SCIENTIFIC ABSTRACT BOGOMOLOV, A. I. - BOGOMOLOV, B. N.

S/08 60/033/012/016/024 A low-temperature catalytic D209YD305 ing of lateral bonds. Unsaturated compounds formed are intermedia- te products in low-temperature cracking reactions and represeni a potential source of methane, naphthene and aromatic hydrocarbons. There are 4 tables and 6 Soviet-bloc references. SUBMITTED; June 14P 1960 Card 3/3  4V AUTHORSi Bogomolov, A. I., Panina, K. I. -9z _:_~ S10811621000102110111.069 .B156/B1O1 TITLEt Low-temperature,catalytic conversions of organic compounds on clay. 11. Conversion of oleimaoid PERIODICALt Referativnyy zhurnal. Khimiya, no. 21, 1962, 134, abstract 21Zh68 (Tr. Vses. neft. n.-i. geologo-razved. in-tai no. 174, ig6it 17 - 25) TEXTt If oleic acid (I) is kept for 10 hra at 2500C in contact with active clay, it undergoes complex transformations resulting in gaseous reaction products, liquid hydrocarbons,*acide, condensation products on the clay, water of dissociation, and acid resins. 'The gaseous products consist mainly of llo*.%olecular-weight saturated and unsaturated hydro- carbons. When experiments were carried oui in a glass vessel, 25% of the volume of gases was Go 2' and CO and H2 were entirely absent; this elimi- nates the conversion of I into CO and H 20 and diolefine as the primary product. The yield of liquid hydrocarbonL is .. 31) % related to I. Of these, 50 % are gasoline and kerosene fractions, and ,,50 % distillate oil 1 4/2  S/08 62/000/021/011/C69 Low-temperature catalytic conversions ... B156YB101 fractions and undistilled residue. The liquid hydrocarbons are a mixture of aromatic, saturated and naphthenic hydrocarbons, the latter predominat- ing. The saturated hydrocarbons are only present in the gasoline and kerosene fractions, while the oil fractions consistg in practice, of aromatic and naphthenic hydrocarbons and mixed hybrid forms of them. A small amount of unsaturated hydrocarbons is found in the gasoline fraction. A method of converting I by cyclizing it into ketones is proposed. By means of subsequent polymerization and hydrogen disproportioning reactions, these ketones can be converted to monocyclic and polycyclic hydrocarbons. For communication I, see RZhKhim, 1960, no. 22, a136- LAbstracter's notes Complete translation.) Card 2/2  BOGOMOLOV, A.I.; PANINAI, K.I. Low-ter-e-ntiirn catalytic eonvorsi.ons of orgar4l- -,I?nrmrdq on clay. Report No. 3~' j,- Trudy VNTGRT no.174:,,26-34 161. (MIPA 14',12) (Beeswax)  BOOOMOLOV, A.1 SMIR140VAp A.I. Catalytic properties of natural clays containing hygro i(II Aure. 82 oiL Trudy VNIMI no.174:54-.60 163.. (KM 14:12 m (Clay) (Catalysis)  BOG%1010V~ A.I.; LYUTKE;VICH, Ye.M4; PANINA, K.I. Petroleums of White Russia* Trudy VNIGRI no.171+.*271-27- '63.o (14IRA 14, iv) (White Russia-Petroleum)  BOGOMOLOV, A.I., red. ---- V, ~ ...... .... [industrializing the assembly of apartment gas equipment) Industrializatsiia montazha vnutrikvartirnogo gazovogo oborudovaniia. Moskvaj Izd-vo M-va kommun.khoz. RSFSR, 1963. 13 P. (MIRA 17:8) 4 1. Russia (2917- R.S.F.5.1i.) Ministerstvo kormunallnogo khozyaystva. Pusko-naladochnoye upravleniye gazovogo kho- zyaystva.  BOGCHOLIOV .A.1 ; RUTINA, K.I.; ANDREYEVA., L.G. . ..... 3 - .. * Characteristics of the chemicil composition of petroleums in the southern Mangyshlak Peninsula. Trudy VNIGRI no.218: 54-61 163. (MIRA 17:3)  BOGOMOLPV,,_,A,,.~,.;,,4TCHENKOV,, S.M. Brief reports on the results of creating new methods and apparatus in the All-Union Petroleum (Scientific Research) Geological Pros- pecting Institute in 1957-1960. Trudy VNIGRI no.212. Geokhim.sbor, no.W13-219 163. OTIRA 16:12)  K11OTYNTSEVA , L. I.;. BOGOMOLOV p_~. [. ; FAYZULLINA , Ye.M. Reduction of high-iwlac- Ir weight aliphatic ketones to hydrocarbons in the presence of aluminosilicate italysts. Do)-'. AN SSSR 155 no. 511l52-1154 AP IN, (MjAA 17:5) 1. Vsesoyaznyy nefty.-moy nauchno-issleJovatellakly geologo raz.- vedochnyy institut. Predstavleno akademikom B.A.Kazarinkim.  BOGQ?40LOV, A.I.; SIMANSKY, V.K. Characteristics of the composition of light methane petroleum hydrocarbons as related to the conditions of their fo-nation. Zhur. prikl. khim. 38 no.10:2377-2379 0 165. (MIRA 18:12) 1. Submitted May 28, 1964.  YUFINP Andrey Pavlovich, prof., doktor tekhn.nauk; BOGOMOIDV, A.I., prof., doktor tekhn.nauk., retsenzent LOV, .A., doktor tekbn.nauk, prof., retsenzent; SMISONOVA, M.T., red. [Hydraulics., hydraulic machinery and hydraulic drive] Gidravlika, gidravlicheskie mashiiW i gidropriNod. Moskva, Vysshaia sbk.:)la, 1965. 426 P. (MIRA 18-.12)  -BOGOMOLOV, PANINA, K.I. Carbazole in the composition of Bogachevka petroleum in Kamchatka., 21hur. prikl. khim. 38 no.7sl635-1636 JI 165. (MIRA 180)  -BOGOMOLOV, Anatoll.y Ivanovich, prof.; MIKIlAYLOV, Y-,Aantin Aleksand16vich.. px~of.'Prinimal uchastiye SHATMI, V.S., kand. tekhn. nauk; UGINCHUS, A.A., prof., doktor tekhn. nauk., retsenzent; KISElEV, P.G., dota., kand. tekhn. naukp retsenzent; ALITSHUL', A.D.9 retsenzent; ODREZKOV, S.S., inzh., nauchn. red. [Hydrai)lics] Gidravlika. Moskva2 Izd-vo lit-ry po t3troit. 1965. 632 p. (MIRA 18:7)  USSR/Cultivated Plants Fodder. 14. Abe JOur : Ref Zhur Biol,,, No 41 1956., 15707 Author : A.M. BQ Inst, Title : Corn Variety Testing at the Benyakonskaya, Experimental Station. (Sortoispytaniye kukuruzy na Denyakonskoy opytnoy stantsii). ')ri(-; Pub : V ab.: Kukuruza v DSSR. Minak., M BSSR, 1957, 114-ilg. Abstract : At the Benyakonakaya Experimental Station in Grodnens- Imya Oblast' corn varieties were tested in field crop rotations. The late ripening varieties Voronezhskaya 16 and the hybrid Moldavskiy I were notable for their yield of total mss. The early variety Sibiryachka did not stand on equal footing with them in its amount of dry matter, its over-all yielding capacity being rather low. Card 1/1  BO' ~7 0 mt, UV9 h I M. USSR/ Cosmochemistry. Geochemistry. I[Ydrochemistry D. Abs JOur : Referat Zhur - Khimiya, No 4, 1957, 11540 Author : Bogomolov A.M., Andreyev P.F. Title ~~r5up(!om~position of Some Petroleum of Northeastern Caucasus and On k New Type of Petroleum Orig Pub Zh. prikl. khimii, 1956, 29, No 6, 957-958 Abstract Discusaion article. See RZhXhim, 1955, 37099 Card 1/1  UZIS.M, 19% (S5)-,--3-9~,36. t;,.!. 7h. hhlm-. -11---,iei, CMZ., NOSCOw), M57, 1,13). WfH;) . The Olsez-fary Is aniWhoed of a tarrY crudo w1th 1; ap&cIlla gr3vlty of 0. 945. n ty Cr 749 CS It %)Vc, Wt.' or r mtion~ vaulp-1 ueioa 3oav. anj Th,~ dI,-,tjllnto cio, jing, b-)3c-,v 550CL, cont~151-, P~~- -7 p ac-rIc-s i-oopwrAp. This grcup i01% f;i:l~. SL ~il:d l.r :P, t ~,-- .7 to ac= of tha South Ettzzk arud,,s Ircia tta Cratr,.LeGus.  BOGOHOLOV, A. M., Cand Agr Sci -- (dise) "Increaa'~~p qualities of ~*eFaeeds*_2~inter__rA." Minsk, 1958. 