SCIENTIFIC ABSTRACT VASILYEV, A.A. - VASILYEV, A.A.

BURSHTEYN, E.L.; VASILIYEV, A.A.; MINTS, A.L., akademik; PETUKHOV, V.A.; RUBCHINS --- High-energy cyclic accelerators with a self-tuning magnetic field. Dokl. AN SSSR 141 no.3:590-592 N 161. (MIRA 14:11) (Particle accelerators) (Magnetic fields)  40738 S/120/62/000/004/003/047 E140/E420 AUTIJORS: Rubchinskiy, S.M., Batskikh, G.I., Vasillyev, A. Vodoplyanov, F.A., Gutner, B.M., Kuzlmin, A.A., Kuzlmin, V;F., Lebedev-Krasin, Yu.2%1., Uvarov, V.A. TITLE: The electronic system of the 7.Gev proton synchrotron PERIODICAL: Pribory i tekhnika eksperimenta, no.4, 1962, 2o-26 TEXT: The article surveys the electronic system of the 7 Gev proton synchrotron, the individual part's of which are described in individual articles in the same number of the journal. The electronic circuits control the continuous increase of the energy of the accelerated particles. For the chamber aperture. used in the apparatus, the deviation of the momentum frobi the equilibrium value cannot exceed + 5 x lo-3. The inst*antaneous values of H must be held to within 10-3 at the start (f = 0.67 Mc/s) and 5 x 10-5 at the end of the acceleration cycle (f = 8.31 Mc/s). The synchrotron frequency varies from 3600 to 130 c/s. To keep the oscillations of phase with passage through resonance less than the adiabatic damping of these oscillations, the harmonic frequency modulation of the accelerating potential by the synchrotron frequency should not exceed 0.5 c/s and the harmonic amplitude Card 1/3  S/120/62/000/004/003/047 The electronic system of ... E140/E420 of the modulation at the same frequencies should be less than 2 x lo-4 at the start and 5 x 10-3 at the end of the cycle. The spectral density of noise modulation should be of the order of 2 x io-3 cs2/cs. The precision of mej!suring If at the instant of injection was prescribed as 3 x 10-1. These requirements are met by a programmed frequency control with correction for the radial and phaseogositions of the beam, calculated for beam intensities of 1 to 1012 particles. The beam measuring system consists of a precise discrete integrator and a meter for the initial level of the magnetic field intensity. Special equipment is required for the automatic measurement of the instantaneous values of frequency and field intensity, the measurement of micromodulation of the frequency and amplitude of the accelerating potential, variations of beam intensity over the acceleration cycle, the azimuthal distribution of particle density in the bunch,and the position of the beam in the vacuum chamber. An overall block diagram of the system is given and also summary descriptions of the systems for generating the acceleratIng fieldt the acceleration control and the measuring equipment. The Card 2/3  I The electronic system of ... S/120/62/000/004/003/047 E140/E420 particles are accelerated at the seventh harmonic of their frequency of revolution - in the band from 0.67 to 8.31 Mc/s. The energy increase is 4.3 keV per revolution. The accelerating elements are 2.4 m drift tubes located in 1:1 compensating electromagnets. The transit angle in each tube is about 25* and the ratio of accelerating potential to the potential across the tube is about 0.43. The system ensure*s a phase oscillation of the beam below 0.05 r and stabilizes the radial position to within + I mm. There is 1 figure. ASSOCIATION: Radiotekhnicheskiy institut GKAE (Radio Engineering Institute GKAE) SUBMITTED: April 23, 1962 Card 3/3  S/l2o/62/ooo/oo1j/ol4/o47 E192/F,382 AUTHORS: Vasillyev, A.A., Batslcilch, G.I., Vasina, Yu.A. and Aiia-r-y-us-i-ic-h-o-nTc-o--:Liltsonlco, N.I. TITLE: Multichannol precision digital system for measurement of the intensity of the magnetic field and tine PERIODICAL: Pribory i telchnika eksperimenta, no* 4, 1962, 84 - 39 TLXT: Electronic equipment for accurate measurement of instantaneous values of the ma-netic field and time is described. The device is designed for the 7 GeV proton synchrotron*and is primarily based on a continuous-discrete*computing unit (discrete integrator). The input signal to the integrator is, taken from the induction coils situated in the gaps of thr-, electromagnets of the accelerator. The si_-nal is converted into a correspondins "instantaneous frequency" of a frequency- Modulated waveforn, -whose phase is then measured by means of an electronic counter. The output pulses corresponding to a given value of the magnetic field are obtained by employin.- a coinci- dence circuit which is connected to suitable elements of the Card 1/3  S/12o/62/000/004/014/047 I E192/E382 Multichannel precision . - # . electronic counter. Since the induction coil does not pick up the residual field, the integrator is used ii-i two ways. III the case of instability of electroma-tnots excoedin-,, the prescribed value of 3 X 10- it, the average value of the field is obtained from the data acquired from the permalloy pick-ups situated in the Saps of practically all the electromaSnets; on the other hand, for an instability not exceedin.- the limitin-- value, the integratc;.- is suitched-on by the pulse from a single pernalloy piclf-up situated in the mensurin- magnetic unit. Since the value of the ria_gnetic field in the &ar) of an electromagnet is an accurate periodic function of time (with an error of less than 0.5%), various devices can be controlled by measuring the time counted froi*,i-thc instant of switching-on the electromagnet current, ratlier than measuring directly the strength of the field. These mca-Burements can be inado by means of a multichannel tim'~ pick-up (A.A. Vasillyev, I.I. Grigorlyev, PTE, 1958, no. 3, 65). The discrete integrator and the multichannel time pich-up are identical, except for the Cenerator which is frequency-modulated Card 2/3  S1 12 0/ 6 2/ 0 00/ 0011/ 0111/ 0117 Multichannel precision .... sl 9 2/ L3 3,2 in the case of the integrator and quartz crystal-stabilized in the time transducer. The electronic counters for both instruments are identical. The control of the position of the pulses in the integrator and the time transducer is carried out in steps-, the miniinuin steps being Oob Oe and 100 jLs, respectively. Continuotus control can be achieved by using pliantastron delay circuits. The operation of the integrator and time-transducer is discussed in some detail. There are 4 figures and 1 table. ASSOCIATION: Hadiotakhnicheskiy institut GKAE (Radio-en-incerinZ Institute- GKAE) SUBMITTED: April 5, 1962 Card 3/3  S/12o/62/000/004/020/o47 E192/E382 AUTHORS: Vasillyev, A.A., Kuzlmin, A.A. and Ivanov, Yu.S. TITLE: