SCIENTIFIC ABSTRACT KORSAKOV, O.N. - KORSAKOV, YU.P.

* * * 0 0 1111 * * * 91 : : : :: 0 * 0 0 * 00 0 111: 1 0 1 a t o U u 64 is 4 UA141. A I JWO- NO i u AmK 00 M 0. X. Kwnbw. "DkOft Id Mstionjois WM 00 cylsollotittat7parvir"w-fin HwAswo), RVII. Anw. -Sri. of *r. &A. M. A W. K*4 RUMN &r. irkA. Nawk), Aul. 00 d JOIN. tot. 11, lots. 13rfl- 1312, 00 This )W" rothor 'out of the rivow-walymis iorhm)l of i1nonyrviph **1 harkst Jospeh its the 611W* howsk 1 rhe rrivoweA of m"Amignows, 00 't 99 a, Tchowwrolittlat, 1901. The pirromium. of 111ho"Ity's pow, d "Worloommilifflow "Mim" by mfinstry 11111M."fial 900 rquallup" Ism Rev, IMK July 1901, in ajolslimi to the title joevolsirin. Tim voiatkon of the disololoinvient Is estprrommol In tmm * O*w If ! of ottrwrtwitoen prhwry warlotdow C'cr"PW ) wwnkd an mn&m 004 I 1H flowntlika with Gamommim The vx"rtl value mrA Ilw Plontimel drorkilton an sirt"W"ni, negirefingg -Wwima. 008 1wow" quouslifiroo. * a Ill The misomeW WASO tot the Omw 6 wm for it pf"Istils"s of 11139-141 meelmoniam. The masgi ~ dimpUaromt et at tot *,Apn f-gtrah" 1 to Jim fi"* m*r. mW is divotommad wW ft"wamW by me"nil Path- A. W. WuridWirr. USA 00 094111 -0 .00 11114114111 1691111 'ago 400 too zoo use b u AV 00 131; ta I a 0 0 0 '11 w a 0 a 4 a V 0*;44 0 19 0 * 0 0 000 11111 0 0 a *'* a 0 0 wo 0 * 0 0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 4 016 0 0 1  I - ~ .1 1 , ~ , 1~ -'-w ~rz 4~~ ~t . . 114 KORSAKOVI 0. N. 9NR4=L~w &*~ sagniMMA t;-Ar2f -0-WARMS . PA 12/49T50  KWUAR,1411 0. ii. G-jnd Tech O'ci Dissertation: "Fr-.~cision of the h-3char.-isj,.!s with Straight-Toothed Jpur &~-ars." 2 'A/50 Loscow Or-der of t1he Labor Red Banner Higher Technical School imeni 11'. E'. Baumn 80 Vecheryaya Moskva Sum 71 BONDAUNKO, K.G. Donderenko, N.H.]: VORONEZHajy, V.I. (yoronazhalkyi, V.Ij; KITATTSKYA.. Z.F.; KOTALI, K.N*'; 101MA, V.D:; J[nRSAroy, 0.0.; ZRAKINSKATA. Te.D. [Kroxjng1kn,'2.D.J. KWA G.-K.TruTre, H.N.], PITOVAR. 3-G. [Piva'var. 3.H.J-'S0WV3T V.I.; Mwj- 0 MKO. G.A. [Olefiranko, R.A.]. red.; GTZM0, 0.1. 6uionko, O.I.J. takhn.red, [New'89ricultural voChinon] Novi all'alkohospodaralki mashyni. Kyiv, Dersh.vyd-vo millalkohospoderalkol lit-ry UM, 1959. 231 p. (Agricultural M~ohinery) (MIRA 13-.4) 10  SOV/112-57-9-18334 Translation from; Referativnyy zhurnal, Elektratekb-nika, 1957, Nr 9, p Z9 (USSR) AUTHOR: Korsakov, P., Fedorovich, G. TITLE; Quick- Combustion Furnaces as a Source of Fuel Economy .(Topki skorostnogo goreniya - istochnik ekonomii topliva) PER-TODICAL: Stroit. materi'aly, izdeliya i konstTuktsii, 1956, Nr 8, pp 15-16 ABSTRACT: For 1956, 170, 340 tons of reference fuel consisting largely of produc- tion waste, such as sawduist, slabs, wood shavings x and battens, has been allotted for Glavatandartdom enterprises. The boilers at these enterprises have pile-type furnaces and inclined fire-grate furnaces; the boiler capacity de- creases as the humidity of fuel increases. These furnaces are clumsy and bulky and in most cases are partly embedded in the ground, which requires their hydroinsulation; a lot of refractory brick and cast iron is necessary for building such furnaces. Over the last five years, new quick-combustion fur - naces invented by V. V. Pomerantsev (see figure) and intended for burning wooden waste having up to 55% moisture content have proved fairly successful Card I/Z  SOVI 1112-57-9-18334 Quick- Combustion Furnaces as a Source of Fuel Economy in operation. Fuel (1) is fed by conveyer into the shaft (Z) and, as it burns away in the active zone, the fuel minks and passes the throat (3) of the shaft. The active combustion zone (6) is situated under the throat. Products of wooden thermal decomposition and water vapor enter the second chamber (5), which receives additional air through the port (e)'in the roof and receives secondary air through port (d) in the lower part of the chamber. Grating (4) situated be- tween the'shaft and the volatile -product combustion chamber precludes fuel en- trainment, even under high-foicing conditions (2-10 million kilocal /m~6 hour) in small-size furnaces and even at the high speed of gases through grating meshes. With a fuel mointurd content of up to 55%, the air-excess factor is under 1. 