SCIENTIFIC ABSTRACT LITVINOV, A. M. - LITVINOV, I. A.

S/263/62@01XI,03/01 1,,'0 13 1004/1204 AUTHOR: Litvinov. A. M- TITLE: Pulse temperature regulators PERIODICAL: Rercrativnyy zhurnal, otdcl'nyy vypusk. lzmeritcl'naya tekhnika, no. 4, 1962, 43, abstract 32.3.270. "Tr. Konferentsii po avtomat. kontrolu i metodam elektr. izmereniy, 1959". Novosibirsk, Sib. branch or the AS USSR, 1961, 315-322 TEXT: Some design formulas for pulic temperature regulators are given for the case when the measuring circuit is chosen as a differential one. To obtain a pulse load the following were chosen: 1) circuits with a direct, short-time connection of the measuring network to a direct current source through contacts, and 2) circuits employing the pulse charging current of a capacitor connected to a direct current source. As an unbalance indicator electromagnetic elements may be employed, whose identical windings are connected to the two arms of the differential circuit and create oppositely directed magnetic fluxes. In the simplest regulator circuits, the windings of the polarized relays (of the type PrI (RP) and PrIC (RPS)) may be used. The design procedure for optimal parameters is given for thecircuit (1) with a differential inputcontaining amplifying and matching stages, in cases when theduration or the pulse greatly exceeds the timeconstant of the transionts(the prob1cm is reduced to the design of a circuit for d.c. operation). Practical schemes or pulse regulators with a difficrential measuring Card 1/2  Pulse temperature regulators ... S/263/62j'0)0,1003/01 1 /015 1004/1204 circuit are described. In the first one, a @elf-opening thermal relay was used as a generator of pubts, employing a thermo-bimetal with magnetic acceleration. The heating-up time of the bimetal should be reduced to a minimum by increasing its cooling down time. This enables reduction of the supply voltage's influence upon the generator's frequency. In circuits of type (2), which are preferable in case of higher d.c. voltages, an ordinary relaxation generator consisting of an RC-network and a cold-cathode thyratron may Ec employed. [Abstracter's note: Complete translation.] Card 212  BLCKH, Grigorly Semenovich; LITVINOV, Aloksandr NiR-olayevich [Asbestos cement materials and elements and their oper- ational qualities] Asbestotsomentnye materialy i kon- struktaii i ikh ekspluatatsiom-qe kachestva. Moskva, Stroiizdat., 1964. 146 p. NIFLA 18:3)  ..;tnek); KHONYAXOV, N.Y. LITV= . A& ...(g. �javy qwlwmw@- -- I I , . &ri@i indicators of the heat of contacts. knergetlk 5'ao,4:37-39 AP 157. (KLRA 10:6) (Thermometry) .. I I  BLOKH, G.S.,, kand.tekhnonauk; BLIKINSONs R-Z., kand,tekbn.nauk; LITYUPY, AJO, inzh* The serrice of corrupW aobeotoo-coment of the draw-off towers of cooling towers. no.13M-87 162. (Asbestos cement) (Cooling obeets in the 1-in-ing Trudy NIIIabest-teementa, (MMA 15922) towers)  .@L_Ajt*-inxb MM,, G*S*,, kvmd.tekbn.nauk; _L-IMNOV The durability of *VOOI corr gated asbestos-ement sheets of ordinary shape in roofs of public buildingoo Trudy NIIAsbeettsements. no.130-28 t62. OCMA 15:12) (Roofing.. Asbestos-cement)  Lnvnov, AJ. (Leningrad) J, - - Nuivalent structural representation of digital automatic c:ontxol systems. Izv. AN SSSR. Otd. tekho nauk, Tekh, kibo no.1:3.90-198 -Ta-P 163. (KMA 16:7) (Automatic control) (Eleotric computers)  LITVINOV., A. P. : ZILIBMRUT) V.D. Alloys Replacement of stannous bronze with antifrictional alloys. A. P. Idtvinov. V. D. Zillberdrut. Vest. mash. 31, No. 10, 1951. 9. Monthly List of Russian Accessions, Library of Congress, September, IWIPM Unclassified.  LITVINOV A F, I .. . ..Taking.lagging Into consideration in the synthesis of an itutomatic system with a digital control computer. Izv. ucheb.zav.; prib. 6 no.3:26-35 163. V1 (@UM 16:9) 1. Leningradskaya krasnoznamennaya voyenno-vozdushnaya 1r,7henernaya akademiya imeni A.F. Mozhayskogo.  FEDOROV, Stepan Mikhaylovichj STRAKHOV, V.P.P red. --' (Automatic systems with digital control computersi theory and design] Avtoziaticheskle sistenW a taifrovymi uprav- liaiushchimi mashinami; teorlia i proektirovanie. MoskVEL, Energiia, 1965. 222 p. (MIRA 18:8)  L 13311-63 BDS/EWT(d)ACOW@ -APGC/ASD/ESI)-3 Pg44/Pk-4/Pcj-L--V' 7 Pq- IJPMMG-@ S/146/63/006/002/005/L.0 qQ AVFAOR -.Litvinov. A. P. @TITLE: _&m1hisis of an.automatic Ustem employing a digital con,putor @,'PERIODICAL,. -Izv. Vuz.,@ Priborostroyeniye, v. VII no. 21 1963, 37-46 TEXT,.--.-For a1f utolli4ttajoato. i6l Of _W continuous - part - P'@ P_ n W M. @ic'h a di 't@atwputer perfom -the fmctiou.of a co prator,. it is: shown -that in analyzing -the accuracy o .fthe system under steady-a-Uxte conditions @, -the - quantization -with. respect -to-ti --- -int- -d ____d tj -the collplAte-r-'_ me, ro uce y pl@ can, be neglected* @ItAs established thatthe output of the system is cplapletely determined..by- its values@at points t.n nTO on the time a@ds. An expresision is relat ng:t e,@oscillati& index and.the overshoot for unit ate h 1wrLse action. Finally,:, the -Puthor investigates the dependence between themaximum pej!aissible readout period, for, the computer, the stability margin of the closed VaNim '(e;gtimated from the overshoot or the oscillation index), and the steady-ctate @error in reproducing a linearly.variable injmt signal. There are seven.iligures 00 .1 &7^  IL BUDAKOV, B.G.; ALH1C"1[D-i'O-V,' T.F.; BAGROV, M.A.; BUIANOV, A.I.; LIKENSKAYA, K.Y.; ICUZONIN, B.S.; SINYAGINA, M.I.; TI14arEnV, A.A.; xmix. r.i.; pri uchastii Sinyij@inqyj.L; BdUNOV. A.I., red.; ROWOVA, V.V., takhn.red. (Instructions for first. second, third and fourth class leveling] Instruktaiis po niveltrovaniiu 1, 11, 111 1 IV klassoy. lzd. 2-os, ispr. i dop. Moskva, Izd-vo geodez. lit-ry, 195?. 106 p, ODYA 11 M 1. Russia (1923- U.S.S.Rs) Glaynoye upravleniye goodmixii i kartografii, (Leveling)  LITVINOV, B.A., kandidat tekhnicheskikh nauk. - -to. c %." , I @xu"V Leveling of traverse nets. Geod.i kart. no.2:18-24 Y 157. (ICIM 10:5) (Leveling) (Traverses (Surveying)  LITV.11,107, B.A., kandidat takhnichAak'Alth nauk, On equatlons for travarsivg networks. Good. I kart. co-5@P-12 Yy 15?. (Triaw,miation) (Kid-m- I 0.-@)  SIMAKOV, S.G.; ALMAUMOT, T.F.; BAaROV, N.A.; BMANOT, A.I.;- KAMENSKATA, N.V.; KUZIHIN, B.S.; jjITTI110T, B A - SIXTAGINA, X.I.; 2DWYZM, A.A.; MIN, I.I.. Prinimala uchastiye SINTAGIMA, V.I.. ROKAMOVA. Y.T., takhn.red. (Instructions for first-, second-, third-9 and fourth-order leveling] Instruktaiia po nivelirovanilu I, N, III i IT klassov. Izd.3, i r. i dop. Moakva, Izd-vo geod.14A-ry, 1959. 111 p. (KIRA 13:3 7- 1. Russia (1923- U.S.S.R.) Glavnoye upravlaniya goodasil I karto- grafli. (Leveling--Handbooks, manuals, etc.)  LIMOVICH,.Vladimir Grigorlyevich, prof.;-.jjTVINOY. B.A.. kandt.tekhn.nauk, red.; VASILOYBYA, V.I., red.jpl7v@raf ROKAWU,'-V.1.`;@@fiklm. red. [Leveling in engineering work] Nivalirovanle pri lnzbenernykh rabotakh. Koskva, Isd-vo geodes. lit-ry, 1959. 