Investigation of the beam-based frequency-control system by means of a radioelectronic model of the beam of a 7 GeV proton synchrotron PERIODICAL: Pribory i telchnika eksperimenta, no. 4, 1962, 111 - 115 TEXT: Considerable difficulties are encountered when dcsignin,, a control system based on the data provided by the beam of the synchrotron since the problem is nonlinear * and the control "rin-11 contains a number of networks which are described by hirlier-order differential equations. *An electronic simulator has therefore been devised, based on the analogy between the'phase of a frequency-modulated osci:llator which was synchronized by the accelerating voltage and the azimuthal position of the beam. The block schematic of the analoSue is shown in Fig. 1. This consists of; I - a phase-detoctor; 2 - adding circuit; 3 - integrator; 4 - frequency-modulated oscillator; 5 - a mixer and 6 - a balanced modulator. The output voltage of the Card 1/3  Investigation of .... S/120/62/000/004/020/047 E192/E382 simulator U is applied to the input of the phase-detector. The' voltage obtained at the output of the detector is added to the voltage U0 and this is integrated bY 3 , The output of the integrator modulates the frequency of the oscillator 4 . The resultin- signal is applied to the balanced modulator 6 , tooether with the signal from the output I In this way, the high-frequency signal obtained at the output 2 has an amplitgde arUuB - The analogue thus produces two signals: the first of those corresponds to the signal obtained from the electrostatic electrode of the phase pick-up, while the second signal corresponds to the signal of the radial pick-up. By using the analogue it was possible to design an aeburate system for controlling the frequency of the beam. In particular, an analogue permitted the investigation of the transient processes in the control system. There are 4 figures. Card 2/3  S/12o/62/000/004/020/047 Investijation of .... E192/E382 ASSOCIATION: Radiotekhnicheskiy institut GKAE (Radio-engineering Institute, GKAZ). SUBMITTED: April 6, 1962. Fir'. 1: Card 3/3  5/120/62/000/004/022/o47 B032/E514 AUTHORS: Yasillyev, A.A. and Skuratov, V.A.' ----------------- TITLE: Measurement of the instantaneous frequency of the accelerating voltage of a proton synchrotron by a two-channel heterodyne method' PERIODICAL% Pribory i tekhnika eksperimenta, no.4, 1962, i18-m TEXT; The instantaneous frequency is measured with a device whose block diagram is shown in Fig.l. A voltage signal proportional to the accelerating signal whose frequency was to be measured is fed into the mixers I and 2 through the tr/2 phase shifter 3. The mixers .1 and 2 also-receive a signal U0 having a known frequency. The function of the two mixers is to multiply the signals U y and U 0 with the res.ult, that the output contains harmonics having frequencies equal to the sum and difference of the original frequencies. The mixers are followed by filters 4, 5 which remove the higher frequency components and are in turn followed by differentiating circuits 6 and 7. The outputs of the latter are fed into squaring circuits 8 and 9 and the result is finally added by the adding block 10. The Card 1/3  Measurement of the instantaneous ... S/12o/62/000/00/022/07 E032/E514 output U of the adding circuit is proportional to the square of the difference of the required frequency and the frequency of the standard signal U0. Thus, the output signal passes through a zero value whenever the required frequency is equal to the standard frequency and this can be noted visually on -the screen of a CRO. The latter pulse is produced by the shaping circuit 11. This method can be used if the amplitude of the original signal in a slow function of time. If thin in not no, then tho amplittide must be Pitabilixed with the aid of two identical AGC ntispliriern placed in front of the mixers. It in pointed out that this method gives a higher accuracy (+30 cps) than the digital method described by V. F. Kuz'min and S. 147. Rubchinskiy (PTE, 1962, no.4, 115). Moreover, the required circuitry is simpler. There are 3 figures. ASSOCIATION: Rndiotekhnicheskiy institut GKAE (Radiotechnical Institute GKAE) SUBMITTED: April 5, 1962 Card 2/3  Measurement of the instantaneous ... 5/120/62/000/004/022/047 9032/9514 cNecu- 0 ~ww PWS qlTO&q,:*I I 4 Fig.1 Card 3/3  S/12o/62/000/004/026/o47 E032/E5i4 AUTHORS: Vasillyev, A.A., Kuzlmin, A.A. and Uyarov, V.A. -~lea--Weri-t--o-f-tH-d-frocitiency of betatron oscillations TITLE: sure by the.resonance method PERIODICAL: Pribory i tekhnika eksperimenta, no.4, 1962, 134-137 TEXT: A description is given of a method of measuring the frequency of betatron oscillations in which the signal induced by the oscillating proton beam in pick-up electrodes is used to excite a resonance circuit. A theoretical analysis of the method ih given. It is reported that experiments have shown that when the amplitude of the vertical an 'd radial coherent betatron I oscillations excited by a 15 kV voltage pulse is~ 0.01 cm, the ii;qthod is capable of yielding an accuracy of about +0.2%6. The 15 :-V perturbation of the beanL was applied across a plane capac.'tor with a gap of 11 cm and 20 cm long. It is shown that this porturbation is essential in the case of 7 GeV protons since otherwise thle signal could not be detbeted with the apparatus develop'ed for the 7 GeV machine. There are 2 figures and 2 tables. Card 1/2  Measurement of the frequency ... s/i2o/62/000/004/026/o47 E032/E5i4 ASSOCIATION: Radiotekhnicheskiy institut GKAE (Radiotechnical Institute GKAE) .1~11) .1 SUBMITTED: April 5, 1962 Card 2/2  z( VASILIrET A.A.j BATSKIKH, G.I.; VASINA, Yu.A.; ANDRYUSHCHZfKO- Multichannel pre-cision d-1-gital syptems for measuring magnetic field strength and time. Prib. i tekh. eksp 7 no-4:84--89 JI-Ag 162. imm 16:1,) 1. Hadiotekhnichaskiy institut Gosudarstvennogo komitets, po lapollzovaniyu atomnoy energii SSSR. (Electronic apparatus and appliances)  VASILIYEV A.A,- SKURATOV, V.A. Use of the t~'o-channel taterodyning method in meamxring the accelerating voltage iii a proton synchrotron. Prib. i tekh, eksp. 7 no.4:118-121 JI-Ag 162. (MM 16:4) l.; Radiotekhnicheskiy institut, Gasudaretvennogo komiteta po ispollzovaniyu atomn energii SSSR. I'Synchrotron)  33231 S/089/62/012/002/002/013 0 B102/B138 AUTHORS: Burshteyn, E. L., -Vasillyev, A. A., Mints, A. L., Petukhov, V. A., Rubehinakiy, S. M. TITLE: Application of*the principle of magnetic field aelf-vorrection in superhigh-energy cyclic accelerators PERIODICAL: Atomnaya energiya, v. 12, no. 