SCIENTIFIC ABSTRACT LY*GIN, V.I. - LYKHIN, V.M.

AMMM NE: AP403717"*' S/0069/(4/026/003/0324/03n, AUMOR: ' Kisel"a A* To; Ly*ginl To Iq Solamonovai 1. No TITIZ; InfrLred study of chemically moRfied aeros12 SOURCE; Kolloidny* 324-329 y zhurnal, V. 26, no- 3p 1964 TOPIC TAGS: aerosils modified aerosi2j, aerosil adsorbentp gas chrcoatogragbyp infrared aerosil spojwunj ipubstituted dichlorosilane, surface active esterp radical heat resistance, bydroxy groupp aerosil adsorptive propertyp deuterium treatmentp chlorine containing groupp allyl radical ABSTRAM The work concerns aerosils treated vith surface-active eaters, allyl and chlorine-containing functional gmps, for use as adsorbents and carriers for gas chromatogmpby-or fillers andpigments'-for polymara.' Tha'aarosil used (Mae by Degus) bad a surface of 1T0 m2/g. Substituted d4ch' ros"alm a vith carboa cbA-'n of.. various langth and functl=" andaroups vere used an =d4 Lars In a diome medlun. Card V3- 14, F  Acawaw n: AM37177 CHI CIBSICHICHiCOOCH3; C12SICHiCH-CHt; C1sSjCH2CHjCH3C1; 41aicf, IlThe laboratory procedure is described. The extent or substitution of surface 1,bydroxyl groups by organic radicals was found at less than 50% (C detenaination. by wet combustion). The material obtained was pressed into tablets for infrared inspection. The spectra were obtained and it was concluded that mainly.free surface hydroxyl groups'participated in the modification reaction; the functional ester and chlorine-containing groups surface radicals are hydrogen-bonded to the remaLning surface hydroxyls; and the most heat-ivaistant, radicals were those with ester and chlorine-containing groups., allyl was less heat resistant. At the low 1: experimental density of the modifying layer, the remaining hydroxyl groups deter- mined essentially the adsorptive properties of the modified aerosils. Treatment ~.with deuterium and methylation of.the latter's surface revealed availability of part of the surface hydroxyls for small molecules and another part for large mole- ...culeap such as dietbyl ether., For gas chromatography denaer layers should be Icarz-1 .2/3  Borimamw for Ob. ~rw salmors vUh to Vxank D. Micharbakov and Is Ve their belp in modifying the specimens and in th*ir aualpie-* Orl& azt- h": TA ro==Iw andl SUP=,; tot .ASSOCtA=(Xs HookovskLY vnivervitat Im. X. V- rag=OsMp MdrAcbe taku). (Xoo=v Univervita CbemLstry. Faculty) 'ENCIA 00 SMTIM)S 2W16i NO BV owl' 021 3/3- .  A V Cj T,;~ -1; V T K I S E I:E-V ~sc~lrcm !.magr.~-tic reson-unce Spectra Of graphl, ~,a'-Dnn blacks. Koll. zhur. 26 ro.5:651-653 S-0 t64. 17; 10) 1. Moskovok 'Xii-ve-sitet imond. Lomonosova, khirrd,~heskiy faku-- f t,et.  W1_ - 11T~ - - - 0 - Acci;SSTO,11 14R: AP4034593 S/0076/64/038/004/1044/1047 AUMORI. Abramov, V. N.; Kiselev, A. V.; Ly*g:Ln, V. 1. TITIE: Infrared study of the adsorption of phenol, apiline and nitrobenzene on Aerosil and zeolite. SOURCE: Zhurnal fizicheskoy khimii, v- 38, no. 4, 1964, 1044-1047 TOPIC TAGS: infrared spectroscop~r, adsorption., phenol, aniline, nitrobenzene, Acrosil, zeolite, molecular spectra ABSTRACT: In this work a study was made of the change of the infrared spectrum of the hydroxyl groups on the surface of Aerosil, during the adsorption of phenol, aniline and nitrobenzene, as well as the IR spectra of these molecules themselves, upon the adsorption on Aerosil and zeolite. Fig. I shows the spectrum of Aerosil, evacuated at 400 C and the spectra after adsorption of phenol, aniline and nitro- benzen6 under saturated vapor pressure of these compounds at 25 C. Due to the overlap of absorption bands of the associated surface and intraglobular.hydroxyl groups'~of Aerosil and phenol it is difficult to establish accurately the magnitude of the,shift of the groups of Aeroull with reapect to the absorption band of free Card !/4  ACCESSION NR: AP4034593 hydroxyl groups:perturbed by adsorption of phenol hydroxyl The magnitude of shift during adsorption of phenol is not more than 350 cm- DurinG adsorption of aniline the band lies aroung 3200 cm-1 and the shift is 550 cm-1. During adsorption of nitrobenzene the band of perturbed free hydroxyl groups on the surface of AeroGil is completely masked. Therefore., one can only say that the !"shift is much leas during adGoi3tion of niLrobenzene than during adsorption of phenol,~and aniline ( e-150 cm- ). The changes of IR spectra of the adsorbed molecules themselves are also shown in Fig. 1. The greatest changes are observed in the vibrational frequency of OH in the phenol and NH in the aniline. In the ..case of nitrobenzene no significant changes are observed. Changes of molecular spectra during the adsorption on zeolite are greater than during the adsorption on Aerosil. Oris.~art. has: 1 table and 2 figures. ASSOCIATION; Mookoveldy gosudaratveanyy universitet im. 14, V. Lomonosovaj Khimicheskiy faculltat (Moscow State University im. M. Vs Imonooov., Chemistry Departmpnt) SUHUT~6; 05Nov63 ENCL: 01 Card 2/4  1111n= _i ACCESSION NR: AP4034593 SUB CODE: GC NO REF SOV: 012 Cfrr[ER-. 