SCIENTIFIC ABSTRACT ZIMIN, V. A. - ZIMIN, YU. P.

1 F I P- 1 111. ZIRIN A-Yw~q Ualav- Ue k mad, inz. jU7111, Sarwil Samsonovich# inzh.; LEVURIKO, Klavdiya Pavlovna, inzh.; SERGEYEV, Vikto:r Viktorovich,, at. lnzh.,- ANTONOVA) N.N., inzh., red. [Pneumatic-percussive lboring of blast holes in~atone quarries; experience of the Shartash Granite Qua~ or the "Uralnerud" Trust] Pnevmoudarnoe burenie vVryNWkb okvazhin na kamemvkh karterakh; opyt Shartashokago gra- nitnogo kartera tresta. "Uralnerud.11 Moskva) kS,t.-oiizUtt 1964. 24 P. (MIRA 18: 4) 1.14oscow. Nauchno-issledovatellskiy institut oiganimtsii, mekbanizatsii i tekhnicheBkoy pomoshchi stroitellatm, 2. Zaveduyushehiy laboratori~ hurovoy tekhniki flauchno.- issledovateltakogo i proyektno-konatraktorskogo institu-ta gornogo i obogaViallnogo mashinostroyeniya, g. "merd1wsk (for Zimin). 3. Nauchno-issledovatel'skiy i prayektna- konstruktorskiy institut gornogo 1 obogatitellnogo mashAno- stroyeniya, G. Sverdlovsk (for Levchanko) Sergeyev).  F! I it' l! I i 10I Pi !i'll P I F if! I I Ii P I I A I I 1 11 1 1 t 111 P fill It'll I III If I T1111 9 11 Ill MINU4 I I IlIIIIPI I HIM I I I Ill W 141111 Vil lot); 1191til1rlit-elft F. I Creative cooperation be-heson the Iieningrad Institute df,R~ilroadi Transportation IngluserB and the Oktiabrl Railrollid talthelleld 04 railroad operations Truily LIIZHT no-17U19,6-201 :59. !WIRA 13:12) 1. Glavqyy Who Myebriskoy zheloxnoy dorogi. (Wlroads)  ZIMINp,-'V1adPPJx-1xajLqvicb,- MUM, A.V.., red.; HE.DNIKOVA, A.191s tekhn. red, (ReguUtion of the speed of electric motors)RIsgulirovatie sko- rosti vrasbeheniia elektrodvigatelai, MosWa., Voonizdat, 1962. 82 p. (MICA 15:8) (El(:otrio motors) q  ZIMIN, V. 1. Djrnamic calculation of,axisymmetrically loaded shellseof revolution. Ixv.vys.usheb.zav.; av,tekh. 5 no-3:34-42 160. (1110A 13,10) 1. Tashkentskiy tekstil.Onyy institut. Kafedra soprotIvIeniYa. materialov. (Ilastic VIAtes and s6ells)  IIV IPI IRIME If 111,;1"I 3M F al~l 111W19 IIIIHII 111111 111V It M91110 I I IN14 11 M 1111111111 11291PHIM 1 "HIIIIII HIM 111 "211 U1,11A 191 11,11 ZIMIN. V4..,-Yeningrad) Calculating the effect of the track condition on the opsed of train movement. Zhel. dop. transp. 40 no.1:46-47 JTa '58. i.Glavny7 inshener Wyabriskoy dorogis (Railroads-Track)  -------------------------------------------------------------- ------------------------- 84CO S/147/60/000/ooy6o6/018 9031/E420 45 AUTHOR: Zimin, V.I. TITLE3 The Dynamical Calj~ulation of Axisymmetr ically Loaded~ ,Shells of Rotatio~ PERXODICALi Izvestiya vysshikh uchebnykh zavedeniy, Avlatsionnaya tekhnika,. 196o.. bro.3, PP-34-42 TEXTt The fundamental problem is to calculate the smallforced Oscillations of thin-walled ahells of rotation of positive Gaussian curvature which are loaded axisymmetrically and are subject to axisymmetric boundary conditions (FiS.1). It i.~Iasstimed that the- elongation of the meridian of the mean surface of,the:shell is zero during the oscillations. The equation of motion (Eq '14 (2) ) is linear partial differential equation of the sixth order with variable coefficients (A:,---,H3) in the tangential component of tile displacementu(y,t), where 9 is the angle between t:h,a normal.to. the shell at any point and the axis of rotation,: t is the time and P E are the de'nsity, Poisson's ratio and Young's modulus respectively. All the other unknowns of tho shell can b6 determined from u. The 'homogeneous equation,is solved by separating the variables, putting u Z(y) sin (wt + e) andvaing Card 1/3  S/'147/60/000/003ph&"/018 E031/E420 The Dynamical Calculation of !kxisymmetrically Loaded Shells of Rotation the asymptotic method of integration of B1yumO11tAlt_S141L*yerMan (Ref.1.3). The expression for z is quoted (Eq.'(7),) where 9t Cl2-,-,C6 are arbitrary constants, w is angular frequencylof the free oscillations and I and m are given by Eq.03).and (9) respectively. The general solution of u((p,t) is sau,ght in the form of a sum of terms of thet form Zn(04)n(t), ~whe;~e Zn(y): is~ a general integral of the homogeneous equation satisfying the boundary conditions and din(t,). is unknown (3q.(13)) . BY substituting Eq.(13) and (14) in Eq.(2) and integ:rating the resultant Eq.(15), Eq.(17) for On(t) is derivoi I d.4" The particular.' integral for this equation involves another function (Jn time 'only) fn(t), which is quoted for the case of periodic loading (Sq.(18) and (19), where p is the circular frequency of thi., disturbing forco-,: fu is a constant and jX(4i,) is a function of time_only). . TRus th e 0omplete solution of the equation of motion can be obtained (Eq.(23)) . As an example (P-38), the stationary forced, oscillations of part of a s* pherical shell fixed to a bracket alid free along its upper contour are considered. The solution is Card 2/3  840117 S/147/60/000/003/006/018 E031/E420 The Dynamical Calculation of.1misymmetrically Loaded Shells of Rotation quoted and the problem is to determine the stresses due' to periodic loading. Although the form of the functions fn(t) is known, there are unknown constants which heive to be evaluated in them (Sq.(24) to (39)). It is assumed that a horizontal periodic'forc6 varying: along the meridian acts on the shell (Fig.2). The form of this force enables the unknown constants to be determined (tq,.(40) to~ (42)) The weakness of the.method lies in the cumber'someness,of the calculations and in the relatively poor convergence. of series occurring in it. There is a fair measure of agreement: ifith moment-free static theory taking Into account end effect,. There are 7 figures and 4 Soviet references.~ ASSOCIATIONs Tashkentskiy tekstillnyy institut Kaf0dra soprotivleniya materialov (Tashkent Textile Institute, Chair for Strength of Materials) SUBMITTED% April 4, ig6o Card 3/3  ZDIIN. V. I. 7 1 . .  111141111 Mr-mul. I lip IfIll I P1,111"A tIII] A I V11111911V N1111111111WHI Pil MIN V. I., Cand Phys-MAth Sci (di as) "Sm"11 vikIfthions, i Axially-Symwbrioally Lomiled &tuTtEq&ux" ok Rovolub.-'~bjiln. T~Shkentm, pubi Home of MAddle Anil= StELto U0, 19,58P a ppo (Mlik~vv'y Of HiChor Education USSR* ltladln Asian Stmte Univg JiTiltilli V. X -Unin) 150 oopios. (KL, 34-58, 99).  ZIMIN, V.I.; GAITKIN, N.B. Railwaymen of the October Trunk Line in the effort for technological progress, ttch. zaps LIIZHT no.3:106.-114 162o (1,111k 17 t I. Glavnyy inzhener Upravleniya Oktyubrlskoy mholdmoy dorogi (for Zimin). 2. Nachallwlk takhmicheskogo otdolm 1~pravleiniya Oktyabrlskoy zheleznoy darogi (for Gank1n).  V WIM: ~t;l 11L. i1BUNIHIIIII I IUI t E III Hill I I 11MI 1111111111111 11114mmal ILU111111mmil I I I ullotaill, I IL"'lim limal ilia Ummaklml alma: Mix, r. r. Natural, vibrations of mhel1q.,, of revolution subj(Oated to~tha Action luf axisymetria 1m4se Izv'* AN IfteSSR, ~4,,r. ukbpW (Ras-de plates and mhells-,-Vfim~ all ti AW- WIMINMEMORRAM I --------- -------- ----------------  I . - ---. -.- .. . ... :, ,,, I III]! It] I fqlrmfm~ I in. I,,,,  ZIMINO V. 1. I The winding of electric motors. Izd. 3.0 perer. Leningrad,, Gos. energ. izd-vo, 1950. 560 p. (51-21802) TIK2391.Z5 1950 ..  T? 141 !1 p; I; I I ~JNVI "i I I ~1111-. ~4: ;'I I if; !