Interaction of Monovinyl Diaostone-d-glu- S/153/60/003/003/035/036/yy cose With Alcohol and Organic Acids Bo,6/BO5F3 a BynthesiB from (Ref.6) and vinyl-n-butyl--m~s',ex (prepared aoc-ording to thq usual metl'od. Ref.4) in order to sat-isfy themselves regardirg the synthesis cf the ac~ylal. All 5ynths-'~zsd mate- rials fo-rm transparent or slightly oily liquids, which do not discolor bromine water. The authors, mpntion the constants, empiria formu- las, calculated and obtained yielda of ~.hr-se substances. ASSOCIAITIOY: Voronezhsk-1-y gosudarst-;-ennyy %iniversitet; Kafedra khimii vysokomc-1E:kulya.rnykh sopitd.Aneniy (Voronezh State Univergi- ty; Chair of Chem'Astzy of High-molacular Compoands) SUBMITTED: Novemb-ax 15. 19,58 Card 2/2  MIKHMIM., B.I.; UPENKO., V.L. Vinylation of diacetonenzP-galactoae. Zhuroob.kbim. 31 no.6:3.843- 144 je 161. (KERA 14 % 6) 1. Voronezhakiy gosudarstvennyy universitet. (Galactose)  MIMNTIYKVJ, B.I*'.-. LAPENKO, V.L.; PAVIDV., L.P. Vinylation of wndtol and its aceto derivatives. Zhw,ob.khim. 32 no.8:2505-2508 Ag 162. (MM& 15:9) 1. Voronezhokiy gosudarstvenn7y universitet. (Man4itol) (Vinylation)  MMHPYT'Y-iV, B.I.; LAPENKO, V.L. Vinylation of acetone derivatives of sorbitol dulcitol. Zhur.ob.khim. 4 34 no.2:694-696 F 164. (MIRA 17:3) 1. Voronezhakiy gosudarstvennyy universitet.  MIMUTIYEV, B.I.; PAVLOV., L.P.; IAPENKO.. V.L. i Halogenated others of hydroxybenzoin. Zhur.ob.khim. 32 no.6 1798-1801 i Je 062. (IUM 15:6) i - . - 2. Voronezbskiy gomdarstvennyy-universitet. (Ben2oin) (Ethers)   LAPERASHVILIP L.V.; MATINEAN., S.G. Single-meson contribution to the photoproduction of rlr -nesonB on protbAs, Zhur.ekap.i teor.fiz. 41 no.l.*272-275 Jl 161. (IUU 14~7) 1. Institat fiziki AN Gruzinskoy SSR. (Photonualear reactions) (Mesons) (Protons)  IAPMASHVILL L.V.; MkTINYAN, S.G. - Analytio properties of the soattering amplitude and lifetime. OfAD-hyperone. Trudy Inst.fiz.AN Gruz.SSR SaI61-172 162. (Hyperons) . (MIRA 16s2)  OSDALINs E,Vol KANCHELI, 0,V,j LAPERASHVILI, L.Yel HATINYAN) &G. Anomalous.thresholdB and thb maign spectrum of elementary particles, Fiz. ahaot. vys. anarg. no.lr30-32 165. (MMA 38112)  aMALint riV#I, LAPEMIIVZI# L#Vs t! and To- pame poloo wid the KU-scattorlw amplitUA06 . RZ =t. VY0. owras nooie33-35 1650 (111RA INV)  EiTW7 WoO56/63/048/w5/1283/1292 -=!X. Partidl scattering a=D3 itudes '1~n a representation v-4tb prv plex ---angular momenta, ---.-Zhurnal eksperizentallnoy iteoretiched Ai 'v. 48) no. 5, 1965j -92' -TOPIC TAM i Regge pole, orbital angular Momentum, partial scattering amplitude, momentum representation) analytic continuationj, unitary condition -F~!'---;'AWTRA1CTj The purp-oze of the paper is to explain the role played by the 11sual -namentum in the investigation o analytic r ertie An -poi t gular f p op 8 many n diagrems, To this end, the author considers relativistAc partial amplitudes with prescribed orbital angular momenta, and finds their analytic continuation in the complex angular w-rentum plane. By ane-lysis of the maiW-partiela unitarity coI1421 * - tion. expressed in terms of these partial amplitudes, it is abawn in explicil- lot that botb negative and -Dositive inteSar values of the orbital aftmlar Immi entun     L -040.76 -EPWR -T(m)/f -67 CIM (1)IEW 74P(t)/BTI IJP(b) WW/JD ACC NR:; AT602636o SOURCE CODE: UR/3208/65/000/001/0071/007,")' 1AUTHOR: Laperasbyq~j-,,~~e__V.; Marrialadze. Yu. G. IORG: none iTITLE-.- The momentum of vortices in helium 11 ;SOURCE: AN GruzSSR. Institut fiziki. Fizika nizkikb temperatur (Low Metsniyereba, 1965, 71-75 OPIC TAGS: helium, hydrodynomic theory BSTRACT: In the majority of papers dealing with the determination of he critical rate of vortex formation in helium II, use is made of the andau criterion v c= E/P. where E and P are the energy and the momentum mparted by the vortex to the liquid. The present work is devoted to a larification of certain misunderstandings involved in calculation of th ,uantity P in the denominator of the Landau formula. If we use the benomenologidal description of a quantum liquid by the formula 0 xp (i its momentum is equal to: -W *.P it, a. P. 2 TC  ACC NR,4-' AT602636o where the dimensionless momentum p is determined by the formula dF.' Here n is the atomic density of the liquid in regions infinitely distan2 from the vortices and the boundaries of the surface (Whei'o o = 0); a is the characteristic length, depending on the pbypical. properties 02 the liquid; the symbol'V indicates differentiation with respect to the dimensio less coordinates; dV is an element of volume.: measured in the units as. The remainder-of the paper consists of an extended mathematical tPeatment of the problem on the above-promises.. Orig. axt. bas: 6 formulas. SUB CODE: 20/ SUBM DATE: none/ ORIG REF: 008/ OTH REF: 007 kh'  S/081/62/000/016/018/043 B168/B186 AUTHORS: Tsitsishvili, G. V., Andronikashvili, T.-G., Laperashvili, L. Ya., Gedzhadze, Ts. A.' TITLE: Synthesis of certain'forms of molecular sieves PERIODICAL: Referativryy zhurna-1. Khimiya, no. 16, 1962, 3489 abstract 16K131 (Soobshch.~All GruzSSR, v. 28, no. 4, 19619 405-410 [Russian]) TEXT: It was found that zeolites can be'synthesized at atmospheric pressure and 1000C. A sodium form of type.A zeolite was obtained. Sodium zeolitic alumosilicates were prepared from sodium aluffiinate and sodium silicate. A specific quantity of sodium aluminate solution was added.to a sodium silicate solution. This.produced a whitish yellow Gel whic1l., after thorough mixing, was left to stand for 42 hours and then heated for a specific period, which resulted in the formation of zeolite crystal3. The product of crystallization was washed and the further zeolite obtaine'd was dried at 80-900C. Calcium and copper formB of zeolite were obtained by ion exchange from the sodium form. [Abstracter's note: Complete translation.) Card 1/1  TSITSISHVILI., G.V.; ANDRONIKASHVILI, T.G.; LAPERASHVILIP L.Ya. Color indication of moisture with the aid of cation exchange Ityppees of zeolites. Zav. lab. 30 no,9:1113-11-1.5 164. (MIRA 18-3) 1. Institut khimil AN Gruzinskoy SSR.  CHEPELIP Vladimir Mikhaylovich [deceased red.; DESHALYT, M.G., ved. red. - [Combrustion of gases in boiler fireboxes and furnaces and the maintenance of the gas equipment cl~ enterprises] Szhiganie gazov v topkakb kotlov i pechei i obsluzhivanie gazovogo khoziaistva predpriiatii. Izd.5., isPr- i dop. Leningrad, Nedra, 1965. 