ACC NR, AYW05364 SUIRCE CODE: AUMOR: Postnikov, V. S.; Ycl'kdn Yu. M.; 14czhkov, S. 1. ORG; Voronezh Polytechnic In6titute (Voronezliskiy politekhnichesidy institut) TITLE: Internal friction in face-centered cubic metals durine the course o4,' stretch- ing SOURCE: Fizika tvcrdogo tela, v. 8, no. 12, .1966, 3652-3654 TOPIC TAGS: internal frict~ion, metal deformation, tensile stress, cubic crystal, crystal lattice structure ABSTRACT: This is a continuation of earlier work (in: Issledovaniya stalcy i Eplavov [Research in Steels and Alloys], P. 376) Nauka, M. 1964), dcaling in- ternal friction in samples stretched at a constant rate. "Ine present article Is devoted to the calculation of the secord component of internal friction, which ta;-es e 41 C4' into account the additional energy dissipation as a function of the rat o, d forWa- tion. A solution of the differential equations for the deformation as a function ol the time shows that the actual deformation consists of the linear part on ifnich an elliptical hysteresis loop is superimposed, and the effect of this loop on the friction is evaluated. Numerical examples,are given for aluminum by way of illustra7 tion. Orig. art. has: 2 figures and 8 formulas. SUB CODE: 20., n/ sm DATE: i3jun66/ om REF; ool/ oni REF: 005 r-4  SHILOVA, YO-1- (Moskva); NESHKWA, O.V. (Moskva); IIIKITAYEVA, O.G. (Moskva); YETXTNA,v A.G. (Moskva) Effect of grain size in D16 and D19 alloyo on crack formation and the strength of welded joints. Avtom. evar. 15 no.8.-14-20 Ag 162. (MIRA 15:7) (Nonferrous a3loya-Metal-lography) (Shoot metal-Welding)  KOZLOVSKAYA, V.A. (Moskva); WSHKOVA, O.V. (Moskva); YELKINA, A.G. (Moskva) Effect of the composition of D20-type alloys on their propertier and weldability. Avtom. avar. 15 no.907-62 3 162. - (KRA 15%9) (Aluminum alloys-Welding)  P-0-DGAYSKAYA -,IjX.--,.YEI;-!-KINA A.P Accelerated diagnosis of diphtheria by means of fluorescence micro- ocopy. Lab. delo 7 no.5:51-33 My '61. (HPA 14:5) 1. Permskiy institut, vaktsin i syvorotok. (FLUORESCENDE MICIWSCOPY) (DIPIqKERIA)  USSR/Ruman and Animal Physiology. Digestion. V Abe Jour: Hof. Zhur-Biol., no 6, 1958, 26M. Author A. Inst The University of Tcmk. Title The v4c:-An!sm, of the Disturbances in Gastric Secretion.Associated with Cronic Loss of Bile. Orig Pub: Tr~ Tomakogo un-ta.- 1956j, 143) 237-242. A Abstract: Gastric secretion in response to histamine and ingestion of bread, mest and milk waa studied In dogs with denervated gastric pouches prepared by Ivy's method. A month after wiperimposition of a biliary fistula and ligation of the common bile duct, an Increase was seen in the secretory volume.. acidity and digestive activity of the Card 1/2  USSR/ft= and Animl ftsiology. Digestion. V Abs Jour: Ref. Zhur-Biol., No 6, 1958, 26990. Wtric juice, while after 4 to 7 months they had fallen below the initial level. The chronic lose of bile altered the humoral regulation of gastric secretion and vas accompanied by trqphic disturb- ances (ulceration of the skin, alopecia) which led to the death of the ani=1s. Card : 2/2  PJTROV, X.A.; SMCMMO, V-B.; TIMOSM, T.O.g H&MATIV, Y.A.; ?WIN, A.T.; HODIONOV, A.T.; BATAUD ML, A-T.; MAGNIAMPA, Z.I.; V01KOVA, A.A. Alkyl phosphonates, diphosphonates, and phosphine oxidee as extracting agents. Zhur.neorgkhim. 5 no.2:498-502 7 6o. I(MM 13:6) (Phoffphonic acid) (Phosphine oxide) (Itxtrac tion(Chowle try))  MWM TIKOSBIV, T. G. ; PEROT. I[. A. I:RMICNOTI A' T' BALAOIJU, V- T- TOMOVA, A.A.: A- V- WIFIBIDA Z. 1. Ixtraction capacity"Of noutrulp 03790u-cORtainlng organic substances* Radlokhlmlla 2 noAs419-425 160. (KIRA 130) O"xtraction (Chemistry))  YELIK119A-A.V., kand.med.nauk (Tomsk) Motility of the bile excretion apparatus of the liver in Para- thyroid gland insufficiency. Probl.endok.igorm. 7 no.3132-37 161. (14IRA 14:9) 1, Iz kafedry normallnoy fiziologii (zav. - prof. Ye.F. Lapin) Tomskogo meditsinskogo institutao (PARATHYROID GLADDS-DISEASES) (LIVER) (BILE)  KOCHUROVA, A.L.; KULIKOVAS P.Ye.; YELtKINA, A.V. Effectiveness of treating erosion of the cervix uteri with irrigations iodine-bromine water at the Ust'-Kachka Health Resort. Vopl kurej fizioter. i leah., fiz. kullt. 26 no.3s2O5-206 ltr~.Je 161. 