SCIENTIFIC ABSTRACT RYZHKOVA, T.P. - RYZHONKOV, D.I.

A-AA =w'r t - I /L-rf- I r I /MAt n fX 1rur n I --- I Ar Ime n I/r-r _W0C_RVt_AT60l355g SOURCE CODE: URIODOO/65/0(FO/CfOO/0211/0218'-. , AUTHOR: Vil'k, Yu. N.; Ordanlyan, S. S.; Avarbe, R. G.; Avgustinnik, A. If's chenko,... Yu. A. (Gosu- ORG- State- "Order of the Red Banner of Labor" Institute ou'lippi ed C a darstvennyy ordena Trudogo Krasnogo Znamenii institut.prokladnoy Wmii) TITLE: Phase diagram of the Zr-ZrC_ system SOURCE: AN UkrSSR. Institut pi~oblem materialovedeniya. Vysokotemperaturnyye neorgani-_ cheskiye soyedineniya (High temperature inorganic compounds). Kiev,.Naukova, dumka, 1965, 211-218 TOPIC TAGS: zirconitsn, carbide, nonferrous petal, phase diagram, phase composition ABSTRACT: The phase diagram of the,Zr-ZrC system was drawn up on the basis of experi- mentally determined melting points, x-ray, and microhardness data for samples contain- ing 1.25-46.25 atm % C. The work was conductedrin order to resolve a controversy in the literature. The phase diagram was examined in the 6000-31000C range. The samples were prepared by fusingrzinc hydride with carbon in various ratios and holding for 4 hrs -at 14000C in argon atmosphere. .'The phase diagram of the Zr-ZrC system is shown in' figure,1. The eutectic temperature of the system is 18200C. The eutectic alloy can-,*,. tains 3.0 atm % C. The changes of the ZrC-phase lattice parameter as a function of C d 1/2  . .00. iII I 10 ==. I I ', n &:= 00 I Ile= 8 9 0 0 r- - -*  _L 29602-66 EWT(m)/ETC(f)/Ei'IP(e)/EiiP(t)/ETI IJP(c) AT/WH/JD/JG/GD ACC NRt AT6013560 (A) SOURCE CODE: UR/0000/65/000/000/0219/023 ;AUTHOR-. Villkp Yu. N.; Avarbe R. G.; Neshpor, V. S.; Ryzhkova, T. P.;~Omellchenkoif/ !Yu. A. ORG:1 State "Order of the Red Banner of Labor"Jnstitute of Applied Chemistry (Gosu- darstvennyy ordena trudovogo krasnogo znamen.ii institut prikladnoy khimilT- TITLE: About interaction between niobium carbide and tungsten 1 SOURCE: AN UkrSSR. institut problem.materialovedeniya. Vysokotemperaturnyye neorga- nicheskiye soyedineniya (High temperature inorganic compounds). Kiev', Naukova dumka, 1965, 219-236 TOPIC TAGS: niobium, tungsten, carbide, carbon, nonferrous metal ABSTRACT: The phase equilibrium of tungsten and niobium carbide, NbCo 9 (from 5 to 95 wt % W), and NbC0.85 (from'5 to 50 wt % W), was examined by x-rays in,the:20000-30000C range. It was found that the system:has true tW07phaseregionja+6-solid solution based on W and W2C,,a+y-solid solution based on Wand NbC,:and ytO-solid solution based on NbC and Nb2C) and also a region ofa tbree-phase equilibrium,.atOtT-. In the tertiary 77-. . W-Nb-C region the liquid phase occurs below 26000C.. In the tertiary W-Nb-C region binary eutectic a+$, a tert iary eutectic a+Oty, and a tertiary eutectic~a-~6ty,were de- tected. Thehypothetic profile of the Nb-W-C system is shown in figure 1. The depen- dence of the lattice parameter of.the a-phase upon Ub content and of the NbC solid solu-..16* Card 1/3     ': ~7, -.at 7_0 li II   ACCESSION NR: AP4038443 q/02914/64/f)02/002/0274/02 79 AUTIIOR, Vil'k, Yu. N.; Avarbe, It. Go; Nealipor, V. S.; Ry T. P.; Omel'chenko Yu. A* TITLE: Interaction of n1obLum carbide wLtb tun g sten S' OURCE: Teplofizika vy*sokLkli temperatur, v. 2, no. 20, 1964, 274-279 TOPIC TAGS: tungsten, niobium carbide, sintered tungsten nLobium Carbide alloy, tungsten niobium carbide in te ra ctL on tungsten niobium carbide alloy, alloy property. alloy microstructure, alloy I phase diagram BSTRACT: Two sections of the W-14b-C systcmg the W-Nbco A with 98 . 