447 p. (WW 18:7)  STASM9#jCR,.~jkoj&y Lukich; GMHKOV, V.A., reclaktor-, MOMKOVA, Te.I., reaaktor.1rAPM'Y3, I.R.. redaktor; IONINA, I.N., redaktor; SCKOLOVA, Ye.V.' td?ffn"Tc-%TIV'+edaktor"; GENMIYETA, I.M., tel-hnicheeldy redaktor Na~lctpal gas* s~ppivl -GazosuabZhenie gorodov. Izd. 2-e, perer. dope LeulWad, Goo. nauchno-tekhn.Avd-vo neftianoi t gorno- toplivnoi lit-ry, Vol. 1. 1954. 623 P. Vol. 2. 1954. 646 p. (Gall) - (MLRA 8:4)  CHEMI I Vladimdr Mikhaylovich; 149~,.Mg I-R~.,~ ad.; DAM, G,A,, vedu- ~Bhdhly red*'; GXMDIM e red, I.M M. ~~ e (94ming gases in boiler furnaces and ovens and sprrioing-cf the gas..System in pla#s1'�zhigauie.gazov v toPkakh kotlor i pechei i obeluzhivanie gazovogo khosiaiotva predprilatli, leningi-ad, Goes" nauchno-tekhn. izd-vo neft. i gorno toplivnol lit-ryt leningr. otd-nie , 195B. 276 P.' (WmA nao) (Gas as fuel) W=aceo) (Oirens)  NECHAYEV, Mikhail Alek9androvich; LAPERII-M-I- , nauchnyy red.; DESHALYT, M.G.,.-ved. red --,---YA-SHCH=HINSKAYA, A.B., tekhn. red. [Equipment and devices used for'safety control in the gas Industry]Inventarl i pribory gazovoi tekhniki basopasnoati. Leningrad, Gostoptakhizdat, 1963. 69 p. (MIRA 16:7) (Gas industry-Safety measures)  CHSPHLI, Vladimir Pikbaylovich; LAPERIYE, I.R., nauchnyy red.; DAYEV, G.A., vedushchiy red.; 'GEMAD'TWA-,' I.M., tekhn.red. [Combustion of gases in boiler furnaces and evens and servicing of gns syntems of ontorprineal Szhigania gazov v topkakh kotlov i pechei i obaluchivanie gazovogo khozinistva prodpriiatii. Izd. -- 2., ispr. i dop, Leningrad, Goa.nauchno-tekhn.izd-vo neft. i gorno-toplivnoi lit-ry, Leningr.otd-aie, 1960. 375 P. (MIRA 13:1) (Gas as fuel)  CHEPELI, Vladimir 14ikhaylovich; I-APE nauchnyy red.; RAGINA, G.M., ved. red.; BARANOVA, L.I.0 tekhn. red. [Burning of gases in stoves and boiler furnaces and maintenance of gas systems in plants] Szhiganie gazov v topkakh kotlov i pechei A, obsluzhivanie.gazovogo khoziaistva predpriiatii. Izd.r., neft. i gorno-toplivnoi lit-ry, 1961. 1+22 p. (MIU 15:2) (Gas distribation)  BOGORODSKAYA, Mariya Tirpofeyevna; STOLPNER, Yefim Borisovich; 6 nauchn. red.; DESHALYT, M.G., ved.'red.; SHCHURZHINSKAYA, A.B., tekhn. red. ~Household gad appliances] Gazovye bytovye pribory. Le- ningrad, Gostoptekhizdat, 1963. 179 p. (MIRA .17:3)  LAPRRITE, M.A., TUEREL', T.A. 11-~ Hygienic evaluation of instruction at the Leningrad School of Choreographyo Trudy LSGMI 45:75-80 '58 (MIRA 11:11) 1. Kafedra gigiyeny detey i podrostkov Leningradskogo sanitarno gigtwenicheskogo meditainskogo instituta (zav. - kafedroy - profe A.Ya. Gutkin). (LENIDGRAD-SCHOOL HYGMM) (CHOBBOGRAPHY-STUDY AIM TEACHING)  MARTI VICH, F.S., kEkno.geograf.nauk; SOBCLEY, Te.Ya., )mnd.geograf.nauk; BCLISHAKOVA, V.F.. kand.skonom.nauk- LAPETA D ja kand.okonom. P in NA-M nauk; &ADKIT, P.I.i kand.geografeasuke asarsaly propodavatel; ANNUHMO, G.V., kand.geograf.nauic; KOTT, G.Z.; TRUBILKO, N.P., kand.eironom.nauk; KORCUSKO, I.K., kand.ekon6m.nauk; GUTSEV, Ye.G.. kand.geograf.uauk; GEOMTBNKO,, V.A.; CHEWSH, L.P.. Prinimali uchastiye: KOZGOVA, A.1o; KOVALEVSKIY, F.Ve; KAZURENKO, R.V,; KUVEYSHA, Ts.I.; KRYLOVA, V.S.; SIMMINSKIT, I.I.; XURKINA, Z.A.; K CHITS, T.A.. ROKANOVSKIY. N.T.i red.; KOSTEVICH, K.R., red.; TURTSEVIGH, L., red.izd-va; SIEMO, N., takhn.red. DistrilQion.of the industry of White Russia for the processing of agricultural raw materials] Razweshchania promyshlennosti BSSR po pererabotke sellskokhoziaistvennogo syrlia. Minsk, 1959, 193 p. (MIRA 13:6) 1. Akademiya nauk BSSR, Minsk. Institut skonomW. 2. Zaveduyu- shchiy saktorom razmeshcheniya proizvodstva Institute ekonomiki AkBdamli nauk BSSR (for Martinkevich). 3. Institut narodnogo khozysystva im. V.V.Kuybyshava (for Glediiy). (White Russi&--Industriesp J~ocation of)  IAPETA D D, Prospects for the development of the starch and Siru JD&Mtry in White Russia. Sakh.prom.. 34 no.5.-44,46 My 160 T 1-4:5) 11. instit~vekonomiki AN BSSR. (White Haosia-Ztarch industry)  LAYETO, Ye. Radio - Receivers and Reception Loud speaker reception on detector reciever. Radio No. 3, 1953. Monthly List of hussian Accessions, Library of Congress, June 1953. Uncl.  LAPHSINA, N.N. Hydrochomioal outlinas. Sbor.rab.Kursk. gidromet.obzorv. no.2s 57-65 164. OCRA 17s9l'  TIMUSHRV. A.., (Komi ASSR, Ustl-lulomskly rayon, 9. Xercbemlya); Sonin, I., (Irkutsk);- W;qHHV, G. (Pos. Tanovo, Smolenskaya obl.); BYNV, P. (Rogachevikii-Fiimn, Gonel'skaya obl.); DAMLOV, X., ()bskva); CHUMAXOV, V. (S. OrlovkeL, Franzenskaya obl.): WVIKOV, V. (SmdValatinsk); TRIFOMV, A. (YegorYovskly rayon, lbskovskeya Al.): MVOSBLITSIV, V.- (Debal!tsivo. Stalinskaya obl.); MUNAsrluv,.-N. (Krasnoye, L'yo i6y~i- '- j-"' - - obl. Letters to ~ke! Pditor- Sov.foto 18 no.11:83-85N 158. Pbotograpbr) (IGRA 11:12)  AR-MKHOV, I.H., DINER, I.S., VASIL'YEV., S.F.j 1APIDES, A.A., MOSIN, A.M. Production of. olefins -by pyrolysis of petroleum products. Report presented at the 12th Conference on high molecular weight compounds devoted to monomers, Baku, 3-7 April 62  LAPIUSS, A.M. , -IIM ----ww~_Ueing triggers no.6:14-15 Je in-ohase-sensitive atmlifiers. 157. Electron-tube) ?riborostroonte (YWHA 10:7) (Amplifiers,  AUTHORt LapidesL_A. X., Engineer 1~ 83205 S11191601000100616011008 B019/BO56 TITLEt A Trigger With Semiconductor Devices in a Phase-sensitive Amplifie .15* PERIODICAM Priborostroyeniyet 1960p No. 8, pp. 1-3 TEXTs The advantages offered by semiconductor triggers in phase- sensitive amplifiers as compared to such made from tubes are discussed in the introduction. Above all, the particularly short time required for changing over from one stable state to another (some microseconds) is stressed, an& the possibility of using a relay coil as collector load is emphasized. The technical demands made on electronic devices require reliable operational conditions up to temperatures of 600-800C, and the present papor reports on a semiconductor trigger with a phase-sensitive circuit and a final amplifier stage schematically shown in Fig. 1. This trigger operates faultlessly up to a temperature of 750C of the surrounding medium. At this point, a current of 23 ma passes through the to the collector circuit. At a temperature of 200C Card 1/2  83205 A Trigger With Semiconductor Devices in a S11191601000100810011008 Phase-sensitive Amplifier B019/BO56 of the surrounding.medium, the power transferred,to the relay coil is 0-55 