1. Iz kurorta Ust'-Kachka (diroktor V.N.Shukin). (MIRA 14:7) (UTERUS-ZISEASES) (USTI-KACIIKA-14INERAL WATERS)  S/830/62/000/002/0021022', AUTHORSt Timoshev, 'di~n 'Vs I As V, V. a. Potrov$,K.A.s, RO 0 Balandina, V.V., yalhan-1- -A. A yx"~~! and Nagnibods, 2.1. TITLEs. Importance of the structure'and'phymicQl state of extraction-solvent molecules SOURCEs.. Ekstraktoiyft; teoriya, primenaniye, apparatura. Ed. by A.P. Zefirov'and M.M.*Sonyavin. ?4o*cow, Goxatoiiizdat, 1962; 68-103i TEXT i Taking the critation of *xtraction-ability as the distribution coefficient,'and the ratio Ei (the number'of hydr6g*n-* '.to the number of. carbon atoms in the' soltentj.', the O'Uthoris study the distribution of uranyl,*plutonium (IV) I'zirconium and niobium" nitrates. The reed comprised 0,5 - I or 2 N aq', nitric acia. solution. Extracting with orthoformates and p4gsphates thr extractive ability tells with decreaming B values - steric Ihindranco playing an Important part. With phosphonates the opposite relation holds - the'water solubility of the.lower homologues and their-polymerization b*1nS--.iVor:t&nt1. factors. Card 2/2  Importance of the structure and ... S/830/62/000/001/002/012 The extractive ability of phosphonates incrioses at the a awe'time as the alkyl radicals become less qloctrophilic and the solvents -less solublej however, when the radicals bec6o comparativ ly Ox it trActiv4 bil y large, steric hindrances become decisive gznd o 'falls sharply in spite of-reduced solubility. The same holds fo;" phosphine oxides and amines. Farther work.to generalize these relations is contemplated. There or* 13 figurea. Card 2/2 A-  NORKINA, S.P.1 OREKHOVSKAYA, YesP,,j RUGACHEVAj P.U.; YELIKINA, G.A.; MARSHUNOVA, G,N. --.- Development of Azotobacter in Chernozem aoils. Trudy Vaea. inst. sellkhoz. mikrobiol. no.14:49-62 158. (MRA 154) (Karabalynskiy District--Chernozem isoila) (Azotobacter). -  TELEINA, G.G. -, YAROSIMMOD. F.D. Carotene content of sons plants In the Maritime ZroTince and the Amir Valley in connection with germination conditions and phas~es of development; preliminary report. Soob.DVIAN SSSR no.9:i36-i42 158. (MM 12:4) (Maritime Province--Plants) (Amur Valiey--Plants) (Carotene)  YELKINk',-G.-G.-; YAROSHMIXOp-P.-D. Chemistry of meadov and pasture grasses in the Writime Territory. Soob-DVFAN SSSR no.13:57-63 160, OMIRA .14:3) Is Dallnevontochayy filial ime VoLoKomarova Sibirskogo otdoleniya AN SSSR. (Maritime Territory-Grasses)  YZLIKIn G.M.; TSTXTKOVA, Ye.n*; ZHUKOV, G.V. Tertian malaria with prolonged Incubation period in San&rkand. Ned. p.araz. I paraz. bol. no.41350-351 O-D 054. (MLRA 8:2) 1. Is Samarkandskoy gorodskoy protivomalyarlynoy stantsit. (KAT-ARIA, epidemiology, In Russia, terilan malaria with prolonged Incubation period)  BELOUSOVAS I.M.; DAIMUS 0.2:; YELIKINAp I.A. Optimum operating conditions of an optical quantum generator on a neon-helium mixture. Zhur. ekap. i teor. fiz. 44, toodiii-im Mr 143. (MIRA 160.) l* Gosudarstvennyy opticheskiy institut. (Masero) (Neon) (Ifelium) 4r  New technique of knitting socks with patterns. Prom.koop. no.12: 32 D '55. (KLRA 9:5) 1. Zamestitell presedatelya pravlentya Langorshveytrikotazhprom- eoyuza. (Hosiery)  G-OUMANy I.S.; YFIXINA, jl!~kq -ZAVTRY1JK11A, 111A., Analynin of technical and economic Indices of cynyg~~n-blicrjn 'converter steel production at thr plant A for 1963. Sbor. trud. TS111ICHM no.45:75-84 165. (MIRA 18tg)  - - -- --- YUKINA, -LA. .- inzhener. --- - - - - -- - - ---- - -- -- --- - - - -- - -- - -- - - - - --- - -- I- StnkhAnovitea SUccessfull.7 operate Yncuum niaporator with n low level of glycerine water. Magl.2hlr.