38i P. (Leveling) (KIRA 12:7)  '3(4) SOV/134-59-4-1/17 .kUTHORi Litvinov, B. A., Candidate of Technical Sciences, Docent TITLE: On the Investigation of Short-period Errors J_n the Diameters of Angle Measurement Circles (Ob issledovani.4- korotkoperiodi- cheskikh oshibok diametrov uglomernykh krugov) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Geod-aziya i aerofotos'l- yer,ka, 1959, Nr 4, PP 3 - 15 (USSR) ABSTRACT: The instructions laid down for the triangulation of the first, 2nd, 3rd, and fourth orders of 1955 provide that in all instruments used for the measurement of angles in the points of the first and second orders the total anti short-period errors in the diameters of angle measurement be investigated. The investigation of short-period errors ordered in annex 16 of this instruction is carried out and displayed here so that the values obtained in this way, closely ap2roach the ad- missible value. Therefore the methods recommended in this instruction do not guarantee the necessary accuracy. The, author presents a method for an increase of accuracy in the determina- tion of short-period errors. For this purpo3e additional mea- Card 1/2 surements are made* Apart fron the measurement of intervals  -On the Investigation of Short-period Errors in the SOY/154-59-4-1/17 Diameters of Angle Measurement Circles between two adjacent, lines, intervals of a doable, threefold, fourfold etc spacing are measured with the same micrometer. For the sake of greater efficiency the evaluation of these measurements is carried out according to the method of the least aquareei in which case for each measured interval an error equation of the (11) type formula, or (111) type for- mula is established. Formula (111) only changes with a change of the number of intervals and thus the solution of the prob- lem holds for all instruments of the same type. The equation is solved and coefficients are obtained which are used for the determination of 6 corrections. The author has made these calculations and has compiled tables for these coefficients which are mentioned in the annex. The process of calculation and the use of these tables is pointed out. This method may also be used for the investigation of errors of any circular or linear scales.There are 0 tables. ASSOCIATIONt Voyenno-inzhenernaya akademiya im. V. V. Kuybysheva (Military Engineering Academy imeni V. V. Kuybyshev) SUB14ITTED: March 22, 1958 Card 2/2  AUTHORt Litvinov, B. A Candidate of Technical S100616,0100010310011019 BOO7/B1;23 TITLEs On the Development of Yederal'41Geodetic Nets of the Second and Third Order by Neans of the Traverse Method PERIODICALt Goodeziya i kartografiyal 19601 Nr 3P PP 3 - 10 (U13SR) TEXT: In connection with the use of optical range finders it 113 advisable to apply in addition to the triangulation method also the traverse method for the development of geodetic nets. Calculations by S. 0. Sudakov (Rej? i, footnote on P 3) and I. I. Entin (Ref 2, footnote on P 3) show that the same accuracy is achieved by either methodl whereas the traverse method is more economical in some areas. There it proves to be more suitable to build up a traverse net consisting of qiadrangles rather than triangles. The weakness of this method lies in the determination of the bearings. Calculations by I. V.. Zubritskiy (Ref 3, footnote on P 3), A.'I. Durnev and P. S. Zakatov (Ref 41 footnote on P 4), and K. L. Provorov (Ref 5, footnote on P 4), however, shoir that the re- sulting inaccuracies are negligible. Preliminary calculations showed that it is most suitable to build up.polygon nets of the second order in the form of traverse lines 40 km apart from each other that are nearly parallel to the lines of the traverse net of the first order. Series of quadrangular etecond order Card 1/3  On the Development of Federal Geodetic Note of the S1006160,100010310011019 Second and Third Order by Means of the Traverse BO07/B19'!3 Method I polygons are thus formed within the traverse not of the first oi-der (Fig 1). The second order polygons are then filled with traverses of the third order. Based on the experience gained by using optical range finders of the type SVV-1, , it is suitable to assume the length of the second order traverso to be 10 km. (L. M. Avdeyev, V. A. Veliohko, and K. A. Lapingg Ref 6, footnote on P 5). For testing such a procedure a traverse net of the second order was built up within a first order polygon in the forest-steppe zone of the USSR (Fii; 3). For this purpose maps of greatest scales were used. Based on this project a model was made. The net was adjusted three times in the following ways 1) according to the method of conditional equations with additional unknowns (Ref 79 footnote on p 6, B. A. Litvinov), 2) according to the closure method whioh is described here in detail, and 3) according to the approximation method usually applied in the adjustment of transit traverses. The results obtained showed that in this case the same degree of accuracy is attained as by using a triangulation net of the second order, and that this scheme for building up a net of the third order guarantees a sufficiently high precision. It is poii,.ited out that in some oases it is more advisable to build up the traverse netg of the second or- dei in the form of triangles or even pentagons. The data of tables I and 2 show Card 2/3  On the Development of Federal Geodetic Nets of the 3/006/60/COO/03/001/019 Second and Third Order by Means of the Traverse B007/BI23 Method that the results obtained by adjustment according to the method of least squares and to the closure method are practically equally precise. The steps necessary for adjustment according to the closure method are mentioned. This method is inaccurate because, after obtaining the coordinates at junctions, the vingle traverses are not adjusted, but only their orientation and scale are changed. As may be seen from tables 1 and 2, this leadel however, 'to no noticeable distortions. The approximation method, however, leads to noticeable distortions as may be seen from these tables. For the closure method the ad- justment computations were programmed on an electronic computer of the type "Strela". Thus.it in possible to adjust a traverse net of the second order within a polygon.of the first order of 250 by 250 km. P. A. Gaydayev and B. N. Klenitskiy are mentioned (Ref 10, footnote on p 10), as wall as D. S. Shein (Ref 9, footnote on p 8). There are 3 figures, 3 ta:bIes, and 10 Soviet references. Card 3/3  LITYINOT, B.A., kand.tekha.0suk Adjuatment of polygonometric networks by the method of conditional equations with unknowns. Good. i kart. no. 11:9-12 N 160. (MIRA 13:12) (Traverses (Surveying))  POIZVOY, Vyacheslav Alekseyevich; LOZINSKAYA, A.M., kand. tekhn. nauk,, retsenzent- LAPRIG, K.A., kand. tekhn. nauky retsenzent.:L @LITVIN@OV _" # kand. tekhn. nauk, dotsent, red.; ZUBAKOV, A.G., red.izd-va; VORONOVAI V.V., tekhn. red. [Rmdamentals of the mathematical processing of the results of radiogeodetic measurements] 0snovy matematicheakoi obrebotki rezull- tatov radiogeodezichskikh izmerenii. Moskva, Izd-vo e0dez. lit-ry,, 1961. 205 p. NI'IRA -14: 11) (Radar in surveying)  LITVINOV. B.A.- Errors of polygonom tric networks related to the comitruction ayotem.. Good. i kart. no.2:543 F 161. (14M 14:9) (Traverses (Surveying)) V.  SUDAKOV, S.G.1 ALEKSANDROV, T.F.; BULANOV, A.I.; DURNEV, A.I.; YELISEYEVi S-V-; ZAKATOV, P.S.; IZOT(YV, A.a.; KARLOV, G.M.; NUZ1141111, B.S.; KUKUSHKIII, A.D.; KOWPAM, A.P.; KC;ZLCVA, Ye.A.; IARIIIp B.A.; LAR321,, D.A.; LARIN, B.A.; LITVIVOV, B.A.; MAZA7EVI AN.; P=INM, L.P.; PETROV, A.I.; SOL0TqZ7-j7A-.-I-.; ICNILIN, A.F.; URAWVp S.S.; USIUTSKIY, M.S.; FOMIN, M.P.; SHISHKIN, V.11.; SHCHEGIDV, A.P.; SUDAKOV, S.G., otv. red.; I(Ol-WIKOVA, L.M., red. izd-vs;SUvGUR0V, V.S., takhn. red. I [Instmation concerning the building-up of a state geodetic network in the U.S.S.R.] Instruktaiia o postroenii gosudarstvonnoi geodezi- cheskoi tetl Soiuza SSR; obiazatelIna dlia vsekh vedomstv i uch- rezhdenii, proizvodiashchikh gosudarstvenrWe geodezicheskie seti. I!oskva, Izd-vo geodez. lit-ry., 1961. 