5-95 wt% W and W-MbCo a as 'With 5-50 wt% W, at 2 000, 2600, 2700, -and 3000C, have been investigated by means:of metallographic and x-ray phase analyses, visu al thermal anal aLs,- and micro- y hardness measurements. The alloys sLatidrid in a.vacuub of 10-4 mar. jig, cont6ined 0 1 wt%:uax. and 09- Sent treat- of Ment of the alloys7 was carried out in an ultrapure Card 1/4 -7 r  ACCESSION NR: 'AP4038443 -NbC helium atmosphere. Results of the analyses showed that,the W 0.9e and W-NbC 85 sections sre.not p5eudobiniry systems.and (in the 0 solid state) pass throuAh'the two-phase equilibrium'regions u+6 Ja-W and 142C base soljWsolutkxw), n+y(n-14 and NbC,base solid solutions), and y+0(HbC and Hb2C basesolid solutions)an~ through a three- phase a+16+y region. No terntrv -compounds were found in that.,iegion of the compooitiont in*esti gated.' On the.basis of.the iresults- obtained, isqthermal sectionsof the ternary plywe diagram for 2000, 2600-2 700, and 3000C, and a hypothetic diagram of the W-HbC section were plotted.~ 0ee Enclosure 1). The W-Nb(; alloys,with less than 20wt% W-ve re found.to be stable -c 300OC' but alloys with a at temperatures - , v higher W content begLn:to melt at < 2600C,. At 2000C all alloys are in the solid state and tan be used as a basefor high-teuperstun materials. Orig, art* has: 5 figures. ASSOCIATION: Gosudaretvenny*y inatitut prikladnoy khLmii (State -Institute of Applied, Chemistry) Card -1A   -OMSICK MR: AP4038443 Emma= 1 01 Ism 7 li L u t 1100 PIP Low A % % 41 rMO 07 fe to is N jr w 50 at% Nb atz V 50 atZ C Fig. 1. Hypothetical phase diagram of the W-NbC oystem Cc rd 4/4, - - - - - ------- -7 -~                    of 12 u 14 Iv a ji x A v X x U T 0 1 T Z AA 0 CC W 310 A-0 CROON%. INK10#1 A.* PECFrIVII MOff as dw a bwat -00 0 of T"59:80 Res"frA Sd hk " m Z F . . o . .- . yt Rfe- 114-809M) PLAW ty"OPWOn . . . carsium 0111 wheat et bect l tw balf (W & ' my tow O p 'layW The tllwt- eylvwie he.) ilk lefi) Ow uAl cir m- by 0 day* mW run-Werawy froluml pt xtamda. The plants only caight up with I so *a c_m___cvu6 after the Owact6s star bat UW iocWnv 4 b"t Ia tm comirvas was W% -0 awy .33 ibe super- pbumpbate plot and 63.3%on the xylviuke p ft. to Shepposd ape as .3 *a 00 00 00 to As '40 L A OCTALLfAROKAL WINAtURC C ASM6CATICO, 'a I !, 0 I MIM 13 --oaf- 14#U.J .11 dk. 449 V16911 OK "V IAL 1 I t I- .- I r I . I a r-, I 0 $A L (W S 6 4 9 a 4 3 .1 V u is %v is t It a a Or is or K It it It W it ' 0 a 0 0 00 * 0 0 0, **, 0 0 0,0100 of** a 0 00 0 0 0 04 0 C 0 :- ; ~ :0 1@ 0 00 0 0 0 0 * o go 0 _* 00 0 a 0 00 00 so,* a * 0 0 0 w 0 0 0 0 0       ACC NRt AP7000155 _s6jfkcCcODE_: -UR/0250/'6'6,/Of6/Ofl/0841/6"8- AU'rHOR; Severdenko, V. P. (Academician &N BSSR); Ryzhkovich,'R. L. ORG: -Belorussian Polytechnic Institute (Belorusskiy politekhnicheskiy institut) TITLE: Investigation of plastic deformation propagation under dynamic loading SOURCE: AN BSSR. Doklady, v. 10, no. ll,:1966,:847-848 C_ TOPIC TACS: plastic deforma.tion, plastic de f orma t.ion propagation &.J 4_~, IV 7 --WIN ABSTRAM., Wider static1oadinga cyl ndrical specimer0deforms uniformly from both ends,.but under dynamic.loading,the plastic deformation.is localized at the, impacted end of a cylindrical specimen. 