20 pp (Acad Agr Sci BSSR, I Inat of Agriculture)t 100 copies (KL, 16-58, 121)  ,-BOGqMOWV, AX., inzh.; SIDORCHLM. F.Gv, insh. Making 408.7 meters of driftage in one month. Shakht. stroi. no.12: 23-24 D '59. (MIRA 13:3) l.Trast Krasnoarmeyokshakhtoetroy. (Kine engineering)  --- BOGCKOLOV~ A.M., =whinist By working harder today you wi_U reap more tomorrow. Elek, i tepl, tiaga no.6:8-10 JTe '62. WRA 15:7) 1, Depo I-loakTo,-Sortirovochnaya-Ryazanakaya, (Railroads--Employees)  B0GOMCruOV A,M,; MOROZOVA, I.D.; 091111KINA, N.A.; ROZBOVA, MARCHLNKO, MITASSOVY D.G.; SRAGOVICH, V.G., kand.fiz.-r~qtt-~m.nau~, ut;r~red.; .9 ORLOVA., !.A., red. (Programs in linear algebra.] Programmy po Iineinoi a1gebre. Moskva, 1-96/,. 62 p. (Akademila nauk SSSR. Vychislit-elIny! tsentr. Standartnya i tipovye programmy d2la masbin "Urzal," no.7) (MIRA !&'I)  SOV/112-59-3-5318 Translation from: Reft!rativnyy zhurnal. Elektrotekhnika, 1959, Nr 3, p 146 (USSR) AUTHOR: Bogomolov, A. M. TITLE: Physical Principles of the Electromagnetic Method of Flow Metering (Fizicheskiye o9novy elektromagnitnoge metoda izmereniya techeniy) PERIODICAL: Uch. zap. Leningr. vyssh. inzh. morsk. uch-shche, 1957, Nr 6, pp 73-78 ABSTRACT: The influence of shunting the electrodes by a potentiometer input impedance, of short circuiting the electrodes by steady water layers or by bottom soil, and of wind and water drifts upon the accuracy of measurement of sea-current speeds is examined. Card I I I  KOVNY,R, M.A.; BOGOMOLOT. A.M. Yathod of calculating the oscillation frequency of systems having a periodical structure. Uch.zap. Sar.un. TYP-fiz- 56:ioo-in '57. (MM 12:11) (Benzene)  S/194/61/000/010/048/082 9, ?e-00 D256/D301 AUTHOR: Bo romolov -AX.- TITLE: Two logic diagrams of comparative code-generatiiig method PERIODICAL: Referativnyy zhurnal. Avtomatilca i radioelektronila, no. 10, 1961, 51, abstract 10 V428 (V sb. Nauchno- telthn. konferentsiya molodykh spetsialistov. Vses. n.-i. in-t gidrotekhn. M.-L., Gosenergoizdat, 1959, 88-91) TEXT: In investigating and operating hydro-engineering projects a large number of variable parameters is measured so that a computer is required for analysis of the data. It is proposed applying a digital code for subsequent feeding of the data into the computer immediately at the output of the measuring instruments. The comparative method is considered as the most promising one. Further development of the method leads to two alternative ways of Card 1/2  S/194/61/000/010/048/082 Two logic diagrams... D256/D301 producing the logic system, both suitable for expressing physical parameters in the binary system. ~-Abstracter's note: Complete vra translation2 2$ Card 2/2  it F3 O'D 8/119J60/000/001/002/013 BO19/Bo67 Engineer, Petrov, V. P. , Candidate of AUTHORS: Technical Sciences, and Shchadrina, Ye. N., Engineer TITLE; Constructive Properties in the Use of Printing Tole., Receiver in Digital Measuring Systems PERIODICAL: Priborostroyeniye, 1960, No. 1, PP. 4 - 6 TEXT: This paper deals vith the use of industrially produced digital printing apparatus for remote measurement systems. Good results were obtained by using telegraph xWeivers. The authors discuss block diacrams of digital measuring systems combined with a telegraph receiver. The starting circuit for the telemetric telegraph receiver which is necessary in these oircui$s, is described in detail. Also a diode system is des- cribed which cofiVerts the informations given in the decimal system into the five-place telegraphy code. Furthermore, the authors discuss the circuit of a telemetric device in which an CT-35 (ST-35) apparatus is used as distribu #r. This circuit counts pulses in the places of hundreds, Card 1/2  88998 Constructive Properties in the Use of Printing Telegraph Receivor in Digital Measuring Systems S/119/60/000/001/002/013 B019/BO67 tens, and units. The circuit of a telemetric pick-up with a telegraph transmitter of type T-50 (T-50) is also thoroughly discussed. There are 5 figures and 3 Soviet references. Card 2/2  3'S'boo ~, kooo 16,7900 %/531/60/000/103/003/002 ATJTHORSt Petrov3, V. P.., A. M. Bogomolovt and Ye. I, Shadrina TITLE: Automatic Bridge Telemetering Meteorological Station (ATMS-M) SERIAL: Glevneya goofizichoskaya observatoriya. Trudyt no. 103p 1960v Voprosy razrabotki mateorologicheakikh priborov, 10-31 TEXT: An experimental bridge-type automatic telemetering meteorological station '(mostovaya avtomaticheskaya teleizmeriteltnaya meteorologicheskaya stantsiya -- ATMS-M) has been developed at the Main Geophysical Observatory im. A. I. Voyeykov, lt is covered by author's patent certificate No. 125916, dated 22 May 1959p issued to V. Petrov, A. M. Bogomolov, and Ye. N. Shadrina. It is designed to play a fundamental rol e in the thoroughgoing automation of the national hydrometeorological network, an object regarded by Soviet meteorologists to be of great importance and urgency. The ATMS differs basically from other automatic telemetering stations in that it uses a bridge-type coord.1nating and coding device (mostavoye koordinatno-koclJxuyushcheye ustroystvo - MKKU) , but it also incorporates a number of other significant innova- tions. This version operates on electromechanical principles,, but it could also made contactless. Fig. 1 is a functional diagram of the ATNS. The operations Card V2  Automatic Bridge Telemetering Meteorological S/531/60/000/103/002/002 Station (ATMS-M) involved in automatic measurement, conversion, transmission and relaying of meteoro- logical information are symbolically described. The ATMS consists of seven principal unitst. a univibrator (Fig. 2)j a sweep device for the commutator system (Fig. 3)) the commutator system (Fig. 4); the bridge-type coordinating and coding apparatus (MU) (Fig. 5); the coding network, a sweep reading device (Fig. 9); and a counter (Fig. 10). The layout of the ADIS as a whole is shown in a large foldout (Fig. 7). The function of each unit is briefly described, followed by a description of the sequence of opera- tion of the units. A highly detailed description is provided for the HKO and several other units. Special sections deal with: the coding cycle for the transmission of the readings from the individual measuring instruments; the length of time required for performance of various operations; the accuracy of coding and the reliability of station operation; and the possibilities of automated storage of meteorological in- formation on punched cards. There are 10 references: 8 Soviet, 1 German, and 1 English. /C Gard 2~'2  BOGOROLOV, A.M.; PETROVp V.P.; SHCHADRINAp Te.N. Structural characteristics of the use of a teleprinter in digital measuring system. Priborostroenie no.1:4-6 Ja 161. (KIRA 14:1) (Telemeter)  %~,BDGOMOIDVq A.M._. Micromeier-type indicator with a recording device. Priborostroenie no.3:22 Mr 161. (KMA 24:3) (Electronic instruments) :~-  ANDREYEV, O.B.; BOGOMOLOV,, A.M.j PETROV., V.P, Parametron is a highly reliable member of electronic