459 p. (MIRA 15:6) 1. Russia (1923- U.S.S.R.) Glavnoye upravleniye geodezii i karto- grafii. (Geodesy)  LITVINOV, Boris KlekseyevichLSUDAKOV, S.G.,, red.,* KHROMCHENKO, F.I., R V.V., tekbn. red. r e . [Basic problems in constructing and adjusting traverse nets) OanovrWe voprosy poBtroeniia i uravnivaniia poligonometriche- skikh setei. Moskva I Geodezizdat 1962 227 p. (MIRA 15:12) (Traverses (Survoyingl)  SUDAKOV, S.G.; ALEKSANDROV, T.F.j BAGROV, M.A.; BULANOV, A.I.j KAMENSKAYA, M.V.; KUZIMIN, B.Si,' LITVINOV' B.A.; SINYAGINA, M.I.; TIMOFEYKV, A.A.; ENTIN, J. MKINKI-achastiye SI"AGINA, V.I.; KOMARIKOVA9 L.M., red.izd-va; ROMANOVIL, V.V.,, tekhn. red. [Instructions for let, 2d,, 3d, and .4th-C14 0 leveling .1 In- struktsiia,po nivelirovwdiu I, II, III, I*IV klassov. 4 izd. dop. i1sp;4- Moskva,, Goagooltekhizdat, 1963. 110 P. (MIRA 16:6) 1. Russia (1923- U.S.S.R.) Glavnoye upravleniye geodissii i kartografii. (Leveling)  STARODUBOV, Vitaliy Leontlyeviahj SUfWAKOV, Yakov Arnolldoviobj LILUMV.-R. .. retsenzeilt; IZWHUR, G.P., red.; WANOVAp V.V.,, tekhn.,red. KHROMOM I., red.izd-va; RQ (Short-baea parallactic traverse surveying] Korotkobazisn4ia parallakticheskaia poligonometriia. Moskva, Gosgeo*L*tekhiz- dat, 1963. 307 p. (Traverses (Surveying)) (HIRk 166.8)  BUMISTROV, Georgiy Aleksayevich; KEMNITSO YuA, rots enzent; , retsenzent; GORDEYEV, AA, red.; SHURYGINA, A.I., red, izd-va; ROMMOVA, V.V.,, tekhn, red. [Principles of the method of least squares] Osnovy sp3t3oba naimen'shikh kvadratov. Moskva, Goggeoltekhizdat, 1963. 391 P. (MIRk 16:6) (Least squares)  LITVINOV, B.A., doktor tek@n. nauk leveling of fres traverse networkiss Tzv. vyise uchebo maroj geodo i aigrof. noe6t5-14 963 (KIRA 17t7)  LT NOV H.)I. teklp.. nii@ik; IiIATOV, 1.1., kand. 4.ekhn., ri-luk I AdjusLing loparing angles ir, E traverse- triLngula!--or, network. Izv. vyr.. ucheb. zav., geod. i aerof. no.2t3-14 164. (14P.A 17:9)  LITVINOV, B.A., doktor tekhn. nauk More about the distribution of errors in traverse nets. JzV. -"7s. ucheb. zav.; geod. i aerof. no.5:119-121 164. (MIRA 1815) "x? @ 1@  FILONF14KC), AIek,,3ry StepancivIch, prof. [d".eaiqeAl; SHCHIPITSIN', Niki@?.P-y orignrlyevic-lij, dote.; LITVINOV, B.A... prof., red.; (laboratory work In oumeying; study of precision suvray- Ing Instruments) Praktilmm po vysBhel geodezii; issladmra.- rde vysokotonhiWkh geodezicheskikh Instrumentov. Moslora, 1965. '91) p. (MIRA IS-.8) Nedra L  -L. 0- 1-w _-Mi-TIM) rrVP W /E WP (b)/EWA-(h).-: LJR(c) JD/DK ACC NRI. AP5022636 IJR/0089/65/019/0(),!/0176/0177 621 o3g.573 .AUTHOMMIMBAW., 0. _L.; Gagbar '_ - yen, V& G.; L -Lyudvigov, Re Bs; Razmadze. G.; 0 a fl T-4 TITIZ: Indidm-gIllium 'radiation loop for pool-type res,etors @-SOURCE: Ato ya ene@;iya, v. 19, no. 2t 1965t 176-171' ,TOPIC TAGS: nuclear research reactor, gamma radiation. ABSTRACT: An.abbroviated description of a special indlun-gallium loop used in the IRT-2000 research reactor is given. The reactor is oper- ateid by. thei Institute of Physics of the Gruzinskaya SS.R Academy of Sciences. : The loop does not require a speloial biological shielding and can be on oily manipulated and adjusted to other paol-type reactors. The changes In gamma dose rates are obtained by Mranslational dis- placement of the loop frame. The radioactive In nuclei are generate! by leakage neutrons, A. radioactivity equivalent to 16 g of radium can .be created at a 1000 K-vt capacity. Thus, a gamma done rate of about   XMINOV, B.M.., kand. biolog. nauk; SAPALEV,, G.B. Controlling the codling moth on the "Ukrainka* State &I.-M. Zai3hoh., rast. ot vred, i bol. 7 no.12ig D 162. (MM 160) 1. Agronow po sashobite, rasteniy sovkboza "Ukrain3call Kharl- kovskayu obl. (for Sapalev). (Godling moth-Extermination)  M(SLIGIR'A. YGlena NlkifOrOvfta, kand stqrshiy nmychnyy soirudnik; EaLKiENTA7., Vladimir TaxW*##khj TMITION, AnatoUy Mrigol"Yevich mlad:3Y'y nauchnyy sotrudnik; LITVII.(,"1*- Foorim Nikol"wflch za@@ , tekhnik Use of electronic analog computern for studying the dlmw-ics of the changes of the level of erythrocytes in a body. Izv. vys. ucheb. zav.-, elektromekh. 4 no-4:62-70 161. (MIRI. LI+:7) 1. Institut, pediatrii AWI SSSR (for Mosyagina). 2. flachalinik laboratorii vychislitelinykh mashin Novocherkasskogo i2auchno- issledovatellskogo instituta, elektrovozWrWeniyakfor Kleymenov). 3. Novocherkasakiy nauchno-issledovateliskiy institut elektrovozontroyeniya (for Vollvich)- 4. Laboratoriya schetnykh mashin Novocherkanskogo politekhnicheekog Instituta (for lAt7inov). (MMICAL ELECTRONICS) (EIMTRONTIC MIALOG COIIPUT;!.RS) (IMTHMCYTES)  LITVINOV, B. ,!., Cand Blo Sci -- (disr) "Chief bllhts of ap:@lo t:,cas in-the forest steppes of the Khartkov oblast' and the fight ai,-ainst @hem. Example of the Kolkhoz in I. V. ':,Iichurin. 11 Khar Ikov, 1957, 19 pp (KharIkov Agricultural Institute irl V. V. Dokuchayev. Chair of Zoology m d Entomology), 140 copics (KL, 36-57, 104)  USSIVGonaral and Spocial Zoolo3y. Insocts. Injurious In- 2 soc.ta and Ticka. 13osts of Fruit and Borry Crops Abs Jour : Rof Zhur- Biol., No 11, 1958, lNo 49645, Author : Lltvinov B.14i Inst : Khar'kov 117FIE-Ultural Instituto Titlo : Dama-o to tho Ovary of tho Applo, Trao by tho vlost,.;rn May Buotlo, 10 Ori- Pub : Zap. Khar'kovak. a.-kh, in-ta 1957, 13, 175-177 Abst-ranct :Oboarwations durin.,', 1954-1955 in Kharkovskaya Oblast domonstrCtod that tho wostorn 14ay bcatlu fo--.ds on loavos,flowors and ovarios of fruit trooB, On tho avor,,-,o, as a rosult of ftamaSo to the uvarios, tho appl@o crop of tho suajor vario- tios doorcasos by 25@,, and of thi fall vcmriotios by 10.6,-,@)'. Tho plums in tho fruit Gardon aro most fmquontod by tho bootles. It Is rjco=-cndcd that in Saardans Bituatod noar tho forost, control Card 1/2  USSR / General anft Specialized Zoolo6jr- Insects. 2 Peat Insects and Ticks. Abs Jour Ref Zhur - Biol., No 17, 1958, No 78312 Author Titvinny- Inst Kharkov Tsricultu@al Institute Title Lesser Apple Worm and Its Control Orig Pub Zap. Kharkovsk. a-kh. in-ta, 1957, 13 (50), 17@)-181 Abstract For control of lesser apple-worm in Kharkov Oblast, there were tried dusting of vofotox and DDT (5.5%) and an emulsion of DDT (0-5, 1.0, 1.5 and 2.0%)* and thiophoo (0.1%). Concent'ration of emulsions are indicated on the preparation. On each tree there were used 10 1. of emulsion and 0.2 kg of dust. As a result of two-time treat- ing, with a 16-day Interval with a lj%, inineral- Card 1/2 USSR / General and Specialized Zoology. Insects. Post Insects and Ticksj Abs Jour Ref Zhur - Biol., No 17, 1958, No 78312 Card 2/2 P oil emulsion of DDT on the summer varieties, and three-time treating (the 3d spray 'r daye after the beginning of flying of the 2d rener- ation of the moth) of a 1-2 and even it 2.5% emul- sion of DDT for the late varieties, there were obtained undamaged fruit correspondingly 77.2 and 89%, for 55.3 and 18.4% In the control. Emulsion of DDT higher than 1% produced burning of leaves on the summer varieties. Two-time dusting of 5.5% DDT and I'vofatox" vras effective against the first generation of the moth. The ormp of undamaged fruits for summer varieties was 92.5%; 55.3% In the control. One-time treating against the 2d generation was insufficient. The crop of undamaged fruits of the winter varieties was 68.8%, and 18.4% in the control. Two- and three-time sprayln6 of a 1% emulsion of thiophos gave no positive results. -- V. G. Gubina.  L V611 133-1-1."?