ATHOSHCHETKO, Vasiliy Ivanovich; ALEKSEYEV, Arkadiy Mefodiyevich; ZASOR111, Anatoliy Petrovich; KIIRILLOV, Ivan Petrovich; KONVISAR, Viktor Ivanovich; YASTRElOiETSKIY, Anisim Rudollfovich; VVEDENSKIY, P.I., prof.0 retsenzent; VARLAMOV, M.L., prof., retsenzent; BAZILYANSKAYA) I.Lop red,-v;-TROF1qMKO, A.S.p tekhn. red. [Technology of combined nitrogen] Tekhnologiia sviazannogo azota (By] V.I.Atroshchenko i dr. Khartkov, Izd-vo Kha--'- kovskogo univ. 1962. 322 p. (MIRA 17:1)  AUT110111 VaTlartiov, TA.L., 'alanakin. G.A., Gocmoddinov, A.N. I, C,f !In I yyl S 4 FOAM .41  Z/z P~L  VARLOUV, M.L., doktor teklm. nauk, prof.; MANAKIN, G.A.; STAROSELISKIY, Ya.I.; --HROMEK., L.S. Analyzing the ammonia method for the removal of nitrogen oxidea from the exhaust gases of a nitrose tower sulfuric acid system. Report No.l. Nauch. zap. Od. politekh. inst. 40:24-33 162. Analyzing the ammonia method for the removal of nitrogen oxides from.the exhaust gases of a nitrose tower sulfuric acid system. Report No.2. Ibid. t 34-" (KRA 17:6) 1. Predstavlena, kafedroy "Tekhnologiya i avtomatizatsiya khimicheskikh proizvodstv" Odesskogo pGlitekhnicheekogo instituta.  VARLAMOV,--M.-L.., doktor tekhn. nauk, prof.; KRICHEVSKAYA, Ye.L.; -" KOVIIATSKAYA, B.S.; 14ANAKIII, G.A.; LIMONOV, V.Ye.; DINAH, A.A.; KOZAKOVA, L.M.; ZBROZHEK, L.S. Study of the absorption towers of the granulation shops of a superphosphate plant. flauch. zap. 0d. politekh. inst. 40: 62-72 162, (MIRA 17:6) 4.e  VARIAMOV,'__M.L., doktor tekhn. nauk, prof.; ENNAN, A.A.; KOZAKOVA, L.M. Rapid method for determining the quality, of the performance of electric filters, Nauch. zap. Od. politekh. inst. 40t73-76 162. (MIRA 177:6) 1. Predstavlena kafedroy "Tekhnologiya i avtomatizatsiya khimichoskikh proizvodstv" Odeaskogo politekhnicheakogo instituta.  ENNAN, A.A.- VARLAMOV M.L., doktor takhri. nauko prof.; KOZAKOVA, L.M.; Determining the drop contact angles and coefficients of the drop spreading of the aqueous solutions of fluosilicic acids and sodium fluorides. Nauch. zap. 0d. politekh. inst. 40: 77-82 162. (MIRA 17:6) 1. Predstavlena kafedroy "Tekhnologiya i avtomatizatsiya khimicheskikh proizvodstv" Odesskogo politekhnicheskogo institute. 77-7- 77-7,17-7,7  LIMONOV, V.Ye.; VARLAMOV, Y,,I.. Fog formation due to the interaction between S-r4 and voist ai--. Hauch. zap. 0d. politakh. inst. 410-9 162. (MrRA 1714) ./I-  F VARLAMOV. E , 5..".. ; a 1" uch as ti-ye , POLUMMINA, T.T.; KHODA-70715KIY, V.7.a, GCC(-'HWOVA,. L.,'.; ]ULTH1115KA"i, 70'.-IX0, A.S.; SHFIAK'f, V.A. I Removal of phtria!Ll- arhydr&dA from the waste gases in the production of glyptal and pentapbthal-1-c varnishe3. Nwich. zap. 0d. polite-kh. inst. 41~10-e--I I C' 2. NIRA 1734)  VARLAMOV, M.L.1 MANAKINj G.A.; STAROSEL'SKIY, Ya.J.; ZBROZHU, L.S. Ammonia method for the removal of nitrogen oxides of low concentration from gases. Zhur.prikl.khim. 36* no.1:8-15 Ja 163. Kid 16:5) (Gases-Purification) (Nitrogen o4des) (Ammonia)  VAAWiOV, M.t~;. BELMVICHYW, K.K. [Belonaviciusp K.] .......... - Study of the acoustical coagulation of a h7drochloric acid aerosol. Zhur. prikl. khim. 36 no.4-.697-703 Ap 163. IKM 16:7) (Aerosols--Acoustio,,Fopertie,s) (Hy&ochlorie aci  i VARLAMOV, M.L.; MAKIN, G.A.; ZBROZHEK, L.S.; STAROSELISKIY., YA.I.; Prininala uchastiye: T-SITKO, A.S. Ammonia method for the removal of nitrogen oxides from the waste gases of the tower nitroso-sulfuric system. Zhur. prikl. khim. 36 no.11:2335-2343 N 163. (MIRA 17:1)  L 1726-66 W (l )IFCC Gid ACCESSION NR,. 'AP50211BO UP/0139/65/000/OC4/0329/01,33 AuTHORt VMlamov m! n A. Brmanj A. A. TITLE: Investigation 6-r acoustic conaulation of Anueous subjected to continuous ,and pulsed sound SOURCE: rVUZ. Fizika, no. 4, 1965, 129-133 L TOPIC TAGS1 aerosol, natural aerosol, fog, acoustic doagulation, nejosol. chnmber ABSTRACT; In view of the lack of theoretical means of predicting the effects of acaustIc coagulation on various aerosols,, the authors used specially designed ap- 1 paratus to determine experimentally the major coagulation parameters (number of particles per unit volume and size distribution of the particles). Most of the apparatus,, the formulas for the particle-size distribution, and the procedure for the experimental-data reduction bave been described In earlier papers by the authors and their co-workers (Sb. PrimenenVe ultraakustiM k issledovaniyu vea- i chestva (Use of ultraswics -in' materials research.]p no. 17# 110PI., M.2 1963p and earlier refe--re'n-ce'O'. presented for a6ter-mAnifng the' -aerosol concentra-I !$tibna at the outlet of an aerosol chamber in terms of the time spent by the aerosol in the chamber and in terms of the pulse repetition frequendy,(pulsed-sound only).J: The results have established that pulsed sound at a frequency of 16.5 kcs, a pulse Card 1/2  L 1726-66 ACCESSiou riR: AP5021180 irepetition frequency of 2 pulses/see, a reduced pulse duty factor of 2, and a total exposure of 3-5 seconds consumes approximately half of the acoustic energy Irequired in the case of continuous sound. Orig. art. has: 4 figures and 5 formulas. (02]i !ASSOCIATION: Odesskiy politakhnicheskiy institut (Odessa Poly~echnic Institute) ~SUBMITTED: 030ct63 F11CL - 00 SUB CODE: ES NO REF SOV- -005 OTHER! 000 ATD PRESS: Y096- Card 2/'2  ACC N& ReDUU1UVJ buUliuk; Lmvz: UHlueLiolo~ifuuuluieL-IUU(Iluo-fI 4q, 5- ~v I "". 