~ 11, It IF I I I I 11111 flH 1 HINHIH I INI III I If fIVII I A 111119 IIIIIIIIIIIEHIN Hill 111111131F111119 Is! IIIIERIEVIEHI I MIA IIINII zim h ZMAS I Nolsey Yakovlevieb; PALEr A, Arma FArkowla; RABINOVICq, Isa-y-Satindvicbi FOOROVI, Vasillm Petrovich Ideceased)j. KUMLENq Petr Andreyevio'hj RIVLINy L.B.9'red.; SOPIPLEUt Ye.Kp tekhn.red* [Electric machinery vindings] Obmotki elektrichsAikh issshins Izd*5.f perero Kb9kvaj,,!;os.energ*izd-vop 1961* 4.75 p iMRA 14t 6) (Electric machinery-Windings)  1:111~11!11 I I t III ,fill If 11:11111111 HIM I E IIHIN 11W11 1111111111111101111 IIIIH41111 lip NIII 011110,1111; 111[111111 Z11111N, Vladimir Ivanovich The windings of electric motors 1zd. 4., perer. Moskva, Gos. energ. izd-voj 1954 575p., (55-33021) TX2474.Z55 1954  ... ......... ...... MIN, V. I. et al Obmotki Elektricheskikh Yashin (Winding of Electrical Motors).. 56D p.) Lenii2j~~; and Nbscow, 1950.   'fl.". 1J!"! -j jp~ RVFLIB, Low Borlsovich; ZINO,, T.L. redaktor; SAMODA, A&A., takhatcheskly redaktor* [Installation of large electric sachines] Kentuh irmparkh elektri- cheskM wash1n. Rosbr&, 0ov. emerg. lsd-.Yo. 1956. 412 p,(XMA 915) (111lectric machiner7) -ImuUmmmilful 1, Bum  Rual imquiliffilb ld IIIRIJI It I I III IHN I I IIIRIIH It IIHII 111111 lint I III IRINVIIIH Hill IMI T111111"Nol"I IIIII 14111911HP111111 ZIMINA, V.I. Experimental investigatioa of the propagation of electromatnetic~ waves along a cylinder of ionized gas. Radiotekho-I alekti!on. 51 no.6:938-942 Je 160. (MIRA 13:6) (Alectromagastic waves) ................ .... .....................................................................  ........ ... ASTAXMV, X.T.; VEROMIN. T.B.; H V.I. "Radioactive indicator techniques." V.I. Spitsyn and oihore. Reviewed by K.T. Astakhow, T.B. Vereniebin, V.I. 4imin. Zhur. fis.khtm. 30 no.4:957-958 Apr. 156. I:MUA 9: 9): (Radioisotopes) (Spitsyn, V.I.)  ZUBIDDV, I.I., kandidat takhaichaskikh sauk.~ Technological process of *per&ting a rail juactivi. Zhal,der"Ptraxaps 37 noo4:55-38 Ap "i6e (KLRA,9:7) l.GlavVy imhaner'Dktra~r'ske aregi (for' kimix) (Railroads-Station sarvice)  ASTAKROV, K.V,; VERENIKINt V,&; ZIMINt IVEROKOVActi A.D.! --study-of. the coupled g, of sq~e rear~eart SpLictrophotometric n ~4+1% nA+"41ftne%gb+4^ m.4 1 ew C! 0-7   2ININ Vladlair Ivanovich; UPUS, Hoisey Yakovlovich; iA42T, Awta Uay Tatanovich; MMOROV, VasIlly fttrovich; XURCEM, Pstr Andreyevich; 91T=. L.t., radaktor; TORONXIMAU, L.T. takhnichaskly radaktor. [~iudivgv of electric. machinery) Onotki alektrichailicM mas'hin. Isd. 4-a, perar. Kbakvs, Gn. suarg. isd-,ro. 1954. 575 p. (11tictr1c sachinary) (MU 8:1)   Ilia  S/O 10461t86 58/61/)00/007/ A001/A101 AUTHOR: Ziming VA -------------- TITUt On the problem of mechanism of.feeding the material*of electr into a condensed spark PEWODIGAL: Referativnyy zhurnal. Pizika, no 7, 196 1, 173, abstract 70124, C'6okl. Mezhvuz, nauqhn, konfe'rentaii po spektroskopii I spektr. ,analizu". Tomsk.,Toviskly un-t, 1960, 22 - 241 TM-. The author reports cm the results of investigating~the processpof formation of flares on the surface! of electrodes of spark discharge and their.re- lative role in the total dischargebalanae. It is noted 'that flares arise oimul~7. tanequaly on very small portions of the cathode spot, rather than over its-en- tire surface, due to which circumstance.the curEent den-sity at the places,of~ flares outlet amounts to the value 3xiOu amp/om . It is conjectured that the place of flare outlet Is simultaneously the place of-ejeqtion of.electron s~rieam au from the cathode Into the disobargit channel. The thor studied the intercorihee-... tion between the parameters of a d1scharge atrouit and oertainphysical proper- ties of discharge (intensities of "Unes of atoms, ions, character,of flare form- ~Ltion, etc.). Abstracter's notet Complete tranelation] M. Britske bard 1/1 ~  zD4INp V.M. . I I I  3LINO S/l39/6i,/ooo/(jo6/022/O23 E039/E32O AUTHM Zimin, V.M., TITLE-. On the question of the mechanism of entry of electrode material in a condenser spark dischargo PERIODICAL, Izvestiya vysslhikh uchebnykh zavedeniy, Fizika, no. 6, 1961, 164 - 171 TEM. In a spark discharge there are two main forms: the channel and the glow. The former has been studied sufficiently well. In the glow discharge jets of electrode material are . periodically thrown off in the form of luminous vapour when the current reaches about 100 A. This appears to be the result of the simultaneous action of two processesi firstl)r, the bombardment of the cathode surface with positive ions, accel- erated by the electric fields, They also have appreciableothermal velocity as the temperature In the discharge is 40 000 K. The particles of metal are ejectod with low energy but they,rapidly gain thermal energy and diffuse into the glow discharge.~ Secondly, there is the emission of electrons fri-m the cathode. Card  34~~ S/139/61/000/006/0'-32/023 On the question of o.o. 'E039/E320 This emission is noiiuni SormaV when the current denalty at any, point attains - 3 x .1.0 A/cm the joule beating. is such that : metal is "blown" into the discharge. The aim of the,present work was to study the conditions for the formation of-the glow and to elucidate its role in the discharge. A block diagram of the apparatus used is shown in ]Pig. 1. It consists of an HT supply with a variable capacity and inductance in the circuit (C = 0.0005 to 0.5 Pfarad and L = 3.6 to 29 lihenries). The external form of the discharge was examined photographically and it was shown that when the initial current I LM Uokr(.,/L reached - 90-100 A, the discharge became asymmotrical. Spark, spectra were observed and it was shown that the spectral lines of ions became relatively atore intense as the capacity and hence the,current was incroased. However, when 1 0 reached ,--.90 - 100 A, an anomaly orcurred suggesting a., deCr'ease in the discharge temperature (see Fig. 5). Oscillograms of the oscillatory discharge were obtained using a synchroscope, type 2.5-14 (25-1). Traces were photographed and measured C ard 20'~-  34VOC" S/139/61/000/bi)6/022/023 On the question of E039/2320 visually. The dependence of the conductivity I/R of the 0 discharge on various circuit parameters was studied. ~Xt was shown that the conductivity 1/R varied linearly with the 0 initial current I When I reached values in the region of 0 0 100 A, a discontinuity was observed in this linear relationship when u6ing Fe, Sn, Cu, Ni and Zn electrodes (Figt, 7) which corresponded with the changes in the external form of :the discharge and the anomaly in the intensity of' tho spectral lines.. In the case of tungsten electrodes the discontinuity was smaller and depended on the circuit inductance (Fig. 8). Calculations were made on the energy dissipated in forming a Slow discharge.; In the region of the discontinuity (Fig. 7) two values of R 0 can be obtained - that corresponding to the experimental value R and that corresponding to a linear relation RW . The 0 0 logarithmic decrements X and X* can be calculated:(-.orres- ponding to these values and also the normal decrement, exp X and X. D exp X If the initial energy 1, fo R 0 Card 3/0~  342rio S/139/6i/ooo/oo6/022/023 On the question of EOWE320~ that corresponding to the second period of oscillation~will be.' 2 E = E D and the dissipation of energy will be 1 0 AE = E (IL -D_2 in the ciase of glow formation we have AE4r = E0(l - Il&-2 ) . Y4ence,the dissipation of e,nergy In the formation of a proper glow discharge is., 1) 2 _D*2 bE AE - AE* - B - 2 02 0 1) D In all cases, 6E is not greater than 10% of the energy AE produced in the circuit during one period. There are 9 figures and 17 references.