SCIENTIFIC ABSTRACT ZHELNIN, V. - ZHELOKHOVTSEVA, N.N.

2 I  1 , " , f W - 1 1 11 ffltz I 11-11111M ~ IF ~ I I I I lift "'Wil ltli~, i V ~ I ~l .; A:- f W , Hl   I - ---- ~ I---------------------- , --- - -- - -- 111 ii.   ,f 'I. 1~ ;, ,I 1 4; i ; ; t I i A  ,h f II! I ~~ I1111-1 '. 5 ~ %s ', All ~i i;iI I ~ r, -  TV ACC_-NR,-AP"2_8334- ---------.------SOURCE CODEI OW652/'Q'~ _U R/ 0 2 9-3 66 00 4/ AUTHORt Shilov, A, A j Zhelnin.-Yu N !~~ ~oj ORG t none TITLEs ~.MnimLzation of the ultimate deceleration of a vehicl-9 in an atmosphere SOURCEs. KosmLcheskLye.issledovanLya, ve.4,, no. 40 1966, 552-537 TOPIC TAGSt atmospheric antry,~ I control, space- c*~ deceleration CLZ AS TRAM The problem of.selecting the,vertLcal component of t1he aerodynamee ILftin� force which minimizes the allowable deceleration oft "te space veritcle during atmospheric planetary entry is analyzed, The equations of-motLon.of the vehicle in the atmosphere are written to include the condition that the drag coefficient C a const and an expression is established for the axial deceleration component n. an a function of the aerodynamic lifting parameter R(X). For gIven flight parameters at the initial and-.termLnal points, the function K(x)p with constraLuts of the form, RmLn~4 K(X) 4 Kmax# Card 1/2~"' UDCs 62-592t629,13(203) 4  -~ -~Ilffq  11", 1' : M ~ !I I ; - . , : 11      ACC Ms. AP6013261 SOURCE CODE: UR/0413/66/000/0081050/0050 -INVENTOR: Krikorov, V. Blinov, G. A. Zhelninskiy, V. D. Kokin, V. Markax~yants, E. A. ORG: none TITLE: ~M e.hod of preparing dielectric films. Class 21, No. 180701 :SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarn.Ve znak%:no. 8, 1966, 50 TOPIC TAGS; dielectric material., silicon dioxide, lanthanum, vaporization A:PSTRACT: A icate has been issued for a powder spray m n Author Certiff ethod of preparing dielectric films on a siliconlioxide base in a vacuum chamber. TodecreagIwe the temperature of vaporization of silicon dioxide without damaging any properties of the dielectric film, a mixture of silicon dioxide and lanthanum, -taken in equipolar quantities, to used. [Translation) [NT) SUB CODE: 1 ~/J/SUBM DATE: 04May65/ UDC: 621. 319, 4. 002. 2 Card 1/1  ACC-NN - AR6029 300= - ------------SOURCE- CODE:-- --UR/0271166/000/006/BO46/BO46 ~AUTHOR: Yesijenko, V. D.; Savis'ko, P. A.; Gul'ko, I. F.; Zhelnitskiy, A. I. TITLE: Some results of experiments with electroluminescent data display systems SOURCE., Ref. zho Avtomatika,-,telemekhanika i VY'chisliteltnaya tekhnika, Abe. 6B348 REF SOURCE: Sb. Fizi-tekhnol. vopnkibernet. Seminar. Vyp. 1. Kiyev, 1965, 55-75 TOPIC TAGS: electric devicet' data readout, real time data display ABSTRACT: The merits of this type of data display are noted. Parametrons are used in the control circuit of,the data display unit. On.the basis of the experimental re- sults obtained the following conclusio'ns.-are made: 1) such a display unit can operate successfully at an excitation frequency up to 10 kc, 2) an increase in the frequency mnkes it possible to reduce the electric field strength in order to obtain the same brigiatness, 3) with an increase.in the frequency the brightness sensitivity to supply voltage also increases, 4) a sharp decrease in brightness in the initial periods of operation requires a preliminary conditioning of the display units, and 5) under con- ditions of constant brightness the operation,of thq display unitu'la considered opt#um. [Translation of abstract] 10 illustrations and bibliography of 9 titles. At Fe r SUB,CODE: ~09 Card UDC2 661,142.fi23  3/356/61/040/001/018/037 B102/B204 AUTHORt m TITLEt E'iesioWinto' vacuum of Cherenkov radiation produced on longitudinal wavesin amedium PERIODICAL i 'Zhurnal eksperimentalinoy i teoreticheskoy fiziki, v. 40, no. il i961t 170-1,77 TEXTt~ If fast-charged,partiolea-move