w, at 700C it is 0.45 w- In connection with the calculation of this circuit, B. N. Kononov (Ref. 3) is mentioned. The trigger is constructed from two equal triodes, and has a symmetric circuit which is discussed in great detail. In the course of the further investigation it is shown that it is possible to construct triggers which are controlled by the feed of negative pulses to the base of the blocked triode. Owing to the nature of the potential changes at the triode bases with increasing temperature (Figo 2) they are, however, less stable than such triggers as are controlled with positive pulses. In the author's opinion, an emitter-follower appears to be best suited as final stage. In conclusion, the calculation of the final stage of the amplifier (Fig. 1) and its phase-sensitive circuit are discussed. There are 2 figures and 3 Soviet references. Card 2/2  86794 S/142/60/000/003/009/017 0 E192/E482 AUTHOR ~i A S IL TITLEs Analysis of the Thermal Operating Conditions of a Power Transistor PF4tlODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radiotekhnika, 196o, No-3, PP-366-369 TEXT: In analysing the operation and designing the output stage based on a power transistor, it is essentiaL to know the operating temperature of the transistor. As the power Pk, dissipated at the collector of the transistor is increased an& he temperature of the surrounding medium to is raised, the temperature tk of the collector junction is increased. Further, tk depends on the co"tructlon of the heat sink of the translator, that is Its form, dimensions and material. The operating temperature of the collector junctions should not exceed-a certain specified value tkd- This limiting temperature is usually lower than 100*C. A-method of graphleal analysis of the operating temperature ca"Aitions for a transistor is proposed'. The method is suitable for a heat sink of any form and is based on a single-experimentally measured function. This function gives the dependhneeof the Card 1/ 3  86794 S/142/60/000/005/009/017 E192/z482 Analysis of the Thermal Operating Conditions of a Power 'Transistor temperature tb of the body of the transistor on the power Pk for various temperatures of the surrounding medium. In itself th,e;quantity tb does not characterize the operating temperature of the transistor. However, it can easily be measured, unlike tk which cannot be measured without some difficulty. if Pk and tb are known, the quantity tk can easily be found from the following formula: tb = tk - PkRt, where Rt is the temperature reslstance~of the transistor. This quantity is the same for eacb type of transistor. By considering the above formula for various values of tk, a set of straight lines is obtained in Pk and tb coordinates; these lines are parallel to each other and are incl:Lned,to the axis of abscissae at an angle a = are tan Rt. Typical curves of tb as a function of Pk for various values of to are shown in Fig.l. The figure also shows a set of straight lines for various collector temperatures tk. By finding the intersection points between the curves and the straight lines, the collector temperature can Card 2,'3  86794 S/142/60/000/003/009/017 E192/E482 Analysis of the Thermal Operating Conditlons of a Power Transistor easily be determined. The upper straight line 'A, B in Fig.1 represents the line of the maximum permissible collector temperatures tkd* The practical curves of tb as a function of tk for transistors with different heat sinks are illustrated In Fig.2. These curves were taken by measuring the body temperature of the transistor by means of a small thermocouple which was situated in a specially drilled hole inside the transistor casing. The transistor together with its heat sink was situated in a thermostat whose internal temperature could be varied between 20 and 750C. The power dissipated at the collector was measured by determining the current and the voltage at the collector. There are 3 figures and 3 references: 2-Soviet and 1 non-Soviet. ASSOCIATION: Kafedra teoreticheskikh osnov elektrotekhnlkl Moskovskogo energeticheskogo instituta (Chair of the Fundamental Theory of Electrotechnics of Moscow Power Engineering Institute) SUBMITTED: December 28, 1959 Card 3/3  V 89001 15- 2.0 S/119161/000/001/005/013 B0191BO67 AUTHOR: Lapidesp A. M., Engineer TITLE; Reversing Motor With Semiconductor Amplifier PERIODICAL: Priborostroyeniyet 1961, No. it pp. 10 - 11 TEXT; The author discusses the supply circuits of the collector circuits and the connections of the control coils of reversing motors which are shown in Fig. I and which have already been thoroughly dealt with in publications. In the circuit shown in Fig. la the control coil of the ?A motor is connected to the input cascade via a TP2 transformer. The d. a. voltage Ek is used to feed the collector circuits of the diodes F:_1 and,'?'-, . The capacity C suppresses the fundamental harmonic. Circuit 11 ~2 Y is a circuit without input transformerp whereas, in circuit IS an input transformer and a pulsating voltage are used for the collector circuit. This pulsating voltage consists of the negative half-periods. It is Card 1/4  89W1 Reversing Motor With Semiconductor S/119/61/000/001/005/013 Amplifier Boig/Bo67 produced by the transformer TP3 and the diodes A, and A2 . Fig. 1~ shows a similar circuit without an input transformer. The beat results were obtained with the circuit shown in Fig. 19 which was developed in the design office of the Moscow works "ManometrI.I. This circuit warrants high output. Its control coil is a dipole formed by the inductivity L and the resistance R. This dipole and the capacity C y form a circuit. According to its phase the input voltage U Bx agrees with the voltage generated in one half of the coils of the transformer TP3 . Thus, the period can be divided into two parts. In the first one the current of the control coil is essentially determined by the voltage applied to one half of the coil of the transformer Tp 3* In the second part of the period the current of the control coil is determined by an unsteady process in an LRC y circuit. With adequate selection of C y this unsteady process is an oscillation with a frequency near that of the power frequency. Hence, the current of Card 2A  89001 Reversing Motor With Semiconductor Amplifier S/l 191611000100110051013 BOlq/3o67  ON muowpo volnusuccuuA sirtiabotrx1rou H gatm-a XmidolmalrWox W1111911fu MKOX3 '.)Rd A2 rej lly di 0' rd ,iv Nt U lei IIf, cd 4 4 ED Mat 'ju  BENDIK, Paw?. Isaakovich; -~~P DES,-&DAjo1iy Kikhay vich jo SHIKANOV, Ye.P., red.; FEDOROV, A.V., red. [Ai~tomatic control and measuring equipment on ships] Su- dovye kontrollno-izmeritellnye pribory. Moskva, Voenizdat, 1964. 