006  ACCESSION NR: AP4034593- Fig. 1. Infrared spectrum of Aerosil 1) pumped down at 400 0 after adsorption 2 pbenol 3 ~ aniline 4 nitrobenzene 4. a OH excited b ~ transmission ENCLOSURE: 01 Card 4/4 vew J00 .7400 J2001 Ctf 10U 14001 /Z,10  jL-23055-65- -AP4047981 CdjtMON NR: S/6076164103810101240812414 AUTHOR: Zhdanov,: S. P-~ (Moscow); Kiselay, A. (Moscow); Lygin, V. Titova, M.. I,~~ (Md.660W) TITLE: Infrared spectra of synthetic faujesites of varying composition and of their adsorbed water .7~ al fizicheskoy khimii, v. 38, no. 10 1964, 2408-2414 SOURCE: Z TOPIC TAGS:' synthetic faujesite, infrared spectrum, faujesite type zeolite ABSTRACT: The IR s'ectra of synthetic faujesite-type zeolites of differient coma p position -a n'd-with, different: cations, and of ze~ql~iites (mntaining adsorbed water z__ e crvs whi4~h Was desorbed from the channels in the crys al under different conditions were investigated. 'Sodium faujesites with 3i*A1 ratio varied from 1. 2 to 2, 5 and fa-ijesites in which the Na was extensively replaced by Ca or Sr were prepar- e d. T he- A1,0 bond frequencies in the tetrahedral framework were very sensitive to the speciea of the compensating cation. The fauiesites with a high Al content, i. e. with the. greatest concentration of exchange cations, displayed several diffe r- Card.   KISELEV) A.V.; KUBELKOVA, L.; LYGIN, V.I. Study of the adsorption of methanol by synthetic faujasites by the method of infrared spectroscopy, Zhur.fiz.khim. 38 no-11: 2719-2725 N 164. (MIRA 18.2) 1. Moskovskjy gosudart3tvennyy universitet imeni Lomonosova, khimicheskiy fakulltat.  KISELEV, A.V.; IAGIN, V.I.; TITOVA, T.I. Specific adsorption of amnonia on silica and zeoliLe ET;udlied lc~y infrared Bpectroscopy. Zhur.fiz.khim. 38 no.11.273,C-27/33 N 164. (MIRA !8:2) 1, MoskovBkiy goBudaretvannyy univemitet imeni LomonoBova.. khimicheskiy fakulltet.  GALMN, G.A.; KISEL"Ev, A.V.; LYGIN, V.I. Variations in the infrared spectrtba of beazene a- or aerosil as a function of coverage and dehydration of the surface. Kin.i kat. 5 no.6:1040-1048 N-D 164. (MIRA 18:3) 1. Moskovskiy gosudarstvennyy universitet imeni Lomonosova, khimicheskiy fakulltet I Institut fizicheskoy khindi AN SSSR.  N, P 54777-65 EPA WV/,RVz i ACCESSIO111 UR: '~AP5014521 UP/0069/65/027/033/0320/0325 41 541.163 -r. K.; Galk-*n, G. A.; Kiselev, A V: -Ko Ro rolev, A. Ya.; AUTHOR, -r1sova,1_ Lygin, !TITLE.: .'Infrared: study-of the nature.of the active.adhesii layer on the surface f :SOURCE:'~, Koll6i4nyy:zhurnal, v. 27, no. 3, 1965,323-325 YOPM:TAGS. pol-tet 4~. rafluoroethylenei surface property,surface treatment, polymer, ir spectrum. fl. Oropokvm~er iABSTRACT, The.IR spectra or~ surface compo nds- based on polytetrafluoroethylene !nOdifled bv diffiti6nt~.M'ethods -were s.tudiedusing Folymer. filv-_. Modification of wi , k _-ffq_uid_ :he---f iW-!!-y~th r in-d wm~napU_tWa_J:e_6e_6a,,; ~ev.,~rn soil on-:- f- tallic-sodium- -in: um acetate) produced hydro- ma. ..o me and. . molten p9t,assi lphobizatiombf-thesurface and improved the adhesiva properties of the polymer. In-. ifrared spectra vem -studied in surface compounds based on multilayer poiym--r films lbefore and aft6r modification. Conjugated double bonds were found in the surface I Ca~ 1/2.. 1_7   ABRAMOT, V.N.; KISELEV, A.V.- Ij ,_ '~~oskva) Vibrational spectra and Otate of vater molecules adsorbed or synthetic zeolites. Zhur. fiz. khim. 39 no, ls123~-128 Ja 165 (MTRA 19il) 1. Moskovskiy gosudarstvannyy universitet imeni M.V. Lomonosova, khimicheskiy fakulltet. Submitted May 199 1964.  KISELEV, A.V.; KOZLOV, G.A.;_.LYGIN, V.I. Electron paramagnetic resonance of modifted Ukhta channel' b-',a(--Ks. Zhur. fiz. khim. 39 no.5:1256-1263 Mj 165. (M!P-k 18;8) 1. Khimicheskiy fakulltet 14oskovskogo gosudarstvennoFo universiteta imenj M.V. Lononosova.  GALKIN, G.A.; KISELEV, A.V.- LYGIN V.I. Infrared spectra and energy of interaction in the adsorption of aromatic compounds on aerosil. Kin. i kat. 5 no.5;935- 938 S-0 16/4. (MIRA 17:12) 1. Inatitut fizicheskoy kbim 'i AN SSSR i Mookovskiy gosudarstvennyy universitet imen! Lorionosova, xhimicheskiy fakulltat.  ABRAMOV, VA.; A~V.; VII. ,ria Y~4s o' the vibre--, -or4 Ie c of adsorbe-, a=onia. Zhur. fiz. kiiim. 395 j-, 164. (MMI 18:3) 1. Moskmskiy gosudarstvennyy univeroitpt imeni Lomonosovall k2himicheskiy fa~ulltet.  ZEDANOV, S.P.; KISELEV, A.V. I; LYGIN, V.I.-; OVSEPYAN, M.Ye.; TITOVA, T.I. Infrared spectra of synthetic zeolites type NaA, NaX, itTnij a~rld their decationized forms. Zhur.fiz.khim. 39 no.10:2453-2458 0 165. (MIRA l8t12) 1. Moskovskiy gosudarstvennyy universitet imeni Lomonosova, khimicheakiy fakulltet i Institut khimii silikatov U1 SSSR. Submitted July 6, 1964.  1-,,(G.1 N) V. 1. nfrar~jrl and re=aance srecu-a r,!' ~~h~nnell b 'I ~ - _., -L , " 7- .1 kc. Zhurj' ris.21:2? '1-2778 N Aonko,,-sk,.v gc:;u(!4rst%rsnn3r un (Ml Pj-. :L8z 12 r ivencitat imeni M.V.J/-,,mc)nv6ova.  ACC NRi AP6031651 SOURCE CODE: UR/0020/66/170/001/0139/0142 AUT]HOR: Zubov, P. I.; 4iselev, A. V. ; Kryl.ova, L. M.; Sukhareva, L. A.; Lygin, V. I 1-ORG: Institute of Physical Chemistry, AcadeaV of Sciencee,SSSR (Institut fizicheskoy~ khimii Akademii naUk SSSR), Moscow State University im. M. V. LomoBov (Moskovskiy gosudarstvennyy x!niversitet) TITLE: 7Effect of molecular interaction between polymers and solids in the mechanical properties of polymer coatings SOURCE: AN SSSR. Doklsdy, v. 170, no. 1, 1966, 139-142 T01?IC TAGS: polymer-coating, molecular interaction, internal ttiN-ngth, -m=Warg adhesion stress, emu-ting I P" (_ ABSTBA&': A study ~as been made of'theointeraction of polymer functional groups with filler sur;faces, and of the effect of this interactionon. the internal stresses, strength, and adhesion of'polymer coatings. The experiments were conducted with PN-1 polyester resin or FL-50 akyd resin, and aerosil filler, both nonmodified or modilied with actadecylamine. 