'The cause of nonuniform deformation distribution in specimens depends on the nonuniform..distribution of inertia forces in soecimens under the, effect of which the deformation takes place. Asdiemunsplotwd (seeag. 1) in order to determine the effect of.inerti,a forces on the deformation propaga,tion.induced by dynamic loading. According to this,scheme, the usuallspecimen is substituted by.. 9 a system consisting of two identical cylinders,of.the investigated material 3,5,and ass m I rigid body 2, whose m can be changed during the experiment over a,wide range. it was found that after striker l.impacts upper specimen 5. lower specimen 3'is less deformed thanspecimen 5. The larger the mass,M2,the less 3.. Figure 1b can be regarded,as a model of a long,,uniform:rpecimen, the mass of which is equal to'the mass of the whole system (5,2,3). Thechinge -of mass M2 of specimens, 3 and 5 make it possibleto'estimate the metal behavior'at.varioue distances from the 71~ Card 112     0 G"0'q .~ :-- - 7 11: ~. 10 it 14 Is 14 It is If )o 16 17 A P 111 11 IT U U 13 16 M J11 30 x 41 41 U 0 4A M a A I, . , P. #--,s -L, A1- C.-A-1 I r I. A -.L-L- A-b. It a I. jc-Lfv~ Its ..a putering materia ~k N u Mr. Russ. 29.107. Feb. 22. 193L,.. Quwlz -nd and portland cement X-&fdlioth -motten S and rosin and the milt - i.% pr~~-d into briourts 96 a z -60 00 a -0 P16891, zoo C1 AS* S L A &ErAL LIJRGICAL LITERATIJOE CLASSIFICATION -Z too -j a.. am( ."01 QK a-- Lit r--I--'v -I. U--j% AV 10 01; 1. 1, TV 1, a (w 0 1 w Aj a it w a I( It tt if ot w IT 1 '14' 1. 0 0 IN 0 0 0 0 0 0 0 0 If 0 9 a 0 0 000 0 0 6, 0,0 0 0 0 0 0 "o-oo oo 0 0 goo so a : :- : :,: : i ,of! ! : : : : 0 - - - - - ---   ACC NR; AR7000845 SOURCE CODE: UR/00,58/66/000/009/DO59/DO59 AUTHOR: Ryzhmanov. TI T LE: Paramagnetic relaxation in polycrystalline samples of free radicals SOURCE: Ref. Fizika, Abs. 9D463 REF SOURCE: Sb. :Tezisy dokl. Yubileyn. naucbn. konferentsii, po.svyashch.~ XX-letiyu in-ta, Kazansk. fiz. -tekhn. in-t, 1966, S ekts. fiz. n. Kazan', 1966, 3-6 TOPIC TAGS: paramagnetic relaxation,. magnetic saturation, dipole interaction, lattice parameterp, molecular crystal, h=%I- ABSTRACT: The relaxation times T, and T f diphenyl picryl hydrazine Oeriva- 2 0 tives with substitutes in,the meta-position of the.picryl group of the molecule were ~n easured by the method of continuous saturation at a frequency of 360, Mc, and atF temperatures of 77 and 293 K. The changes in T , T as a function 2, and Tj/T2. of the temperature of the samples. are explaineAy the effects of anisotropic Cordl 2   --------------------------------------------------------------- _Fm.~ r"F-KP7012_1466__ SOURCE 6E:, UR/00201/66/, 70/005/1' THOR, Va I I tova, F. G.; .%rzhifia A U nov Yu.~ It. ORG#. Kazan Physicotechnical-Institute AN i(Kizanskiy. fiziko--. tekhnichaskly institut AN.S~sk),..~ in~titilte-of:pr i .4n4 ysical- Chemlitry Ph San c AN.SSSR -Ilnst tut": icheakoy'khimii Im. A. Ye ~orga Arbuzov, I ritchep AN SSSR) ' ns. o 4omo ree f f TITLE: Electron paramagnet c resonance~,; nsolutl~ th -ser es e thlophosphonehydr azy SOUIRCE-. AN SSSR. Doklady w 170 ~no. 5" 11966j- 1124~4125 d hydratin,6 compoun TOPIC TAGS: electron peramgn~ttc-resonance ,. SUB CODE., 07 ti isotr6~ic_ rfiiid -7jifiuctiiie: of the eled.