SCIENTIFIC ABSTRACT KHARITONOV, D.F. - KHARITONOV, I.B.

POSTNIXOV, T.S.; KHARITONOV, D.F., KOMAROVA, N.P.; EC-L.Y.A.Yii-NA., M.A. ........ PtLrification of city vaste water in high blofi-Iterj. Nauch. 0 trudy AKKH no.20.23--39 163. (MIRA 18~12)  c on pt  KIIAEUTOI-IOV, D. Tower biofilters. Zhil.-kom, khoz. 12 no.4:35 Ap 162. (MIRA 15-7) (Filters and filtration)  " Ra MU ITSEV, A.M.; ARYjIIPOVA, Ye.G.; MAKEROV, Yu.V.; K-UPUT04"'U., D.G.;.DOBROVOLISKAYA, L.N.; POTAYChUK, M.S.; VCHO:;OVA, -~.P.; BELOVI V.P.j RZEEPLIIISKIY, G.V., nauchn. red., ROSHCHINA, V.V.p red.; URKH, I.M., tekhn. red. [Basic characteristics of the hydrology of the Atlantic Ocean] Osnovnya cherty gidrologii Atlantichenkogo Okearia. Pod red. A.F..Muromtseva. Moskvat Gidroreteoizdnt, 1963. 835 P. _[Atlas of vertical cross sectionp and maps of temperature, salinity, density and oxygen cor.pasition] Pri- lozhenie no.2. Atlas vertikallrqkh razrozov i kart tempera- tury, solenosti, plotnosti i soderzhaniia kisloroda. 182 p. (EIRA 17:3) 1. Moscow. Gosudarstvennyy okeanograficheskiy in,,;tjtui.  -. 1~1. vWM-r~ I, rl. 1,1. F, nf-, on, I t): s-pn-n of' A f-ricli I tunn! Tlanf ~ In th- 11-rthern, N!on-bhack So'! Ar-a oP Siate Nblishers of Arricultural I-Iterature, 1'-?4?, 12~ pp- 4~. 4. 4 Y52 go: Sim q1-1'7)-53, 15 Tl,-,c 1953  KRARIS)NOV, D.M., Wonom-entomalog. Improve plant protection exhibits. Nauka i pered. op. v sellkhoz. no.10:40-41 0 '56. (MLRA 9:12) (Plants, Protection of--Bxhibitions)  -*URjTOX-QyO_-V,M ,figronom-entomolog "Pests of field crops In the Southeast" by K.P,Grivanovp L,Z, Zakharov. Reviewed by D.M.Kharitonov. Zashch.rast.ot vred.i bol. 5 no.7s6O-61 Jl 160. (MIRA 16s1) (Russia, Southern-Field crops-Diseases and pests) (Grivar.ov, K.P.) (Zakharov, L.Z,)  KACHALOVAp Z.P., kand. sellkhoz. nauk;,KNARITONOV, D.M. Prinimali uchastiye: MAMAYEV, K.A., agronom; NIKIFORDV, A.M., agromm; CHELYSHKIN, Yu.G., red.; DEYEVA, VA, tekhn. red. [Controlling pests and diseases of field crops] Bor'ba a vre- diteliami i bolezniami polevykb kulltur. Moskva, Sellkhoz- izdat, 1963. 207 p. (MIRA 16:5) (Field crops-Diseases and pests)  -KMITONDVO-- D.Ye. -, Now species of Brachythele from Georgia. Soob. AN Gruz.SSR 9 no.2: 135-139 '48- (MLRA, 9: 7) 1.Akudemiya nauk GAizinskey SSR, Zoologichaskiv institut, Tbilisi. (Georgia--Spiders)  IWAIV PAVUSKIT, Te.N., akademik, redaktor; VISOGRADOV, B.S.. redaktor; ARNOLIDI, L.V.; BBT-BIYANKO, G.Ta.; BORKHSZNIUS. N.B.-, VINOGRADOV. B.6.; GUTSAVICH, A.V.; ZIRICHENKO, A.N.; XIRITANOVA, Te.S.; KOZHANCHIKOV, I.V.;i LMMVA, B.G.; LIKHARET, I.M.; NA13VICH, I.I.; MOVIKOV, G.A.; POPOV, V.V.'t POPOVA, A.N.; SOCHAVA, V.B.: STARK, V.I.; TIERNTOYET, P.Y.; MWITONOV, D.Yq.,; CHWRNOV, V~B.; SHAPOSHRIKOV, Golh.; SHTAKILIBXRG, A.A.; TUDN' ,._i A. LAnimal life of the U.S.S.R.] Zhivotnyi air SSSR. Vol.4 LForest sonaJ Leanala zona. Koskya, Isd-vo Akademii nauk SSSR, 1953. 737 P. (KLBA 7:3) (Forest fauna) (zoology)  KHARITONOV, D.Ye. New repreaentative of the genus Letrodectus (Letrodectus pallidus O.P.Gambr. subap. pavlovskii N.) from Turkmenistan. Zool.zhur- 33 no.2: 480-485 Kr-Ap 154. (HLRA 70) 1. lafedra zoologil besposvonochnyich Holotovskogo goandaretvannogo universiteta im. A.M.Gorikogo. (Turkmenistan--S~iders) (Spiders-Turkmenistan)  KHARITONOV, D.Te. Rare spider member of the genus Ladrodectus Walck. (Aranea) from Turkmania. Trudy Zoole Inst. 18:243-247 155. (MLRA 9:2) (Turkmenistan-Spiders)  KHARITO!L, D - OWjLe.WWMW Now opiliones from Korea [with summar7 in English]. Zool.zhur. 36 no.9:1417-1420 S '57. (MIRA 10:10) l.Kafedra zoologii beepozvonochnykh Molotovskogo gosudaretvennogo universiteta. (Korea-Arachnida)  lriov I:_- 26(5) 7 SO11/32-25-7 .6/50 AUTHORS; Za3lavskiy, F. Ya., Xharitonov, E. V. TITLE: Pattern for the Determination oi the Coordinates of Error3 in Ultrasonic Control of Steel Parts With Prismatic Feeler Gauges (Shablon dlya opredeleniya koordinat defektov pri ul'tra- zvukovom kontrole stalinykh detaley prizmaticheskimi shchupami) PERIODICAL: Zavodskaya laboratoriya, 1959, Vol 25, lir 7, pp 883-884 (USSR) ABSTRACT: A special pattern was worked out by which the coordinat95 of the detected material defects in connection with the method mentioned in the title can be determined without immediate calculation at the control position. The pattern is a steel or brass triangle ABC (Fig 1); the angle CAB equals 900 - a (a - the angle between the normal with regard to the metal surface and the axis of the ultrasonic ray penetrating the metal) (Fig 2). The pattern shows a mm-ooordinato syster.; the hypotenuse a micron arrangement corresponding to the distances of the passage of ultrasonics as far as the material defect. If reflected ultrasonics is used the position of the material defect is determined by an equation. There are Card 1/1  KRaITONOV, F. Municipal Services - Astrakhan Province Work of municipal enterprises in district centers. Zhil.-kom.khoz. 2 no. 5. 1952. 9. Monthly List 2f Russian Accessions, Library of Congress, SApttmbAr 191-1, Uncl.  AUTHORS: .TITLE.- PERIODICAL: ABSTRACT: Card 1/ 3 11ellnichenko, L. C., Kharitonov, F. Ya. 72-58--5-6/18 Accelerating the Glaos-Melting Process by Activating the Charge (Uskoreniye protsessa varki atekla putem aktivizataii shikhty) Steklo i Keramika, 1958, Nr 5, pp 18-21 (USSR) In laboratory experiments the meltability of the charge was investigated, the latter having been activated by addition3, fine crushing, briquetting, as well as by combining the mentioned methods. The experiments were carried out with soda and soda sulfate charges of industrial glass as currently produced, The composition of the charge and the preparation are described in detail. The melting velocity was investigated for 8 different kinds of charges, namely: the usual, the usual with additions, the usual briquetted, the usual with additions of the briquetted one, the vibroground, the vibro- ground with additions, the vibroground briquetted, and the vibroground with additions of briquetted one. The coefficient of melting acceleration as compared to the