'The interaction was studied by IR spectroscopy. The ~results of the experiments given in graphic form indicated that the mechanical properties of polymer coatings are highly dependent on the nature of the molecular interaction between polymers and solids. Orig. art. has: 4 figures. SUB CODE: 11, 2o/ SUBM DATE: O7Dec65/ ORIG REF: 008/ OTH REF: 001 i Card 1/1 upc: 541.68  EYDELISHTE321, I.A.; LYGIN) V.T. Investigating operating conditions of the Pk-4 and FX-5 cutter loaders. Nauch. trudy KNIUI no.13w.213-219 164 Results of testing the PK-4 and Fk-5 minig cutter-loaders in the Karaganda Basin. lbid..1219-226   A"". cuum _~t -OM*,, *lth thd surface cmted vifth C'oxidtc~ T.- ~.4nA theaami~ black,afler gmphitizing in H, at 17,00'for 1.61 F Iza. Tide differential heat of adsorption m these sajnple4 '~Lud Cie n-C&H,4 vzpor ndzo.7,ric,, ~sntherm were detd. with attomatic recording mlwimeter with eQuat hcat ex. in tbe Asc;n.~tirjn app. The ;mphitLuttin:i treat- ment made the surfare more uniform and increased the ad. add tLe heat of adiwcptkin of hexane- The max. All-4  th V-R -1 idwrptlctn' U-C-3r-4, o the IC:aTiZm~Ir adsorp66 Th t. range it conforms to thtEl.E.T, equatimi 'Wation betV7Mq the free and the total ener , and the va~: 4dwrptjou tbenr, were investigated, FLnd tv, o=csponding nd -aftor -and wmiag valluz- 4fre det:j. The d SIA 'te vm~s calcd. rpt!b. enugy of ad -w n of hemne upon gruptit hite Inttice lati-In on 100 cic,5est gmp therintic5liY by sumn -0-w of - '! m aforns- The disp-muma! imer,.ic he vi7,~rb~ of:$. of hv~-.-~i,-, N % linear tm-, "f t ll~ C at!m-u- in energy urree. w &I -=-E~6tff . ..-   k- I '~ '% W A11 a:-' -Q~. AUTHORS: Avgull, N. N., Isirikyan, A. A., 62-11-4/29 Kiselev, A. V., Lygina, I. A., Poshkus, D. P. TITLE: Adsorption Equiibria and the Energy of Adsorption Powers (Adsorbtsionnyye ravnovesiya i energiya adsorbtsionnykh sil). PERIODICAL: Izvestiya All SSSR, Otdel. Khim. Nauk, 1957, Nr 11, Pp. 1314-1327 (USSR) ABSTRACT: Here the theoretical and experimental investigation of the adsorption powers in physical adsorption, mainly of complicated non-polar molecules with adsorbents of an atomic and ionic lattice, is brought. The results of the theoretical computation are compared with the measurings of the dif- ferential heats of the adsorption. Here a method for the computation of the adsorption energy of non-polar molecules with regard to three terms in the potential of the dispersion powers with constants, which are computed by means of polarizibility and magnetization-coefficients, was worked out. With it the induction potential by the averaGe polarizibility of the adsorbed substance and the average electrostatic field of the adsorbent was taken into Card 1/3 consideration. Furthermore the push-off potential with a  Adsorption Equilibria and the Energy of Adsorption Powers 62-11-4/29 constant in the exponent, which is computed from the individual constants of the : adsorbent, is taken into consideration.'Finally all interactions of the eiven power center of the molecule of thH adsorbed nubstance are added up with all adsorbent-lattice centers. The puah- off constant before the exponential function J5 determined from the condition of the minimum of total enerCy of all interactions in an equilibrium distance from "he adsorbent- surface. It is shown that the computed adsorption energy amounts of inert gases, nitrogen and 13 hydrocarbons of different structure (normal and isomeric alcanes, alcene, aromatical ones) on graphite are similar to the measured adsorption heats on graphited soot. It is shown that the computed adsorption energy amounts of the n-alcanesp of the benzene and toluene on maEnesium oxide are also similar to the measured adsorption-heats. Furthermore it is shown, that in the case of an adsorption on graphite the amounts of the first, second and third term of the enerGy of dispersion powers and the absolute amount of the push-off energy were 90-95, or 5-10, or 0-5 - 1, or 35 - 40 % respectively of Card 2/3 the total energy of dispersion powers in the investigated  Adsorption Equilibria and the Enerey of Adsorption Powers 62-11-4/29 adsorbed substances (adsorbates?) In the adsorption on MgO the amounts of the first, secuid and third term of the energy of dispersion powers, of the energy of induction powers and the absolute amount of push-off energy were about 81-83, or 12-14, or 3, or 2, or 42-48 % respectively of the total energy of the attractive powers (the dispersion and induction powers).There are 4 figures, 3 tables, and 41 refererces, 15 of which nro Slavic. ASSOCIATION; Institute of Pbysical. Chemistry of the AS USSR and Laboratory of Adsorption at the Moscow State University imeni M. V. Lomonosova (Institut fizicheskoy khimii Akademii nauk SSSR i Laboratoriya adsorbtsii Yloskovskogo GoBudaretvennogo universiteta im. M. V. Lomonosova). SUBMITTED: September 3, 1957 AVAILABLE: Library of Congress Card 3/3  �R- pti,,-- xnd tL~ h-! A.Ygul. -0- 1. aww,'UPLI*'~- -,.tifitaf C!