyj M. V. BOV/163-58-2-17/46 TITLE: The Interaction of Metallic Titanium With Its Chlorides in the Melt of Alkali Metallic Chlorides (Vzaimodeystviye metalli- cheakogo titans, s yego khloridami v rasplavakh khloridov ahoheloohnykh metallov) PERIODICAL: Nauohnyye doklady vysshey shkoly, Metallurgiya, 195B, Nr 2, PP. 104-111 (USSR) ABSTRACT* The interaction of metallic titanium and its 2- and 3-valent chlorides in the melt of alkali metallic chlorides was in- vestigated. This investigation is of importance for an electro- lytic production of titanium metal from the alkali melt* The decomposition of TiCl 3was investigated, The experiments cn this decomposition were carried out in a potassium chloride melt and in an equimolar melt of NaCl and KC1 in a quartz 'llube. The determination of the composition of 2- and 3-valent titanium chloride in the salt melts investi ated was carried out by means of the titration of iron-(Ill-chloride. It is shown that Card 1/3 at temperatures of 675-9000C the equation 2 TiCl + Ti--13 TiCl 3 r- 2  SOV/163-58-2-17/46 The Interaction of Hetallio Titanium With Its Chlorides in the Melt of Alkali Metallic Chlorides tends to the side of TiCl,* TiCl 2 cin the other hand decomposes furthor,into TiCl The deoompositl,on takes place according 3 " to a eomplex reaction scheme. The ilependence of the solubility of titanium on the anodic current lensity was investigated. At lower current densities the process of dissolution mainly takes place under the formation of TiCl 2* At a current density of OP35 A/am2 for instance, the anount of Tici 2 is almost twice that of TiCl 3' With an increase of the current densit y the amount of TiCl3 increases, and at a current density of 10 A/am 2 mainly TiCl 3 is formed at the anode. There are 2 figures, 5 tables, and 8 references, 3 of whi.-h are Soviet. ASSOGIATION: Leningradskiy politekhnioheakiy institut (Leningrad Poly- technical Institute) Card 2/3  KAI-EWTSKIY, 'IM. V.: Master Tech Sci (diss) - "Investigation of the physicochem- ical properties of .[used titanium chlorides in alkali-earth vietals". Lenin- grad, 1959. 14 pp (Hin Higher Educ USSR, LLnin,~,,rad Polytech Inst bq it. 1. Kalinin), 150 copies (KL, No 13, 1959, 105)  . I I.8.3100 77728 -9-60-1-17/27 AUTHORS: Kairenetskiy, M. V., Kostyukov, A. A., Popov, A. N. TITTLE: Ternary System of Potassium, Magnesium, and Titanium Chlorides PERIODICAL: Izvestlya vysshikh uchebny1c zavedeniy. Tsvetnaya metal- lu-rgiya., 1,960, Nr 1, pp 119-122 (USSR) ABSTRACT: Equilibrium diagrams of the above ternary system were investigated as an area of interest for titanium electro- metallurgy. Previous work on this subject by A. I. Ivanov (DAN SSSR, Vol 86, Nr 3, 539, 1952) and M. V. Kameneuskiy (Tsvetnyye metally, Nr 2, 39, 1958) is cited, The study was based on cooling curve recordings of the system, with composition expressed in molar percentages. Eleven cross sections of the diagram were investigated at,, shown in Fig. 1. As melts high in TiCl 3 content could be studied insofar as saturated by "his component, the position of monovariant line e E (see Fig, 1) is Card 1/6 determined tentatively. A short description of the cross  Ternary System of Patasslurn, Magnesium, 