in-a medium with spatial dispersion, longitudinal waves (plismons) are~produced; the discreet particle energy loss6s,occur in the form of Cherenkov radiation of longitudinal waves. The emission of,this radiation into a vacuum is of intereatt because it has a 2 very narrow spectrum near the plasma frequency Wl- - One Im (nfelm, 0 densit', d m), and may be u charge and mass of electrons in the me iu sed both for,the production of-radio, waves in the plasma and for the production of infrared and ultraviolet rays in the dielectric* Whereas the Cherenkov radiation on transverse waves,aotually occurs at relativistic particle velocitiesp"it occurs in longitudinal waves at much lower velocities (it is o:nly necessary:that the particle velocity exceed the mean velocity of Card 1/5  S/056/61/040/001/018/037 Emission into vacuum of,Cherenkov.... B102/B204 ~thermal:eleotrons)- The probleia'of-studying this Cherenkov radiation, which the author hasset~himselfj must take the following peculiarities -into aooounti 'Pirstj a.transi,tion radiation occurs during passage,through -the bo.undary--of the medium,'- which cannot:be,distinguished from Cherenkov radiation:,at larger distanoee,~andj_secondlyj taking account of spatial necessitated setting up an additional boundary condition because ,of. the,appearanoe,of.a new solution of the.Maxwell equations. As to this ''additional boundary condition,,oertain assumptions must be made in order .'to.be able to formulate mathematically thexadiation field occurring in the tiansition,of a medium into the'vacuum. With respect to the transition radiati 'ong G. U., Oaribyan was able to show that its effect is of importance only -for ultrarelativistio,velooities.' To set up the boundary conditions, the following-assumptions muet~be mades the electron moves perpendicular to y,,it6,energy los (due to radiation pr wardthe boundar see oduotion) are negligibly small oompared.to its kinetic energy and t_ke effect of the spatial dtapersion is'assumed to,,be characterized by (L+90, 6 to +ir, wh6re.S :C~' thir-parameter characterizing spatial dispersion$ the Laplace operator., The field of.the moving.eleotjon is considered to be the sum 0f.:,& longitudinal and a transverse (Z) field, with div 7 0. Card 2/5  -7-7- at -77 ...... j/0-i 6/07 1/640/00- t 0 ore vao" 4 0292 4 h 0lem: 8,-00,ved';~ n`-the n ioated V. Oifiziburg a d manner, as-. i d n T by k '_aocioiding~-U For t 6 ia ~ component of the'radia-.-1 F ran i:,, v- Gaiib h rad I 'i' 6~'usie-!m-anne -is th n 4 one-'Atti th r- as 9 oase with.' aribya 00 -1(*) 04,11 do j!_ X1, ij, inn -,p (M) O(OR dx. sin +iXjcdsO, 61A + + 6Alk 25 cdji4 SX I ICA X Odle x v v 5 I jul  /056161104010011918103T Emi a i ion 4nt 9 vacuum B102/,H04 tT w: 'R is""Ih'e*Aietanoej th #t '.of. eleotr' h a' is'ion' to the point,. rom q ~-pa 0 m a -,,o rv he an e'...bo, woen:~R-~-arjd~ theIz-a sides the pole ati6ni -:9 t gi xis Bi, 6'siu~diid" by. Garibyan the" _F(Y ,function' ),has another o19, P. d et.6r miz 2 ~,.j.?/v2y~.- -it dioa"here Th n 'I; ied -b i*hi 6 h. 16'. u e orma aAed iri, the.-d ame iianneri- For,the.total radiation in 7 Y CC ho ,T, V'n 4 eldu UO ( SO) xq 1�(,xl - )) . ),0 - 'tin 1~ v14)_ - MO P~, 771 J, The _`:radi`it'i'6iv, hil an '-fro uenqy.:O;propa9atob :at the gle (~3) -in the' d. ofthc q d the rootio -.,Of -ol0qtrqn,#',For,~,,the angle eln~(~) 0 w /v absorbihgmedium' _the.-angular dist#,bution of this ? 17  S/056J61/040/001/018/037 Emission into vacuum of Oherenkov,.