3- 1. 5. In small boilers and locomobiles, the grating is made of refractory brick; in medium-size and large boilers, of pipes connected in the boiler's circulation. The furnace permits utilization of chips, sawdust, etc. , for power and techno- logical needs, and yields 2 tons of steel, 40 kg of tar, and 15 kg of wood vinegar powder from each cubic meter of such fuel. I. V. M. Card 2/2  BCLDMW, G.P.; VOGKAN, D.A.;- NOV(ZHA SM, I.P.; VERX, D.L.; DTUGAYN, I.V.; KAVUH, VX; KUR=10. A.A.; UZBEKOV, K.R.; ARSENITRY, S.Ta.; TEGORKIN, A.N.,-XCWUOr,.P.1F ; KUZIKIN, V.N.; SMMTS, - -... _: I ~ it - ~ .!I B.A.; PATKOVSKIT, A.B.; 30 MAVMTA, B.M.; INEMON, D.B.; FINKMLISHTITH., A.B.; SUPIRO, I.S.; LAPIN. L.Tu.. Prinimall uchastiye: NEVSLATA. G.I.; FEWS3737, V.A.; KASPILOVSKIT, Ta.B., ZERNOVA, K.V.. BARDIN, I.Pe, akademik, otv.red.; SATPAYST, K.I., akademik, nauchnyy red.; STMMILIN, akademik, nauchnyy red,; ANTIPOT, K.I., nauchnyy red.; BELTANCHIKOV, X.P., nauchnyy red.; TAROFMV, B.N., neuchVy red.; XALGOOV, K.I., nauchnyy red.; SANARIN,.A.K.. nauchnyy red.; SUDZYM, P.Te., nauchnyy red.; NIKOV, T.B.. nauchnyy red.; WRETS, N.A., nauchnvy red.; BANKVITMM, A.L., red.lzd~va; POLTAKOVA, T.V., tekhn.red. [Iron ore deposits In central Kazakhstan and ways for their utilization] Zhelezorudnye matorozhdoniia TSentrallnogo Kazakh- stana i puti ikh ispollsovaniia. Otvetstvennyi red. I.P.Bardin. Moskva, 1960. 556 p. (MIRA 13:4) 1. Arademiya nauk SM. Neshduvedomstvennaya postoyannoya komissiya po zhelezu. 2. Gomudarstvennyy institut po proyektirovamiyu gornykh predpriyatiy zhelazorudnoy i margantsevoy promyshlennostl i promyshlennosti nemetallicheakikh iskopayemykh (Giprorada) (for Boldyrev. Vogman, Areenlyev. Tagorkin, Kcreakov, Kuzlnin, Strelets, (Continued on next card)  BOLDTRBV. G.P.--(contJnued). Card 2. 3. Institut geologicheskikh nauk AN Kazakhokoy SSR (for Movokhatak.1y). 4. TSentrallno-Kazakhptanskoys geologicheekoye upravleniye Ministerst- va geologii i okhrany nedr SUR (for Verk. Dyugayev, Kavun, Kuranko. Usbekov). 5. Nauchno-looledovatelinkly lpatitut mckhanicheekoy ob- rabotki poleznykh lokppayemykh (MikbBnobr) (for PatkovsIdy). 6. Gosu- daretvennyy 4netitut proyaktirovanlya metallurg.sevodov (Giprows) (for Boleslavskaya. Indenbom. Finkellahteyn, Nevskeya. Fedoseyev. Karpi- lovskiy). 7. Hambililvapametvienneya postoyannaya komissiya po zhelezu AN WSR (for Shapiro, Ternova. Kalganov). 8. Gouplan SSSR (for Zapln). (KazakAstan--Iron ores)  KffiSAKCVv_,P*Fov-,,inzh*; SHMTINA,, S.V.p inah. Efficient types of driUing rigs for the rock products industry. Sbor. trud. VNIIN~rud no-4:3-32 165. (MIRA 18:11)  GLUSKIN, L.I., kand. tekhn. nauk;j=AXQM,,:k,~.p gornyy inzhener,* KOZHEVNIKOV9 A.A., gornyy inzhener Studying the efficiency of blasting small diameter, inclined borehole charges in gneissic granite. Vzryv. delo no-54/11: 137-145 164. (MIRA 17:9) 1. Voesoyuznyy nauchno-isaledovatellskiy institut nerudnykh stroitelfnykh materialov i gidromekhanizataii.  KORSAKOV, P.F., insh. Value of the coefficient for spacing borehole charges in instant- aneoua blasting in hard rocke Sbor. trud. VNIINerud no.2:8 02 162. NZ -160) lo Vae,,loyuznyy nauchno-issladovat?lIskiy inotitut nerudpykh atroitall.- bykh materialov i'gidromelchan'tataii (Blaativg~  28522 B/109/61/006/009/005/018 D201/D302 AUTHORS: Shpolyanskiyp V.A.9 Tyufyakint L.S. (Deceased)# and Korsakovp P.P._ TITLE: Automatic delayed phase frequency control PERIODICAL: Radiotekhnika i elektronika. v. 6, no. 9, 1961, 1468 - 1481 TEXT: The transfer function and stability of automatic phase con- trol is considered first (Figs. I and 2). The transfer function W(p) in operator notation is used of a system linearized for small deviation from synchronism, induced by random changes in the con- trollied generator frequency or by fluctuation noise. The inertia T of the systemt introduced by IF amplifiers can be in simplified Arm assumed to be T n 3 76f 0.7 where K - the maximum amplifiotion; hence, (Fig. 1) Card 1/9 Blow iMlla "". 