SCIENTIFIC ABSTRACT ZIMIN, S.F. - ZINCHENKO, M.S.

027 UNCLASSIFTED PROCESSING DATE--230CT70 C IRC ACCESSION NO-AR0120099 ABSTkACT/EXTRACT--(U) GP-0- ABSTRACT. THE EFFECT OF D[F!`--ERENT STRuf_'.TURES OM THE PROPERTIES OF ARTICLES MADE OF STEELS 25 Ai'lr) 45 IS EXAMINED. THE STUDIES WERE CONDUCTGO ON TUBING WITH OIFFERENT WALL THICKNESSES, IT 15 SHOWN THAT -THE MAXIMUM HARDENING IS ATTAtNED FOR YHE CASE XHEN The STRUCTURE CONSISTS OF MARTENSITF W1 TH: -411 NIMUM 01UNrEGRATION DURIiNG HARDENING*UINDER ACTUAL COOLING CONDITIONS. DISINICEGRATIdN OF MARTEINSIfE ~IN THE COURSE OF ITS FORMATION MARKEDLY REDUCES S.TRENGTH PROPERTIES OF t.-EASEs rHEIR PLASTICTY. T~4E API A ANCE If FHE TURING AND SLIGHTLY IN'r STK.UCTURE OF THE METAL OF PRODUCTS OF7 INTERMEDIATE TRANSFORMA'rION OF AUSTENITE RETARDS THE WEAKENING ACTION O~- THE TUBING 11ASS. Tilt- RELATIVELY GRADUAL REDUCTION IN STRENGTH OF TUBING WITH GREATER WALL THICKNESS OCCURS UNTIL THE LAYER HARDENED DURING MARTENSITE STRUCTURES (CONTAI-NING NOT LESS THAN 50PERCENT' MARTEN,SITEI OCCUPI~S MORE THAN HALF THE TUBING CROSS SECTIONAL AREA. WHENSTRUCTURES~JN THE INCOMPLETE ,HARDENING PERIOD BEGIN TO PREDOMINATE:OVER THE MARTENSITE HARDENING -STRUCTURES, STRENGTH PROPERTIES OF THE~HARDENED TUBING AGAIN DROP OFF AND GRADUALLY APPROX-IMATE THE PROPERTIES OF THE SAME TUBLNG It THE- NORMALIZED STATE. ___U-NC LA S S-1 F-I E 4,-  USSR UD'C. 621-372-4__~ zUSMA_11OVSKIY, S. A. ZI11,1m, S. F. SIMMNOV, K. G. Coef"ficient of Interaction and Blectron~c Conductivity of a ~No-Qap Resonator" Elektron. tekhnika. Nauchno-tekhn. sb. Elektron. 8VCh (Electroide 'Lechnolojy. t Scientific:and Technical Collection. SHF Elec, rorAcs), 1970, -rp- Pp 55-57 0-M Rzh,-Radiotekhnika, 7, Jul 70, Abstra 10 7B139) .(fr Ct Translation: Exprel-~sions for the coefficient of interaction and the con.)onents of electronic conductirv-ity with regard to space charge forces iLre given for a two-gap -sonator in the case of an arbitrary phase sh.ift~for the fields in the gap,,. Two-gap resonators with bot-h Diane and gridlesB gaps are considered. The given "ationships may be used to determine the geometric dimensions of the field of e.L r interaction of a tvo-gap resonator which,give'maximum-interaction for any phase shift of the fieldB in the gaps. Bibliography, of.lour titl Res=6,  USSR UDC. 621.396.677:.73 YERUKHIMOVICH, Yu. A., Z "An Antenna" Moscow, Otkrytiya, Izobreteniya, Provjshlennyye Obraztsy, Tovarnyye Znaki, No 32, 1970, Soviet Patent No 284063, Class 21,,filed 6 may 66, p 30 Abstract: This Author's Certificate introduces: An antenna made in the form of a circular horn radiator and a.reflector. As. a distin~ndshing fea- ture of the patent, the antenna is designed to produce a circular radiation pattern in one plane and a narrow pattem in anothe r plane, over abroad fre- quency band. To this end, the reflector is made in t1ic form of a surface generated by rotating part of a parabola cut by a straight line passing through its focus, where the vertex of the.reflector:is located. The inter- secting straight line is the axis of rotation of the-given part of the Parab- o1a, and coincides with the axis of the reflector. 2. A m3dification of this antenns distinguished by the fact that;polarizAtion independent of the direc- tion of emission is ensured by installing.a conductor,along the reflector axis -vith, one end.c6nnected to the inner conductor or the.coa:dal antenna input, while the other end is connected to~the verte,~ of the reflector.  L' None 7.7 W Yu. A., M-MI, S. N., and, METRIKIN, A.' A. TWO-Reflector, Antenna for Radio Relay, Cmmunications" Moscow. Antenn No. 11070, PP 3-211~ Abstract: The results of experLmental tests on a neir double reflector auntenna with a shifted focal aas, designed according to recormrne~dations of tile Inter- r-ational Radio Consultative Co=-4~ttae foi- radio relay Iines, are presented and analyzed, A discussion is given of.the.basic system and chRracteristics of antexrmas of the sKJ 'ted focal a.,ds type.. An expression it: given for the gain factor, and the di-rectional diagram of the ~nteijna is plotted. Also plotted fron he ia~*er are cl.::rves sho-,,-ing the variation. of the integ.