-.. B102/B204 W radiation may be determined by the 1a of reflection and the Cherenkov condition alone. The.main,oontribution to the transition radiation is made'-by Cherenkov radiation on-longitudinal waves produced in the medium near.the interface over a distance of the.order of a wavelength. At larger distances from the interface, this part of the Cherenkov radiation, which occurs-as a s.pherical wave, remains restricted to a narrow frequency range tj The author thanks V. L. Pokrovskiy, S. K. Savvinykh, A. R Kazants" -neaz 09 At'.M. Dykhne and 1. As Gilinakiy for discussions. A. 1. Larkin Is mentioned. ~There are 8 references, 7 Soviet-bloo and 1 non-Boviet-bloo. 'ASSOCIATION: Institui,radiofiziki.i elektroniki Sibirskogo,otdeleniya Akademii! nauk SSSR (Institute of Radiophysics and Electronics of the Siberian Department of the Academy of Sciences USSR) SUBMITTEDt June 28j. 1960 Card 5/5  .... ... ....  IF llt; ii-T  .V-4 , 5 , ; 1 1 1 ~ , .~ :a ]EIR I F H ii. 111 11,11li 11ifil4lb" :`  WG -ACC ME- ~-AF6018868 SOURCE 66z: - WOO3616616501001329313295 AUMOH. Zh I iq~oy) ~B~ L.; Kazantady, A. Ps; Smirnov;- Y, S. ORG:' Institute of Physics of Semiconductors) Siberian R!p!ftvWnt., Aced of Sciences SSSR (Institut, fiziki puluprovodnikov flibfiieRB "odelenlys AkeAemli nauk WSH) TITLE: . Wave interaction in a gas laser SGMCE: Zh eksper i teor fizj vo 50 no. 5., 1966,# Ml-1295 TOPIC.TAGS::'gas laser, laser beam, laser propagation, traveling,wave interactions frequency locking ABSTRACT: The authors considerthe interaction between waves traveling in opposite directions in a gas laser with a ring resonator, brought about aither by the non- linearity of the medium or by the coupling between waves as they are reflected from the mirrors. A phenomenological formula describing the latter coupling is derived and is introduced into the equations of motion for the wave amplitudes and the phases in a rotating coordinate system. The solution of these equations is-useA todescribe frequency locking effects and suppression of one of the traveling waves. It is shown that under standard gao-laser conditions frequency locking takes place within a band of!s6Veial-hundte'd-cps if the coupling coefficient between tho reflected waves is of -bid4ii-of -10j-'3- The degree of suppression of one of the waves, increases mono- thi tonically but not uniformly with the relative detuning. The authors thank yu, IVo Troitskiy for a useful discussion. Orig. aft. had: 2 figures and 24 formus. , (02J 20/ Sum DATE: o4Nov65/ om mw: oo5/ 02H REFS 003/ATD PRESS: 6rd  ~'. I 14E.; ~- ~!. H  L 979G2:M EWA(h)tE-WT(1) ACC NR, AP6005297 (A] SOURCE CODE: Ukro-4-1'3-7-6VFoUTWoi766!il76o3bI -_.1:0RGJ TITIX., A filter for high quency bypass of supply feeders In electric transmissloin, networks, Class 21, No. 177466 "SOURCE: Izabretenlya, promyshlennyye obraztsy, tovarnyye xnaki, no. 1, 1966, 37 TOPIC TAGS: electric power transmission, electric filter, filter circuit ABSTRACT: This Author's Certificate Introduces a filter fca, high-frequency bypass of supply feeders In electric transmission networks, particularly In the contact Pat- works of electric transportation systems. The unit contains distributed inductances for sections of the network and Lumped capacitances tuned to the high-frequency s1g- nal. In order to reduce the effect of changes in the load on the supply feeder. sup- press interference and simplify the entire installation, the filter is made in the form of a four-terminal electric bridge with arms which are sections of the contact network on both sides of the point where the supply feeder is connected together with the tuned capacitors. The capacitors are connected between the ends of the network section with zero potential. A bypass capacitor is connected in coo diagenal of the bridge between the feeder connection point and the zero potential, and a bypass wire UDCi 621.31S.052.66 1/2 621.372.543.3  L 27985-66 ACC NRj AP6005297 ~j 40 :Ubatation 0 I and 2--oonnecting filters; 3 and 4- tuning capacitors; 5--feeder cable; 6-- power wire of the feeder cable; 7--zero potential point; 8--by-pass capacitor; 