usual charge was taken as a criterion of the meltability of the activated charges, In tables I and 2 the results are mentioned. The  Accelerating the Glasu-Melting Process by Activating the 72-58--5-6/18 Charge velocity of the formation of glass was determined according to the somehow changed method by A. P. Zak and is further described. In table 3 the effect of the single activation factors on the meltability is represented. The following charges proved to be best with regard to their experimental results: the vibroground with additions briquetted; the vibroground with additions, or the vibroground briquetted respectively. As a fine crushing is at present not possible at industrial Bealee the briquetting of the usual coarsely grained charge with additions should be introduced in glass factories. As can be seen from earlier papers as well as from the experiments of the Institute for Glass a common addition of 0,5% fluor spar and 0,75% boron anhydride essentially acoelerates the melting process. It is useful to take comb-4ned additions (0.% CaF2 + 0.75% B20 ). The technology of the activated ciiarge preparation shKld be adapted to the individual factory factors. The activation of the charge makos it possible to increase the output of the furnaces, to drop the melting temperature and to reduce the C ard 2/ 3 fuel consumption, as well as to reduce the content of  Accelerating the Glase-Melting Process by Activating the 72-58-5-5/18 Charge alkalies in glass. Besides, the properties of t1le products can be improved and the melts of high-melting types of,glass can be made easier. Also the operation duration of ash furnaces is prolonged this way. Note by the editor: The final consequences regarding this method can be drawn on practical experience of the factories only. There are 3 tables. ASSOCIATION: Kharlkovskiy politekhnicheskiy institut imeni V. 1. Lenina (Kharikov Folytechnical Institute imeni V. I. Lenin) AVAILABLE: Library of Congress 1. Glass--Production 2. Glass--Processing 3. Glass--Test methods Card 3/3  15(2) SOV/72-60--l-7/17 AUTHOR: Kharitonov. F. Ya. TITLE: Determining the Optimum Granulation of Aluminous Material in the Glass Formationj~ PERIODICAL: Steklo i keramika, 1960, Ur 1, pp 18-.21 (TJSSR) ABSTRACT: The available methods of separating the SiO 2 not having passed full reaction from the glass by means of fluosilic and hydrofluorio acids (Repa, Danillchenko, Botvinkin, Shpillkov) require a special apparatus, as rell a3 much time and energy. To investigate these processes thoroughly, the author used C0 the method of measuring the flsnolution velocities of parti- cles of SIO2 (in the form of natural sand) of a certain sizet He uses equation (1) which is shown in fi(;ure 1. The dependence ot the dissolution velocity on the particle diameter can be expressed by equation (3) according to Ya. I. Frenkell. The petrographic point niethod for a quantitative determination of minerals on ground sections, as recommended by A. A. Glagolev, was used by 0, K. Botvinkin for estimating the lass-formation Card 1/2 rate. Besides, the author recommends equations ?5) and (6)  SOV/72-60-1-7/17 Determining the Optimum Granulation of Aluminous Material in the Glass Formation for determining the rate of growth of particles in dependence on their size. The solubility of sand in a silicate melt at 14000 in the course of 1 and 3 hours was represented according to the method developed by the author. Figure 3 shows the pre- sence of optimum particle diameters (0.2 - 0.4 mm). The use of quartzeand of such granulation permits an intensification of the glass-formation processes. There are 3 figures. Card 2/2  KHARITONOV, F.Ya., inzh.; MELINIGIENKO, L.G., kand. tekhn. nauk Some kinetic principles of the glass forming process. Stek. I ker. 20 no.7:5-8 J1 163. (MIRA 17t2) 1. Gosudarstvennyy issledovatel.'skiy elektrokeramicheskiy institut (for Kharitonov). 2. Kharlkovskiy politekhnicheskiy institut (for Mellnichenko).  ACCESSION NR: AP4039019 S/0072/64/000/005/0025/0029 didate AUTHORS: Kharitonov, F.Ya. (Engineer); Kostyukov N.S. (Can riit-a-r-zci-ences-y-"-SMirnova, T.M. (Enginearl of tech TITLE: Thermoplastic properties and sintering behavior of ceramic electric insulators SOURCE: Steklo i keramika, no. 5, 1964, 25-29 TOPIC TAGS: sintering, porcelai~j steatite, viscosity, surface tension pore size, thermoplastic propertys electric insulator, ceramic'insulator ABSTRACT: Excluding the effects of the external factors, the durability of ceramic insulators is*dependent on the physicals, technical, electric and mechanical characteristics of the material. These characteristics depend to a great extent on the degree of sintering of the ceramic material. This work is concerned with the factors and regularities which govern the degree of 3intering. Sintering is accompanied by the formation of closee pores in a vis- cous silicate malt. Bubbles of gas in such a melt are affected by surfage tension and intermolecular attraction forces. The relation- Card  ACCESSION NR: AP4039019 ship between these forces determines the mean time of the existence of a bubble in the melt. The investigated materials were one steatite -- composition TK-21 -- and two porcelains -- M-23 and M-Z-A.-- which are close in composition to industrial materials and two porcelains -- MG-12-ch and MG-12-Zv -- which differed by a high- er content of silica. The viscosity of these materials was deter- mined dynamically and statically. The viscosity is lowered as well as the change of viscosity with an increase in the rate of heatings Since the surface tension changes only 4 - 6 dynes/cm when'the temperature is increased-100 - 150C, then at the same duration of baking, but with decrease of viscosity by two orders of magnitude (during overbaking), the size of pores increases also by two orders of magnitude. Thus, 'increase of temperature is accompanied by a 1 sharp decrease in viscosity due to the increase of pore sizes Simllar effects may be observed in the presence of temperatur; grad-'I ients in the furnace during the baking of large size insulators, i Increase of the duration in the maximum temperature zone and the prose nce of vandium and chromium oxides in the batoh,oauso analogous effects. Orig. art. haa: 4,,tables, 4 figures and 14 equations. i Card 2/1'  ACCESSION NR: AP4039019 ASSOCIATION: Gosudarstvenn auchno-issledovateltskiy elektroker- y a-michezkiy institut L-GIEK State Scientific Research Institute of Electrical. Insulation Ceramics) SUBMITTED: 00 DATE ACQ: 10Jun64 ENGL: 00 SUB CODE: HT NR REF SOV: 005 OTHER: 001 Card  - ~ - ~rl - - - -- -- - - - - ,T : - -1, " 7 ' J~-~ I ll'z - .