- T a au ors studied ie-: hy& , ' _ ABSTRACT: ` zed-,diphi4jt tron. parsAag6et16'resonan.c.e ij~ct~a 6f, syfithesi o bioph sphonehy- _7 dra ~ iines: 4 , y" Card 112 umv 541.9~ ; .7 4 3'       I - A-         1S/020/62/147/003/022/02 7 Hyperfine structure of ... B1O1/B186 0 (< 0.001, moles1l) dissolved in benzene or chloroform, was evacuated.at 77 K, and the e.p.r. spectrum was recorded in vacuo at.9330 MCPS. Each spectrum 'contains seven completely resolved components of hyperfine structure.~ Each -component was restructurized owing to an effect caused by protons at the periphery. This adii-tional structure. however, is not discuss d, as the, e data'are insufficient for identifying these protons. The experimental data were analyzed by constructing a theoretical nine-component spectrum, for which the values for.A1, A and- AH were so.chosen as.to make the 29 Position and,.shaDe of the lines consistent with the exDerimentalspectrum.~ A COMDUter w' used to calculate the data for A /A A + A oe), A (+0. 20 c~ 1 2 1 2~ 1, and A (+0.20 oe) for 1 0.472,17-70, 5.68 12.02; for 2 9 11 0-502,,17.80, 5.95, 11.85; for 111 0.582, 18.20, 6-70,~ 11-50, and -for IV 0.604, 18-33, 6.91, and 11-42, respectively. As compared with the results for diphenyl picryl h,,,d razyl obtained by M . IM .Chen, K. V... Sane et al W Phys. Chem -tri- 65, 713 (ic6i)), the shift of the unpaired electron in o(,*~-,diphenyl-p phenyl methyl hydrazyl and its derivatives is.mainly restricted, to the, two. N.atoms andcC-phenyl groups. This explains~the low stability,of,these radicals. The presence of the acceptor phenyl groups of'triphenyl methyl Card 214  3/020/62/147/003/022/027 liyperfine~ structure of, ... B101/Bip,6. increases the electron 4ensity of the~unpaired electron on thelli/-atom Substitution of one methoxy group for one p-H atom of thel~-phenyl group makes the existence of + -N- more probable than in a non- Ar substituted radical. Substi,tution of NO 2 for one p-H in the ph.enyl group of triphenyl methyl causes.polarization of the electron clouds of the -C-C -N a. w \~C --i" N ~'his explains that the density 3' of the unpaired electron :on tlie Nri atom revealed by the high A., values,. is higher than in nonsubstituted. radicals. There are 1 figur~e,and 2 t ables. The most important Eriglish-,language.references are: R. M. Deal,.V;.~S. Koski? J. Cher,-,. Phys. 31, 1138 (19,59); N. W. Lord,.~ S. IM. Blinder, j Chaln. Phys., 34, 169-A (1961); Y. Deguchi, J..Chem. Phys.,,32, 1584.(1960). Card 3/4     - ~. I-  AMONS GarIS"yame've 9. S. cai"141810 of fti k sand IP p. lk PFAIODICALs as 3p 194 $141 The peclift of saw. low", TiO2 were taken at,9320ant 450 */246- 'Reilillksi 4~0 06/Mm "20, lk/4", 2 glass Irseter 11-5*9 to U-519 t3 20: Card   S/057/6 #10311006 6081019:: Bi 16/132 03 .0 0 Y 15~ AUTHORS: Gariflyanov, N. S., Illyasov, A. V., and Rvzhmanov. Yu. 14. TITLE: E13ctron paramagnetic resonance in some types of.soot PERIODICAL: Zhurnal tekhnicheskoy fiziki, V. ~31. no. 6, 19611, 694-69a TEXT: The authors studied the electron paramagnetic resonance..(EPR) in various heat-treated types ofsoot at frequencies of V, = 300 and V21 9450 Me/see in the temperature range of -193 to 300'C. They determined the relaxation times for ga method at conduit soot.by the saturation. 300 Mc/sec according to 785-49 T 598 (GOST 785-49 column 598) as dependent on the temperature of the sample and the heat treatment. The measuring method used had.been described earlierby N. S.