computers. Priborostroenle no.3&18-20 Mr 962. (MIRA 15 3 4) (Electronic calculating machines)  o -AUTILORS: TITLE: PERIODICAL: S/119/62/000/010/002/003 D201/D308 Bogomolov, A.11. and Petrov, V.P. Devices for digital processing of measurement'data Priborostroyeniye, no. 10, 1962, 11-13 T~DCT: The authors consider a non-lihear analog to digital .data converter for non-monotonic non-linearities and for non-linear- itica having a large-value of the second derivative. The converter ia based on the. appro.,dmation with variable quantization levels and digital storage of the non-linearity data. The converter was used by the authors in an instrument with automa*ti'c non-linearity compen-,- sation and in an automatic telemetering meteorological station (V P Petrov and A.M. Bogomolov. Author's certificate No. 13566, Ilay 19, 1960, Byulleten' izobreteniy, 1961-, no. 2). The device require-s Pwo storage elements, one for the actual values of neasured data andl one for the amplitude of the n-th quantization level. It is stated that tho non-linear analog converter may be used in instruments operating on the principle of voltage-to-digital conversion. For MWd 1/2  Devices for digital S/119/62/000/010/002/003 D201/D308 sampling-type instruments the digital non-linear converters should be used. The block and functional diagrams of a possible version of this converter are given and its operation described. The input and output quantities in this converter are represented by a binary code, the non-linearity data are stored in a memory uni t, the, non- linearity table has 16 columns. If the quantity to be linearized is represented by a pulse sequence, one can use a counting non-lin- car converter in which the non-linearity is introduced by setting the slopes Pf the sections of a piece-wise linear function. This -is done by setting determined values of translation coefficient. The unit urith variable tranalation coefficient ir. a counter -with feedback through the comparison circuit. The code, controlling the translation coefficients is applied to the input of the latter. The circuits are stated to reflect the basic trends in the develop- ment of non-linear converters with digital feeding-in of non-linear data. There are 4 figures. L... Card 2/2  7 777777777777777777777~~ L 3-2247-6,:t wr(a)/BDS/EEC,,2/EED-2 AEDC/AFFTC/ASD/AF~WI'ESD-3/AMI",/APOC/SSD AUTHOR: Bogomolov, A. M& TITLE: Principles of'setting up digital processing devices B/Z71/63/000/004/023/04!; Pn-4/Pq-4 telemetric systems with automatic PERIODICAL: Referativnevy zhurnalp kvtomatika., telemekhanika i vy-chislitelvnaya tekhnika., no, 4., 1963., 61, abstract 4A382 (the Collection Geofiz. priborostr.; Vype llp-Leningrad., Gostoptekhizdat, 1962,, 57-67) M,T: It is pointed out that-the following variant in setting up a measuring process is the most promising: norainear primary measuring apparatus - linear standard - grackated table. Here there is no requirement for unification of measur- ing equipment as regards degree of nonlinearity., while finding the unknovin values from data of the graduated table can be accomplished with the help of a universal computer. The author adduces a structural scheme for the realization of this mea- suring process for the case of centralized gathering of information; for example, in telemetric systems of gas- or oil-pipelines and in telemetric system of auto- matio-mateorological stationse He examines algorithms of the process df graduated processing of information., and block--diagrams for devices for realizing them in cases where the graduated table contains a spectrum of values of the processed Card 2/2  L M47-63 S/M/63/OW/0%/023/045 Principles of setting magnitude corresponding to,their true values; also when the table contains correc- tions relating to whole hundreds of three-digit decimal values of the processed magnitude. In the latter caaetheintermediate-values of the corrections are-inter- polated -and compiled with the value -of the processed magnitude, In the second case,, fewer operations are required for finding the true values,, but the volume 61' record- ing is greater, The tables of,the tx-ae values may be preserved in 45-colu=1 per- forated cards, the author suggests., the cards being filled with up to four tables. The author gives circuits and describes the operation of an automatic tollemetric. meteorological station utilizing the method of graduated information processing. There are five illustrations and a "five-item bibliography, 0, B, ZA-bstracterts note: Complete translatiog Card 2/2  BOGOMOIDV, A.M.; PETROV, V.P. Analysis of the potential uses of the double coding method. Geofiz. prib. no. 12:75-81 162. (MIRA 17:5) 1. Glavnaya geofizicheskaya observatoriya imeni A.I.Voyeykova.  BOGOMOLOVO_,A*M,.j DIMAKSYAN, A.M.; PETROV, V.P. Principles of constructing an automatic hydrological telemetering system, Trudy GGI no.lOlil9-43 163. (MIRA 160) (Hydrometeorology) (Telemeter) (Automatic control)  BOGOMOLOV, A.M. -1 k1gorithms of the measuring process and ways of achieving their constructive realization. Trudy GGI no.loli4J,50 163. %"MIP4 160) (Algorithms) (Automatic contr?1)  BOGOMO Apparatus for digital processing of measurement data. Trudy GGI no.IOL51-55 .1,63. OMIRA 160) (Electronic digital computers)  BOGOHOLOVp A.M.; PETROV,, V.P. Method of double coding and its prospects. Trudy GGI no.101: 56-60 163. (NIRA l6t7) (Electronic digital computers)  KUZNETSOV, A.F.; MW WERONOVA, G.P. t Experimental study of the functional nodes of a processing device of the automatic hydrologic telemetering station. Trudy GGI no.ll5tl4-'62 164. (MIRA 18s9)  BOGOMOIDV A M - designing in the construction y GGI no.115:63-80 164, (MIRA 16:9)  BOGOMMOV, Anatoliy Mikhaylovich; KOROBOV, Boris VI-adimirovich; VINNIKOVA, I.A., red. (Prograrming for the "Ural-211 and "Ural-411 digital cumputer] Prograrmnirovanie dlia W4 "Ural-21, i "Ural-411. Saratovp-ird- vo Sarat~TjkO$QkvVAW-jr--;A965- 48~ P. 18:10)  ACC IRV- Monograph ...Bogomolov Ana khayloViCh, '4'glly.mi 2, Kordbav, Boris Vladimirovich- U - 13VI ~rogT for c -c Ovaniya dlya "d UrLL- -~f%"JectM4 - oyaputers (Programmir,,,,, toV$_.;1zd-vo Saratoirakago. univ 1965.- -Allus.pli printed, digital comput&.! ompluter techniquep computer input unity computer PURPOSEz-AND: COVEPkGE: 7he''book describes tbe'most widely used Soviet electronic com-. re "Ural:4' and "ural-41"and their programming. It is based on work done on the Ural-2" computer at the programing division,of the Computer Center of the Giaratav State University. Particular attention is paid to the use of punched cards its bearers of the Initial information. The book deals with the construction and opera- tion of the individual units,, the representation of the numbers and commiands, the conmand system, programming with punebed-card and punebed-tape Input, programming systems based on the use of standard subroutines, and proofing methods. A special- i7ed method for solving polynomials of one variable, and a specialized interpretUng system for calculations with complex numbers, an index programming system fox- solving problems with complex multiple-step Indexation, linear-algebraic compilation, and various stan-Aard programs are also descrited. The authors thank K. 1. Barbashova. ~YE. S. SelLyestrgya, & M. Mamet2y 7. S. ZYuZIn. M. at lyanov, YU. M. Kogtev, 1. D. Morozova, N. A. Osenlkinas R. 1. Roz V* V. Amel'!