~azc"21-, !3~ng U- -5,7 ;:-~I~a V",der, el )01 Us (;C 0-1; and a samy'!r-. of -~-A-med qt .3 '1 Cf .P,P, L AL ~254n-E ivas'ob-zerved With tai: 1u .1 vplm (4 rzlqtlve Eit"! 'tar VO 'lit C'IPJTU-! cnTldm---~ T,12 W;Z5 5r~lu~ tU;i Zit i~ mcremm ei Thi~ tzl~, i- uiv.  .Y. ~7-~ LYGINA, I. A., Cand Chem Sci (diss) "Energy of adsorption of hydrocarbons on graphitized carbon black." Mos, 19561- 14 pp (Auad Sci USSR, Inst of Phys Chemistry), 100 copies (KL, 18-58, 96) -20-  5 (4) AUTHORS: Avgull, N. IT., Berezin, G. I., SOV/62-59-5-5/40 Kiselev, A. V., LySina, 1. A. V-------------------- TITLE: Adsorption Heat of a Nwber of Isoulkanes, Naphthenes and of Toluene on Graphitized Carbon Black (Teplota adsorptsii ryada izoalka- nov, naftenov i toluola na grafitirovannoy sazhe) PERIODICAL; Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh nauk, 1959, Nr 5, pp 787 - 796 (USSR) ABSTRACT: In this work the following hydrocarbons were investigated as to their adsorption heat: three isoalkanes (neohexane, isoheptane, and isooctane), two alicyclic hydrocarbons; cyclopentane and methyleyclopentane, and the alkylaromatic compound toluene.The hydrocarbons had been selected in this way in order to investi- gate the effect of the chain branching, the rin.-- formation o.f these chains, and the introduct:Lon of aliphatic siibstitu-,ntE into the naphthene and benzene ring on adsorption. The hyd-r)- carbons used in the investigations had been synthetized at th- InBtitut organicheskoy khimii AN SSSR (institute of OrCan-11c CL'.- mistry of the AS, USSR) by Ye. A. Mikhaylova, A. P. Plate, A. L. Liberman, and S. V. Zotova. The authors express their gratitulliq Card 1/3 for their help. The constants of these substances are 3un--ma7iz-  Adsorption Heat of a Number of Isoalkanes, Naj;hthenea soVO/62-=O-r-r/4_ and of Toluene on Graphitized Carbon Black ed in table 1 . "Sferon!~-6 was used as adsorbent; it was grapl,"- tized at 17000.-The differential adsorption heat was at 200 in a calorimeter with constant heat exchange; -the az, --:nt of the adsorption was determined by means of a capillary va(:_~iZ liquid microburet. Figures 1, 2 show the isothermal lines -.f adsorption of the various substances and figures 3, 4 sh',)w 46"~Z- dependence of the differential adsorption heat on the a!Lourit of heat adsorbed by the individual substances. The figures that the normal adsorption heat of iaoalkanes and naphthene~l Is lower than that of the corresponding n-alkanes. The value ~,' the addorption heat of cyclopentane amounts to only -half of that of n-pentane. Cyclopentane, therefore, shows graater at- traction towards the adsorption layer, its isothermal line of adsorption is concave at its beginning. It can be seen from the thermodynamic evaluation of the experimental data obtained that the isothermal line of adsorption of cyclopentane cannot be rs- presented by the Langmuir equation or BET equation but by an Card 2/3 equation which allows for the interaction adsorbate-adsorbate  Adsorption Heat of a Number of Isoalkanes, Naphthenes SOV/62-c0-5-a/40 and of Toluene on Graphitized Carbon Black Fig 5). The entropy curves (Fig 6) indicate that the state of isoalkanes and naphthenes in the dense adsorption layer on gra- phite is much closer to the liquid state than that of n-alka- nee. The methyl group in the toluene molecule reduces its mo- bility with respect to the unsubstituted benzene and the other purely cyclic compounds. With regard to the theoretical calcu- lation of adsorption heat it was assumed that, in the case of the ramified hydrocarbons, the adsorption heat is an additive function of the number of carbon atoms in the molecule. The free adsorption energy and the surface of the adsorbent occu- pied by moleculeswere determined according to the same assump.- tion. There are 6 figures, 3 tables, and 17 references, 12 of which are Soviet. ASSOCIATION: Institut fizicheskoy khimii Akademii nauk SSSR (Institute of Physical Chemistry of the Academy of Sciences, USSR) SUBMITTED: July 25, 1957 Card 3/3  5 (2), 5 (4) AUTHORS: Av,- Soll/62-59-7-7/38 gull N. IT., Kiselev, A. V., Lyginal 1. A., ?Onhkus, D. P. TITLE: A Contribution to the Calculation of the Energy of the Adsorption of Fonpolar Molecules on Graphite (K raschetu energii adsorbtsii nepolyarnykh molelml na grafite) PERIODICAL: Izventiya Akademii nault SSSR. Otdeleniye Ichimicheskikh nauk, 195% Nr 7: pp 1196-1206 (USSR) ABSTRACT. In this paper the details of a calculation-'of the adsorption energies of simple and compound molecules carried out in a previous paper are reprecented. The calculati= were carried out according to the forndw from paper reference 1 according to which the adsorption energy is determiLea by the expressione 6 1 C r- _ C r~4 0 + B! ii ij i2E r1j8 Ci3 ij j C r_6_ Ci2j:r-8 C r-10 + Bit ~:,-l 2 ii 13y~ 4i j ij ij i ij t i -.. Card 1A rij is the distance of the center of -the i-th adBorption molecule from the center of the j-th atom of the adsorbent. 0  A Contribution to the Calculation of the Energj of the SOI/62-59-7-7/3e Adsorption of Nonpolar Molecules on Graphite Cil,2,3 are constants of the dispersion reaction. BI and B" are the constant of the exponential function and the constant of the repul3ion precedina the powers. 