SCIENTIFIC ABSTRACT RABINOVICH, S. G. - RABINOVICH, S. V.

Automatic graduation of accurate electrical measuring instruments. 0-2-t3IL32, The combination of graduating machine and stabiliser has increased productivity in the graduation of instruments and reduces the overall error of scale warking to 0.05 - 0.07% of the full-scale deflection of the instrument. The apparatus makes possible mass production of high-accuracy instruments, with graduation carried on on the conveyor belt. There are 3 figures, no literature references. ASSOCLITION:"Vibratui~Works..(Zavod "Vibrator") AVAIUDLE: Library of, Congress. Card  SOV/115-59-3-16/27~ 1)(3), 28(2) AUT ITO RS Rabinovich, S.G. and Tkachenko-A.N. TITLE: To the Calculation of Photoelectric Fluxmeters PERIODICAL- lzmeritelInaya, Teldinika, 1959, Nr 5, pp 30-35 (USSR) A13STIZACT: The authors state that photoelectric fluxmeters.can attain high- er sensivity than any other service, if they work with a galvanome- ter. Fig.2.gives the structural.scheme of this fluxmeter. The set- ting is: 1) Measuring coil; 2) transformer forthe voltage differ- ence; 3) Galvanometer; 4) photoelectricamplifier; 5) stabilizing link; 0) electron amplifier; 7) negative regeneration coupling. The authors analyse the dynamic characteristics of the photoelect- ric fluxmeter while it is measuring magnetic current. The trans- mission function is derived from the function with a condition ze- ro. The input influence is regarded as gradual. After deriving the complete transmission function, the parameters are calculated for the measuring of spontaneous magnetic current. The calculation of a numerical example is added. The presented correlations give the Card 1/2 possibility of making calculations for a highly sensiti ve photo-   SOV/115-59-7-18/33 9(3) AUTHOR: Seliber, B.A., Rabinovich S G. Mints, M.B. TITLE: Universal Direct-Curr-ent Percentage Bridges PIWIODICAL: lzmeritelinaya tekhnika, 1959, Nr 7, pp 35-38 (USSR) ABSTRACT- The authors discuss theoretical aspects of a universal direct- current percentage bridge. Based on these considerations, they describe the R-19 percIentage br.idge disigned and manufactured at the plant "Vibrator". The bridge is designed for measuring resist- ances in the range of 1 ohm to 1 megohm and has 3 measuring ranges of percentage error +0.25; �2.5 and +25%. The graduation value of the indicating instr;Wment is 0.01, 0.1 and 1% accordingly. For routine engineering measurements, when an accuracy of 0.1-0.3% is adequate, an ordinary resistance box, for example, TQIS-6, may be used in thecomparison arm of the bridge. A somewhat simplified circuit diagram of thebridge is shown in fig.2, while fig.3 shown a photograph of the bridge.'The overall dimensions are 4lOx3OOx 180mm. The*weight is 12 kg. The power required from the network does not exceed 50 watts. There are 2 circuit diagrams, 1 photo Card 1/1 graph and 5 references, 3 of which are Soviet and 2 German.     MINTS$ M. B.; RABINOVICH, S. G.; SELIBER, B. A.; TKACHENKO, A. N.         L 29969-66 , 'EK(j) ACC NR,AP600~~682 SOURCE CODE- U-h/0286/65/000/024/0041/00-','I ENT OR: Rabilnovich, S.. G. ORG: none TITLE: Photoelectric amplifieiiwith anelectric corrector. Class 21, No. 176975 rainnounced Vibrator" Plant,(Zavod "Vibratorls ] SOURCE: Byulleten' izobreteniy i tovarnykh znakov, no.:24, 1965, 41 TOPIC TAGS: photoelectric' aetz'9Z, galvanorneter,, thermoelectromotive force, amplifier designs remote control P P ABSTRACT: 1. The photoelectric amplifier with.the electric corrector, consisting of a galvanometer and a photoelectric measurinor, circuit, is characterized by the fact.that the measuring coil.of the -alvanomete is equipped with additional winding, insulated from the measuring coil and connected to a variable voltase source. The above desisn ls~:Ln- tended for remote-correction of the zero and for its even and accurate 1- control. 