2, 1962, 111 - 115 TEXT: The authors discuss the possibility of automatically controlling local magnetic field characteristics by using accelerated particle beam data. By this means the chamber cross section could be reduced, the beam energy increased and the accelerator structure simplified, As betatron and synchrotron oscillations are closely related to the chamber parameters, the self-correction of these oscillations is very important. Two main problems arise with betatron oscillations: Control of tije equilibrium orbit, and stabilization of the number of oscillations, They are considered in the following. (A). A "smoothened" motion under the action of a constant f cueing field is described in linear approximation by the equation x1f + Ft(Q) without automatic control ; x denotes the Card (0  33231 S/083/62/012/002/0021/013 Application of the principle ... B102/B138 deviation from the chamber axis, q the number of betatron oscillations per (9) is the perturbation, a periodic function of E) (, revolution, Ft neriod 2T:) which is slightly time-dependent. A correction function F k(9) = -Lt(XII~Q 2X) is introduced, so that with automatic control the equation reads; X11 + 0,2x = Ft(O) - L,(x" + q 2x) or (1 + Lt)(XII + q2x) = Ft (0). A possible block diagram (Fig. 1) is proposed: The initial perturbation F t(6) and the correction signal F k(e) act on the controlled object (1), measurina unit (2) measures the x(G) deviations, computing unit (3) determines x" t Q2X and (4) is the amplifying transducer with the characteristic operator Lt and a time delay T Iof -1 msec: Lt = IKI(l + pTI). 'fl X(") F(O), k(9) Y=F Card 2/4  33231 S/089/62/012/002/002/013 Application of the principle ... B102/B138 (B) The block diagram proposed for the stabilization of Q is the followinC: 3 L-J 60 9 5 9 VO M The particle beam, i. e., the controlled object, (1),is excited by a pulsed field betatron oscillations x(9) with frequency Q = Qo � 0.25 + AQ, Qo is the perturbation plus the correctin an integral number and 6Q = 6Q + 6Q kv 9 signal. (2) is a signal electrode mixer, (3) is supplied with voltage from (9), (4) is an I-f filter, (6) - mixer with filter, acting as voltage divider. (7) is a frequency detector and (5) the executive component. The parameters of self-corrected proton accelerators with 300 and 10D0 Bev were calculated for small and large radii of curvature. There are 2 figures, 1 table, and 6 references; 2 Soviet and 4 non-Soviet, The four references to English-language publications read as follows: E, Courant Card 3/4  Application of the principle ... et al. Phys. Rev. 88, v. 1, 1956, P. 395; A. of betatron oscillations Geneva, 1958; M. Barton, 2 1 S 089/62/012/002/002/'013 B102/B138 1190, 1952; K. Johnsen, C. Schoch, Theory of linear in alternating gradient Rev. Sci. Instrum. 31, SUBMITTED: December 6, 1961 Schmelzer. Symposium CERIT, and non-linear Perturhation3 synchrotrons. CERIT, 1290 (1960), Card 4/4  3/009/62/012/OC6/003/019 B102/0104 AUTHORS: VlMdimirskiyp V. V., Komar, Ye, G., Mintop A. L,, Colldin, 1,.,_L , Monouzon, 11. A., Huhrhinnkly, S. M.0 Tara,jovI'to Vaoillyev, A. A.,Vodoplynnov, F. A.# Yonlikar.", Malyshev, Is F*j Stolov, A. W,., Strelltsov, N. S., Yakovlcv, 13. Id. TIT1414: 'rho doeiCn of the 7-11ev proton synchrotron PERIODICAL: Atonnaya onorgiya, v. 12, no. 6t 1962P 472-474 T ZIMT; The history of the frat Soviet cyclic accelerator with rigid focusing is brinfl., dencrib;d, and the moot importani data on its planning and operation are presented. Planning was started In 1953. The parameters of thin iproton accelerator, the energy of which exceeds the antinucleon production threshold, were so chosen that the dependence of the orbital circumference on the particle momenta was oonpletelj compensated. This was achieved by employing 14 quadrupole marlieta with orbit of nc&ative curvature. Technical data: output currentg 1010 prot:na/puloel maximum field strength# 8475 00; length of equilibrium orbit, 251.2 ml radius of Card 1/2  The deoiln of the 7-Rev ... j3102YD 104 curvature of the trsijectories in the bendint; nagnets (C), 31 m, ani in the conpenoation iraEnet!j (X) , co 1 nunber of maCnetic aectori , 913C + 1,JX; (-,ap length between the C-innt;nota, 30,1.0 mm; 1:ap lonf-th nround the X-irifi,:netn' 417-5 mini index of tho decreane tit fleld strvni;th, .160, intert'....1 11011;ht and width of the chamber, 00 and 110 mm, rqspf.,ctivcly1 number of betatron oscillatione pur revolution, 12-75, and per periodic element, 0.~); nurabor of naj;nota per periodic element, 0; total critical energy, 19.2 Bovi maximum deviation of the periodic orbit with IOU;; deviation of thr momentum from the equilibrium momentum, 1-47 ml rate of energy Incroane per revolution, 4.3 ke-vi duration of one cycle, 1.55 seci 10-12 cyclea/mini "'Y particle revolution fro upitcy at the bel;innini; of the eyelet 0.11 MC/00c, and at the and, 1.19 1.10~Gec; frequency of synchrocyclotron oscillationa, 3600 and 130 cPal-'eight of the electromagnet steel, 2500 tonal maximum power of the auppij ayatem, 25 11wi Van de Graaff Injector (particle enert,,y, )-8 :evi field strength 90 oe)l admissible deviationr from field streneth and field gradients, ~ 10-31 deviations at the chamber edge due to nonlin~aritics, - 10-21 admissible frequency deviation of the accelerating field at the betinnine of the cycle, 10-3, and at the endo 5'1o-5. There are I fiGure and I table. SUDMITTED: Uarch 12, 1962 Card 2/2  S/089/62/013/006/019/027 B102/Bie6 AUTHORSs G. T. and M. R. TITLEs Nauchnaya konferentsiya Moskovskogo inzhenerno-fizicheakogo instituta (Scientific Conference of the Moscow Engineering Physics InstitiAe) 1962 PERIODICALs Atomnaya energiya, v. 13, no. 6, 1962, 6o3 - W TEXTt The annual conference took place in May 1962 with more than 400 delegates participating. A review is given of these lectures that are assumed to be of interest for the readers of Atomnaya energiya. They are followingi A. I. Leypunskiy, future of fast reactors; A. A. Vasillyev, design of accelerators for superhigh energied; I. Ya. Pomeranohuk, analyticity, unitarity, and asymptotic behavior of strong interactions at high energies; A. B. Migdal, phenomenological theory for the many-body problem; Yu. D. Fiveyekiy, deceleration of medium-energy antiprotons in matter; Yu. M. Kogan, Ya. A. losilevskiy, theory of the Mdesbauer effect; M. I~ Ryazanov, theory of ionization losses in nonhomogeneous mediuml Yu. B. Ivanovq A. A. Rukhadze, h-f conductivity of suboritical plasma; Card 1 41  VASILIYEV, A.A.; KUZIMIN, A.A.; UVAROV, V.A. Measuring the frequency of