*eftq, Card 1/3  L 25582-66 ACC NRi - il~76~8 A, H. YArda .shov YU. P. -Tgk_jarev, atut Y. L. 2Mtign for participating in the work. Cho. 1--VII were written by B. Ve Kordbovs Chs, VIII-MI by A. M. Dogomolarp. and Ch. X was written jointly. The second part or the bookp which contains.a Get of.. programs for numerical metbodep is-cabeduled to be publAshed in 1965, TABL9 OF COWTEMS [abridged): See. I., Plachines 9 Ch,, I* The 'Ural-2 machine - 9 Ch. 11* Programming the Ural-2 computer - 57 Ch. III. Ural-4 computer - - 76 Ch. IV. Programing the Ural-4 compoter LU See. n. Programming system - - 145 Ch. V. Compiling program - - lJ45 Ch. VI. Pr W ams for conversion of 3rambers and calculations of elementary functions 226 Ch. Vn. Auxiliary programs - - 227 See. III. Specialized systems for automtization of programaing - - 321 eh. vin. Specialized interpreting system-polynomial operating program forUral-2 and Urai-4 - 321 Ch - IX *Specialized interpreting system for calculations with complex number 34 Ch. X. Index system for atomatization of programming - - 359 Ch. X1. Specialized compiling system of interpreting type-linear algebraic com- piler - 381 -Cgrd R13   13 c) c~ o m c, I c) USSR/ Physical Chemistry - Lcule. Cheiaical Bond B-4 Abs Jour : Referat Zhur - Khi:niya, No 3, 1957, 7199 Author : Kovner, M.A. and_4*puajjpv, A.M. Title : A General Theory of Vibra REM Spectra of the Normal Monoalkylbenzenen- Orig Pub : Optika i spektroslcopiya, 1956, Vol 1, No 3, 364-373: Correction, ibid, No 8, 1040 Abstract : A riodel with C8 symmetry is used for ethylbenzene. The secular equations for the vibrations symetrical (31) and antisymaetrical (17) to the plEuic of the riug have been set up using the force constanto for benzene and the ethyl group. The latter are luiown for paraffin by- drocarbon. From the solutions of the secular equations the charicteristic and noncharacteristic frequencies of the monoalkylbenzenes have been deterrdned. A complete interpretation of the vibrational spectra of ethylbeilzene and the higher nonoalkylbenzenes (up to C22H38) is Card 1/3 - 22 -  USSR/ Physical Chemistry - Molecule. Chemical Bond. BA Ab5 Jour Referat Zhur - Rhimiya, No 3, 1957, 7199 proposed. In the simplified model the CO I CH2J and CH groups are replaced by points; usiiig his approxi- Qion, an equation is set up giving the dependence of the valence vibrations of C-C on the number of C-C bonds. Non-homogeneities at the end of the carbon chain are ta- ken into account. The calculated frequencies are compa- red with the C-C frequencies observed in the spectra of a large number of monoalkylbenzenes. All these freqaen- cies are included in the range 740-1200 cm7-1. For the calculation of the intensity of these vibrations, a ge- neralized form of the formula obtained by L.I. Vidro and M.V. Vollteiishteyn (Dolh. AN SSSR; 1952, Vol 85, No 6, 1243) for a homogumeous chain is used. Assuming that i - ( _~. 1j...,$ are the derivatives of the polari- zability of'the C-C bond in the direction of the bond and at right angles to it), the relative intensities of the various C-C bond frequencies. DeViations of the Card 2/3 - 23 -  USSR/ Physical Chemistry - Molecule. Chemical Bond. B-4 Abs Jour : Referat Zhur - Xhimiya, No 3, 1957, 7199 observed intensities from the calculated values are ex- plained by the supeiTocaiton of the other frequencies ou the C-C frequencies. In the case of long chains, appre- ciable intensities are observed only for the extreme frequencies at 1200 and 800 em7l. I Card 3/3 - 24 -  XOVM# M*A9; BOGONO-LOVp A*M,a --- Struature and vibmtion spectro of various aromatic h7drooarbons,. Piz. abor. no.3:84-M 157. (KERA 110) 1. Saratovskiy gosudarstvennn univereitot im. NA Ghernymhevakogo. (kvdrooarbone-Spootra)  51-4 --7- 4 / 71 0 AUITJOILS: Kovner, LAT.A. and BoGomolov, A.M. T I i2 M, Vibrational Spectra of ii~kdiic CoLpounds. V. Calculation and Interpretation of Vibrational Spectra of Metaxylene. (Kolebatelln~ya s-Dektry aromaticheskikh so3redineniy. V. Rascklet i interpretatsiya kolebatellnykh sopekturov metaksilola.) PERIODICAL: Optika i Sp ktroskopiya., 1958, 0 VOJ.IV, jTr.3, PP-301-308 (USSR). ABSTIUCT: The authors calculate frequencies of vib3~ations and Eive a full interpretation of vibrational spectra of aetaxylene. Their calculations are based on two variants of the force constants. The variant N`o.l is based on 'the followinL!, values of non-a~tive frequencies B 2u of 0 06: 1110.1648 em--, and for C6D6: 82.5-15?? cm-1. In this variant the force constant for the GCC angles externai to the molecular ring (K y) is taken to be 0.71, and the force constants of interaction of these angles with CCH anL;les of methyl groups (m,,n,) are taken 4%,-o te 0.12 and Card 1/3 - 0o02 respectively. In the -Tariant No.2 the B 2u  5 - 7 i/3C) Vibrational Spectra of AroLyatic Compounds. V. frequencies for C,H and C D are taken to be 0 6 6 6 1152.1310 and 838.1287 cm7l respectively, with KY = 1.10 and m P = n0 = 0. Table I gives the force constants in A 1 symmetry coordinates, and Table 2 gives the force constants in B 1 sylMetry coordinates. The force constants Of interaction of coordinates of methyl groups were taken from R--f-l3- Other force constants are equal to zero. Table 3 collects all Imown experimental data on Ram~-in, infra- red and phosphorescence spectra of Lietaxylene. The same table gives the results of calculations obtained on the basis of the two variants Given above. Both these variants do not apply to A 2 and B 2 vibrations. Some calculations were made using a third variant, which differed from variant No-2 in values of u, (0.12) 0 and r. (- 0.02). The results of (:--clculations based on the third variant did not differ greatly --Pro-- those Card 2/3 of the variant No.2 and are not Given in the paper.  ::z-,- 4 -~_4/30 Vibrational Spectra of Aromatic Compounds. V. The calculations carried out by the present authors Give better agreement between eaTerimental and calculated vibrational frequencies of metaxylene if the variant No.2 is used (with values for the non-active B frequencies taken from Refs.11-12). A note "ac d in ad -1 proof says that the results of the present paper agree vdth those published by Wilmhurst and Bernstein in Canad. J. Chera., V01. 