-- ~~ I , -   - - A-d- - T ~ -- . - - -- - - +~~ ---~Trf~ ---- , , , - I- - I., I- - - - - - -171-f` i -t:1 la.A..b "Ralm  - I' I - - - .11 - - - :!~;! q-i=am ts 1eterm, I I-,jr,l 'hil ! , ~ ~ " , ~ -1. ~ 4 ~% r I . - -- . 1 '.1 . I - , (-~'l -  m ;11~ -1, - *.I , I- I ~', , I v . . I I ~ I .?; - -1 - - ~ - i 7L'-. - - - - - I - -- - - - ~ - -~, -1 -1 r  - I I T, Lj-- --- v ~ a Alum,-- it 7:)r iar~w, , . .1 1.11 -:,h -,"! !-r  GOUIH-71, B,11,.; ',JA5II,'YF.VA, G.A.., KALITIN, FlH,AT-'ITC4N('V "-'~Yl~ 0 1 Technology of mnnufacture and propirtims of electrl--- condw~torr 'rom cortin~iun microlLte operatIng in cori,oilve media at high and pressures. Teplofiz. vya. temp. 3 no.2,260-265 Mr-Ap 165 (MIRA 18.7) 1. NRuchrio-issledovatollskiy institut vysoki~h temperatur, Moskva.  FiTT)NIKOV, r.P. -I MA7VFYFV, M-.A, , KEARITONOT. F.Ya. . Ii , of water ani hjgh~.tomper%tlire stean.1 with ceramic materialts containing r-r,7,.nJum and mull--*te,. 1 zv. MI SSSR. Neorg, mat. I no.6~:431-93r Je '65. ( ml EA. 18 ~ 8 ) j I 1~ iris~,itiC, 'Llren! 141. W~Ilkio;loyt~vfl.  IEVZTER) doktor t(Ahn. nauk; KHMITONOV, F.Ya., inzh. Rooistance of ceramic materialn to the Influence of water and steam of high temperatures and presnures. Stek,,~ ker. 22 no.li 18-22 Ja 165. (MA 18:7) 1. Gosudarstvonnyy nauchno-iisladovatellokLy elektrokera,-..Ii- chaskiy institut.  BUDNIKOVP P.P.; PAVEYEV, M.A.; KHARITOTIOV, F.Ya. i Effect of water and Adgh-parameter steam on str-actural ci~ramic materials. Fiz.-khim. mekh. mat. 1 no.2:225-210 '65. (11M, 18-6) 1. Moskovskiy ordena Lenina khimiko-tekhtiolof,,Lc~,-:),,~kii, institut imeni D.I. Mendeleyeva, Moskva.  KBI'tit itrr"NOV, . F I T'a.. J, I 117,h. ; :,IL 'NIGHENF.0, L7- ~',. , karel .nauk Irive5tiOting th-.~ glass halih clarl r.~catlorl ". -,k. i ker. 22 n-).9:21,)-32 '21 1 S5 . *~:-" ! ii. At 18 : q ) 1. GcL;tAarjtvennyy Ijkly institut (for Flaritonov). 2. !n- atitut (for Mollrilchetiko~ ~e  'D/, EVIP(e) Vrr(rr,)/ETC(F)/Etr-(M)/EIT'("-'/E?iP(b) !JP i TGAT/VJ'H 12059- A "I AUU Nit: A.FbUU1301 SOMICE CODE- AUTHOR: Budnikov, P. P.; Matveyev-,- M. A.; ~jtnovskjv,.__~% K.; 10mritonov, F. Ya. ORG: Moscow Chemical Engineering Institute im. D. 1. klendelfL~v (Moskovskiy Winiko- teklinotogicheskty institut) TITLE: Sintering and accumulative recrystallization of-6-n-ectroscovically pure magnesium oxide containing haffm dioxide T j SOURCE: AN SSSR. Izvestiya. Neorganicheskiye materialy, v. 1, no. 8, 1965, 1349-1353 TOPIC TAGS: magnesium oxide, crystallization, hafnium oxide, sintering ABSTRACT: Accumulative recrvatallizatiorAvas studied in Its purest form, i.e., during sintering of high-purity oxide, when no liquid phase or inclusions of other phases are present, and the quantity of impurities and defects due te deviations from stoichiometry caused by interaction with the ambient gaseous medium does not exceed the concentration of inherent thermal defects of the oxide lattice. These conditions are fulfilled in the case of spectroscopically pure MgO and Its mixtures with small and precisely known quantities of Card 1/2 UDC 546:46.666.3  .L 12059-66 ACC NR: AP6001301 certain cations, for example, hafnium (0. 25% HfO? was added). It is shown that the addition of hafnium considerably affects the course of both the sintering and the accumulative recrys- tallization. The latter and the compaction of the ceramic were found to be closely related. In order to obtain a very fine-grained but dense ceramic, the conditions of preparation mid aintering of the samples shotold be such as te promote a decrease in the surface energy and in the gram-atomic volume of the single crystal of the original material. Orig. art. has: 5 figures and 11 formulas. SUB CODE-,11, 20 SUBM DATE: 07Apr65 ORIG REF: 006 OTH REF- 004 P~ Card 2/2  KHARITONGV, F.Ya. Kinetica of the recryq~~lizatlon of corundum. Ogneupory 311 no.1:53-58 166. (MIRA 1931) 1. Gosudarstvennyy nauchno-issledovatellskiy elektrokerami.- clieskiy institut.  SMIRNOVA, T.M., inzh.; ZAKHARGV, P.P., inzh.; KW7YUKCV, N.S., kand. tekhns nauk;,KHARITONOV, F.U., kand, takhn, nauk Deformation of ceramic products under the effect of their own weight during firing. Stek.iker. 22 no.10:33-35 0 165. (MIRA 18:12) 1, Gosudarstyenrqy nauchno-IssladovatollskLy, elektrokerazicbeskiy iTwtitut"  L22285-66 EWT(m'1/W(*)/EWP(t) IJP(c) WH/JD ACC NR, -AP6007264 CA) UR1036316676WdW6_~j~~1646;~ AUTHOR: Matveyov, M.A.; Hatveyev, G.M. 10FG: Moscow Chemico-Technological Institute kovsKly khlmlko-tekhnologleheskly Insti Kharitonov F.Ya. im. D.I. Mende!Ayev (Hos- ~en,gth of ceramics'made of pure TITLE: SIT 1) 'idea ox SOURCE: AN SSSR. Izvestiya. Neorganicheeklye materialy, 395-402 v.2, no.2, 1 TOPIC TiGS: ceramic rial., inorGa oxide, high temperature strength ",&+~AMMCA_ ju IV, C 4. , - eA JA: ADIMM: The article d1'sc6q1=e pra tical applications of the relation- ship between the thermal and mechanical characteristics of ceramic mat- erials. An extensixe table lists the structural, mechanical, and thermo. .phZ~Llcal propertlatd~'-of a large number of ceramics Taade of pure highly re, fractory oxides. The comparativoly low stren-th of Indnstrial ceramic materials Is duo -to the non-uniformity of the Ir structure--the presence of non-un1formly distributed imporfect crystalline structures (disloca- tions, voids, foreign atoms)-and of the grain boundaries, and to Indus- trial defects (pores, chemical non-homogeneity, etc.). This leads to a drop in the energy capacity of ceramics as