SCIENTIFIC ABSTRACT KULEZNEV, V.N. - KULHANEK, O.

vM  MR MRK-, R  GULI, V,Ye.; PENSKMA, Ye.A.;__ V.~IT.; Tful;()VA, FoUrnation of th6 compatibility of prAyiUro. Fjok.l. AN S-'75R 160 no.1:154-157 Ja 165. (MIRA 18:2) 1. Moskovskiy teklinologicheskiy inntitut tripsnoy i molochnoy promyshlennost-i i Moskovskiy institut tonkoy kiii-micheskoy tekhnologii irn. M.V. Lomonosova. Submitted June 16, 1964.  '- , ~ '- , : ~ - I- - - - - f AP6022446 SOURCE CODE: UR/0069/66/028/002/0 29/0233 Or AUTHOR: Iz=ova, A. V.; Dg_gaql A.; Kuleznev V. N. ORG: institute of Fine Chemical Technolooy Im. I%1. 'Y. Lomonosov, 'Moscow (Institut tonkoy kliiniicheskoy TITLE: 1"ho influence of branched structures on the p1aysical-niechanical. properties of vulcanized natural rubber SOURCE: Kolloldnyy zhurnal, v. 28, no. 2, 1966, 229-233 TOPIC TAGS: natural rubber, gel, solid mechanical property, solid physical property ABSTRACT: Samples of pale crcpe- inibber were extracted %villh hot acetone In darluiess for 6 to IS hr, then dried and plasticizcd in an exivironnicnt devoid of ire,,~ radical acceptors, to induce the formation of an insoluble gell(,20 to 307, after 10 zi-iln). Also, samples of rubber vulcanized according to two different methods fo.- 5 or 30 inin at 1-13C we-, e deforined ona rupture tcsteiZ~t 500 nun/min. Results indicate that the grel brealcs doN~m a8plasticizing is prolonged and'~a microgel forms. The latter Is capable of spontaneous dissolution. Since the mean molecular weight of the microgel-containing rubber Is greater -and its Intrinsic Ascosity is lower than those of the source material, tho authors conclude that the nlicrogel reprcs-~~nts UDC: 541.182:541.(34  ACC NR: AP6022446 dense spherical particles of a strongly branched macromolecular spatial Iattlee. The presenc&: of the microgrel minimizes crystallization, so that the strength of t1he vulcanized rubber Is re- It duced sharply as a result of poor compatibility Nvith linear macromolecules, the det-rioration of the peptizing environment and the increase in quantity of free macroniolecular ends. Li conclusion, the authors express their gratitude to workers of the departinent of colloidal chem-J istry N. 'Al. Fodiman and A. N. Kamensk for performing the electron-n-acroscopic investi- gations of the microgel. Oricy. art. has: I table and 7 figures. SUB CODE: 07/ SUBM DATE: 03TMay65/ ORIG REP: 002/ OTH REP; 010 2/2 h,  J: N". Ytl-I c) I Ir, i 58  KAZARINOV, V.Ya.; BALASHOVA, N.AZL.KULEZNOV.A.~,~.,, Structure of the surface layer on platimm in alkaline solutiorz. Elektrokh.lmiia 1 no.8t(775-978 Ag 165. (MIRA l8z9) 1. Institut elektrokhimii AN SSSR.  KULIGA, V. Aml there was r, clap of :Iund(tr .... (Iir~.~.,.i:ri. ?iv. P li~ r , !"-"RA 18:5) L "Arotq1*1 kcmLhAa -0t,'I"'."~ .. I - . . aoroporta.  r-3 A ) I -, I- I If -9, - " '~ " '!-r' .' -,-- 1\ - A , '( Ac t I ve r ~" 11 ', ' 171k - ' " I , A . . A - I - - ,,, - , . ~p I- , ; I . -'. - .- ~ . (~r  ~~, M-35;k Pt, -- - . , - -  KULGACHEV, L., inzhenar. The building of houses of the semioPen tYPe for fatteni h go is on the increase. Sell.atrol. 11 noo):)-4 Mr '56. I'MIRN 9:7) l.Kamansk~7e obletno7e upravleni7e po stroitellstvu v kolkhozakh. (Swine houses and eVipment)  KUWAIMP V.; KLASHKA.. V. .... ... - - Simplified determination of aldolase activity in the blood serum. Vop. med. khim. 7 no.4:434-437 J1-Ag 161. (MIRA 15:3) 1. Reaearch Institute of Traumatology AW the II Polyclinic, Brnop Czechoolovakiao (ALDOLASE)  KULGASHE;V, A.1, - - - I ~. ~,! , Vozdvizhanska deposit. Trudy IGEM no.83:359-368 163. (MIRA 161U)  69ob3 ()00/01./ 025/0'1 /60/ 1-Z) B~, -,4 P, - tve - t5 r r I? %)6r .. 9601 lir verflal. C, Ih -V ~o e5 0 t eu:~l 'at at V all s ecx 5 ,r e ba mevit rato5l~ 064,0 Vrj'bO I~e ~e7'~Ell c 0 59 e -C -0 ses El~ bt t1heol: to 0 _Se The to s C~t ,,b I C tyle 055 tylaTL e 'JIV O.ZSL) .; str %it 0 A. it 00 it 013,vaovas ( v,-QO t1le 0 . ~ ,,%, 0 Ii-ve r r a f I e of Ex . t .te ,teM e e S,ho... . S, ON4 e 'r -j elc Syovm e 9 e pel eOP IVL W e cl e . St JkOO 4a5 aSe5 . i:oro OLT 3- jel I vS - Jt tyle teO r_t er - T~s '5 v0 0, 01, s ar a 5- "'Y' ral v;as tUe tyle- ~jr, e 0 f VI Ilp-13 a, -jIX b1 e of 1,0 e0 51- te al ,%jecte 1, the 0 1 .0j:Tva e'ads Vi.~as a ery 1. 0 ()0 ll~ Oll ),gel' S '13a 0j: rOoly- 0~ to Ir to - ti~je C t-3,0" t e 0 IXY--5 It qoltase dx -a'P O.CdLe 't s er- e t-j,P atilaf, r as e 17a ro-rorLa bi_ e oper b e 3.