57 t' Vv, 5 1 --INVErtiTOR., --Varlamov,-M. L.; Manakin, G. A.; Tonkonogiy, Sh. B. ORG: none TITLE: Acoustic wattmeterlk-~Class 42, No. 176451. SOURCE: Byulleten' izobreteniy i tov ,Imykh znakov, no. 22, 196f, 71 ;2/, qV I '~'* TOPIC TAGS: vattmeter, acoustic wattmeter ABSTRACT: This Author Certif~kcate proposed an acoustic wattmeter containing an acoustic pickup and a millivoltmeter for measuring the power of acoustic generators. To increase both the measurement accuracy and speed, the pickup is mounted on a mobile base which can be shifted by two drives at a constant linear velocity in a plane perpendicular to the sound propagation. An amplifier, a functional transducer, an integrator, and relay block contacts are connected in series to the output of the I millivoltmeter. The relay block contacts assure simultaneous coupling of the acoustic pickup drives, the electric timer, the integrator, and the recording instruments. Orig. art. has, 1 figure. WRI- suB corei o9, 14/ StMM DATE: 23Sep63/ ATD PRESS- IA11(05~ C? card 1/1- UDC: 534-613:621.317.784  VARLAMOV, M.L.- MANAKIN, G.A.; ENNAN, A.A.; Prinimala uchastip-4: KOZAKOVA, L.M. .a Acoustic coagulation of water fog in continuous pulse type sonication. Izv. vys ucheb. zav.; f'Lz. 8 no.4:129-133 165. (MIRA 18:12) 1. Odesskiy politekhnicheskiy institut. Submitted October 3, 1963.  .,VARLAMGV, M.L.; KORDOIJ, I.V. Conductometric determination of lower concentratlonz of ar-- monia in gases. Zav. lab. 31 nc).8:940-943 165. ("'lipil 18:9) 1. Odesakiy politeklinicheskiy institut,  ACC NRi AP6034921 SOURCE CODEi U,',1/0115/66/000/008/Orj92/C)0937 AUTHORS: Varlamovp M. L,; Gospodinovp-A. H.; Breytbart, G. Ya. ORG: none TITLE: A thermoelectric receiver for sound in gaseous media- SOURCE: Izmeritellnaya tekhnika, no. 8, 1966, 92-93 TOPIC TAGSt thormoolectric sencor, thormocouplo, noountic field, gaa, tomporatura, galvanometer, turbulent flow, air flow / M21 4 galvanometer ABSTRACT: A thermoelectric receiver for measuring sound intensity in acoustic fields created by powerful gas- ot radiators in described. The racoivor ia mado in the form of a probe (see Fig. li.- a copper or brass tube with a lengt'111 of 70 = and outside and inside diameters of 4.5 and 2.5 nn. Two copper-constantan thorro- couple junctions with a 0.1-= wire are placed along its axis. The temperature- difference setting time is not over 15-20 sec. The maximum temperature difference that can be recorded is ,- 5C. For one specimen of the probe, at a sound intensity of 0.55 W/c=2 (157.4 c1B) and a frequency of 17.5 kHz, the deflection of the 1,21/4- galvanometer was 250 divisions, It was found that the readings of the probe wore not dependent upon the relativi humidity of the air, but only upon its rate of change. The probe distorts the acoustic field only slightly.  ACC NRs AP6034921 Fig. 1. Thermoelectric probe: 1 tube; 2 and 3 - thermocouple junctions; 4 - sound-absorbing subatanco; working'end Orig. art. has: 1 diagram and 1 graph. SUB CODEE: 20s, 140 09/ SUBX DEE: none/ ORIG REF: 0031 OTH Ws 003  SMEOV, A.IO;,~~MOY_lA,_4,;_~MVKINAO Ye.F,; HANAKINO G,A. Using sulfurous cast iron for makin teeth of mechanical pyrite furnaces. Nauefi. zap. Od. politekh.inst. 26:65-72 160. (142A 15:5) (Cast iron) (Metallurgical Lurnaces)  ACC NR; ,:o tylarz;iz' 2. (CandidL.'o C'. T.42 : Auto"ted transport control system rlyl i 3nabzhaniyo sove-Inkikh vooxuzhoW,Cn sil, no. 6, 1966, 7.3-706 TOPIC '."AGS. transportat-ion system, a-mod force loGiatics 'L L' J. Zia modern ne'hods o-' plann4n~, or,-,anizina and controllinj --*li'-ax-j transpor- 4. klation oDa.,ationD are described. The plarudng and implementation of various proce3ses includinj the use of facilitias and the mova-,iont of materiel are based on a careful ozam- ination of civer, data and prevalent conditions. The analysis olp proco=oz and the "do!- in,3 of o2crations are carried out by using coikputing devices for solving L7.atheimtical problems involvod in a given transportation system. ',.n example o-AC a system modelin-r.- is A. the firav s_^oinl schama tic ally a diagram. The system includes five procoz~;e3 of which I-Oprosants t-ha onomy actions against the trarz;portuation netwoxic, facilities and vehicles. 2ho second process covers the determimtion of the reliability of tile transport tat Uon systa= in a 6-ivan area, while the third deals with the analysis and selection of routes, networks, facilities, materials and ot-aer system components. 7ho detox-mination of route distflancas, vehicle speeds, time schodules, loadinG and unloading operations belongs to Card 1/2  ACC NRt AP6026184 4*1- 11oUr.1-",j e3 -1 ,Le Se 0 Mal e= -kcal Z~.e zat*hod of A th az~ also a-. lied to thae fiftil process of calculatiLr, Irclu"no checkizig and corzrala;~Xz P standsrd norms, time factors and other transportation parameters. It is stressed that the sa--e system of units and conversion A'actor3 =ast be used for calculation and eval-aa- 'ion of transportation processes. The same criteria must also be used for selection of basic optimal data such as time limits, transport t, ypas, expenditures, etc. 1r, j;enaral, various kefboard, punched-card and electronic computors are used for calculation. An Inzercommunication systom is established for collootinr, and transmitting data as well as ti for an overall control of transportation operations. Orig. art."has: 1 dia&ram. M CODE; 15/ SUIZI DIME. None  VARLAMOV I.I.A.; KOSI'111, nala; 1.1.F., Ifand. tokhm. nauk Centrifugal drz-Z-7-fn,:- c-' cx--, ~--: zed fron r-:-- -n Blul . tekh .-eiron. ir-f of:n- GO-; r-allch InSI. natlco- . 11 ~ck'-- inform. 17 no.8:7-9 Ail 1(14..  VARLAMOV,, !~.A.., inzh.; SHOKHIN, V.N.,, inzh.; NIKOLENKO, S.V.; TIMAKOV, G.I. Experience in obtaining iron o-re concentrates in a 4drcc7clone. Gor. zhur. no.1:75-77 Ja 164. 04IRA 17:3) 1. Magnitogorskiy gornometallurgicheskiy institut (for Varlamov, Shokhin). 2. Gornoye upravleniye Magnitogorskogo metallurgicheskogo kombinata (for Nikolenko, Timakov). _1 7" ml-  VARLAMOV,,,N.A.;-SIIOKHIN. V.N.; BELYKH, L.P. Dressing Lisa,-c7ka ores in a hydrocyclone with a ragn,?t1te suspension. Gor. zhur. no.8:67-70 Ag 164. (AURA 17ilO) 1. Magnitogorskiy gornometallurgielieskiy institut.  