- 14 Soviet-,bloc; and 3 non-Soviet-bloc. The.two English- language roferencos mentioned are: Ref* 10: A. Schuster, G. Hemsalech. Phil. Transo Ref. 17; W.P. Dyke, J.K., Trolan Phys,, Rev.,, 89, 799, IL953 Card 4/j  s/i5g/Wooo/dWo.22/023 On the question of .... r..039/1,:320 ASSOCIATION: Kazanskiy gosu,niversitbt imeni V.I. Ull yanova- Lenina (Kazan' State University imeni V.I. Ullyanov-Lenin) SUBMITTED: September 16, 196o Fig. 1: Block diagram of apparatus for studying discharges: Card + T  ACC NR, AP6030549 -MURa Coiit~--U-R7041-31-66/000/016/0030/0030 INVENTOR: Bliznyuk, N. K.*, KolomLyets, A. F,; Golubeva, R. K.; Varahavokly, S. L.; .q;adAkq)M,_A,.H_:'Zimin. V. M. ORG: none TITLE: Preparation of aryl caters of N-(6-chloroathyL)taurina. Class 120 tro. 184840 (announced by All-Union Scientific, Research Institute of Phytopathology (VaasoYuXftYY nauchno-isaledovatel'skiy institut fitopatologii) 1 SOURCE; Izobreteniya, promyshltnn~fya obraztey, tovarnyyc xnaki, no. 16, 19,56, 30 TOPIC TAGS: fungicide, =pmey~*4=j hydroxyethyltaurins. thionyl chloride, phosphorus pentathloride, e3ter, hydroxide, othyune ABSTRACT: To obtain sryl caters of N-(0-chloroathyl)taurino with fungicidal properties, eaters of 0--hydrMothyltaurine arc treated,with thiomyl chloride or phosphorus pentachloride In an orGanic solvent (e.g., chloroform) at boiling temperature of the solvent. The excess of the initial reagents and 11C1 forrAd are removed 'from the reaction mixture; the residue is disoolvod in an organic solvent, e.g., an ether, then mixed 'vith alcoholic solution of an scido and evapamted. SUB CODE: 07/ SUBM DATEs 26Jul(,5/ EWA-50; Can No. 11) I Card ill jmci 547,4361261122,07  Muno i Dissertation Degree t Defended At Fublication Date, Place Source JPRs/Dq.-332 CSO DC-1913 Z31111ij VO No .. . .. . ............ Mech-anism of the passage of electrode substance into the glowing cloud of a condonsed spark.discharge Cand Phyc-Math Sci Min Ifidier Educatiml USSR, Kazan' State U imimi V. 1. Ullyanov-Lenin 1956.1 Kazan' Knizhnaya Letopial No 5j 195T  ZININ, Improvement of public areas in Sokolniki Diatriot, Gor.khoxs Hook. 34 no.216-9 IF 160. (HU& 13:6) le Zamestitall predsedAtelya ispolkom 4okolluichaskogo raysoveta, (Moscow-landecape gardening) (Hoscow-Road construction)  AIIAKI IN, Anatolty Andreyevich;BRIUKH, Mikhail 91khaylovic'h; (IIHMMBROKU, Viktor Petrovich; FIZIPPOV, A.$., kand.tokhn.nmuk, retsensent;~ HAKURIII, P.I., load. takha.muic, retsenzent-, tash., retsenzeat; SARAnnumm, G.A., tekhn.red, [Cupola furnace operator) Vigranshchik. Moskva, Gosoauchno-tekhn"' izd-vo mashinostrolt.lit-ry, 1957- 151 P- ll:i) (Cupola furnaces)  Mechanism of the entry of electrode material into the :glwlng cloud of a condeiised"qmrk discharp. IFiz.abor. no.4tl6l-164, WRL 12:5) 1. Kamnskiy goRudaralvemV universitet imenVY.Lullyanova- Lenins. Ollectric dischargen) (Blectrodes) (Spectrw analysis)  ANAXIIN, Auatoliy Andreyevich; BRILAKH, Mikhail MikhaylovichI, CEDJIRK-~ BROYKIN, Viktor Petrovich; FILIPPOV, A.S., kand.tel0m.nauki rateenzent; KAKMIN, P.I., kandtakhn.nauki ratsensent-, LUZIII,, P,G*, inzh., retsensentl ZIMN, V.t(., insh., retsenzont: DURNA. 14A., tekhn.red. (Cupola furnace operatorl Vagmishchik. lod.20, d(wp' Hoakv8j:' Goa. rmuchno-tekhn. lvd-vo wishinostroit.llt-ry, 195q., 1?5 P. - (KrRA 12:12) (Oupoln furnnws)  11111 HIM III IBULML-11111 ~H, USSR/Laboratory Equipment, Instruments, Their Theory, Construction and Application, Abs Jour Referat Zhur Maimiya, No 61 1957, 19757' Author I.S. Fishman, V.M. Zimin, T.G. Kaporskaya. Inst Kazan University. Title Experimental Checking of Computation VormLl e of Method of Standard Graphs, Orig Pub Uch. zap. Kazanskogo un-ta, 1956, 1.16 No 1, 132-135 Abstract The results of checkiurb the applicability'oL' the forwla for the computation ot'7the slant of a gaga graph:for spec- tral analysis are quoted, This fonwala io the fol:;.owing (in coordinates Ig c and 4 S); tg 04 b . X i. f?, where is the contrast factor of the photo&-_aphic plate, k and are factors discounting the influence on the in- clination of the background in the spectrum and the in- fluence of the dilution of the base, b is t)~e reabiiorp- tion factor (R&Kftim, 1956, 36125) - It was. shown vith Card 1/2 1  it 114 Ell fAlloiiiili;l;l~',~IA)II"~--Ili I U1.1UNEU, X` lil I I lilt IMI It 1111.111! 11 Will il VI 1111111 [it 11IMMI111711 I'd 1911 IJSSR/Laboratory Equipment Instruments, Their Theory, H. Construction and Application.~ Abs Jour Referat Zhur KhirLiyay No 6p 19571 19757 a great number of experimental data re ferrin g to the spectral analyses of standards that in case of wor-1, with a condenser spark gmerator b is practically equal to 1 for analytical linca, the bottom level of which is not normal. The absolute error of values of b calculated for solid alloys and solutions introduced with a AtLgura- tor Is = 0.03 in this case. The differenea in alaat of graphs plotted by the uaiial method using solid standards and computed theoretically is explained with the im..Aer- fection of the standards differing in their physical chemical properties. Card 2/2 2  ZDIIN, V. M.: Master Phys-Math Sci (diss) "On the problem of tho mechallim of the passage of electron subst:ance into a luminous cloud of condensed spark discharge". Kazan', 1958. 7 pp (Min Higher Educ USSR, I~azanl state U im V. 11. Ullyanov-Lenin), 150 copies (KL, No 8, 1959, 134)  .'~PSR/Optics Optical Methods of Analysis. Instruments. K-7 Abs Jour Referat Zhur - Fizika, No 3) 1957Y 7943 Author Fishmn, T.S., 7-iini , V*M4, KiLporskaya, T.G. of the Calculation Formulas Title Experimental Verific in the Method of Standard Graphs. Orig Pub Uch. zap. Kazanskogo un-ta, 1956, 1A, No 1,,132-135 Abstract An experimental verification of the formulastor the. theoretical calculation of theslope of the Calibration curves in the specti:~al analysis were carried.out with VIM standards: dizaluminum, AK-4, "nimaiki", hi&,ly- alloyed steel, and heat-resistant cast irons. The re- sults of the theoretical calculations agreed in most caz-es well with the experimental data. The theoretical calculation of the slopes of the curves is possible on- ly in that case, whon the evaporation factor does not influence its value. The absence of this influence was checked by comparison of the values of the slopes oV Card 1/2 - 91  A05 AMHOR-t': Zimin, V. M. MIME% Investigation of the possibilitiss of. a mat-had of opt1cal: 80=14 with the aid of a rotal;ing mirrar PMODICAL- Refevativn". zhurnal Pizika, no.: 8, '11961, D-55, abstrilot 8089 ("Dokl. Mezhvuz. nauclui. kcnf~ervntsii po spektroskopli ispektr. anallzu. Tomsk, Tomaktir ua-t' 1950, 24-26) 7,nt &uthor evaluated the sall.7 vVcttinablot rssolution of optical,; scantir 1 of the Image of a oondens oil spirk d.".,, ~A-,4rg* with tht . bid *I*, rotating and showed thit t1he rsliab.1a resolutlow of mirrors made of different materieds w time intervals has - an upper and lowar lim. It of 1 .5 iie. o &nd 20" respeatively. Further inoreass of rssolution le I'SmV;;nd by i1nfoTM'W;'Lo-z. o f th I t mirrer-under the- action of, rtm~sthnae. 