0"I M M -g v~ z'~ -W- ;F  28522 BIJ091611006'/009/005/018 Automatic delayed phase ... D201/D302 W(p) pe 'E'3P (3) We Kf77 can be obtained, where ArA. locking range of the system To the product of maximum -transfer coeffioients of all slages in eynchxa- nism, Kf(p) - the normalized transfer coefficient of the LF filter. Substituting inTo (3) the operator transfer coefficient of ih-:~ pro- portional integrating filter and going over dimensionless parame- ters w(pi) 2 .A- 3pl 2PI + 43pi (4) P e P, (& + e + I 1 2 is obtained where T Pi PIT; T a '. L = _.; L (4a) 'T s a 3 Card 2/8  2!5 B1109V611006100910051018 Automatic delayed phase D201/ 302 Using the Mikhaylov'stability.oriterion [Abstractor's notet Crite-. rion,is given, but it is actuqlly a graphical stability criterion for the zeros of a polynomialj it is found that the system is eta- ble if the delay does not,exceed the value of aro tg 0 (A,; 2 As) + arc tg 10 (A AIL-, (5) 0, (Al; Q whore Y(I 2 For an integrating filter (,A 2 0) Eq# (5) givee-the wellknown value of critical delay time. in an-automatic.phase control.syetem. Itis shown that the use of a proportional integrating filter in- creases the ciitical value of delay timep compared with that'of an integrating filter system. It iv of interest in some practical ca- ses,to know thedependence of the critical value of the pass band Oard 3/8  8 B/109/61/006/009/005/oi Automatic delayed phase D201/D302 of-tlie:n-th stage IF amplifier'on the parameters of the IF filter 0 1.4 D 3 This dependence is shown graphically indicating that as far as eta-, -bility is concerned the minimum pass band could be considerably narrower than the synchronization range of the system.. The interfe-. rence killing feature of- the automatic phase frequency control is cOnsi'dered next. It is assumed that the interference 'is in the form , of;a fluctuation of voltage in the mixer IF amplifiers stage. For a given 'power of the signal P -and a given noise factor F, the fil- tering properties of a -pulse control system are determined by the. ' noise band given by 0 0 TT n. IN(jw 2./W(jw)/2 dw (13) which produces a dispersion of.the phase 2 kTF TT' (12) 2jrPj n Card  ~8522 S/109/61/006/009/005/01'e.. Automatic delayed phase D201/D302 where k is the Boltzmann constant and T - absolute temperature@ When the IF passband is considerably wider than that of the closed 2 loop of phase control (IN(jw) 11 for an integrating filter -- ---------------------------- CO dt, 0 (14) 1 + 2t aln A3 t + (I - 2AIt cos As At Ed M14 is givent-where dimensionless frequ6 W/aws noy signal WTO To evaluate the influence of delay on the magnitude of the effi- cient noise band it is necessary to calculate the integral in Eq* (14). It is shown that in an automatic phase control system with an integrating filter the noise band depends essentially on the, magnitude of the constant 6 of IF filter. A similar effect is produced in a system with a proportional integrating filtert for which the noise band is determined by CO (t + A, t) dt Card 5/8  8/109/61/006/009/005/0:L8 Automatic delayed phase D201/D302 In certain cases the passband of IF amplifiers is comparable with the passband of the whole system. The author points out that it is possible for the properties of the filtering of the phase control system to be improved by considerable decrease of the IF paseband with respect to the passband of the closed loop system and this cpuld be applied to any other IF amplifier arrangement, The quali- ty of the automatic control system is considered last.