7 7 7 2 'd ~nd Titanium Chloride,3 S011/149-60-1-17/27 section:5 is given as follows; (1) (90% KCI + 10%MgCl 2) TiCl.. crosses the cryStallization field boundaries of KCI,' 3KU-1-TiCl., and TICI (7.9 and 28.6%) at 615 and r'900 3 C, respectiv~jy. (11) (80% KC1 + 20% MgC123- Tici 3 crosses the same boundaries at 5400 C (4.5% TiCi 3) and 560" C 23% TiCl 3 (111) (75% KC-1 + 25%MgCI2) Ti I crosses the same boundaries at 490 0 C (3% TiCl 3) and 54oo c (20% TiCl 3). (Iv) (67% M + 33% MgC12) ---:--TiCl3 crosses boundaries of fields of variable composition phase crystallization A, KCI - MgC! 29 -QKCl TiC1 -4 and TiCl 3 at 430`~' C (1% TiCl 3 ); 47700 (6% TiCl. 3 and 47000 (15% TiCl,~). (V) (6(;% u1 + 40% TiCl crosses % I ~19C'2) 3 Card 2/6 one field**boundary KCI - MgCl 2 and TiCl 3 at 3880 C  T,:~rnai,y System of' Potassium, Magnesimi, 77728 . arid Titanium Chlorides SOV/149-60-1-17/27 A~ -,41QCI M AW7, - Fig. 1. Concentration triangle of KC1-MgC1 P_-TiCl3 showing Card 3/6 cross sections and points of Investigatod alloys.  T:A,nary System of' Potasslwii, Magnegitmi, 77728 and Titanium Chlorides sov/,1149-')o-i -17/27 (11.5% TiCl 3)' (VI) (50% KC1 + 50% MgC'2)----),,TiCl (81%) crosses the same boundary at 390 a C. (VII) (4o% KC1 + 6o,,,4. mg-.1 2) -.> TiCl3crosses field boundaries DTgC,IL and TiCl at 44o c (6.7% TiClj- (VIII) (92.5% 2 3 KCl + 7.5% TiCl 3) -> KCI M9C12 crosses the field boundaries of KC1, 3KC1 TIC13 and M - MgC1 2 (30.5 and 62%) at 565 and 4350 C, respectively. (IX) OKC1 TiCl-, --:-: KC1 - MgC1 2 (63%) crosses field boundary 3KC1 TiCl and KC1 - MgC1 2 at 4800 C. (X) (69% KC1 + 31% Tici 3~--p,01 -MgC19 (65%) crosses the same boundary at 4160 C. (XI) KCL ----,1(71% MgC12 + 2S%TiCl3 crosses field boundaries of KCI, 3KC1 - TiCl 3 at 5680 (801% KC1) and 4200 0 (56% KC1). The above experimental data were used for plotting the KC1-MgCl2-TiCl 3 ternary system diagram as a projection of primary orystall-L--i- Card 4/6 tion aurfaceo on the plai)e of a coiioentration triang1c, I  I ,t] I ! I Til,,~trlilml sov/ I ,I(.) -6o- I -11'iV I;hown cry-talll;~~,JtAori ;uIT; -1 c 0 is Vopre,ientud by ci-,-,,o tii I I t [(-,ii Vie. ld~~ ( three co,-re - I qxm (11,11J!" to Ovl~jll~ll nalt,, _ind to counpowdo Kf "I and K(,',] - M~,,~Il, al;., zl:, The Vieldc'; convelIrt, ill l,C)l IvtviLl 11,_ I I till'(20 cutcetic '111d One hypevuu I-lee tic Theiv characteri,stics are triven. In their conclu.,3ion,3 the autlicw!; indicate thaL tAic! loviu-st moltiiig of tile t u r 11.1 ry syotelll are in the Vicinity Of eutectic poilit-, E', and (-,,~)'O, C) . "cne forin...1tioll of a otable 'olnpo,und IXCI. - TICI which U. J :_;Oluble ill mr)Lton K, 1,b-', a Fid Ti -lilori- I A co i c 0111 * L, I'me'd Tl*wve avu, '.." fivuve:,; 1 x and 5 references, 3 Soviet, Gerill-'~. 0 CI A'J'I 0 N Leningrad Polytechnic ol' Non-Fevi,01.10 ,iy illstitut. Kafedna ulk-- ta I Iov 3M.U.11"I'l I.,j): ILly 20, 19~)9 Iwotitute. Chair of Electrometal.- MA-11b (bjningvad~,kiy '21ektrolliet:111in-gii t-svetilykil Can]  Ttn-nuvy SYLOU,evi ot' Potasoiivn, Magnesium, and TitLilliLlIll Chlcwides ,-,)o!j/ll 4, 9-b- I - I"!"Y I",- pflorl, VCI Nor/, Fig. .0. Concentration triangle for KCI-W,C1 -T*,."I ID 2 - '' 3 Card 6/6 system wiLh Isotherms.  