-Il ene~rgy distribution in them E ind IH plaries irith respect to the antenna axis an4le. These curves show that, within the lizits oll' the main lobe (110101). the ratkiated enorgy in the Iq plume amounts to 78.4"o of the total energy radi~ated, yhiU in the i,' plane the f agzriap of :the antenna showing radiated energy amoun'3 to Cross-sectio I dIg ts stricture and dimensions are given, and photographs:oi. an elliptical reflector s, assert th4t tho an"lantia has higIn and the. antemna itself,aro z;ho-vni. Tito author e lectrical var-Ameters despite the simplic#y of its C=-~'t"rgction' and that it _JS 1/2   Aim c. mr*. Ref Code: LkR USSR UIDC 621,;526 J-P'ZS SZA" 7~CHERMMIN, V. SH., and Z ..Tra ihg systed, ck Mo*scow, Otkrytiya, izobreteniya, promyshlennkye oL -raztsy, tovarnyye znaki, No 1, 1970, p 55, Author Certificate No 258421 Class 21c. .4stract: This author certificate introduces a tracking.; system con- sist.ing of a comparator circuit with an: alternatinf n ~3-voltailre source, .a.preamplifier, a phase sensitive 'cascade ', two identical channels -.consistin.gof an amplifier and a keyin'g~-u6it, asuiitch, a step-by- .~step motor, and a reducer. To eliminate interferences from the ~non-working switch input of the step-by-step motor, each system cahn- ~.nel is provided with a diode rectifier,a limiting,resistor, and~a supplementary transistor, the emitter of which is connected to the base. The amplifier-output is connected::to the base of -the supplementary transistor of the opposite channel by means of the diode and resistor in series.. Reel/ftame  USSR UDC 621 #526 CHERNUKHIN, V. SH~, and MIN, Ve A.' ''IlTracking System" -Moscow, Otkrytiya, izobreteni shlennyye braztsy, tovarnyye Iya, promy 0 :Znaki, No 1,. 1970, p 55, Author.Certific'ate No 258421 Class 21c. Abstract: This author certificateintroduces a.trackingr system con- of a comparator circuit wilthan alternating-voltage source, OL preamplifier, a phase sensitive cascade,~ two identical channels consisting of an amplifier and a key as* itch, a step-by- ing unit, W, step motor, and a reducer., To.eliminate.ihterferences from the ':'~:_:_.non-working switch input of the step-by-step motor, each system cahn- nel is provided with a diode rectifier alimitin,g resist-or, and a supplementary transistor, the_emitter~of which is,,cono,ected to the amDLifier base. The amplifier output isi.connected! to~the base of .,the,supplementary transistor of the opposite chani.~el by means of the diode and resistor in series.  USSR T! -ALEBASTROVA, A. N., ANTONOVA, L. A., ZIMIN, V. A., LI SYN, N. M. "One Algorithm for Preliminary Processing of Electrocardiograms" Med. Kibernetika (Medical Cybernetics Collection of 11orks], Kiev, 1972, pp 66-74 (Translated from Referativnyy Zhuriial Kibernetika,.No 6, 1973, Abstract No 6V704, by V. Nlikheyev). Translation: One possible approach to the problem of ~prelipdnarv processing of,clectrGcardiograms (EKG) is studied, based on element-by-clement analysis of the waves and intervals between them.i The analysi-'Iprogram includes a curve- smoothing algorithm, determination of levels of isolines (reading lines), investigation of periodicity, recognition of waves and comparison of data produced with the norms. To determine the level, of the isolines, the ordinates of the EKG points are looked upon as values of a certain random quantity and the statistical d1stri.bution seri es is constructed for it. The ordinate with the greatest frequency defines the level of the X0 .1soline. The positive and negative waves are read,from'this isoline. In order to input the