-prom. 17 no.1:30 -to 132. Wm 10:9) 1. Savod "Novyy Mqvlovar." (Glycerol) (Evaporating appliancea)  I)tPYA.BIXL., A.Te., insb.; IRIZINA L G, inzh. Utilization,of soap alkall vasteB in the national scono Xaalo.qddr. Vrom. 29 n0.3237-38' Mr 163. (KIRA 16:47 -1. Mookovskiy zavod NNovyy nqlovarm. (Poap industry-By-producte)  SOV/109-3-11-2/13 'AUTHORS: Neymark , Yu. 1. , Maklakov , Yu. K. and _YAIkina,_Z,,R. TITIE: The Circulation of Pulses in a Highly Non-linear System Having a Delayed Feedback With Losses (Tsirkulyatsiya impullsov v sillnon'elineynoy Bisteme s zapazdyvayushchey obratnoy avyazlyu, obladayushchey dispersiyey) PERIODICAL: Radiotekhnilca i Blektronika, 1958, Vol 3, Nr 11, pp 13481- 1360 (USSR) ABSTRACT: The generators with a delayed feedback have a certain practical interest in radio engineering. A, generator of this type (Figure 1) consists of the following -elements: 1) a non-linear circuit which can be described by a non-linear fun tion f(u) such that the input signal can be expressed by x(t) = f Cu, (t)] (1) 2) a linear circuit with constant parameters which can be described by a linear response T(t) so that the relationship between its input signal and its output is expressed by: Cardl/6  SOV/109-3-11-2/13 The Circulation of Pulses in a Highly Non-linear SystemEaving a Delayed Feedback With'Lobs6s Y(-t) (P (t ~)A)d~ (3) -C* and 3) a delay circuit which is described by: U(t) - Y(t - a) (4) where a denotes the delay time. Eq (4) does not take the dispersion (losses) into account but, together, Eqs (1), (3) and 00 can be used to describe also a lossy system having a delayed feedback. The soluticn of a number of problems relating to the generator of Figure 1 can ble effected by employing the method dev- eloped by one of the authors (Refs 12, 13, 14 and 15). For the purpose of analysis it is assumed that the characteristic Of the non-linear element of the generator is of the Z-type, such as shown in Figure 2. This means that for any input signal u(t) , the output signal xf%t) will be in the form of a train of rectangular Card2/6 pulses. Consequently, the output signal can be expressed  SOV/109-3-11-2/13 The Circulation of Pulses in a Highly Non-linear System Having a Delayed Feedback With L0006B by Bq (6), where- t are-the-time instants at which u(t) reaches a value 6 and at which x(t) changes abruptly from6zerd to bni' or Xrom liond' to The signal at the output of the linear element can be expressed by Eq (?) and the output signal is given by Nq (8). The above equations can be used to analyse the operation of various generator systems. In particular when each operating cycle of the system consists of 1 puise (this is shown in Figure 5), the basic formulae are given by Bqs (9) and (10). In these, tn and tn denote-the-instauts of the commencement and 1 2 the termination'of a pulse corresponding to the n-th cycle. Eq (g)-shows that-the'leading edges of the pulses have a repetition period, as expressed by Eq (11). Eq (10) determines the duration of the n-th pulse Ju terms of the duration of (n-l)-th pulse. Eq (10) can be written as Eq (14), where Icn denotes the duration of the n-th pulse. This can further be written as Eq (15). On the basis of the theory of oscillations and the problem Card3/6 of iterations (Refs 162 17 and 18), it follows that the  SOV/109-3-11-2/13 The Circulation of Pulses in a Highly Non-linear System Having a Delayed Feedback With Losses solution of Eq. (15) is stable provided the conditions expressed by Eqs (17) and (19) are fulfilled. If the system contains multi-pulse cycles, the relationships for the inception instant and the termination of the i-th pulse are expressed 'by Bqs (22) and (23). These instants for the n-th cycle (consisting of m pulses) can also be expressed by Zqs (24). If rm. = t2m-1 - t2m-2 and -UM = t2m - t2m-1 I where r M. denotes distance between m-1 and m-th pulses and 't. is the duration of the m-th pulse Bqs (22) and (23) can be written in the form of Zqs (M and (28). In order to determine the cycle, it is necessary to find the solution of these equations for the case; n n n-1 M 2 'M ri rmnp Card4/6 where the subscripts t1p relate to the threshold values.  SOV/109-3-11-2/13 The Circulation of Pulses in a Highly Non-linear System Having a Delayed Feedback With Losses This leads to Bqs (29) and (30). The stability of the System is therefore described by Eqs (31) and (32). The above equations can be used to construct the so-called cyclic function for single-pulse and multi-pulse cycles for various values of 6 . The function is represented graphically in Figure 7 where the duration of the n-th pulse is expressed by. ?n-l)-th pulse. From the figure, it is seen that for 6>1-0-5 , each pulse introduced into the system gradually becomes smaller and finally disappears. On the other hand, for values of 6