271 p. (MIRA 17:7)  LAPIDES, Anatoliy Mikhaylovich, kand. tekhn. nauk - ~~- ~ --- ---- ~--- ~ Calculation of transistorized output stages with executive motors. Izv. vys. ucheb. zav.; elektromekh. 7 no.2:249-252 164. (MIRA P7:4) 1e Nachallnik konstruktorsko-issledovatellskogo otdela obshchestvenno-konstruktorskogo'byro Moskovskogo priborostroitelL nogo zavoda "Manometr".  ACC NR1_-AP6M5847__7___(A, SO-URC-E- CO.DE~_ UR/O4_13~_6670_C6_[6.2-0/-00.5.7/0-05,7 INVENTOR: Lapides, A. M. ORG: none TITLE: Transistorized a-c servoamplifier, Class 21, No. 187087 (announced by the Moscow Instrument-building Plant "Manometr" (Moskovskiy priborostroitel'nyy zavod "Manometr")] SOURCE: Izobreteniya,~promyshlennyye obraztsy, tovarnyye znaki, no. 20, 1966, 57 TOPIC TAGS: electronic amplifier, amplifier design, servoamplifi&r, rR19Ajz;i5-rok1z,,c ABSTRACT: This Author Certificate introduces a-transistorized a-c servoamplifier in which the collector network at the output stage is suppl;ed with pulsating voltage. The frequency of this voltage is equal to double the frequency of the line voltage. To providu stable damping of the autocompensating and autobalancing circuits and to maintain the system's signal shaping speed a voltage divider is placed between the collector and the emitter of the output transistor. This voltage divider is also coupled with one of the stages of the peramplifier. Orig. art. has: 1 figure. SUB CODE: 09/ SUBM DATE: 1ODec64/ Card 1/1 UDC: 621.375.4  VITOLI, R.K.; IOYLEVA, K.A.; STEPANOVA, G.A.; LAPIDES I.L. Adsorption prol-erties of charcoal from coniferous and deciduous species growing in Karelia. Trudy Kar. fil. AN SSSR no.38:13-20 163. (MIl",A 18:3) 1. Petrozavodskiy gosudarstvennyy universitet (for VitolF, Ioyleva, Stepanova). 2. Institus lesa Narel'skogo filiala All SSSR (for Lapides).  IOYLEVA, K.A.; KOSTEKKO, N.I.; LAPIDES, I.L.; _K011ASHILOV, N.F. Studyin-g the adsorption of water vapor by pine lignin. Tx-adly Kar. fil. AN SSSR no.38:21-25 163. (~CRA 4E:3i I 1. Petrozwiod5kiy gogudarstvennyy universitet (for Ioylelra, Kostenko). 2. Institut lesa Karellskogo filia-la AN SSSR (for Lapides, Komshilov).  PONIKINA, X-YIZIM, K.A.; GAK,111J, Yu.Ye.; LAPIDES, 1.1--. KO' III Ll~,7i Studyin;~r t-e adscrpti:cm cf dyes by pine lig-ni-n. Trudy AN SSSR -no-38:2,~- 0 163. 3 =E, 1. Petr-zavodskiy gosudarstvennyy universitet (for 1~onlkina, loyleva, Gardin', 2. Institut lesa Karel's1cogo filiala All SSSR (for Lapides, Komsnilov).  AUT11ORi I ex1ate-fice" .0 re& one--wiib a--n~.4ncrease~ 41ra-tiot o Ineu t rihb's- k uinil-ekspe-x Tnehtal "y,i teoretithes oy fiziki, v. 47, ,;:.!~~44 -:964-965 TT'k CS ..31,-:~~n.a-U-r'-rino:. -V-.;6thp~ neutrz:tho :zxajectbry, neutrino concen- in gravitational field, gravitational field neu i t-ra- t1 on ,tr n o ,',-~Jocutsing effect, focussed neutrino beam   ROZERFELID., I.L.; PAVLUTSKAYA, T.I.; LAPIMS, L.M. Study of contact corrosion in laboratories and in natural atmospheric conditions. Trudy Inst.fiz.khim. 8--155-172 160. (!MA 14:4) (Electzplytic corrosion)  S/119/60/000/009/007/n" 13f B012/BO58 AUTHdh: Lapide3y L. IA. TITLE: The Banding of Metals, Elpctrodeposits~ and Solders in Instrument Construction PERIODICAL: Priborostroyeniye, 1960, No. 9, pp. 23-28 TEXT: A surAr.-:!y of 1wrevtigations by the author is given with reference te papers by S. Ye. Pavlov (Ref. 2) and the papers of Refs. 3, 4. These investigations sere conducted in the laboratory and in the open. The latter were made at the Moskovskaya korrozionnaya stantsiya (Moscow Corrosion Station), Zvenigorcdskaya korrozionnaya stantsiya (Zvenigorod Corrosion C'tation), Batumskaya korrozionnaya stantsiya (Batumi Corrosion Station), and Severnaya korrozionnaya stantsiya (Northern Corrosion Sta- tion) in the Murmanskaya oblast' by the author jointly with the collabora- tors of the Institut fizicheskoy khimii AN SSSR (Institute of Physical Chemistry of the AS UKR) 1. L. Rozenfelld, Doctor of Chemical Sciences, T. I. Pavlutskaya, Candidate of Chemical Sciences, G. B. Klark, Candidate of Chemical Sciences, and G. X. Berukshtia, Candidate of Chemical Sciences. Card 1/4  83405 The Bonding of Metals, Electrodeposits, and Solders in Instrument Construction S/119/60/000/0091/007/008 B012/BO58 in the paper of Ref. 6, the latter quoted the climatic characteristics cf th6se regions. The paire In contact with each other and the solders were examined. In hiq paper of Ref. 5, the author indicated the methods of measuring and calculating contact-metal corrosion under a thin humid film. A scale with five characteristic values for corrosion resistance (Table 1) is given for the deGermInation of the permissible bonding of metals. It vas compiled -n the basis cf a comparison of data obtained in the J'aboratcra, ana in the open. Experimental results regarding the corro- sicrt -f bended metals arr- given in Table 2 in accordance with this scale. Folarity wa.3 determined in thene expF.,.rimejits and the am--unt of contact corrosion was obtained for a sGries of pairs. It -Aas established that the potentials of bonded metals change very much during corrosion. This goes so far that some metals change theLr polarity. This was observed both In the laboratory and in the open. It is pointed out that corrosion in the open air undergces a limitation at the cathode; the surface of the cathode metal should therpfore be made as small as possible when bonding Metals. It is better., for exnmpiej t--:~ fit a cathode-metal rivet on the Caro 2/4  The Bending of Metals, Electrodeposits, S/1 19/60/000/009,/Cl~-i7.,",~-~'::7 and Solders in Instrument Construction B012/BO58 anode-metal surface than vice versa. For the same reason, the solder should have a higher electrode potential than the metals to be soldered. The experiments shosed that the corrosion developing due to the contact Is found practically only in the immediate vicinity of the contact, at a distance of about 5 mm from its In the course of experiments in the open,(in the four regions mentioned), the rates of contact corrosion and general anode corrosion near the contact boundary were determined