80833 8/149/60/000/03/03/009 0 0 AUTHORS.- Baymakov, Yu.V., Kamemetskiy, M.V., Smirnov, V.V. TITLE: Investigation Dito Processes Occurring on Electrodes in Electro- lytic Titanium Refinement PERIODICAL: Izvestlya vysshikh uchebnykh zavedeniy, Tsvetnaya metallurgiya, 1W~ No 3, pp 81 - 89t A TEXT: Studies on.the crystallization of metal on the cathode In eleotrolytio refinement of titanium are still at a stage of preliminary re- searohi Crystallizattion of titanium on the cathode is complicated by the 2TiC13 + Ti Zt3=12 reaction developing on the surface of forming crystals. The aut) iors investigated the preparation of melts containing TiCl3 and earried out analyses. The metho'l described in Relb 5 and 6 was employed. The experi- ments were performed Inta medium of purified argon on an installation shown in Figure 1. Results of the experiments are given in a table. The dependence of the current efficiency And the composition of the final electrolyte on the volume current density at 8000C is represented by a set of graphs. It appears that, highest current efficiency is obtained if the melt contains 5 to 12% Card 1/~  80833 S/149/60/00/0~/03/009 Investigation Into Processes Occurring on Electrodes in Electrolytic Titanium Refinement T101 (in g equ). Higher temperatures cause increased current efficiency which attla its*maxiraum within the range of 8DOO - 8750C. Further raise of the temperature causes decreased ourrent efficiency. Reactions on the electrodes and the balance of electrode processes were investigated. Values of the de- composition potentiala for reaotions of reduction and formation of titanium chloride at 8000C, calculated by M.V. Kamenetskiy (Ref 12) are given. If the equilibrium electrode potential of Cl is considered as a constant value, the most.clectronegative potential corresponds to the reaction of T12+ reduction. I.rhis leads to the conclusion on the consecutive course of anode and cathode reactlons. To obtain. a satisfactory course of the cathode process, a higher cathode current density is required as well as a relatively high Ti+ concen- tration in the melt onsuring the feed of the zone adjacent to the cathode. The reactions on the cathode and anode are illustrated by Figure 5. The effect of the volume current density was studied in a series of experiments. It was revealed that the amount of TiCl3 and TiC12 contained in the volume of the electrolyte acted as a regulator to maintain a constant composition. As a consequence the part of the current density was revealed, whose optimum value Card g/~  80833 S/149/60/000/03/03/009 Investigation Into Prooesses Occurring on Electrodes in Electrolytic Titanium Refinement was 25 - 30 amp/l. It was established that highest current efficiency was ob- served If there was a noticeable TiC12 concentration in the malt. To ensure a nuffloient rato of TIC12 formation malts with high activity of T'Cl3 are recommended. Best current efficiency Is obtained if the cathode current density is 0.8 - 2,5 amp/=2 and the anode current density is 0.05 - 0.1 amp/emp- at 8ooo - 85oOc. 