/24 AUTHORS: Golikovi I.N., Candidate of Technical Scienc@s, and . Litvinov, B.M., Engineer. TITLE: Weldability of Flakes in Alloy Steels During Rolling (Zavarivayemost' flokenov v legirovannoy stali pri prokatke) PERIODICAL: Stall, 1958, No.1, pp.. 67 - 70 (USSR). ABSTRACT: In order to prevent the formation of flakes, merchant blooms of structural and tool steels are usually either slow- cooled (during a few days in unfired soaking pits) or submitted to a prolonged thermal treatment. If, on the other hand, blooms are further rolled on the same works, their cooling may be simplified as the flakes formed can be welded in. subsequent rolling. This investigation was carried out in order to det- ermine the minimum degree of deformation necessary for the welding of flakes in structural steels. The eynerimental procedure was as follows: experimental ingots were charged hot into soaking pits, heated in the usual way and rolled on a mill 950 into semis of a cross-section 190-220. From these, one bloom was cut out from the top part of the ingot and with- out additional heating rolled on a mill ?50 to sq' uare semis of 125 - 140 mm wide and 3 - 3-5 m long, which were then cQoled in aiA, 20 - 30 days after rollingi a few longitudin4l and (;ardl/3  133-1-17/24 Weldability of Flakes in Alloy Steels During Rolling transverse plates were cut out from each of the experimental semis. The following steels were tested: 38XMIOI,,, 30X2H2Aj nM31 4OXHKA $ 45XMOA 6OX2M 60M and 3oxrcHA (f lakes were '), 50ijA 45X1211 6OC2 absent in these steels I , 303,TCHA, 37XH3A (possessed longitudinal f lakes3i LLIX15, 9XC and @IiUrCHA (possessed transverse and longitudinal flakes, FIS.1). The in luence of cooling semis with water on the orientation of flalgv was also checked. In two semis of steels 3OXr-CA and 4XB2C cooled after rolling with water, flakes weTe not found; in steel 40XH, longitudinal flakes were found and in steel UX15 and 60 XM& - both longitudinal and transverse flakes were found. Transverse flakes were also obtained artificially, stressing rolled warm semis, as shown in Fig.2. In order to investigate the conditions under which flakes are welded, the above semis were cut into 2-3 parts and after heating by an appropriate method for a given steel practice, rolled on mills ?50 and 400 with rolls with i!homboidal passes into bars 83 x 83 and 60 x 60 mm (some into bars 120 x 120, 112 x 112 and 105 x 105) which were then slowly cooled and thermally treated in order to prevent the formation of new flakes. A large number of longitudinal and transverse macro-sections were Card2/3 prepared and exttmined. Example& of sections with open flakes  133-1-19/24 Weldability of Flakes in Alloy Steels During Rolling are shown in Figs. 4, 5 and 6. Conclusions: 1) Longitudinal flakes and longitudinal sectors of flakes are welded under a small deformation (coefficient of elongation 2-3). 2) Tran verse flakes and transverse sectors of flakes open during rolling forming cavities. With further deformation of metal these cavities elongate and close. 3) Transverse flakes of up to 25 mm in size in square semis of the size, 125 - 1.40 mm weld on rolling into a bar, 40 x 40 mm, thus, the minimum coefficient of elongation necessary to weld such flakes is 10-12. K.N. Petukhova participated in the work. There are 6 figures and 6 Russian references. ASSOCIATION: Zlatoust- Metallur ical Works (Zlatoustovskiy metallurgicheskiy zavod5 AVAILABLE: Library of Congress Card 3/3  SOV/133-59-2-14/26 AUTHORS: Gololebov, D.I., Litvinov, B.M. TITLE: Oxy-Acetylene Scarfing of Stainless and Heat Resistant, Steels (Ognevaya zachistka nerzhaveyushchik@a -J zharoprochn,7kh staley) PERIODICAL: Stall, 1959, Nr 2, pp 145-147 (USSR) ABSTRACT: The possibility of scarfing of various steals with increased content of chromium and silicon vas investigated. Stainless and heat resistant steels can be divided into two groups: steels in which structural transformations are taking place on hea-Ging and cooling (e. lKhl3-4Fhl3, Kh9C2) and practically single phase steels @Lg. 11MIMT9 KbL28). There were some fears as to the poEsibility of formation of cracks in steels of the first group, however., it was fowid that cracks were not formed. These results were confirmed by subsequent results of scarfing of a large quantity of metal. When aluminium-ma.&uesium povkler is used with oxy-acetylene flame the surface of blooms of high chrom-Jum steels is rovered with a layer of/silag which Card 113 for checking on the quality of dressing is removed by a  SO V/-J7.:57-5GJ 216 Oxy-Acetylene Scarfing of Stainless and Heat Resistant Steels special scraper. At present nctless than one bloom per heat is cleaned with an abrasive wheel to check on the quality of scarfing. Scarfing of ingots waE also tested,. For this purpose half of the ingots from 3 heats were scarfed while the remaining half was mechanically dressed. It was found that the q7aality of the metal in rolled products from scarfed ingots and blooms was not in any way inferior to that from mechanically dressed ingots. In order to study the influence of scarfing on the structure of higL. chromium steels specimens cut from scarfed blooms of lfal3@ 3al3v Eh9C29 Khl2iV; Khl89 lKhl8N9TT9 Khl8N25C2, 4KbLl4Nl4V2M and Kh23N18 steels were submittad to micro- analysis. It was foLuid that cast and hardened structures are formed in the surface layers as well as some decarburisation. An increa@e in the grain size and annealing of hardened layer to a depth of 1. - 1.2 mm takes place. However, as blooms are reheated and. rolled into various products with a considerable deformation, the surface zone becomes, so thin that changes jai the surface layer of the blooms caused. by scarfing can be neglected.. Card 2/3 As on scarfing with aluminium magnesium povAler, a lot of  SOV/-'-' 13@-"-59-2-14/2E Oxy-Acetylene Scarfing of Stainless and Heat Resistan7, S-Gea"s smoke and polluting gases are evolved. A special camerEt with an exhaust system was desJgned (sh,-)wn in fig.). At present practically all blooms of high chi@omiim steel are dressed by scarfing. There is I figurg and 2 references,, both of whi-.h are Soviet. ASSOCIXIIION: Uatoustoirskiy Metallurgi(3heskiy Zavod (ZlatousL Metallurgical Worke) Card 3/3  PINSKIY, A.Ye. (Pinslkyi, O.IU,I; IJELINOV, B.V. (Lytvynov, B.V.1 Use of synthetic fibers in condenser spinning. Leh. prom, no.l: 10-13 Ja-Mr 165. (MIRA 18:4)  -rv i N o M. A, 200 The Welding of Pressure Vessels mad* frce Sheet Alwddum Allay ARTS D. A. q Mv 6-8)--- Wj4aAM D. A. Koctm-gin (Awtog. Delo, 19h9j (in Russian). L. and K. carried out an extensive investigation of welding articles from the aluminium &Uoy AMT9 of thickness 18-25 mm. sivi obtained the necessary data for fabricattng welded thick-walled pressure rossels. Tables are given of the mechanical properties of the welded metal, shaving covparisons between gas-and are-welding, between two different types of volding-rod material (AK and AMT9)p and also between the longitudInal and transverse properties of the weld seam. X-ray and hydraulic testing of the vessels after welding showed the results being entirely satisfactor7.-W.J.K.  USHAKOV, Pavel Nikolayevich; LYSYAKOV, Anatoliy Grigorlyevich;; LITVINGV D.A., kand.tekhn.naukpretsenzent; TSYGAWOV, M.A.) InZK.p reteenzeiit-I OKOROKOV) A.A.V inzh., rod.; SMIRNUVA, G.V., tekbn. red. (Safety regulations, in designing and-operating hoisting cranes] Tekbnika bezopasnosti pri ustroistve I eispluatatsii gruzopod"- e=ykh kranov. Moskva, Ma9hgizj 1962. 217 p. (MIRA 15:9) (Cranes, dairricks2 etc.-Safety regulations)  MOROZOVI M.P.J. red.; GUTOROV, V.G., red.; GRINBOYM, S.M., red.; ZHILYAYEV, A.V. , red.; KOHD*.,WIIOV, A.M. . red.; kITVIh'CLY'-L- D.A., red.; TATAROKOt V.A., red.; VOLKOV, V.A.I red. L. I.., tekhn. red. [Regulations forthe manufacture and safe operation of high- pressure vessels; viendatory-for all ministries and departments) Pravila, ustrointva i bezopasnoi ekspluatatsii sosudov, rabo- tailashchikh pod davloniem; obiazateliny dlia vsekh ministerstv i vedomstv. Izd.4. Moskv@@, Gosgortekhizdat, 1961 ?9 P. (MI@A 15:10) 1. Russia (1923- U.S.S.R.)Komitet po nadzoru za bezopasnym ve- deniem rabot v promyshlennosti i gornomu nadzoru. (Presure vessels)  XARASINAP B.S.; KROPP, L.I.; MINTS, M.S.; KNYAZIKOV, B.N.; LITVINOV, D.D.; GRINBLAT, Ye.I.; KAZAKOV, V.Ya.; VOLKOV, B.V.; WbIN- V, - '- v V. Exchange.of experience. Zav.lab. 28 no-5:633-635 162. (MM 15:6) 1. Vsesovuznyf teplotekhnicheskiy institut imeni F.E.Dzerzhinskogo (for Karasina, Kropp, Hints). 