SCIENTIFIC ABSTRACT BABKIN, V. I. - BABKINA, N. G.

05796 Some Remarks on Concharov's Paper "From the SOV/52-4-4-7/13 Domain of Combinatorics" The matrix of the second moments for (V19-yVk) is determined. Possible extensions for a number of states greater than two are also considered. In special cases there result the results of f-Ref 13~ The authors mention Gikhman. There are 5 references, 4 of which are Soviet, and 1 Anerics:n. SUBMITTED: May 23, 1959 Card 2/2  PASUKOV, Aleksandr Nikolayevich; KORSAKOV, Vladimir Petrovich. Prinima- Ii uchaatiye: DEMIYANOV, F.M.; MALYUTIN, S.S.j inzh., retsenzent; KAPOTOII, A.P., red.; KRASAVINA, A.M., tekhn. red. (Manual for checkers of radio measurement devices]Poveriteliu radioizmaritellrqkh priborov. Pod obshchei red. F.M.Dem'4-anova. Moskvs, Voenizdat., 1962. 453 P. (KRA 1518) ~Radio measurements --- Handbooks, manuals,, etc.)  BABKLN., V.I. (mm.--jw) Distribution of the point-3 of maxim= in a diffusion proceom with a variable parametler. Tsor. ve:tzdst. J. ee pxim. 9 no.22 373-378 "64 (MIRA 17 87)  po:ym:F-xin and &ntib:!ot!-,!s. t v.zli Zav&duy-izfihc-hfy ctdelc.~r.  SOV/129-59-2-10/16 AUTHOR: Babkin,, V. Engineer .~~M. -, TITLE: Influence of Tempering on the Structure and the Mechanical Properties of the A'loy ML5-T4 (Vliyaniye L otpuska na strukturu i mekhanicheskiye svoystva splava ML5-T4) PERIODICAL: Metallovedeni.,ye i Termicheskaya Obrabotka Metallov, 19595 Nr 2. pp 45 - 49 (USSR) ABSTRACT: The alloy ML5 possesses thS best properties after hardening in air from 415 C. In the hardened state, the alloy has the following strength indices: crb = 25 k&/MM213 5 = 8 - 10y0 . In a number of cases, it was not possible to attain these properties in the finished component. For instance, some of the components are impregnated with varnishes and enamels and are 0dried for 2 to 3 hours in electric furnaces at 200-250 C. Such x1ditional heat treatment changes the mechanical properties. The author of this paper studied the influence of repeated heating Cardl/4 on the structure and the mechanical properties of the  S 0 V1 v 2 9 -,a, 9 -22- 10/ 16 lafluence of Tempering on the Structure and the Mechanical k2operties of the Alloy ML5-T4 alloy ML5 in the hardened state. The specimens were preliminarily heat-treated acgording to the regime T4 (heating for 12 hours at 415 C, followed by cooling in air) and then subjected to various repeated heatings. On the mac-hined speci7aans, the mechanical properties were determined and the structure studied. 6n the basis of the obtained data,oproperties-tempering regime"curves lotted. The tests were made on sand-mould cast, were p.L 60 mm. long, 12 mm dia specimens. The alloy was manu- factured in. accordqnce with the currently used technology and poured at ?20 'C. The chemical composition of the alloy. was 8.Ylo A!, 0.5% zn, 0.3% Mn and 0.00196 Be. The properties-tempe.ring regime cu.-.ves were plctted on the basis of the data from a series of experiments carried out' at different times.. 15 tempering regimes were studied with heating temperatures of 1?5, 200, 225, 250, 300, 310 ard 400 DC. The heating duration for each temperature was 1, 2, 4 hours. It can be seen from the data graphed in Figure I that tempering has a considerable Card2/4 influence on the mechanical prcperties of this alloy and  SOV/129--9-2-10/16 Influence of Temper4ng on the Structure and the Ochanical Properties of the Allcy MI,5-T4 there is a tempering `5emperature regime as a result of which -the properties of the alloy will become poorer. In Figure 2, microphotos are reproduced of specimens Vrea-~Aed according to various heat-treatment regimes. The following conclusions are,arrived at: !) tempering at 200--350 `C for 4 Pours and also temper'ng for 1 hour at 2?5 - 350 ,C 'Leads to a sharp xeducto-lon in the mechanical properties of the preliming ily harden-d allov ML5. Components of the alloy Y1L5-T41 which axe heated in accordance with either of these 2 regimes ha:ve to be ha:zdened again so as 4.-,o re-establish the original preoperties; 0 2) heating for 4 hours at 20-175 and at 400-415 C as well as short-dura8ion (1 hour) heating in the range 0-225 and 400-415 C does not bring about any appreciable in the mechanical properties of the alloy ML5-.T4. Card3~4  SOV/129-59-?-10/16 Influence of Tempering on the Structure and the Mechanical Properties of the Alloy AM5-T4 Components which are worked in accordance with such regimes have properties which equal those after hardening and -do not require additional heat treatment. There are 2 figures and 3 references, 1 of which is Soviet, 1 English and 1 German. Card 4/4  S/908/62/000/000/007/0018 B163/B181O AUTHORS: Babkin, V. M.LBozin, G. 11., Gagin, Ye. N., Yeremin, L. V.*- -T--- --Yu. N., Orlovskiy, G. N., Petukhov, V. A., beTa Mov, Pisarev, V. Ya.t Sedov, N. G., Shorin) K. N. TITLE: 'Some starting"up and operating problems of the 680 Nev synchrotron S.01IRCE: Uskoritell elektronov na 680 Mev; sbornik statey. Ed. by Z. D. Andreyenko. Iloscow, Gosatomizdat, 1962. 64--74 TEXT: The momentary particle orbit during the first revolutions is distorted due to a,number of uncontrollable deviations from the ideal ma ne'ic r -"ield configuration. "his must be corrected in o der to capture a sufficient part of the injectpd electrons. Indicating devices measuring. deviations help to find the,initial conditions, e.g., the correct injection angle and timing Xor.uhich the free oscillations about the equilibrium orbit become minimal during the first revolutions. Similar methods vere used to correol. for deviations of the median surface of the magnetic field from the geometrical symmetry plane. Por these measurements Ccxd 1/3-  S/908/W000/000/007/008 Some starting-up and operating 4.. B16313180 a chopper vas used, consisting,of an electric deflector immediately behind thel 600 magnetic sector field in the injection line, by %-ihich short pulses of 1-2 gsec duration could be selected.from the injected beam. The signalling devices were flae:s and grids coated with lliminescent -aint, p sometimes in connection with. photomultipliers. In this Nay the orbit deviations could be reduced to 2-3 on, in radial in 1-2 om in vertical directi6n. In the quasibetEAron and the synchrotron acceleration stages the envelope of all oscillating orbits was measured by movable vanes L three or four in each seotox. In the first stage, about 15 psec, the acd~eleratin- field is discor:nected but the magnetic field is groving. When the momentary particle orbit has been reduced, at 0.2 to 0.3 mm per re-V'Olution, from the inflector to the central chamber radius, the accelerating electric field'i 8 sv itched on.- Under-optimal conditions, the capture coefficient is 2%, which corresponds to 2.5-109 electrons per cy-ole. To avoid undesirable re;3onance effects from the passing electron beam in the resonator during-the first stage the resonator is det 'uned, and, the second stage is performed a~u a spialler orbit radius. Y."hen the field is suitched off at the end of the accelerating cycle, the magnetic field- is still rising and the electrons hit the target, a tungsten vire 1 mm Card. 2/.)  S/908/62/000/000/007/008 Some starting-up and operating B163/B180 diam, inside the accelerat-ion orbit. The intensity of the y radiation produced was measured in a thick walled graphite ionization chamber. A total 7 energy per cycle of 2-10~ Vev could be achieved, and the number of accelerated electrons per cycle ras of the order of 108. There are 6 figures. Card 3/3  L 18914-6 3 EWP(q)/EWT(s.)