'the authors studied the effect of the electrolysis process of KCI - I'M3 melts on the structure of cathode deposits, which was most satis_ factory at a concentration of 4 - 10% TiCl in the initial melt, a volume current density 9f 25 - 50 amp/l, a catQ~ current density of 1 - 2.5 amp/cm? and a temperature of 8000 - 85000. There are 1 diagram, 1 table, 4 sets of graphs, 4 photographs and 14 references: 10 Soviet, 1 English and 3 German. ASSOCIATION- Laningradskiy politekhnicheskiy institut (Leningrad Polyteelmical Institute), Kafedra elektropirometallurgii (The Chair of Electro- pyrometall-argy) July 21, 1959 Card V3  BAYWKOV, Yu*V#; YJaMNEMKIY, M,V.; CHRIWO F. Equilibrium betveen titanium chlorides and titanium metal in molten potassium and sodium chlorides. Izv.vys.uchebozave; tsvet, met. 3 no#2tlO2-l07 160. (KUU 15:4) 1, Laningr4dekiy politekhniahookiy institut, kafedraelektropiro- metallurgii. (Titanium-Electrometallurgy)  S/149/62/000/003/OOZ/Oll A001/A101 AUTHORSt TITLEt Kamenetakiy, M. V., Shevlyakova, L. 1. Electric conductivity of binary systems consisting of sodium and titanium chlorides or potassium and titanium chlorides FE1110DICALI Izvestlya vysshikh uchebnykh zavedeniy, Tsvetnaya metallurgiya, no - 3,1962, 89 - 93' TEXT: The authors studied electric conductivity of binary systems used in electrolytical, refining of titanium at 800 - 9500C in order to select'an effective compositicn of electrolytes. The device used for resistance measurements was a conductivity meter vrith an operation range from 10-2 to 107 ohm. Molybdenum and tungsten were used as materials for electrodes. The specific electric conduc- tivity of the KU-TIC13 system was measured in the concentration range from 0 to 38 mol,% TiCIj, and thit 6f the NaCl-TiCl3 system in the range from 0 to 30.8 mol.% TiCi jIsotherms of specific electrio conductivity of both systems are shown gra;2ically at various temperatures and compared with data by Yu. X.'Deli- marskiy and R. V. Chernov. At a content of 25 mol.% TiCl3 the isotherms show de- Card 1/2  S/149/6P-/000/003/002/011 Electric conductivity of... AOOI/A101 flections, which can be explained by formation in the systems of chemical com- pounds Na TiCl- and K TiCl With increasing TiCl content beyond 25 mol.%, elec- 3 yty of ~~e 6 tric conductiv meit drops considerably, In view of its dilution by poorly conducting titanium trichloride. Relative temperature coefficients of specific electric conductivity of both systems were calculated and plotted in graphs versus TiCl3 content. The curves of both systems pass thi~ough maxima at 25 mol.% TIC13, conf_!-.-*.ng thereby the formation of the chemical compound in the melt. It was found uhat the eleotric conductivity data of the melts studied sat' ., Frenkel9s formula: U. X XT Anal~.,ically, using this formula, and graphically the authors"determined activa- tion energy of the electric conductivity process at a temperature of 8750C and plotted the corresponding curves versus T'Cl3 content, which also reveal maxima at its 25 mol.