*.It may b *e seen that in an automatic phase control system with Integrating filter the low frequency transient has an oscillation character and that the delay in the loop decreases the time lag of phase control. The theory presented by the author was applied to an experimental arrangement of an automatic phase control of the frequency of os- cillations of a klystron generator working at 1, = 15 cm range. The reference signal was supplied by the 78th harmonic of a crystal stabilized oscillator working at.fo 26.5 me/a. The signal power P was of the order of 1 microwatt. The arrangement made it possi- ble to, tune the klystron'generator within 60 Mc/s with a locking range of Aw 5 mc/s and rise time t 10 microsecond. he fre- 3 rt Card 6/8  iA0'9/61/006/009/0O5/0.LW D201/D302 Automatic delayed phase :0. y- racteristic e--olosed loop system of the automatic uenc -oha a Wof ih q phase control-with proporti.oiial-iritegrating filter are shown. for. diff re and, -time constants 61; the discrepan6id beta;._' e _nt values,of. Ween,the'oretical and.experimektal values do not exceed 15 land, 'there I a a good qualitative confirmation of influence of -and frequency-response of the filtering sy6tem. A graph on,the 7 shows'-that the value of percent regulation in the system decreases.; with- -the decrease of the time.., constant Li. of the filter and: with~,, 62- 'The in-4 iho a ta t the"increase.of increase' we also e er,res- The :Vonse. to the' system, e a better regu?ation.characteristic.. -ex eriment is said to be therefore in -ierall agreement'with p good o .theory. There' are 17 graphs, and-11 references: 9.Soviet-bloc~_an,d erences.to the English-language publica- non-Soviet-bloo. The ref ti6ns read! as followim. T. S. George, Analysis of synchronizing Sys- 'te-me- for interlaced colour television Prod. I.R.E. 1951, 399 12 :'W*--Vi,_'.Grudnj Theory chroni' 953t,419'8 ~of AFC Syn zation Proc. I.R.E. 1 -SUBMITTEDt March 1t 1960 .'O~Lrd 7/8  IBRAGD4OVp Z.3,; KORSAKOV, S.F. - -------- Reservoir properties of terrigenous sediments of the Cretaceous of the Southern Mubarek structure. Uzb. geol. zhur. 7 no.4t 39-43 163. (MIRA 16:10) 1. InBtitut geologii i razrabotki neftyanykh i gazovykh mesto- rozhdeniy AN UzSSR. (Uzbekistan--Oil sands)  KCH(;~~WOVV 1. Cari I*ar--.ng in -,re- L%c- T-.,.-,tdv . - uj"" i' -7 - 10 -,-- F. ~ , ( . ,:J,; ". -.. - no. 2 - A31-18 I ~,,l MrP~' 37- 8)  KORSAKOV, S.P.; KHANIN, A.A. Physical properties of reservoir rocks in the Gazli field. Trudy VNIIGAZ no.16/24:71-83 #62. (MIRA 15:8) (Ganli region-Gases in rocks)  KORSAKOVO S. F. Ggg, rocks of the (kzli deposit. Fasved. i okh. nedr 28 no*5:6-13. My 162., Aw- (MIRA 15:3.0) L Treat 'Usbekneftegasrazvedlml. (Gazli region.-Gaess in rocks)  KORSAKOV, S-5- --- ov. Zh. Nevropat. Psikhiat.p 1529 Two introauCtory leCtUrs6 of B.S. Korsak (MLRA 5:2) 52, no 1, 7-11- (PsA 2~, uo.11:7869 153)  POLTAKOV, D.L., inzhener, redaktor; BATMIN, T.T., kandidat takhnichookikh nank, redaktor: BCRISOT, V.P., Inzhener, redaktor; GOVOROV, V.P., InsIhs- nar. redaktor; KASS, U.N., inshener, redaktor; RTYKIN, Kh.l., kandidat takhnichookikh nauk, redaktor; TURCUS, V.A., doteent,'redaktor; KIORSA.- KOTa retsenzent;,UPIKTUT, G.N., ratsensvnt. (Manuel for planning heatIng and ventilation systeus of And-datrial~~'- enterprissel Spravochnik po proaktiroyantiu otopleuila i ventilia-tell promyehlen"kh prodpriiatil. [Rodkollegit& D.Z. Pollakoy i dr. Redaktor V.A. Turknel Moskva, Goo. izd-vo lit-ry po stroitelletyu i arkktektures 1953- WaA 7:6) 1. Laningrad.Proyektnyy inatitut ministerstys stroltellstva. (Beating-Jandbooks, =Lnuals, etc.) (Ventilation-'Handbooks,mnualm. etc.)  KORUKOV, Sergey Sergeyevich, paikhiatr; PARMCNIKOV, V.M., professor-, ROUMIN, L.L., redaktor; WOMW, I.K.. takhnichaskly redaktor. [Selected vorks) Ixbranoys proisvedentia. Moskva. Goo. Isd-vo, sod. lit-ry, 1954. 