EKG into a computer, the initial information, prodked as an analog voltage, is converted to a digital,series. For various reason--, (influence of 1/2 105  T USSR Alebastrova, A. N., Antonova, L. A., Zimin, V. A., Litsyn, N. M., Med. Kibernetika, Kiev, 1972, pp 66-74i bioelectric currents, apparatus noise), the quality of -recording of the EKG may be poor which, in turn, may cause incorrect recognition of elements of the cardiogram and, therefore, improper diagnosis. It~~is therefore quite important to eliminate "noise, 'I i.e. , to produce an EKG in puTe forai. Smooth- ing of the curve is performed in several passes. , First-poweT errors are eliminated first. If point (x., t.) is erroneous, the new value of ordinate is assumed equal to the valule 'of the ordinate in the preceding point xi_l* In the next stage, second power errors are eliminated, and it is assumed that R. Xi = X After ea6h stage, visual observation was per- 1+1 i+1 formcdj indicating that it is stiff iciant to perform three or four stages of smoothing to produce a satisfactory curve. One paculiai-Ity of the EKG curve is its periodicity. An EKG curve can be analyzed for pathology by simply checking its periodicity, without determining2the characteristics of the arhythmia. The algorithm for determination of the, EKG. lieriod uses the auto- correlation function K (T) to calculate the degree of siAtilarity between two X neighboring sectors of the EKG. I table, 3 figures, 646iblio. refs. 2/2  28 April, F 7t ~DEFENSE AGAINST THEM 001 CAL WEAPON'S'AND' . TrAnslation'of Russian-4anguage brochure by. n ' 1 2 V I yelne V, 11hizaiche I'm oruz, V -i7MHR1 t . m ;rMgr~ % Moscow bl pages. CoNTENTS PAGE Abstract.. ................ .......................................... I For~ward .............................................. ......... I V4 Chmi.stry in tho Econmay and in Military Technology .............. 2 Chemscal Weapons ....................................................... it Clast-Ificatton of Ilatsonouz Agents .......... a ....... I ...... 17 Way%.in Ultich the Toxic.Properties of Poisonous Agants,A I ......... ..... Hade Manifest.... ........ . . ii Poisonous, 4ents:j 19 Oenetat' Poisonous Agants_....j ........ o............ 24 ......... m ............................ Agents.` 27 Skim-~Bllsterittg Poisonous Asents~ ................. e ........... - 29 Poisomoup 'Agents.. ............ 1 32 Irritants ..... * ........... .................... 34 methadea.%nd Means of fimplaying-. Poisonous ftents.,__ ............. t... 38 Character Istjca of. a Ctntir,of Chenitcal Cant amination ................. 44 protection or zir't Chemical Weapons--- ....... I ....... gal 48 Action of the ftpulatian,Wht~ MkI Defense Signals Are~Uwu..,- ... 49 OrganlrAtion 56 (I USSR 7.R -n) COMENTS (Continued) Vage Incendiaries .................. ...................................... 36 Characteristics of incendiary Agents ................................. 59 Flame Thrower Utapons Employinr Incendiary Agents .................. 1. 61 Aviation Means for ntployins incendiaries ............................ 61 Defense Against Incendiary Kixtures .................................. 62 Bibliogmphy ......................................................... 64  112 015 UNU ASS IF I ED ~~PROC'ESSI.NG DATE-20NOV70 NS et,l..,-,,II:Lt)ORC)METHYL,~IZC]94 PXlP.EtAt'tlNi-,6lPHENYL -U- T I TLL-RLACT 1,~Cl RYULIN-At A'. I SULTAiN6EKJV, 0. bARYSIAEVA, L.1 STUUNEV,~ Y U 4N UU RL E ZH. CRG. Kh I M. 19 70 6 PO 15, 812, 0 ATE F U C-L IS." E C------- 7C .-suaJECT ARE4S--CHEMISTRY, MAf EPIAL:S I C T,4,GS--FLUUP. P44JEC ORGAN IC C(j',4POUND -BEN ZENE, DERPIATIVEt ORGANIC AZO DYE 'Tif C TR G LjMA RiK I IN G - - N Ci AE STR IJNS DCCUNENT C L A 5 S--tUNL Lik S S1'--: 0 PROXY S TE P C IN N U - - ~'P,3 I J9 C CLASSIMED  C A Pull., A7. A C T Ll 14; 2irC SU-37 S!ji L 11.1 -:;A"! L AS f f Nis ED lk I T h: Ill 11 L; 0 ;z S Gi, ww~ -