% content. There are 4 figures and 1 table. ASSOCIATION: Leningradskiy politekbnicheskiy institut (Leningrad Polytechnic Institute) Kafedra -elektropirometallurgii (Department of Electric Pyrometallurgy) SUMMMM: . January 6, 1962 --Card 2/2  S~826/62/000/000/002/007 D 08/D307 AUTHORSs KamenetAkiyj_M.V., Kostyukovt-A.A. and V - --Ko'rohakov JC. TITLE3 The ternary system of sodium, titanium and barium chlorides SOURCEt Fizicheskaya khimiya rasplavlennykh soley i shlakov; trudy Vses. soveshch. po fiz. khimii raepl. soley i shlakov, 22 noyabrya, 1960 g., Moscow, Metallurgizdat, 1962, 60-62 TEXT: The authors studied the phase diagram of the ternary system IlaCl--Ti(;13--BaCI2 in the region of compositions suitable for the electrolytic production of titanium, because the addition of BaC12 to the system EaCl--T'C'3 (in order to prevent separation of the electrolyte components), alters the physico- chemical properties of the electrolyte. The cited binary system was also studied, up to 35-5 mol % TiCl content, because of the discrepancies in the d#ta concerning this system obtained by Card 1/2  S/826/62/000/000/002/007 The ternary system ... D4oa/D307 Kamenetakiy et al. The investigations showed that the'binary syetem eutectic contains 23 mol % TiC13 and melts at 550OC; the ternary eutectic has the oomposition TiCl3 20.6, BaC12 14.2, and WaCl 65X mol % and meits at 5400C. There are 3 figures. ASSOCIATION: Leningradskiy politekhnicheekiy inetitut (Leningyad Iblytechn'ic Institute) Card 2/2  B/826j62/000/000/001/007 D408/D307 AUTHORSt _W.enetski t M. V.-, Kostyukov, A.A. and " "' Kly' "~' _M11s _ao7_e_-_Ch_'uang TITLE: The ternary system of potassiump barium, and titanium chlorides SOURCE: Fizicheskaya khimiya rasplavlennykh soley*i shlakov; trudy Vses. soveshch po fiz. khimii raspl. soley i shlakov, 22 - 25 noyabrya 1960 g., Moscow, Metallurgizdat, 1962, 54 - 59 TEM The authors studied the phase diagram of the system KC1--TiGl3--BaCl2 in the regign of compositions suit- able for the electrolytic production of titanium up to 40 mol TiC13, at atmoGpheric pressure, because the addition Of BaC12 to the system KC1--TiCl3, (in order to prevent separation of the electrolytic components), alters the physico-chemical pro- perties of the electrolyte. The cited binary system was also studied, tip to 41.6 mol % TiC13 content, because of the existence Card 1/5  S/026/62,/000/000/001/007 The ternary system ... D408/D307 of discrepancies in the phase diagrams obtained for this system by various authors. From the investigation of the binary system it was found that the eutectic contained 15 jnDl % TiCl and mel- ted at 6760(;, the compound 3KCI.TiC'3 meltel at 76008, and the 1;ompound 2KCI.'Pi" 3 melted ircongruently. A peritectic transi. tion occurred. at 40 % T'Cl3 and 5800C, in accordance with the reaction K2TiCl5 liquid + K3TiCl6. The crystallization surface in the investigated reC,,ion of the ternary system is re- presented by the four crystallization fields KC1, BaC12, K~TiCIO and K2BaCI4, and the triangulatine secants are K 3T'C'6--K2 aC14 and K3TiCl BaC12, which divide the system into three secondary systems: K81__--K3TiCl6--K2BaCl4, K3 TiC'6-,-K2BaCl4--BaCl2, and K3TiCl 6--BaCl 2--TiClY The latter system was not investigated since it encompaBses the region of melts difficult to obtain at normal pressure. In the portIon of the phase diagram which was atudied, the lowest melting point, 6000C, occ-ars in the region of the ternary eutectic points having compositions (TiC1 3 4.6, Card 2/3  S 826j6',)/000/000/001/007 The ternary system ... 