9--contact wire; 10--bypass wire. twice as lo,ig as the sections of the network In one of the arms of the bridge Is con- nected in the other diagonal. SUB CODE., 09/ SUBM DATE: 29Dec64 Card 2/2  "i .!il    ljs~R/ v I A. L Pub. Auth=a t 231el=v, OQMAF cn Lon rk r 7-7 Submitted  S/10 60/000/05/018/047 Y 13oo6 D04T Zhelnov,.77. tUPS) (P6 a): TITLE.... An SSB Phase Exciter for Operation on 14 and 21 Me :-PERIODIOALt, Radiot 1960~t Nr 54: n 17 21 (USSR) ABSTRACTs The exciter Is designed for operation on one side band . with a suppresse(I.6arrier on 14 and 21 Moo The single- bandbeignalis formed according to the phasie-compens- ation method described in an article by A. Somenov and . ..V. Verzunov in Radio",, 1958f nr 6. rig. I in a block, diagram of the devioe.~ The 1-f amplifier comprises a 6N2P double triode, the quartz generator - a 6Zh3P tubep the-balance.,modulators - 6NlP.tubes, the third balance modulator,- 6A2P tubes', the terminating stage - a G-807 tube# the master oscillator .- a 6Zh1P tubeg the buffer .stage - a 6Zh5P tube*' BLP resistors and KSOG capacitors '-Card 1/2 j. are.also.use.d. RK-50 coaxial cable connects the exciter -z:- 71 1    -: -,J)EGTYAR]Wf- Jqip.  06188 9. (2) SOV/115-159-11-16/36 .-AUTHOR: Zhelnov,- VOG. TITLE: Checking Capacitance Measures by:Means of an Electro- nic Digital Irstrument PERIODICAL-. Izmer -43 itelnaya tekhnika, 1959, Nr Ili Pp 40 ABSTRACT: Frequently alpercentage sorting of a large-number of capacitors 'of'different.ratings is required with a high degree of a6curacy - 0.27o and higher, The exi- sting industrial capacitance measuring instrumentat either do not provide such an accuracy, or they requi- re a considerableamount of time for performing the is contradictory to the require- me-nts,of.mass checking. The author describes a device' for percentage sorting.of 0.013, 0.05, 0.11 0.2 and 0.4 microfarad capacitors. If necessary, these values can be easily replaced by other ones. The sorting accurac y is,;. Obl%. The device works according to the beat me thod, which is widely used for measuring non- --Card 1/15 electric,al values in circuits with capacitance trans- x1ji"111". fill! 0  06188 SOV/115-59-11-16/36 Checking Capacitance Measures by Means of an.Electronic Digital Instrument duoers and In some capacitance measuring Instruments# for example, In the IIYeV-1. Two generators are used 'in the device described by the author. The frequency.fo, of' one of them remains unchanged. The frequency of the o- ther generator may:deviate from f0 by some value 6f which ia determined by -the deviation of the capacitance. to be measured Cx from its rating C3- Since the maximum value of the-frequency.to.be measured is large (0.4 mi- fr64uency to was selected to be low -:2 kc.~ Generators with a Wien bridge were used. The vol-~- tage.from the generators is fed to a mixer, at.whose r output a beat with the frequency A f is obta ned. With. a constant carrier frequency fol'tlie value Al will de- termine simultaneously,the value rfC. Since.at small -,.d.C9.a~.beat frequency of a fraction of a cycle is ob tained, needle frequency,meters may not be used. There- fore A f.is determined in the author's device by coun- Card 2/5 ting the pulses within a fixed time interval Tl. An e-  06188 -59-11-16/3 SOV/115 6 Checking Capacitance M6asures by Means, of an Electronic Digital Instrument lectric PV'52 seconds:counter is uspd as a pulse coun --ter, having a capacity of 103 pulses. This counter is connected, by a time relay to the :frequency difference. amplifier for~the time Tl. Since. its mechanism works twice during each beat cycle, it will record during each time:interval Tj n 2T1 Af pulsest or -n Tf dr 00 1 0 The time,Tl was:.taken to.be 5,eeconds, therefore n- 5*2000 S.C=10000 C=100 80%. Consequently, when ~do is -1% the device will-record 100 pulses, at equal to C=0.1% 'accordingly 10 pulses, etc. The needle of accuratd~reading of the PV-52 will complete in the first case a full rotation, ie. it will show 100 gra- duation marks,,in-the second case 10 graduation marks, etc.