/BDS AFFTC/ASD Jb1JG ACGESSIGN NR: AnOOM S/0129/63/000/009/0056/0057 AUTHOR: Babkin, V. -M. TITLE: Effect of zirconium upon the grain size of a magn'esium al lying 4.5% IVI SOURCE: Metallovedeniye i termicheekaya obrabotka metallov, no. 9., 3.963 56-57 -TOPIC TAGS: metal teening,, casting temperature, Zn., Zr, magnesium, alloy, metal alloy, allcV structure,, Ma2 alloy, zinc, zirconium, Mg ABSTRAM Author studied the effect of zirconium upon the structure of a magnesium alloy containing 4.5% Zn. A series of alloys'was prepared for testing.1 They contained varying content of' zirconiun with identical zinc content. Remainder ww magnesimo Author found that zirconium has to be introd-ured into the allcy at high temperatures so that maximum saturation of the moltea-alloy with Zr would be asoured. Teeming should be done at sufficiently high temp- eratures so that zirconium losses; would be prevented while cooling the allcy down to casting temperature. The alloy should be cooled down to casting temperature rapidly, immediately prior to pouring into molds. In order to obtain' Card 1/2  L. 18914-63 ACCESSION NRt. AP300M a stable fine grain content in ML12 alloy castings, tbp minimm zirconjun content in the alloy should con-slit-of 0.6 to 0.75%. Orig. art* has: 2 figures, ASSOCIATION2 none SUEHITTEDs 00 DkTE ACQs O3Oct63 ENmt 00 SUB Colo: ML NO REF SOV: 001 OTHERs 001 Card V2  BABKI~r ~Mikha~loyich; GRITSMAN, Yu.Ya., red.; PRONINA, N.D., tekhn. red. - [Lesions of the mcnisci of the knee joint) Povrezhdeniia meniskov kolennogo sustava. Moskva,. Medgiz, 1963. 86 p. MRA 16:7) (KNEE--WOUNDS AND INJURIES)  23464 S/114/61/000/007/003/003 1~2 0 E194/E455 AUTHORS: Polyatskin, M.A., Candidate of Technical Sciences, Shatill, A.A., Khaynovskiy, Ya.S., Engineer and Babkin, V.N., Engineer TITLE: Natural gas burners for gas-turbine combustion chambers PERIODICAL: Energomashinostroyeniye, 1961, No-7, PP-34-36 TEXT: In designing the combustion chamber for a gas turbine type PTY-50-800 (GTU-50-800) burning natural gas, insufficient information was available about burner design. Accordingly, TsKTI and KhTGZ made a joint investigation of burners in an experimental combustion chamber which was described in an article by M.Polyatskin and Z.M.Svyatskiy in Teploenergetika, 1959, No.2. The main object was not so much to find the best burner for burning natural gas as to study the main features of certain very different types of burner. Accordingly, besides studying complete- ness of combustion, an attempt was made to study the Influence of the burner design on flame structure. As the process of mixing gas with air governs burner operation, three types of burner, illustrated in Fig.2, were tested. The first of these (Fig.2a) Card 1/4  23464 s/114/61/000/007/003/003 Natural gas burners E194/E455 uses a conical swirler, which allows preliminary mixing of gas and air in the actual burner. The second (Fig.2b) has a flat swirler with hollow blades, gas being delivered through holes in the blade; it allows only partial mixing of fuel and air in the burner. In the third type (Fig.2B) the gas and air are mixed in the actual combustion chamber. A number of variants on these basic designs were tested. The usual kinds of measurements were made and, in addition, gas samples were taken for analysis at various places in the flame tube and measurements were made of the gas temperature, Curves of completeness of combustion and of temperature distribution were plotted and the influence of various minor design modifications on the performance were studied with such curves, With natural gas, combustion was most complete with the burner with conical swirler but it could operate only over a narrow range of excess-air factor. The burner with flat swirler with the gas delivered through hollow blades was more stable, particularly when there was no preliminary mixing of gas and air. Studies of temperature distribution and gas analysis distribution were made with various design modifications and, in general, the following Card 2/4  S/114/61RA/007/003/003 Natural gas burners E194/E455 conclusions are drawn. When burning liquid fuel, it is desirAble- to have a fairly strong axial return flow of hot combustion products to heat up the liquid fuel and to stabilize combustion. However, when burning natural gas, the axial return of a large quantity of heat to the root of the flame usually gives inadequate oxygen and can lead to soot formation. With natural gas, quite a small return flow, required to ensure stable ignition of the mixture, is sufficient. None of the burners tested was good in respect of completeness of combustion; the main reason for this was that methane was carried away along the walls of the flame tube where the temperature is lowest with high excess-air factor. if preliminary mixing of the fuel and air is reduced, the range of stable operation is widened. It is expected that the experimental data on flame structure will be useful in designing the distribution of air and fuel over the chamber section. There are 5 figures and 4 Soviet-bloc references. Card 3/4  POLYATSKIII, M.A., kand.tekhn.nauk; SHATILI, A.A., kand.tekhn.nauk; YJiAYROVSKIY, Ya.S., inzh.; BABKIN, V.N,_~nzh. Certain data on'heat exchange in the combustion chambar of a gas turbine system operating on natural gas. Teploenergetika 8 no.7: 68-72 J1 161. (MIRA 14:9) 1. TSentrallnyy nauchno-issledovatellskiy kotloturbifinyy in- stitut imeni I.I. Polzunova i KharIkovskiy turbogeneratornyy zavod. (Gas turbines) (Heat-Transmission)  ~ z ~ :-, ~-, ~ :9. Ilse of reinfom(A conertte pcdcL. I 8 no.607-38 Je 164. 111 12 RA 17 16) 1. AlroJzvoditelf rabot spot s A all. zirovannopo upravicniyu No,676 tresta Transsignalstroy.  112-2-48o9 TRANSLATION FROM: Referativnyy zhurnal, Elektrotekhnika, 1957, Nr 2, p. 334 (USSR) AUTHORS: Sheyvekhman, B. Ye.,jjabkin, V.P., Glekin, G.V. TITLE: Determining Average Threshold,Magnitudes of Sound Intensities Perceptible to the Adult Human (Opredeleniye srednikh porogovykh velichin intensivnosti zvukov, vosprinimayemykh vzroslym chelovekom) PERIODICAL: Probl. fiziol. akustiki. Z. Moscow-Leningrad, Izd-vo AN SSSR, 1955, PP. 75-80 ABSTRACT: The experimental determinationSof the average threshold magnitudes of sound intensity perceptible to the Adult human are given. Two thousand people in the 16 to 25 year age group and not suffer-ing from haariag defazts were studied. Tones of 100, 200, 450- 1,000, 1,500$. 2jOOO, 4,000, 6,000, and '17,000 cps were used. The distribution of values obtained for threshold sound intensity levels expressed in db conforms well to the normal law. Results of measurements at various frequencies were scat- tered with various degrees of dispersion. At medium frequen- cies 4,000 to 2,000 cps), the steep slope of the distribution curves is a characteristic which testifies to the small deviatio Card 1/2  112-2-48og Determining Average Threshold Magnitudes of Sound (Cont.) of the data from the average value. [The dispersion increases as the distance from the medium frequencies changes in either direction) For example, at 1,500 cps the standard deviation is 4 db, and at 200 cps, 9 db. An averaged audiogram was made from the arithmetic means for the tones of all the frequencies in- vestigated. The frequencies in cps were plotted along the abscissas, and the intensity levels of sound in db along the ordinates. 98 per cent of the measured threshold magnitudes of sound intensity fell in the same zone as 98 per cent of the measurements made by the Bell Laboratory and the U.S. Depart- ment of Health. N.Ya-K. Card 2/2  D I\ I I'V,) Y. I " SHEYVBEMIAN, B.Ye. [deceased]; RA13KIN. V.P. The problems of spectral analysis of strong auditory stimuli in laboratory biological experiments and under factory conditions. [with summary in Inglish]. Biofizilm 2 no.1:112-118 157. (MISA 10:3) 1. Institut biofiziki AN SSSR. Moskva (MURING)  BABKINq V.P*- ROZEN9 O.M.; TUMARYJNA~ L.N.; ~BER14Mp R.I. Study of vibration sensitivity and factors affecting it. Biofizika 6 no. 1:61-67 161. (MIRA 14:2) 1. Akusticheakiy institut AN SSSR, Moskva. (VIBRATION-PHYSIOLOGICAL EFFECT)  BABKINs V.P.S* ROZENt O.H.; TUMARKINA, L.