14. BrItski (Abstraot-er's notlej Complete translation] Card 1/1  ....... t 1~ fir, USPR/Optics Optical Methods of kialysis. Instruments. K-7 Abs Jour Referat Zt1ur Fiziki, No 3, 1957) 7943 the calibration curves for solid standards and for, solutions. The resiAts were in agreement within the experimental accuracy. For the beginning of this work by the author, isee Referat Zhur Fizika, 1956, 35879. Card 2/2 92  maw "I.Idwift. v ;f~ sit. 'A." tjjjnLd with t1w vmwta for ikvtt4 is Twoto ulp tq"tcql. fit IN NA hriaed. Tho f4ectmfiffla.. 4h Ilowtv aw rillow litul "Imik*1 llgvlq~j I" "Iklik, m dlAlilputWW() . ! but IN* tho diM40mialm mmlspifq it ownlihist loci al the *K*C ROWARM im tkv RINA phasc too It. Ol tbes amiluxto It mcminverAlaL! too! Boo 00 00 400 oil k kliJ k4k# 7 DWb u ts it so IT lilt I * * * :1i i i , " _i ir  BARENBOYM, A.M.,, kand. tekhn. nauk,* GALIYEVA, T.M.., inzh.; GINZBURG,, D.B.p prof.; GRISSIX,, A.M... inzh.- dote.; KUSYAK, V.A.j kand. tekhn. nauk RUOMUN, E.M.0 inzh.; KHODOROV, Ye.I.v kand. teklm. nauk; CHIWISKIY, A.F... kand. tekhn. nauk (Heat calculations for furnaces and dryers of tha silicates industry) Teplovye raschety pechei i --ushilok silikatnol. promyshlennosti. Izd.2., perer. i dop. Moskva, Stroiin- dat, 1964. 495 P. WU 17:12)  ..---.u Bill 11if &311 N111111 1 3" ATITHORS: zimin, V. 111., 1", A TITLE Efficiency of SriiE~Iting Ferrosilicon in Blast; and Elect.ric Fuenacest PERIODICALi U SR, 1~*tal'" J~960, S ABSTRACT: T'nere are two metnods r) C zii-iej.ting lov,-g-ade f errosil icon- (1) :irl b"ItlSit 17L11_1t1-.H,1(-;; i,*_~~ I n el oc il, ric Turnq'C(!S~. lcer* aA-' f ign and' Tn- v; o i e Inst _,1_L -*or the D~~o Pll-nnl'nE~ of Steel Induat-cy (Giprostal S. A. L iv s h i t.. 7 -)ved that at: Metallurgi- A. ffidehenk.), a rid cal Plant (ChMZ') the smeltitng of fevrosilicon is carried o ut more economically in Ey. blast ft~irnade. 'Joviever, the calculations o-f State lnztitute for the Des ign and Pi,,:,Lnn^_'1~,ng of Metallurgical Plants ~GJpvcmez) show, that in the eastern, and especially in the ivestern,~part, of the USSRy it" iz more economi-cal tc) produce 'Low gr. de i'er1rosilib9n T1 e au',hors stud*ied "he argLM ilt in ele.,.~tric furnacci3. le S; ;3resented and arrived at t'1_,e following con(Ausions: Card 1/2 (1) In vievi ol' transportation iAnd opera'tion~:,.l Costs, them  .. ..... ....... EfN't,ie'ricy of smelting 78193 Ferrosilicon in Blast- at-.,d Elec"ric Fu~~-r%acels.: s0v/i~-~1~3: 6c --:3 -18/2* producl"-I~on of hot-ma, f,errosilico~n would be ,t3 product-ion by blast furnaceis, In the cheaper uhan i eastern USSR. (2' Althe-1,u,~ -,h the tnititlL t~Ijplt.11:1 j.1,1- , e I e c i to I -it ~li ia I ,-.i ro c e - ttment -in 014~ "s, J-1 c L L'O 11' t he k~ U ~3 rn a r i~, ca 'I ha n Ln the blas r, Vurnmi!c procO'S, the in-,..-estm~nu is a~-iarltized after Of i o ri . '11-he fut,ure, the net. cost the: elcotrcther-: mal pvocp-3s may be i,,=d'1,,ced by the follo :1 ion in red u t for small cok-1; (b) pr.,ce of electric enproy; (c) utilizatiol~ of ti 25% f enro ferrosilic,.,)n as a mducing agent; td) sm-tin~ cr 1, rL 4.) i i i i c pa c 11-, 11, e 1 ec t r ic urna c it Fo the 3outLerr-, T jSSR, th-e economy is ever. g!*ealler 'than for t1he eastern area. jubli-sher's ncte: The; ELuthors do not take into account t'he vapid wear and:increasing maintenance costs.of biast furnaces. vihich are one move e, argmient in favor of' electrothermal proc~4ss. There ar 2 tab I e s a n1d If S,,1v J e t, rt-.~ f ereric es ASSOCIATION: Gi p rovv~ez- card 2./2  ZIMIN, T.N,; SHURSKIT, TA. Afficiency of producIN; lw-grade ferroallicon iu blast ancl eleatilo furnAces. Stall 20 rio,3:269-273 Mr 160. (MM 1j:6) 1. Gipromes. (7erroallicion) (Smiolting-Oosts)  =3 MEN V-11 /V 9 .5 alt- A Ig. 0 a R.8 613'a '1; 11.4 0* QJj 0 0 0 - H jU 1 0 Cho -4 I*Jqx'J0 0 iR4 a Oiq cl . 0 Whol M- h ;OR 0 N jj flun a All NIMI All !U111,111P1111 fli '40 1 t 12 " 'I -S .: Ulu 35. & K 0 go F PIMA P  TRUPAKp Nikolay Grigorlyevich, prof.., doktor tekbb. nau)t; BORDIIIN, gorrqy inzh.p retsenzent; ZJI-Mi V 11 gorrqy litzbej irctsenzentj SANOVICH$ P.O.. gorr". in-zE.., red.; MRAKOVA, U.P. red, izd-*i SHMAR tekhn,,~red, [Ways of controlling water during shaft sinking in po~aah and salt mines] Sposoby borlby s vodoi na ka3:LbVkli i soliaby~ rud-' n:lkakh pri prokhodke stvolov. Moskva., Gos.nauchno-tekbn.izd-vo lit-ry po Corno= delup 1961. 319 p. ($VA 1511) (Salt mines and mining) (Mine water)  GINZBURG. David Borisovich,,doktor takhnicheskikh nauk; DUMISEUN, Sarger, Nikolayevich, kandidat takhnichaskikh nauk; 11mDrIlY4 Yeia~aly loalfovtohe kandUtst tokkalahookikh mukg CHUMNI-Ti-Anatoily 7edotovich, kandidat teUalcheakikh nauk; AILUL, dp',tasnji retsenzeat; JWZYAk, V.A.., dotsent, riteenvent. Yftmg X*A4% kandidat takhniobaskikh us,*, retaenzent; MiOV. k4g., ato' teent retsonzant (deceased]; WD:91KOV. P.P.. redaktor.- M11KM. issyeat kandidat takhaichaskikh nw*. nauchM redaktor-, GOLI USHWO. L.Q.. Inzhaner. nauchrO7 radaktor; GIAMOTA, I.L., redakhor; GUJ)=H, M, tekhnicheak-ty radaktor Elfrumose and driers In tho silicate industry] Pachi: I sushila silikatnoi promyshlennosti., Izd. 2-os. pereir. Pod r~d. P;oP.badnikova. Nookwa, Goa. izd-vo lit-ry po atrolt.:naterlalam, 1936. 455~p. (MLRA 10-.3) le Daystvitelln" chlen Aks,damii nauk US= (lor Badnikov) (Kilns) (Clay Industries) (Drying apparatus)  sov/1281-59- 5-32/35 ~j- AUTHOR: Bobrov, A,V. and 'Zimin, v9p, TITLE: Letter to the Editor PERIODICAL: Liteynoye Proizvodstvot 1959, Nr 9 pp~l 45-46 (USSR)'; ABSTRACT: The authors reply to a letter* of : M. 1. Rotenber V.I. Soldatenko (see this periodioal Nr 7/1958t ' The authors state that the criticism.of Rotenberg anA-S'01- datenko of the article "Yedium, and Large' Size Piece6 of Casting of High Quality Steel~7 (MSSILgiZ 1953 Y01:3- kva) is with out any foundation since they only, !cit'e some sections and thus mutilate the contents o~;thel article. Efforts are made to prove that some of ~the~ dates and results had been knoym by the authors' at an earlier time. According to the opinlo,n.to the. au- thors) the letter of Rotenberg and,Sodatenko r;e"pre- sents misinfo.".rmation about technical science. Card 1/1  SO V/137- 59:.3-5871 Translation from: Referativnyy zhurnal. Metallurgiya, 1959, Ni~ 3, p 133 AUTHORS- Zandbe rg, S - A ., Zimin, V - P TITLE: Automatic Welding of Reactor Tubing in a COZAIedfum (Avtot-nati-* cheskaya svarka reaktornykh trubok v atmosfere ugle-kis.logo ga~za) PERIODICAL: Stalingr. prom-st' (Sovnarkhoz Stalingr. ekon. adrn. r - na), .1958, Nr 5, pp 11-13 ABSTRACT: The operation of welding of ribs to reactor tubes (60x4.5 mm and 7500 rnm long), originally performed at the irii 'I Pet'rov.plant with the aid of TsM-7 electrodes, is now performed auto Itriaticalty ~~th SvIOGS welding wire 1.5-2 mm in diameter in~a medium of C0, The apparatus is equipped with a traveling mechanism of the