a result of the non-homogene- ous character of the absorption of energy by different volumetric 1"..ater- ials. irom a comparinou of the strength of monocrystalline oxides and Monocrystalline aggreirates of these oxides, vie can see that the greater Card UDO: 666  L-22285-66 ACC NRs AP6007264 the strength of the bonds of the crystalline lattice, the greater the divergen-ce between the strength of a single cryetal and that or the oxide in the polyorystalline state. This permits the conclusion that the relative effect of the structural factor on strength decreases with a decrease in the apecific energy capacity of the material. The optimum ,structural state of a given material Is a structure which will assure ;the greatest uniformity In 'the absorption of energy by the crystalline ',lattice in the process of deformation of the ceramic material. Orig. !art. has: 10 formulas and I table. ORIG REF: 01 I 100/ SU BM DATE: 04Mayq5/ Card 2/ 2 nst OTH REF: 007  6,00883 SbURC ODE: 'UR/0294/615/00i/001/0115/9)J9 i AUTHOR: Kolosova, H. I.; Kharitonov, F. Ya ; TsArlina. G. Knotyukov, 5 _-Vo I u e v ORG! Scientific Research Institute of High Temperatures (Nauchno- ii3sledc;v--a-t-e-l-'7k-i-y--Tn-s-Eitut vysokikh _U_etFpiTr_d_t_U_rj_____ TITLE! Testing the qtability -of corundum ceramics in li-al-Lid- SOURCE: Teplofizika vysokikh temperatur, v. 4, no. 1. 1966, 115-119 TOPIC TAGS: corundum ceramic , ceramics corrosion, liquid corrocion, potassium sodiun, alloy, liquid alloy ABSTRACT: Three corundum-base materials GB-7 (97,09% A1203, 0.92X 6-.- M i c. ro 11 te " SiO2, 0.06; '0.90% CaO, 0.92% B 03, OjX Na20)1 1~7 also 'e '32V?(,9.34% A12.03, 0-0 Z SiOl, ~fj 0) known as T.11~1 0.03Z CaO and A-1'%")(9~_.74Al_2_03v 0.05% SiO2, 0-08 1190- 0-10 I'a2O) bave been tented for-i7h.ar behavior Lit liquid po tass lum-s odium alloy. The apeciriens were prepared from fJ.nely ground powders mixed with thermosettIng resins by lict pressure casting and two-step firing. The total content of bonding agent after first firing did not exceed 1%. GB-7 showed a 20% strength drop in preliminary tests at 400C. The specimens of Hicrolit Is Card  L 2o649-66 ACC NR, AP6008834 and A-1, 6-7 mm long,were held In sodium-potassium alloy at 700C for 400 hr. Both materials showed a water absorption of 0.03-0.04%, an open porosity of 0.12-0.14%, a bend strength drop of IOZ,and a weight lose of less than 0, 1%. Both 111crolite and A-1 can be used for corrosion-re9istantle-parts for prolonged operation in sodium-potassium alloy at 700C. Such parts are precently undergoing testing in this alloy under dynamic conditions. Orig. art. has: 3 tables. (Wv] SUB CODE: II/ SUBH DATE: 220ct64/ ORIG REPS 012/ OTH REFt 003 ATD PRESS: 41,2-Zil Card 212  --L 2002-66 TJ 1-'(c JD/JG/AT,(~Wil ACC NR- AP6011351 _C11170 0-0-0/0-0137008UW9-5----~ SOURCE Cdb7f.-- -2-267667 AUTHOR: Budnikov, P. P.; F. Ya. Kharitonov ORG: Moscow Institute of Chemical Technology im. MendeleyftV, (Moskov- skiy k6fm MCE-Ue-kfifiologicheskiy Institut) TITLE: SOURCE: Methods for increasing the strength of refractory compounds Poroshko-,1,ftya metallurglya, no. 3, 1966, 88-95 TOPIC TAGS: crystal structure, crystal lattice, material failure, refractory compound . ABSTRACT: The authors prove a known analogy between the absorption of energy by the crystgj 1 4-4-4-- or a refractory material during mechanical loading up to 18and during heating up to complete fusion. Considerations of the power capacity of the material up to ita failure of the dependence of the power capacity on the degree of perfection of the crystal structure lead to the notion of improvement of structure by various mechanical, thermal, and other factors for the utilization of a large reserve of strength of the materials from Its practical o Its theoretical value. Qr1g. art. has: 5 f0mulfis and 1 table. [Based on author's abstractj AM] SUB CODE: 110 20/ SUBM DATE: 08jan66/ ORIG REF: 026/ OTH REP: 0( Card 1/1 Pit)  L 3oo96-66 EWP(QZgnjdj/EWT 1q_W_E1JPLe)ZE_LT~JwY_EWp(v) lip(c) _~MYNT166 - 034_~. 1 _ I - L SOURCE CODE: UR/0072/66/000/005/0031/0 ACC NR, AP601:65~i9 (A) AUTHOR: Kharitonoyl,,F. Ya. (Engineer); Kalitin, P. P. (Engineer) ORG: Kharitonov] S"te Scientific Research Electroceramics Institute edovatej:'~i_kiy i-l-ekt micheskiy institut); [Ka in (Gosudarstvennyy nauchno-issledovate rokera lit Moscow Combine of Hard Alloys (Moskovskiy kombinat tverdykh splavov) TITLE: Properties of compacted and slip-cas corundum microlite SOURCE: Steklo i keramika, no. 5, 1966, 31-34 TOPIC TAGS: corundum_ml-o~~~ microlite, ABSTRACT: The properties of corundum microlite articles produced by compacting or slip casting have been compared. Compacts were obtained by mixing corundum microlite powder .(99.4% aluminum oxide, 0.5 - 0.7% magnesium oxide, and 0.03-0.05Z iror oxide) with a particle size below 2 V with a 4.5% solution of rubber in gasoline and . The slip for casting was made by mixing compacting under a pressure of 500 kg/cm2 corundum microlite powder with 0. 5-1. 0% each oleic ac1d ard wax and 13.0-14.5% paraf f in. 1 The slip was cast at 60-70C under an air pressure of 3.5-4 atm and held for 30-40 see. Compacted and slip-cast specimens were sintered at 17~OC for 30 inin and furnace cooled to room temperature for 48 hr. The physicomechanical properties of articles produced by both methods were roughly identical: density 3.98 g/cm3 IL-Card 1/2 UDC: 666.23.2  ACC NRj AP6016929 coefficient of 2, shrinkage 1.20-1.30, bend strength 3300-3600 kg/cm impact strength 4.0-5.0 kg-cm/cm2, thermal shock resistance 180C, electric resistance at 100C >2-1014 ohm/cm, specific breakdown voltage 26-28 kv/mm. However, slip casting, has one great advantage; it can be used for complex-shaped articles such as thin-wall cylindrical or conisal shells. Orig. art. has: 3 figures and 3 tables. [AZI q'~? VP SUB CODE: ll/ SUBM DATE: none/ ORIG REF: 006/ ATD PRESS:6'a/-~' Card 2/2 PPJ :  L 2M4-66 EWP(e)/EWT(,m "N9 ALA; VA: Arbull.326 kA SOURCE CODE: UR/0363/66/002/003/0568/0573 /V AUTHOR: Pevzner, R. L.; 6haritonov, F. Ya. ORG: State Scientific Research Electroceramics Institute (Gosudarstvenyy nauchno- issledovatellskiy elektrokeramicheskiy institut) TITLE: Methods for testing ceramic materials for strenjzth SOURCE: AN SSSR. Izvestiya. Neorganicheskiye materialy, v. 2, no. 3, 1966, 568-573 TOPIC TAGS: corundum, solid mechanical property, bending strength, bend test ABSTRACT: A critical review of the GOST/approved standard methods (at room tempera- ture and using static loads) of tS ~in !ceramic materials for bending strength is given. A comparison of the bendi ng strangth.values obtained for coruadum samples by various methods is made. Diagrams of the stress momentum for cross-sectional bending, Fig. 1, and a comparison of results obtained by various testing methods are presented. It was found that the elastic bending technique gives higher values of the bending stress momentum than the direct bending method. Orig. art. has: 2 figures and 3 tables. SUB CODE: 1l/ SUBM DATE: 02Mar65/ ORIG REF: 006/ OTH REF: 001 Card 1/1 UDC: 666.3:620.17  ACC N't,- AP6014065 SOURCE CODE: UR/0294/66/004/002/0202/02o6 JD/WH/JH 6 AUTHOR: Golubev Be P.; KharitonovF, 17. Ye.;. Kalitinp P. P.; .9 - - 61 Vasilly~va, G. A,; Smi no /3 ORG: HighTemperature SolentIfic Research Institute (Naucbno- issle ovatel-sKly ins itut vysokikb temperatur) TITLE: Construction properties of corundum microlite at high temperatures p, SOURCE: Teplofizika v-ysokikb temperatur, v- 4, no. 2, 1966, 202-206 TOPIC TAGS: high temperature alloy, corundum refractory ABSTRACT: The article presents a correlation of experimental and literature date. on the mechanical, physico-chemical, and tbermo-physical properties of corundum microlite at rRom temnerature and at bigb temperatures (up to 12000C). The corondum microlite used bad the 99-li.-99.5% .61/10 MgO; 0.03-0-05, following composition: -L'203; 0.5-0 It F020 ). The samples were annealed In a batch type flame furneco with prOnged heating for 16 hours at 4000, an,' then for 12 hours at 17500. The following properties of the samples were determined: water absorption, specific weigbt, porosity, hardness, coefficient of linear Card I UDC: 6 lo.620.171.3__~620.18 ACC NR. AP6014065 bernol expansion, specific electric resistancep the strength limit for i' hock bending, fracture, and compression at room temperature, thermal tsbility, electric strength, refractory propertio3~ deformation empersture, and shrinkage. The experimental results are 3hown in a able and figures. There is also a photo at 90 magnifications of the icrostructure of the corundum microlite. It was found that the material as attractiv properties for use as a construction material in machine onstruction,&n the electrica! industry) ond for high tomporaturo units Hre-F -oPef6te in aggressive media. Orig. art. base 4 figures and 1 able. Si1B 0CM: 1 .l/ SUBM DATE: 220at64/ ORIG REF: 009 Card 212 ry-) r I  L 366B3-66 EWP(e)/hNT (m)/WP (k)/94P (t)/grl ACC NR, AP6019871 AUTHOR2 Pevznery R. L.; Kharitonov, F. Ya. IJP(c) JD/WH ~if6i~f[~~/000/002/0038/0042 ORG: [PevznorJ Institute of National Z'conorzr im. Plekhanov (Institut narodnogo khozyaystva); itonovJ State 29 o5tific Research"MR-r-ocoramic institute (GosudarstveraW nauchno-isslodovatellskiy eloktrokeramicheskiy institut) TITIZI Some characteristics of the behavior of pure oxido daring hot pressing SOURCE: Ognoupory,, no. 2, 1966, 38-42 TOPIC TAGSs alumina, magnesium oxide, zirconium compound, ceramic pressingp sintoring ABSTiUCTi Thn UrDoso of the study was to investigate the relationships governing hot Dr"oss~in nPd dietermine the properties of products obtained by hot pressing of pure aluminmi, magnesium, and zirconium oxides. Powdered G-00 alumina and MgO i fired at 14500C, and Zr02 stabilizod with ? wt. % CaO at 17500C were employed. The effoct of temDerature, holding time, and specific pressure on the density and den- sity distribuiion ovor the cross soction of the products was determined. The mo&t favorable temperatures for hot pressing of A120, and MgO were found to be 1600- 17000c, at a pressure of 160 kg/CM2 and a holding timo of 15 or 30 min. On the basis of the established relationships hot pressing schedules were worked out, and spocinons of high density (20 t 2 mm in diameter) with zero water absorption were Card 1/2 im 666.76.o22.84  . L 36883-M FA-CC 114R, ,,-I- prepared. Orig. art. hast 6 ripros, 1 tablet and 2 formaas. 0 SUB CODE: 11/ SUEN DATES none/ ORIG REFt 0061 oTH REF, 001 I-C Card  ~!,D e~:!) k 1V u,'jY.2U-2j1U'JjVVc-j~-~j A-lv,)j AJA-J AlUT1,11011: Mat oyov, M. A.; Povznor, R. L.; ',,,atvoyev, G. M.; 6v F. Ya ORG: Moscow Chemical Engineering Mo ak v kiy kn o- _;!Iptituto im. D. 1. Mendoloyov -o s Yto ol Gichosk -i.y-in5titut . -MILS: Use of coranic materials in a water vapor medium of high parameters SOURCE: AN SSSR. Izvostlya. Noorganichoskiye matorialyp v. 2, no. 8, 1966, 1505-1313 LOPIC TAGSS ceramics, wator vaport corrosion 3ST.7:UCT: Tho reactions of ceramic materials of various -ohaso and chemical conposi- tions .:-ith water and water va-oor of hilah paramnotors woro studied in tosts lasting Lo IGOOehr. An a ~t- ensivo attack of water-glass compositions, materials made of P col-a4-n,~Jsl'oatito,~,,-.forstorito and wol-lastonito was o~sorvod. Tho attack causes a do- i croaso of density (an increa5o in water absorption and porosity) and strength as a ro-; 5-alt of thie fo=tion of hydrated ions of the corresponding metals and silicon-oxygon anions. Loss subject to attack under those conditions are natorials based on corunduml I and nmulllito. The experimental data were confirmed by thermodynamic calculations of I- tho hydration of the tested materials involving tho use of known values of the thomo-I dynamic Potential of the original silicates and hydrated cations and anions. Orig. art. has; 4 tables. SUB CODS: Ii/ SUBMI DATEt 12Jun65/ ORIG MT: 015 Lcard iv) v (Go3udarstvOnnyy nauchno- rl~' 7 1~1-; alfi'u.,~on of i;ator and V(.G vapor into cuia-,-,-!c AN SSSR. Izvostiya. Nooraanichoz;kiyo natorialy, v. 2, no. 8, 1966, i529-ig~z -.~,?