~.,- CHERMK, R.I. Study of the mechanism-bf vibration frequency discrimination using models of the-So6bXea and the cutaneous receptor, Biofizika 6 -- no. 2:191-191 161. (MIRA 14:4) 1, Akusticheekiy institut AN SSSRp Moskva. (HURING)  BABKIN, V.F., inzh. Greater precision in the calculation of ax.,&! forces in hydrodynamic transmissdons. Izv.vys.ucheb.zav.; gor.zhur. 8 no.11:119-123 165. (NIRA 19:1) 1. Karagandinskiy politekhnicheskiy institut. Rekomendovana kafedroy gomykh mashin. Submitted December 12, 1964.  30995 S/124/61/000/009/016/058 D234/D303 A UTHORS: BabkIn, V. S. and Kozachenko, L. S. TITLE: Rise of detonation in gases in rough pipes PERIODICAL: Referativnyy zhurnal. Mekhanika, no. 9, 1961, 70, abstract 9 B512 (Zh. prikl. mekhan. I tekhn. fiz. , 1960, no. 3, 165-174) TEXT: By means of "Schlieren" frame photography, pre-det- onation spreading of flame in a rough half-closed square pipe are Investigated. Two opposite walls of the pipe were made from plane- parallel optical glass, on the other two walls roughness was formed by gluing on brass chips or porcelain fractions. Combustible mix- ture of H, 0 and air was fed into the pipe through a mixer, the com- position of the mixture being controlled with the aid of Venturi tubes. Ignition of the mixture was caused by a weak electric spark at the closed end of the pipe. As a result of the experiments it was established that the curves of the increase of the velocity of Card 1/4  30995 S/124/61/000/009/016/058 Rise of detonation in gases ... D234/D303 flame spreading with time v(t) for mixtures of different composi- tion have a point of Inflexion, I.e. the flame Is Intensely acceler- ated twice: once at the beginning of spreading and once at some in- terval before the Instant of detonation. Characteristic Is the vari- ation of the extension of the domain of combustion 9 which corres- ponds to these two stages of flame acceleration. In the first stage 6 increases together with the flame velocity v, then, in the vici- nity of the point of Inflexion of the curve v(t), there is a strong decrease of the extension of the domain of turbulent combustion. The second stage is again characterized by an increase of G up to a certain maximum value. $max' and, although the velocity of flame spreading increases further, the dependence 6 (t) becomes decreasing. From this the authors conclude that at some Interval before detonation the dimension of the domain of turbulent combus- tion decreases instead of increasing as assumed in many papers on pre-detonation spreading of the,flame. The flame spreading in the second stage Is described as accompanied by the formation of a shock wave near the flame front. At a determined velocity of the Card 2/4  30995 S/124/61/000/009/016/0.53 Rise of detonation in gases... D2-34/D.303 shock wave shich is readhed in the process of acceleration, the Mcclianisra of initial ignition of the nixturc changes: The mi%,Vure begirw to inflame with a very si;iall period of induction on the rougil surf ace s imr..iodiately - behind 11-he shock wave which i s f ol lowce, by the lual spreading of the flar-.ie towards the cc;-atcr of the scction of- grae the canal. A structure is fonned which is called in the paper "the complex of turbulent flame irith shock wave". The spreading of such a compleiz ends by detonation at its front. From an cstimation of the state of -as'.iTV of the shoch wave with art4f4 the L-tteraction L - -_ thc -aid "rom the result- cial rough surfac,~p*on the walls of pipe of spveral compllem~ntary ex.-periments" the conclusion is ;~.iade that the principal part in the ignition oF the mi:.-ture irm-.icdiately behind the shock wave is played by the local rise of temperatures and pres- sure during reflectioii of this wave at the elcments of roughliess. In the first stages of flame spreading, roughness can, beside its part in the turbulization of the mi;cture, also retain volumes of fresh mixture in the layer at the walls, whose combustion bchind the flame front increases the total surface of- the flame a-Lid so Card 3/4  -30995 &'J/124/61/000/009/Olb/0.58 Rise of detonation in gases... D234/D303 leads to an iiicrease of combustion velocity. It follows from the -hat in the la&tIstagc of the pre-detonatio experimental results L rL period the velocity of combustion-is determined by the velocity 0. the shock wave at the front of the complex, which realizes, as it were 7 a continuous forced i-nition. of the mixture on the rou-h sur-i I-aces. The new domain of - turbulent Elame, so formed, develovs and reinforces the shock wave'to an intcns'it hich is sufficient for detonation iLnition. 20 references. Abstracter's note: Complete translation.,7 Card ~~/4  B B -Vj$,..; KUZNLTSOV, I.L.;, KOZACHENKO, L.S. Mfect of curvature on the rate of propagation of a laminer flame in a poor propane-air mixture. Dokl. AN SSSR 146 no-3:625.-627 6 %Z, 03RA 1540) 1. Institut Irbizoicheskoy kinetiki i goreniya S~birskogo otdeleniya AN SSSR. Predstavleno akademikom S.A.Khriatianovichem. (Flame) (Propane)  BA-BKIN, V.S.; KOZACHENE0, L.S.; hUZITETSOV,. I.L. (Novosibirsk) Effect Of Pressure on the normal flame velocity of a methane- air mixture. aITF no.3:145-149 My-je 164. (MIRA 17:6)  BABKIN,_)~-.~. (NOvOsibirsk); KOZACHENKC, L.S. (Novosibirsk); KUZNETSOV, I.L. (Novosibirsk) Use of the constant-volume bomb technique in measuring flame velocity. PMTF no. 61l28-131 N-D t63. (MIRA 170)    KOCHKAREV, A.Ya.; BABKlN, V.S. Effect of the ribbing of the pump disk on tohe aX4&l forces of a hydraulic torque converter. T---Ldy LPI no.24,6r731-76 165* (19RA 18r6)  -1 6422.w66 ACC W AP5026076 V`W/'a1/__W1';/ SOURCECODE: AUTHOR: Babkin,V.S.;Kozachcmko,L.S. ORG: None 'Wc)/~-'TC(M) RFL UR/0405/65/000/002/0114/0117 TITLE- Energy losses during exj$oslons in a spherical bomb SOURCE: Nauchno-teklmicheskiyo problemy gorenlya i vzryva, no. 2, 1965P14-117 TOPIC TAGS: bomb, combustion qqMbuatlon theory, combustion Idnetics, -gas pressure, explosive charge ABSTRACT- In the past, explosia.as within spherical bombs were used forohe deter- mination of various chemical and J)hysical quantities such as heat capacit-f and dis- ss proper _S;Z~ame the subject sociative heat). Recently, however, the combustion proce of intensive theoretical research. A survey of numerous experimental data led V. F. Baybitz a n d - VY: ~' 'E_ Q,*yp 49 Raboty ~A_t ~edvedev to the conclunions (ZhFEh, 1962, 36, 6; Tr. G1PK , $ po termodinamike I kinetike khimicheskikh protsessov, Goskh _~,_L. imiz6a , 1962.) that energy losses caused by the incomplete combustion of the mixtince In the boundary layers may be quite significant. Assuming that this viewpoint Is correct, the authors of the present article derive simple formulas for the determination of the correction for the experimentally observed finite pressures within the bombs. The constant entering the basic formula can be obtained from a series of comparative tests. Orig. art. has: 13 fCTmulas. I ~ ~ I . UDC: 541.126 VIL SUB CODE: WA FP ME / SUBM DATE: 12Jan65 / ORIG-REF- 006/0THRER00 C6rd  L 06107-61 EV1P(.j)/DH(1)/EWT(m)/r-SS-2 RiiAc rAZC NR. 6029755 ('4) SOURCE CODE: MA14/66/000/002/0052/= AUTHOR: Babkin...V-S. (Novosibirsk); V1yun, A. V (Novosibirsk); Kozachenko L. S. (Novosibrr-sk) ORG: none A TITLE: Study of the effect of pressure on the normal burning velocity by the method of the initial section in e constant pressure bomb SOURCE: Fizika goreniya i vzryva, no. 2, 1966, 52-6o TOPIC TAGS: combustion, flame, burning velocity, hydrocarbon fuel r 5's OR F- ABSTRACT: Experiments in a constant volume bomb were made of the effect of pressure on the normal burning velocity of stoichiometric mixtures of benzene, n~~tanp,~ and isooctaneAwith air at 1-16 atm and an initial temperature of 150C. It Vas found-lFa-f-a linear relationship exists between the expansion coefficient of the com- bustion products and the terminal explosion pressure. This relationship can be expressed by the approximate formula E, 0,85 Pe UDC: 536.4f  L 08107-67 ACC NR: AP0629755 (pi = initial pressure, pe = terminal pressure). This formula -oermits the calcula- tion of the normal burning velocity from the experimentally de-Cermined apparent flame speed and the terminal pressure. In all fuels tested, the normal burning velocity- decreased with increasing pressure. The exponents in the relationship S = p n (S = normal burning velocity, p := pressure) ranged from -0-17 to -0.35 an for different fuels and pressure ranges. Orig. art. has-, 11 formulas, 3 figures, and 1 table. SUB CODE: 21/ SUBM DAM 08Aug65/ ORIG REF: 008/ OTH REF: 008  ACC NRt AP7000644 SOURCE CODE: UR/041)~/66/c)oc)/oc,-~/007'(/0086'- AUTHOR:, Dablcln, V. S.V-ovoribi'rsk)i'~ozachenlco,* L, S. (Moscow) :ORG: none ~TITLE: A study of the normal burning velocity of methane-air mixtures at h*-',r.,h pressures R 0 .SOURCE: Fizika goreniya i vzryva, no.3, 1966, 77-86 TOPIC TAGS: Combustion, gas combustion, methane, burning velocity, combustion pressure effect U.