35P911 (1957). There are 3 tables, 1 fiGure and 30 references, 12 of which are Soviet, 6 E'nGlish, 5 American, 4 French, 1 German, I Indian and 1 Danish. ASSOCIjV2ION: Saratov State University. (Saratovskiy gosudarstvennyy universitet.) SUMaTTED: May 21 , 1957~ 1, Cyclic compovmds-Spectra Card 3/3  9(6) SOV/1,9-59-7-12/16 AUTHOM -1-0 ngineer TITLE: A Detecting Device for the Automatic Change-over of the Yeaauring Range of a Bridge Circuit PERIODICALt Priborostroyeniye, 1959, Nr 7, pp 26-27 (USSR) ABSTRACT: In the introduction the necessity of the automatic change-over of the measuring range in numerous measuring instruments is pointed out, and a possible variant of this ciTcuit for an electronic temperature-recording instrument is discussed. If, in thi8 instrument, the quantity to be measured exceeds the measuring range on one or on the other side, contacts are short-circuited and pulses are produced which cause a corre- sponding adjustment of the meaouring range. The automatic ad- justment of the measuring range is carried out by ineans of electromagnets. There are 1 figure and 1 Soviet reference. Card 1/1  67153 AUTRORS Kovner, M.A. and Bogomolov, A.M. SM/51-7-6-7/38 TITLEs Vibrational S actra of Aromatic Compounds. VI. Calculation and Interpretation of the Vibrational Spectra of Orthoxylene PERIODICAL. Optika i. spektroskopi~a, 1959, Vol 7, No 6, pp 751-755 (USSR) ABS TRAC T t By interpretation of the vibrational spectra of orthoxylene (aikylbenzenej the authorr mean carrying out of the following four tasks. (1) Division of the observed fraquencias into fundamental and composite; calculation of those fundamental frequencies which are not observed for various reasons so that a complete system of M-6 fundamental frequencies is obtained (here N is the nunber of atoms); correlation of the fundamental frequencies with irreducible representatione (symmetry typea) of the symaetry group to which tho molecule belongs. (2) Attribution of the fundamental frequencies of a given type of symmetry to vibrAtions of bonds or variations of valence angles, in particular attribution of the fundamental frequencies to vibrationE of the ring and the alkyl groups. (3) Correlation of vibrations (frequencies) of the ring in alkyl benzene with thoso of bonrans. (4) Representation of the composite frequencies as linear combimitions of the fundamental frequencies. In the earlier papers only the tasks Nos I and 4 were C a rd .1//"ij  67153 ,S 0 ~V'/ 51 -7 - 6 -7/3 6 Vibrational Spectra of Aromatic Compounds. VI. Calculation and Interpretation of the Vibrational Spectra of Orthoxylene, carried out completely. The tasks 2 and 3 were only partially fulfilled since the vibration-form coefficients were not known. The present paper reports a complete interpretation Including taskB Z and 3,bocaase the authors could now use the values of the vibration-form coefficients calculated by A.M. Bogomolov for all frequencies of the orthoxylone molecule. These coefficients wer* determined us-in6 a technique developed by Mayants (Ref 1) for obtaining accurate values of the roots of secular equations and a consequent determination of the vibration- form coefficients -which are the eigen-vactors of the secular-equation, matrices. To fulfil tasks 2 ard 3,calculations ivere carried out using two systems of ring vibrational symetry coordinates. (1) a system of coordinates of the approximate symmetry D6h, (Ref 4) and (2) a system of coordinates of the exact symmetry 02v, which are sums and differences of pairs of equivalent coordinates shown in a figure on p 752 and pairs of coordinates of the type ? (displacement of the C--H and C-0, bonds from the plane of the ring) and of the type X (non-planar vibrations of the carbon skeleton of the ring)~ The results are shown in a table on p 753 which lists the observed and calculated furdauental frequencies of Ca rd 2/3 orthoxylene. Cola 2, 5 and 7 give the values of the observed ~r  67153 SOV/51-7-6-7/38 Vibrational Spectra of Aromatic Cotapourds. VI. Calculation and Interpretation of the Vibrational Spectra of Orthoxylene Raman (Refs 13, 16-19), infrared absorption (Refs 20-Z3) andi luminescence (Refs 11, 14) frequencies, respectively. The calculated frequencies are listed in col 6i in the majority of cases the calculated and empirical frequencies agree satisfactorily, The syametries are givon in col 9 and the bondsor valenca angles responsible for the particular frequencies are listed in col 10. Col 11 gives the fraquanciae of benzene corresponding to the appropriate freqAencies of orthoxyl5ne. There are 1 figure, 1 table and 25 references, 11 of ivhich are Soviet, 9 English, 1 Danish, I German, I Indian, I translation and 1 from an international journal. The authors also give a correction to an earlier paper (Rdf 7JO SUMaTTEDs April 10, 195C Card 31/3  - 7w BOGOMOIIOV A.M. 1-==- Vibration spectra of aromatic compounds. Part vibration of 1,, 2 -o-disubstituted benzenes. no*3:322-327 Mr 161. (Aromatic compomds--Speotea) 8* Opt.i (Benzene-Spectra) Characteristic psektr. 10 (MIRA 14:8)  BOGOMOLOV, A.M. Vibrational spectra of aranatic compoundB. Part 12. Characteri,stic vibrations of p-disubstituted benzenea. Opt. i spektr. 12 no.2:186-193 F 162o (MIRA 15:2) (Benzene--Spectra)  BOGOMDLOV A.M. Vibration spectra of - aromatic o=pounds. Part 14. Characteristic vibrations of metasubotituted benzenes. OptA spektr. 13 no*2:159-168 Ag( 162. (MIRA 15:31) Benzene-Spectra)  BOG014ODDVp A.M. Vibrational spectra of aromatic compounds. Part 16. Characteriatio vibrations of 1,2,3-subatituted benzenes. Opt. i i3paktr. 13 no.3031-334 S 162. (MIRA 15:9) (Benzene--Spectra)  SOLCDOVNIK., F.S.; BOGONDLOV A.V.; ZHURAVSKIY, Yu*V.; FROLOV, A.G. Electromagnetic metal sheet distributor. Biul.TSIICH14 no-4:51 161. (MIRA 14:10) (Electromagnets)  ACCESSION NLR: AP4018366 S/0120164/000/001/0061/0068 AUTHOR: Bogomolov, A.Y., Budagov, Yu. Ail Vasilenko, A. T.; Dzhelepov. Y. P D'yakov, N.I.; Ivanov, Y.G.; laadnitskiy, V.S.; Lepilov, V.I.; Lomakin, Yu. F.,, Moskalev, V.I.; Flyagin. V.B.; Shetet, T.I.; ghlyapnikov, P.V. TITLE: Meter -long bubble chamber in a magnetic field SOURCE: Pribory* i tekhnika eksperimenta, no. 1, 1964, 61-68 TOPIC TAGS: bubble chamber, meter long bubble chamber, 10 Gev particle bearn, bubble chamber in magnetic fi.61d, electromagnet bubble chamber ABSTRACT: A bubble chamber with a sensitive volume of 1 ~c 0 - 5 x 0 .38 m is 1 11 described. The chamber is intended for studying the particle beams up to 10 Gev obtained from the OIYaI proton synchrotron. The chamber design was described earlier (Yu. A. Budagov, et al. Iuteinational~Conference on Fligh-Energy Acceleration ~nd Instrumentation, Bc,irkeley, 1960); more deta)ls are supplied in -the present article. Propane or sorrie other lijuid suitable for a particular w4periment may serve as a working fluid. Tfie chamber is placed in a 17-kilo- oersted magnetic field derived from a 2. 