-The PV-52 is very convenient and no changes of: its dial are required.,The author presents a simplified,..." Card 3/5 ~block;diagram-of the device. The generator circuits  - ---------- 06188 BOV/115-59-11-16/36 Ch6dking Ca acitance Measures by Means of an Electronic Digital p nstrument are identical and are-composed of 6N2P tubes, which form,two-stage'ampli:eiers with feedback thru cathode followers (tubes, 015P), matching the high~-obm ampli- fier.outputs with the low-ohm positive and negative feedback circuits. The use of cathode followers is im- Ortant'for increasing the frequency stability of the: 'generators and an amplification factor 5000 may be ob- :tained for the.amplifier. The generator anode circuits are fed from an electronic voltage stabilizer. A barr- -eteris used in the,filam6nt circuit. After a.one-hour warm-up the frequency of the generators will fluctua- ~~.t -onl; jaignitionntly by n fraotion of a oyole per I or atabilitipig the gofterator amplitaideal* Th/2 thermistors ar,~ used.The balanced modulator ia com- posed of 6A2P tubes. The~beat voltage passes.from the modulator output thru an RC-filter to the input of symmetrical amplifier with a 6112P tube. The next Bta- Card 4/5 'ge is a class.C power amplifier with 6P14P tubes.  f MIN BOV/115-59-11-16/36 Checking Capacitance Measures by Means of an Electronic Digital Instrument There.are two time- relays with identical circuits com- posed of tubes 6fflP and 02P. The tubes work in so called ~118chmidt'trigger.cirauitsl'. The author analysis 41fferent.error sources in the device. The error analy sis and a careful experimental study show 'that the de- vice may be.used for sorting.capacitore according to a:given ratingi provided highly stable capacitors are used in the comparison arm of the Wien bridge. The in- 'Stability,of other elements-of the.Wien bridge does not~play an essential role.,The working Accuracy of the device is-:t 0 1%. Engineer Yu.L. Sokolov partici- pated in the expe~,imental investigation of the device and in its construction and tuning. There is 1 block diagram. Card 5/5'  Illf, 1.1 4 .    j vi-. i I ; I ; 9. 1 ;~ I . .1 E, !~-  , 1 ~i 11'' i I : . ~i , , W..; ~ ;~ 1: It ; : , - ~ w '1 11 - 4 1  ------------ Zhelnova, G. d~7 ltltdi~hol6kidal -changes -in- th-ca rgentbjphilic- b asic- mat te_r-in_lapros7-~,-~_ Vopropy dermato-venerologii, Vol. IV, 1948, P. 332-35.  -11T11F 190 111 15-67-3-3384. ..Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 3, P 134 (USSR) -AUTHORS: Zhelnovaj L. N..,,,Rybalko, V., G. TITLE: The Advantages of aRapid Method for Determining Porosity of Ceramic Ware (Preimushchestva uskorennogo metoda opredeleniya poristosti keramiche3kikh izdeliy) PERIODICAL: Sb. stud. nauch. rabot. Mosk. in-t nar. kh-vap.Moscow, 'Gostorgizdatt 1956, pp 71-75 ABSTRACT: L A rapid method of determining the porosity of ceramic :ware is.proposed. After preliminary drying out the samples are heated for 30 minutes in a muffle furnace at 2500, and then plunged into cold distilled water and left for one hour to be impregnated with water. After the samples are saturated they are removed from the waters dried, and weighed. The precision of the pro- posed method,.approaches that for the standard met hods - but the rapid method takes only 1.5 hours, whereas the Card 1/1 standard method, takes 28 hours. 