tape TS 17 M, a duplicating head, and a shortened shiel4d hose from a semiautomatic unit R;h-54. Welding is performed under the foilo*_ ing conditions- Current intensity 490-500 a,- a:rc po.tential Z,I-'26 v;~, speed of welding 126 m/hr; rate of feed of he:weldin. wire 1107 M, hr; consumption of gas- 40 liters/hr. The apparatus is powered by a PS-500 generator with smooth "surge- and- dip" characteristics. ~ Card 1/2 The food-industry CO,7. employed is dried by silica ge'l. The C,Q2 is,  SOV/137-59-3-5871 Automatic Welding of Reactor Tubing in a COZ Medium contained in two cylinders from wl-dch it is supplied to them pressure. regulator through an electrically- powered heating unit. The C02 may, be Withdrawn until the pressure in the cylinders attains a value of 4 at. Welding in a C02 medium, -'fillde:it possible to improve the quality of the, welds (elimination of burns, reduced amounts of distortion and welding defecte), increase the productivity by 3-5 times, and simplify welding operations (pipes need not be cooled,, nor isit necessary to, employ a coating for purposes of protection against spattering, etc. N# T.' Card 2/Z  AYANIIN. AnatolLy Andrs.*evioh; XUZNET$07, Stepan Petrovich; GEMURBROWIN. Vlktor Petrovich; ZIXIF, T.P.. lush., reteenzant;4ILIPM70 A*Sop, kandetakhasu~~,~~riid-*I-~~N,UBHaNKOV, I.A.# tekhn.rede [Procressive asthods of Dpe.r0ing oupola furnace'@), PeVi'q4o*yO not Aoir obalushivantia vagranok., Mogikva# Gosenauchno-tekhnoix&-Vo mashiw..~ stroit.lit-ry, 1960 go p. (MIRA 13:6) ZOUPOIA furnaces)    .......... 8(0) PRA113E I BOOK EXPLOITATION SCIV/2347 Tolokonnikov, Leonid Stepanovich, Mikhail Mikbaylolvich Sokolov,~ Lbram Solomonovich 'I Sandler, Vladimir Ivanovich Klyuchev, Yevgeniye Petrovich Ivanov, and tevgeniY Nikolayevich Zimin A~laa elektromekhanicheskikh proinyshlennykh ustanovok, eh. 1. Eqlektropri-rod i peredatochnyye mekhanizmy (Atlas of Electromechanical Industrial Installations, Pt. 1. Electric Drive and Transmission Mechanisms) Moscow, I Gosenergoiadat, 1958. 140 p. 6,500 copies. printed. Chief Ed.; M.G. Chilikin; Eds. (Title page): A.T. Golovan and Leonid St6panovich Tolokonnikov; Ed. (Inside book).- A.L. Saparava; Tech'. Ed..* N.I. Borimov.. PURPOSE: The atlas is intended as a manual for students vorki4g on machin6:paite projects and on term and diploma projects related to electrimil equipme6t for drives. COVERAGE: The atlas presents electromechanical installations tqr drivin ','hoisting, I . i g ! a and transporting mechanisms (cranes) excavators,$ hoists, cow~eyers), rolling mills (continuous rolling mills), metal forming equipient, mertal-cutting machine tools and automatic transfer lines. Drawings of goner 'al views of mechanismb and drives with the distribution of electrical equipment,: elementary circiilit6 and Card 1/4  11914VIIIIINIMI RRM lorwil 411iff Fill I Iligill-IlEpiIIIIII III liijull jiIIIIIIIII Ildil Ilii 111m I Atlas of Electromeebanical Industrial Installations (Contl) SOV/2347 wiring diagrams with the ncescary explanations are presented, The mechanical' and electrical parts of every mechanism or device are closely -zelated In', the'~ manual.,to enable joint treatmc,,,nt of the sugject and to improve, the level,: of preparation for design. In compiling the atlas most recent deaign naterial of the following institutions was used: scientific r6searchlinstitutes, VN1:IPTMASh; TsKB "Elektroprivoll," TsNIITMASh, NIILProdma.sh, PKO "Soyuzproin- melchanizatsiya," GPI, Tyazhprcmelektroproyekt, Institutes MEI and MISI;, and Plants "Dinenoll and "Pod"Yemni,k." No personalities are mentioned. There we, 28 feferences, all 5oviet, TA13LE OF CONT-PTS PART I. HOISTING AND TRANSPORTING MECHANISMS Foreword cranes 7 ,,...Bridge cranes Sheeta 1-10 :n 14 Pdrtat;16 jib crane eets - Sh 10-ton floating crane Sheeiz'25-17 Card 2/4 ............. ... ....... .......  Atlas of Electromechanical Induatrial. Installations (Cont.) SOV/2347 Sheete~ 18-26 Diagrams of control systems I*or crane olootrio-drivep Shasta 27-29 Electric hoists Sheets 30-34 Excavators Shd eta Conveying nechanisms 35-38 PART 11. METAUURGICAL M PRM nROING ZQQIPMT Forevord Auxiliary Mechanism for Continuous (Blanking) Rolling Hill 850/700/500 Roller tables and conveyors Sheets 39-49 Edging machines Shoets 50~54 Roll changing mechanisms Shest4 55"57 Roll mounting mechanisms Shoots 58-65 Main drives for continuous (blanking) rolling mill 870/700/500 Sheets 66;,.79 Press Forging Wpment 63-ton double-aotiort double-orm enclosed press Sb"t 10 8043 1000-ton coining press Sheiti 84-41 Card 3/4  mint =101111D INSH01311M Atlas of Electromechanical Industrial Installations (Cont,) SOY/234?i PART 111, M&TAIrCUTTING MACHINE TOOLS Foreword 107; Model 1340 turret lath$- Shdflts~ 92-96 model 1620 universal screw cutting lathe Shs4,its! 97403 Model 1660 screw cutting lathe SheetOok-109 Model 255 radial drill Sheats:110-111 model 265 universal horizontal borring machine SheetsillZ.711S Model 724 planar Sheats1204-M Subassemblies of unit-head machine tools and transfer machines SheetaJ23_125 Elactroduplicating semiautomatic j:dlling machine of the type 6441-A Sheets;; 126-428 Electric equipment for machine tools She:W,129-137 Accessories for mounting electrical equipment in machine tools She ti'138-140. AVAILABLEs Library of Congress (T.J 240. A8) 0/afm 10-20-59, Card 4/4  SANDUR, Abram Solomonovich: CHILIKIN, R.O.. prof., rod,;' ZUSM.N. IV.O,, kand.takhn.nauk, dotsent, rotoonzont; KARNMI1111, I.Y. 0. Irand. tokhn.nauk. datsent, retsenzent; UNI&_1eg., ~and.tekhji.nauk, red.; BORUNOV. N.I., tek'hn.red. [Electrical equipment for industrial machinery; electrical equipment for motal-cutting machines) llektroobo~udovalni,~ proizvodotvennykh makhanLzmov; elektroo'borudovanie metallo- reshusbcbikh stankov. Pad obahchei red. m.G. chiiikina. Maekwa Goe.energ. W-vo 19,58. 238 P. (k-W, IM)" '(1lectric apparatus and (Vachine tools)  8 (5) AUTHORt Zimin, Yevgenly ITIkolayeviah. $07/161 i-56-4-1608 ~~ ~~an d ~~at e ~~oo cal Sciences, Assistant TITLEs On Calculatin th T a Unple Gon6i-atoili em 70, o ransition Processes In I Motor Syst raschete perekhodnykh protsesso-r v prost.6y sisteme G-D) PERIODICAM Nauchnyye doklady vysshey shkoly. Elaktrdtdakhfinika i avtomatika, 1958F Nr 4, pp 138-149 (US310' ABSTRACT: It is shown here that it is possible to:U'se a~A-tandard method for 6alculating the transition processes,in a simple generator motor system (without exciter control). it considers the non-linearity of the magnetizing curve of:the generator I and can be used in practice for all possible aircuits of'the- exciter-circuit of the generator, and for all;types of drive,. The method is based on the ascumption thmt tha ?ntire transition proces!3 can be considered to co,M310t,Of Singular sections. In thesa sections, the system is considered to be linear, and the transition processes in each of.thesp sections are exprt)ssed by linear differential equations *ith, constant coefficii?nts at initial conditions that do not equal Card 1/3 zero. The equivaloint circuit is shown in figure 1. With l.tv:'  On Calculating the Transition Processes in a Simple SOV/161-58-4,1-18/~s Generator Motor System a whatever complicated generator-exciter-oircuil, can be generally expressed. In the.computatidn I the mag%etizing: curve is not used here, but the idling characteristic, that is the dependenob of the enerator-electramotive* force on the exciter-current, e - f(i .