SOV/1 24-57- 4-437-1 Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 4, p 67 (USSR) AUTHOR: Varlamov, N.N. TITLE, Kinematic Aspects of the Interaction Between a Vessel and the Deflect- ing Pier Walls (Kinematicheskaya kartina vzaimodeystviya sudna s napravlyayushchim ustroystvam) PERIODICAL: 'fr. Leningr. in-ta inzh. vod. transp., 1955, Nr 22, pp 80-88 ABSTRACT: Two elementary impact problems are examined: 1) An incompletely elastic collision between a body and a stationary rigid surface (impact of a vessel against a barrier); 2) an incompletely elastic collision between two bodies one of which is at rest (impact of a vessel against a pontoon). All computations are elementary and are applications of well-known propositions of the impact theory. A. K. Nikitin Card 1/1  VL~EA~-73'1, !-~. S. VAIRIJUW1, "I. S.- "LnvestiCation of the Effects of the Clearances on t'Te. Ef,-ici,~n,:y of an Encased Turbine Stagze.~' Min of H-avy Machineb~iildinre U5ZR, Central .~ci Res Boiler and Turbine Inst ineni 1. 1. Polzunov (TsXTI), Lenin[-7rad 1955 (Disseetations For Degree o-' Candidate of Technical Sciences) SO: Knizhnayaletopis' No. 26, June 1955, Moscow  VARLAHDV N.S. kandidat tekhnichaskikh nauk. Iffect of axial clearance an stage efficiency. Inargomashino- atroenie no.2:10-15 7 156. (YT-TIA 9:6) (Turbines) J...j :.k  kandidat tekhnichookikh nauk; MARKOV, N.M., kandidat 1"Stekbitheskikh nauk. Some results of the experimental investigation of turbine stages. Sudostroonie 22 no.8:7-10 Ag '56. (MLRA 9:10) (Steam turbines--Testing) t  Mikdp#Llsxly, **.A.,. vARLAmv, N.s. High-speed ma tion-picture photography in investigating proceames and equipment for forging and die stamping. Kuz.-shtam.proizv. 5 no&5.*43-47 NY 163. MULA 16:9)  ~'j V VARLAMOV. N.V., inzhener. Over-all mechanization of quarrying. Avt.dor. 20 no.6:6-7 Je 157. (MIRA 10:10) (Road construction)  VARLAMOV, N.V., inzhener. - - ~.L - - ~.- Faperience in solidifying embankments under field control conditions. Avt.dor*20 no.1110-3.2 -Ta 157; (MMA 100) (Imbankments  VARLAMOV, N.V.-,--.in-zh, Experience In constructing a road earthbed for the Moscow- leningrad Highwaq. Avt.dor. 20 no.11(181):16-19 N '57- (KMA 10:12) (Road construction) (larthwork)  inzh. VAR"CVUI. Necensity for a wore praciam definition of apncifications for noil compaeflon. Avt.dor. 21 no,6~11 Jo 158. NIRA. 12:10) (Soil stabilization) (Road construction)  "AWAMDV*.N-V-, lnzh. Work Of excavator operators 14 5 159. 'n comPOsitO units- Avt. dor. 22 no.g: (larthwork) (KRA 12:12)  ,VARLAMOVP kand. takhn. nauk Using the Ur&l-1 and Minsk-1 electronic computers In planning the organization of road construction. AYt. dar. 28 no.gj22 S 165. (MM 18110)  VARLAMOV, N.Ye. Using the correlative relations between landform elements for the identification of the soils of the Volga-Akhtubinsk floodplain in soil improvement research. Vest. Mosk. un. Ser. 5: geog. 16 no.6: 30-34 N-D 161. (MIRA 14:11) 1. "Yuzhgiprovodkhoz", Rostov-na-Donu. (Volga Valley--Alluvial lands) VARLAMOV, N.Ye. Landform.studies and land reclamation research. Ser, 5: Ge Vest. Mosk. un. 09. 18 no-3:30-32 My-j. -.63. , (NIRA 16:6) lo Yuzhnyy gosudarstvennyy inatitut po proyektirovaniyu vodnogo khOzYa.YBtvap Rostov-na-Donu, (Landforms) (Reclamation of lapd)  VARLAMOV I P.3 I Bl'eaking rock with a three ro-Uer bit. Neft.khoz. 39 no.82,B_20 Ag 161. (Rock drJ-UB) (MM 14:7)  MU-11-R-)v F.S. - Qualitative and q4antitative evaluation of prrcs-ecli'.re according to the data obtained by sampling with a formation tester on a cable. Burenle no.10:29:-33 161 . ("MRA 18:6) 1. Groznenskiy neftyanoy nauebno-iosladovatel'skly institut.  r  8(3) 05416 SOV/107-59-8-36/49 AUTHOR: Varlamov, TITLE: Small-Size Transformers for Transistorized Equipment PERIODICAL: Radio, 1959, Nr 8, pp 46 - 47 (USSR) ABSTRACT: The use of permalloy cores brings about a reduction in the size of transformer dimensions which is im- portant for small-size LF amplifiers built by ama- teurs. The author describes one intermediate and one output transformer giving details of coils and cores. There are 13 diagrams, 1 graph and 1 table. Card 1/1  06276 6(4) SOV/107-59-6-40/50 AUTHOR: Varlamov, R. TITLE: A Transistorized Superheterodyne PERIODIC.IL: Radio, 19.59, ITr 0', pp 48-50 (UQ'SR) ABSTRACT: The author describes a medium wave superheterodyne re- ceiver vrith nine transistors. The sensitivity of the receiver is 1.5-2 millivolts. The output power is 0.2 watts with a 14;j' nonlinear distortion. The circuit diagram of the receiver is shown in FiGure 2. in the r-f sta6e 'Uhree P6V transistors are used. The other stages are composed of P'G transistors. However, transistors FlI may be used in the r-f and i-f stages, while PlV and P2 may be installed in tha LF amplifier. 11 tappedr-coil oscillator with inductive feedback is used in the r-f staGe. Reception of stutions in the 550-1500 kc ran-6-e is achieved by a built-in ferrite antenna or an external -wire antenna which is plugged Card 112  JW 06276 SOV/107-59-6-40/50 A Transistorized Superheterodyne into the antenna socket. The power is provided by four FBS-0.25 batteries. The i-f frequency is 465 kc. The receiver may be installed into a housing of 177 x 88 x 50 mm. There are 1 c-ircuit diagram, 2 diagrams and 1 table. Card 2/2  VARLAHOV, R. , inzh. Condenser made...of razor blades. Mr 160. (Electric capacitors) IUn.tekb. 4 no.3:74-77 (MIRA 13:6)  VABJAA J,-JL-r-4nzh. Tester for semiconductors. Wn.tekhe 4 no.8:46b-Wc Ag '60. (KIRA 13:9) (Transietors-Testing)  9(2), 6(4) S/10?/60/000/04/039/045 D04?