9 is an exponential constant of the repulsion. The calculation is carried out in two parts, the geometric one in ... hich the distances of the adsorbed link to all atoms j of the lattice of the adsorbent are calualated fez different distances of the former from the surface. For this calculation only the lattice constants of the adsorbent have to be known. For the second part of the calculaticn of the forces the constants charaterizing the reactions of both substances have to be determined. The calculation of the sums of r.. was 3.j carried out for n - 6, 8. 10 and 12 for the different distances of the adsorbed link from the basis of the adsorbent equal to 2p 2.5, 3, 3.5 a (a is the distance of the nearest atn.,.i). In table 1 the recults of the calculation of the surao Er-n are combined. The distances of the remaining graphite ij Card 2/4 volume were determined from the integrals (3). (4), (5) (Table 2).  A Contribution to the Calculation of the Energy of the SOV/62-59-7-7/38 Adsorption of Nonpolar Molecules on Graphite ri n The sums F r- + I are represented in tables 4 and 5 and the 'J (n) rij/0.28 graphic representation in figure 2. The value Ze- for 9 in table 6 was equated to 0.28 according to referonce 6. For the sums of tables 4, 5 a simplified form with the constants Pn and qn, the values of which are given in table 7, is introduced and the functions (1) and (2) are represented in the variable z (6), (7)- ri r-n + f. V z-qn Next, the calculation of the ij n - n reaction constant Cil,2,3 is carried out. The values for different adsorptives are given in table 7 with the constants &-and)L (polarizability, magnetic susceptibility) being necessary for the calculation of Cil,2,3. ~' and viere then Card 3/4 determined by the aid of computed constants. The results for ~ 11  A Contribution to the Calculation of the Energy of the SOV/62-501-7-7/38 Adsorption of Nonpolar Molecules on Graphite are given in tables 10 and 11. The calculation of the attraction- and repulsion constants was carried out from the balance energy of the adsorption of compound molecules on the basis of an additive scheme. There are 6 figures, 11 tables, and 8 references, 2 of which are Soviet. ASSOCIATION: Institut fizicheskoy khimii Akademii nauk SSSR (Institute of Physical Chemistry of the Academy of Sciences, USSR) Khimicheakiy fakulltet Ifloskovskogo gosudarstvennogo universiteta 'im. M. V. Lomonosova (Chemical Department of the Moscow State University imeni M. V. Lomonosov) SUBMITTED; November 16, 1957 Card 4/4  AVGULI, N.H.; BMEZIN, G.I.-, KISELF.V,A.V.,,.LYGINA. I.A-. Adsorption and the heat of adsorption of n-pentane and n-hexane on barium sulfate. 12V. AN SSSR-Otd. khim. nauk no-11:1948-1954 n 16o. OAIRA 13; 11) 1. Institut fi%icheakov kbimii Ali SSSR. (Heat of adsorption) (Pentane) (Hexane) (Barium sulfate) 11  AVGULIg N.N.; BEREZINg G.I.; KISELEVt A4V.; LYGINAp I.A. Adsorption and heat of adsorption of normal alcohols ongraphitized carbon black. Izv. AN SSSR. Otd, khim, nauk no.2:205-214 F 161, (MIRA 11,:2) 1. Institut fizicheskoy khimij AN SSSR. (Adsorption) (Carbon black) (Alcohols) I  AVGULI 11 N.N.; KISEIEV, A.V.; IIA I.A. Adsorption energy of CO 21 -c (CHj)2ClD and (C2F ) 0 on ,~21 graphite. Izv. All SSSRO' Otd.khim.nauk no.8:33c.~Iiimig t61. MIRA .14:8) lo Institut fizicheskoy khimii AN SSSR. (Adsorption)  AVOULI, 'R.N.; USEIEV, A.V.; LYGINA., I.A. -------------- Adsorption energy of water., Cccholp# ammonia., and tethylamine on graphite, Izv. AN SSSR. Otd.khim.nauk no.8:1404-= Ag 161. (MIRA 14&8) 1. Institut flzicheakoy khimii AN SSSR. (Adsorption)  AVGULt, N.N.; KISEaT, A.V.; LYGINA~ I.A Isotherms and beats of adsorption of alcohols on carbon blacks of various degrees of graphitization (with sumnary in English]. Koll.zlxr. 23 no.4:369-375 JI"Ag"61. (MIRA 14.8) 1. IAstitut fizicheskay kchimili AN SSSR, Gruppa khimii poverkh- nosti, MoskVa. (Alcohols) (Ifeat*of adsorption)  AVGULI KISEMV I A.V.; LYGINA I.A. Adsorption and heat of adsorption of-isomeric butanols on graphItized carbon black. Koll.zhur. 23 no.5:513-520 S-0 161. (mm 14-9) 1. Institut fizicheskoy khimii AN SSSR, Gruppe, khimii poverk- I=sti, Moskva. , (Butyl alcohol) (Heat of adsorption)  AVOUL's N.N.; MELEV, A.V.; LYGINA, I.A. ........ Adsorption and heat of adsorption of diethyl ether, acetone, and acetic acid vapors on graphitized carbon black. Izv. AN SSSR Otd.khim.nauk no.12:2116-2125 D 161. (MIRA 14:11) 1. Institut fizicheskoy khimii All SSSR. (Adsorption) (Ethers) (Acetone) (Acetic acid) . I  AVGULI, N.N.; KISELEV, A.V-.; LYGINA, I.A. Adsorption-and the heat of adsorption of pyridine and benzene vapors on graphitized carbon black. Izv. A14 SSSR Otd.khim.nauk no-1:32-37 Ja '62. (MIRA 15:1) 1. Institut fizicheskoy khimii AN SSSR. (Pyridine) (Benzene) (Heat of adsorption) 0  AIGULIV N.H.; KISELEV, A.V.,, MINA, I.A. Potential energy of adsorption of sphere-shaped molecules of C--%43 C(CH3) . and CC~4 on graphite. Izv.AN SSSR.Otd.khim.nauk no*8:l346--I%3 Ag 162. 