~ lql&,q PeES-5Ule4E ~ABSTRACT: An experimental study was made of the burning U U velocities io-L methane-air mijctures at pressures of 1-70 a"Um, initial temperatures i ;of 50-- 200C, and composition of 6-- 13% methane. The experiments were I ,conducted in a spherical steel bomb 183 mm in diameter. The mixture .was spark ignited, and the velocity was determined in the initial U L' U I c~ ,section. Some of the results are shown in Figures 1 and 2. 1/4 UDC: 536.4068 ----------- - ----- --------------  ACC NR- AP7000644- 4C Z) 2 81 0. 20 4 60 Fig.. 1. Dependence of the normal burning velocity S -he U on the pressure and temperature with mixtures containing 9.5% (1) and 8% (111 methane. '16- 500; 1500; 4- 2009C* 2- 100 3 A  ACC NR: AP7000644 20 Fier. 2. Dependence of on -io S the pressure and the methane an 6 content in the mixture at __L~ 5 initial temperature T -1500., 1-1-T-IT .. 4__ 1-1-FiT 1% 120-11 1 2 1", 3- - 4- 13' 5- 6%-; 6- 7~'; 7- 8%;"'A- 9-5~ 6 methane. IThe pressure and temperature exponents in the correlations for the U $4 burning velocity were calculated on the basis of the ther-nial'theory of 1'.[*lame propagation as a chain reaction with one active center. It was Ahovm that the-pres sure., exponent n is a function of the mixture com- position, femperature,.and pressure. L. In the 1-8 atm range,n decreases :an1d "in the 6 :--- 70'_e,,iC*rii%*d, it *:~_s prdcticall~ constant. * The exponent in has.a maximum cl*ose to the stoichiometrie composition. Vne tempera- L;Qrd 3/4 40  17 ACC NR; AP7000644 tlure exponent m is a function of the composition and pressi.-ae. The exponent n. has a maxiinum of about 2 at a stoichiometric co-wposition. brig.art.has: 3 formulas and 5 figures. LUB CODE: 21/ SLMM DATE: o5yar60"/ ORIG..REF: 006/ OTH Ml?: 002  J`N PY D A- -4- " ' ) i ') AUTHOR: Babkin, V.Ya., Engineer (Sverdlovsk) 28-4-2'8/35 TITLE: C70ST8032-56 is in Effect (6rOST8032-56 v deystvii) PERIODICAL: Standartizatsiya, 1957, #.4, P 79 (USSR) ABSTRACTs The author of this short note points out that the present- ly used norms for the chemical industry do not conform with the preference numbers standard, rOCT6032-,56, and suggests a revision. The normalized series for container bottoms and jackets have shown that-this standard results in a reduction of the variety of designs,.in an inervased serial production and reduced raw material consumption. AVAILABLE: Library of Congress Card 1/1  BABKIN, V.Ya.. inzhener (Sverdlovsk). -NNOW ~ The All-Union State Standard No..~032-56 is in operation. Litwidartizataile no.4:79 Je-Ag 157. (Kw 10:9) (Chemical apparatuo-Standards)  1. BAPKIN, Ya. L. 2. USSR (600) 4, Evaporating Appliances 7. Lengthening the life of steel pipes in evaporating apparatus. Sakh. prom. 27 No. 5, 1953. 9. Monthly List of,Russian Accessions, Library of Congress, April -1953, Uncl.  5(2) AUTHORS: Tl=: PERIODICAL: ABSTRACT: Card 1/2 SOV/80-32-5-45/52 Titov, V.A. Babkin Yu A Balandin, I.M. The Corrosion of Metals in 'Ehiony1ch-loride Zhurnal prikladnoy khimii, 1959, Vo' 32, Nr 5, pp 1167-1169 (USSR) Thionylehloride is the raw material for dyestuffs, moving picture films, pharmaceutical products, etc. With the moisture of the air SOC12 forms S02 and HC1. Its corresion activity Is not yet investigated. Ex- periments were made therefore under laboratory and industrial conditions, In the first ca:ze the pure substance was used, In the second case a mixture of 80% SOC12s 2.7% dissolved gases and 17.3% chlorides. It has been shown that the resistance of copper and titanium it very low, being 131.5 mm/year and 6.8 mm/year, respectively. 'The corrosion of the steel of EI-461 acid lKhl8NqT grades was 0.01 and 0.02 mm/year, respectively. Both stee2s have also a high ductility,, toughness and good weldixZ pro- perties. EI-461 is very expensive and can be used only for a small number of apparatus parts.  The Corrosion of Meta.-Is in Thionylchloride SOV/80-32-5-45/52 There are 2 graphs and I table. ASSOCIATION: Moskovskiy institut stali (moscm ITLstltute of Steel) SUBMI=: fAaY 30, 1958 Card 2/2  82"5 s/149/6o/ooo/0o4/oo9/oo9 AUTHORS: Babkin, Yu,A., Tomashov, N.D., TLtov1_V.A., Konstantinov, V.I. T=- Corrosion Resistane0of Tantalum-kobium Alloys in Sulfurous Acid PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Tsvetnaya metallurgiya, 1960, No. 4, pp. 15_3-156 &( TFXT; The authors investigated the corrosion resistance of tantalum-nioblum alloys in sulfurous acid at various temperatures. Tlie alloys were prepared of electrolytic powders by the metalloceramic method and subsequently rolled into sheets. Specimens were out out of the unannealed sheets. The tests were performed with specimens of pure tantalum and niobium and their alloys with a Ta content of 21.6; :54; 48.9; 51.1; 67.) and 70.8 atomic %. The amount of admixture In the al-loys did not exceed 0.1%. Prior to the tests the specimens were polished, washed and degreased. Corrosion tests were performed a-"-- 20 and 600C with flasks with ground stoppers. At 110 and 1500C the experiments were carried out with soldered glass ampoules placed in metal cylinders with screwed-on stoppers. To prevent the destruction of ampoules by internal pressure, the cylinders were filled with water whose vapors produced the necessary counter-pressure. The flasks and cylinders were kept in a thermostat for 20 hours. During the tests, measurements Card 1/_3  82U5 S/149/60/000/004/009/009 Corrosion Resistance of Tantalum-Niobium Alloys in Sulfurous Acid were taken of the corrosion rate (J-n g/m2 hr)~. proneness to crystallite corrosion; changes In -the mechanical properties, and electrode potential. The irreversible electrode potential was measured every r,-10 minutes during 3_4 hours by the con- ventional. potentiometric circuit. A calomel electrcde served as a comparison elect-lode. The following results wen obtained.