200 -kw electromagnet. Thearrorina 1 -0-d 1/2 0310  ACCESSION NR: AP4018366 5-Gev/s -pulse measurement, evaluated from'multiple scattering in propane, is t 3. 216. In 1963, the chamber was inqtalled at the output of the magnetic circuit of. a.~i -meson beam whose energy lies:-,between~ 4 and 7 Gev. "The authors consider it their duty to thank V. N. Sergiyenkq, N. I. rrolov, K. A. Baycher, and the personnel of the experimental shop for their help in building the outfit. The authors are thankful to V. I. Veksler.!.N. L P; lov, and I. V. Chuvilo for their L I 1~v assistance in constructing the magnetic circuit of the I - -meson beam. We are Y indebted to A. S. Strelitsov, B. Ye. Gr*itskov, 1B. V. Rozhdestvenskiy. and L. N. Fedulov for designing and building the magnet. The authors are deeply grateful to N. P. Moshkov, Y. A. Lebede,~,, and S' P. Zurdn who spent much effort and skill in all stages of constructing and aligning the outfit. " Orig. art. has: 8 figures. I' ASSOCIATION: Obl'yedinenny*y instit~ut yaderay*kh issledovaniy (Joint Institute oi Nuclear Studi a) e SUBMITTED: ZZMar63 DATEIACQ: ISMar64 ENCL: 00 `SUB CODE: NS NO REF SOV: 003 OTHER: 002 Card- 2/2  BOGOMOLOV~ B. (Maj., Engr.) and STEPAROV, V. (Capt., Engr.) "Laying and maintenance of metal coverings," The Herald of the Air Fleet, 1952.  UZIMROVA, Yelena Dmitriyevnal- NIKOIAYEVI Aleksey Petrovich; AIENDERp I&Zop inzh,, red.; -BOGQMP~~__P.A., red.; PLWHE, L.Yu.p tekbn.red. [German-Russian dictionary on woodworking) Nemetako-russkii slovarl po derevoobrabotke. Pod red. I.Z.Alendera. Moskva,, Glav.redoinostr.raucbno-tekhn.olovarei Fizmatgiza, 1962. 215 P. (KIRA 15:5) (Woodwork-Dictionaries) (German language-Dictionaries--Russian)  GRABDVI Isaak Naumovich; AKKERMANy D.A., red.; BARANOV, A.M., red.; J30GOMOIA)V, B.A., red.; GUSEV, N.P., red.; MURONETS, I.L., re . - PUCAgERAk Y-A, L.L., red.; KRYUCHKOVA, V*Noj tekhn, red, [German-Russian dictionary on welding] Vemetako-russkii slovarl po avarke. Moskvap Glav.red.inostr. nauchno-tekhn.slovarei Fizmatgiza, 1962. 2/+6 p. (MIRA 3-5:7) (German language-Dictionaries-Russian) (Welding-Dictionaries)  BUNIN, Dmitriy Anatollyevich; SHUBIN. ],,-,to3-iy Alekseyevich; BOGOMDWV, B.A.9 red.; AKML,Ali~., I,Sh.., tekhn. red. (Concise German-Russian dictioliary on automatic and remote control]Kratkii nemetsko-rusakii slovarl po avtomatike i telemekhanike. Moskv&j. Glav.red.inostr.nauchno-teklm.slova- rei Fizmatgizaj 1962o 531 pe (MIRA 15:9) (German language-Dictionaries-Russian language) (Automatic control-Dictionaries) (Remote control-Dictionarios)  BOGOMOLOV, B.A., red.; BARANOV, A.M., red.; HURONETS, I.Lp red.; ~.~w N.P., red.; PANKIN, A.V., red.; VACHAYEVA, Z.P., red.-leksikograf; VILENSKIffA, O.V., red.1-leksigogr.; ARTEMOV, L.V., red.-loksikogr.; YEREMINA, N.N., mlad. red.; VANSOVSKAYA, L.Ye., mlad. red.; CHEKRYZHOV, P.F., spets.red.; PLAKSHE, L.Yu., tekhn. red. [German-Russian polytechnical dictionary] Nemetsko-russkil politekhnichoskii slovarl. Podfptovleno pri redaktsionnom uchastii izdatellstva "Tekhnika" GDR. Moskva, Glavnaia red. inostranrikh'nauchno-tekhn. slovarei Fizmatgiza, 1963. 812 p. (MIRA 17:1)  ALEKSANDROVA, M.A.; ASINOVSKIY, E.I.; BALANDD', V.V.; BRODYANSKIYp V.M., kand. tekhn. nauk; VAKHRAMINEVA, Ye.A.; VERBA, M.I.) kand. tekhn. nauk; VORONIE', T.A., kand. tekhn. nauk; GIRSHFELID, V.Ya., kand. tekhn. nauk; DEYCH, M.Ye., prof. doktor tekhn. nauk; IVIN, F.A.; LAPSHIN, M.I., kand. tekhn. nauk; LIPOV, Yu.M.,, kand. tekhn. nauk; LYUBARSKAYA, A.F.; MAYAPUENKO, I.D.; HIRIMOVA, V.M.; NEVLER, S.Ye.; ROZANOV, K.A.2 kand. tekhn. nauk; ROTACH, V.Ya., kand. tekhn. nauk; KHKELINITSKIYt R.Z., kand. tekhn. nauk; ShEVCHENKO, E.G.; BOGOMOLOV, B.A., red.; VAYNSHTEYN, K.N., spets. red.; LidliA-, spets. red. [German-Russian heat engineering dictionary] Nemetsko- russkii teplotekhnicheakii slovar'. Moskvap Sovetskaia entsiklopediia, 1964. 512 p. (MIRA 18:1) 1. Moscow. Energetichaskiy institut. 2. Moskovskiy energe- ticheskiy institut (for all except Vaynshteynf Lichak).  UWE/Chemistry - Nopinfte Apr k9_ Chemistry - Turpentines) NopinenO of "Beta-Pinene of Sulfate and Oleoresin Turpen- tineig," B. D. Bogcmolow, A. A.- Sokolova, Arch- azgel Inst of Forest Tech imeui V. V., Mqbysher, 4 pp "Dok Ak Nauk SSSIR" Vol LXV, No 4 Zetablishes that beta-pinene of sulfate turpen- tine is levorotatory ard is identical vith beta- pinene of oleoresin turpentine. Mistaken as- sertion of Aschan, Halse and Dedichen on the 40 41/4933 WSIR/Cbeemist--y - Nopinene (Contd) Apr 49 gresence of d-beta-pinene in sulfate turpentine resulted from use of careless rectification. Submitted by Aca(I A. N. Nesmeyanar, 29 Jan 49. Ift 41AM  Dwa."or-ov, B, t1jr,01"Ment of ft Jhoda of collecting !Ot~ ~1. and U 12Md2LWd A. A, Solr- - From IM-6, fpw- 0. N.-3- T, 111r. 400.; cf. i7l". 45, 2910hi-- M.1'.)nIts 0 10911UM condensation i the recovery of sulfate tur-' pentine and Sulfan (a tuixt. of readily volatile arc. Scompds. of disagreeable odor) from the waste products Of sulfate Pulp PfOductlW Kredescribed. About 8-10 kg. turpentine b~!!Ty from I (on of cellul  1. BOOOMOTOV,- B. D. SOKOtOVA A-*' 2. USSR (600) 4o Lignin 79 Alkaline sulphate lignino Bu.m.prom. 27 no. 9 1952 go Monthly List of Russain Acceasionsp Library of Congressp FObruary 1953. Unelassif -led.- -  DUXI,01.01,f, D. D. , SCTOLOVII , A. A. Sulfur Cr[ranic Compounds Production and properties of sulfane. Bum. prom. 28, No. 1953. Yonthly List of Russian Accessions, Library of Co~Vress June 19-53- UIICL. 9  3166' Suffalt- Q,4)ij-Anirojs For~Aw4 Mrij,K F-d _511L siboilft'nits r) 4 1111bliin') B, a Ham 44 odcw ul ulfav p0ping by d-imaluislg )IOA of vtll)jjW)1wth ~oo Qod) lar it# d~~-Wrn"- m wwownwrv ref.  Vk,., of p ft, -P A. A. kol D!t is 1?_ -ushcv". ,.it V. W. 1,c Blimath, duction directions L"atil for mills wldch du wit havt frac- vcm I': up tile I lit 11,0, filt"Ing. 'g Cl , tr t out tilt soup, Liad treating W101 If'so. to team kritfined tall oil (11). which is washed. dried, unit used lit wap usailakfarturt. Tile bLack 11" front tile 1'settling tanks Is mated with kite Nacl 11ironj the salling-out &,:cp, anti 11he lulkst. is irculfA with = the NaHS0,NviSO,11gum solo. front tile purified Scrap deWtnpn. Step to KlVe a lignin, plit., which is totpel. asid witished. 77he w1m. of ligii in front '. 1. tit -"Its. requite 1206. z. NallSOs. For a plant prcithiciag 30U tons per day of kmf lilt it yiclJ of 00 kg. I per ton of palls, the 10P Nat I Ing be dmirillim ol tile sisap is 3.5 to" q1day, which i4millicient to givc 2 Was (if lit:nin IK!r dA Y~ je yivhl C4 11110111 &ill-Itcalro I was 15"'~ higher 0, in the yicldt)f 11 from crijilc I,aml lvii 1IZh04 iv.1% used In Ilse coovvrkJ,,n of ifit, mial, to trill oil. ~timj? Inclul, from 60% Animal fats nut, tilli 'Al %;i$ toottil it) have tMEdlent detcrKvitt, vioOsifiv %fimi, wid Imm --taliffity prop- joho I.-A, Kv.