-LC T..35: fluid diffusion, water vapor, co-r,~n'.Ics C6fuLZAA.~- .%25'7-6CT: A c:7itical rov-1ow of the co;.-rosiorn tost, lr,:~t"'Odo used for Ov--1uat'-n3 the dc~erocj of in,%loi-action bo-Lwoon ceramic natoi-ialr, a-d wzto., or wa-Coi- vajor led t h 0 Zlat'-101' to Of the coofficiont of di-ffusion of az;S-rossivo modia into t"'o corzz:ics On tho basis of chan,,os in the wo-~s7,L - II'll- - "e ~ . of S,-.~T,) 1-0 S a-n valtago 'e-porcolair, I'll oncy S:,-! t z;zca-*- it 0 r GU co,.-and-,Lr, ii-,at-orlal, otc.) wo-r-o-tostad in and wator vz-por, patr0*16-1ZI, proa`a*cts, O'k-.c. in autoclavos. ~,-althc,-,zatuical expi-oss-110-ns i-olatinc, tho duration 0, --.0 ZGS-Vs and the %-.,o,--'ht loss ai-o clorivod, and cz--Iculatvion ir, illustratod witll vilat of tho coofficiont of d" usion of uator va-.)or into 'hi~;*a-volit-a-o -porcelainp which! A.11 '0_3 0 ,;as found to bo 0.47 x I CM2/sac. '1aG : 1 tabla and 12 f ritulas. SUB COZ-7-: 11/ SM,.' DATZ: 31,ku,63/ rxUG RZ-e; Oo6/ Glm P.27o: 002 UXz 666.3  i ACC NR.- AP6u3T3'(6 ito 11000C in 1000 intervals. Measurement error was less than 10,"V and average d~!Via- ition was 10-155". Virtual viscosity was determined on a laboratory unit with continu- I jous temperature and torsion angle registering equipment. Overall viscosity measure- Iment error did not exceed 20%. The results of these experiments show that the virtual viscosity of M-23 porcelain at 70O'C and above is less than 1013 poises and is 1012 poises at 10001C. At a virtual viscosity of 1013 poises, glass enters a viscous fluid state. This is accounted for by the fact that the glass phase in porcelain is 50-55'/00 and as the viscosity of the glass phase decreases, the strength of the i,orcelain also decreases. This occurs approximately at 9001C where the bending stress of porcelain idecreases and porcelain specimens undergo severe deformation at 10000C. Bending stress is not as great at 7000C for steatites as for porcelain. Virtual viscosity for steatites is 1013 Poises at 7000- SK-1 steatite specimens buckled at 91jO0C and at 501/10' of the destructive force for tlie original specimen. SUB specimens did -lot bend sig- I nificantly at 8001C. The virtual viscosity for SNB specimens was 1013 --oises at 600C. IMullite corundum MG-2 specimens retained their strength characteristics up to 7000C. GB-7 alumina on the other band started losing its mechanical strength at 6000C 1 jand reached 40% of its original strength at 9000C. This strength redu:'ion is caused by the composition of the glass phase. On tile other hand, corundum mic-olite with a small glass phase retained its strength up to 10000C. Orig. art. has: 3 figures, 11 table. ISUB CODE: 11, 091 SUBM DATE: None/ ORIG REF: 004 1 Card 2/2  ACC NRt AM000.14 SOURCE CODZ: UR/0080/66/039/011/?.4.',1/21~17 "~'j OR Z,-udni'A-ov, P. ?,; Kharitonov, F. Ya. n o r, o TAMS. '-agration of grain boundaries and effect of interparticle contacts on the co--paction of corundum ceramics during sintoring SOURCE': Zhurnal prikladnoy khimii, v. 39, no. 11, 1966, 2411-241? TOPIC TAGS: grain growth, sinterin.gp corundum rofractory A3STIRACT; in an attempt to elucidate the role of growth of intorDarticlo contacts in -a compaction process, sono regularities in 'he sintering of corund-= ceramics (pure, and with impurities) were investigated. Analysis of the data suggests that regulari-~ tias of tho crystallochomical stage of the Drocess are manifested during recrystalli.- zation sintering of corundum. The fact that the Drocess takes Dlace in the kinetic region is indicated by certain teirperatura dependences of the grain growth rate, the effect of sintering time, and the deceleration of grain growtth rate as a result of k-e action of magnesium oxide. However, the observed decrease in grain growth rate during sintoring shows a change from a kinetic to a diffusion process as a result of the formation of a layor of solid reaction products (cotrplox products with impurities; in pure corundum and spinol 'vg0'Al203 ih microlito). On the basis of the data it is postulated that like impuriths, fine grains of corundum in finely cr-ystailline sin- Card 1/2 ACC NiZi A?7000014 A. ered corundum (nicrolite) inhibit processes associated -with the exchange of atoms I (diffusion). This barrier effect becomes enhanced as tho.size of corundum grains de- creases. Crig. art. has: 6 figures and 4 formulas. SUB Com 00 SUM DATE: 17jan66/ ORIG REF: 010/ (mi REF: 006  -- -- L. ~-Il ,- ~ p A , - I'll z ~. ti rt I c 10 d 1,;rus ic S SCM42 0 f t flo nh ~-. f,- ,- k. ., i -1 1 - I -   KFARITONOV, G., Inzli. Prevent the breakdown of rafts in water reservoirs. Rech. transp. 20 no.9:18-19 6 161. (MIRA 14.9) (Reser-voirs--Navigation) (Rafts)  --il'l 01 1 C, "'. KIIIAPI i i,*A,'VLYLV , 1'. 1. i -E--JUMSKIN~ A. 1. - Deystv. ch. Mcadendi Arkhitektury USSII. prof. i KASIIJI~,~y L. A. - Kand. aconom. nauk Institut stroitel'tioy tokliniki AkademJJ arkhitektury U3,311. Konotruktsii i ikli zonirovanlye v sell skom i kolkhoxnom stroitellstve Fage 77 Sol Callaintion C)f AringtAtIeng gr Sim4antIfIn Eggearch WgIrk qjLConmtrijnt4np- cot plated la =9 Moscow, 1951  er n~RITONOU, G. A. 27850. Kharitonau, G. A. Ylivaniye polezashchitnogo leporazvedeniya na blagooborot. Los i step', 1949, Fo. 1. s-118-21 SO: Letopial ZhurnalInykh Statey, Vol. 37, 1949  KHARITONOV, G. A. 27857. Kharitonov, G. A. Ob effiektivnosti ukhoda i udobreniya pri sozdanii DOlezashchitnykh leeonavazhdeniy~, Levi step' 1949, No. 2, G. 81 - 85 SO: Letopisl Zhurnalinykh Statey, *Wol- 37, 19"9  XASPIN, L.A.; LAZARMO, V.I.; MURITOMOV. 0.A.- TUROVSKIT, Ifirp, redaktor; GMnNOT, At. rodaktor*.-"- - (Technical and economic characteristics of few-storied dwellings] Takhniko-skonomicheakie kharaktoriatiki malootazhnykh zhilykh domov. Kiev, Izd-vo Akadexii arkhitektury Mr. SSR, 1952. 142 p. NWA 7.