-Garifyanov and ~B. M. Kozyrev (Ref. 3: ZhETFY 30. 272, 1,95.6). The.hea,t treatment.con- 0 in heating to a certain temperature (Maximum.temperature 12WC) 'without air access, with a holding~time of 1 hr. The ~eat-treated soot was wetted with vaseline oil toeliminate the distortions or-the EPR-line a+ V and to obtain equal saturations of these lines onithe whole sample 2 Card 1/6  23724, S/057/61/031/006/008/019 Electron paramagnetic resonance in ... B116/B203 at V The samples were.heated to 140 0C (after.hea-t. treatment) without additional air removal by suction to eliminate the adsorbed,molecular oxygen. The authors investigated by the EPR method: furnace soot, gas conduit soot, and nozzle soot-Measurements were made,:in Iloillf samples with sucked-off air at 1) 300 and, ~'d =,9450 Mc/sec. and at -193, 20, 0 and 300 C. A measurable effect was only observed with gas.conduit soot. Results are tabulated. The authors found a-strong,dependence of,the ~resonance line width AH on the temperature of heat treatment) and a weaker dependence on the temperature of the sample and on,V., For all gas conduit soot samples, the splitting factorg was 2.003. The EPR curves show a Lorentz shape. The higher the heat treatment temperature and.the temperature of the sample, the less the lines show saturation. The spin-, lattice relaxation time T. and the spin-spin.relaxation time-T were. determined at V 1 by means of.the saturation method for gas, conduit soot samples from which the oxygen had been removed (Table 2). 'The strong concentration of paramagnetic centers,, the equality of relaxation times T T and the small line width.in sample.sof gas conduits, soot (in 1 2 Card 2/6  23724 S/057/61/031/006/008/019~~, Electron paramagnetic resonance.in ... B116/B203, 0 heat treatment up to 900 C) suggest an.exchange interaction between un- with a also d maintaine paired electrons. Evidently, the exchange is . . , o ~change in the temperature of the sample from -193 t0,.300 C, since also here T ~-~ T The Lorentz.shape of the EPR curves also suggests.an 1 2' exchange interaction between paramagnetic centers. R. L. Collins, M. D. Belland G. Kraus (Ref. 1: J. appl. phys.,,30, 56, 19.59) attempted to. 6H.withlincreasing heat-treatment temperature explain the rapid change of , up to 900-IOOOOC by the strong anisotropy of the g-factor. For.anisotropic lines, the width of A H must depend~very strongly on the frequency. The AH measured (Table 1)(at V and.v : diff ering by a f ac t or of ~0) I dif f er,,,:. 1 2 only slightly. The dats. obtained confirm the.assumption by J.~Uebersfel d ' explain the widening.of the (Ref. 2; Ann. Phys.. 139 391Y .1956). They line by the reduction of T 1 due to the collision of unpaired electron with, carriers. The fact that no EPR were found with furnacesoot and nozzle pes of soot are the circumstance that' these t l ined b t i 74 a soo . s exp . y y. . subjected to heating.up to about 12000C already during their formation. The temperature dependences of the linesin the gas conduit~soot.samples Card 3/6     A A4 --it- j - X L li - Lt4 ce"Irl"p4wary %tutu, and Prim-l- 411 ' *61161r) %crondary *:Iwrg)' ftc~"Urcc% in rlanj~, f l1w of Chr i4rol Indtotry. On RtL,,.,j4&n.) Yu, E~ R%,zhilev t 00 vitt"Wtv q.( -Ives s too L 4 .