9,08/D307 KCI 75,1t and BaC12 20-3 Mol 76), and (TiCl 3 7-89-KCI 65.69 and Ba(;l 26.6 mol %). It was confirmed that the compound K3TiG16 is stabie in molten KCI and B&C12, There axe 6 figures. ASSOCIATION Leningradakiy politeklinichaskiy inetitut (Leningrad Folytechnio Institute) Card 3/3  KAMMSKIY., H-,,V.; SMLYAKOVA, L.I. Electracotductivity of binary systems ot sodium and titanlum chlorides wid potiwaium and titanium chLorides. Izv.vya.ucheb. zav.; i~svet-met- 5 no.3:89-93 162. (MIRA 15:11) 1. laningradskiy politekhaicheokiy institut, kafedra elekta-6pirometallurgil. (Systems (Chemistx7)) (Ulorides-Electric properties)  IMTHIOU11311111 IIIIIIHI KAKENETSKIY, 4. B Increase of the service life of 43a2 picture tubes. Radio no.2;.98 F 161. (MIRA 14:9) (Television--Picture tiabes) _.__x ~ "-I  FAIVIETSKIL S 6 Reoonditioaing of 43MB kineacopes. Radio no.6:44 A 162. (M331A 15:5) (Televioion.-Picture tubea)  KMRNETSKIY~ S, kand,tekhn,nauk We All raise the quality of heat insulation. Na stroi. Roe,,. 3 no*100-31 A 162. (MIRA 16:5) (InsulatiA; materials) LA  ......................K11111"'mm, RAY1210H. Joha Willi" Stratfi; - USPP.NSKrjr,P.H. (translator); S.A.,Ctratiolator)., RrTOV,S.M.,, re4aktor rTheory of sound. Tramelated from the Mwlisbl Toorlia zvuka. Perevol a 3. angliiakcigo itd. P.N.Uspenalcogo i S..i.Kamenetskogo. Izd.2., pod. red. t a predial. S.R.Rytova,, Moskva, Goo.izd-vo takhniko-tearet. lit-77, 1955. (MLRA 90) (Bound) (Vibration) (Waves)  TIHOWBM, Stepan Prokoflyevicho rof - YANG, MIL, (Young, D.11.1, Prof.; 3. 00 PANOTIO, YA.G. [translate J, XAFAWM*IY. 16,A red.; GAIVRILOV, S.S., takhn.red, [vibration problems In engineering] lolebaniia v inshenernom dole. Hookva, Gos.izd-vo fisiko-matem.lit.-ryl 1959. '99 P (MIRA 1;..10) (Vibration) (Mechanics, A;Tlied)  PCM, L ev Oolomonovich; GRIGORITAN, A.T.. red,,; KA:99MSKI hok, re d. TUKMIHA:t N.A., tekbn.red. .!Mff&AjA [Tatiation6l principles In mechanics, their developmut ana .Drinteipy makhaniki, ~applications in physical Tariatsionnp) i ikh'ranvitie'i priwaardia v finike. 1gookva, Goo,ixd-vo flxiko- wtonait-ry, 1960, 599 p. (NIPJI 14:3) (ffach~nios, Anal 10) (Calculus of variations) YtPhysics)  ZAZOVSKIY,, Proosure Ttatoration on waU bottoms in thinned cil f3ow. liefteprom. delo noM6-12 165o (MIRA 18110) 1. Vuesoyusnyy neftegazoM nauchno-Issladavatellskiy institut.  o" A Sothod for tlVlatennhiation of nicotinic acid In blood. S. J.-Karnenets'kil Ukrain., Sri. Research last, Nutritioni Kiev). Ukrain. Biolftim. Zh?tr, 20, 303-9(in Russian, 368-70)(1048).-This metivyl do-S amly with the me of NaCNI" To 10 nil. Hoodadd 15 ad. ILO and all,w to stand -for 5 1111n, Add 10 oil. of a 10~'(, .oln. of Na tungitzac atid after 5 mia. 10 nil. of 0.07Y HC1. Shake occasionally ~or 46 inin and filter: t') the filtrate add ION IN1011, 15 all. for every lio ml. of filtrate. Ili-A for 1.6 lirs. on awater bith, Nctitmilze to plimelplithalvin with 30%) IICI. ak! bring to pit 4,646.0 with 2% IM, with bromphetiol bh1c And bromem-A)l purple 41 indiCUOM Add water ti> brhig the Vol. to V, tha, t of the Mtrate taixt; for hydrolysis atid heat 10 int. to 75-80' on a water Lath together with 1 Intl. of rhodanine bromide (1) soln. Cwl to room telu and add 2.bml.ofiL57osoln.otmetbyl-p-aminopbcui)l(~). Thel solu. contains CaCOj which products a more Wtense and stable color. Statidards oz! propil. with 0.11 1.0, 2,0, and 3.0 -y nicotinic acid (M) and the color is read in it photoclec. t-olorinieter after 4", niln. at room teirip. Oi:,e cmi (let. 25-307111inlml.ol'theblood. Aniliaecanbeimedinstead of H. 