2. Institut radiofizikl i elektroniki, AN USSR (for Knyazlkov, Litvinov). 3. Vrallskiy politekhnicheskiy institut imeni S.M.Kirova (for Grinblat, Kazakov). 4. Opytnokonstruktorskoys byuro sintetictieskikh pro- duktov (for Volkov). 5. Leningradskiy tekhnologichefikiy institut imeni Lensoveta (for Bardin). (Chemical apparatus)  2=PJLYLO V. D., LITVINOV. D. 1. &IG. MARKING DEVICES Machine for marking standard shapes and other profiles. Vest. mash. 3;2 no. 3, 1952. 2 9. Monthl List of Russian Accessions, Library of Congress, Oct6ber -195y, Uncl.  ACC NI,AP6021795 si@@a -M /Oia@/i@/Wo/m/w6o/w6c INTE-1,11TORS: Demenitskaya, R. M.; Trubyatchinskiy, N, N,; Litvir)ov,, E. M.; Gorodnitskly, A. M. ORG.* none TITIZE: A method for geophysical investigation of ocean water. Class 21, No. 182802 Lannounced by Scientific Research Institute of Arctic Geology (Nauchno- issledovatellskiy institut goologii Arktiki)_7 SOURCE: izobretenlyal promyshlennyyo obraztsy, tovarnyye znaki, no. 12, 1966, 60 TOPIC TAGS: geopIrfsic instrument, oceanographic equipment, oceanography, sea water,, electric field, salinometer, temperature measurement, automatic control ABSTRACT: This Author Certificate presents a method for investigating ocean water. For the sake of automation, increasing the accuracy of measurements, and lowering the cost of the process, the measuring of the temperature and of the salinity (accor ing to the specific resistance and to the natural electric field) is accomplished by deep sounding of ocean water vith a continuous recording of the measured parameters by automatic geophysical logging equipment. S'UB CODE: 080 3.3/ SUBM DATE: 13Apr64 Card  141 bf I wihn@_@@, to @5ytvtlottk I Fv%-U pq lbt- on--- 4 Rtdna" ia,A7, it No. S. io.  V 86-9-6/36 AUTHOR: Lttvinov, F.P. Guards Col., Hero of the Soviet Union TITIZ: Problem of Education of Trainees During Flight Training Course (Vospitaniye kursantov v protsesse letnogo obucheniya PERIODICAL: Vestnik Vozdushnogo Flota, 1957, Nr 9, pp.18-24 (USSR) ABSTRACT: The author stresses the great importance for the flight training Instructor of thorough study of personal oharao- teristics of his students. Even before the first personal contact is established, the Instructor Must be acquainted with such personal details of his students as; state of health and physical fitness, disciplined behaviour, politioa skill and the age. For the first personal contact with his student, the instructor must be thoroughly prepared, because this contact will have important influence in the process of training and in the attitude of students toward the instructor. The instructor must avoid cheap popularity and also exaggerated severity; however., he should not tolerate even small irregularities. The first meeting with the students should be organized according to a plan prepared beforehand and should supply the instructor with Card 1/5 the most essential information about his training group.  86--g-6/36 Problem of Education of Trainees During Flight Training Course (Cont.) This will help the instructor in further selection of the most able and disciplined students who will -form his Itactive training group". According to the author, the instructor may win the-confidence of the student if he is at the same time exacting and modest, well pondered and observant and constantly exigent to himself. It would be wrong if the instructor were to rely too much on the data of the students which may be supplied by aeroclubs and organizations where the students previously had undergone their flying education. Also it would be wrong to form an opinion about the student's flying ability only on the basis of his first flights. The author stated that on the basis of thorough checking of some students, flying capacities it was revealed that the flight do6uments and characteristics sent from aeroclubs appeared to be inaccurate. The instructor should avoid making hasty con- c2usions about the flying ability of the students. In order to form a proper opinion, it would be necessary to complete w1th the students 5-10 circular f1ights and 1-2 flights in the piloting zone, in accordance with the program of training flights with the instructor. But even Card 2/5 that may be insufficient and the instructor should request  86-9-6/36 Problem of Education of Trainees During Flight Training Course (Cont.) his superior for a special checking on the 'basis of which he may determine further methods of individual training. In order to inculcate the high moral and combat qualities In the students, the instructor should constantly perfect the methods of training and education and check the achieved results. His approach to the student should be based on good psychological analysis of the student's character while in the air, as well as during the training on the ground and in off duty friendly conversations.- The education and training of each student should be treated individually, according to his ability and character. A skillful instructor should from the first flight, inculcate in the students the habit of analyzing their errors and reactions during the flight. It is important to know whether the student while In the air has the feeling of satisfaction or of fear. On this fact may depend the course of his further education. Flight Into the piloting zone, which should be observed by the instruc- tor very carefully, may supply much useful data about the student behavior, while in the air. For instance, the Card 3/5 behaviour of a student in a spin or steeply banked turn  86-9-6/36 Problem of Education of Trainees During Flight Training Course "Cont.) k may indicate to the instructor the attitude of the student toward the flight. In case of lack of Belf--nontrol or necessary attention, the instructor must adopt appropriate methods of further individual training. The author points out that insufficient physical fitness of students in many cases was the cause of irregularities In fll.ght. This factor should be taken into consideration by the instructor in order to know the degree of endurance of otudent during strenuoua flight. In the program of the flIght training course is determined the minimum of "0" for eaoh flying day of stud-ant. However, the instructor knowing the capacity of his students should order such i'vamber of flights which will give the best results In trainl43 and at the same time will not jeopardize the safety of flying. Physical fitness of the instructor plays an Important role in training, because by his own experience he will know what-kind of physical exercise will be most -effective for developing of flying endurance among the students. The author cited an example of effective sport training which in a comparatively short time improved the students' skill in handling of the airplane controls. Also asserting the Card 4/5 necessity of individualizing the programp the author  SUNACH, A.D., inzh.; HASKIPOV, V.I.. inzh.; LITTINOY, G.I., inzh. UKRI catter-loader unit. Ugoll IJkr. 4 no. 11:32-34 JS 160. (MIRA 13,12) 1. Dongiprouglemaoh. (Donets Basin--Coal mining; machinery)  RASPOPOV@ V.I., konstraktor; SUKACH, A.D., konstruktor; D'YACiU,,NKO, K.I., konstruktor; LITMINQVT-G-k-, konstruktor; GOL1D;3HTM, M.Ya., konstruktor; FOGILEVSKIY, L.G., konstruktor; ZXIMEV, G.I., konstruktor; BURLYGA, F.I... red.; SAYOLETOVA, A.V.,, tekhn. red. [Neo equipment unit on pitching seams] Novyi kompleks na kru- topadaiushchikh plastakh. Stallno, Knizhnoe 12d-vo Stalino- Donbas, 1961. 