[1 ALL s URWAL L11tlWWr CLAmPKAyloo he* 1A k % n - q " it 41 4 3 2 , it It a a It of It cl it a ww n 1 14 Wo a 1 i .1 0 fie & a as a 0 0 0 a  )T ISSR/Chemistry - N ~ V, Miscellaneous FD-3376 Card 1/1 Pub. 50 20/20 Authors K., Sobolev, A., Anchugov, V. M., *Ryzhnev, Yu. Title News items Periodical Khim. prom. No 7, 444-447, Oc,t-Nov .1955 Abstract Comprises five brief.items which deal -with resul~'-s of the opera- tion of chemical industry enterprises during the first 9 months of .1955, decorations.and prizes awarded to chemical plants, a conference of chief mechanics of plants of the Main Administration of the'Nitr07 gen Indid9try, a bonfexence'.-,of.workers.,engaged in setting standards of labovperformanc6,,and~iesults of'the'10th All-Union Competition for the Best Proposal Aiming at Economies in Electricaland Thermal...,. Power. Institution Ministry of Chemical Industry Chief Power Engineer.of, Member of the Competition Jury)      SOV/94-58-11-?1/28 AUTHOR: ....... Ryzhnev Yu J:~~., Engineer ............ ~~Y TITLE: An All-UnionConference on the Application of in Pacl.--.aged Semi-Conductor Rectifier Installations . Industry (Vsesoyuznoye soveshchanlye.po primeneniyu komplek-tnykh poluprovodnikovykh vypryamitellnykh ustanovok v promyshlenn,osti) PERIODICAL: Promyshlennaya Energetika.7 1958, Nr 11, pp 36-38~(USSR), ABSTBACT: From lltL - 14tb August 1958, the Central Bureau of, Technical Information7,the Scientific Research Institute of:-the-El ectrical Industry and the~Councils . .of Peoples, Economy of tile Mordvirtan Economic Region held in Saransk,an All-Union Conference on the application-of packaged semi-conductor rectifier installations. in industry. , The object of the conference,was to determine the best fields of application of these installations using 'germanium rectifiers and to work out recommendations for a, scale of,outputs. There were more than,100 participants including representatives~from the Academy of Sciences USSR, the La~vian SSR, Gosplan -USSR and RSFSR, the State Committee.of the Council of Ministers of the USSR on Chemistry and a number of Ministries, as well as Card 1/3  SOV/94-58-11-?l/?8 An All-Union Conference on the Application of,-Packaged Semi-Conductor Rectifier Installations in Industry Scientific Research Institutes and large Electro-technical;,-. Undertakings. Theconference was opened by the President of the Council of National Economy of the _-'Mordifb~an Economic Region Veselovskiy, who described the development- of industry in the Mordvirfan ASSR. Corresponding member Academy of.Science USSR Vul read a'report entitled ,,Scientific Achievements in Semi Conductor Technique", a report entitled "The Work of the Elektrovypryamitel, Works on Semi-Conductor Power Rectifiers and Packaged Power Rectifier.Installations'; was read bythe Director of the Works Selektor.~ The Head of the Semi-Conductor Laboratory.Wf the. All-Union Electro-Technical Institute Yuditskiy read a.rep'ort,on the work of.the Institute on power semi-conductor rectifiers and packaged rectifier installations. 'A report on the production of germanium and silicon,for power semi-conductor rectifiers was made by Gribov, an Engineer of the works. The work of the State Institute,for Rare Metals was described by,. Senior Laboratory Engineer,.Ginzburg.