betatron oscillations of the bean by the resonance method. Prib. i tekh. ekep. 7 no 4:134-137 Jl-Ag 162. (MIRA i6:4) 1. Radiotekhnicheskiy institut Gosudarstvannogo komiteta po ispol'zovaniyu(atomnoy enarfli SSSR. Betatron) Oscillations)  RUBCHINSKIY, S.M.; BATSKIKH, G.I.; Wgk~YU,-A-A-; VODOPIYANOV F.A.; GUTMM, B.M.; KUZIMIN, A.A.; KUZIMINq V.F.; LEBEDEV-IaWiNp TU.m.; UVAROV, V.A. Radio electronic systme of the 7 bev. proton synchrotron. Prib. i tekb. sksp. 7 TIO-4:20-26 JI-Ag 162o (NIM 16:4) 1. Radiotekhnicheskiy institut Gosudarstvennogo komiteta po ispollsovaniyu atomnoy e-nergii SSSR. (Synchrotron) (Electronic circuits)  VLADDMSM, V-.V.; KOW, 14.0.1 MIIM, A.L - GOLIDIN, L.L.; MOWOSZON N.A.; R6WISM -PAS S.M.; iA ' OV, To K - VASILIM, A.A.; VODOP'iAOVt F. A. I M"ftnyp D 00 MMIMV, STOLOV, A.M.; STRELITSOY..w.s..; TIVUVq B.M, The 7 bev. proton xyl~~ qn. Prib. i takh eksp. 7 no-4:5-9 Jl--Ag 162. ~MIRA 16:10 I. IMMUtut t6oroticbmkoy i skoperimntallnoy ~iziki Gosu- darstyennogo-kowitate po ~~ojlzovwdyu atomnoy energii SSSR, Jj&uchnO--iBfIedov&tOllsldy itistitut alaktrofisicbeakoy apparatury Gesudaretyennogb kmiteta po iopol'idvaniyu atomnoy energii SM i*Radiotekbniches)ciy institui GoBudarstvannogo komitata PO iopollzovaniyu atounoy anirgii SSSR (Synchrotrons  VASILIYEV. -A.A. Feasibility of lowering the injection energy in superhigh- energy accelerators. Dokl. AV SSSR 3.48 no.3:7n-580 Ja 163. (MIRA 16:2) 1. Predstavleno akademikom A.L. Mintsem. (Particle aoc'elerators)  L5170 S/02 63/148/003/020/037 BlOSYBI80 AUTHOR: t_Va,. 11 e v A . TITLE: Possibility of lowering the injection energy in superhigh energy accelerators PERIODICAL: Akademiya nauk SSSR. Doklady, v. 148, no. 3, 1963, 577-580 TEXT: High focusing efficiency in the initial stage of acceleration can be achieved by using a magnetic unit consisting of planar and rotational magnets and quadzu-pole lenses. The one drawback to a,system.~witb two . groups of quadru-poie lenses for the first and second acceleration sLages is the azimuthal instability of the magnetic field at low injection energy. It is suggested that the first'cycle can be corrected by stabilizing a beam of heavy ions by means of measuring electrod~sand- correcting magnet-3 so that it enters each new cycle under zero initial conditions. If the porrecting magnets are placed at distances of 1/4 and 1/2 betatron wavelength from the measuring electrodes the beam deflections can'be regulated at the place of the measuring electrodes. There is 1 figure. Card 1/2  S/020/63/148/003/020/037 Ponaibllity of lowering the injection ... B108/11180 PRESE14TED: November 1, 1962, by A. L. Mints, Academician SUBMITTED: October 30, 1962 I/r" Card 21/2 i I - .-. I --  A -rAt or s  cot d  "inere F~ is the r-- zi .g eed~~,.-k ASSOC7A71011: R ad ote khn-,* ch es ki v AN SSSF 3 Engineerin's Institute, NO RE7 SOY: Oil 7 rE R I-Card 3/3  ~,~7  , V- I - ~- - --- n - -, - I- I - - - - 1.1 , ~ -. - ~, -1. , p ~ , I I , , -1 ; -1 1 , -,e ~-i t . - Irm . I t f i, is t a m,-, ~ % m m omommumammum=M  3/4  I H vi iiii g'; U~~ 4--  L 215,2-66- . ~WT(m)/SPA(.w_)-2/SWA(m)_2.. _IJP(c)~ zg ;ACCESSION NR: AT5007953 UR/0000/64/000/000/0655/0059 AUTHOR: illav, A. A. Vas TITLE: A cyclic accelerator with super-strong focusing and regulation of the first revolution with respect to a beam of heavy ions International Conference on H nga ~c(~S;~rators. Dubna, 1963. ISOURCE: Trudy. Moscow, Atomizdat, 1964, 855-859 TOPIC TAGS: high energy accelerator, heavy particle, focusing accelerator,. auto-. mat control ABStRACT: The betatron oscillations in an accelerator with strong focusing, whose imagnetic system is formed by turning magnets with flat poles and quadrupolar lenses, are described by linear approximate differential equations of the form dzx Rip d%z 10, + ~Ks (n) z ,..Their solution is sought in.-the'fdrm of series expansions z (q) e1Q4, W (q) e-ivu", 'Card 1/3  ILL 2252-66- ACCESSION NR: AT5007953 (A. Schooch, Theory of Linear and Non-Linear Perturbatimis of Betatron Oscilla- tions in AGS, CERN, 1958). The author considers the regime during which, in the course of a full cycle of acceleration, the admittance of the accelerator (with respect to betatron oscillations) is in agreement with the emittance of the beam. For a 1000-Gev accelerator with the parameters rM = 3.5-105 cm and a = 0.75 cm*, in-' to which is injected a beam from a linear 100-Mev accelerator with emittance R. f 1.5-10 he obtains the pertinent quantity Q = 300. fie notes the theoretical possibility of realizing a regime without the passage through the-critical e nergy both in the first and second stage of acceleration, for which in the first stage the critical energy should be higher and in the second state it should be lower than the transit energy Et. The author discusses the possible procedures for the transition from the first focusing structure to the second. In the first method of transit the quadrupole lenses of the first focusing structure is reorganized tat the moment of passage from-one structure to the other in such a way' that a struc- ture results with a certain period M2 ensuring the number of betatron oscillations Q2 in the pertinent equations. In the second method for focusing systems of the first and second-stages, use.is made-of different quadrupole lenses. The author Card 2/3  _L 2152-66 I.ACCESSION XR: ATS007953 considers the injection of heavy ions Lito a ring accelerator by means of a suitable lead-in system along with an intensity-modulated beam of ions. The radial and i vertical displacement of the ions, orbit are measured by means of sensitive elements- [distributed along the accelerator's perimeter. These elements are arranged in pairs .,I and measure the deflection of the heavy ions' orbit and the orbit's angle :From the longitudinal axis. They permit the realization of an automatic system of correc- tion and regulation of the orbit, which the author describes. "A detailed anaiysi~ of the proposed system of handling the first revolution was given by A. I. Dzergachl. .and V. A. Karpov (present collection, p. 867). The author thanks for their dis- 1. cussions A. L. Hints, E. L. BurshtSyn, N. L. Sosensk and J  L 2276-66 DIT (MVE71,70n)-2 IJP(c) G5 1ACCESSION NR: AT5007957 /0000/64/000/000/0871/0873 AUTHOR: Vasillyev, A. A. TITLE; Automatic control of equilibrium orbit for strong-focusing t n nch.ro- ANjj4_9f sunar-high energy SOURCE: International Conference on High Ene pr Dubna, 1963. Trudy. Moscow, Atomizdat, 1964, 871-873 ~TOPIC TAGS.