SCIENTIFIC ABSTRACT MAKLAKOV, L.I. - MAKLETSOV, P.F.

NIKITINp V.N.; MAKLAKOV, L.I. Haman spectrum of isotactic polypropylene. Opt. i spektr. 13 no./+:603-60/+ 0 162. (MIRA 16:3) (Raman effect) (Propene)  MAKLLKOV, L.I.; NIKITIN, V.N.; PURKINk, A.V. Tibrational spectra of chloroform and deuterochloroform in the liquid and crystalline states. Opt. i spektr. 15 no.3.-332- 337 S 163. (MIRA 16:10)  ACCESSION NR: AP4009470 S/0051/63/015/006/0822/0824 AUTHOR: Maklakov, L.1,; Nikitin, V.N. *"Mit~&Vaf TITLE% Vibra tional spectra of bromoform and deute-robromoform In the liquid and crystalline states I SOURCE: Optika I spektrookopiya, v.15, no.6, 1963l 822-824 TOPIC TAGS: Raman spectrum, infrared spectrum, bronotorm,'deuterobromoform, crystal liquid transition ABSTRACT: The vibrational spectra of bromofom and deuterobromoform were Investi- gated with the substances in the liquid and crystalline states; also obtained were the spectra of mixed crystals. -The Infrared spectra were recorded at different temperatures on a UR-10 double beam spectrometer. A special cell constructed in the laboratory was used for the temperature studies. The Raman spectra were re- corded on a DFS-12 spectrometer with excitation by the HC 4358 X line. Here again a special cell which permitted measurement of the spectrum at different tempera- tures was employed. The deuterobromoform was prepared by the procedure described by S.M.Ferigle and F.F.Cleveland (J. Chem. Phys. 16, 1073,1950) ; analysis of the pro- C.rd 1/2  AP4009470 ,duct with reference at eh 3020 ca-1 Infrared band showed the presence of 9% CHBr3- The infrared spectrum of the deuterobr(moform agreed with the data of Ferigle and Cleveland. Traces of the infrared absorption spectra of CHBr3 at 180C and -10000 are reproduced. OMstracter's note: The Raman spectra are not shown,7 Attribu- tions are made for some of the lines observed In the spectra and the changes ob- served incident to transition from the liquid to the crystalline state are dia- cussed. The changes are appreciable In the case of the infrared spectrum but vir- Wally nil in the case of the Raman spectrum. "we express our gratitude to,A ?Vf Purkina for assistance in the work and to Yu.Ya.Gotliv and K.V.Vol1kenphteA for discussion of the results." OrIg.art.has: I figure. .ASSOCIATION: none SUBMITTED: 04Apr63 DATE AOQ: 03JanG4 EKCL: 00 SUB CODE: PH NR REP SOV: 005 R; 009 2/2 Nr- Card  MAKLAKOV, L.I.; NIKITIN, V.N. Raman spectrum of iso*_actic poly-propylene In the crysta-l'-ne and mol- ten stateis. Opt, i sFek-,r. 117 ro.3.--412-454 ss 164. (,'-[:RA 17~10)  -, MAKLAKOV, L.I.; NIKITIN, V.N. Structure of the OR band in crystalline formic acid. Opt. i spektr. 18 no.3:509-510 Mx 165. (MIPJ, 18: 5)  ACC NR, i6A k I L "E: I'-v'./0190/6(,1'0O8/O06" 100-/1 01 AUTHOR: Ma~. f i.; '~ljmktni, G.; Nikitina, V. I.; lezzubov_, ORG. Kazin wosudiirqtvennyy universitet), "ThatItute of -F Organic em. i t3 t r y , ~Inqt itut ~rganlcheskiy khimii AN SSSO TITLE: Semicondo,: r L ;5- -.-~;vntatning benzene rings and heter-)atoms in the backbone SOURCE: Vysokomo1ekul,,,.irnyye fiovedirientya, v. 8, no. 6, 1966, 1007-1011 TOPIC TAGS: semicondiictin?, ',-..-1VMeT, benzene ring, imino group, degassing ABSTRACT! A Study h~iq 'heen ot Che effect of preliminary degassing on the electrical properties of p,~Iyners cnntaininiz ben.