/DO06 AUTHOR: Varlamov, R. TITLE: A Two-Plate Plast-~Lc-Pilrn Gapacit=o, PERIODICAL: Radio, 1960, Nr 4, pp 49-52 (USSR) ABSTRACT: This describes two types of tuning capacitors with a film dielectric for use in portable transistor receivers with straight amplifica- tion and for superheterodynes. The single- section capacitor is 13 x 18 x 40 mm, weighs 15 g and has a minimum capacity of 3-4.5 niicro- microfarads and a maximum of 200-400. The two- section capacitor has a minimum capacity of 4-5 micromir-ofarads, a maximum of 200-300 in each section, is 13 x 33 x 40 mm, and weighs 28 g. In both types films of various materials Card 1/4 1-10 microns thick are used as the dielectric.  S/107/60/000/04/039/045 D047/DO06 A Two-Plate Plastic-Film Capacitor The specific capacity values (micromicrofarad/cm2 for these materials and oxide films on aluminium. are shown in a table, with the maximum permissible thickness, which is limited by the mechanical strength. The stator is in the form of a segment with a dielectric covering of one of the given meterials or coated with oxide film and is tight- ly fitted by the rotor, which is tensed by a flat spring. To fix the position of the rotor and stator the device must be fitted into a box with guiding walls. Fig. I shows the capacitor, fig. 2 - how it operates. In the first stage, when there is no contact between rotor and stator, Card 2/4 capacity is determined by the area of the plates  S/107/60/000/04/039/045 D04?/DOO6 A Two-Plate Plastic-Film Capacitor and the air space between them. In the sub- sequent stages, when the rotor approaches the stator and begins to hug it, capacity is determined by the delectric penetrability of the film, its thickness and the contact surface of the plates. The Q-factor for these capa- citors may be identical v ,jith that of the coil. The Q-factor for ceramic~KPK capacitors is considerably higl~e_rthan that of the coil, but the two-plate capacitors described may still be used in receivers and in small-scale portable transistor models particularly. Full instructions are given for making the capaci- tors. Oxidation of the rotor can be done by Card 3/4 amateurs. Aluminium plates (aluminium alloy  S/107/60/000/04/039/045 D047/DO06 A Two-Plate Plastic-Film Capacitor Dl) with a clean surface are scoured with benzine, washed in OP-7 or OP-10 solvent and placed in a solution of oxalic acid (15 g to 0.5 1 of water). Capacitors with a dielectric of paper from KBG-I capacitors may be used for straight amplification receivers only. There is 1 diagram, 4 sets of diagrams, 3 graphs and 1 table. Card 4/4  VARL"OV, R., inzh. Transformer for miniature radio receivers* IUntekh. 4 no.8:56-57 Ag 16o. (MIRA 1319) ' (B.adio-Receivers and reception) (Blectric transformers)  VARLAMOV, R. Rebuilding automobile receivers* Radio no.6:45-46 is '60. (MIRA 13:7) (Radio-ReceiverB and reception)  VARIAMM" R Qz==, Choice of capacitor size. Radio no.lWO-21 D 160. (MM 1411) (Electric capacitors) .4- i I r  VARLANOV. R, inzh. Miniature electronic equipment. IUn.tekh, 5 no.1:33-37 Ja 161. (HIPA 34:5) (Miniature elootronic equipment)  VARLAMOV, R., inzh. Homemade magnetic antenna. IUn.tekh. 5 no.3:74-75 Mr 161. (Radio.-Antennas) Oe RA 14: 6) 1  V OLMOV I R. Home-made photocells. -TUn.tekh. 5 no-4:46-47 Ap 161, 14:3) (photoelectric cells) - 4-IL ~, I ~ . . . - ~ ~,. I- I -  VARLAMJDV.,.R., inzh. "Bionics." IUn.tekh. 5 no.7:17-21 JI 161. (MIM 15: 1) (Biology) (Cybernetics)  I VARIAMOV9 R., inzh. Portable table latbe. IUn.tekh. 7 no.1l.-73 N 162. (KMA 15812) (Lathes)  VARLAYOVP R, Cprrespondence acbool of radio electronics; simple receiver on "Ointo." II[n.tekh. 7 no.4360-62 Ap 163. (MRA 16 (Radio-Receivers and reception)  -TAHLAMOT,-3,3,j-BORISOVA, V.G., red.; NOVOSELITSEVA. 0.N., otv. rod.; SOKOLOTA, Te.T., takhn. red. (Simple transistorized ra"ceivers] Prosteishie priamniki na poluprovodnikakh. Moskva, Izd-vo "Detakii mir." 1961. 1 fold. I. kPrilothenis k zhurnalu "lUnyi tokhnik." no.10(100)) (MIRA 14:5) 1. TSentrallnaya stentsiya yunikh tekhnikov, Moscow. (Transistor radios)  VARLAMOVq_R.Q,j-STAJGWRSK1Y, A.Ye., red.; 110VOSELITSEVA, O.N., otv. red. (Eyeglasses and hearing aid combination) 4'riemnik - ochk-'.. I-,o- skval Izd-vo "Detskii niir,," 1962. 1 fold. 1. (Prilozbenie k zhurnalu "lUrjyi tekhnik.." n0.1(115)) (MIRA 15:2) 2, TSentralinays, stantsiya yunykh tekhnikov,, Moscow. (EYEGLASSES) (BEARING AIDS)  VARLAMOV, R.G.; NOVOSELITSEVA, O.N., otv. red.; STAKMSIM, A.Te., red.; SOKOLOVA., Ye.V., tekhn. rod. [A simple 'Uransistor tester] Prostol tester dUa proverki tranzistorov. Moskva, Izd-vo "Detskii mir," 1962. 1 fold.l. (Prilozhenie k zhurnalu "IUnyi tekhnik," no./+(118)) (MIRA 15:2) 1. TSentra-IInaya stantsiya yunykh tekhnikovs Moscow. (Transistors-Testing)  GUSEV, V.P.; FOMIN, A.V.; KUNYAVSKIY, G.M.; OBICHKIN, Yu.G.; MOWSTOV, Ye.A.; NAZAROV, A.S.; SAYJI"V, M.A.; GREBNEV, A.K.; VARLAIMOV, R.G., retsenzent; D~-AXBITSKIY, L.N., retsenzent; RAKOV;-V.-A., retsenzent; LYUBINOVA, T.M., red.; BELYAYEVA, V.V... tekhn. red. (Calculation of electrical tolerances in radio-electronic apparatus] Raschet elektricheskikh dopuskov radioelektron- noi apparatury. (By) V.P.Gusev i dr. Moskva, "Sovetskee radio," 1963. 366 P. (MIRA -17:1)  ACC NR,___4j4662i649 Monograph Varlamov, Rem Gennadlyevich Packaging of: radio and electronic equipment (Komponovka radio I elektronnoy apparatury) Moscow, Izd-vo "Sovetskoye radio," 1966. 