-. high energy accelerator, proton synchrotron, focusing accelerator ABSTRACT: With increasing energy of accelerators, the aperture of the vacuum chambir is determined in great degree by the inaccuracy of the position of the equilibrium ~ orbit. Methods of automatic regulation of accelerator parameters are applied to de creasing the forced oscillations of the accelerated particle beam and, especially, the displacement of the equilibrium orbit (Burshteyn, E. L.; Vasillyev, A. A.; Mints, A. L.; PetuXhov, V. A.; Rubchinskiy, S. N. DAY SS5,R 141, 590, (1961)); Bur- shteyn, E. L., et al., present collection, p. 67; Vasillyev, A. A.; Kuzlmina, N. I.1 NT-3561-60, RTI AN SSSR, 1961). Shifts in the "smoothed" equilibrium orbit in the vertical a and radial.x directions due to perturbations'in the magnetic system, namely P z, 0)--and F (x, z. 0) respectively, are determined by the differential x Card 1/4  L 2276-66 ACCESSION NR: ATS007957 equations 2Z Z, 0), + Q d2X + F, (x, z, 0), F. 0) = F-0 V, Z, 0) Fth (X, Z. 0). & z, 0) = F,s (x,- z, 0) - F.A (x, z, 0), where F~0_. FX0 and F are respectively the perturbations connected with the Fzk-' A Zsic magnetic system and the correcting magnets. In the first approximation thesel latter four quantities can be considered independent of v and z, in whiph case the .1 iregulation system resolves into two independent linear systems of automatic regula-1 ition in the variables x (radius) and z (vertical) respectively. The problem of an jautomatic regulation system consists in the following: to develop from the dis- !placements of the equilibrium orbit measured at a finite number of points correcting iactions such that the maximum displacements do not exceed a certain allowable amount,. Methods for the construction of a computer which are based upon approximate differ-!---- !entiation and harmonic analysis were described by A. A. Vasillyev and N. I. Kuzimin! l(HT-3561-60, RTI AN SSSR, 1961), The present report expounds in greater detail thei, ;considerations which are connected with the utilization of,the method of harmonic 2/4  L 22 7646 -- - --------- ACCESSION NR: AT5007957 ,,analysis. The deviations measured by electrostatic electrodes are the sum of the free and forced oscillations. To determine the perturbations of the magnetic field it is necessary to know only the forced oscillations; therefore the computer must isolate the forced part of the oscillations from.the free part. The calcula- tion of the spectrum of nonperiodic oscillations requires in principle infinite time. The time for the observation of a process should be sufficient to separate the forced and free betatron oscillations with given accuracy. Since a closed or- bit is periodic relative to the angular variable 0, it possesses a linear spectrum. The current sp9ctrum of free betatron oscillations (e) is determined by the formula 0 Se ((0) S f (0) e-J-0. dO 0 and passes to the usual spectrum in the limit 0 (Kharkevich, A. A.; Spek~ry i analiz, Moscow, Gostekhizdat, 1957). The rapid action of the auxiliary elements, including the correcting magnets, must be such as to ensure the stability of the regulation system and the effective suppression of all the real fluctuations in the magnetic field The main part of the perturbations in the magnetic field will be ~repeated from acceleration cycle to cycle; therefore, it is expedient also to pro- I vide for memory storage of the results of correcting the magnetic field during thd 1preceding cycles._,.Prig. art. has: 9 formulas. Card 3/4  L 2276-60-, !ACCESSIC'N NR: ATS007067 ASSOCIATIONt' Radiotekhnichaskiy inistitut AN SSSR (Radio Eln, ineering-Institutat AN SSSBI- SUBMITTED:., 26May64 ENCL-. 00 SUB CODE: NP. INO REF SOV: 004 ()THER: 001  AUTHOR-, Vasillyev, A. A. TITLE: . _JM_MffP_IITY_I`n`g Stage with a High Coefficient of Anr,lificat- ion (Usilitellnyy kaskad s bol'shim, koeffitsiyentom usileniya) PERIODICAL-. Pribory i Tekhniha Eksporimenta., 1958. Nr 2. 1) 106 (USSR) ABSTRACT: The amplifier stage shown in F%1 may have a -~onsid- erable coefficient of amplification greater than 1000) which may be sufficient for the construction of one --taZe amplifiers and integrators with negative feedback. This amplifier stage is a development of the "cascode" am~)li- fier recommended for circuits with low noise level. The large coefficient of amplification is obtained by tho, use of tubes L 1 and L.'2 which respectively have lar-er anode current and greater transconductance, and c" smaller anode current and transconductance than is the case in the cascode am7,)lifier. The small value of the anode current of the valve .~ 2 allows one -to use at Card 1/3  SOV/120-58-2-:2-1/37 An Amplifying Stage with a High Coefficient of Ampli-fica-tion. LD - a -iven value of the supply voltage a hif-Mr anode load Q Which together with the greater transconductance of U ensures a greater value of the coefficient of ampli- fication. A typical circuit giving all the component C3 U values is shown in Fig.2. Here the coefficient of ampii- fication is about 9000 with the anode load of 1 MeGoh~n and about 1100 for an anode load of ?5Ka . The frequency bands are 0-12 and 0.150 Kc/s respectively. The integrator works very reliably and sholas no tendency to self- oscillation L. N.. Matyushenko is thanked for his help. There Card 2/3  An Arnplifying- Sta,ge :.,ith a H'iSh Coefficient of are 2 figures, no IUables and 3 references, 2 of English and 1 Soviet. SUBMITTED: August 22, 195?. Card 3/3 1. Amplifiers--Development 2. Amplifiers--;Operation 3. Amplifiers--Performance  11 OOV-120-58-3-14/33 AUTHORS:VasilIyQy_,_-A----K_. and Grij;or'yev, I. I. TITLE: A IMulti -Channel Time Standard (_*NIno~;oIcanal'nyy datchil-, vremeni) PERIODICAL: Pribory i Tekhnika E':-Lsperii_-ienta, 19581 Nr 3, 0-,) 65-50 (USSR) ABSTRACT: The device was desiCned fov controlling tile periodically oy)oratin,., cquin-mont of a sync hrophao o tron. Vic cIrrj.(,a i.~; 3hown dian-ramatically in tile block sch-ematic of F;,L.1, !).'55. consists of a quartz oscillator operatin.- at 1.r3 mcls, aun electronic switch, two frequency dividers (giving a total division ratio of 1:160), five decade counters connected in cascade, a selector circuit (whose inputus are connected to the outputs of the decades) and a number of cathode followers. When a tri-Gerin- i)ulse is ao~-,lied to the I the si! J' 1rom the q- - el,Dctronic switch ~~lai uartz oscillator is a-o-)licd to the frequency dividors. A frequency of 10 c/s i-- A_'U-~-,ined at the output of the dividers. Tais wavefor-a is a-f.