56 p. (KRA *16:6) (Coal mining machiner7)  BRODSCIT,"Vladimir Isakovich; LITTINOV, Glob Andreyevich; 3ROBSFU30, L. A. redaktor; HALIKOVA.' MelffcTe"*@o'gry redaktor A [Work organization of a motor transport system; the practice of the No.l.jUga Motor Transport Office of the Ministry of Automo- tive Transportation and Highways of the Latvian-$%JQIrganizatsiia raboty avtotransportnogo khoziaistva; Opyt Rishokoi avtotrad'& aportnoi kontory no.l. Ministerstva, avtomobillnogo trwisporta. i shoseeinfth dorog Latviiakol SSR, Ixd,#2-e. Moskva, Nwichno-toon. isd-vo avtotransportnoi lit-ry, 1955. 67 P- (HLRA 13-8) (Riga--Transportation, Automotive)  LTTTM,'OV, n. @,. 5791. Orrnniv-,tsi@@n ro?.-ot-- 'pop, trans@porte. 0-,-rt svtotr@lrsn. '21-.c-- tory '4L1. M-Va -.vto,rLh trarisp@wta I !--hos-leyrykii dorof7 latv. SSR. Ri-,:i, !-tt-osizdat, 1954- 116s. s ill, 21 form, 22,cufl- 5.000 el-2- 2 r 65k (55-1011'; r, SO: Knizbnaya, LntopJa, Vol. 1, 1955  9'.3140 77203 sov/lo()----1-16/2O AUTHORS: Babkin, N. I., Litvinov, TITLE: Installation for Continuous Observation of the Angle of Rotation of the Polarization Plane by Ferrite, as Function of the Magnetizing Current and on Frequency of SHP Oscillations. Brief Communication PERIODICALi Radiote.khnika 1. elektronika, 1960, Vol 15, Nr 1, pp 169- 170 (USSR) ABSTRACT: During the development of ferrite devices it is often necessary to determine the relation of the angle of rotation of the polarization plane with respect to the magnetization current (I) or to the SHF frequency. Card 1/6  In-sta-1-1-atio-n- L~-o-r-C--o-n-t--i-ii-u--o--u-s----O-bs--e--rv--a-t-i.oii 77203 of the Angle of Rotation of the Polariza- SOV/109-5-1-16/20 tion Plane by Ferrite, as Function of the Magnetizing Current and on Frequency of SHF Oscillations. Brief Communication The determination of these characteristics Is done point- by-point; and requires considerable time; therefore, the scheme as shown on Fig. 1 Is used for a continuous measze- ment of these characteristics. The signal from the SHF oocillat;or enters through the intemediate components of the set into the auxiliary ferrite device ('[) with the full. magnetic field, and after being: subjected to the influence of the'coil current having a frequency fl = 400 cps, the polarization plane of the cutput wave TE I'l fluctuates within a certain angle. The SHP signal further passes through the other components and from the wave transformer TE I'l -TE 1,0 at the end of the rotary transi- tion (9) enters the detector head (11). Since the polari- zation plane oscillates the whole time @%ith frequency fl, at the output; of the detector appear variable com- onents of the signal with frequencies 1-1 and 2SI Card 2/6 Digure 2 shows the oscillations. The signal with  Installation for Continuou:3 Clbservdtlon of the Angle of' Rotation of' the Polariza- tion Plane by Ferri'Le, as Punction of the Magnetizing Current and on Frequencj of SHF Oscillations. Brief Coym(iunication Card 3/6 '1"(20'@, SOV/lC9 -5 -1-16/20 @9 Fig. 1. (1) h-f Generator; (2) power supply; (3) ferrite decoupler; 4) alternating attenuator; (5) ferrite de- coup @ wave transformer TE 1,0 - TE I, ; (7) auxiliary ferrite device; (8) element to be tested; 19) rotau trans- ition; (10) limb with degrree scale; (11) detector section-, Ifl type 28-1 voltag amplifier; (13) power amplifier; R4 asynchronous mo or.  -Insta-1--lation-f-or Con-Uniffus-GI)servation- of the Angle of Rotation of' the PolarLza- SOV/109-5-1-16/20 tion Plane by Ferrite, as Function of the Magnetizing Current a.-Id on Frequency of SHF Oscillations. Brief Communication Fig. 2. Card 4/6  I *big= instailation for Continuo;.As ObSor--ration 7720---' S07,1z"10" of the Angle of Rotation of the Polariza- tion Plane by Ferrite, as Function cf the Magnetizing Current and on Frequency of SHF Oscillations. Brief Communication frequency fl is used for the tracking system, consisting of components 12, 13, !4 and reducer, wlhicl@ rotates (10,1l). The system will be in equilibrium when the output signal with frequency S1 is zero. Whether this will correspond to point A or C on Fig. 2 depends on the phase of the feed- ing voltage on one of the motor windings. If the polariza- tion plane of the wave shifts Linder the inflAence of change in signal frequency of the magnetization cur.:,ent of the ferrite device being tested, an error signal with frequency R will appear (point B on Fig. 2), and the motor will turn the detector section to the new equilibrium. locat"Lon. A klystron of' type K-29 is used as oscillator. The operat- ing range is approximately 10%, and the frequency change is made by turning a handle which completes the retuning of the klystron resonator and simultaneou5ly establishes the optimum voltage on the reflex-electrode. The oscilla- Card 5/6 tor is equipped with a scale for approximate readings of  Installation for Continuous Observation of the Angle of Rotation of the Polariza- tion Plane by Ferrite, as Function of the Magnetizing Current and on Frequency of SHF Oscillations. Brief Communication 77203 sov/loq-5-1-16/20 frequencies. The results of experiment.3 ccr.ducted with this installation are as follows: (1) Time of determining the above characteristics is of the order of 1 min. (2) The maximum difference between the readings on this set and determining angles by previous methods 13 30. (3) The installation works for a variation cf the power of the SHF oscillator Lip to 3-11 times. (4) The installa- tion is simple and consists basically of the same com- ponents which are used for the previous method of deter- mining the characteristics by points, SUBMITTED: August 17, 1959 Card 616  42466 S/785,161/000/010/002/002 AUTHORS: Litvinov, G. L, Svarchevskiy, V. N., Yaryshev, B. P. TITLE: The use of photorecorders with visible trace for the registration of geophysical and meteorological quantities. SOURCE: USSR. Ministerstvo geologii i okhrany nodr. Osoboye knostrid(torskoye byuro. Geofizichaskoye priborostroyaniye. no. 10. Leningrad, 1961,45-49. TEXT, The paper describes a recorder which combines the inertialess and multichannel dapabilities of the magnetoelectric oscillograph rith the continuously Vt, observable record of a pen-type recorder. The OPB- I (FRV- 1) reca-.-dcr, developed by the Osoboye konstruktorskoye byuro (Special Design Bureau) of the Ministry of Geology and Mine ral-Re source a Conservation, USSR, employs a "daylight" photo- graphic paper which is fairly insensitive to ordinary visible light", but highly sensi- tive to the UV light produced by a standard Hg-vapor APM- 100 (DRSh- 100) lamp; the 26-v d. c. power consumed is 100- 130 w. The recorder has 6 galvanometer s with a common magnet. All traces can be viewed directly on a screen at a displacement speed of up to 3 m/sec. Upon the secondary exposure of the 200-mm wide paper to the light of, an incandescent lamp, which occurs during its pai;sage un@'.er the visual- observation window, the recording becomes sufficiently distinct. Further exposure to scattered daylight does not affect the paper, and its shelf-life is inE.efinite. Flight and field tests were performed to investigate the suitability of the equipment for Card 1 /Z  The use of photorecorders with visible trace. . - S/785/61/000/010/002/002 geophysical and meteorological recordings. The FRV- 1 photorecorder was installed on a spring support on one of the desks of a "flying-lab" aircraft. The air tempera- ture and humidity and the aircraft g-loads were recorded via sensor- controlled bridge circuits fed from storage batteries. All recordings were backed up by a standard K4-51 oscillograph. The photorecorder operated well with circuits V@ having a resistance of tens to thousands of ohm. The high proper freqpency of the FRV- I galvanometers rendered