333 p. ilit4so, biblio.,.tables., plates (partly colored) 13,500 copiea prifitedo i I TOPIC'TAGS; packaging machinery, electronic equipment, radio equipment,i naval equipment, microelectronic packaging ,~RdCX090,,A.)a PURPOSE AND COVERAGE: This book Is intended for a wide circle of specialists concerned with packaging of radio and electronic equip- ment. It will also be useful to technical personnel, students at schools of higher education, and qualified radio hums. Packaging problems and the factors which-determine them are discussed# In addition to questions of a general nature, various packaging methods and the fields where their use is expedient are described. The packaging of functional blocks, circuits of various types of radio and electronic equipment, and packaging from an artistic view- I- point are treated in separate chapters. Recommendations are made concerning quality control of packaging operations. TABLE OF-CONTENTS: Foreword -- T Card J/5 UDC: 621.396.001.2:002.72  ACC NR: AM6021849 Ch. 1. General Problems of Packaging 1, Packaging radio and electronic equipment, basic terminology I and definitions -- 11 i 2, Special features of packaging operations at various stages --17! 3. Seri*es of factors determining packaging -- 21 4. The limiting values of...some package characteristics -- 29 Bibliography -- 38 Ch. II, Basic Factors Determining Packaging l.' Useful and spurious parameters of radio and electronic elementsi and goods -- 39 2. Human;operator as a machine" for data processing -- 45 3. Object -- 61 Bibliography -- 68 Ch. III. Methods of Executing Packaging Operations 1. Analytical packaging --.69 2. Nomographic packaging 74 3, Application packaging 78 4. Model packaging -- 81 5. Graphic packaging -- 85 6. Full-scale packaging -- 90 Bibliography ~--- 92 Card  ACC NR.- -AM60218119-- Ch. IV. Packaging Circuits of Functional Blocks 1. General remarks -- 93 2. Wired,functional blocks -_ lo6 3. Printdd-circuit functional blocks -- 119 4. Micro~odule functional blocks -- 133 5. Plane!and volumetric functional microblocks 151 6. Functional blocks vith film elements -- 158 7. Calculation of spurious couplings in the packaging functional blocka -- 175 Bibliography 189 Ch. V. Packaging Unit Circuits, Apparatus and Systems 1. General remarks -- 191 2. Packaging circuits. of portabl.e equipment -- 195 3. Packaging circuits of transportable equipment -- 197 4. Packaging circuits of stationary equipment -- 201 5. Packaging circuits of naval equipment -- 208 6. Packaging circuits of aviation equipment -- 213 7- Packaging circuits of missile radio and electronic equip- ment -~- 217 8. Packaging radio and electronic equipment on space objects -222 9, Evaluation of radio and electronic equipment protection against.1- vibration -- 227 Card J5  ACC NRi M6021849 10. Evaluation of thermal conditions of radio and electronic equipment __ 234 Bibliography 245 Ch, VI, External Packaging of a Ware Taking Into Account Technical Aest'hetic Requirements 1. Special features of the artistic design of radio and elec- tronic'equipment -- 247 2* Sight and visual indicators -- 251 3. Hearing, touch, acoustical, and tactile indicators -- 263 4, Brief characteristic of effectors and the packaging of controls -- 268 5. Problems of shape -- 278 6. Color and functional coloration _- 287 7. Drief historical review of the external aspect of radio and elec- tronic equipment -- 296 . 8. Influence of environment -- 300 Bibliography -- 306 Ch. VII. Qualitative Evaluation of the Packaging of Goods .1. General principles of evaluation -- 308 2. Purely geometric relationships -- 310 3. Functional geometric relationships -- 311  XCC~kI-Am*60:~Y64 4* 'Functional energy relationships -- 315 5. Aesthetic criteria in evaluating packaging quality 316 Bibliography 318 Appendixes --.'320 SUB CODE: 091 SUBM DATE: 06Dec65/ ORIG REF: 081/ OTH REF-. 034. Card  VARLAMOV, R.-Il inzh.; SPERANSKIY, V. king device. Radio no.11:25-27 N f63. Transistorized audio trac (WRA 16:12)  VARIAXOV, !,.J~ - _,. _ A.) Increasing volume in playing phonogrr,-?h records vith a $Xoakvichg receiver. Radio no.12:63 D 154. (MIRA 8:1) (Phonograpb) (Radio-Receivers and reception)  TARASOV, Yu.D., inzh.,- VARLAMVI, S.I., inzh, Technical design and;operation of a large crushing %nd grading plant. Stroi.mat. 9 no.~sl-5 Mr 163. (WRA, 16:4) (Crushed stone industry-Equipment and supplies)  SHELUIN, M.N.,-, FAUK, MYa.; FUNTIKaV, V.Z,; YAMMMO-5.S.; SLINIKO, A.G.; TOIUNOV., VA.; ZAGNIrEV, V.M. Saving of power in a compressor station. Prom.energ.* 17 no*7:6 Jl 162. OUM 15:7) (Compressed air) (compressors)  -1A OR The teaching farm of a school and its planning. Pblitakh. obuch. no,ltlO-19 A 158. (MMA lotl2) 1. Ryazanskiy oblastnoy institut ueovershemAvoTaniya uchiteley. (Byzisan P~rovlnce--Agri culture - btudy and teaching)  VARLAMPY, T.. 1W. Planning school work on a stockbreeding training farm. Folitakh. obuch. no.12:31-36 D 158. (KIRA 11-12) 1. Ryazanskiy oblastuoy institut usovershonstvovaniya uchiteley. Masan -Stock and stock breeding-Study and teaching)  VARLAXDV,-Y,;-- KHOI?3V, B.; SIMSILO, Ye- Geographical conference devoted to satellite towns& Izve AN SSSR.Ser.geoge no-3:162-164 Pf-Je, 160 iMIR& 13:6) (City planning-Congresses)  VARLWOV, V.A. Oar experience in preparing and using an acidophilus broth cultures Vaterinariia 35 no.12:53 D 158. (MIRA 11:12) 1, Zaveduyuehchly Chaplinskoy mezhrayonnoy vatbaklaboratoriyey, Dnepropetrovelcaya oblast'. (Lactobacillus acidophilus) (Calves-Diseases and pests)  VARLAMOV, V. A. Theraf*utic pr-opertie3 ,f feed yeasts, Veterinarlia 41 no.3-63--64 Mr 1640 OMIRA 18,:2) 1, Zaveduyuobchi.y Nikopollskoy veterinarnoy lAboratcrziyey. Dnepropetro7- okays oblaot'.  