--lied to the five counting (1,~cades. The required out-put Card 1/3  ~ 'Ov-l~`-)-5' -3-14/33 I ll-~3 A "'!lIti-C"'la~ 'I T:, cl- t- 'u- of 100 :c1sl 10 1 100 10 the irmui-- OnC' t !X, Ti 11 - -L con-Asts of a X circuituj a catliode Lollo-~,,er, a ai~a aii ca*'-,~iude foilo-', erA itch is ir, Fi~~.2. Eaell counL-inc 5rUMO---~t co-r-s L -sts .; f 10 ri ~;-,mcc ted 0. ~l OUO tJVrc-i-'r0n s co-riductinc at a time ai,-!. 10 izidc,)cndeiL outlpu~:3. Dc, f~ij. lc('t circ ui ~dia,---r -.i Z:.~-e il~~ S',,Ovrn ii~ Fiu.5. A U!d'l -- C i !'C Ui tS :,, a r, iL[ i f o r;.-i c) f a c. 7) 1 n:-, -lavin,-,, 5 fecidin- i-n'U-r-) a circui U-e dc-cadi,--cl i i cl i oe r --, "I eI- h'Q-h-yi~-i.tron sciector circuit consi-,t--, of Card 2/3 .-ien'- 0- 1 -)I  SOV-1 20- -14- A T'. I,iD t VVa r ~:L 0 T1,10 L'~OL3it-11011 Of CaOL LILL~O .~,an 11-1c in Otops of 100 1-' S, 1 r.,31 10 _id's, 100 ao Jr I C T-~ al rs S. TI. Rubch!--:iy and F. A. V~;do.,- da.-~jv f arid 01:icussion , and 1". 1. I.-Tatyus"ienizo, and V. A. C r C 111,; SThe 2_rticie 5 f "Ur;3 3 3 - -- w,-.ich 4 are &-,ri (A anC~ E,- ,-I t~ ra, C a 3 1 -).L -D, I I __ SUBL'ITTED: Au,-,~-u3lt 7, 1957. 1. Synchrotrons--Control systems 2. Control systems-- Equipment 3. Title: Synchrophosetrons Card 3/3  22899 S/109/61/006/004/014/025 7/ E140/E135 AUTHORSi Mikatlyan, A..L. and vasillyev, A.A. TITLEt The interactions of atagnetostatic oscillations In a ferrite sample in the presence of regeneration. I. Interactions of simple oscillation modes PERIODICALI Radiotekhnika I elektronika, Vol. 6, No.4, 1961, pp.623-630 TEXT: The authors consider regeneration at microwave frequencies in a ferrite sphere. In the first part the inter- action of simple oscillation modes is investigated and the conditions for their excitation are found. In the second part the interaction of more complicated types of oscillations is considered, the possibility of which was negatived by Ya.A.Monosov (Ref.3: Radiotekhnika i elektronika, 196u, 5. 1-2. 59, 278). Finally, a general formula is derived for the generation threahold. The amplitude of the external field is determined which will generate oscillations. It was found that the critical values of the pumping field do not depend on the magnetisation of the ferrite. There are 4 figures, 1 table and 7 references: 4 Soviet Card 1/2  22899 The interactions of magnetostatic ... S/109/61/oo6/oo4/on/025 E14O/EI35 I and 3 English. SUBMITTED: April 21, 1960 Card 2/2  'M WMANg nearing Jun/JtLl 1946 Maninery - Ccnatruction Road Building Machinery "Let Us Incorease the Mobility of Road-ccnatruetion Teah~lques," Maj A. A. Vasillyev, Rngr, Teelmloal Ad- nUistration of MOM, 31 PP Stroitellstve No 6/7 Skah of the success of the Soviet Army In 'World 'War n,v;aa due to the exoellent vcrk accomplished by ,those echelons vhIch vere charged vith maintaining ,rftds at peak operational efficiency. CouBtructim nwhInery had to be very mobile. Discusses transport atfacbments for road-constructim machinery, trans- YX , 38TJTL IM/ragineering (ConLd) Jun,/Jul 1946 of road-o-onstruction machinery by trucks~ special attachments permitting autmobile transpmrt of ioad-cmistruotion machinery, and placing of road- a,matMetion equipuent, on trucks. !~7  VASIL#Ylff, A.A. Machines for preparatory work In road coAstruction. Mekh.atrol. 4 uo-5:9-12 My 147. (KLRA 9.12) I.Tekhnicheakoye upravlonlya Hinstroydormash. (Road machinery)  Ugffi/ftiniez;lng May 48 Roadbuilding Machinery Road Scraper *New Series Road Machines," A. A. Veoillyev, ftgr, 3 pp "Nakh Stroi" No Describes read machines recently put Into pro- dubtion in factories of Ministry of Construction sad Road Magineering, including leveller, and snowplow. Includes photographs and diagrams. PA 2A9T26  1. VASIL 'VA., A. A. 2. USSR (600) Technology 7. Roadbuilding machines. Yanual. Borodachev, 1. P. Pod red. A.A. Vasill3waj Moskva, Mashgiz, 1951 9. Monthly List ~jf Russian Accessions, Library of congress,February -1953, Uncl.  --- VASILYEV, A.A. "Soviet Track with Heat Storage for Road Repairs4. (Trausl.; Mekh"izaclya Stro7itelstva, No. 10, 1951). SO: *C1111 &9ineering Rellew", Vol, 11, 12-7, JulY 1952 (Hangary).  ANOXHIN,A.I., doktor tekhnicheakikh nauk,prof.[deceAsed]; BCRCDACHBV,I.P. kaud. tekhnicheakikh nauk; BROHMG, professor; VASILITYTIV~, laureat Stalinskoy premii; PETARS, kandidar te c 0-4 kh nank; PUMIN-NIKITIN,S.M., kandidat tekhnicheskikh nauk; PRUSSAK.B.N., Inshener; RITOV,M.N., inshener; PEYNMMG,G.M.. inzhener; ISTRIN, M.I.. inzhener; AIMRM A.P., inzhener; BIRULYA,A.K., professoro dokbor tekhnicheskikh nan Ik; 13OLDAKOV,Ye.V., doktor tekhnicheakikh nauk;BOCHIN,V.A., laureat Stalinskoy premii,inzheuer; VOIKOV,K.I., professor; GIBSHMAN.Ye.Ye.. professor, doktor,technicheakikh nauk; DCKCHKNKO,V.G., doteent, kandidat tekhnicheskikh nauk; 2HURAVW A.Ta., laureat Stalinskoy premii; IVANOV,N.N., laureat Stalinskikh premii. professor, doktor tekhnicheskikh nauk; KUVAS(N,A.S., iuzhener; IMASOT, Y.R., kandidat tekhnicheakikh nauk; POLOSIN-NNITIN,S.M., dotsent, kan- didat tekhnicheskikh nauk; XHLXBNIKM#-Te.L., laureat Stalinskoy premi 'i, professor; CRNATSKIY,N.V., doktor technicheskikh unuk, professor. redak- tor; VOSKRBSEMSKIY,N.N., redaktor; KOVALIKHINA,N.F., tekhnicheskiy redak- tor [Manual for highway engineers-, road building machinery] Spravochnik inshenera doroshniks; dorozhno-stroltellnye mashiny. Moskva, Izd- vo dorozhno-tekhn. lit-ry. Gushosdora MVD SSSR, 1952. 698 p. [Microfilm] (MIRA 9:2) (Road machinery)  VASIL)YEV, A.A. Roads Technical progress in road building. Makh.stroi. 9, No. 3p 1952. 2 9. Monthl List of Russian Accessions, Library of Congress, June -1951, Uncl.  VASILITM, A.A.. inzhener, laureat Stulinskoy premii. Decreasing the weight of building and road machinery. Xeich.strol. 10 no.8: 6-9 Ag '53. (XLRA 6:8) (Building machinery) (Road machinery)  VASIL'YEV, A.A., inzhener, laureat Stalinskoy premii; IVANOV, V.A., inzhener. ~~ . . .v - Testing new earthmoving machines. Nekh.stroi. 10 no.12:3-9 D '53. (MMU 6: 11 ) (Sarthmoving machinery) (Tractors)  VASILITIV. A.A.I.SURGUCHIV, G.A., laureat Stalinskoy preall, inshener, nzent; NOVIKOV, M.A., inzhener, reteensent; LETINKO, V.A., kandidat skonomichaskikh na7ak, redaktor [Training qualified workers in machine building plants] Podgoto-rk& kialifitstrovannykh kadrov n& mashinostroitelinon savods. Moskva~ Gog. nauchno-tekhn. Lzd-vo mashinostroit. I sudostrolt. lit-ry, 1954. 115 p. (MM 70) (Imployees, Training of) (Technical education)  USIL'YET, A.A. Changing the design of Intake and delivery valves of air compressors. Energ.biul. no.6:32-3 of cover.Je 154. WHA 7:6) (Air compressors)  USSR/Engineeripg--ponstruction Card 1/1. Author s Vasillev, A. A., Laureate of the btalin p.