the recordings practically inertialeBs. The air- craft vibrations did not produce any appreciable improvement of the records. Close balancing of the galvanometer mechanism and the spring support of the recor- der minimized any unfavorable effect of the vibrations. The field tests were per- formed at the Mirgorod base of the "Ukrneftegeofizika" trust. The FRV- I recorder was attached to the various sensors during well-logging operations, and all recordings were repeated by a IIACK(PASK) selfrecorder and a (latent-irnage) OP-5 (FR-5) photo- recorder - The FRV- I was found to be fully dependable; the simplicity of the device permits registration of 6 curves, zero lines, and depth an-d time ticks, all with a single light source, and requires minimal tuning and makeready time, eviin in the hands of an average operator; the elimination of post-recording darkroom time increases the productivity of the equipment. The traces have sufficient contrast to yield good contact prints when exposed through a yellow light filter. There are I figure and Z Sovid (only) references. ASSOCIATION: None given. Card 2/2  LITVINOV., G-I-; SVARCHEVSKI7, V.N.; YARYSHZV, B.P. Use of photographic recorders with a vinible graph for recording geophysical and meteorological values. Geofiz. prib. no.10: 45--49 161. (MIRA 15:8) (Geophysical instruments)  Acc M S OUR ME c0@iTh--WOW-TYA 1315/600/0@ 1 706M-1157T AP7001401 Shelkow, V. V.-; @Opwdi%j IV.,Z.:; 1famean1kov.9A, li-; '3tepanovj'S. X. ORGS ncom iiiLgt Anzimeafnily formca&hvg dmtomil.jointiv--cfboiler shells. Class 21, -No. M9.06 '.mmounned by A-1,1-iUzikon Sti-ndUfte Roneuroh;and Design Englmoering Inati.t-ute of and VFAmlmum t@vp=u*ue `f1nn6tvuc%t*on @':vnosoymnyy nauumo-i.ticl adovatel 'A i prv7,ek$M7. drnstitut Itikhmorivoid. 1;adzdidh9dk9ao:d neftyanogo!apparatoutroyaniya)7 Ma@ .prcq,,-i1h5erxc-,Vv -,1jbraz'.W., -1mmrnyye zndk-t, mo.. -21, 1966, 77 TOPIC UM veldimg, tedhnology, seam v;eldinr,- ABSTRACT.- 'Thia 'Authar @0v-r'V&M-cWbv proonrAnw iwjuemb4r -for,welding :internal joints 9@,.boUvr nihells. Thc:uonciftil@y consialts idf -a-cdiumn,With a Xrame mounted upon The rz=mcarrics an arm -wWthm twelding-ihead iplaasd @on:supporting -rollers. To i a constant podiftion (df -the @elvctrodedn -reopeot :to the seam ourfaGe, the weldimg *,head wid n=-in-um=vrdmd ktomm rwwthcrl@y - FL,hinge. and a 9pring (nee Fdo. I). ,S -LL,mondtwvt,moi tanfIffiftweent -rd1lere @and 3he IiW.Ier sheil. The TJ,i the weldi:ng bead 1a !hAzignd -to Uhn t1muxingm-bafimm @*Ach:are 11gidly comadted to one another. GWq lj@  ACC NRa Fig. -1 - wdldim "'head; T - has: 1 -'Mgure. CM-s 13/ SM"BUIR, 11,100165  KORUIRM , I.M., kandidAtakhnicheakikh nauk. dotsent* LITVINOV G.T. kandIdat tdMn1c1te&k1kh,vjaik,. dottent. im Kinsmatilt analysis of Xutomntic couplers In oparsition. Trudy DUT no.25:219-233 156. (MLRA 10:1) (Cmr couplings)    Li iM6@6@ C OD:g As RV SW CMMR i OM 14 41  GORIN. L.-, LITVKNDV. I., The notherland Is taking care of them. Okhr.truda I eots.strakh, no.6:49,-51 D 158. (MRA lZ11) (Phyalcally handicapped-Rehabilitatlon) (Voronezh--Old-age homes)  -- .- ; -1,-7 .1---,--- - , :--,, -- - - LITVIHOV. r.; RUMYAHTSRV, V.; MIDOV, P. r--@ - -wwwmw=m"WJWA Fire prevention in the Polish People's Republic. Posh.delo 3 no.9:,29-30 S 157. (14LRA 10. 9) (Poland--rire prevention)  AUTHOR: T_ "OV/130- 32-2-72/3 5 TITLE: They Have Become Metallurgists kOni stali zetallurr-w@li) PERIODICA:L: Idetallurg, 1958, ur.?$ p 44 (USSR). ABSTRACT: Tile author Gives brief sketches of soLe workerB at the Voroshilov Petallurgical Works: Yev6eiiiy Kosjak, Anatolij Khristyuk and Vitaliy Rozhkov at the blast-furnace plant; Leonid Yanulis, Nikola., Bykov and Aleksandr Mal'ko in the mclt- ing shop; Vladimir Lobachev and Konstantin Yevsyu':ov _Jn the shoet mills; IJaya Konvisar in the cogging mill. There is 1 illustration. ASSOCIATION: Zavod imeni V-oroshilova (imeni Voroshilov Works) Card 1/1 1. Labor--USSR 2. Metals--Production 3. Metallurgy--USSR  LITVIIIOV, 1. K)ans of-increasing electric locomotive runs between repairs, Zhel,dor.transp, 36 no.6:28-32 Je '55. (MIRA 12:4) I' Glavnyy inzhener sluzhby lokomotivnogo khozyaystva Tomskoy dorogi. (Electric locomotives)  LITVINOV, I. Pride of our country. Grazhd.av. 18 no.11:18 N '61. (MIRA 15-2) (Lomonosov, Mikhail Vasil'evich, 1711-1765)  LITVINOV.,-! I. .most constructions bave been suggested by workers. Izolw. i rate, na.11:2-3 N 161. (MIRA 14:11) 1. Rukovoditell Obahchestvannogo byuro fasonnoliteynogo teekha Uralmshzavoda, Sverdlovsk. (Sverdlovsk-Founding)  ---- LITVIKOV, I. Mechanized avine-fattening- barn. Sell.atroi. 15 no-4310-12 A ,6o.. (WRA 16113 1. Glavw lnzh. sovkhoza *Uchebno-Opy-tnyy " Rostovskoy oblasti. (Swine houses and equipment) (Feeding)  LITVINOV,, 1. Speed plus distance. Grazhd. av. 22 no-3:29 1,I,,r 165. (VEIIA Is: i)  AP6032088 (A) SOURCE CODE: UR/031T/66/000/009/0068/OOT3 AUTHOR: Ko 81viv B. (Director of "computer tecbnology" pavilion),@, Litvinov, I, -(Chief engineer of "computer technology" pavilion) ORG: Computer lj'?echnology Paviliong VDNKh SSSR (Pavillon lWychislitolInaya tekhaikall VDKKh SWR) TITLE: Electronic computer. tAichnology ' - C/ SOURCE: TekhnilEa i vooruzheniye, no. 9, 1966, 68-73 TOPIC TAGS: computer technology, computer application, computer design, electronic computer, memorr core, magnetic tape ABSTRACT: Thii author describes new Soviet computer hardware. He notes that the new transistorized iseries of general-purpose "Ural" computers is capable of performing one million operations per second. Another completely transistorized computer 11minsk-22" operates with a speed of five to six thousand operations/sec'. Its interne core storage cw,?acity is 8192 words. It also has a 1.6 million word external magnetic tape im!mory and a number of 1/0 units (see table). The alphanumeric printin mechanism has 1:28 character positions per line. Any one of 64 different characters may be printed In any one position. Power consumption is 10 kv. Cther special- purpose computers and 1/0 systems are described: 1) The small-size "Mir" computer. developed at the Institute of Cybernetics AN SSSR is intended for solution of scien- tific and engineering problems. No special programming capability is required to operate this machine. The input unit @an electric typewriter) accepts instructions  Acc N14 AP6032080 :1/0 Input speed output speed Punched card 250 linea/min 100 cards/idu Perforated tape 800 characters/aec 20 lines/see TY1,3ewriter 7 ch/sec 7 ch./sec Alphanumeric printing Mechanism 400 lin@s/:min BP14-20 printed 20 vords/see in formula format. T he output is a wide carriage typewriter whose printing speed is 5-7 charactershiec. The computer arithmetic unit is based on 5 digit described number representation; its speed is 200-300 op./sec. The.computer has'a 12-bit 4o961 word-core memory. Ito power consumption is I kv. 2) The,;digital x-y plotter designed at the Higs, Central Design and Planning Bureau of ifechanics and Automation 'is capable of'plotting 1100 points/hr on the board 1.1 m. long and 0.8 m wide (see ' Fig. 1). The plotter accepts input .punched cards, from a keyboard (separate unitj, perfdrated tape, or directly from a computer. 3) The "Siluet" system developed at the "Independent Design and Planning Bureau! in Villnus. The system reads graphically t Cmd 2/6-  NRt represented data, converts it into the 3 digit decimal CCIT-2 telegraph code, and issues it on perfoxated tape (see Fig. 2). Four ordinates may be processed per secoi 11) The Villnus Bureau also features the BLP-l system which reacts data from 5, 6, or 7 unit paper tape and converts into corresponding information on 80-column punched cards (see Fig. 3).. The system has an error checking feature. 