0-MRA 15-8) 1. Institut fizichaskoy kbimii AN &93R. (Adsorption) (~bleeules)  AVGULI., N.N.; USELEV, A.V.; IYGINA, I.A. r- Nblecular-statiotical evaluation of the change of thermodynandc functions in OR adsorption on graphite. ImAll SSSF-0td.Zhim. nauk no.8:135;-'1357 Ag 162. (1.01?A 15:8) 1. Institut fizicheakoy khim:Li AN SSSR. (I-bthane) (Adsorption)   -J: S/069/63/025/002/001/010 hL gature of Ad~orptioft by ze6lites. -Heat of A057/A126 ix, f wh -..are', our sites in the cavity walls having cations in their centers idhare f -:,":*vorab e for 1 the localization of benzene molecules. It can be assumed that the '..--:Stretched and flexible n-hexane molecules depend less.on the position of these cations.- Hence," the-adsorption of n-hexane is less lo' n to calized in compariso benzene.- The adsorption on zeolites, however,.is highly affected by the geomet 8 ture of the adsorbed molecules, the geometry of th and.eldetronic Ai-ua e cav ities, and the nature'of the eleotrio afield of the adsorbent. The packing of mol, eoul6s.of.'the adsorbate in the zeolite eavities,differs' therefore, from their Polyani's potential theory of adso tion can- packing-An the li4uid state. Thus not,be-appiie4 to "the -adsorption of hydrocarbon vapors by zeolitps. The state i packing of hydrocarbon molecules-iri zeolite cavities will find further ex- Planations by e;)Teriments with n-alkanes with molecules of-different-lengths and, I..': their substitutes with various . functional.~ groups, plane molecules, and different-- electron structure,as well as adsorption experlments with small molecules (ni- t 7;-,, rogen, argon). after* adsorption of highly adsorptive, large moleculeag which are 1 0 osely filling Uie cavities. There areA figures# .M6skoirskly.-imiversitet,'Khimicher.kiy,faku jj~~JATiON s 11tet (Moscow University, Card 2/3.-~- -047 L   VOT-1 L K, IE S V A , V. 1,Y GI A, f A I a:, S --a n. ~a r e .7 r no.S. Ag t o '.,tt 'iz ml I L  KISELEV~ A,Vo;- LYGINAO I,A. Potential energy of No, Aro Kro Xal and CH4 OrYfltal UttlOds, Izv- AN SSSR, Sar, khim. no.7t1143-1151 165. (MIRA 180) 14 1hatitut fisiahaskoy khimU AN SSSR, I  RATUSHNYY, G.D.; KOMAROVA, S.N.!j LYGIN.AN.I.-* POGREBYNYAK, E.G. 4 Application of ion exchange for the acidification of fruit and berry juices. Trudy KIPP no.22t371-37/#,161. (KIRA 16 s 4) (Fruit juices)' (Ion exchange)   LYGINA, T.I. ----NMMWW Zffect of phthivazid on the morphological picture of the blood. Vrach.delo no.5:487-489 W 157. (MLRA 10:8) 1. Kafedra farmakologii, (zav. - chlen-korrespondent AMN SSSR, prof. A.I.Cherkes) Iftyevskogo meditsinskogo institute (ISCNICOTINIC ACID) (BLOOD)  .LY(,, NA-V-12if " . . 11-:A- ~~. `,- ; -., - Cardiovascular changes induced by phthivnzid. Vrach.delo no.1:57-59 Ja 158. (MIRA 11:3) 1. Kafedra farmakologil (zsv.-chlen-korreopondent AM11 SSSR, -prof. A.I.Cherkes) Kiyevskogo meditsinskogo instituta. (CARDIOVASCULAR SYSTEM) (ISONICOTINIC ACID)  LYGIXk,. T. 1. Absorption, distribution and excretion of phthivaside. Yarm. i toks 21 no.6:62-64 N-D 158. (NM 12:1) 1, Kafedra farmakologii (zav. - chlon-korreapondent MM SSSR prof. A.I. Charkes) Kiyevskogo ordena Tradnvop-o Krasnogo Znameni maditainakogo in- stituta imeni akad. A.A. Bogomolftea. (ISONIAZID, metab. absorp., distribution & excretion (Itus))  LYGINA, T.L. kand.med.nauk Some pharmacological characteristics of ketone of paluitic acid. A~msh.l gin. 35 no.6:23-25 N-D 159. (MIRA 13:4) 1. Is laboratorii po lzyukaniyu I izachenlya protivozachatochnykh oredstv (zaveduyushchiy - prof. Te.F. Shamray) Instituta okhraav materinstva i detstva imeni Geroya, Sovetskogo Soyuza prof. F.M. bjyko (direktor - dotsent A.G. Fan) Ministerstva zdravookhraneniya USSR. (PATTY ACIDS pharmacol.) (CONTRACEPTIVES)  130GATSFAU, L.No, dot sent -#--ZLT- GINAv T.I., starshiy nauchnyy sotrudnik Pharmacological characteristice of giLlascorbin. Vrach.delo no.WO3 7 160. (KM 13:6) 1. Fafedra biokhimil (zav. - prof. Te.F. Shamray) Kiyevskogo meditsinskogo instituta, (ASOMB IC ACID)  I:ZGL,-,i.il V. V. "Obtainln- of 11ohnite ~ lazi - : I',rorth` -* ~~ .1 -, n-'. (ITI-i- ite) DLU-in, Reactions in "he -, 4- L~, v r-- . 11 r, n i 'I -.o1-' ' 1 n I-VI Q I -~ 1, '1" -L Sci [no Inst --iverij, L-enin--,rad, 1954. (HZhr;,.-,ol, 3e-P 54) .2 u SO: Sim 1+32, 29 ALar 55  15-57 -7-9443 Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 3, p 103 (USSR) AUTHOR: Lygina V V TITLE: Obtaining Gehlenite and Anorthite by Reaction in Solid Solution (Polucheniye gelenita i anortita pri reaktsii v tverdom sostoyanii) PERIODICIL: Uch. zap. Leningr. gos. ped. in-ta, 1956, Nr 117, pp 33-54 .ABSTRACT: Pure preparations of CaO, CaC03, Al 03 Al(OH)3, and S102, crystalline and amorphous, an~ ne-varly pure kaolin were used as the initial products for synthesizing geh- lenite (2CaO-Al2O3-S'02) and anorthite (CaO-Al2O3-2SiO Preliminary treatment consisted of heating, drying, ani, determination of the chemical composition, chiefly to determine the iron oxide admixture. A mixture having the stoichiometric relations of anorthite and gehlenite was prepared from carefully ground material. Minerali- Card 1/3 zers were added in the proportion of one percent by  Obtaining Gehlenite and 1-morthite by Reaction (Cont.) 15-57-7-9443 weight. These were: apatite, fluorite, cryol"te, molybdic acid, and tungsten anhydride. The mixtures were heated in elec- tric furnaces at 9000, 10000, 11000, and 12000 for periods of 2.5 and 10 hours. The