-ize Title t Mechanization of building work in agriculture Periodical s Mekh. Stroi. n/2, 3-10, February 1954 Abstract s The Government is intent on-cultivating more waste land. This requires the-building-, of housesp scholls, clubs and farm struc- turcay an well an dolng ex"vation worko The D-267A ditch digger is used with the C-90 tractor to finish large ditches after the bulldozer has done the preliminary work. This digger has no mov- ing parts but operates like a plow) making ditches with a 450 slope. The D-20B grader may be uaed for clearing away bushes. For digging narrow and deep ditches the ET-121 excavator is used* This machine works with strong iran buckets on an endless chain. These buck6ts are provided with pronp-like edgea. For removing large stones a tractor with a crane mounted on it is used. Halftone illustrations. Institution S Submitted, S  VASIL'YEV, A.A., inzhener, laureat Stalinskoy premil. Organize the technical maintenance service of construction machinery. Makh.stroi. 11 no.12-.11-14 D '54. (MLRA 8:1) (Izeavating machinery--Maintenance and repair)  VASIL'YEV, A..A,.,-Inzhener, laureat Stalinskoy premli; GRITSEVETS, I.I., I...... 11-~ ... 11~; nor, laureat Stalinskoy premil. The T-183 sand and gravel unloader. Mekh.strot. 11 no.12:29-31 D '54. (MLRA 8:1) (Loading and unloading)  VASILIYKV,A.; ZAPASBOY,A.; IL'INSKIY,Ye., PAKUSHIN,V.; SHNVCHUK,S. Business accounting for highvay-operntion sections. Avt.dor.17 nc.1:6 Jl-Ag'54. (MLRA 8:10) (Roads--Estimates and costs)  ANDROSOV, Andrey- Aleksandrovich, inzhener; V.SILITV, Aleksandr Alekoandro- vich.. laureat Stalinskoy premil; GADZETi, inzhener; KOZUNSKIY, Boris Aleksandrovich, kandidat takhnicheakikh nauk;SURTS Ariy Zellmanovich. in2hener; TOVSTOLUZHSKIY,N.I., re- daktor; BROMBM.AA., redaktor~, JEOGAN,F.L., tekhnicheskiy redaktor [Concrete, asphalt concrete and rock crushing plants for road construc- tion; designs and standard iquipment] Betonnye, asfal'tobetonnye i kamnedrobilln.ve na dorozhnom stroitel'stve; proektnye reshenils, I tipovoe oborudovnnie. Moskva, Hauchno-tekhn. izd-vo avtotransport- noi lit-ry. Pt.2. [Asphalt plants and bituminous bases] Asfallto- betonnye zavody i bitumnye bazy, 1955. 123 P. (KLBA 9:2) (Asphalt concrete) (Roads)  ANISIMOVA,V.N.. inshener; TARASOV,Y.A., inshener; YOSIOMMSKIY,N.N., Inshener, rodaktor; VASILOYSV,A.A., inzhener, IF=reat StalInskoy premii, retmenzent; fl=V'fX'I'.7t'ekhnicheskiy redaktor [Motor road rollers] Dorozhnve motornye katki. Moskva, Goa. mauchno-takhn.izd-vo mashino-stroltallnoi lit-ry, 1955-139 P- (Rollers (Rarthwork)) (mn 9: 1)  Vft5(L'Y6'V,- Fi-n. ARISIMOV,A.P., inzhener; KASSATSM,M.S., inshener, redaktor; VASPIJIV, A&A retsenzent laureat Stalinskoy premii inzhener; UVAROVA,A.1-0-O' .4~k takhnicheekiy redaktor [One-bucket excavators] Odnokovshovye skskavatory. Moskva, Goo. nauchno-tekhn.izd-vo mashinostroitellnoi lit-ry, 1955, 194 p. (Excavating machineu) (MLRA 9:2)  VASIL'YEV, A.A., laureat Stalinskoy promii, inzhener, redakzor; BORO- -9 P., kandidat tekhnichaskilth nauk; PRUSSAK,B.N. inzhener; URUSOV, 1I.M., Inzhener; ITSMONT, A.Y., inzbener; YAROSHHV, D.M., kandidat tekhnicheskikh nauk-, NIKIROVSKIY. 3.I. inshener, retsensent: PETROV, G.I., inshener, redaktor; PICSTRYAKOV, A.I., Inzhener. redaktor; POPOVA, S.M., tekhnichsakiy redaktor. [Road building machineryl DoroshnostroitelIrWe mashiyW; spravoch- n1k. 2-os perer. i dop.lzd. Mookva, Goo.nauchno-tekhn.izd-vo mashinnstroit.lit-ry, 1955. 832 p. (MLRA 8:10) (Road machinery)  JASILIYEV, A.Ae, inzhener, laureat Stalinsk~py premii; GRITSMTS, I.I., Tff9tWftr,-: laureat Stalinskoy premli. The IM-503 multi-shovel excavator for lateral digging. Mekh.strol.' 12 no-3:25-28 Mr 155. (MLRA 8:4) (Excavating machinery)  ,VASILITtV, A.A., titzhener. TM B-285 lubrication service truck. Stroi. i dor. mashinostr. no-2:10-12 7 157. (MLRk 10:3) (Road machinery-44aintenance ani repair) (Lubrication and lubricants  'Aj I .- - - \' 1- -1 " -- 1, I - i Vk~ IL ' I' -- --A.A. , n'.;; ; , Ai. b .'- . ~,., :~,At crim-phctl,.g Ltro-,, i -)r.jashtnostr. 2 no.3.*11-18 A,- '57. (MIRA 10:9) t 'k!'zillers (Fjjrthwork))  V C~ / I / ~ I I .-/ 11-/ i, .- --:, V --,/ , "7z-, .-) / /- ~ c VASILITZ7, A.A., Inzhener. -- Road-machintry Industry during the years of the Soviet regime. Stroi. i aor.mashinostr. 2 no.10:27-32 0 157. (MIRA 10;11) (Road machinery industry-History)  VASILIYBV, A.A, Increasing the maximm depth of pipeline trenching performed by a bu6mt excavator. Rats. i izobr. predl. v stroi. no.3.'120 157. (Pipelines) (Bxcavation) (Knu 11:1)  VASILIYEV, I.A., inzh. Machines for comolex mechanization of road construction using the method of stabillzation and mixing. Strol. i dor.mashinostr. 3 no.3:10-14 Mr 158. (MIRA 11:1) (Road machinery)  VASILIYEV. A.A., inzh. road msdbin*z7 industr7 4uring next years. Stroi. i dor. mosbinostr. 3 no. 6:20-26 Je 10. (HIRA 11--7) (Road machinery)  "t--; ~- - 'I ; -- VISILIYEV, A. _,_ Forgotten questions. Sov.profsOiU27 5 no.12:50-52 0 15?. (KNU 10: 11) (Bezhitea--Machinery industry)  VASILIYHV. A. Determining the professional standards of machine-construction workers, Sots.trud n0,3:39-52 Ve '58- (NM 13:3) (Machinery industry) (Job analysis)  VASILITEv. A.A., inzh. Ixeavators, loaderst and road mgchinaz7 wounted on truck-tractors. Makh. s~rol. 15 ne.11:9-14 N 158-- (KIU U: 22) (motertrucks)  Vj c-" PHASE I BOOK EXPLOITATION Sov/3472 kkademiya nauk SSSR. Institut mashinovedeniya Problemy prochnosti v mashinostroyenii, vyp. 4 (Strength Problems in Mechanical Engineering, No. 4) Moscow, Izd-vo AN SSSRI 1959. 122 p. Errata slip inserted. 