'Werner jacobjDw~  H ~ Kk'% M ItAKTOY11Y. SIIH-Si. VIX -Mupdre !4 ri /+9 "Upi 11041 of 011 t 03MU lvdroUds of Protein !J) t-be Treatwent of Dptroodo 00 ItId,too" p", Viluvoitso Rw of proxIdW37 Ibex "Jutic Mildo" N~ of "UVO x"19 Awd ad UkMID&CM "L%t A* Vo IsvI% SN to, RAPMUSM" era tx= 'Itualft a lid IV" Or4 of W1 Bomar of I4ibDr W Tw* lwxd RNIUM19 A Ated A* tor 01 446,11 &0.-1 -1 Duptp Mcratzdav Nutrition Iwtg 5 i.Dp "IWO 00 Vol MITIT, Ik, 4 UPOW IL colut*lp of wljo add* 6w top ovolved bv As Ve Win fm tbo pownud cu,ilb*-tur, or *~*Obll itlbo ave 4bus idth dratco0da* On obtub1mvooltive reudto AU b6 16WILIftUMol, iNtildstend thei sialution to ~ bwas psitlerUj, -'wf- 46 ailult ISM tmted tw, 6:w8sntw7 twdo dystroptWv 36 abowd ;*vIUvv reoulto " 91$Kv ro iRQuvMwzr4 T4bmUtqmI bt&Uvd ft= tA;o of the w rft*ntal dogap and am] colftJOV &0 In two pstlents,, dIsAussing their chgo blowin OULU- TabuUts4i dat.41 ca tgo aojoUal c&wso BeMdtg,j)f the treatmut j1ppow quitip VA  KAMM9MY, S.I. Metabolism of vitamin 0 and nicotinic acid in gastroduodenal ulcarl. Klln..-rjed..Moskva 18 rio.10:87-88 Oct 50. (CTJML 20:4) L Of the Department of Propedeutia Therap7 (Head-Prof. HA Gubergrito, Active Member of the Academy of Sciences USSR), Kiev Order of the Red Banner of Labor Institute imeni Academician A.A. Bogomoleta.  1. =,q I Xty -3 1 KT 'Ia. Kul , . S~~; BRAHINO 1, B. Y.; HEYKIMiN, L. Z.; I-MLIMI, 14. REIDERMANt Y. 1. 2. USSR (600) 4. Vitamins 7. Content of certain vitamins in the blood and urine in grippe and in acute catarrh of the upper respiratory tract. Medych. zhur. 22, No. 1, 1952. 9. X2Lthl 1953. Unclassified. I List of Russian Accessions, Library of Congress, April -  XLMSMSKIT, 3..Il.., dotsent; XIKUNIS, R.L. kandidat maditsinakikh nauk Olinical aspects of acute hepatic dystrophy in Botkin's clisease. ~racih..dqlo n6.11:1201-120 N 156. (KIRA 10:3) is Xafadra fakulltetskoy terapil,(zaveduyushchiy - professor 4.S.9*1"r Yh 6, tskogo maditainskogo instilhuta. TITIS, WICTIOUS)  . . . . . . . . ................ .0 u n t ry U S i, F" C~.t(y - '-.iur,,.- n Ani--l j7~t to ()I oi 3:y= C, 7 To i;bc, 6C~ur, a.- ya klinika (zav,-prof. B.S. it-,Stltl,~to ifakulftetalmya terapevticheska car Thi-ml -c,:r T itL; - I- . -- I r1 4 ?u"J. --lnxh. .,(-lo 5 u L- Abstrcl..-t -"ovklth- .!Ore enir'.11 -4ved o.. E, C t.Z~ J!_ %fc),e j 10, 20, '.he "P, oJ' frt~o ivi--, bo,An(l D1, ,a.nd o f' b.LooA navu da ~12. ail 3 C, rrin-c, t 1 C) o al of I--- - U .Orle, the be'ore It vas to C,~.rd: 1/3 **-*shkiyar) Vinnitskogo meditsinakogo instituta.  IC 7-'t L 0l -4 bs j,)Ilr. I not itu t Orl;~, Pub. r c .14, C cm,; r, o 11 r1 t 0 0 t r e 0 1 v i 4.' erl 4.10) nt -liere w as I o I I I, Cnr, 2!c~ Clcoc,., tlp no C, Ti! LC`Iltul'.-Pit_ "ti ~1!~ t Y, L to t