-1) (Difellings)  KHAEITOhOV, G. A. Reservoirs Erosion in the area of the TSimLansk reservoir and protectirg it ngp-Inst silting. Les i step$ 14, no. 5, 1952. Monthly List of Ruezion Accessions, Library of Congress, August 1952. MiCLASSIFIED. - . "-:. k ~; . I I "!, 1:' f  USSR / Forestry. Forest Crops. M-5 Abs Jcur: Ref Zhur-Biol,, No 16, 1958, 72834. Author I Inst : Not given. Title : Afforestation of Chalky Soils and Exposures in the Central Regions. Orig Pub: Lesn. kh-vo, 1958, No 1y ?-Z-Z7, Abstract: In the southern part of the middle Russian high- lands, in regions close to chalk deposits, humus- cafbonate soils and chalky exposures are the most widespread. Isolated are: soils taken out from under forests (in clearings); average washed, humus,, heavily washed., weakly humus 30ilS with the presence of a friable horizon; chalky depos- Its. As a main specie on the humus-carbonate soils (clearings), oak is recommended; on weaher humus soils - pine (chalky form is desirable). Card 1/2 USSR / Forestry. Forest Crops. K-5 Abs Jour: Ref Zhur-BIoI*0 No 161 1958, 7Z834s Abstract: As accompanying shrubs, it Is desirable to use species which are met in local natural plantations. Pinus silvestris L., Betula verrucosa Ehrh., L~_ inus virldis Mchx. and othcrs are appropriate In TI-antings on average washed soils. On heavily washed soils Fraxinus virldis Vichx. and small- leaved elm are recommended. Red dogwoodf.Evonymus verrucosa Scoj3., alder buckthorn, olea3ter-WouTd be introduced-in the underbrush. Chalk exposures are characterized by better microclimatic. condi- tions, presence of needed nutrient elements and absence of harmful compofinds. Afforestation of ex~-,osures must be preceded by phytoimprovement for cessation of erosion and formation of soil. -- V. V. Protopopov. Card 2/2  illILRIT0110, G. A. Doo Awr Sci -- "Agricultlan-1 vind for,-,-str,,, improvene-it 1, -tj~~-4 k644z-~ 7 ~~ L, -."i-Eht." Ilas, IGGC) Obs Order of Lenin A~-r Aand ir, K. A. Timiryozov). (IM, 1-61, 200) - -277-  KHARITONOV, G.A.; MOCHALKINp L.S. Basic advice for the establishment of shelterbolt plantations in Chelyabinsk Province. Trudy Inat. biol. UFAN SSSR no. 25:17-24 161. 11 4. (NIRA 15:6) (Chelyabinsk Province-Windbreaks, shelterbe 9, etc.)  KHARITONOVI G. Several problems in studying snow cover using a perman4nt snov measuring staff, Iav.Uzb.fil.Geog.ob-va 6tl45-157 162. (KRA l5t8) (Soviet Central Asi&.-Snow)  KHARITONOV, Georgiy A2ekseyp#o4,. doktor sellkhoz.nauk; ULTAKHINA, --- ' .;..' GRECHISHCHEVA, V.I., takhn. red. (Water and erosion controlling role of forests in the forest- steppe areas) Vodoreguliraiushchaia i protivoerozionnaia roll lea& v usloviiakh leaomtepi. Moskva, Goolesbumizdat, 1963. 254 P. (KRA 16:8) (Forest influences)  KHARITONOV, G.N.; RASPOPOV, V.A. Remote control of lumber drying systems. Der. prom. 13 no-4: 4-5 Ap 164. (MIRA 17:4) 1. T&3ntrallnyy naiiebro-issledovatel'skiy institut mekhanicheskoy obrabotki drevesiny.  KIWRITOVOV, Gez)nad-iy illikolayevich; ANDRENEVA, Anna Aleksandrovna; PEYCII, red. (Chamuer drying of export lumber] Kamernaia sushka eksport- nykh pilomaterialov. Moskva, Lesnaia pronyshlennost', 1965. 48 p. (111RA 18:9)  KHARITONOV, G.N.; YURIYKV, YuJI. New fork grab of the automatic lift truck for handling lumber during the preservative treatment in packages. Der.prom. 10 no.6:12-13 J4( 161. OMIRA 14:7) 1. I'Sentrallnyy nauchno-issledovatellskiy institut mekhanizatsii obrabotki drovesiny. (Loading and unloading) (Wood-Preservation)  KHARITONOVY G.N. Panel doors with rwchanical drive for drying kilns. Der.prom, 11 no.10:23-24 0 162. (NIRA 15:9) (Doors)  KHARITONOV. G.V.; HOLOVSKIYj V.G. Spring tie pieces for compressing lumber piles durildrying. Der. prom. 12 no.5:23-24 My 063. 4IRA 16:7) 1. TSentralinyy nauchno-isoledovatp-l'skiy inatitut mokhanicheakoy obrabotki drevesiny. (Lumber-Drying)  MAIti-iONOVI G.N.; RASPOPOV, V.-A. Automatic control of chamber-drying of wood. Per. prom. 12 no.10sl8-20 0 163. (KRA 16tlO) 1. TSentral'nYY nauchno-issledovatel'skiy institut makhanichaskoy obrabotki drevesiny.  UMITUNOV. G.V. reate conditions of safety for ship movements on water reservoirs. Rech.trausp. 16 no.8:7-9 Ag 157. (MIRA 10:11) 1. Glavnyy revisor po besopasnosti sudokhodetva morskogo i rechnogo flota. (Inland navigation-Safety measures)  LURITONDY, G.V., inzh. Methodo of preventing failures on lake Baikal. Rech. tranxi. 17 no.12:48-50 D --158- (MIRA 12:1) (Iake Baikal-Lumber-Transportation)  3xidstion if -r! ft .4-,rm.T,A I nd It. fun urritte. rimrommmIrtruir F~.Ijm"JTIJ T"57-  .r-t PUU- h" ~,j h ,~ Wa Yl cI Ip, I V V VI 7t V11 V) 'he h-linx lallm --ille Oy I-!  M rj ix, r I N, a I I1 11 1 map  XHARITONOT, G.V.;_,USUBAKUBDV, M.; FIRIEDVA, V.P. Particularities of the chemical composition of petrographic varities of coals mined in the Kirghiz S.S.R. Izv.AH Kir.SSR no.1:13-21 153- (Kirghizistan-Coal-Analysis) (MIRA 9:9)  ~l wL .41 UF  li,vinj: c!A-tt  ': t ; I .. I- - I-1.* ,. - , t, ~   11(7) 5071112-59 -3-4440 Translation from-. Referativriyy zhurnal. Elekti-cAckhzika, 1959, Nr 3, p 22 (USSR) AUTHOR: ~Kharitonov, rx, V. , Nazarov, N. 1. , Purik!~,va, V. P. , and ".6 -~-~,_, Usubakunov, M*. TITLE: Chemical-Eng-Ineering Lavestigatior. of Goals of the Tuyuk ani-Li Kargash Fields, Uzgen Basin (Khimiko-tek-hnc".,:igicheakcye issledovaniye ugley Tuyukakogo i Kargaslunskogo mesto:r~.)zlideni,f Uzgenskogo bagseyra) PERIODICAL: Tr. in-ta khimii AN KirgSSR, 19 57, pp 109 -127 ABSTRACT: Tlhe bulk of zoal' congists ~J a typical h-_-zrv:.LB M_ ate:vial. Yv-. M. Kuzichkin and A. 1. Giznibarg have ise-datled studied the following petro- graphic types of tb-cse coals: (1) clarair-ous homogeneous coal consisting of vitrinite-group subetances (89-95.41o, semivit~-,__-ite fusi-nite (0. 4-11. 816), cutinite, reeinite; (2) clarainous complex striated coal with stem - clarainaus c:r durainous hiclusic-is; (3) or durainous complex striated coal wit'a claraincus '4) clarain-durainous complex Card 112 11(7) SOV/112-59-3-4440 Chemical-Engi.-neeriTig 111vestigatiOn Of Coals of the Tlzyuk and Ka::-gash Fields . . . . striated cop.!; (5) dura-in:jua homogeneoup, c-_)a_L. As far as t',e coal -ank is concerned, A. Y. Gi-4zbu_-g believes flhat T-,t,,,-J, cc,.118 wit,~J:~ Section I of the S~j~zlthern area belong with the vatearn rich t,-pe, mj t~b --I Ncrthern area, with _~'e .4-- Sections 4-6 of the g3F--,-ype neAr1.,,g the ateam tt,pe. T'%e tb,,ve coal fields are d._;qti-'gLij.ihed by lr"v c"ten't '~~f h7grc9crpic Mc-isture- (0. 