- Corrosion of pure niobium and m6nium alloys with 21.6; 34 and 48.9 atomic % Ta was observed in 90% H2SO4 at 1100C. An increased Ta content made the alloys corrosion resistant in the same degree as pure Ta. Proneness to crystallite corrosion was not observed. During the corrosion process changes In tKe mechanical properties of niobium and the alloy with 21.6% Ta took place as a result of hydrogenization. In 90% H2S04 at 6ooc, nioblum corrosion depended linearly on the holding time at a mean rate of 0.354 g/m2.hour. The n1obium alloy with 21,6% Ta corroded noticeably after 100 hrs. Maximum hydrogenization of niobium at 1100C was observed In 60% H2SO4- Niobium and its alloy with 21.6% Ta corroded, depending on the temperature, ac- cording to the exponential equation Q K = Ae - ITT where A is the constant; Q is the aciivation energy of the process in cal/mole, Card ~/3  82445 s/149/6o/ooo/0o4/0o9/bo9 Corrosion Resistance of Tantalum-Niobilim Alloys in Sulfurous Acid R Is the gas constant, and T is the temperature in K scale. The activation energy of n1obium is 5440 cal/mole and 15,000 cal/mole for tbe alloy. It was established that Ta-Nb Alloys, beginning with a Ta content of over 30%, were almost fully corrosion resistant in 90% 112S04 at 1100C. This approaches the resistance of pure Ta. The allor. ca-n be recommended to be used as structural and coating materials for equipment and structures operating under similar conditions, There are 4 graphs, I photo and 4 Soviet references. ASSOCIATIONg Moskovskiy institut stali (Moscow Steel Institute) Kafedra korrozii i zashch4ty metallov (Department of Corrosion and Protection of Metals) SUBMIWED, August 20, 1959 Card 3/3  SOURCE, Vsesoyuznaya nauchno-tekhnicheskaya konferents;* o p~jobiente vibratsi- -Y onnQzo i goren~ a. 1961. Trudy. Moscow, Sektor nauchno- _ ___ ~ _ =~~ - - -- - lyi - tekhn. inform. GIAP, 1962, 25-30 TOPIC TAGS: pressure sensor, pressure measurement, precision instrunent design, ion exchange resin ABSTRACT: Electrokinetic pressure gauges ake use of the phenomenon of flow poten- 'tial which arises when a polar liquid passes through a system of capillaries or a !porous membrane made of insulating material. With regard to this: E P 4rna where E and P are the potential an*d4pressure differences with respect to both sides! of the membrane;'t is the zeta potential determined by the propertios of fhe mem- brane and the liquid; Es n and c; are the permittivity, viscosity and conductivity Cord 1/5  L 346,c)1-65 'ACCESSION NR: ATS004083 of the. liquid. ...,An electrokinetic pickup (see Fig. 1 of the Enclosure) consists Of a body I and a porous membrane'216A miade from a good dielectric, end membranes 3 A" and current-collecting electrodes 4. If the membranes are only interfaces between the ambient medium and the working fluid and do not introduce any forces of elastic resistance into the system, the sensitivity of the unit E/P remains constant within an extremely wide range of pressures and frequencies with almo:;t total absence of I phase and frequency distortions. This property, combined with the fact that the internal resistance is practically free of reactancet makes the electrokinetic gauge indispensible for quantitative measurements of the broad spectra of pressure oscillations. The sensitivity of an electrokinetic gauge for a giver, membrane- liquid pair is inversely proportional to the electrical conductivity of the liquid. Previously designed gauges of this type have not been widely used because of low pressure sensitivity, non-linear characteristics due to the use of metallic elastic membranes and tine instability of the sensitivity duq to the change in conductivity of the liquid as soluble components are leached from the material in contact with the liquid, including the oxide film on the surface of the metal parts. TheBe dis- advantages a-.-e eliminated to a considerable degree in an instrument developed for . ts special measurements in pulsating flows (see Rig. 2 of the En(aosurel. All pa- of the gauge which are in contact with the liquid are made frx)m plas-tic:15the body i Card  L 34691-65 ACCESSION RR: V5004-083 of the gauge and the porous membrane from plexiglass, the end membraries from a thin polyethylene film 0.05-0.03 mm thick. There are no metallic electrodes in the gauge. The secondary pu4es are taken off by coating the inner surface and ends of the gauge with graphit .~ The working fluid is pure water. In order to maintain the conductivity of the water at a minimum and constant level, ion exchange vtcbil-~' ,ization is used. H and OH ion exchange resins are introduced into b:)th cavities of! the gauge. A detailed description of the construction, operation and character- !istics of the gauge is given. The sensitivity of the instrument is 50 Watm, the 1potential difference at P =6 kg/cm2 is 300 v, the internal resistance is about 1-5-t. 2.5 mg, and the sensitivity of the instrument remins constant within a temperature Irange from 1 to 600C. The gaW breaks down above 600C when the ion exchange resins begin to decompose. Orig. art. has: 3 figures, 5 formulas. it.SSOCIATION: none ISUBMITTED: 29D.~c62 [No REF SOV: 003 card 315 ENCL: 02 OTHER: 003,  L 34691-65_ AMSSION NR: ATS004093 ENCLOSURE: 01 P Fig. 1. Diagram of electrokinetic pressure gauge: 1--bcdy; 2--porous membrane i3--end membranes; 4--current-collecting electrodes Card ----------   1. DADK.R! Yu- L.: IAYSMAN, M%L'W. 2A' USSR (600) 4. Steam. Boilers 7. Operation of a steam conpressor installation at the Elant-Kolenovskii suEar factory. Sakh. prom., 26, No. 12, 1952 9. Monthly List of Russian Accessions, Library of Congress, February -1953. Unclassified. I  TKA IN. Tu.L.I ~141 Stow Jet starter. Bakh.prom. 29 no.2:28-30 '55. (Km 8:6) i. Kupyanskir wakb&rwy rayod. (Steam jets) (Stow boilers)  BABKIN, Yu.L. Valveless priming of centrifugal pumps. Sakh.prom. 29 no.7: 34 '55. (KLRA 9:1) 1.Kupyanskiy eakharMy zsvod. (Centrifugal pumps)  AUTHOR: Babkjn, Yu.L., Engineer. lo4-4-27/4o TI12LE: 1ff_-1_n_df6~atoi of the load on drum type ball mills. (Ukaza- tel zagruzki barabannosharovykh mellnits.) PERIODICAL: "Elektricheskie Stantsii" (Power Stations), 1957, Vol. 28, No.4, pp. 81 - 82 (U.S.S.R.) ABSTRACT: The efficiency of operation of drum type ball mills depends to a veW large extent on their being correctly loaded. However, theXEI is as yet no instrument by which the loading of mills can be measured under operating conditions, partic- ularly when working without an intermediate bunker. The widely used system of estimating the load on the mill from its res-- istance can only be used on a system with intermediate bunkers when the resistance of the entire dust tract remains reason- ab,ly constant. The method of reindating the load on ball mills used on imported machines ~:For example Foster-Wheeler) is unreliable when milling wet coals and is applicable only to short mills fed frcm both ends. Experienced operators with good hearing are able to regulate the load on the mill by ear. This is because when the mills run empty they have a characteristic metallic noise and when overloaded they have a 1/3 weak soft noise without distinguishable metallic note. Hence the optimum conditions of operation should correspond to a  An indicator of the load on drum type ball mi definite level of metallic noise. Altliough experienced men can judge the opemtion of a mill by the sound with success they tire after a time and lose their sensitivity. An instiu- ment was therefore developed and tested to indicate the load on the mill on an arbitrary scale* The instrument consisted of a microphone, an audio-frequency filter which passes high frequencies and suppresses low frequencies, an audio-frequenoy amplifier with an undistorted sound output of not less than 2 W and an indicating galvanometer with a tuned the=o-elec- tric rectifier supplying the galvanometer. Details of the equipment are aescribed including protection against dust and the circuit is given. Thermo-electric rectification of the audio-fre quency current was found to be most satisfactory for although other rectifiers reVire less amplification they do not give a steady reading. The method of adjusting the equip- ment is described. The instrument is more sensitive to undar- loading thanto overloading but it always reacts sooner than the most experienced man to changes in conditions of fuel supply. The instrument requixes adjustment about every 4 - 600 hours of working, it costs about 800 - 1 000 Roubles 2/3 excluding the galvanometer. The instrument was tested for mcre than 6 months in the boiler house of a sugar factory and  -1 30088L6 WMR/rIs ACCESSION M- AT15004092 S/OOiDO/62/4)00/000/0088/.'640r�4 Z/7 AUTHOR-. Babldn, Yu. L. 7TTLE: Pulsed combustloll of liquid fuels SOURCE: V8osoyuznaya VIucbno-teV%Icbeskaya konferentsiva po probleme vibratj4ionnogo i pul Isatsionnogo