-This can be-plotted by way of experiment or it can be constructed with the help of the. magnetizing curve, according to equation (8). The equation (13) for the time-dependent change of the generator- . electromotive force, and the equation (4for the time-i dependent change of the.exciter-ourrent i~ of the generatlor, are shown. The two equations are generally vs.116 and allo4 the calculation of the curves i = f(t) and eG q(t) of 'the E transition processes for various working inothods, and whatever circuit of the generator-exaiter windinga. e im the G generator-electroutotive force. The method of oalculating 'the transition processes in accordance with the equations (6), and (13) is demonstrated by means of the example,of the Card 2/3 circuits shown in figure 3, in the case of a reverse rotary  On Calculating the Transition Processes in a Simple SOV/'161-58-4-18/28 Generator Motor System direction of the motor. The analytical':represontation~in accordance with equation (13) also allows to obtain the rotary speed and the armature current of the notor. The equations (23) tu2d (26) are obtained for them., They are valid for any sector of the transition procetio. The computing of these values is also demonstrat,ed for the, same case with the help of'the diagram In figure 3, There are 7figures. ASSOCIATION: Kafedra elektrooborudovaniya prompredpriyatiy Moskovskogo energeticheskogo instituta (Chair for Electrical Equipm Ient, for Industrial Fnterprises at the Mosoow. Institute of Power Engineering) SUBMITTED: September 18, 1958 Card 3/3  I I T,, 11pIf I IIIjIF 1 l1 11 ZIKIN. Transient processes In drives with diso-type magnetic clutches,%twh, dokl.vys.shkol3r; elelctromekh. I avtom. no.l,#203-215 '59. (MMA 12:11) 1. Rokomandoyana kafedroy alektrooborudovaniya proqprodpriyati.V.Koqk6V- elcogo energeticbeskogo instituta. (Blootric driving)  sov/144_59~-9-12/15 AUTHOR;, Zimin Ye N Cand.Tech.Sci. Assistant TITLE: Method of Calculating the Static Speed Characteristics, and Choosing the Feedback Parameters in Autopatic Speed-stabilizing Systems for d.c. Motor$ PERIODICAL: Izvestiya vysshM uchobnykh zavedonlyt Elektromekhanika., 1959, Nr 91 pp 86-9Z(USSR) ABSTRACT: Fig 1 shows a general block diagram of the arrangement commonly used for regulating the speed of a d.c. moto Here tr is an a.c.-d.c. converter, 11 is;the:motor and: OC is the set of feedback networks. The block V Maly contain rotating or magnetic amplified or grid-controlled, rectifiers. The general torm of the transfer charaotat- - istic of TT is given in Fig.2. The variation of transfer, coefficient with input is markedly non-linear but.,the: relation between output voltage and input lends itself to linear approximation. The equation for motor speed versus supply voltage at constant field:is Hq (1), or in terms of the input to the block IT $ Eq (2). ~ Separate Card feedbacks are taken proportional to speed voltage and 1/3 current and combined linearly as in Eq Me ~Tho substitution of (~) in (2) gives the geheral speed Eq  SOV/144-59-9-12/15 Method of Calculating the Static Speed Characteristics.*and Choosing the Feedback Parameters in-Automatic Speed-stabili.zing.Skstems for d.c. Motors This expression is difficult to use because it aontains the non-Alinear transfer coefficient. Using ~he linear: approximation in Fig 2 and eliminating the speed, n from Eq (10 the motor current I, is found, as a,function of the feedback parameters~ in Eq (7).:, Then for I . successive values of the sum-inDUt to the block It I Xy) values of En can be foundi Then from Hqs (7) and, (2)7 1, n coordinates may be calculated gi4ing the required static characteristic. In motor drives having a very wide range of speod controlp the lower speed values are often achieved by varying thia feedback parameters. Eq (6) enables the correct valuis to be chosen. Assuming the linear approximation in.Fig 2 an expression for spead-error is Eq (10). 1 Besides variations in load, fluctuations in supply voltage can also influence the motor by altering the effective transfer in block IT . Fig 3a shows extreme cases of Card 2/3 En/XY curves and the influence on the static characteris.- ties in Figs 36 and 36. Fig 1+ shows a particular method  sov/144-59-!-9-12/15 Method pf GaIculating the Static Speed Characteristics :band Ghoo~lng The Feedback Parameters in Automatic Speod-stabilizing,isystems f6r d.c. Motors of applying the three separate feedbaak signals in controllable amounts to a common control winding. The relevant equation system is Eq (22) while Eq'(25) gives the feedback coefficients either as an M.M.f. or a control voltage. There are 4 figures and 1 Soviet reference. ASSOCIATION: Kafedra elektrooborudovaniya promyshlennylgh redpriyatiy, Moskovskiy energetichaskiyinstitut Card 3/3 Mair of Electrical Equipment for, Indiketriali EnterpilieW. Moscow Power Institute), SUBMITTED: June 17, 1959  8 (3) AUTHORs Zimin, Ye. IT., Candidate of Technical SOV/105,59-12 9b TITLE: On the Calculation of the Static Rate Characieristics in a Controlled Mercury Ri)ctifior motor System PERIODICAL: 'N'10ktrichostvo, 19591 "r 12, PP 39-46 (USSH): ABSTRACT: The article illustrates and describeet a non-roversible electrical drive with regulated mercury TeAifier (Fig 1). Z ~ ~a of'a:closed be able to calcZato the rate characteristid system of automatic control the charaoteristics of the lattice- control must be knovM. The lattice control aeveldpad by theta TsKB "Elektroprivod" (Ref 2) *is the one mosi generally uzeAO~ The wiring of*such a lattice control is illustrated and described in a simplified version in figure, 1b. The author, investigated the peculiarities in thecalculation of the rate characteristics of different varsions of feedback c'onnecti ons ' and the control of motor rate by variation,of the rectified! voltage at (baotor = constant. The described methoa.of calculation makes possible to select the feedback coefficient Card 1/2 and to build up thi? static motor rate characteristics for the  On the Calculation of the Static Rate Characteristics 30/10-59-12-9/2,~ in a Controlled Mercury Rectifier Motor Systom controlled mercury.-rectifier7Mptor 9yetom. Ilis in based dn'~ the required accuracy -.which ic nebdoct f or koepinL~ th6 riotor rate,t, The exDlanationa w,-e illuotratod on cx;miploo. There are 6 fiaures and 2 Soviet refercneec. ASSOCIATION: Moskovskiy energeticheakiy institnt (1;',oaomv Institute of Power Engineering) SUBMITTED: June 5, 1959 Card 2/2  ZIMIN. Ye.N,, kand. tekhn. nauk; ILBUSUZOVA., R,B. Pulse apeed control of asynchronous electric motoro, Vest. AN Kaakh. SSR 20 no.2:85-90 F 064. (MIRA INI)  till LSVIN Gavriil KIkheqIoVichj GOLIDENTALIP) Molsery Enuanullovichl, Z314INp Ye.Nmp redo (Reversing electrie drive with meratiry-arc rectifiers] Re- versivrqi ionrqi elektropriyod. Moskva# Ener i1a,, 1964, 90 PO (Biblioteka po avtomat.1119j, no,318) f,141A ISO)  SOKOLOV, Nikolay Georgiyevich; saucmv, m.,, kand. tekhn. natO:, retsenzent; KAPUNTSOV, fu.D.,, insh. retsenzent I Ye N kand. tekhn. naukt redw (Design of electric drives for industrial i~eohanims]:Kon- stiLdrovanie elaktro'pri.vodov proizvodstvennykh mekhanizzwv; posobie dlia studentov spetsiallnosti (Blektrifikatalia pro- myshlennykh predpriiat.1i i ustanovok," Red.E.N.Zimin,, Mo- skva, Mosk, energ.in-t, 1961. 