products of roasting were examined in immersion media under the microscope. In some instances X-ray powder patterns were made. The reaction rate in the solid state proved to be very low, especially when the mixture consisted of the pure oxides CaO, A1203, and S102. The rate increased mark- edly when a gas phase was present; when CaQ was introduced in CaC03, and A1203 was derived from Al(OH)3, The use of amorphous S102 in addition to crystalline material somewhat increased the reaction rate. Fluorite and apatite proved to be the most effective mineralizers. Study of the synthetic products of the temperature stages from 9000 to 12000 has shown that the same intermediate products are formed during the synthesis of both gehlenite and anorthite. A schematic coarse of reaction for both minerals may be represented by the following intermediate reaction equations: 1) nCaO + mA1203 = nCaO4mAl2O3 (n,,m = 12:7); 2) 2CaO + Si%= P-Ca2S104 or 3) nCaO-mAl 0 +S102 =,8-Ca2SiO4 + CaO- A1203; 4 8 -Ca2S'04 + A1203 = CaO. ~12k + CaSiO3; 5) Card 2/3  obtaining Gehlenite and Anorthite by Reaction (Cont.) 15-57-7-9443 CaO-A1203 + CaSiO3 = 2Ca0-,Al203'Si02 (gehlenite); and 6) 2CO-A120-4-SiOo + 2SiO2 = CaSiO + CaO-Al2O3-2.'3iO2 (anorthite). According'*'to this scheme~,gehlenite is formed from the high- temperature combination of CaO-A1203 and CaSiO and not from 12Ca0-7Zl203 and CaS103 a's Yander (?) and Petri (?) had stated. Gehlenite, as an intermediate product during the formation of anorthite, was discovered in slags composed Of CaC03 - kaolin, and this, too, is in disagreement with the results of Yander and Petri. The optimum conditions for synthesizing gehlenite and anorthite by reaction in the solid state are a temperature of 12000 and sustained heating for at least 10 hours. The initial materials for this synthesis should be amorphous S102, CaCO and 1.1(OH)3. The sequence of formation of combinations in Re, solid state in the system CaO-Al2O3-SiO2 has shown that the most mobile component in the system is CaO, and the most inert is S102. This circumstance may explain the earlier and more frequent formation of gehlenite in these experiments than anorthite, and also the rare discovery of gehlenite in nature as an intermediate reaction product during the formation of anorthite. Card 3/3 A. A. Leontlyeva  -LYq~4Aj,-,Y-Y-j.--SARANCHINA, G.M. Geology and the characteristics of the metamorphism of crystalline rocks*in the northern part of the Karelian Isthraus (in the vicinity of Kuznechnoye). Vop,magm.i metam. W15-137 164. (MIRA 18:3)  Terminology in orthopedic stomatology. Stomatologiia 35 no.5:48-50 S-0 !56 (MWIA 10: 4) 1. Iz kafedry chelyustno-liteavoy khirurgii i stomatologii (nach.- prof. V.K. Mukhiu) V6yeano-medltuiuskoy ordana Lanina akadamii imani S.M. Kirova. (STOMATOLOGY-TERMINOIDGY)  LTGUN. M.I, (Leningrad) --l- ------- Iftmotional method of determining central occlusion. Stomatologiia 38 no.5:50-52 S-0 159. (MIIU 13:3) (MASTIGATION)  LYGUN, M.I..... cu) ~.(Bak A few practieal ouggestulana In 'the tec~mique of dental pron thesis. Stomatologiia 42 no.39101 Ky-Je'63 (MLA -1'7 a!)  AUTHOR: L2&T4 SOV/130-58-7-1V35 TITLE: Friendly Mutual Assistance (Tovarishcheskava vzainopomoshch') if 1, PERIODICAL: Metallurg, 1958, hr 7, P 34 '+ 4 plates on pp.14-15(USSR) ABSTRACT: The author stateb u"at the crew of his blast furnace at the imeni Dzerzhinskogo (imeni Dzerzhinskiy) Works produced 3,989 tons of pig iron more than planned in the first quarter of this year. He says that efforts are being made to increase production still further and notes that the competitive marks system has been abandoned. All are now helping each other. There is 1 illustration. ASSOCIATION: imeni lizerzhinskiy Works Card 1/1 1. Blast furnaces 2. Iron--Production  ~,'LM, Karoly Bertalan Szekely; his historical paintings, 1860-1870. Elet tud 15 no.22.-067-690 29 MY 160.  LMU, Karoly Light and color dreams of Janos Vaszary. Blet tud 15 no.30:943-9/+7 24 n l6o. A~.  LYKA, Karoly "Becoming acquainted with arts" by Tivadar Artner. Reviewed by Karoly Lyka. Elet tud 15 no.36tI146 4 S 160.  Munkaony and his Hungarian people. Elet tud 15 no.45:1423- 1426 6 N t60.  LYUp Naroly The master of Zabegeny; to the memox7 of istvan szozqi. p_jet tud 15 no.51s1614,1618 IS D 160.  LM , Karoly In omemoration of Tozoef Egry on the 100th anniversary of his death. Blet tud 16 no.8t240-244 19 F 161.  LYKA, Karoly Joan Francoiq Millet, painter and poet of village !--.'L-le. -Elet tud. 16 no.53zl680-1684 31 D 161.  44 0- Kuoly-'..- To the memory of Karoly Kernstok. Elet tud 17 no.33.-1038-1042 19 Ag 162. %  LYKA, Karo Paul Gauguin.4,painter of the tropics., Elat tud 17 no-24:751-755 17 Je t62.  KVI (m) /EWP(k) /E74P(t) /FTT In ACC NRt 14 A AR6013850 I 0_,__,-_S_0__U,RCE CODE: 1JR/0276/65/000/01176W67GO46 AUTHORS: Gerike. L.; Volchkov, Ye.; Iqkasov, IT.; Bogarsukovo is TITLE: Department of high accuracy casting with the use of malting patternsp at the Kuznetsk machine construction factory SOURCE: Ref. zh. Tekhnologiya mashinoatroyeniya# Abe. lIG360 REP SOURGEt Tr. Mezhotrael. n.