770 P. (KMA 7:7) 1. Chlen-korrespondent ANN SM (for Popov) (Psychiatry)  1:~OP,SA42 TEXT: The authors discuss the applicability of plastics in the produc- tion-of.various tools.and machine parls, and.point to the light weight of.such parts as compared with natal parts4..After briefly.mentioning the phenol fornaldehyde,resins.which,,due to considerable shrinkageg, tan only be used for/coarse products,,they thoroughly deal,.with the casting of epoxy resinsLO it present r the types 9A-5 (ED-5), 3A -6 (ED-6) 9 9A -37 10-37) 1 7T---4Z7 E-40) , 3 -41 '(9_41 and 3 -44 (E-44) are aviailable. The hardening agents mentioned are polyethylene polyamides, ethylene diamine, and hexampthylene diamine for cold hardening, and organ . acid anhydrides (maleic anhydride) for,hardening at 150oC- Plasticizers?azmtioned a-re di.butyl phthalate, triphenyl phosphate$ easior oil; fillers are iron dust, Portland comentp iron minium, quartz eand, talcum, chalk, gypaum; Card 1/3  The Use of Plastics for the Production of S/191/60/000/006/011/015 Toole and Machine Body Parts B004/BO54 polyethylene polyanin,*. To reduce brittleness, the addition of dibutyl phthalate may be increased to,20-25 parts by weight. Higher strength is attained by reduction of the filleriportion to 150...parts by weight as e,il , 'The authors discuss the processing of epoxy W as by reinforpenent. resin castings. With abrasive fillers it is necessary to use tools with BK-8 (YK-8) or T15K6 (T15K6) hard alloyl The equipment required for a canting shop, and the protection trom'the aggressive action of harden- ing agents are mentioned.. The authors point_to_the good binding between resin and metal, and to.th* possibility of repairing-worn-out parts by applying a ndw resin layer. There are 3 references,-.2 Soviet and 1 US. Card 3/3  N=Vj Aleksey NikoUY(JviOhp Prof doktor tekh& nauk, reteenzent; IVANOVA,, fi,A. red. iod-vaj UVAWVA, -A.Y. 0 tAlm. red. [Mechanization and automation of univeratl machine tools] Mekhani- zataiia i avto-TAtizataiia universal'iWkh metallorezhushchikh atan- kov. Moskva, Mashgiz, 1961. 598 p. (MIRA 1/,:1o) (Machine tools.-Technological innovationo) (Automation)  KORSAKOV, Vladimir Sergeyayich; NOVIKOV, Mikhail Pavlovich; PANTELEYEV, j. inzh... retsenzent; BAZIHENOV, D.V.,, inzh.., red. graficheakikh rabot; YAKOVIEVA, V.I.,, red,.,- MODEL, B.I.x tekhn. red. (Manual on the mechanization and automation of assembling opera- tions] Spravochnik po meld-rizatsii i avtoratizatsii sborochnykh rabot. Moskva,, Haahgiz,, 1961. 373 ps (MIRA 15:2) (Assembly-line methods)  PHASE I BOOK EXPLOITATION Sov/576o Korsakov, Vladimir Sergeyevich, Doctor of Technical Sciences, Froressor Tochnost, mekhanicheskoy obrabotki (Accuracy In Machining) Moscow, Ma5hg1z, 1961. 378 P. Errata slip Inserted. 10,000 copies printed. Reviewer: I. M. Kolesov, Candidate of Technical Sciences; Ed.: V. 1. Mitin, Engineer; Ed. of Publishing House: V. V. Rz.havinakiy; Tech. Ed.: T. F. Sokolova; Managing Ed. for Literature on Cold Treatment of Metals and Machine-Tool Making: V. V. Rzhavinskiy, Engineer. I PURPOSE : This book is intended for process engineers in the ,amachine industry; it may also be used by students in mechanical- angineering schools of higher education. C0j,T,RAGE: A series of problems relating to machining accuracy io reviewed. The effect of various process factors on the 0 Gard  A I zt~curaey In Machining Sov/576o occurrence of initial errors is analyzed, and the determi- nation of the .,.omposite error is disemBsed. The book gives expression to the results of scientifid.".research wotk;and vn"--rallzes available reference and production data. The data preaented are illustrated with tables, graphs, and ,L,al-lulations of machining errors. Methods of improving ruaw.hining accuracy are also reviewed. The following are mentioned as having contributed to the study of accuracy.: B. S. Balakshin, N. A. Borodachev, A. N. Gavrilov, A. A. Zykov, 11. M. Kovan, D. N. Reshetov, E. A. Satelf, A. P. So1c'QjDv;?Ady , and A. B. Yakhin; an41 the LPI and the Moscow Inotitute of Machine Tools and Instruments. The analytical and experimental investigations performed by the author at jX~~-7j J-Lr, Baumana were used as the basis.of this book. There arF; 97 i-eferences: 84 Soviet, 7 German., and 6 English. Card' P/9  22020 2 2. 