2. The amplifier, described in section 1, is characterized by 'the fact that the measuring.coil of the galvanometer Is equipped with separate current feeders made from material with a low ther-moelectro- mot ive force inorder to increase the sensitivity of the apparatus. Card 1 /2   SOURCE CQ)Z: IJII(c Uii/O/a3/66/000/007/0033/0034 ~-~'flrjinoviclip S. G. 0,13: nono Potant- io,-.o tor device for checking electrical measuring apparatus with au tomatic recording of corrections. Class 21, No. 180259 S01PROIE :Izobrotaniya, prorWih1onnyyo obraztay, tovarnyye snaki, no. 7,11966, 33-34, TO?IG TAGS: potontiomotor, automatic -vorrL-.rl equipment J',:~STiUCTL : This Aut .her Certificate presents a potentiometer device for checking electrical moanurinG.Appgrq~ys with automati6 rocordine of c~-ii~tU6-ns. ft--C-- ntains both a notontionaotor and a recording device. To incroaso.tho checking rate elactro- r:ochanicai control of the printing device is accomplished with a decade potentiometer. The most si,-nificant decade of the potentiometer, also aoiving As the line device, is connectood "by moans of a slave system to the drive roller of the'printing device ksee Fig. 1). The least significant,decade is mechanically coupled with additional contacts engaging the electromagnetic symbol pushrods of the printing device. Card 1/2 UDC: 621-3.089.6.002.56     SOFINSKIY. I.D.; BLOKHIN, P.N.-, GILIBM, L.A.; ZHDANOT. P.M.; IVASHCHWO, I.P.; LETINA, G.P.; NAUMOVA, N.A.; SKIRNOT, N.S.; ARONOTA, R.I.; NIKOLAYNT. N.A.; SURENTSIS, A.A.; KOVALEVSKIY, I.I.; LOBACEW, P.V.; SLADKOT, S.F.; DZIGAN, A.Y.; FORMNOT, N.K. Priatmeli uchaotiye: ARGANSKIT. A.S.; ASKUS, U.N.; BNZHALOYA. Te.M.; BOGATW, Ta.De; BURENIN,'T.A.;- GOLODING. N*P.; DOINSHLAK. I.P.; MOSIAM, S.A,; RABIYqUCAjj~ ROGOVSKIY. L.V.; KHOKHWTA, L.P.; SHISTOPAL, N.N.0 ftAWINiO, B.H.. glavnyy red.; GALKIN, YaeGq , zamest.glaynogo red.; SAPRTKIN, V.A., red.; SHCHEMOT, VA., red,; NOVITCHWO, K.M., nauchnyy red.; VILKOV, G.N.,inzh., red.izd-va; TTAPKIN, B.G., red. izd-va; ELIKINA, Z.H., takhn.red. [Building your own home] Spravochnik individuallnogo sastroishchike. Moskva, Gon.izd-vo lit-ry po stroit.mterialam, 19580 442 p. (MIRA 12s2) 1. Akademiya stroitalletva i arkhitektury SSSR. (Building)  RABINOVICH.-B.G.,, inzh.; SUORTSOV. A.P.. Inzh.; SOVALOV, I.G., kand. tekhn.nauko red.; GCRMYBT. P.A., ri~d.izd-va; GILSKSM. P.G.. tekha.red.; GCLIBIRG. T.K.. takhn.red. [Album of drawings of molds and forms for monolithic and precast reWorced-concrete construction elements] Allbom chertezhei o-mlubki i form Me monolitnykh i sbornykh zhelesobetonnykh konstruktoti. Izd.2., dop. I parer, Moskva, Gos.izd-vo lit-ry po stroit., arkhit. i stroit.materialam. 1960. 107 p. (NDA 1):12) (Precast concrete)  IEVI, S.S. 0 kand.tekhn.nauk; JWINOVICHI S G inzh SOVAWVq I.G. v re' kand.tekhn.nauk; TYUIAWA-,L.-M. diz --va: OSMKO, L.M., --,,tekhn.red. [Concrete and reinforced-concrete work in building monolithic structures] Betonmyfs i zhelezobetonmye raboty pri vo2vedenii monolitnykh sooruzhenii. Moskvap Gos.izd-vo lit-ry po stroit., arkhit, i stroit,materia2my 1961. 362 p. (MIU 34s6) 1. Akademiya stroitelletya i skrlrbitektury SSSR. Institut organt-, .zaLtziip mekhamiza sii i tekbnicheskoy pomoshchi stroitel'stwu. (Concrete construction) (Reinforced concrete construction)   `-W " RABINOVICH, S.G., inzh.; TOPCHIY, V.D., inzh.; SOVALOV, I.G., kand. tekhn. nauk, red. [Album of drawings of molds and forms for monolithic and precast concrete structures] Allbom,chertezhei opalubki i form dlia monolitnykh i sbornykh zhelezobetonrqkh kon.-: stniktsii- rBvI S-G-Rabinavich i V-D.Tonchli. IMA-    VIM 11110 ,6(1) AUTHOR: Rabinovich S.I. SOV/155-58-3-20/37 TITLE: On Some Estimations Combined With the Linear Methods for the Approximation of Functions,by Algebraic Polynomials 1 (0 nekotory kh otsenkakh,. svyazannykh s lineynymi metodami priblizheniya funk- tsiy algebraicheskimi mnogochlenami) PERIODICALs Nauchnyye doklady vysshey shkoly. Piziko-matematicheskiye nauki, 1958, Nr 3, pp 104_ 106 (USSR) H Ocl( ABSTRACTt Let' f (x)EKW (r) [-101jaean that f(x).is defined on E-1,11f that!it has the r-th derivative and that f(r)(x) on E-1,13 n satisfies the Lipschitz ~ condition (at.,K). Let A( ) be a triangular k (n) (n) (n) (n ,.Jn). 