%1r, 3Ltiolv of D. . al C a 1.00I)SI '0 Oaj cl tcxxlr I -allce tl,,e 00ay-l- lit o of isylol: avp toir I f0 0i: tyLe Seaera ,re ilx tyle of So Itu --ago car 41/1k  69o8,-, 3/120/60/00/01/023/051 A Generator of Powerful Pulse Currents E192/E382 were connected to a common collector (see 2 in Figure 2). Such a loop is equivalent to two open- circuited lines having a length of 1.0 m, which are connected in- Varallel. The pulse obtained with such a line is 10 sec. Each loop is wound on a separate spool and fifty of these are assembled on a single stand. Each stand is enclosed in a metal screen, as is shown in Figure 3. The collector of the line sections (see Figure 2) is in the form of a metal-base plate having 408 apertures. A high-voltage discharge electrode 5 is fixed to the collector on a plexiLglass insulator. Such a construction of the collector results in the reduction of its inductance to 3 x :LO_ 8 H . In order to measure the current and voltage pulses of the generator, a special 5ystem was employed. This permitted the transmission of the current pulses with the rise times Of 10-8 see and voltage pulses with a rise time of Card2/4 10-9 Sec; it was also possible to delay the pulses by  69083 s/i2o/60/000/01/023/051 A Generator of Powerful Pulse Currents E192/E382 0.2 jis before applying them to the oscillograph. The current was measured by employing the Rogowski cylinder from which the voltage wa5 collected by a cable having a length of 40 m. The voltage pulses were also measured oscillographically and a special capacity potential divider was employed for the purpose. The diagram of the divider is shown in Figure 5 and its mechanical construction is illustrated in Figure 6. An example of the oscillographic recordings of current and voltage is given in Figure 7; these were obtained during the "explosion" of a copper wire, having a diameter of 0.1 mm and a length of 25 mm, the voltage being 19 kV. The generator was tested in the short-circuit condition as well as with a matched load. In the short-circuit test the generator produced current pulses of 0.3 ils duration with the maximum current of 250 kA. A typical oscillogram of the current in this test is shown in Figure 8. The generator --iras employed for the investi- gation of the electrical explosion of conducting ifires. Card3/4  69o83 s/12o/6o/oOO/01/023/051 A Generator of Powerful Pulse Currents E192/E382 and Yjj~b,gjjna The authors express gratitude to A.A. ezru"o / IC)I.- 11 in the construction of the generator and also to F.V-Kashin-for help in carrying out the experiments. There are 6 figures and 6 references, 1 of which is English, 1 German and 4 are Soviet. SUBMITTED: December 17, 1958 Card 4/4  PROT-OPOPOV) JV-A.; KULIGAVcHuK, V.M, Pulse method of determining sublimation energy in metals and alloys. Inzh.,fiz.zhur- 4 no.7184-90 il 161. (MA .14:8) (Sublimation (Physical sciences)) (Oscillography)  3/170/61/004/009/012/013 B104/B125 AUTHORSt Protopopov, N. A., Kullgavchuk, V. 1a. TITLE- Determination of the sublimation ener6y of the system Pd-H by a pulse method PERIODICAL: inzhenerno-fizicheskiy zhurnal, v. zj, no. 9, 1961, 102-103 TEXT: The authors determined the integral sublimation enerEy of the system Pd-H. For this purpose, they developed a pulse method which relies on 'the determination of the energy limit of the current interruption that is caused by pulse heating. That means that the minimum energy required for a co,_:plete evaporation of the test specimen is to be determined. The experimental arran-,~emcnt ras described in a previous paper of the authors ("Pribory i tekhnika eksperimenta", no. 1, 85, 19'0). In order to ensure the necessary current-pulse duration in the discharge circuit of the arrangement, an additional coil having an inductance of 1.,J~L 11 was used. With the aid of such an arrangement, it is possible to heat a palladium specimen electrolytically saturated tith hydrogen when sending a current Card 1/3  S/1 70/61 /'00,1/009/1012/013 Determination of the sublimation... B104/B125 "uIse throuah it, The sublimation energy is calculated from the time of interruption which occurs as soon as a certain maximum current ,3trength has been attained. The specimens wires were 0.1 mm in diameter and 25 mm in length. The sublimation energy was calculated from the CLirvent and voltage oscillograms which had been photographed from the V-1 screen of an oscilloscope. An analyse of this oscillogram. showed that in the cx-phase (0< C