for 14 pairs of metals'most frequently used in instrument constructi6n., The weight data showed that in the vicinity of the contact boundary the anode was destroyed so strongly that objects with bonded metals can fail very quickly 'although their remaining parts farther away than 5 mm from the contact boundary are only slightly destroyed. A comparison of the results of investigations in laboratories and in the open showed that polarity conformed in both cases for all tested pairs, while the quantitative conditions were almost the same. Tests of the aluminum solders 34A (34A) and nqA(4-65 (PTsAm-65) showed their high corrosion resistance in the course of a year. Soldering of aluininum with tin Card 3/4  834o5 The Bonding of Metals, Electrodeposit"s, S/119/60/000/009/007/008 and Solders in Instrument Construction B012/BO58 solders by means of-ultrasonic soldering irons is very unreliable. Experi- ments showed that the corrosion resistance of aluminum solders increases with rising temperaturG. There are-5 figures, 3 tables, and 7 references: 5 Soviet. to Card 4/4  IAPIWS, L.N., Method of determining the corrosion resistance of metals in contact in air. Zav.lab. 26 no.3:294-296 '60. (HIU 13:6) (Metals--Gorrosion)  .18-8300 77648 AUTHOR: lapideo, L. M. TITIE! Effect of Temperature arid of Ylicrogeometry of tne Metal Surface Upon the Rate of Atmospheric Corroslon PERIODICALz Zhurnal prldadnoy khimii, 1960, Vol 3-3, , Nr 2, I)P 3 97 - 402 (USSR) AB3TRACTi Corrosion of metal pairs Cu-Zn-and Cu-AI (with polished and rough surfaces) was studied in the laboratory at various temperatures (.9, 10, 20, 35, and 500). The model's cjnsisted of two metal oemidisks (irietlal brands of 1-iigh purity were used: -A00 aliLminuum, PIO copper, and TsO zinc) 30 ram in diam, tight,;~ned together by textolite clamps and separated by a 0.01 mm thick mica plate. The working surfaces of one- half of the samples were polished to the fineness of vvvv Ic" 'he other half were sandblasted until the distance between the microprojections and microde- Card 1/0'  Effect of Temperature and of Mj.crc,,L~,eomotry -( "( 04 8 of the Metal Sur-face uTDon the Rate of SO 0 V/8 0 - 31 3 - 2 - 2 Atmospheric CorroL~ion pressions was 15-16 Tim- nonworking parts of the surface were lacquered. The degreased metal paits, covered with a thin film (2004 ) of O.OIN solution of NaCI, were placed into thermostatic (to +0 compartments at constaiA (98%) humidity. JiTring experlments the pair.~3 wei-e ohort-circulted. Figil ve I illustrates graphically the effect of teniperature upon corrosion of the two metal pairs (corrosion measurements were taken 15 min after the begirinincl, of experiments). Card 2,//o  Effect of T,~mperature and of try 7 7 6 4, P, of the Metal Surface upor, pa c - Atmospheric Corroslon 30 El']. g .1. Effect of tempevat(tj..:~ 2:, a t eof corrosion of inetalo witi-, polished (1,3 and rou~rhened surfaces (A~ Corrosion current (In m.a/cm-); (B) temperature (in 0 C). 1,2--Cl.1-Z-1; 3, 4--cu-Ai. Card 3/6  Effect of Temperature anrl c)f t o*' the Metal surface up~)n them Hate of I U I Atmospheric CorroBlon T~-ie author explain:3 the dif.-Perence In the shapeL corrosion current-temperature curves for tlh,,~ and rou-lh metals by the effect of temperaic-oi-c, un the param-etero D, C, and 8 In Eq. (1) Bagotskly, V. S., et al., Kinetics of Electrodr- ProcesSes (Kinetilca electrodn,r]CII protesessov), j~,-7'u (1952)): n- F, D, C Card 4/6 where I is corrosion current; n 4) numbep electrono az3,,::,J.mj.Iated on the cathode by one molecule of O,x-.Y6cn (in the reaction 0 2 + 2H 2 0 + 21 e )1(011)-); F, 1 faraday; D, diffos-1-an c~---)I-Iventratlon of' d,IICfu,-ion la,,,ter. e(pial the Of'  Effect c)V 'T,_,jnp1 ~,*. !p~, : 11 .., of' tile d C) C,n a:t C,I i-li D Lrlci-eases with tile 0~14-',_VLI'0111 de~creasc-s, ru; Nof~_-,_i of ti I C, (U. r Liu i-.1 2"',-"cr (due to ,-,11 of the I t(1 uld lec) I h 1:)Dlished 1 1 D Increase -1-11 I.-h- Value r)I I 1~ fa;, decrease of the of oxygren ,).t all tempv-.~ratutyies Tne in 1111 rill. lin .!,]I "~~T' 1")III-,~il dl,:(~ to a ve 1,111 l'--ov; J r.,- i,h~- d .1 !J  r emp e f. r) 111 1 r: rf o C, t 1-1 C- a I I I z; llo rapldh 11, a z i i 'a c a,,, c a v t ROW dk~ 1 1111 "op Il at, tl-](: (Barents -`~oa) and the- ;southern IBlack 'S'ea) corro's"."Orl Stations Illave ,3upportocl the al-,ol:rq,~'~-Icn oil f-llf~ of Upon laM "372 T! t h 'U"P C) 1, v v, rw: :1.1 C t] I ~11 iJlt jl,,)~,,~ 1)1-1!.*;.!! 11 P.1 f; :5 t J I 1TTE! D .4 j I. I (."ard up.)  L 08968-67 ACC NR: AP6029787 SOURCE CODE: UR/0119/66/0001008/0007/0009 AUTHOR: Lapides, L. M. (Candidate of technical sciences),'7 Kharanovich, G.L (Engineer) ORG: non e I.TITLE: Electrochemical-tetrwe integrator !SOURCE: Priborostroyeniye, no. 8, 1966, 7-9 TOPIC TAGS: solion, 'solion integrator A'-t tv-, C- cx- ABSTRACT: A Soviet attempt to design the well-known. 4-electrode solion integrator is described. Its principle of operation is explained. An experimental model had a plexiglas envelope and a ferric -ferrocyanide electrolyte. The model exhibited a linear relation between the output current and input quantity,of electricity and a sensitivity of 0. 6 (4a per microcoulomb; readout error, 1110; inertia, under 1. sec, characteristic drift over 2 months, Z0/0. The integrator is intended for use as a d-c amplifier. - Orig. art. has: 4 figures. SUB CODE: 09 SUBM DATE: none ORIG REF: OOZ OTH REF,. 005 t Card II UDC*. 611. 3. 08 2. 7 5: 6 21. 37 5. 0 24..  LAPIDES, Y. I. 1 1. 25301 LAP':'DE"3o Osrovnye Printsiol? Ped,-,gog-*chesi-i-Vo~D~t,--teltrov Raboty V Detskoy Psikhiatricheskoy Bolbnitse. Sborn:U: Nauch. Rabot Psikhiatr. BoAitsy MI. Kashchenko, N-.6, 1949, S. 179-85 SO: Letmdsl ITO. 33, 1949  WDRS, M. I. WORM qlInical characteristics of oneirold and delirous states in children in tuberculous maningitisi Zhur.nevr. I, paikh. 