gorenipa. _S&kFor_ngu-c_hno-~Wr_hn, iff6ri-m, UL", IN2, 88-94 I:TOPIC TAGS: combustlon,,pids6d 6oinibustion high power combustion, PI 6d-c6nibuiati I%' 'chamber, pulsed combustion boiler, boiler Zign ABSTRkTi- In vl of thi for -a-sharp ieduction in size of power-~prb fig. boiler i_ ew ne - Anal aggregates, the EaBtern Affiliate of the VTI in Chelyabinsk bns conducted investigations, since 1958, in connection with the d Ign of industrial equipment using the intensive vibrating combustion of gaf, andfuel oil. The approach was motivated by the known data i3 the scientific literature wh-.ch indicated that one should be ableto: a. create very intensive p-3 and fuel oil combustion in small-Eiize chambers; b. achieve external flares with apprmdmately evem low lumiInance duiIng gas and fuel oil combustion; c. achieve large beat generation densities without any gignificant increase in blast; and d. increase the convective heat exchange ai, the expenlite of oscillatory accelerations and utIlize the vibration Cord 1/2 M WIN N I FINIFIRM 1"I WIN M M MI 0 an MI rim M  ACCESSION NR-. AT600409M 7~' self-blowout of the heating surface. T'ne article describes tents carried out in special chambers for pulscd cornbuE tion xvith ii-I .wh,1-!,!t aer-odynarnk -alve,;~ as Nvnll a5: in a counter-phase chamber (which proved r,,saltis LLat P,,dsea corr..Lusu~,n Oiarnberq cannot he desi~me-i as a kinfl, of adaptet- to the ex.-.L',t_ng eqL.ipment. niis t~,Oe c-.f cornhustion requires the developmer; !)I ch-InDel-less . buitcr- Their construction, lining, ind insulation must bt- rt-sistani t- vibr,.t-ons, and ,her outer air ducts must be souxid absorbent. A special bureau of the Tagaurogsldy iwtel'nyy zavod (Taganrog Boiler Factory) is presently designing such & special boiler to satisfy the ah.)ve-mentic,nc-1 roquirernents. Orig art. has: 4 fi~rures. VSSOCIATION: nore f I LMMM ED: 2f,Dec,62 FNCL: 00 SUP C(7)Df: FP  L 27072-66 _ACC NF~_~ SOURCE CODE., )027 AUTHOR: Babkinj Yu. L. (Engineer) ORG: VoFVTI TITLE: Pulsed-burning chambers as steam boiler heating devices SOURCE: Toploenergetika, no. 9, 1965, 23-27 TOPIC TAGS: steam boiler, electric power plant &B~TRACT ,In regard to Increasing the specific capacity of the heating elements.of steam boilers* the pulse-burning phenomenon Is of interest. It promises: increasad specific heat transfer; self-intake as in pulse-jet ';motors; very. high forcing of the vibrating tubest up to 100,106 W/A 'a fuel oil flame with radiation characteristics similar to those of a gas flame; and use of the pulsation of the gas flame for cleaning the burning surfaces of external contaminants.' One principle problem in the development of a pulsed burner has been the development of valves to insure one-way 'traffic" of burning mass in the chamber, Plastic will not withstand the heated Input air and'metal "flapping" valves fatigue too quickly. A rotor valve requires continuous control of speed, to synchronize it with the instantaneous resonant frequency of the system. The answer is an aerodynamic valve with no moving ,partst in which the incoming inert air mass acts as a llpluglt against reverse UDC: 621-'.43.056:621.182.9.001*3  -L -27072-66 ACC NRr AP6017465 flow. With a refinement of.,this device, plus a preliminary"resonant chamber where the fuel is atomized, an experimental model achieved the goals desired. A description and diagrams are presented for a heatin unit Installed in V .1963 under a medium pressure boiler producing 70 tJhr91 at the Ufimskaya Heat'!' i and Electric Power Station, Experience with this unit indicates that the major areas for future development are th9se Qf mixinig and heat treatimnt of 1~ the fuel* Orig, arte has: 6 figures, LiPRSI SUB CODE.- 10, 13 SUBM DATE: ORIG REF-, 008 OTH REF.-. On Card 2/2  -B-ABKIN, YU.M. The operation of the speedometers has been improved. Klek. i tepl. tiaga 7 no-4slO Ap 163. (MMA 160) 1. Noosvobozhdennyy brigadir tsekha po remontu skoicoftsm wo depo Samarkand Tashkentskoy dorogi. (Railroads-Equipment and supplies) (Speedometers)  vote.-~- v r Erys ipe lilt nim, septivemin of turkevs. 40~io-8':"1-,-55 Ag 163. BabkLna, Priduriyeva). 2. GM%-iiy,1j veter1narn.,r:,, "Il pyatiletka" Voi,onezhskoy obla-s-L-J. (for  KOZHEVNIKOV, Ye.m., veterinarnyy vrach po boleznyam ptitsi GOLYSHKIN, I.M., veterinarnyy vrach po boleznyam ptits; DMIITRIYEVA, P.m..* veterinarnvy vrach po boleznyam ptits; BABKINA A..Aj ,,,,,.vaterinarnyy vrach po boleznyan ptits; TAYTLER, Ya. N. p ve r arnyy vrach; TACHANOV, A,T,, voterinarnyy felldsher Eliminating pasteurellosis in poultry. Veterinariia 42 no.8.-8-10 Ag 165. (MIRJ 18:11) 1. Voronezhakaya oblastnaya veterinamaya laboratorlya (for Khozhevnikov, Golyshkin, Dmitriyeva, Babkina). 2. Sovkhoz "Buda-Koshelevskiy" Gomeltskoy oblasti (for Taytler, Tachanov). It  ----------- EWT(I)/I-' JK- AM NKs "AP502-3727 (A) SOURCE CODE: Uft/0346/65/000/008/0008/0001".I AUTHOR: Kozhevnikov, Ye. -M ; Gqly bMnx I )t* mitri 9-a-Z, -14., -YAK BaLbk1na,, A, A,_ (Veterinary Doctors of the Bird Disease Departmqnt)~~3 1Z?L ORG: Voronezh Oblast VeterJ ve t erin-a-r~-sy-a-l-eL'6ora-torJ[i-iY jjory-Lk1jQ:t~Ltor7 (Voronezbakaya oblaatnaya TITLE: Experimentol control of poultry pasteurelloals SOURCE: Veterinarilya, no. 8, 1965, 8.9 TOPIC TAGS: experlAent animalv animal disease* animal disease therapeutics AB$TRACT: With control of poultry pasteurellosis by vecoi:7~9.tion proving to'be ineffectivet new control measures were initiated in Voronezh Oblast in 1963, Sanitation of poultry farms was greatly improved and infected birds were killed. Vaccinations were used in some cases$ mostly on small isolated fa-rms. On large poultry forms the killing of infeeted birds was found to be the only effootive meets of controlling poultry paeteurellosis and has proven to be more economical than other methods# Healthy poultry from other farms was brought In to replace the infected birds* Witbin 18 m ontba poultry pasteurellosis was Card 1/2 ---------UDCt-, None--=-j   LYkKOVSKIY, M.S. p podpolkovnik meditsinskoy sluzhby; BABKINA, A,,S. " ' k- Change in the time of aimple mit-or reaction~ffi studentii'---Vo~en.- med. zhur. no.3834-35 Mr 160. - (MUIA 14:1) (MOVEMENT (PHYSIOLOGY))  L 18271-65 EEn(M)/EPF(c)/E1'-1P(j Pc-4/Pr-4 RM ACCESSION 1JR- AP50021064 5/0079/64/03h/00942b97/2-502 AUTHORit Giadshteyn, B. M.; FPhkina,_ E. I.; Fedotova, V. V. - Soborovskiy,,.L. Z. TITLE: Investigtition Jn Ule series of organic sulfur compounds. V111. Behavior of' alkpne-- 2nd n1kenesit1fopy1fluorides, as well Ps their hAn derivtives, towArds trivalent 11 SOURCEi Zhiumal obshchey khinh$ v. nn. 5--, IF64, 28 F 7-29 02 phosphorus-- esters of TOPIC TAGS- orgn,-ic %Llfur f.,~-r~unO, fluoride, ester, orgAnic phosphorus compound Abstract: 71he behavior ef alkane- and alkenesulfonyl fluorides, as well as their halo derivatives, toward highly reactive eaters of methylphosphinou3 acid was studied. The reactions of methane-, ethane-, vinyl-, beta-chloro- ethane-, and beta-chlorovinylsulfonyl fluorides with the diethyl ester of methylphosphinous acid were investigated. Methane- and ethanetulfonyl fluorides did not react with diethyl methylphosphinite under the conditions used. Vinyl-sulfonyl fluoride added diethyl Tnethylphosphinite in the 1,4-poisition. !~eta-chlorovinylaulfanyl fluoride reacted with dlethyl methyl- phosphinite at. the beta-carbon atom according to the Arbuzov rearrangement at equimolar ratios of thia substances. Beta-chlorovinyloulfonyl fluoride reapted in steps with 2 moles of diethyl, wthylphosphinite, fonaing ethyl- Card 1/2  L 1a271-65 ACCESS1011 M AT50021,9.8h (bate-fluoroculfovi-,-ky,)6ei~~l~tosphinite,.