~V~ 77  USSR /themical Technology. Chemical Products 1-27 and Their Application Wood chemistry products. Cellulose and its manufacture. Paper. Abs Jour: Referat Zhur - Khimiya, No 9, 1957, 32682 Author : Bogomolov B.D. Inst : Leningrad Academy of Wood Technology Title : -Some Problems of the Chemism of Sulfate and Soda Cooking of Cellulose Orig Pub: Tr. Leningr. lesotekhn. akad., 1956, No 75j 173-182 Abstract: To determine the chemism of wood delignification a study was made of lignins (I) obtained as a result of sulfate- and soda-, rapid and slow, Card IA  USSR /themical Technology. Chemical Products ~'07 and Their Application Wood chemistry products. Cellulose and its manufacture. Paper. Abs Jour: Referat Zhur - Khimiya, No 9, 1957, 32682 and multistage cooking of spruce and pine wood. The carboxyl group content of I was determined by Ca acetate sorption, the suTmative content of carboxyls and phenolic hydroxyls by sorption of Ba(OH)2, and the content of phenolic hydroxyls -- by difrerence. A parallel study of copper- ammonia I and alkali sulfate I showed that in the process of sulfate cookini there are formed carboxyl groups, acidic OH, and a portion of the methoxyls is split off with formation of methyl- sulfur compounds and methanol; splitting off of methoxyls increases with increasing temperature of the cooking. In multistage cooking an increase C ard 2A  USSR /themical Technology. Chemical Products 1-27 and Their Application Wood chemistry products. Cellulose and its manufacture. Paper. Abs Jour: Referat Zhur - Khimiya, No 9, 1957, 32682 of the temperature brings about an increase of the summative content of COOH, phemol and enol OH and a decrease of the methoxyl content of I as the cooking progresses; the latter is con- firmed by vanillin yields obtained from samples of I at different stages of the cooking. With incFease of the sulfide content of the cooking liquor the S-content of I increases. Card 3/~  MI BOGOMOLOV, B.D., kand.tekhn.nauk; MLINIKOV, S.F., inzh.; KARABAKOV. F.F., - VIM. Woodpulp and paper industry of ArchAngel Province. Bumeprom. 32 no.11:23-27 N 157- (MIRA 11: 1) (Archangel Province--Paper industry) (Archangel Province--Woodpulp industry)  AUTHORS. Soholova, A. A., Bo o.012v C";- 7- to Z;0V1'-156 /52 Krupkina, F. A., Fr-odsHy, G. S., Afnna,;Iyeva, i". V. TITLE: Alkaline Lignin as Initial Substance for the Production of Plastics (Shchelochnoy lic,,nin kah syrlye dlya proizvodstva plasticheskikh mass) PERIODICAL: 11auclinyye doklady vysshey shkoly, Khimi,' ~a i khinicheskaya. tel:hnolo,liya, 1958, Hr 3, pp. 556 - 55p, (uso) ADSTRACT: Alkaline lignin represents a valuable startinC material for tile production of plastics, since it contains reactive groups, The authors prepared samples and determined the technical data as well as the physical and chemical properties of products of alkaline lignin. The optimum method for the prodiiction of phenol-li,rnin formaldehyde resin was determined. Based on inves- tieations on the phygico-chemical and electric properties of the pressed samples the following optima mixture was worl-ed out: phenol 100 parts, liGnin 100 parts, formaldehyde 17 Parts, sulfuric acid 2 parts. By using this forDula in the production of phenol lignin formaldehyde resins about 50i-;~ phenol and 40"0' formaldehyde can be saved. The stability of all-ttline liGnin in Card 1/2 storing for 2 years was investi,,,-ated and the results obtained  Alkaline Lignin as Initial Substance for the SOV/156- 53- 3-4o/52 Production of Plastics showed that the alkaline lignin is cubjected to a chnn'-e of its structure, with the formation of acid -roupn ard an of tile OX3- groups. There -ire 2 tables and 2 referei-.ces, I which are Soviet. ASSOC2XVION: Wedxa jl'i~a-nicherlzoy khimii i khimii drovessiny Arkhangel'skojo lesotekhnicheskoeo institut.a (Chair of Orjanic Chemistry and Cellulose Chemistry at the ArkhanL~)ellnk Wood- Technical Institute) SUBUTTED: February 15, 1958 Card 2/2  BCG-OHOIDV. B.D.; MIZAROVSKIY, N.V. Improve the preparation of hydrolysis raw material at lumber mills, Gidroliz. i lasokhim. prom. 11 no.2tl3-14 158. (MIRA 110) 1. Arkhangel'sk17 lasotakhnicheskiy institut. (Wood waste) (Hydrolysis)  VERSHUK, Vasiliy Iosifovich, starshiy nauchnyy sotrudnik; GURICH, Nina Aleksandrovna, kand.tekhn.nauk. Prinimla uchastlye ZARAKOVSKATA. A.1., nauchnyy sotradnik. BOGOROLOV, B.D., red.; SARKATSKATA, G.I., red.izd-va; PAHAKHINk,-V.M-.,-te-M-.-re-d. (Methods of the analysis of raw materials and products of the wood resin and turpentine industry] Hatody analiza syrlia i produktov kanifolino-skipidarnogo proizvodstva; prakticheskoe rukovodstvo dlia rabotnikov khimiohaskikh laboratorii i otdelov takhn1oheskogo kontrolia. Moskva, Goolosbumlzdat, 1960, 190 p. (MIRA 13:9) 1. TSentralinyy nauchno-issladovatellskiy lesokhimicheakiy institut (for Zarokovskaya). (Oums and resins) (Tarpentine)  BOGOMOLOV, B.D., kand.tekhn.nauk; GRCBUNOVA, O.F., Inzh- Cymene as a valuable product of the sulfite pulp production. Bum-prom. 35 no.9:9-11 S 160. (MIRA 13:9) 1. Arkhangellekly losotekhnichookly institute (Cymens) (Woodpulp industry-By-products)  BOGOMOLOV,, B*D.,- DOROKHINA, I.S.; KLIMENKOV, V.S. Using dimethyl "ide derivetives in the produetion of fibers on the basis of'acrylouitrile and its copolymers. KMn.volok. no.2:14-16 162. (MM 15.-,4) 1e Arkhangel'skiy loootekhaicheakly institut (for BogomDlov). 2, Vaesoyuznyy nauchno-isoledovateltakiy institut iskasstvemogo volokna (for Dorokbina., Klimenkov). (Sulfide) (Textile fibers, Synthetic) (Aorylonitrile)  KIRPICHIGXOV, P.A.; CHUMAKOV, N.S.; BOGONOLOV, B.D.; MOSKVA.. V.V. Certain methods for improving the technological properties of artificial leather. Trudy KKETI no*26:23-31 159. (MBA 150) (Inather, Artificial)  BOGOMOLOV, Boris DmitLAZ&vich SOKOLOVA, Aleksandra Aleksandrovna,- j ____-__GORDDN, L.V., red.; KHOTIKOVA, Ye.S., red.1zd-va; VDDVINA, V.M., tekhn. red. . .. [By-products of sulfate pulp manufacture; chemistry and technology] Pobochnye produkty sullfatno-tselliuloznogo proizvodstval khimiia I tekhnologiia. Moskva, Goalesbura- izdatp 1962. 432 p. (MIRA 16:5) (Woodpulp Industry--By-products)  SMOLENSKIY, K.I., red.; XCLOMEYER, V.Z., teklm. red.; SHENDAREVA, L.V., tekhn. red,; BDGOMOLOV, B.D.0 red. (Fiberboar,d]Drevesno-voloknistye plity; trudy. Pod red. B.D. Bogomolova. Moskva, TSent4biuro takhn. Informataii bu- mazhnoi i derevoobrabaty"iuahchei promyshl 1961. 121 p. im'IRA 16:4) 1. VaeBoyuzzaya sauchno-takhnicheakaya konferentsiya po pro- izvodstvu i primessaiyu dr*vesno-voloknistykh materialov i pla8tikov. Archangel, (Hardboard)  -ACC' N* Ri AP7002541 r,4). SOURCE CODE : UR/0413/66/000/023/0017/0017 INVENTOR: Lazaryants, E. G.; Ivanova, A. I.; Kopylov, Ye. P.;.RogQPiP_1_0v1 13, D. ; Bugrov, V. Pi; Pisarenko, A. P. ; Rubina,' S. 1. ; Chudakov, M. I. Kosmodemlyanskly, L. V.; Yemellyanov, D. P.; Tsaylingolld, V. I. ORG: none TITLE: Method of obtaining active lignin. Class 12, No. 188966 SOURCE: Izobretentya, promyshlennyye obraztsyi tovarnyye znaki, no. 23, 1966, 17 i. TOPIC TAGS: rubber, active lignin, lignin, organic solvent, rubber chemical ABSTRACT: This Author Certificate introduces a method of preparing active lignin by treatment with alkali. To increase the reinforr.