0'3 S/145/61/000/003/005/006 D2,!P.,/D304 AUTHOR; Korsakov, V.S.. Professor, Doctor of Technical Iciences- TITM: Application of plastics for making fixtures and auxi- liary instruments for the machine-buildtng industry 'PERTODICALs Izvestiya vysshikh uchebnykh zavedeniy, mashinostroyeniye, no. 3, 1961, 88 - 95 TEXTs A variety of instruments, jig,99 fixtures and gauges for me- chanical assembly lines oan be made quickly and cheaply from plas- tics. Howeverl not all plastics,,are equally suitable. The use of phenol-formaldehyde and ethylene plastics is limited on account of their high shrinkagep low strength and brittleness. A number of factories use plastics based on acryllic resins. The self-harden- ing varieties AST-T and &IS-tirocril" are used for dies and gauges. T The widest use is mE epoxy resins which are synthetic polyes- Card 1/5  22020 S/145/61/000/003/005/006 Application of plastics ... D2q,/D304 ters. Epoxy resins designated ED-5, 6 and 37 and E-401 41 and 44 are produced. Amines (polyethylenepoly amine, ethylene-diamine, hexa-methylenediamine or anhydrides of organic dibasic acids are used as hardeners. Support strength of castings in epoxy resins I-s increased by addition of elasticizers (dibuthylphtalate, triphenil- phosphate or castor oil). The following substances 4re used as filleras iron powdery Portland cementp ferric oxidel graphite, quartz sand, talcum, chalk, gypsum, kaolin, asbestos fiberg glass fiber or cloth, wood filings, zinc oxide, and ground pieces of used epoxy resin%castings. Addition of these increases the mechani- cal properties and lowers costs. Asbestos fiber increases impact strength and glass fiber increases bending strength. Epoxy resins have)a very low shrinkage (0-03 to 0.4 14), low density (1-15 to 1.25 and good adhesion to metals, ceramics and other materials. When hardened their Brinell hardness is up to 20 kg/mm2, tensile strength up to 6 kg/mm2, compression strength up to 13 kg/mm2 and impact 12 kgm/CM2. Absorption of moisture or other coolants used Card 2/5  22020 S/14~5 61/000/003/001/006 Application of plastics "IX304 in machining is very.Bmall: 0.2 -to 0.5 F/dcm2 over 5 days when saturation is reached. Wear resistance kwhich can be-Ecreased by adding aluminum oxide or bright graphite) is similar to that of aluminum alloys..Coefjicie~t of temperature expansion varies from 90 0 10-6 to 20 10- . Castability is good and no gas is given off on hardening. The resins are highly stable, non-toxic, do not cause corrosion of inserted metals and have high dielectric propertieso The working temperature is up to 1400C. and heat resistance can be increased by fillers of aluminum oxide and graphite. Full decomposi- tion takes place at 3500C. Components in epoxy resins are made by casting. For one-time productionp f%rms are made.of gypsum from wooden models. For qual:L,ty forms, surgical'gypsum. is used and large forms are reinforced by.putting cloth.-jpund the model after the, first layer of gypsum..The form is then dried at room temperature and then -at - 50 to - 6000. Before castingq surf aces. of the- form are coated with a separating mixture:.a 25 % solution of wax in tri-, chlorethylene, solution of polyisobuthylene in gasolene, grease or Card 3/5  22020 S/145/61/000/003/005/006 Application of plastics D21#/D304 wax..For making 8omplex components, a model can be made in wax or its substitute. When the form dries round it, the model is removed by m6lting. Simple forms can be constructed directly from cardbovdy if necessary strengthened-by metal ribs on the outside. Double cdr- vatures