----which r"cte'd with-the seco d: mole n of diethyl mathylphosphinite similar to the reaction of diethyl methylphos- phinite with vinylsulfonyl fluoride. Beta-chloroethanesulfonyl fluoride reacted with diethyl methylphosphite in two waye: by forming the Arbuzov rearrangement products, and at the alpha-carbon atom, eliminating vinylaul- fonyl fluoride. Or1q. Prt. hPs 15 formulas And I grnph. Cq r d2/2  ~F-WT(1)/EVIA(J)/EWA(b)-2~ ~RO ACCESSION NR. AP5021650 UR/0218/65/030/004/0705/0712 577,155.2 AUTHOR: Vasilanko, S. K. Babkina, G. T. < TITLE: Isolation and properties of ribonuclease from cobra venom~ SOURCE: Biokhimiya, v. 30, no. 4. 1965, 705-712 TOPIC TAGS: toxicology, ribonucleic acid, chemical kinetics, enzyme, magne- sium, hydrolysis ABSTRA&: Ribonuclease from the venom of the cobra (Naja oxiana) was isolated! by chromatography on sulfoethylcellulose, filtered on Sefadekse G-25, and then isolated again by chromatography on DEAE cellulose. In all tests, the chroma- tography was carried out at 2C and the'albumen concentration was determined by growth in the optical density of the ribonuclease during hydrolysis. The kinetics of the enzyme hydrolysis 6f the ribonuclease were studied by potentiometric titra-~ tion. 100 fold purification of the enzyme was achieved by three chromatographic i' treatments. With phosphodiester hydrolysis of the products of ribonuclease hydroysis the products are mononucleotides, while with alkali hydrolysis they are Carc  L 3339-66 F-ACCESSIONINR- AP50216.50 nucleosides, mononlicleotides, and nucleoside, diphosphates. It can therefore be assumed that nuclease from, cobra venom catalyzes the breaking of the bond between t-he phosphorous and the third hydroxyl group of the ribose precipitate. The enzyme is specific only to ribonuclease, is activated by magnesium ions, and has an optimum pH of 7. 6-7. 8. 100% thermal inactivation of the enzyme is achieved by incubatijjg it at 70C for 5 min. "The authors express their deep thaaiks to D.' G. Xn orr for his valuable advice in carrying out the work. " Orig. art. has: 7 figures and 2 tables ASSOCIATION: Institut organisheskoy khimii Sibirskogo otdeleniya Akademii nauW SSSR, Nov~?ibirsk (Institute of Organic Chemistry of the Siberian Branch of the AN SS~jR) SUBMITTED: 27 u164 ENCL: 00 SUB CODE: LS NR REF SOV: 005 OTHER: 002  71 1 6432 LJR/03",3/65/001./OO7/1229/1233 jA10"GESSION NR: AP5022277 666.1.-5h2.65 ~16 WYTHOR: Goykhman, V. Yu. Babkina, L. K.; Stativa, V. P. :TITLE: Volume changes caused by beat treatment in heat-resistant gocerams SOURCE: AN SSSR. Izvestiya. Neorganicheskiye materialy, v. 1, no. T. 1965, 1229-1233 TOPIC TAGS: glass, glass product, glass property, glass mechanical property,' heat Tesistant glass, glass crystallization, pyroceram, sitall, beat resistant sitall, ;high strength sitall, glass ceramic, beat treatment ABSTRACT: The density, absolute shrinkage, closed porosity, transv.,rse strength, ,and coefficient of thermal expansion have been determined in cordi,~14-1'_- type Pyro- cerams (sitalls) which were heat treated at temperatures varying in t-e lb3O-l3OOC range (end temperature). This cowlex studj of the properties Df sit;lLlla was nec- essary for organizing the production of new high-strength and heat-rel;,istant (low thermal expansion) microci-jstalline gaass materials (sitallg) and gla~3sware. Den- sity was taken as the must sensitive indicator of Dhase triuisfoimatioas occurring :during heat-treatment of the glass materiF_.I. The proportion of the glassy phase,  T, Q4 MMS101 NF' AP5022277 in the material i.e., its degree of crystallization,is directly related to the en- d and some other properties of the material. The temperature-dependence of Zhe ftrue density, excluding the effect of closed macroporosity, indicated two tempera- _~ure zones, one of' shrinkage and another of expansion, which coincided with the pre-! - ominance of either the "heavy" (mullite, sapphirine, rutile) or cardierite phase. d ,The transition point between the two density zones was near 1050C. Temperature 'dependence of absolute shrinkage calcu1ated from the densities of crystalline and glassy materials followed the same Dattern as that of density but the expansion :etarted at 1135C only. These changes in the dimensions of the samples are considered Ao be of great prELCtical importance, since the changes in mechanical strength are essociated with crystallization shrinkage. Transverse strength was found to be 2) maximum (40.7 kg/ram at 1050C, which -was also the temperature of the maximum closed porosity. High mechanical strength in this case is attributed to the formation of fine crystals associated with the high strength of thin glassy interlayers. In con- clusion, a decrease in the amount of work connected with final adjustment of glass- 1ware dimensions to specifications was made possible by correcting the dimensions In the processes of extrusion, casting, etc., - fol2o-%.red by he;at' tr tmehL This paper was es. presented at the Seminar on Heat-resistant Sitalls held in L(-nin rad on 26-27 October has: 5 figures and 3 tables. .1964. orig. art, [JK) ASSOCAITION., none ;Card 212   11 ~ r.,_ L_-, i . - . I . Tj . 27184 B:'.DKlI;,;A) 5 BYWHG-";~~, ~ .:-'. - Novye -helkuvye Tkani. Tekstil. Prom-St: I "I rl I 1. 194-11, No. 8, s. 17-19. SO: Letopis' -7hurnallnykh Statey, Vol. 36, 1949.  RABKINA, I.R.. inzh.; BYUSHGENS, S.S., inzh.; WITRIYEVA, I.A., inzh. ............ IN Using synthetic fibers in standard silk fabrics. Tekst. prom. 18 no.8:15-17 Ag 158. ' (MIRA 11:10) (Textile fibers, Synthetic)' (Silk manufacture)  SOROKIN, M.F. ~ BABKINA, M.M. Composition of tricopolymers and the copolymerization constants of butyl methacrylate, glycidyl methacrylate, and methacrylic acid. Vysokom. soed. 7 no.4:737-740 Ap 165. (MIRA 18:6) 1. Moskovskiy khimiko-tekhtiologicheskly Institut Imeni K3ndeleyeva.  *C'~-' NR' AR6031252 ~'A) SOURCE CODE: UR/0081/66/000/011/SO20/SO20 AUTHOR.; Sorokin, M. F.; Babkina, M. Mo TITLE: Synthesis and study of but-y1methserYlatl coR21ymerx%ith glycidyl- methacrylate and methacrylic acid SOURCE: Ref. &h. Xhimiya, Part I , Abe. I IS 121 REF SOURCE: Tr. Moak. khim, -tekhnol., in-ta im, D. 1. ' MendeIU2 vyp. 48, 1965, 201-207 TOPIC TAGS: copolymer, methacrylic acid, butylm,%-thacrylate, glycidylmethacrylate, thermosetting copolymers ABSTRACT: The synthesis of buty1methacrylate copolymers (1) with glycidylmetha crylate (10 and methacrylic acid 011) was carried out in cyclohexanone (IV) and dioxane (V) at 70, 80, and 90C. Benzoyl peroxide (IV) and dinitrile of azodi-iso- butyric acid (VII) in amounts of 0. 1, 0. 2, 0. 4 and 0. 8 mol % were used as initiator The monomer concentration in the reaction mixture amounted to 20, 30, and 40% and the molecular ratios varied over a wide range. The copolymerization rate (CIR increased with an increase in (11) concentration, while (111) in concentration of less 1/2  T" AR6031252 than.25 mol % was found to retard CR. However, an acceleration of CR was observed with an increase in the mole fraction of III, accompanied by an increase in viscosity of the solution, which gelatinizes on reaching a 70% conversion of the monomer. Such a phenomenon to explained by the capacity of III to form an H-bond with compounds containing carbonylic oxygen, which is also true for 11, IV and III. An increase in reaction temperature and in VI and VII concentrations causes an increase of the rate of copolymerization and a decrease in the molecular weight of the copolymers. The CR, the molecular weight, and the yield of copolymers increase with an increase in concentration of the monomers in the solution. IV and V do not substantially affect CU. The polydispersion of copolymers increases with. an increase of I content and also with increases in the reaction temperature and concentrations of VI and VIL V1 amd V do not affect the polydispersion. The triple thermosetting copolymers obolained are capable of self setting at higher temperatures. Some properties of the copolymers were determined. V. Agasan- Oyan. ITranslation of abstract] SUB CODE: 071  L-18416-66 EWT(m)/EWP(j ACC NR: AP6003422 SOURCE GOD?,: U:?1019016610of3loolloll5lo~~llC AUTHORS: Sorokinp M. F.; Babkina, M. M. ORG: Moscow Institute of Chemical Engineering im. D. I. Mendeleyev (Yioskovskiy khimik6-tekhnologicheskiy institut) TITLE: Fractionation of a triple cc ol butyl metha rylatel glyoidyl methacrylate, and me~hacrylic acid SOURCE.