2,300 copies printed. Ed.: N.I. Prigorovskiy, Doctor of Technical Scienceso Professor; Ed. of Publishing House: G.B. Gorshkov; Tech. Ed.: Yu.Vb Rylina; Editorial Board: S.V. Serensen, Academician, USSR (Chairman), F.M. Dimentberg, Doctor of Technical Sciences, V.O. Kononenko, Doctor of Technical Sciences,S.V. Pinegin, Doctor of Technical Sciences, Professor, D.N. Reshetov, Doctor of Technical Sciences, Professor,, G.V. Uzhik,, Doctor of Technical Sciences, Professor, and R.M. Shneyderovich, Candidate of Technical Sciences. PURPOSE: This collection of.articles is intended for scientists and engineers concerned with plastic deformation. COVERAGE: This collection of 6 articles by'different authors gives the results of investigations carried out by the Institut mashino- Card 1A  Strength Problems (Cont.) SOV/3472 vedeniya AN SSSR ( Institute of Machine Science, Academy of Sciences, USSR). The foreword was written by N,1. Frigorovsikiy, Professor, Doctor of Technical Sciences, editor of the collection. The collection of articles is the second of a series and discusses the problem of tensile and compressive stresses, elasticity, deformations under loading, and the calculation and analysis of stresses. The authors emphasize advanced methods of analysis and report on ex- perimental results. References follow each article. TABLE OF CONTENTS: Foreword 3 Shneyderovich, R.M. (Candidate of Technical Sciences]. Elastic and Plastic Deformations of Beam and Frame Constructions 5 The method described is based on variable parameters of plasticity. Rods, beams, and frames are discussed. Shishorina, 0.1. Experimental Verification of the Superposition Method for Solving Stress Concentration Problems 47 Card 2/3  Strength Problems (Cont.) SOV/3472 Leykin, A.S. Stress Concentration in Fillets in Stepped Axial- Symmetric Shafts Under Bending and Torsional Stresses 61 Yagillyey,,,_~&.. Stresses in the Blade of a Hydraulic Adjustable- Blade Turbine 87 Ugodehikov, A.G. Stress Concentrations in Tightly-Fitted Parts 100 Khurshudov, G.Kh. Stresses in Plate-Shaped Frames Connected by Crosebars AVAILABLE: Library of Congress AC/ b Card 3/3 7-27-90  VASIj..1 UY i inzh.; KAHUYLOYj T~L.G., inzh.;-PMJ33AX. B.N., inzh.; wi2~OVJCH. S.T.j in$fi.; NECHS-TOY, G;P., in;h., retsenzent; IMINSHWO K.N., inzh,, red.; UVAROTA, A.F., tekhn.red. [Construction and road machinery in agriculture] StroitelInys i dorozhnys mashiny v.isallskom khoziaistve. Koskva, Goo. nauchno-takhn.izd-vo mashinostroit.lit-rys 1959. 390 P. (KIRA 12:8) (Agricultural machinery) (Building machinery) (Road machinery)  VASIL' MW, A.A., inzh. Testing universal loading bulldozers. Stroi. i dor.mashinostr. 4 no.2:9-13 F 159. (MIRA 12:2) (Zarthmoving machinery)  VASIL'YEV, A.A., inzh. Machines needed for completing over-all mechanization of road construction. Avt/.dor. 22 no-3:10-12 Mr '59- (MIRA 12:4) (Road machinery)  VASILITFV AAA._~Lnzh. Machines used to complete the over-all mechanization of road construction. Avtodor. 22 no*4;17-19 AP '59- (MMA 12:6) (Road machinery)  VASILITET, A .; pLEsHKOY, D.I.; PRUSSM, B.N.; SIZOV, G.I., inzh., , --l" -~; I -.A teenzent; CHANGLI, I.I., inzh., red.; NIKITIN, A.G., red.izd-va; SKIRNOTA, Moo tekhn.red, [Road machinery] Doroxhno-stroitellnye mashiny. Red.serii ORashinostroanis v 1939-1965 gg.'s I.I.Chungli. Moskva, Goa. nauchno-takhn.izd-vo mashinostroit.lit-ry, 1960. 121 p. (Sovetskoe mashinostroenle v 1959-1965 ggt) (MIRA 13:8) (Road machinery)  BROVMAH, Ya.V., inzh.; KHANIN. A.M., inzh.; -VkSILIYW.,, A.A.. inzh.; SHUYMAII. L.I.;: POPOV, A.A.; KALINIIII, M D. Results of testing new boring bits. Shakht. stroi. 4 no. 6.,B- 12 Je 160. (MIRA 13:11) 1. Kombinat Stalinshakhtostroy (for Brovman, Khanin). 2. Trest Stalinshakhtostroy (for Vasillyev). 3. Ukrainski.V nauchho-iseledovatellskiy institut organizataii i mekhanizataii shakhtnogo strottellstva (for Shrayman, Popov, Kalinina). (Boring machinery)  ~".- TASILIYXV, A.A., inzh.; YZVMKIMOVA, V.P., inzh. - .... ... - . . - Xxperimental use of prestressed steel beams. Prom, stroi. 38 no.10: 12-14 16o. (MDU 13:9) (Girders) (Steel, Structural)  VASILIYXV, A.A., inzh.; IMIROVSKIY, F.I., inzh. lot Is design standard wheeled self-propelled buil1ing and road machinery. Stroi i dor. msahinostr. 5,no.12:3-11 D 160; (Building ~chineu) (Road machinery) (KIRA 13:11) 1  VASILIYLIV2 A.A. (Moskva) Optimm parameters of steel girders with single prestreaBing, Stroi. (KTRA 14; mekh. i rasch. soor. 3 no.lsl*7-51 161, .2) (Girders) (Strains sad stresses)  -VASJ~-I YEV; _4.-,-inzh. _A~ New road construction machinery. Stroi. i dor. mash. 6 no.3:3-,9 Mr 161. (MIA 14:4) (Road machinery)  VASIL'YEV, A.A., inzli. Ilow types of road machinery. Stroi. i dor. mash, 7 no.5.3-7 My 162. (KIRA 15: 5) (Road machinery)  VASILIM, A.A., inzh. Itchines made of standardized units. Mjekh.strai. 19 3 of cover N 162. (Road machinery) no.11:5-8,, (IMIRA 15:11)  VASILIYEV. A.A.. inzh. Power shovels used In construction and prospects for their devel- I f opment. Stroi. I dor mash. 7 no.6:1-4 Js 62. (MA 15:7) (Power shovels)  YEVNEVICH, Anton Vladislavovichp kand. tekhr,. nauk; VAYNSON, A.A., kand. tekbn. nauk,, retsenzent; TARASENKO, M.S., inzh., reteenzent; VASILIYZV A j I !.!J A _Inzh., red.; USPENSMY, K.G., red. izd-va,--Ct=UTOVA,-Z-.-T.-*j tekhn. red. (Hoisting and conveying machinery at building materWs plants]Gruzopod"enWe i transportiruiushchie mashiny na zavodakh stroitellnykh materialov. lzd.3.p perer. Mo- skva 14ashgizo 1962. 351 P- (KIRA 15:8) building materials industry) (Hoisting machinery) (Conveying machinery)  VASILIYEV, A.A., inzh. New machinery for laying road foundations and surfaces. Avt. dor. 27 no. 3:25-27 Mr 164, (MIRA 17:5)  t? 9 11 IS IF W in I 1 1 A it --AL - 0 A N lot to Olt s alroprootitothyder tan bionayl and tother. ' A_A_.V&*;sw Steow-KowAsk 1043, So. -5, L-V.- Fbc 'r~ l d i 0 program ronooo or deve ng a ulathod Inc the wPn. in op urr condition oul sth r ll I "h d bi i th d i 66 or e an v ran, e roo p . y Well Jonoteld by sk. dolcumins. is frgoserted To rrmoole . W*b dr 114 W ratt blYINY) Was W1114111,041 0 Sk?. Of 1111141`11 " , 1 -0.0 with 1061 .. Clealmstawbivislyllvalow"lordemutrr- 1 0 5 .00 "1 1 1 with 11to. Complete ro-tomill of okkhyik- wAj I d i " b M -00 0 tol ca uituati e In hoith came. Too torp. oil y r.lort h r1her hrde Intel. (2:1) It was wethlon! 4 i1mrs with 04110 a /euljocd. NaCl win.; 9Vc, of the ustal aldritylle was "I. zoo 00 j with an 0.8rd lools In ether. The dats obtainvil in thew 000 nitts. were used to work out a wherne I th k a. '14 a " ' ti Co 6 fraciials condeneing below 73 ; the fr acti ; pit ~P 'I,. 1 d zoo 00 00 ~wstrboons 35%. ether 26 hy ;. toldrhydor V. 11A) SAK &k. 8.0%) im wasilled with Hot) (1;1(, 4 tint") - 1* 1 L 7 goo top ywr (imcolutoleive 10%, ether 12 :;. al-lothydoe 1 -5 0. " W h h I t di l clog 00 00 41, was w water w t sti . - fractim 75-115 o (air. 44%, HF0 37,79, sidehyde W11%. ether 1.5%) whkh ' - so 0 gum to alic. nvuvm, and a fractitm below 75 which is 1400 00 washed with concd. N&CI tonho. (1:0. 2 tintrol) - walob brine son to &Wbyde remyrtry by diAtn. virlifing 1171, shich de and Ihe u rr la w r) I, er (r th 400 a e e . y y ep 1 itiving other with 19% aldrhyde which by Imiling with Vields ellIvr owill; 0'11W~ 1 p I, Its$ Wrtri I y 4 "' u 0 At in As t I I V-W 4 It 41111 I 1 a TH ~i i i 6i 0 0 " 0 a 0 0 o 0 0 0 C o 0 SO 0 0 t 111 to OF a o a 0 a 0 0 0 0 0 0 0 0 0 * 0 v 0 0 a 0 0 1 0 0 411 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 o 0 0 01, 0 0 0 0 0 0 0