3, P, Sh,   11 11- - . - I . -  , _~ i r r z 1 v t w% - 111 1    Will   I , I ~j . i i: ~; . . F.  16(1) AUTHOR: ZhelobenIko, D.P. SOV/20-126-5-5/69 ..TITLEv Linear Representations of -the Lorentz Group PERIODICALs Akademii nauk SSSR91959,vol 126,1fr 5,PP,935-938 (USSR) ABSTRACT: The author describes all (up to equivalence) representations of the Lorentz group with finite rank (i.e. continuous,re- presentations-in Banach spaces with finitely many irreducible components). He investigates separately the algebraic structure of.the representations in the neighborhood of the singular point. The paper is based on investigations of Kay- mark. Two~theorems are given# There are 4 Soviet references. ASSOCIATIONt-Mookovskiy.goeudaretvennyy univeraitet Imeni M.V.Lomonosova, (Mosoow State'univer'sity imeni X.7. Lomonosov) PRESENTEDt ~Januarj 30,1959t by N.H. Bogolyubov, Loaaemician SUBMITTED: January 281 1959 'Card 1/1  I I;, j ; I Az I ,  16(1) AUTHORt Zhelobenko,D.Pi TITLEi The Structure.of. the Group Ring of Lorenz's Group PERIODICALs Doklely Akademii nauk SSSR,1959,1rc! -120,;,Nr "tPp 482-485 (Von) ABSTRAM In a somewhat changed foTm (without use of infinite matr-j,4eq) the author given the same reailt (an analagie to the theorem 0.1, Paley-Wiener) which he has air-iady published L-Ref 2 . Bobides ''the theorem isr4roved with other methods due to I.M.Gellfand Z_Ref 52. The.authbr mantion3 N.Ya.Vilenkin. There are.5 Soviet referenoes. ASSOCIATIONIYoskovskiy gosudarstvannyy universitat Imeni 11,V.Lozinoaa-t&, (Mosdow state. Utiversity imoni 11.V.LC'1monosovY PRESENTED: January 30t 1959f by&H.Bogolyubovt Academipian. SUBMITTED: January 28, 1959 Card 1/1  AUTHORt Zhelobenkov D.P. SOV/20-121-4-4/54 TITLEs' The Descrip a Class of Representations of the Lorenz Group (Opinaniye nekotorogo klasea predstavleniy gruppy lorentsa) PERIODICALs Doklady Akademii nauk SSSR09589vol 121,Nr.4tPP 586-589 (USSR) ABSTRACTt Since the Lorenz group is not compact and possesses represent- ations'which cannot he decomposed into irreducible ones# the ueotion for the description of all linear reproeentations UP to equivalence) of this group arisess In the present Z paper the author gives a partial solution of this problem and describes a rather extensive class of representations. The main result consists in the statement that each representation of this class is.decomposed into a discreet direct sum of re- presentationst each of which in equivalent to one of.the re- presentations of a.certain canonical model. The paper was written under.the guidance of Naymark and uses the notations of Naymark without explanations# a fact which complicates the reading. Therware 2 Soviet references. ASSOCIATIONs .lookovskiy gosuda,rstvennyy universitst imeni M.V.Lomonosova CarId1/2 (Nosoow state.,University imeni M.V. Lomonaeov) I 11-, 111 i I", I ib, 1,  'I ! t , I "t ,e i t p J.:I , i~ I1~ j; I i 7i f -   's:    i I 1z I I        --87663 4 0 8/137/60/000/01o/b34/104o A006/AOOI Translation from: Referativnyy zhurnal, Metallurgiya, 1960, No. 10, pp. 27P -271 #,24624 AUTHOR:, Zhelo ov I.So ~1.obov TITUt mechanical Properties: of AK-6 (Ak-6) Grade Duraluminum Alloy ~.Specimens Upset Under a Pneumatic Hammer and a Friction Press PERIODICAL-. Tr. Gor'kovsk. poli'tekhn. in-ta,.1959,- Vol.. 15, No.. 2, pp. 39-47 TEXT: The effect of the method of upsetting Ak-6 specimvr.B, on the mechan- ical properties of.the alloy was studied. _Cylindrical specimens of 25 mm In-dia- meter.and'4o mm height were upset under a pneumatic hammer and under,a friction press to.an equal degree of,deformationl~p to 12.5 height). Prior to upsetting the.,Bpeoimens were heated to 4750C.:'Upsetting was made by one pass of the press and 2 hammer blows.. Measurement of Rb.of the upset specimens showed that for the hammer deformed specimens the mean Rb was by 7 - 8 units higher than that of press- deformed pieces. The factor, causing this difference in hardness, appears to be the deformation rate, In the initial state the material had a homogeneous