222 p. (MIRA 16:6) (Electric driving)  Zjjxjjj Ye N dote*; K"AYLVAj kand. tekhn. nau~i dots Ip It1fiers] ated mercury-arc rec , (Electric drive with "69'L1 vypriami.teliamio Elelctroprivod s uprav:'AaOr-ViTd rtutywmi 220 P. -t. Ft.l. 1.964. moskvay Mosk. energ. in (mim 18:6)  evicb, kard. teklin. nauk,, dotsent, T.13 Y B Ut .10Oleg zimillp Yeyr,2pjz. pjkola A regulated'a.oq. microw,toro Izve VVil, ucheb, 2avi.; elektromekb.~ 6 no.9slO93-1097 163. (MIRA 16:12) 1. Kafedra elektroprivoda i avtomatizatsii provqshlennyth ustmiovok Moskovskogo onargeticlieskogo instittitai (for Zimin), 2. Laboratoriya avtomtAi Gosudarstvennogo nauchno-isid'edovatell- skogo proyektriogo instil~uta redkometaUlcheskoy promyslilentiosti, Moskva (for TSybyllko).  ...... ........ ZIMIN Yev eniy NikolMovich; ROSMAN, L.V.j, red.; SHIROKOVA, M.14., tekhn. red, [Protection of asynchr-onous,electric motors with voltage ratings up to 500 vo2.tsl Zashchita asinkhronnykh el(jk-bro- dvigatelei napriazher.iom do 500.v. Moskva, Gosener~otz- dat, 1962. 55 P. (B.44blioteka elektromonters., no.79) (MIR& 16:6)~ (Electric motors, Inductia6) (Electric protection)  iACC Nk AP6032530 SOURCE CODE: UR/04l3/601O0WO.1T/(ff3i[dl31 INVENTOR: Gusev, L. S.; Zim Nistratov, A. F.; PoWin, I. S.; Popov, A. K.; Rozanov, Be V*; TokarskLy, A. P,; Kholin, Yu. T.; Tulyankin, F. VP; Shcheglov, V. F.; Yanovskiy, V. A. ORG: none TITLE: Drive of a high-speed c ounterblow hammer. Class 49, No. 185669 [announced by the All-Union Scientific Research Institute for the Planning and Design of Metallurgical Machinery (Vaesoyuznyy itiauchno-issledovatellakiv i provektno- konstruktovskiy institut metallurgLchaakogo. mashinostroyoniy&): SOURCE: Izobreteniya, promyshlehnyya obraztey, tbvarnyye znaki, no. 17, 1966, 131 .TOPIC TAGS: metal forming machine tool, forging machinery, motal pwess ABSTRACT: This Author Certificate introduces a drive of a high-speed counterb low hammer, which includes a high-pressure cylinder and a piston with a sliding sealing bushing. To improve the operational characteristics and efficiency~of the hammer, the bushing, placed in a lower. part of the cylinder, has a circular groove inside, into which oil is pumped under pressure equal to that of the gas in the cylinder, thus forming a Is er which serves the.dual purpose of sealin and lubrication. Orig. 9 art. has: 1 figure. SUB CODE:' 11, 131 SUBM DATE: 22M&y54/ UDC: 621.974,4-82 Card W  GUBILB, Ye.,Ly dok',,~r trad. naxd-~; ZlRlNA, I.P. Sm.ornal respiration in bm-A dissase. Soy, mol, 27 no,12.- ~-8 0 164.. (III-RA 18, 11 1. Khirurglcheskwya 'dinlka (nachallnik - prat. T.Ya. Arlyev,j Voyanno-meditainskoy ordena 'Lan 4na alademil Imani Kirova, T L-mingrad,  7A24INp Ye. P., POPOV, Va As, I'Datermination of Mcan Cross -sitetion of Electrl)n-neutr~~: Atod Collisions .in a Two-component Weakly Ionized Gaseous Axture report presented at the 6th Intl. Conf. on Ionization Pb,enomenix in Gasesi Paris, France, 8-13 Jul 63      3/123,/59/000/010/Olk/069 Aoo4/Aooi Translation from: Referativnyy zhurnal, mashinostroyeniye, Na, 10, p.~ 80, # 37801 AUTHORS.-* Zlmin, Yu.P~~, Stroyevi,,L, 'f;lng Tools. Made of High-Speed Steel. Chips~: TITLES The Properties of Cut ok PERIODICAL: Byul. tekhn. ekon. inform, Sovnarkhoz Rostovsko ekon. adm. i --na 1958, No. 4, PD. 37-38 TEM. The authars describe investigations to detVmine tho propeoles! of briquetted chips of the high- soedd steel grades P 9 (~Vand P 18 (a18).!Q chemical analysis it was found that, if the forgings are made of ohips, the C-' W-, V- and Cr contents remain withftn the limits of r0GT (606T) 5952-51. The degree of carbide heterogeneity of the chip steel grades R9,:and R.28 is rated,at 2 points while in the rolled bar it is 4 points. The hardn~eas of tools made:~of chip steel is approximately 62.5 R. after heat treatment. As a result of dura- bility teuts to which the tools were subjected on the 1A62 machine tool dur~rig Card 1/2  8/123/59/000/010/oi4/068 A004/AO01 The Properties of Cutting Toole Made of High-Speed Steel Chips the turning of steel, it was found that the cutting propertieo.of high-speed steel made of briquetted chips are identical with those of farged high-speed steel. There In one table. B.L.D, Translatot's note: This is the full translation of the original RUssian ab-- stract. Card 2/2  PHL13E I BOOK EXPLOITATION SOV/4221. Novocharkassk. Politekhnicheakiy inatitut Raboty mekhanicheskogo fakullteta (Works of the "Division of Moobanics) [Novocherkassk] 1958. 203 p. (Series: Itst Trudy, tom 90) Errata slip inserted. 2,000 copies printod. Editorial Board: V.P. Mikhaylov (Rasp. Ed.), Candidate of Techi*al Sciericesp Docent; A.A. Pyatnitskly, Professor; P.M. Vlasov, Candidate of Technical: Sciencesp Docent; I.N. Goncharov, Candidate of Technical Sciancesq Docent; P.P Klochkop Candidate of Tachnical Sciences,, Docent; N.M. Savin, Candidate of iechnical Sciences, Docent; and A.A. Kutukov (Resp.~Secrstary)., Candidate of Technical Sciences, Docent; Tech. Ed.: P.S. Baymatov. PURPOSE: This book is intended for technical personnel in mechanical engineering. COVERAGE: This collection of works deals with investigations of internal ~oombus- tion enginesp metal cutting$ gears, resistance-type strain ZaZes, and upar of machine parts. No personalities are mentioned. References accompany several of the articles. Card 1/7  Works of the Division of Mechanics SOV/4221 TABLE OF CONTENTS: Lyshevskiy., A.S. (Candidate of Tochnical Sciences# Docent, Departui.ent of Interna^1 Combustion Engines]. Disintegratien of a Nonviscous-Fluld Jet auirging Fro;rl a' -1 Split Jet Nozzle 3 By means of theoretical analyvis the author establishes conditions of instability of the motion of a plane jet of nonviscous fluid with symmetrical and unsymmetrical disturbances and determines the length of the unbroken,; portion of the jet. Lyshevskiy, A.S. Effect of the Surrounding Medium on the Stabillty and Disintegration of a Hollow Jet of Viscous Fluid 19 A theoretical investigation is made of the development of disturbances on the surface of a hollow jet of v~Bcous fluid and the effect of air flow around the jet. A differential equatior. and its solution for the wave vibration of the fluid jet surface is presented. Lyshevskiy, A.S. Regularities in the Change of Certain Parameters of the Indicated Process of High-Speed Diesel Engines 47 On the basis of two characteristic parameters of a combination process indicated efficiency and ignition lag.. the author presents a generalization of experimental data obtained in testing high-speed diesel engines with open-type combustion chambers. Card 2/7  Works of the ' Division*, of Mechanics Lyshevskly, A.S. On the Determination of the Amount of Fuel Leakage in In-: jection Pumps and Nozzles 65 The author presents a more accurate method of determining the .rate of fuel leakage in the operation of a fuel injection pump