can be formed in pl.asticine and superimposed. Accurate ho- lea are obtained by fi-xing gauge pins in the form. Similarly, in- ternal threads can be formed. A number of components (studeq inse:Et% bushes) can be bonded in the casting after thorough degreasing. Stressed parts of oastings should' be strengthened by ineerts in the form of metal-ribe-or tubes. Templates are,made-simply by bolting bushes in -their positions on a- plate, at-thd -bottom -of a shallow box and filling the space between them with the-resin. Bodies for por- table instruments can-be cast- in epoxy resins for lightness. Many casting ckmpositi one have been developedq but a typical one in paits bj weight to be mixed in the order-given is as followss - 100 parts o epoxy resin ED-6 or ED-40; 200-parts of filler (ferric oxideo iron powder, marshalite etc.); 15 to 40 parts (or more to reduce Card 4/5  22020 3/145/61/000/003/005/006 Application of plastics D21).l/D304 brittleness) of dibuthylphtalate; 8 to 9 of polyethylenepolyamine (this is added 5 to 10 minutes before casting). This mixture re- mains isable for 30 to 40 minutes. Strength is increased by re-. ducing the amount of powder filler and adding glass or asbestos fiber. Turning or milling of epoxy resins is done without a cooler by ordinary t~ools (with hard tips for abrasive fillers). A cutting speed of 100 m/min and feed of 0.1 to 0.2 mm/rev can be used. ASSOCIATIONs MVTU im. N.B. Baiimana (Moscow Technological College (MVTU) im. ILE. Bauman) SUBMITTED3 July 12, 1960 Card 5/5  XCHSAKOV V.S..,,- doktor tekhn*nauk Design a standard technical equipment, for automatic assembly Awhinostroitall no.3:22-23 Mr 162. (KMA 150) (Apsembly-line methods) (Automation)  .KOMAKOVI VS.., doktor tekhn.nauk, prof. Lquipment used in the automation of assembling processes. Vest*, mash- 1+2 - no-4:58-64 Ap 962. (MIU 15 9.4) .(Assembly li6elmetWs) (Automation)  KORSAKOVA(Baybit)o v.8. red.; tekba. red. [Medical literature of the U.S.S.R.; an index of books and articles for the second half of 19581 Nauabnaia meditsinskaia literature, SSSR; ukazatell knig i statei za vtoroe polugodie 1958 g. Soot. Bibliograficheakim otdelom GTs*IB. Pod red. N.S. Korsakavoi (Baiba). Moskva, Medgiz, 1961. 888 p. (MIRA 15:7) 1. Moscow. GosudarstTennaya nauchnaya meditsinskaya biblioteka. (BIBLIOGRAPHY-HEDICINE)  SIMRMU, V.L.; LEGONIKIKH, G.V.;_XORS4KOV,-.V,.~,, doktor tekhn. prof., retsenzent; NOVIKOV, M.P.# kmwl. takhn.mauk, red,;-,- STROGANOV., L.P.., inzh.., red.; ELIKI]ID,,V.D., tekhn. red. [Mechanization of assembling operations in the instrument industry] Mekhan:izatsiia sborochrykh rabot v priborostroenii. Moskva.. Mashgiz, 1963. 466 p. (MIRA 17-2)  BOBKOVA, L.P.; KORSAKOVI V,S.; ROMANOV, L.M.; YENIKOLOPYAN, N.S. Polymerization of formaldehyde, Part 3z Effect of active addition agents on the polywrization of formaldehyde in solutLons. Vysokcw-,'soed. 5 no.ll-.1653-1657 N 163. (MMA i#-.l) 1. Inatitut khimicheskoy fisiki AN SSSRO  BOBKOVA, L.P.; KORSAKOV, V.S.; ROMOV, L.M.; YENIKOLOPYAH, N.S. Polymerization of formaldebyde. Part 52 Effect of water, methyl alcohol, acetic acid, and acetic anhydride on the polymerization of.formaldebyde in solutions. Vysokom. soed. 5 no.12:1780-1784 D 163. (MIRA 17%1) 1. Institut khimicheskoy fiziki AN SSSR.  ARTOBOLEVSKTY. S Tjdeceased%-AQAAAAQY,_V.S , doktor tekbn.naukj, & --- khnona prof., rotsenzent;.,PRZYS,, V.Fp d5kto,, te ukpProfts nauchn.red. [Industrial automatic machineol Tekhnologicheskie mashiry- avtomaty. Mos1cvaj Mashinostroeniev 1964. 178 p. (MIRA 17:12)  ERAVICHEV) V.A., dots., kand. tekhn. naukj- KORSAKOV,, V.S., tekhri. neuk, prof.p retsenzent; OKHLYUID., k.B inzh -, red.; SENENCHENKO, V.A., red. izd-va; DEMKINA, N.F.; tekhn. red. [Hydraulic and pneumatic control devices for machine tools] Gidravlicheskie i pnevmaticheskie avtomatiziruiushchie ustroistya metallorezhusbchikh stankov. Moskva, Izd-va "Mashinostroyenie,," 1964. 