SOURCE CODE: UR/0240/66/000/010/0059,10062 AU711OR: Varlamov, V. A.; Maksimov, G. V. ORG: Institute of Industrial Hygiene and Occupational Diseases, AM SSSR, Moscow (Institut gigiyeny truda i profzabolevaniy AM SSSR) TITLE: Method for recording pulse and respiration rate visually SOURCE: Gigiyena i sanitariya, no. 10, 1966, 59-62 TOPIC TAGS: heart rate, cardiovascular system, respiratory system, respiratory ratel human physio logy, biometrics, biotelemetry ABSTRACT: A device for recording pulse rate visually is shown in Fig. 1. It consists of - initial and terminal biocurrent amplifiers, power unit, and indicator lamps. The first two components are contained in a case attached to the subject's trunk, while the third is located on the subject's helmet. Cardiac biocurrents"from electrodes attached to the chest enter a three-stage preamplifier with a gain of 1500. The voltage-amplified biocurrents drive a power amplifier stage grounded through relay RES-10 which in turn is connected to the indicator limps. These lamps flash at the same frequency as the pulse rate. Low-frequency (11-15) triodes with a current gain of 40-50 are used in the biocurrent preimplif-fer. To increase the thermal stability of the amplifier in each stage, automatic bias (R2, R41 and R6) has been introduced. input impedance is ensured by emitter resistor R1. Small coupling Lq.rd. 114 UDC: 612.16-F612.216-1-0 7:613.6  ACC NR, AP6034202 .13, J /,y Isom Fcjta. 4,J4 C, /coo U A/ ZOO 0 rz P13 r,. P13 4 P16 i . *.~ Fig. 1. Schematic of a R2 Ax - to V& device for the visual Cj 'M X, 7SY CS JVOO x"'Icar recording of pulse rate- -Z, se 6 7 8 Fig. 2. B a device f recording (respirato 1 - Rubber P tric compo 4 J S contactsi 7 - bracq; Cord 2/4 mechanle  Z 7C 07790-67 :,ACC NRt AP6034202 capacitors manufactured in the "Tesla" factory are used in the anplifier. To pre- i vent parasitic oscillation due to power feedback, decoupling capacitor C4 is in- cluded in the collector of T When using a power source with low internal resis- 3- tance, capacitor C4 is unnecessary. The power amplifier T4 uses a P-16 transistor grounded via the coil of relay P1. The current gain of T4 is 50-60. If a high- gain transistor is used, the sensitivity of the device is increased but its thermal stability is decreased. Of all the circuit components, only the feedback elements require regulation (within 30-200 kohm). The amplifiers are arranged on 35 x 80-mm textolite cloth sections 0.5 mm thick and are situated in a metal housing. The device is powered by two batteries, one of which feeds the initial and terminal amplifiers and the other of which feeds the indicator lamps. A device for visual recording of respiration rate is shown in Fig. 2. It consists of a respiratory sen- sor which converts variations in thoracic excursion during respiration into electrical , signals. The two-way, relay-type sensor (Fig. 2) consists of cuffs with rubber strapsi three contacts with an eccentric component, and a tension cord. The eccentric com- ponent is made out of plastic and is 3 mm thick. The tension cord is made-out of a steel wire with a 0.2-0.5-=i diameter. To prevent breakage of Lhe sensor, a piece of steel wire is used as an arresting mechanism. During inspiration, expansion of the thorax increases the tension of the rubber strap, causing a transfer of force i which rotates the eccentric component. Depending on the angle of rotation, one or two contacts are closed. There are three flexible leads from the relay contacts: The first one in attached to the power source, while the second and third are which in turn are attached to the subject's helrilet or attached to the two lamps , Card _314  ACC NRi AP6034202 clothing. The second pole of power to the lamps leads directly from the bati'au. The lamps and power source are the same as those used for the pulse-rate recorder. Both these devices are portable and they were designed primarily for industrial hygiene operations. Orig. art. has: 2 figures. SUB CODE: 06/ SUBM DATE: 04Feb65/ ORIG REF: 010/ M11 REF: 002/ ATD PRESS:- 5101  L ACC NRt AT6036467 SoURCS CODEt UR/0000/66/000/00010012/0013 AUTHOR: A~nj_A. To I toy I Varlamov, V. F.; Clio rnovLch;: ORG: none TITLEz Experimental investigation of the possibility of cultivating higher plants on a nutrient medium of biological mineraliz-3ra under conditions of a closed gas cycle (paper presented at conference on problems of space medicine hold In Macow from 24-27 May 19663 SOURCE: 14onforentsiya po, problemam kosmichoskoy meditsiny, 1966. Problemy kosmicheskoy maditainy. (Problems of space medicine); materialy konfe.rentail, Moscow, 1966, 12-13 TOPIC TAGS: life support systems closed ecological system, plant physiologyp' photosynthesis, plant metabolism ABSTRACT: The creation of a closed cycle of substances for expetimental ,ecological systems is unthinkable without a stage of recycling human metabolic wastes.' ~n order to transform organic substance~s-Wq-.qjqmerkts1 for mineral feeding_~f~ower and higher autotrophs. Cnrd 1/3  L 08272-67 ACC NR, AT 603 One of the possible and pr 0-mi sing meilio'ds of mineralizing human 0 metabolic wastes is to use aerobic oxidation of organic materials with 'the aid of biocenosis of microorganisms, carried out in a biological -mineralization chamber. At tho present time, the aeration tank ;'(aerotank) as a biological mineralization chamber is highly developed ,from the point of view of both engineering and construction and is quite .useful for conductirg experiments with short closed cycles. In these experiments (the- very first), two linked but contradictory processes were utilized. The first process was the synthesis of organic compounds from inorganic ones using the energy of light (photosynthesis of higher plants). The second process was the biochemical oxidation of organic substances (mineralization of the urine and fecal mixture in the aeration chamber). Higher plants (head cabbage) were grown for a period of twelve days in an open assimilation chamber on a urine-fecal liquid which had been ,mineralized biologically. After this, they were grown under conditions ,of a closed exchange of a gas-air mixture between the assimilation chamber azjd_the_aerationjanX _f9r_p_e~riods,.9f tour and eleven.,4gya.  