~ Thirteen other e reports wer read-by representatives of various Card,.,>/-3 organisatioms. It.was noted- that'packaged power    AUTHOR: Ry~ev, Yu. L.,' Chief Power'gngi neer. 94-13 7-1/25 TITLE: Power Engineering of the Chemical Industry (Elektro,energetika Ithimicheskoy promyshlermosti). PERIODICAL: Promyshlennaya EnergeItika, ~1958,~ Vol 13~ Nr 77 PP 1-3 (USSR) ABSTRACT: It has been decided to greatly strengthen the chemical industry particularly in the production of synthetic -extiles resins,: polymers and.artificial and synthetic t 'plastics and synthetic rubber. In May, 1958 N. S. Khrushchev delivered a report to the plenum of the Central Committee of the Soviet'Commimist Party entitled 'Acceleration of the development of the- chemical industry, and particularly,the production of synthetic'materials and proiucts made.from them to satisfy the needs"ofthe population and of the national economy'. As:a result~of.the decisions that-were taken on the basis of this report hundreds of,chemical plants will have to be constructed or.r,econstructed. New types of power,equipment t-ill be required.: Rectifier equipment of various types wi-11 be required.deli-vering Card 1/3 currents up to 40 0100 'A Furnace:transformers, of  Power Engineering~of the.Chemical Industry ~,94-13-7-1/25 60 - 80 MVA.for primary voltages, of 35.- 110 kV will be required with fineland coarse on-load voltageregulation, Frequency converters will be required to drive the textile machinery,j Multi-speed electric motors, special regulated transformers for rectifier sets, control and measuring instruments and many other kinds of equIpment,willbe required :The power demand of individual~undertakings will beach 200- 250 MVA and 600 --abo tons-of steam perhour. It.will.be specially necessary to make use of.the heat of chemical reactions and to, regenerate power by using pressure drops of gases and.liquids being processed. Natural gas is to be used as a source of power inanumber of new and reconstructed factories. Electric furnaces with transformers of 40 - 80 UVA will be~installed in works producing carbide and phosphors~ Electrolytic installations will operate at the increased voltage of 825 V d.c. It is proposed to introduce contact type mechanical rectifiers with an Card 2/3 efficiency of 95 96% and high power semi-conductor,   AUTHOR: Ryzhnev, Yu.L., Engineer. 94-3-21/26 --------------------- TITIE: In the International Electro-technical Commission (V mezhdunarodnoy elektrotekhnicheskoy komissii) PERIODICAL: Promyshlennaya Energetika, 1958,.Vol 13 No.3,. ~6 ~USSR). pp, 35 ABSTRACT: This is a brief account of-the meeting oftechnical sub- committee 31C of the.I.E.C. held in' Essen, Germany, in November, 1957. The committee was mainly~concerned with flameproof and'.., other safqty equipment. There was an exhibition of flameproof." equipment with various kinds of protection against explosion..- Special note is made.of the fact that different categories'..of flameproofing.were indicated on the nameplates The Soviet- delegation visited the Dortmund Institute.for flameproof electrical equipment. It is concluded that the development of flameproof equipment and corresponding testing in the USSR is in need of improvement with particular reference to equi- pment for the chemical, petroleum and other industries. Standards kor flameproof equipment should be improved and large., testing stations arerequired. Tests should be,,carried out:,on equipment-for other industries besides mining. AVAILABLE: Library of Congiiess Card 1/1              ROZHOKP I,, podpolkavnik;,BELYSHEV, V., rhayor; KASPEROVICH, I.- gvardii