262 p. (MIRA 17;4)  RABINOVICH, Abrm Nakhimovichj JJQ&W ,LV,_V.�.,._doktor tekhn. naukj retsensent (Automation of machining and assembling operations] kvtomatizatsiia inekhano-sborochnogo proizvodstva. Kiev, Tekhnika, 1964. 385 p. (MIRA 17s12)  BELousoV, A.P.j dots.s kand. tekhn6 nauk; YEFIM'YEVI AIN.0 dots-i enzent; rUSIKOV, S.N.0 dots., retsenzentl Y01"ANN', rats V.S.2 prof.) doktor tekhn. naukp red. 1. .. [Design of attacbmelits] Proektirovanie prisposoblerdi. I Moskva; Masbinostroeniep 1964. 186 p. (mRA 18:2)  ~11, ~--, _-r-,zt-. 1. KOURSAKOV, V.S., doktor tekhn. nauk, prof.; A ~: -," YELIZA"VETIN, M.A,, kand. Lekhn, nauk,, r&i. [Fundamentals of the design of attaclipe-ts In the mach4nery Industry] Osnov-f konstruircivaiiiia pr--sposoblenii v masi - nostroenti. lzd.2., dop. I perer. 1-sk-va, 1"Jashinostroenie, 1965. 359 P. (1,11RA 18:1)   Rnw, t-WO-h-dSe- CUrrent from a se ien~ -3 IIII-ect 30 gg WN MINOR  KORSAKOV, YO. -- ---- -1 Mixed output norms for mechanized loading and unloading at seaports. Sots. trud. no.10:56-61 0 '56. (MLRL 9:11) (Loading and unloading-Pro&wtion standards) (Harbors)  ll~ttlvg..up work norms and vows for merchant marine persomus4. Slek. f , - (KM 10 ,Ot' Yod. tianspe no 3:8-17 7 '57. Zvoges) (N~rc;ia;t lbrine-t-Pivduction standards)  KORSAKOV, To., shtur-n dallnego Pl4vaniYas Some potenitalities for increasing labor productivity of ship crews. Mor.flot 17 no#3:4-6 Mr 157* (MML 10:13) (Kerchant marine-Asnuing) (Weighters)  M , L.; KORSAEDV, To. Essential aspects of wage regulation of seaport workers. Sots. trud. 4 no.4:48-53 AP 159. (MIRA 12:6) (longshoremen) (Wages)  -.-. ~ ~ 2 . . - --- -- -- il --*-' Q~ KORSJLKOVS--Ie_. New wages for the merchant marine. Sots.trud 5 no.3:40-47 Mr ,6o. (MIRA 13:6) (Merchant marine) (Vages)  KORSAKOV Ye,; PMTRUI'OVR-V. On loading and unloading works.in seapoAsj ISota. trud 7 no.ilgII7-222 N 1629 (MIRA 15~-.12) (wages-Longshoreaen) system)  4 KOMSAKOV, Y,. :-',,xtend the integra"Idon of aeveral funcll~lans on BMpti,, Mcr. flo'.. 24 no.llslg-19 N 164. (M*:,Pk IB;C 1. Glavriyy inspektor po morakomu flot,.~ Gcsudarstv~iftriagl komlteta SovetA Ministroy SSSR po vaprosam truda 'L zaraboi-.noy platy.  WOVA9 Ro Raise the establishing of technical norms to the level of current requirements and tasks. Horifloi 25 no.634-6 J1 165. (MIRA l9tl) 1. Glavnyy inspektor po morskomu flotu Gosudarstvennogo komiteta Soveta Ministrov SSSR po voprosam truda i zarabotnoy platy (for' Korsakov). 2. Starshiy inspektor po morskomu flotu Gosudarstven- nogo komiteta Soveta Min1strov SSSR po voprosam truda i zarabotnoy platy (for Sasova).  Fk'J /DJ ZL N.Rz tP6029989 11TINTOR: Zhdanov, K. I. Nogtov, ~. 14.,; A'lekseyevp To L*; Xan'- fii ~oloi66 '-S-' s n O'.~iG: none TITLE: Variable okEller. Cluzs 62, No. 184147 SOURCE: 1zobret prom obraz tov zn, no. 15, 1966, 195 TOPIC TAGS: aircraft propeller, propeller blade, propeller pitch control 105TRACT: An Author Certificate has been issued for a variable-pitch propeller 1 consistin& of a hub (with blades mobilely attached) and a cylinder containing a. A variable-pitch mechanism and a control unit. The propeller is equipped with a hydraulic control unit, connected with the aircraft's hydraulic system,Afor the-- automatic control of propeller pitch and the engine's i~z~i -whi-i~-~i-u-r-1-ng constant rpm zind a minimal fuel expenditure. The control unit includes main and emergency regu- lators with control valves and servomechanisms consisting of servopistons with racks and pinions connected by a flexible coupling, one with the propeller's variable- pitch mechanism and the other with the engine's fucl-supply system. in order to remotely control propeller pitch and simultaneously adjuut the propeller pitch for thrust, it can be equipped with a servosystem consisting of 'a spring-supported contra' valve and a tracking bushing for changing the propeller's pitch. To assure the unc,