-ing properties of the lignin when it is introduced into rubber in the dry state, -an alkali solution of the lignin is treated with water-soluble organic solvents such as alcohols, ketone, and rosin soap precipitated with an acid In the finely disperse state and then dried. [Translation) [NTJ SUB CODE: 07/SUBM DATE: 17Feb64/ Card 1 /1 UDC: 547.992.3-188.07  BOGOMOLOV, B. N., Cand Tech Sci -- WSS) "Research into fosterite refractory materials as fettling material for the sintering zone in rotating furnaces in the cement industry." Moscow, 1959. 31 pp; including the cover; (Ministry of Higher,FAucation USSR, Moscow Order of Lenin Chemical Technology Inst im. D. I. Mendeleyev); 200 copies; price not given; (KL, 17-60, 151)  15(2) AUTHORS3 Budnikov, P. P., Bogomolov, B. K. SOV/131-59-6-6/15 TITLEs The Role of Periclase in Forsterite Refractories Products (Roll periklaza v forateritovykh ogneuporaxh) PERIODICAL3 Ogneupory, 1959, Nr 6, pp 263-267 (USSR) ABSTRACTs Inthe present article, the authors examine the influence of MgO-surplus in forsterite refractories products with regard to their interaction with cement clinkers of various mineralogical compositions. The chemical compositions of fire-proof foraterite products of the works "Magnezit" is given in table 1, that of the clinkers used for this purpose can be seen in table 2. Table 3 gives the heating conditions of the specimens, and figure I shows the test specimens. The figures 2, 3, 4, and 5 show periclase in various forms. Conclu I= Perialase represents the part of forsterite refractories products with the highest reactivity. There are 7 figures, 3 tables, and 5 Soviet references. ASSOCIITION3 Xhimiko-tekhnologicheskiy institut im. Mendeleyeva Card 1/1 (Chemical Technological Institute imeni Mendeleyev),IiIITsement  15.2200 75b5 SOVXO-,32-10-2/51 AUTHORS: Budnikov, P. P., Bogomolov, B. N. TITLEi Fosterite Titanium-Containing Refractories PERIODICAL: Zhurnal priuadnoy khimii, 1959, Vol 32, Nr 10, pp 2139-2148 (USSR) ABSTRACT: This is a study of minimum periclase-content fosterite refractories with preservation of their valuable prop- ertieB and improvement of their thermal properties. Valuable properties include: good refractory prop- erties, high temperature of deformation under load, low thermal conduattvityo tendency to form strong and denjSe coatings' and cement-clinker resistance. Periclase saturation with clinker components weakens refractory structure. Two types of batches were prepared: those containing 0-20% "MK" brand MgO, and those with a 0.5-4% technical T102 content. The batches were mixed in a laborator ball mill, moistened with sulfite-alcohol slops ~1.24 g/cm3 mix), and formed. The bricks were dried at 1250 and burned at 1,6500. The effect of TIO and free Card 1/7 periclase content is shown in Figs. 1 ang 2 .  Fosterite Titanium-Containing Refractories 75653 SOV/80-32-10-2/51 im fie _4Uj 140 NO W V8 110 -IM F$~ Fig. 1. Propertle~; of f9sterite refractories with diffe,,ent ~'%.O content: (A) -.t.-e, .~.th I l; B) porosity (%); (C) t, g~=3); (D) the-iral Sluabilit"": E MgO content (;v); (1) strength; (2) norosity; 13) density; (4) thermal staullit... Card 2/7  Fosterite Titanium-Containing Refractories 7565 SOMO-32-10-2/51 Fig. 2. Properties of fosterite. titanium-containing refractories: (A) StrenSth (kg/cm2);*(B) orosity (%); (C) density (g/OM3~ thermal stability; (E) T102 M content (%),; MgO content (%): (1) 0; (2 (3) 10,' (4) 20. Card 3/7  Posterite Titanium-Containing Refractories 75653 SOV/80-32-10-2/51 Card 4/-l Study of microstructure and phase composition by X- rays with a URS-501 unit showed fostet-Ite concr(~tlons Jr. ail cases. Effect of MgO content: 0% porous struc- ture; 5%, appearance of magnesite and glass fori-iiation; > 10% MgO, In addition to monticellite, hemat1te, magr netite, free pariclase, and an unidentified MgO-con- taining crystal appear, and the%Magnofercite content in increased. Effect of TtO : 0.5 , traces of' MG titanato;, 1 to 2%, appqarance of mogticellite'and Mg t1tanates, improved fosterite concretion; 4%, Mg titanate dendritcut, increase and magnetite crystals cause cracks in the concretion. Clinker resistance: a portland cement clinker from the "Gigant" ("Giant") Plant, containitit, (in %): C3 S, 52 3; C S,- 21.2; C?~, 11 3; C Ar, 11.b; MgO, 3. * 0.6 (Absttacte s node: Kis is the 4; CaS041 I way these,contents are given in the original.) was the reagent. Results: 0-5% MgO, negligible interaction with clinker; 20% MgO, surface formation of magnetite, monticellite, and pyroxenes, periclase grain dispersion;  Fostei~ite Titanium.-Containing Refractories 75653 SOV/80-32-10-2/51 0% T102, magnetite and pyvoxene formation; 1 to 2% T1021 formation of monticellite and magnesium t1tanates. To study the effect of mix particle size, the samples given in Fig. 2 were compounded, moistened with sulfite- alcohol slops (1.243 g/cm3) and molded In a PG-100 press at 850 kg/cM2. Table It shows the effect of particle size on.the.proper-ties of these refractories. Conclusions: refractories containing 5-7% periclase and 1-2% T102 are dense, and highly heat-, and clinkev- resistant. Those with up to 2% T102 are suitable for use as cement rotary-kiln lining. Presence of more than 10% MgO lowers clinker resistance. Uzberg, A. I.: Faynerman, B. A., and Mitrokhina, N. S., took part in the experiment: There are 7 tables; 6 figures; and 9 Soviet references. SUBMITTED: April 22, 1.959 Card 5/7  Fosterite Titanium-Containing Refractories 75653 SOV/180-32-16-2/51 cumulative screen analysis CLe SIZ PART CUMULATIVE FRACTION RETAiNVO I E (IN mrn) 0.6 is 20 to 65 too 5 is 20 60 100 - 10 25 b5 IOD 4 30 70 WO CONTROL 5 55 1 too Table 2. card 6/7  Fosterite Titanium-Containing Refractories 756br, sov~8o-32-10-2/51 Table 4 Properties of fosterite refractories of various partlc15 sizes in the batch SHRiNKACRE oh 0 BATCH %n ;~ I W r t Z 0 V, 0.W r CC Z 0 -A Z x te -C 1 2.627 1.24 1.48 1 Flo 28.5 Z35 12.0 2 .2.610 1.10 1.32 148 29A 2.35 12.4 3 2.592 1.68 1.57 1.50 28.6 Z38 IZ2 MAGNE31A 4 2.601 1.84 L33 202 28.2 Z38 I" 13% DUNiTf , 4LEIWCG- 71. C a 1 .640 S .64 200 27.2 2,30 11.4 , "AGN951 A 2 2.618 1.36 1.95 212 28.0 Z39 11.7 1% (av lwy.)T10 3 2.628 f J1.5 1.34 2.57 27.6 Z40 i L5 2 4 2.60:1 2.28 2.18 288 27.9 2.41 11.8 1009tNNITIE 1 2.019 1 11 , I'to(O WDYST102 1 2 3. 2.62:1 2.608 1 1.30 4 2.676 3.30 ard 7/7 LONTROL OAT C M: ?5x OUHI-Tr., 15t CALE114t0- rAfAMESIA ptw urc" J 2.695 , 1.43 17 28.3 2.38 H-8 1:48 178 M 2.39 U.0 IM 203 29.4 2.37 12A 1.02 286 27.5 2.4f 11A 1.22 233 25.8 2.47 10-S