ACC__t4R ----- --~,T6oj646,f------ During the process ol'biological mineralization, a certain amount of CO gas was extracted from the aeration tank nnd allowed to pass into the assi n milation, chamber with the hierher plants. In tur , oxygen which had been produced by the plants passed into the aeration tank. These experiments with the "assimilation ell amber - aeration tank" system made it possible to establish a practic al gas exchange between higher plants and the biocenosis of mineralizing microorganisms. The experiments also established the possibility of using a mineralized urine-fecal liquid as a nutrient medium for higher plants. In the course of these experiments a somewhat lowered photosynthetic rate was observed. It is assumed that this can be explained by the action of some kind of gaseous micro- admixture s which are metabolites of planets and of activated sludge. Experimentation with short closed cycles of the "assimilation chamber - aeration tank" type showed that they am practical for obtaining information nece ss.;lry_~q;j tb~q creation of closed ecoloocal system.. JW.A.-No. 22; ATI) Report 66-1167 SUB CODE: 06 / SuBm DATEt Mlay66 Card 3/3 --e ;,/Z_  ACCESSION NR,- AP00002719 S/0120163/0001003/0055/0057 AUTHOR: Bobrov, V. D.; Ivarlamov, V. G.; Granhin. Yu. M.: Dolgoshein, B. A.; Kirillov-Ugryumov, Roganov, V. S.; Samoylov, A. V. TITLE: Use of threshold Cerenkov counter for separation of A- and IT-mesons in meson beams SOURCE: Pribory i tekhnika eksperimenta, no. 3, 1963, 55-57 TOPIC TAGS: A-meson separation, threshold Cerenkov counter ABSTRACT- A Cerenkov counter has been used for the separation of A - and n -mesons. The counter consists of a 100-mm cube of polished organic glass 2 mm thick filled wit-. distilled water containing 2-aminonaphthalene-6, 8-disul- fonic acid, which serves as 'the spectrum transformer. This cube is placed inside another cube with walls 4 mm thick. The space of 3 mm bet-veen the cubes is filled with MgO powder. Two FEY-233 photomultipliers connected to a common load are in optical contact with the water radiator. The radiator C,,,j 1/ 3  ACCESSION' NR: AP30027 19 and 'he P~-ofor-nultip.,,er are enc'ose~- -- r, CIlsing wl,,~- ~C-'' Particle passage. A block diagrarn of the arrangement is shovin in Fig. of the Enclosure. A 260-Mev/sec pulsed rneson beam was used in experiment. Resolution time of the coincidence circuits is 5-6 nanosec, and aie efficiency of ant!coinefdence, 99.93%. It was found that the use of the Cerenkov counter makes it possible to reduce the contents of 'n-mesons in a 4-m eson beam by a factor of 10. Orig. art. has: 3 figures. ASSOCIATION: 'ii6ne SUBMITTED: 25Jun62 DATE ACQ: 12Ju163 ENCL: 01 SUB CODE: 00 001 OTHE'R.-,: 001 N0 REF SOV: .Card -2/3 7  ACCESSION HR9 AP30OZ719 M.LDSUZE.- 01 C I M C. C S .!;g# rM M AIC 71g. 1. Location of counter* and block diaV= of electronic cJzcuit A A A Pb - 70 x 70 mm lead collimator; C1 ana G Bain- tillation countors with 0 100 x 10 = plastic scin- Z) ors; C4 80 mm; C - 0 200 x 10 tillat G2 - Uerenkov rid le thick- counter; F a variab ness filters; Ye - 3 g/cm2*ca;9on target; A C variable through AS - amplifiers with gain of 5; cc delay lines; CC - coincidence and anticoincidence circuits; C - coincidence inputs; AC - anticaincidence 3; M - coincidence monitoring circuit; SC scale2 input A4 circuit. SC Card  BOBROV, V.D.; VARLAMOV V.G.; GRASHIN, Yu.M.; DOLGOSHEIN, B.A.; KIRILLOV- UGRYU)40V, V.G.; R Vy V.S;; SAMDYLOV, A.V. Use of a threshold Cherenkov counter in separating /'/ - and 1141 - mesons in meson beams. Prib. i tekh. e4p. 8 no.3:55-57 14y-qe 163. (KUU 160)  L 8 6 142 4- >_3 IJF (C) ACCESSION MR:* EWT(d)/BDS AST)/ESD-3/AFGC PF.-4/Pk-4/Po-4/Pq-4 AP3004,891 8/0120/63/OW/004/0063/1)066 AUMOR: Varlemov oahein, B. A Samoylov, A. V V. 0.1 Grashin. Yu. M.; Dol&. nTIU-. Multichannel coincidence-anticoincideuce circuit SMCE: Prlbory* i tekbnika eksWrimenta, no. 4, 1963,, 63-66 'TOPIC TAGSt multichannel coincidence-anticoincidence circuit, coincidence-anti- coincidence circuit, scintillation counter, particle recording efficiency, coineldence-clrcult dead time, coincidence-pulse rise time ABSTRACT: The coincidence-anticoincidence cirewit shown In Fig. I of Enclow2re has four coincidence and two anticoincideence channals. The coincidence circuits err switched on by corresponding tumblers. The input pulses exe negative with an amplitude of 2 v or higher. The plate current of each coincidenco tube (L1 to L4) ia 20 4amp. The current flowing along the separating diode D, is 15 11amp. The voltage of D is 0 5 v with one open tube and 0.7 v with four open %ubes; consequently, wJh incc*raplete coincidence the maxlm.= pulse emplitude for D3 is 0.2 v. The coincidence pulses separated at D3 P-re amplified by the wide-band stage of tube L5. Diode D5 discriminates the inco--plete coinoidenc*s, wtach then have an amplitude of 1 v or higher. Discrimination reduces the current of L6 'by Card 1/y~_ L  L 14984-63 AMESSION Mt: AP3OM9l approximately 70 to 80%. Four scintillation counters whose scintillatore were 100 = in diameter and 10 mm thick were used to test the circuit. FEU-3 Photo- multipliers were in optical contact with the counters,, the signals of each of which were shaped and amplified by avicb-baacl tvo-steae emplifier. ftperimental results show that the following: 1) at a time resolution of 5 to 8 nanosec, the efficiency of particle recording in four-cycle coincidences is aot lower than 99%; 2) the efficiency of particle anticoincideence recording is 99.95 4.0.01%; 3) coincidence circuit dead time is about 30 nanosec; and 4) output-pulse rise time of the coincidence circuit Is less than 10 nanosec. Orig. aft. has: 5 figures. ASSOCIRTION: Fizicheskiy institut AN SSSR (Physics Institute, AN SSSR SULMIMD: 00 D= ACJ 28Avz63 EWL: 01 NO IM? SM: 000 001 ~SUB CODE: Up SD Card 20t-~  N-k !