56 no.9:718-724 056. (MI-RA 9:11) I..Datskaya psikhonevrologichookia klinika (naucbnyy rakovoditall - prof, G.Teebukbareva) Hauchno-Issledovatellakogo lustItuta palkbiatrit Hinisterstva zdravockhraneniya RSFSR I, nerynogo otdaleniya (11duchuyy ralcoyoditelf, - prof. D.S.Futer) Moskovskoy detakoy klinicheakoy bollnii"y No.l. (TUIRUM IASIS. HININGEAL. in infant and child, onalrold.4 delirous states in (Rae)) (DRUMS, oneirold coni. in tubarc. meningitis in child. (Ras)) OBLIRIUM, etiology and pathogenesis. tubarc. meningitis in child. (RuB))  BANSHCHIKOV, Y.K., prof., otv,rede; FIMMY, D.D.9 prof.jo otvared*; KUDRYAVTSAVA, Y.N., imud.ned.usuk, red. (Moskva);, LAPIW---, upl-P kand.med.nauk. red. (Moskva); NOVLTANSKATA. SIKSON, T.P., prof., r9d. (Moskva); SKMVI. Ye.Te., kand.wd. nauk. red. (Moskva); SUERAWA, Ge'-feet 13TOf,,o red. (Koskva), (Problems in child psychousurology; collection of articles of the All-Union Conference on Child Psychiatry, March 21-25, 19573 Vaprosy detskoi paikhonevrologii; abornik tradov Vsesoiuznoi nauchno-praktichookoi konferenteii po-psikhIatril detekogo voz- rasta 21-25 marta, 1957.g. Moskva., 1950. 355 p. (KIU 13:6) 1. Rassia (1923- U.S.S.R.) Kinisteretvo zdravookhraneniya. Institut paikhiatrii. 2i Direktor Nauchno-issledovatel'skogo inatitimta paikhiatrii Kinisterstva. zdravobkhraneuiya SM (for Fedotov). (OHM PSTORIATRT)  1AP IDES, W1. 1. Psychic disorders in tuberculous meningitis In children. [with m=ary in French] Zhur, nevr, I r9ikh, 58 no-7VIO~311 '58 (MIRA 11:7) 1. Detskaya Psikhonerologichasknya kliniks, (zav. - arof. tAje. Sukhnrevs) Hauchno-isaledovntellskogo instituta -paikhiptrii Mini-sterstva ZdrAvOokhrRneniyFt RSPSR (dir, - prof. V.R. BRnshchikov). nervnoye otdoleni.ve Hookovskoy detskoy gorodskoy kllnicheskoy bollnitsy No.1 (glFkvny7 vrach Ye. V. Prokhs)rovich). (TUBNRCULOSIS, HMINGLS, in infs;nt nnd child. causing ment, disord. (Rus)) (MYWAL DISORDMLS. in infant & child. c9used by tuberc. meningitis (Rue))  LAPIDES, M. I., Doe Med Sci -- (diss) "Psychic disorders in tubercular meningitis in children and in teen-agers.'' Moscow, 1960. 24 pp; (Acad- emy of Medical Sciences USSR); 25/0 copies; price not given; CKL, 2?-60, 158)  *Child paye raldall bgr 0. WeA. Revieved. M.1a idea hiatI7 iu 6206BDSI(A (MM 14.1 Zhvgr.nevr.,iom. 6.o no.102o 160. lcmmosLOWA~GAILD MYGHIATRp (KUGMO 0.)  LUP-IMP HOL Clinical aspect-s, treatment and prevention af residual mental disorders after tuberculous meningitis in children. Zhur. nevr. i paikh. 61 no.7:1077-1082 161. (MIRA 15:6) 1. Institut, psikhiatrii (dir. - prof. D.D. Fedotov) Rinisterstva zdravookhraneniya RSFSR i 1-ya klinicheskaya detskaya b~llnitsa Moslqvy (glavnyy vracb Ye.V. Prokhorovich). (HEI-IING&S-TUNMULOSIS) (MENTAL ILLNESS)  LAPIDES., M.I. "Problems in pediatric psychoneurology. Reviewed by M.I.Lapides. Zhur.nevr.i pslkb. 62 no.7:1109-1110 162. (KRA 15:9) (CHILD PSYCHIATRY) (NEUROLGOY)  LAPIDES, M.I. -.= ------- Development of pediatric psychiatric service. Zhur.nevr.i psikh. 62 no.7:1115 162. (AURA 15:9) (CHILD PSYCHIATRY)  i pakh. 64 2 12  ,~,,LAPIDESI M.!.; V11011"), 1-1-1% 'I, Progress of the psy~h;Dn-3urologi~~ai ald fc:r, rAAldrar, and , ~j - - ". adolescents in th-e Z'hl;-,-. ri,:~,v:-. 1 C-1 1114-1115 163. . 17:-1),  FEDOTIOV, D.D., prof., otv. red.t VRONO, M.S.,. red.-. DEYANOV, V.Ya., red.;_LAPIDI~�., rea.; MANTSEVA, V.U,,'red,; YURKOVA, I.A., red.; 4,1011MOISKAYA, K.A.., red.; ROYMIN, L.L.., rcd.; SKANAVI, Ye.Ye., red. [Problems of pediatric psychoneurology] Problemy psikho- nevrologil detskogo vozrasta. Moskva, 1964. 530 p. (MIRA 18:5) 1. Mosclow. Gosudarstvennyy nauchnc-issledovatellskiy insti- .ut pslkbiatni. 2. Khrilka pnikhazov dotakogo vozrai3ta Gosudarstvennogo nau~.-hno-lssladovatellskogo instituta psi- khiatrii Ministerstva zdravookhraneniya RSFSR (for Skanavi, Lapides). 3. Kafedra. detskoy psikh,~atrii TSentraltnogo institut-a usovershenstvovaniya vrachey (for Novlyanskaya, Mamtseva, Vrona).  LAPIDES,*M.1.1 VRONO, M.S. Development of psychoneurological assistance to children. Zhur. nevr. i paikh. 65 no.?tlli8 165. (KRA 18:7)  VASILIYEV, S.F.; LAPIDDS, N.A.; MOSIN, A.M. High-temperature flameless oxidation of hydrocarbons as a means of obtaining olefinic monmers. Khim.i tekh.topl.i masel 8 no.2:10-24 F 163. (MIRA 16:10) 1. Institut goryu,-hikh iskopayemvkh Gosudarstvennogo komiteta Soveta Ministrov SSSR po top2ivnoy promyshlennosti.  sov/180-59-3-40/43 AUTHORS: Lavrov, N.V. and Lapides, N.A. (Moscow) TITLE: Technological Classification of Combustible Gases PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye tekhnicheskikh nauk, Metallurgiya i toplivo, 1959, Nr 3, PP 187-189(USSR) ABSTRACT: The authors suggest that with the use of combustible gases for syntheses as well as for fuel, their classification by calorific value or flame temperature has become inadequate. N.V.Lavrov and M.B.Ravich (Ref 2) have proposed a classification based on the potential- hydrogen content (sum of contents of H2 and CO and (2n + m/2) times CnHm content). The authors have found that the potential-hydrogen content also serves to indicate suitability for polymer syntheses. They give a table of the composition and calorific values of 19 gases together with their potential-hydrogen and polymer-synthesis values, the latter being the content of hydrocarbons from which unsaturated hydrocarbon can be obtained. The gases are divided into four groups; first group over 500%, second 300 to 500%, third 80 Card 1/2 to 300% and fourth under 80%, potential hydrogen.  sov/180-59-3-4o/43 Technological Classification of Combustible Gases There is I table and 2 Soviet references. SUBMITTED: January 26, 1959 Card 2/2  S/081/62/000/004~065/087 B150/B136 AUTHORSs Vaoillyev, S. F6, iuiim,_At~ TITLEt Production of ethylene and propylene by the acidifying pyrolysis of butane PERIODICAL: Referativnyy zhurnal. Khimiya, no- 4, 1962, 477, abstract 4M133 (Novosti neft. i gaz. tekhn. Neftepererabotka i nefte- khimiya, no. 4, 1961, 22-25) TEXT. Experiments on the oxidizing pyrolysis of 99.8% n-04H 10 were con- ducted on a large-scale laboratory apparatus under optimum conditions for - he processs - temperature 820 0 and duration of contact 0-5 se*c. The degree t of conversion under these conditions is 95%, with a yield of nneaturated H and 15-8% C H . The hydrocarbons amounting to 53% by wt. (37-25P 02 4 3 6) process has considerable technical and economia advantages in comparison with that of thermal-pyrolysis. A diagram of the apparatus for the oxidi zing pyrolysis is given. LAbstracter's' notet Complete translation.D Card 1/1  VASILIYEV, S.F.; MOSIN, A.M.; LAPIDP,_IT.A-L Prinimali uchastlye: 1COMNK0, M.L.; OSTROVSKAYA, FOMICHEV, V.F.; GUBBOTINA, G.V.; SHMOVA, L.M. .1 Oxidative. pyrolysis of lower hydrocarbons. Khim.prom. no.4:23f~-243 Ap 161. MRA 14:4) 1. Institut goryuchikh iskopayemych AN SSSR. I (Hydrocarbons) (Oxidation)  VASILIYEV, S.F.; LAVROV, N.V.; LAPIDES, N.A. Oxidative pyrolysis of butane. Trudy IGI 16:59-65 061. (KMA 16:7) (Butane) (Oxidation) (Pyrolysis)  PANADIADI, A.D... kand. sellkhoz. nauk; VOLOVSKIY, S.P.., kand. sellkhoz nauk; NAVROTSKIY,, S.K., kand. sellkhoz. nauk; kand. sell- PANADIADI, le.A., inzh.; SPIRIDONOV, A.L., khoz. nauk; T3,Y10FEYEV, A.F., kand. sel'Ithoz. nsuk; LAPIDOVSK~~$_ i LI_! A red. [Agricultural melioration] Sellskokhoziaistvemaia me- lioratsiia. Moskvap Kolos, 1965. 