94-2. 43%), Of sulfur (0. 29-1. 291, of abeclutel Of es (1-47-12.037a), by a lowez content Of vOlatile matter ard 7- lowe- cak,-.,ig c..~.-pacitv aA compared to Donbass az,,d Kuzbass coals Of the -Pame r-,n-'!:. Heat c;f com.b~astion is 7,868- 8,413 killocal,!kg i:;_4 ccinbustlible ma,13. T" KA793sh C;:a-*, beds are actually packs ;f brilliant s ter complex striated coa-. This crawl, after a cancentra- tion with respect to ash coxLtent, can be used for a sen~iicckir_g cr coking and allso for carbide pi-,duction. The T-Liju k be evaluated fcr coke- cher-mcal induetry by its coirl-ng neat by its zaking ability. A. B. M. Card 212  11(7) S:Yri I I Z-59-3-4441 Ph7sical and Chemical Charactez-istizz t.nd Properties ccntent and t).-,er inclination to self the Kirgiziya coals can be arranged into the following seq7aence: Kynyl-Kiy.-, coal :,-- SLIvu-kta coal-,, Almalyk coal' -.;,- Yatan coal > Karaklchin coal > "ashkumyr coal > Kok-Yanga coal > Dzhergalan coal > Kargash coal ;~-- TuTak coal. Oxidability of coals deperds largely rm coaly sh-iles that 765.7 mgie fusinite. Tables have been compiled that cover phyeical and chemical properties of Kirglziya coals and their liability to self-igniti.in, depending on their properties and petrography. A. B. M. Card 2/2  I- -KIIABITONOII, G. V.) Doe Tech Sci (diss) -- "The effect of Individual structural elements of coal on its oxidation and its chemical and technological properties". Moscowit 1959. 39 PP (Aced Sci USSR, Inst of Mineral Fuels), 150 Copies (KL, No 9, 19(0, 124)  KHARITONOV, G.V.; AHMOSOV. I.I.j NAUROVA. R.I. Relation between the petrographic and chemical composition and the chemical and toohnological properties of coals of the Tuyuk deposit in the Uzgen Basin. Trudy IGI 8:45-50 '59. (MIRk 13:1) (Usgen Basin-Coal)  AMMOSOV. 1.I.: X&EMY, X.I.-I V. G.V.: FURIKOVA. Y.P. Chomical'composition and properties of the petrographic micro- components of coals. Trudy iGr 8:51-65 '59. (MIRA l3fl) - - (CA&l)  KHARITONOV, GrigoriX Tesillyevich; DRUZHININ, I.G., otv.red.; -.__V6Z_10fff(F, _Lf, _,red.__i_z&-_ia_; USPANOT, Zh.Te. , otv. za vypusk; ANOKHINA,'K., tekhn.red. [Iffect of various structural features on coal properties] Tliianie otdel'nykh strukturnykh elementov na evoistva uglei. Frunze, Izd-vo Almd.nauk Kirgizekoi SM, 1960. 264 p. (KERA 13:12) (Coal--Analysis)  NAZAROVA, N.I.; KH&IIITOIMV, G.V. Relation between the sorption capacity of coals and the functional groups they contain. Irv. All Kir. SSR. 59r. est. i tekh. nauk 2 n0-5:3-8-160 (MIRA 13:9) (Sorption) (Coal)  TXACHEVA, A.P.; KWIT0110V, G.V. Kinetics and mechanism of the oxidation of -yclic organic compounds in th.e liquid and solid phase- Report No, 1: Study ,of-the oxidizabtlity of'organid ceapounds under . isothermal-oonditionsi, Itv. AIT Kir. SSR. Ser. eat. i tekhe nauk 2 n0,5:71-83 160. (MIRA 13:9) (Oxidation) (Ph6nole) (Hydrocarbons)  TUMILVA, A. P.; KIWRITONOV, G. V. Physical methods of studying the mechanism and kinetics of phenol oxidation. IzvAN Kir,SSSR.Ser.es'u,i tekh.nauk 4 no. 6:25-32 162. Interdependence between the inhibiting prol'ortles of plionols and activation energy. lbid.:33-41. (1-111RA 17:5)  PURIKOVA, V. P.; KHARITONOV, G. V. Study of the kinetics and mechanism of o-idation of coa2s. Izv. AN Kir.,13SSR.Ser.est.i tekh.nauk 4 no. 6-4--59 162. (MIRA 17:5)  KHARITONOT ; PURIKOVA, V. P.; GIPOASOVA, 11. 1. iE--Y-. Study of the kinetics and mechanism of oxidation of coals. Izv, AN Kir SM.014FgW. i tekh, nauk 4 no. 6:61-70 162. (M M 17: 5)  TKACHEVA, A.P.; KHARITONOV.. G.V. I -- , - --l 4 ~'. Effect of p7rogallol and Mocatechol on the OXidl2abillty- of cinnamic aldebyde. Report No, 2, Izv. AN Kir. SSR* Ser, est. : tekh. nauk 3 no.2:43-46 161. (MIRA 16:7) (Cinnamaldehyde) (PYrogallol) (Pyrocatechol)  TKACHKVA, A.P.; KHARITONOV, G.V. - -1 Effect of organic mixtures on the phenol oxidation process. Izv. AN Kir. SSR. Ser. est. i tekh, nauk 3 no,2:47-50 161. (MIR& 16:7) (Phenols)  KHARITOITOV, I. Search for now methods of fire prevention. -Pozh.dolo 6:24 Mr 160. (KMA, 13:6) 1. Zamestitell predeedatel7a prozidiuma respublikanskogo sovets, Dobrovollnogo pozharnogo obshchestva BSSR. (White Russia--Piro prevention)  ARASIANOVO X,, ekonomist; PMKOVSKrYj V.; KHARITONOVo 19 We are discussing the problems of control over wage fund disbursement. Den.i kred. 21 no.2:34-50 F 163* (KMA 16:2) 1. Kirovskaya kontora Gosbanka. (for Araslanov). 2. Sthrehiy kreditnyy inspektor Poltavskoy kontory Gosbanka (for Kharito~Ov). (Banks and banking) (Wages)  CIIIKLEYEV, S.; FAVLOVSKIY, M. (Kemerovskaya obl.); HOCHKOV, A.; 1402, PjOV- ,1.; ZOLOTENKOV, V. (Yakutskaya AS~R), KONOBEYFI, A. (Bazarnc.. Karabulanskiy rayon, Saratovskaya obl.); VOLKOV, I.; BESEDIN, S. (Omsk); NOVIKOV, P.; GRINEV, V.; SODOPENKOV, P.; ALEKSEYEV, K.; TOLKOV., I. (Rostovsk-aya obl.); KOSTENKO, P., NOVIKOV, A., instruktor profilaktiki (Shumerlya, Chuva8hskaya ASSR) Reader's letters. Pozh. delo 9 no.11:30-31 N 163 (KRA 171l) 1. Nachallnik pozharnoy okhrany Klinskogo kombinata, Klin, MosRovokaya obl. (for Ghikloyov). 2. Vrionhtatnyy pozharnyy inapektor, predsedatell Simferopollekogo rayonnogo komiteta Dobrovollnogo obshchestva sodeystviya armIJ, aviatsii i flot"I (for Alekseyev). 3. Nachallnik otdola Gosudarst'iennogo pczharnogo nudzora, Sverdlovsk (for Kostenko).  GOIUBEVI N.I., prof.; MALYUKOV, Ye.l., assistent; KHARITONOV, I.B., assistent Inferior median extraperitoneal access in surgery on the retroperitoneal space. Sbor. nauch. rab. Sar. goo. med. inst. 44:50-61 164. (MMA 18:7) 1. Iz fakulltetskoy khirwgiche.9koy kliniki (zav. - prof. N.I. Golubev) pediatrichookogo falcullteta Saratovskoygo meditsillskogo instituta (rektor - dotsent N.H. Ivanov) na baze dorozhnoy kli- nicheakoy bollnitoy Privolzhskoy zheleznoy dorogi (nachallnik - PL.F. Nazarenko).  ri i n s t Ir t r,r t rl Tj