(7, P V "I T T  ~ t,~4~-J . i~~* ~, . t~l Z:- ~ IR 11 ~~ M, 1-.1 , , 1~ 4,- Oz.- A 7:1~~ z ~ , -, , !    VARLAVO4 V - G- 81069162105100610191027 B10213186 AUMORSo G. T. and M. R. TITLEs Nauchnaya konferentoiya Moskovskogo inshenerno'fivichaskogo Institute cientifio Conference of the Uoscow Engineering Physics IniStitilte) 1962 PERIODiCAM Atommys energiya, v-* 13, noe 69 19629 603 - 606 TEXTa The annual conference took pleat in flay 1962 with more than 400 delegates participating. A review is given of these lectures that are assumed to be of interest for the readers of Atomnaya onargiya. They are followings A. 1. Loypunskiyt future of fast reaotoral A. A. Vasillysvp desIgn of socelerators for suporhigh onorgies'l 1. Ya. Poseranobuk, -,anslyti6Ltyl, unitarity, and asymptotic behavior of strong interactions at high energies; A. B. Uigdal,.ph*nomenological theory for the &any-body probleml Yu.*D. Fiveyekiyq deceleration of medium-enorgy antiprotons in I uatterl Tu. V. Kogan, Ya. A. losilovekly, theory of the Weabsuer effects U. V Ryasanov, thapry of ionisation losses .rn nonhonogentous aedlual Tn. Ivanov, A. A. Rkhad,,, h-f conductivity of-subaritical plasma#  36 8/089/62/013/006/019/027 3102/BI86 Vauchnaya konforentaiya Ye. Yo. Lovetskiy, A. 1. Rukhadze,~: elootromagnotio waves in nonhomogencous plasmal Yu. D. XotoTj I. L. Rozent all, the origin of fast cosmic muonsl A Yu. M. IvanovI muon depolarization' in solids; 0. Varlampy, Yu. M. GrashU4, B. A. Dolgoshein, V. 0. Ki rill ov-Ugryumov, V. Samoylovp p- capture by various nuclei; V. 5. Domidomp V. 0. Kirillov-Ugryumov, A. K. Ponosov# V. P. Protasov, F. It. Sergeyev, soittering of x- mesons at 3 . 15 Mov in a propane bubble chamberl 5. Ya. Nikitin, U. S. Aynutdinov, Ya. U. Selektor, S. U. Zoxbkovskiv, A. F. Grashin, nuon production in it'p Interactional B. A. Dolgoshein' spark chambersl N. 0. Volkov, V. X. Lyapidevskiy, 1. M. Obodolvakiy, study of operation of a convection chamberl K. 0. Finogenov, production of square voltage pulses of high amplitudes; 0. N. Alskmakov, problems of color vision; V. K. Lyapidevokly, relation between nuaber of receivers and number of independent colors# Ye. U. Kudryavtssvg,N. 1. dabolevg W. 1. Tizengausen, L. ff. Tunitskiyv F. S. Faysulov# determination of the moment of electron transition of os-. forces and the widths of the Schuhaso-Rungo bonds of molecular oxygenj B. Ye. Clavrilov, A. V. Zharikov, T. 1. Rojkog' decomposition of the volume charge of intense ion besmal Ye. A. Kraner-ISeyerig *. S. Troshinp measurement of neutron spectral 0. 0. Boroshonko, new methods of fast- noutro rooordiu#l T. 1. Ivanovp dosinstry torainologyl. R.A. Ycionkov,  KOMAROV, V.$.; YM.01MIKO, II.F.; VARJ-Al4DV, V"* - ,,,.3:108-112 Mr Swelling of White Russian claYs- Dokl.AN BSsR 4 (MIRA 13-6) 16o. (White Russia--Clay)  S/08 61/000/021/019/094 B1 02YBI 38 AUTHORS. lomarov, V. S., Yermolenko, N. F., VArlamov V. I. TITLE: Structure and adsorption activily of organic clays PBRIODICAL: Referativnyy zhurnal. Xhimiya, no. 21, 1961, 68p abstract 21B553 (Dokl. AN BSSR, vo 5P no- 3, 1961v 105-106) T~%T: Investigation is made, of the sor.ptive# structural, and other characteristics of a series of aminated organic clays (AOC), prepared on the basis of Georgian askanite gal and Belorussian clays. The CC14 sorption capacity and the specific surface of AOC's were greater than those of natural clays. Substitution of inorganic by organic cations will,obviously, be accompanied by the loceening of the crystalline structure of the clay and by an increase in the sorption potential. There is no essential difference between the shape of the Col sorption isotherms of AOC and th6se'of natural clays. All the sirbants examined belong to the fourth structural type of Xiselev'o classification. Water sorption is 50-751~ that of benzene, due, apparently to the hydrophobic action of the carbon chain of ami.ne. The degree of swelling of AOC in Card 112  S/081/61/000/021/019/094 Structure and adsorption ... B102/B138 water, benzene, acetone, and nitrobenzene is much lower than that of natural clays. I-lbstraoter's note: Complete translation.] i Card 2/2  KMIROV, V.S.; YERMOLENKO, N.F., akademik; VARLAMOV. V.I. Pr,,)duction of a higbly active mechanically strong clay hydroxide adsorbent by means of acid activation of clays. Dolcl. AN SSSR 139 n3.3:665-668 J1 161. . -(KmA 11~: 7) 1. Institut obshchey i neorganicheskV khimii ji?l BSSR. 2. A14 5SSR (for Yermolenko). (Clay) (Adsorbents)  38112 S/020/62/144/002/025/6*' 28 B101/B110 AUTHORS: Komarov, V. S., Yermolenko, N. F., Academician AS BSSR, and Varlamov, V. I. TITLE: Thermocatalytic desulfurization of hydrocarbon fuels on a calcined clay-hydroxide catalyst PERIODICAL: Akademiya niauk SSSR. Doklady, v. 144, no.2, 1962, 406 - 408 TEXT: In view of the planned raise of petroleum production in the Ural- Volga area an inexpensive industrial desulfurization process was developed.~ Ex-jeriments were made with an iron-containing clay-hydroxide catalyst whi& haa been described already earlier.(DAN, 139, no- 3, 665 (1961)). Desulfu-' rization was carried out in a heated glass tube, the air being displaced by N The catalyst was regenerated by blowing air through the tube at 2* 550 - 6000C. Results; (1) 95-7 and 80-3 'i"- S could be removed from gasoline (b.p. 40 - 2000C) containing 0-070 % 5 at fuel-to-catalyst ratios of 2sl and 20:1, respectively. At ratios of 2:1 and 100, 92.4 and 85 - 87 % S, respectively, could be removed from ligroin (b.p. 120 - 2400C) containing 0-146 ~? S. (2) The'catalyst could be regenerated repeatedly. After 20. Card 1/2