-PnE rings and NH-groups in the backbone. Polymers WiLh the frillowinp repeal- units were prepared: .2) N I Card 1/2 UDC: 678.01:53  L 29569-66 ACC NR. AP6019538 r 4) C11, CHI The polymers ~-ere 1doulifled f rom t!t-ir III spectra. The presence of conjugated bonds Iwas est'a~-Iisfle-f 1)-., UV Spec: t rosco-y -The electrical and magnetic properties of the polymers were studied. Degassin)- L),-- polymer specimens decreased their electrical con-i ductiv-"Lv. 'moi-ousj, ei iminarilon j Low-molecular-weight impurities increased the e lect rica i c(ind - ~ ~- 1 1,,: 1 Lc:: The conductivity range of the polymers was 10- 8 to 7 M:,:, / CT,.. i,-. art 1 figure and 3 tables. [BO] SUB CODE: 11, 20/ Sll!~'-' ;-)A.'L- ORIG REF: 006/ ATD PRESS: Card ZL.,2  MOSKALENKO, V.A.; TURBIN, B.I., doktor tekhn. nauk, prof., retsenzent; MAKLAKOV, N.A., inzh., red.; KOZLOV, A.P., red.izd-ya;'KAKAIUVA, L.A., tekhn. red. (Mechanisms] Mekhanizmy. Moskva, Mashgiz, 1963. 238 p. (MIRA 16:4) (Mechanisms)  GORSKIY, B.Ye.; CHMIYAVSKIY, Ya.L.,- KREMENSHTEYN, L.I.,, kand. tekhn. naukp retsenzent; MAKLAKOV, N.A._, inzh., red. Nodernization of cam mechanisms of machines] Modernizataiia kulachkovykh mekhanizmov mashin. Moskva, Izd-vo "Mashino- stroonie," 1964. 97 p. (MIRA 170)  KOSTY*UCHETIOK, B.M. (Moska 1-90, ul. Sadovo-Sukharevskayap d.19/23 kv.6); MAKLAKGV~ 111.1. (Moskva) A case of successful surgical treatment of pleural empyema of a remaining lunge Grudn. khi-,. 5 no.4t96-97 J1-Ag 163 (MIn 1711)  - - - . '. . ~ . , 'i , ! . " . Broaching Machines CombJnatinn broach for groove broachInj: arid bevelAng. Stan. fnst-. `3 !%',:. 6 - MONTFLY LIST OF RVIcIfiN ACCE~~-cl NS. Library of Congress, November lc',~'71. UNCLA.~STFTLL.  1. BASOV, A. A.; KAXWOV4 N. N. 2. usm (600) 4. Milling Machines 7. Cutting of grooved shafts with cut-away grooved. Stan. i instr, 23 no. 8. 1952. 9. Monthly List of Russian Accessions, Library of Congress, January, -1953. Unclassified.  SEREGIN, A.Pq_ MAKLAKOVp P.A. Additional potentials for increasing and improving leather aM shoe resources during the period from 1959 to 1965 D 160. (MMA 14:1) (Leather industry) (Shoe industry)  MAKLAKOV T I., inzh. --_ Increase'in the operational reliability of phase splitter starter mechanisms of a.c. trains. Slek. i tepl. tiaga 6 no.11:20-21 N 162. (MIRA 16:1) (Electric railroads-Current supply)  MAKLAKOV, T.I., inzh. Auxiliary machinery of a.c. trains. glek. i tepl. tiaga 7 no.4: 29-31 AP 163. (KMA 16:5) (Electric railroads) (Electric railway motors)  MAKLAKOV, T... I. _. . ..... .--- - Special characteristics of the performance of the auri-liary macl-dnes 'in a.c.electric trains. Elak. i tepl.tiaga 7 no.11:39-41 N 163. (MIRA 17:2) 1. Starshiy inzh. Nauchno-issledovatallskogo byuro elektropodvizhnogo sostava Laningradskogo instJ.tuta inzhenerov zheleznodorozhiogo tran!4- porta,  NEKRASOV, V.I., krmd.tekhn.nauk; MAKWOV, T.I., inzh. Investigating the performance of the auxiliary machines of the FP9- 01 electric train. Vest. TSNII MPS 22 no.8:8-13 !63. (KRA 17:2) 1. Lcningradskiy Instlitut InMenerov zheleznodorozhnogo transporta,  . K 4', i.AK-'..)%',, T. IF ., ~: ~l : v~' _1_ ..l. .--- - I RE-,JU 1. t3 Of 11-1 - te.1 t-3 Of pi78.96 a P' : t ' ~;7-' j If F - L ~ - i ~ - -?