1>0 where kr 2 matrix, wherehA~ jQ )I + 11 , /1k k C +1 O10 are presented. The formulas were derived according to the well-known procedure of A, 1. Petrusevich, but for the sake of simplification certain additional assumptions were introduced, as follows: l) The influence of the parameters of the conjugated gear has little effect on the value of 11. and is not taken into consideration, This results in a discrepancy of less than 510, when the sum of the teeth zI + z2 = 50 and less than 3(yo when z, + Card 1/2 Zz 100, 2) For teeth working on both profiles the calculation is  SOV/124-58-10-10828 Gear-tooth Form Coefficient With Consideration (cont. carried out according to the symmetrical cycleof T_ I in view of the comparatively insignificant stresses in the critical cross--section of the tooth which create a certain asymmetry in the cycle, 3) The critical cross section of the tooth,coin- cides with the dedendum circle when the latter is larger than the base circleand coincides with the base circle in the opposite case; th,-s holds sufficiently true tor z>10 for non-undercut teeth. In this way all the possible combinations for -1 are reduced to four cases, viz, , for either the driver or the driven wheel and with teeth working either on one or on both flanks, It has been demonstrated that, everything else being equal. 'n . of the dril:en wheel is smaller than that of the driver wheel by approximately 200/6 when working on one flank and by approxi- mately 150/6 when working on both flanks. For working on~ one flank the value ot q is smaller than for working on both flanks by about 6~6 in the case ofa dr'oyer gear and by about 1.2(,)/o for a, driven gear. All factors being considered, the safety margin of strength for a steel gear tooth working on both flanks drops 44 - 5001'o as compared to working on one flank; for cast iron it drops 31 35qo, under similar conditions. V. N. Geminov Card 2/2  RABINOVICH, V.M., kandidat ael'ekokhozy&ystvennykh nauk- RLBINUVICH, S.V. Tillering zone of head of perennial leriminwis grasses, erroneous- ly called the root neck. Agrobialoglia no.5:17.5-133 S-0 156. (MLRA 9-11) 1. Ukrainakiy filial Vsesoyuznogo nauchno-issladovatel4skogo institute. kormov imeni V.R.Villyamsa, Poltava. (Legimes) (Botany-Norphology)  122-2-5/33 AUTHOR: Rabinovich,-S.V., Candidate of Technical Sciences. TITLE: A Combined Graphical and Analytical Method for the Design of Structures by the Limit Equilibrium Theory in Bending with Tension (Grafoanaliticheskiy sposob rascheta konstruk- tsiy p0 metody predellnogo ravnovesiya pri izgibe s rast- yazheniyem) PERIODICAL: Vestnik lvlashinostroyeniya, 1958, Vo.2, pp. 19-22 (USSR) 'ABSTRACT: In simultaneous tension and pure bending the limiting equilibrium, when all the fibres of a beam reach either the compressive or the tensile yield stress, is expressed by them Hirkmann formula (Eq~l). It is convenient to define two ratios, na-mely, that of the limit value of the tension force acting , I simultaneously with a bending r-ent to its limit value without. the bending moment and the analagous ratio for the limit bending moment acting with or without the tension force. The relation between thetwo ratios can be computed from the geometry of the section. Solid rectangular and circular sections, thin-, and thick-walled circular tubes and the III section are treated. The above relation is shown graphically for each type of section (Fig.6). Eccentric tension modes are represented on this graph by straight lines through the origin. xxamples Cardl/2 illustrate the use of the graph to determine the limit bending  122-2-5/33 A Combined Graphical and Analytical Pletliod for the Design of Structures by the Limit Equilibrium Theory in Bending with Tension moment from the limit tension, the limit iension from the limit bending moment and the limit tension for a given eccentricity. There are 6 figures, 1 table and 5 Russian references. AVAILABLE- Library of Congress Card 2/2