502 p. (MIRA 18:7)  LAPIDOVSKIY, K.M., inzhener. In the Scientific and Technical Council of the Ministry of Agriculture of the U.S.S.R. Mr. t mel. 8 no.10:63-64 0 156. (Kw 9:10) (Boring machinery) (wells)  /-A -D 0 V~ j~l Y 7 AUTHOR: Sefedor, V.D., Engineer and Lapidovsklyt K.M., 99-9-9/9 Engineer. TITLEt Conference on Problems of Drainage by Means of Underground Drains" (Soveshchaniye po Yoprosam osusheniya zemell a primeneniyem.zakrytogo drenazha) PERIODICAL: "Gidrotechnika i Velioratsiyal.1, 1957, Nr 9t PP 57-64, (USSR) ABST.RACTz- i.S. Kuchumov Deputy Minister of the Ministry of Agriculture of the USSR (Ministerstvo sellskogo Khozyaystva, SSSR), opened a conference in Riga in June 1957t which was attended by representatives of the Baltic Republicsq the RSFSR, the Ukrai- nian SSR and.the 63SR. Problems of melioration were diacuseed, and lectures were hold on different drainage systems. Kuehamov stre8sed__the_jmpor~ance.of underground drainage systems, success- fully applied to podzolic soils with abundant precipitation in the Baltle republics for some time. The tasks to be accomplish-, ed now in thetield of melioration was to repair the existing underground drainage eyet.ems,.,and to replace the mole-.t,7p6 and open ditch-type drains by subsurface drains. Rationalization of planning and research work as well as higher efficiency at the in3tallation of drainage systems is urgently needed b3cauB.e Card 1/2  99-9-9/9 Conference on Problems of Drainage by Means of Underground Drains". 300-350 melioration projects have to be carried out in the Baltic republics every year. Satisfactory progress was report- ed by the Latvian representative Berzins, who stated that the drained acreage increased from 23 % in 1914 to 45-8 % in 1957. As in Latvia, the installation of underground drainage systems was started in 1956 on a large scale in the Litbuanian SSR. Slower progress was made in the Estonian SSR on account of stony soils. Much has to be done in-order to fully mechanize the installation of drainage pipes, for only 2 out of 8 basic operations are mechanized at present. The article contains 1 table. ASSOCIATION: Ministry of Agriculture of the USSR (Ministerstvo sellskogo khozyaystvaS3SR) A"ILABLE: Library of Congress Card 2/2  LAPIDOVSKIY, K.M. *%-~- 7~- The ETN-142 trench excavator. Biul.tekh--ekon.inform. no.9:63-64 '58. (Yla,~, 11:10) (Excavating machinery)  AUTHOR3 Lapidovskiyq K.M., Engineer SOV-99-58-8- I!/111 TITLE- Chronicle (Khronika). At the Scient1fic-Enginsering Council of the USSR Mini i-y of Agricultur-~r (V nauchnc- tekhnicheskom sovete Ministerstva sellskogo k7h.3syay5t,7a SSSR) PERIODICAL: Gidrotekhnika i melioratsiya, 1958P Ur 89 pp 671-64 ~'USSR) ABSTRACT* The USSR Ministry of Agriculture has approved 33 naw members of the S6ction of Hydraulic-Engineering and Melioration of the Scientific-Engineering Council, Academician-Secretary of the Department of Hydraulic Engineering of All-Union Agrucultural Aaademy im.eni V.I. Lenin, Regular Member of VASKhNIL and of the Uz- bek SSR Academy of Sciences, Professor A.N.Askochenskiy was appointed chairman of the Section. The following persons were appointed deput-y-chairmen-. EnginGer J.',N, Ananlyevp Director of Giprovodkhoz MSKh USSR, Engineer V.M.Mellnikov, Deputy-Chief of Glav-odkhaz MSKh USSR9 Professor V.V. Poslavakiy, ReKalar Member of the Uzbak SSR AS and Corresponding Member 1 of VASKbN!L,- A.N.Tsare-, ski y Director of VNIIG*-ITe.1 and Zorresponding Member --f VASKWTIL; Card 1/4 and Candidate of Agricultural Sciences K.K. Shubladzs,  SOV-99-58-8-11/11 Chronicle. At the Scientif -4-- -Engine ering Counotl of th; USSR Agriculture Deputy-Chief of Glavvodkhoz USSR MSKh. The following were approved as members of the Sect-iont Engineer I.I. B-ada7zin, Deputy-Chief of Glsv-7odkhoz RSFSR MSKh,, Engineem T.L, Varkhotov, Chi-of Engineer of Giprnsel:eiektrog Candidate of Technical Sciences S.A. Girshkan; Candidate cf Techn'.- cal Sciences L.V. Dunin-Barkovskiy, Chief Engineer of Gi- provodkhoz USSR 14SKh; Candidate of Economical Science3 NS, Gubarl, Director of Sevl-TIMY.; Academician Ye.A. Zamarin; Dotsent D.T. Zuzik; Professor A.Ya. Kalabugin; Cand'idate of Technical Scienses I.I. Kovalorko, Director of IIIVKh; PT~- fessor MGU V.A. Kovda, Corresponding.-Member AS USSR; Engineer A.F. Koklyanov; Docent N.D. Kremenetskiyj Engineer Ir.11. '-Kundzich; Engineer X.M. Lapidovskiy; Professor M,Ye. Uatsepu- ro, Vice-President BSSR Academy of Agricultural Sciences and Director BNIIIZESYh; Candidate of Technical Sciences Z,I, Metel'Bkly; Engineer V,D, Nefedov; Candidate of AL7r_-*_-ul4u_-rel Sciences A.D. Panadiadi; Professor I.I. Plyusnin; YA'. Fopov, Member of the Board of the RSFSR YSKh and Chief of Glavvodkhoz-. Engineer V.N. Rukavitsyn, Chief of YOM. Y-,'ater Economy Ad- ministration; Engineer S.G. Tokarev, Director, 11.1loseow Excava- tor Station; Dotsent IT.K. Fenin; Engineer P.G. Pialkovskiy, Card 2/4 Director Rosgiprovodkhoz; Academician I.A. Sharov; Engineez  SOV-99-58-8-11/11 Chronicle. At the S cien tif ic-Enginee ring Council of the USSR, Mmfstry of Agriculture Ya.K. Shtarev; Engineer N.A. Sharov and Professor V.A. Shaumyan, Deputy-Director for the Scientific Section of VKIGil'. On 25 April 1958, the Section of Hydraulic Engineer- ing and 14elioration of the Scientific-Technical Council heard several reports on the prevention of plant growth in melioration canals by chemical methods by I.A. Samgin (Len1-TIILKh); Candidate of Agricultural Sciences G.A. Gallkevich (SevNIIGiY,); Candidate of Agricultural Sciences A.F. Birkaya, Deputy Director for the Gruz.19IIGi11' Scientific Section; Candidate of Agricultural Sciences B.Ya. Sigalov; The Section recommended the wide application of aboricides against arboreous and shrub vegetation in drainage systems, At its meeting on 23 Ilay 1956, the Section examined the design of a machine for digging canals, proposed by the Insti- tut gornogo dela All SSSR (USSR AS Yining Institute), Unlike