struo- Card Ip    I , ji . ~,. F - '1~ i I Allif", A i. &~ I , I ~,, qIV.111 ~%:    I u  Card 1/1 17, 9/19 Author Krol N. Gi and Zhelob,6va, Z. A. Title Physiological symptoms of the functional condition of the motor apparatus,in hyperkinesis. Part 2: Muscle tone in athetosis 'Periodical l3yul. eksp.,biol. i Med, 61 36-39,, June 1955 Abstract, During lengthy.,myotonometric investigations of the rigidity of muscles of patients with signs of athetosis, authors observed con- siderable~variations. ln.studying~antagoaist muscleL, of the upper and lower'extremities they found that the muscle tone was within normal limits in.29% of the cases during maximal prostration, in 18% it was below normal and in 53% above normal. Sharp variations in muscle tone during athetosis are characteristic. Authors' investiga- tions led them to conclude that in patients of.athetosis in maximal. veakened conditions of the muscles there is a disturbance of the re- lationship between the indices of tone of the muscle-antagonists as well as of the muscles of,distal and proximal groups. No references; graphs,table. Institution Laboratory of Clinical Physiology~ Sverdlovnk Scientific Researgh In- tit t ti di f R t t l d O th Di s u es r e o ora r: ve Surgeryo Trauma o ope csp ( ogy, an Corresponding Member Academy Medical Sciences USSR Prof. F. R.,Bogdanov) Submitted 10 June 1954  -Car Author Kroll., N. G. and Zhelobova, Z. A. Tit.Le' Physiological,indicatord of the functional condition of the motor apparatus during hyperkineses. (Characteristics of subordinate motor chronaxy.inathetosis.) Periodical Byul. Eksp. biol.j med.'71 24-27, Jul 1955 Abstract: Authors believe that-cbAnges in the regulating activity of the central nervoUSLsystem undoubtedly affect irritation and lability of the neuro-muscular system and consequently chanee its chronaxy (called.subordination).. They compiled tables from chronaximetric dataLfrom. patients with athetoses of arm and leg muscles and of L the coordination between chronaxy of distal and proximal muscles of.the extremitieS'Land muscle-antagonista. They conclude that in athetosis the regulating role of the cortical zone of the motor analysor is interrupted, that the complex picture is pubject to a mechanism,which Is not simple to explain; that it is affected by functional changes in the cortical zone of the motor analyzor as well as by:the LLaCtiVity of the subcortical region- 5 references, 5 USSR, 5 since 1940, tables Institution Laboratory of,Clinical Physiology, Sverdlovsk Scientific-Research "raumatology, and Orthopedics. Institute of Restorative Surgery, T (Dir: Corresponding Member Academy of Medical Sciences USSR, Prof F. R. Bogdanov) Submitted 10 June 1954.   V, V.A.; DOROMOVA, H.I.; SHOLINA, H.Te.j.12HMKHOYT5XTA, A.M.: SROLINg TIKHOHOVA, O.Ta.; SKOIDINOV. A.P.: AROMIX, A.P.; D~Ds; GOLOVNINAo T.V.: SLONOVA, L.A. Styrene as an initial product for oynthomyeatin and levouqcatin production. Part 2: Synthesis of p-nitroacatophenone and p-nitro-X-bromacetaphenone. Antiblotiki 4 no.4:21-24 JI-Ag '59. VoeeoVuzW nauchno-Issledovatel'skiy khimiko-famtsevticheikly Institut Imeni S-Ordshonikidze (for Mikhalev Dorokhova, SmolinA, Shelokhovtoeva, Tikhonova). 2. Institut ;;;;akologii i khImIo-   G. -112MILO)MAM, VANOVI A.I.; AlWWARUX, A*P.; GAICH=t X Ov. T D#D* Otyrone as rnw matarial for the production of synthomyoin and levocw- cetin, Part 1: Synthesis of p-nitro-i~~aylaminoacetophanotes. Anti- biotiki, 4 no,2:21-24 mr-Ap 159. (MIA 12 37) 1*.' voesoyUsmy nauchno-Issl4dovatellskV khimiko-farmetsevtichookly institut imeni 6, Ordshonikidxa (for Hikhalev, Dorokhova, Smolina, Zhelokhovtseva). 2. Institut farmakologii i khimioterapii AXH SSSR (for Skoldinov, Ivanov, Arendaruk. Galchenko, Skorodumov, Smolin). 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