- VyEakomolekulyarnyye soyeleniy-a, v. 8, no. 1, 1966, 115-119 TOPIC TAGS: copolymert methacrylate plastic, polymerization degree ABSTRACT: Molecular weight distribution of a triple copolymer of butyl methacrylate (I), glycidyl methacrylate (II), and methacrylic acid (III) was investigated by means of fractionation and examination of proper-ties of the obtained fractions. Composition of the copolymer in mole ~; is: I:II:III = 74-10 : 9.65 .16.25- Synthesis followed that described-previously by the authors (Tr. Mosk. khim.-tekhnol. in-ta im. D. I. Mendeleyeva, vyp- 48, 1965). Fractionation was achieved by means of a repeated fractional. precipitation with watnr from 2~'- solution in dioxane at 20C. Molecular weight, composition, and specific iriscosity of the Card 1/3 UDC: 676-01:53+678-744  L 18416-66 ACO NR: AP6003422 0 copolymer were determined, in each fraction. Molecular weight distribution curves :are shown in Fig. 1. Viscosity ~ as function of concentration was determined 'according to the Schulz-Blaacbke equation. Constant KI = 0-95 was calculated which permitted determination of at certain copolymer concentrations in acetone solu- tion. -The empirical relatio n between and molecular weight is given by the equ- tiOn 5,25 - 10-~Wl Card 2/3--  L 18416-66 ACC IM : AP6003422 Fig. 1. Molecular weight distribution curves for copolymer; I, II, and 111: 1 weight integral distribution; 2 - weight differential distribution; 3 - number distribution. Orig. art. has: 3 tables, 4 figures, and 5 equations. Card 3/3 SUB CODEs 07/ SUBM DATE: 24Feb65/ ORIG REF: 001/ 92H REF: 006'-."--:1.  L 18013-66 EV1T(m)/EWP(J)/T VNI/RM ACC NR: _AP6004313 SOURCE CODE: UR/0303/65/000/005/0012/0014 AUTHOR: Sorokin, m. r.; Babkina, M. M. ORG: none TITIX: Film-forming properties of ternary copolyMers of butyl methaSalate, gly- ~cidyl methacrylate, and methacrylic acid nyy i h1pr' 'SOURCE: Lakokrasoch e raterialy ik imeneniye, no. 5, 1965, 12-14 JOPIC TAGS: methacrylate plastic, copolymer, thermosetting material ABSTRACT: The film-forming properties of ternary copolymers of butyl methacrylate (BMA), glycidyl methacrylate (GHA), and methacrylic acid (MAA) were investigated with the aim of developing new thermosetting methacrylic copolymers. 20% lacquers were prepared from these copolymers in a mixture of solvents of the following compo- sition: toluene, 30%; cyclohexanone, 30%; butyl acetate, 14%; acetone, 26%. Epoxy resins E-40 and E-181 were used to modify -the lacquer films. The films were depo- sited on metal surfaces. The measured filia-forming properties are tabulated. The composition of the copolymer was found to affect the properties of.the lacquer films: as the content of reactive groups increases in the copolymer, the flexibi- 'Card 1/2 UK: 667.633.263.3  L 18013-66 ACC NR: AP6004313 'lity declines, and the hardness and chemical stability increase. The films are ,transparent, have a good luster, and are capable of self-curing at high tempera- itures. Their drawback is the lack of impact strength. When the plasticizers tri- :cresyl phosphate (TCP) and dibutyl phthalate (DBP) are used, the impact strength :improves, the other properties remaining the same. Orig. art. has: 1 figure, 2 i :.tables. SUDH DATEi. 00/ ORIG REF: 000/ OTHAEr, ooo  GOROVITS, ShAh.; I~UKINA, M.S., red. [Planning of a local economy in a region; collection of problems] Planirovanie mestnogo khoziaistva v raione; sbornik zadach. [n.p.] Vysshaia shkola, 1964. 72 p. (MIRA 17:6)  GORYUNOV, Nikolay Andreyevich; BABKINA, N.G.. redaktor; GUREVICH, M.H., tekhnichookiy redaktor [Raising ducks) Razvedenie utok. lzd. 2-oo. perer. i dop. Moskva, Goo. izd-vo solkhoz. lit-ry. 1955. 159 P. (MIRA 9:8) (Ducks)  VOLKOV, A.A.; SHKUDOVA, R.I., metodist; TIKHOMIROV, V.N., otvetstvenny7 redaktor; BABKIA4,,Aj-, redaktor; FBVZNBR, V.I., tekbnicheakiv redaktor E'Poultry breeding and pond fish cultureO pavilion; a guidebook] PaTillon 'Ptitsevodstvo i prudovoe khozialstvoO; putevoditell. Hooky&. Goo, lzd-vo selkhoz. lit-ry, 1956. 27 p. (MIJ?A 9:12) 1. Moscow, Voesoyuznaya seltakokhozyaystvannaya vyetavka. 1954- 2. Direktor pavillona-(for Volkov) (Poultry) (Fish culture) (Moscow--Agricultural exhibitions)  PANSKIKH, Konstantin Georgiyevich. kandidat aellskokhozyaystvennykh nauk; BABKINA. N.G., redaktor; nYZNER, V.I., takhnicheakiy redaktor [How we achieve high poultry production] Xak my dobivaemsia vyaokoi produktivnosti ptitsy. Moskva. Goo. izd-vo sellkhoz. lit-rv. 1956. 70 P. (MLRA 10:2) 1. Direktor ptitsesovkhoza *Arzhanke" (for Panskikh) (poultry)  Ai DOYAMXOV, Nikolay Aleksandrovich. dots.; BABUNA, N.G., red.; GORIKOVA,Z.D., tekhn.red. [Hogging off potato and sugar beet fields) Past'ba evinei as posevakh kartofelia i sakharnoi evekly. Moskva. Goa. izd-vo mellkhoz. lit-ry. 1957. 42-p. (MIRA 11:5) 1. Altayskiy sellskokhozyaystvennyy institut (for D'yachkov) (Swine-Feeding and feeding stuffs)  KRISHCHUNAS, I.Y., akedemiki radektor; BABKI!LN. G., reda"or; GCR!KOVA, Z.D., tokhrdcheakiy redaktor [Pollination of greenhouse and hotbed plants by bees3 Pcheloopylenie teplichnykh i-parnikovykh kulltur. Pod red. I-VArishchunse. Moskva, Goo. izd-vo sellkhos.lit-r7, 1957. 62 p. - (KLRA 10:9) 1. Vaesoyusnays akedemiya sellskokhoz~aystvennykh nauk iment I.V. Lentna. 2. Daystyltelinyy chlen Yeesayusnoy'ilmdemil sel'sko- khozyaye tvennykh nauk tment V-1-Imnins (for Krishchunse) (Artilization of plants) (Bees)  /- ' ~-j- :~ - 1, ~.. I I I *VAZ)iL#YSV-.- A.V., doktor sell skokhozyaystvannykh nauk. redektor; LITOV"a'hi~i1fu, G.R., kandidat sel'skokhozyaystvennykh nauk, redektor; RABI:I&. N.G redaktor; SOKOLOVA. N.H., takhnichookiy redst-tor . .1 - - . [Sheep breedingi Oyteevodetvo. Ixd. 5-oo, ispr. i dop. Moskva, Gos. izd-vo sellir-hoz. lit-r7. 1957. 295 P. (HLRA 10: 10) (sheep)  BABKLU, N.G., redaktor R' [Progressive practices of stockbreeding in Kazakhstan] Peredovoi opyt v zhivotnovodstve Xazakhstana. Moskva, Goa. izd-vo sellkhoz. lit-ry, 1957. 302 p. (MLRA 10:9) (Kazakhstan--Stock and stockbreeding)  I. - -' 1 -1 - -1 -- r f F ~'--rr T ~ - --7;777- I/ , - .1 i ROGALEVICH, M.I., kand.sellskokhozyaystvennykh nauk. red.; BABKINA, N.G.. red.; ZUBRILINA, Z.P., tekhn.red. [Horse breading] U --eevodstvo. Izd-3-e- Moskva, Gos.izd-vo sellkhos.lit-ry, ".7. 34o p. (MIRA 11:1) (Horses) -  GERD, M.A.; INIKOV, N.M.; MhZOVER, A.P.; IWAROV, V.P.; ORLOV, A.P,; SAKHAROV, N.A.,,__BABKIU, N.Cv., red.; GORIKOVA, Z.D., tekhn.reid. [Principles of the raising of workiqg dogs] Osnovy sluzhebnogo nobgkoyodetva. Moskva, Goa.lzd-vo sollkhoz. lit-ry, 1958. 367 P. I (MIRA 11:12) (Dogs)  ANDREYEV, Konstantin Pavlovich, doktor veterin.nauk; MKINA, N.G., red.; MAKHOVA, N.N., tekhn.red.; DMVA, V.M., teWii~.~red. (Protection of animals against flying bloodsucking insects and warble flies] Zashchita zhivotnykh ot krovososuBhchikh leta- iushchikh nasekomykh i kozhnykh ovodov. Izd.2., ispr. i dop. Moskva, Goo.izd-vo aeltkhoz.lit-ry. 1959. 43 P. (MIRA 13:8) (Agricultural peats) (Diptera)  MARTYSM, F.G., prof., doktor sellskokhoz.nauk; LYAYMAX, S.M., prof., doktor biolog.nauk; GRIMSKIY, A.M., kBnd.ekonom.nauk; VAVILXI]i. A.S.. kand.biolog.nauk; IARPANIN, D.P.. kand.biolog.nsuk;__~~I-H-A' N.G., red.; ZUEULINA, Z.P., takhn.red. (Raising fish in ponds] Prudovoe rybovodatvo. Koskva, Goo. izd-vo sallkhoz.lit-ry, 1959. 347 P. (MIRA 13:8) (Fish culture)  VOROTILOV, Hildwil Aleksandrovich;.BABONA, N.G., red.; TRMMINAP O.N., tekhn.red. [Pastnre and feedlot fattening of cattle] Nagul i otkorm krupnogo skota. Moskva, Gos.izd-vo sol'khos.lit-ry, 1960. 90 P. (mm 14:2) (Cattle--Feeding and feeds)