existing earth-digging devices, the principle of this machine is -6ased#bnjaW'cav6 ib" method when preparing the soil for excavation. Candidate of Technical Science G.V: Rodionov Chief of- the IMiningInstitizte's Mlechanization Laboratory, ex- Card 3/4 plained the construction of the machine. At the same meeting  SOV-99-58-8-11/11 Chronicle. At the Scientific-Engineering Council of the USSR Ministry of Agricultaxe a trenchless drainage pipe layer, designed by F.V. Ignatenko (Kirovskaya lugobolotnaya opytnaya stantslya Vseso,ruznofo nauchno-issledovatellskogo instituta kormov - Kirov Yeadow- Marsh Experimental Station of the All-Union Scientific-Re- search Institute of Forage), was examined as well as a drain- age pipe layer designed by A.P, Brin*511 (Latviyskaya sell- skokhozyaystvennaya akademiya - Latvian Agricultural Academy), I. Agriculture--USM 2. Inland waterways--Applications 3. Irrigation systems--Applications Card 4/4 USCONM-DC-55516  LAPIDDVSKIY, K. M. I Using hydraulic drills In agriculture. Mul.tekh.-ekon.~*rxs ' no.10:68-70 1 58. (NIRA 111,12) (Boring machinery)  LAPIDOVSX1Y, X.H. Flow-unit attachments to S-80 and DT-55 tractors for turning over shrubbery. Biul.tekh.-ekon.inform. no.12:52-53 '58. (MIRA 11:12) (Agricultural machinery)  30(l) SOV/99-59-3-10/10 AUTHORS: and Shlr-lyarevskiy, A.I., Engineers TITLE: In the Scientific and Technical Council of the Ministry of Agriculture of the USSR (V nauchno-tekhnicheskom sovete ministerstva sel'skogo khozyaystva SSSR) PERIODICAL: Gidrotekhnika i melioratsiya, 1959, Nr 3~ pp 60-64 (-USSR) ABSTRACT: The article is concerned with a meeting of the Scien- tific and Technical Colin i1 of the Ministry of Agri- culture of the USSR held during the period 12 - 15 January 1959, and devoted to full mechanization of cotton cultivation and harvesting. The meeting was attended by specialists in cotton growing of Uzbe- kistan, Turkmeniya, Azerbaydzhan, Kazakhstan, and Tadzhikistan, by research workers of the cotton-produ- cing republics, by representatives of the plants making cotton-tilling machinery, by scientific workers of the Vsesoyuznaya akademiya sel'skokhozyaystvennykh Card 1/5 nauk imeni Lenina (All-Union Academy of Agricultural  SOV/99-59--3-10/10 In the Scientific and Technical Council of the Einit-ry of Agri- culture of the USSR Sciences imeni Lenin), and by specialists of the or- ganizations affiliated ivi~h water economy, hydraulic engineering. etc. The meeting was also attended by representatives of the Gosudarstvennyy nauchno-tekh- nicheskiy komitet Soveta Ministrov SSSR (State Scienti- fic and Technical Committee of the Ministers' Council of the USSR), those of the Uzbek and Kirgiz SSR; the Gosplan USSR, the Mini.sterstvo sel'sko-o khozyaystva 0 SSSR (Ministry of Agriculture of the USSR), and the ministries of agriculture and water economy of the cotton-producing republics. The meeting vras opened by G.A. Borkov, Deputy Minister of Agriculture of the USSR, whose short speech was followed by reports made by the following personalities: 1) T.G. Zinin, Deputy Director of the ITzbeks1dy nauchno-issledovatellskiy institut mekhanizatsii i elektrifikatsii sellskogo khozyaystva (Uzbek Research Institute for the Mecha- nization and Electrification of Agriculture); 2) V.A. Card 2/5 Tyupko, of the Sredneaziatskaya YaS (Central Asian  SOV/99-59-3-10/10 In the Scientific and Technical Co;xncil of the Yini7~try of culture of the USSR MIS)i 3) M.Ya. Topada, Chief EnF_,ineer of the Pakhta- Aral sov11-hoz; 11) N. Bokirov, of the "Bi)yaut Nr 1111 sovkhoz. Tashkont oblast ; ~) I.I. Mcleshko.. Director of the ~redneaziatskaya mashino-ispytatellr-aya stan- tsiya (Central Asian Machine Testing Station); 6) B,Ye. Arkhangellskiy.L Chief Designer of the Li- petskiy traktornyy zavod (Lipetsk Tractor Plant); 7) Ye.A. Sarkisyants, Chief Designer of the Vladi- mirskiy traktornyy zavod (Vladmimir Tractor Plant); 8) N.I. Popov, Chief Specialist of the Nauchno- tekhnicheskiy komitet Soveta ministrov Uzbekskoy SSR (Scientific and Technical Committee of the Ministers' Council of the Uzbek SSR); 9) Ye.V. Radkevich, Chief Designer of the SKB for Cotton of the Tashkent Sov- nark.hoz); 10) B.P. Firsov, Deputy Chief Inspector for Cotton of the Y.-SKh SSSR; il) A.N. Askochenskiy, Aca- demician and Secretary of the Otdeleni.ye gidrotekhni- k_-. i melioratsii VASKhNIL (Hydraulic En ineering and Card 3/4 Melioration Department of VASKhNIL); 125 K.K. Shub-  SOVI'99-59-3-10/10 In the Scientific and Technical Council of ("he culture of the USSR ladze, Deputy Chief of Glavvodkhoz 11SKh USSR; 13) N.N. Bukov, Senior Scientific Worker of WTIlGilvi; 14) L.D. Stonov, NIUIF; 25) M.F. Kulikov, Fergans- kaya opytna7a stantsiya (Fergana Testing Station); 16) S.D. R:41uhev,. Gosplan SSSR; 17) N.Iq Fershtat, Deputy Kinister of Agriculture of the Uzbek SSR; 18) A.A. Troitskiy,.Dep-aty Minister of Agriculture of the Tadzhik SSR; 19) M.A. Matveyev. GosNIIGVF- 20) N.I. Kostyuk, MSKh of the Kirgiz S~R; 21) S.M.' Shakh- muryadyan,'VIM; 22) M. Khalilov, MSKh of the Azer- baydzhan 33R; 23) K.A. Gularyan, ArmNIIZ; 24) A.A. Karimov, GNTK of the Sovet Ministrov Uzbekskoy SSR (Ministers Council of the Uzbek SSR); 25) N.I. Depta, Tashkent sovnarkhoz; 26) M.N. Ananyev, Giprovodkhoz; 27) I.P. Panov, Tash.sellmash; 28) Ivanov, GOSNITI; and 29) V.A. Kaufman, Gla-,rnoye upravleniye mekhani- zatsii i elektrofikatsii MSKh SSSR (Central Admini- stration of the Mechanization and Electrofication Card 4/5 of the MSK-h USSR). Among the organizations only  In the Scientific and Technical Council of the hTSMY99-59-3-I'110 linistry of Agri- culture of the USSR mentioned in the above reports yet not listed above are the following: 1) Vsesoyuznyy nauchno-issledo- vatel'skiy institut gidrotekhniki i melioratsii imeni A.N. Kost-yakova (All-Union Research Institute of Hydraulic Engineering and Melioration imeni A.N. Kostyakov); 2) Gidroproyekt; and 3) VNIIStroydo=arh. Card 5/5  14(10) SOV/99-59-6-12/13 AUTHOR: Lapidovskiy, K.M., Engineer TITLE: A Dam With Plastic Lining PERIODICAL: Gidrotekhnika i melioratsiya, 1959, Nr 61 p 60, (USSR) ABSTRACT: The article describes a reservoir dam with plastic lining, the first ever used in Australia. There is 1 photograph and 1 Australian reference. Card 1/1  LILPIDDVSKIY- K.M. The KDG-55 and XDG-W mole-drain machines, Biul,takh.-ekon. inform, n0-3253-54 160. (HIU 13s6) (Drainage)