and nozzle. Lysbevskiy, A.S. On the Determiration of Fiuld-Friotion Force Between a Cam Follower and a Guide ?I Using a cylindrical coordinate system and assuming that the follower is subjected only to linear-reciprocating and rotary motion aad teat the oil-film pressure is constant,p the author derives an expression for oal- culating fluid-friction force between cam follower and guide.. Belitskiyp H.S. (Candidate of Technical Sciences, Docent~ Department of the Operation of Automobile Transport]. Life of Valv"ear Elements of an Auto'- mobile Engine in the Process of Operation 77 The author investigates the wear of camshaft pins, cams, and stems of followers and valves. Belitskiy, M.S. On the Problem nf Limiting Allowable Clearance Between ths Piston Skirt and the Cylinder L.Iner in an Automobile Engine 87 By means of hydrodynamic analysis of the oil film between two parallel Card 3/7  Works of the Division, of Mechanics SOV/4221 planes the author derives an expression for calculating the max1mum allow- able clearance between a cylinder liner and a piston skirt. With the formula derived, he makes calculations for a number of.8oviet types of engines and concludes that presently used standard clearances are too small and may be increased to their maximum values as determined by calculation. The increase in clearance will result in the reduAion of wear and repair costs. Zimin. Yu.P.- [Candidate of Technical Sciences Docent, Department of Ma- a~hine-Building Technology], and K.M. Stroyeva tCandidate of Techtdcal Sciences, Docent, Department of Ketal Technology]. Investigation of the Properties of High-Speed Steel Made From Chips 93 Chemical, macro-9 and microstructural analysis., hardnes'a testa,, and de- termination of density and cutting properties were made,for original and heat-treated specimens made of chips produced by milling of types P9 and P18 high-speed steels. Comparative tests were also madt of cutting tools manufactured from the standard steels mentioned above and from their chips. The results show that the properties of outting tools re- main nearly the same in all cases. Card 4/ 7  Works of the Division of Mechanics SOY/4221' Antonyuk.. V.1. [Candidate of Tecl:mical Sciences,, Docentlp and N.S. Kolev [Candidate of Technical Sciencesy Department of Machine-BuiWng:Technologyl. Drilling Dynamometer With Wire-type Resistance Strain Gages .103 A dynamometer designed by the authors for measuring feed forces and torques in drilling., reaming, and threading is described. The dynamo- motor is of a simple construction and may be used not only in laboratories but also under production conditions. Its operation is found to be stable in the drilling of holes from 5 to 25 um in diameter. Kolev, N.S. Friction in the Mattil-Cutting Process ~107 The author briefly reviews some of the data available on this subject and presents the results of an investigation of the effect,of cutting depth and speed, feeds, and tool angles on the cutting process. He concludes that in metal cutting the molecular interaction between cuttinip-tool'and work surfaces has a great effect on the consumption of energy and tool wear. Devin L P. [Docent, Department of the Theory of Machaniams d Machine PartsJ. load-Carrying Capacity of Toothed Gears Made of DSP-Gs'n"Dravplastik" [Masonite-Type Material] and Working in Pairs With Steel Gears 117 The author presents a summaryof results of a set of experimental investi- gations conducted on a specially built test installation in order to do- Card 5/7  Works of the Division of Mechanies SOV/4221 termine the effect of number of teeths velocity ratio, and circumferential velocity on the performance of a pair of gears with one gear made of steel and the other of DSP-G "drevplastik." The maximum circumferential unit pressure (g,/cm. of the tooth width) under which no appreciable 'wear or failure occurred was used as a airterion in determining gear load-carrying capacity. Chudutov. V.A. [Assistant Profesmor, Department of the Theory of Mechanisms. and Machine Parts]. Performance of the Wire Grid of a Resistance-Type Strain Gage in a Zone of High Temperaturos Effect of temperature on the rasistance of a strain-gage vire.is investi- gated. Results show that the rate of change In the resistance is a fum- tion of time and heating temperature. It decreases with time and becom*a stable when held for 8 hours at 1500C. Chudutov, V.A. Effect of the Shape of the Wire Grid of a Resistance-Type Strain Gage on the Gage Factor Effects of gage bases nomparallelism of grid wireaq Oformation of wires and part being tested, and the number of grid loops on the gage factor a-ke investigated. Results show that for the gage bases frm 2 to 5 am long the change in the number of loops between the limits of 6 and 18 has very little effect on the gage factor. Card 6/7  Works of the Division of Mechanics SOV/4221 Savins M.M. Esenior Instructors Department of the Theory of Mechanisms and Machine Partsj. Ways of Improving Wear Resistance of Screw Mechanisms 159 The wear of screw mechanisms made of bronze$ cast irons and textolite with square and trapezoidal screw threads is investigated. Results show that the use of a modified *caat'ir(,,jn bearingin place of bronze and the replace- ment of square threads by tral.,,ezoidal will increase tbe~wear resistance.~ Burak, A.K. [Assistant Professors Department of Metal Technology and the Science Of Metals]. A Method of Designing Hypoid Gears With Circular Tooth Form . 1 1171 The method described reduces design calculations atA may be used in the de- sign of hypoid gears with a spiral angle equal to zero,~ Mamadshanov, I.G. [Assistant Frofessorj, Department of the Theory of Mechanistas and Machine Parts]. On the Problem of Stability in the Tfghtening of Bolted Joints Under Variable-Load Conditions 191 The author presents the results of a theoretical investigation of the pro- cess of loosening of bolted ,!,oints subjected to v!,brat6ry loads. AVAILABLEt Library of Congress Card 7/7 Wpw/afm 9/29/60   WIT ZININ, Tu.P.# d9teent, kaMidat takhnichookm nauk. Comparison of cutting P.-Cceasem used In turning amd milling operations. Namch. trWiy IPI, 30 (44): "1-136 155. (MU 9: U (Ketal cutting)  V137/60/000/0 10/d,3,2/0 40 A0o6/A0Oi: Translation from-. ReferativnTj zh-tArnal, Metallurgiya, 1960, No.: 10, pp. 262~_26~~) 24552 AUTHORS. Zimin. Vu P Stroyeva, K.M., TITLE, Investigations of the Propertles of High-Speed Steal Manufac,tured' From Chips PERIODICAL: Tr. Novocherk. pol.).tekhn. in-,ta, 1959, 110. 90, PP, 3 102 TEXT: The authors studiej.1 the possib,ility of uain6 high_;speed steel,' chips for the manufacture of cutters and Invcz-itigued forgings rnade of~ ()q (_Rq) anit P1,18 (R18) steel chips, by swaging the chlpzi heated to 1,150C'C. : The chemical composi- tion, macro and microstructure, conpactness, hardness and the cwtting properties of the cutters were investigated. It was established that, high-speed chip:steel had the same chemical composition, the same hardness after anneal-Ing and heart treatment, and the same cutting properties as standard high-spead steel of equal grades. Carbide het-;rogeneity of the chip high-speed steel is le:is than that of Card 1/2