5) The new electro- Fig. 1. -Automatic digita3.-Z-y plotter  AP6032088 Fig. 3, BIP-1 tape I!eader/card punch Fig. 2. "Siluet" autOmat'c a.yotem graph reader  ACC NRs AP6032688 J IN 'TH rlili%'11' Me i IV k, X, -V Fig. Electrochemical indicator Fig. Programed drafting oystem  AFOUJeU00 chemical indicator device developed at the Khar'kov Central Design and Planning BureE of Automation and Chemicoelectro-plating (see Fig. 4). It is impent ous to shock an@ vibration and it operates in a wide temperature range. Its responw.- speed is 10-1000 msec. Three million write/erase cycles are guaranteed. 6) The automatic drafting system operates in discrete mode which controlled from the programming unit (see Fig. 5). Orig. art. has: 5 figures and 1 table. SUB COM 091 SUBM DATE: none  KARGIN, V.A.; LITVINOV, I.A. mwv-g@ w iw"U-44," Processes of structure formation of polyacrylonitrile from solutions. Vysokom. aced. 6 no.U1193-1194 -Tl '64 (MIRA l8t2) 1. Institut neftekhimioheskogo, sinteza imeni Tomehiyeva AN SSSR,  KARGIN V.A.; LITVINOV, I.A. ,It Structural transformations during thermal treatment of, polyacrylDnitrile. Vysokom. soed. 7 no.2:226-228 F '-@5- (MITUI 18:3) 1. Inatit-ut neftekhimicbeskogo sinteza AN SSSR,  57SCS 30- 25172 3/4,90/61/003/CIC7/016/021 / /' ft9o.7- / 0 B!Oi/B226 AUTHORSt Kargin, V. V., Plate, N. A., Litvinov, I. A., Shibayev, V. P., Lur'je, Ye. G. TITLEi Processes of polymerization and grafting on newly formed surfaces of inorganic substances PERIODICALt Vysokomolekulyarnyye soyedineniya, v. 3, no. 7, 1961, 1091 - 1099 TEXTs In previous papers (Vysokomolek. soyede, 1, 339, 1359; ibid., Ij 1713, 1959), the authors had shown that polymeri-zation of ;lry! mon@im*1-711S can be initiated by an intensive mechanical dispersion of solid inorg-ani.1 substances. The present paper studies this effect when dit3persing metals, metal oxidi?s, and ionic salts. Because in the hitberto used vibration mill grindings of iron balls had a disvarbing effc-st. upon thf! polymerization processes, three new grinding devices have 1;-3en -constrlj-zt'-'@@ (1) The monomer, the substance to be dispersed, and glass ball's viere filled into an ampul being fastened to the vibration mill. (2) The ampuls were fastened to the armature of an electromagnet wh--ch was fed Card 1/ 5  S119016110031007/0161021 Processes of polymerization ... 2.55271 B101IB226 by a. c. (3) The ampuls were fastened to the coil. of an electromagnetic 10-w loudspeaker. @?he use of vacuum and different temperavures was made possible by working with ampuls. Frequency was varied between 50 and 120 cps, the amplitude being 2-5 mm. Duration of dispersion amounted to 30 - 90 min. (A) Pclymerization @y means of Al 20. (corundum, energy cf crystal lattic& 3610 -,r Cr,O, (E -' 4668 kcal 'mole) was .C@ j Cr2 03 studied with styrer,@-, mc.,"hy'l methacrylateg acrylonitrile, vinyl acetate, and some organic sub@tances of the acetaidehyde type. Intensive dispersion of these -@xides in the presence of styrene or methyl metha- crylate led to rapid polymerization. In the case of methy! methacrylate, a polymer having a mole7ular weight of 259000 was obtained. Vinyl acetate was not polymerizable. Whc-n dispersing corundum, a,-,etaldehyde yielded, after 2 hr, 3 - 5 5' polyacetaidehyde. Also in thii3 case,the results were not different from those obtained by J. Furukawa et al. (see below) by means of Al 20 3 annealed at 6000C. Dispersion of corundum in acetone under excl-)Slon of air resulted, at room temperall-are, in small. quantities of m=sityl. oxide and phorone. No high yields could be obtained, since the resultant H-0 is adsorbed on the surfaces of A190, Card 215  9/190/61/003/007/011')/021 95272 Processes of polymerization ... B101/B226 and the active centere: are blocked. (B) Polymerization in the presence y of Fe,-Al, and Mg easily succeeded in acrylonitrile and methyl metha- ' crylate between - 30 and + 500C. The results did not differ from the data obtained earlier for styrene - SiO 2 and styrene - NaCl. Considering the polymerization mechanism of acrylonitrile, assumption.is made thdt. in the metal surface electrons are excited, which, at low nork function (W 4-31 ev, TI 4.2 ev, V1, 2.74 ev)-pass over to the monomer F Al M e g adsorbed on the metal surface, and release the reaction acccrding to the following scheme: t--N G CH,@j H + C CHj- CA. N A A denotes the possibility of chain growth according to anionic mechanism, P according to radical mechanism. Besides, in the'presence of Fe, complex formation of Fe with n:itrile groups and formation ot cyclic g*zoups is , /I assumed for acrylonitr!.10.' Furthermore, account has to be t!dcea of that ' I - the metal s are covered by an oxide film. On the oxide film, a grafting ofj - -- - : the result ;ing polymer could appear, and separation of the Me.-O bonds during Card 3/5  S/190/61/003/007/0',6/021 Processes of polymerization ... B101/B226 dispersion also could have an initiating effect. In the system Mg-methyl methacrylate, a highly swelling polymer was obtained, a metal-polymbr gel the lattice points of which consist of metal particles being bound to the@': polymethyl methaerylate by means of Me-O-C bondsi "When treating these polymers with H01, tha molecular weight decreased.(from 74,000 tP 30 000 in the system with Al; from 250,000 to 160,000 in the system with Therefrom, conclusion is drawn that a hydrolysis of.M6-0-C bonds had take n place. Attempts to polymerize styrene or methyl methaorylate by disperldng metallic Cr or 71 were unsuccessful. The too high work function of these metals is considered to be the cause of this fact. The capability of- @nitiating polymerization thus does not depend orr the absolute strength.of. interatomic bonds in the crystal, but on the capability of form@ng active centers of the electron d9nor- or'radioal-type. (0) I)olymerization' by dispersion of salts (NaCl, KC1, CaF 2) already took..plaoe at room temperature in methyl methaorylate, acrylonitrile, styrene, andcc.-methyl styrene. Assumption ismade that also in.,this case initiation takes place by tranBferring an electron to the monomer. The electron might .be.set free by 16nTkation- or oryatal defedto of the F-oenter type. Dispersion of TiCl or BeCl in the presence of styrene led to its iapid 3 2 Pard 4/5  251272 S/'q0/6-,/003/OCr7/Co6/021, Processes of polymeriza--on BIO'.IB226 polymerization, eve-;i at - PC--'C. These sa-'t-- had ni effect upvr- methy! methacrylate. In this --ass, the initiat,_on of the P@Iarlz:ng effect of Ti 3f- or Be 2+ Is reduced to the double bond of etyrene tending toward cationic prjlymer-@zation. In agreement wizh the experimEnt, .71CTOMEYr-14 .with electrons-gativr- s@i'tlst,_tuentil (methyl m,@thanrylate) @oild r_@-'. bt@- polymerized. S. D. levina, K. P. Lo@baLcva, P. Yu. Butyag_tr, A. A. Berlin, K. S. Ma:nsker -and V. K.- B I ykhov@3k`y are ment:iongi-d. Ther- arp I If and 21 referenceEs 'C and -j non-S-vi,@'-b'o.--. Trie thrP., mo8t important r@-fr-rerce* -o f@@- J. Furlikawa,. T. Sa?gu@i--, T. Taur,;t1i, H. T. Tatan.., J. - :@ -. . -. 9 36, 54"), '19@91 H. Adk@ns, A. J. Am;_@z. 3 M. Ue ta, W. Kdnz: g, Phjo. Rc-,T. 9 9 5 ASSOCIATIM M:-.@@k,;-.qk.ly llizllv@rczll tO. "IT.. W. V. L,)rv_,41,:.r3OvA ( M @@ i @ @:,% S t aU t: v@yi!.Ilertl M. V@ SUBMITTEDt N,,vemte.- ',q,, -)vj Card 1:/5 .j   7 "At US sfdt-,,@ItR di@-- 0-50 -wore se t Iiielt, c I L @o Late-w)-ft I'd--- be- beia -Oarttcu '--.@-Iocted: so.-@,6at-@'-the m avature At 4ay W rature@:-at@ w L c' -m'arked. dhan'gem irt@:t a morpholog-f r the tempe h h h o;f @- th ymer OrLao art. has 3 Rgures 15 H.) :-.'r-v&etFLy- loem--e, Ito I could take @,pl ace Z4, X,DE;i*-, oc Gel 1-7 0.0,4 0 j -3191 m 6 Itt @-V Al 7.1 7 .uo