~ ~ ~ i tmin, Trudy Khab,, III ;!) 264 ";,1 ~: ) 4 ~  V.I., krind. takhn. nauk; II~KLAKOV, T.I., irzh. Lna!ysis of ~,he operation of an asynctrono-us phas:~ of the ER-9 electric train. Elektrotekhnl4ka 35 no.7:47-!.8 1~4. (v~ -1 Ft. 1,7: , I ~  inzit. Ways to improve the operative reliability of auxiliary mach-frery of a.c. trains. Elek. i tepl. tiaga 9 no.1.1:20-22 N 165. (ICRA 19: 1)  MAKLAKOV, V.N.; GOR-FLf)V, P.N.; RGGCVOY, A.G.; ZBOROVSKIY, A.A. Radiometric method for determining sulfur in naphthalone. Zav. lab. 31 no.11:1365-136f, '65. (L'.',:F-A '19: i I 1. Mag-nitcgorskiy metallurgicheskiy kombinat,  SOV/109-3-11-2/13 AUTHORS: Neymark Yu.I., K. and Yelkina, L.P. ,Maklakov, Yu TITIZ: The Circulation of Fulses-MI-a-Eighly Non-linear System Having a Delayed Feedback With Losses (Tsirkulyatsiya impullsov v sillnoneiineynoy sisteme s zapazdyvayushchey obratnoy avyazlyu, obladayushchey dispersiyey) PMUODICAL: Radiotekhnika i Elektronika, 1958, Vol 3, Nr 11, pp 1348 - 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 function f(u) such that the input signal can be expressed by x(t) = f CU (t)j (1) 2) a linear circuit with constant parameters which can be described by a linear response (p(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 Son-linear System Having a Delayed Feedback With Losses At) (t - ~)x(~ )dt (3) and 3) a delay circuit which is described by; U(t) = Y(t - (X) (4) where (x denotes the delay time. Eq (4) does not take the dispersion (losses) into account but, together, lgqs (1), (3) and (4) can be used to describe also a lossy system having a delayed feedback. The solution of a number of problems relating to the generator of Figure 1 can bie 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 x(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 Losses by Eq (6), where t are the time instants at which u(t) reaches a value 6 and at which x(t) changes abruptly from *zer6' to bni' or rrom. "ond' to '~zerd'. The signal at the output of the linear element can be expressed by Eq (?) and the output signal is given by Eq (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 pulse (this is shown in Figure 5), the basic formulae are given bv Eqs (9) and (10). In these, tn and t n denote the instants of the commencement and 1 2 the termination of a pulse corresponding to the n-th cycle. Eq (9) 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 in terms of the duration of (n-l)-th pulse. Eq (10) can be written as Eq (14), where t n 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 16~ 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 b~ Eqs (22) and (23). These instants for the n-th cycle consisting of m pulses) can also be expressed by Eqs (24). If rM = t 2m-1 - t2m-2 and -UM = t2m. - t2m-1 I where rm. denotes distance between m-l and m-th pulses and Z M is the duration of the m-th pulse Eqs (22) and (23) can be written in the form of Bqs ~?) 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 r r M M mrip M rM MIAP where the subscriptB i~jp relate to the threshold values. Card4/6  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 Eqs (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,~ 0.5 , each pulse introduced into the system gradually becomes smaller and finally disappears. On the other hand, for values of 6