-i. proyektno-tekhnol. in-ta. po a:wtomatiz. i mekhaniz. mashinostr. VYP. 1, 1963P 154-159 TOPIC TAGS: metal caotingg machine industry ABSTRACT: A casting department,'designed by the MlIMMASh inst.itute. for producing 1000 tons/Year, in described. The project includes three independent sections: a section for producing low temperature melting patterns, application of heat resistant layers, drying of the molds and burning out the patterns; a section for drying, formingt firingy pouringg and remov~vl of the caotinga; a section for trimming, clean- ing$ and 'Leaching of the cactingsoft) early output per worker will be 1-5 times higher than at the cacting dopa_rTm_e_n__~_of1ho Podollsk mechanical factox7 and 2-5 times higher than at the oxiating casting department of the Kuznetsk factory. 4 illuatra- tiona. Bibliography of 4 titles. L. Yanovokaya Oranslation of abutraeg SUB CODE: 13 11 ca UDCs 621.74.045  LYKHACHEVo M. F.~ LIUBINOV9 A. L.j,.STAVVISKIY; V. S., "Gas Cerenkov Counters of the K -Meson Channel of the Syvehronophasotron" paper presented at the Intl Conference on High Energy Physices Rochester, N. y. and/or Betkly California,, 25 Aug - 16 Sep 1960.  L 9MRAfifi_ DUN- ALEWP(t) TJP(c) ACC NRt AP6005560 k SbURCS CODE: Ult/0148/65/000/010/0101/0105 AUTHOR: Grdina, Yu. V.; Lykhlnv--I. D. 3,5 ORG: Siberian Metallurgical Institute (Sibirakiy metallurgLebeakiy institut) TITLS;~ Structur* of vanadium-carbon alloys SOURCE: IVUZ. Chernaya metallurgiyaj,no. 10, 1965, 101-105 TOPIC TAGS: vanadium containing alloy, carbide, ternary alloy, phase composition, chemical composition ABSTRACT: To fill.the gap in the existing knowledge of the phase com sitio Of Fe-V-C ternary alloys, it is primarily necessary to investigate the composition and structure of the carbide phase of the V-C syrtem. So far there has not been much agreement on the chemical composition of the carbides in the V-C system but at any rate it is now generally admitted that two types of carbides form in this system: with hexagonal (V2C) and cubic face-centered lattice (VC). But the boundaries of homogeneity of thi-carbide phases have not previously been conclusively determined. In this counectiong the-authors investigated alloys made of pure V (99.825%) and spectrally pure graphite. One part of the alloy was investigated in "natural" state while the other was vacuum-annealed (10-3 mm Hg) in quartz tubes at 1000, 750 and 5500C for 100 hr, with subsequent metallographic and radiographic examination of the Card 1/2 UDC: 669.292:669*784:620,183  24 Aco K, 4t. b .04~c r ot COX L St to- %e 0 OVL 0 C, tese tuo e 9%,0 ca tto 10%4 r;o -COON 'g-ce toO tue Oe - toe et VI A - 'It ot e ,,Cgo. ,,jttc -Cef, 4-0 ,o 101 0 0,10 ;jo~.Je C21,90 oqls $ kV eov d 'Vec, Ve oo~ e s ca 'a 0t G e. COOS C, cob olos 1.0-co eAl lot lillte Is tec 164 Ct Ve a ivaa Cob OVA elc 0 ov? 49 ,Ve b t j,.tX% 50-W tue ~.l 1 9. to tuo vo t, ""oe CA V-0 00 0 spio 1(0.6 rilcoo tO %$6f 6199 -. Lo Cb5l 144 glob 09N? Iva -466 'gi-466 lot Ott-So  L 2CY788-66 ACC NR% AP6005560 specimens and electrolytic precipitation of the carbide residue. It was thus evi-ab- lished,that the homogeneous region for the carbide V2C with hexagonal lattice extends from 9.6 to 10,45% C (wt.), while for the carbide VC with cubic lattice it extends from 12.5 to 17.8% C (wt.). A comparison of the findings with the conflicting data available In the published litevature shows that the lower boundary of stability of the vanadim carbide VC with cubic lattice cannot as yet be conclusively established owing to the diversity of investigating techniques employed by various researchers. r On the otbAr havd9 the findings on the upper level of concentration of C in the ca bides VC, spoic'Ifying it at from 16.6 to 17.8%, are generally in close agreemente OrIgo art. has: 2 figures. 2 tables. Yi V C=t -110 13j 20/ SM D&TS: 02Apr65/ MIG RM 004/ M IV: 006  P.A.. kWidat takhnichookikh nauk. - 'Choice of borehole diameter in underground mining.* T.K. Mostkov. Reviewed by P.A. Iqlffiln. Ugoll 31 no.6:48 Ja 156. (MA 9:8) 1. Dallnevostoohnyy politakhnichaskiy Institut iseni Ituybyshava. '(Boring) (Moatkov, V.M.)  Ipandrovich; UTKIN. L.A., red.; TSYMBALIST. N.H., red. izd-va; red. [Using drilling and blahting techniques in intensifying horizontal mining] Intensifikstsiia provedeniia gorizontallnykh gornykh vyrabo- tok buro-vzryvnym sposobom. Sverdlovsk. Gos. aauchao-tekha.izd-vo lit-r7 po chernoi i tovetaoi zetallurgii, Sverdlovskoe otd-nie, 1957. 137 P. (MIRA 11:3) (Mining engineering)  KH / NJ 3-58-3-22/32 AUTHOR: Lykhin, P.A.p Candidate of Technical Sciences TITLE: On the Experience of Establishing a Semi-Industrial Mining Laboratory (Iz opyta sozdaniya poluproizvodstvennoy gornoy laboratorii) PERIODICAL: Vestnik Vysshey Shkoly, 1958, Nr 3, pp 76 - 76 (USSR) ABSTRACTs Laboratory exercises of mining students frequently are riot adequate. The students have access only to models cr i-.quip- ment which enable them to study the construction and material of the machines, but are given no opportunity to work on them. The student, therefore, cannot gain sufficient knowledge of a machine. Also, during practical training he is usually not permitted to operate a machine. Thus, a mining student of the 3rd or 4th course is often unable to properly carry out a number of taaks, including blasting operations. To improve the training of mining engineers, thp Chair of Mining of Mine- ral Resource Deposits of the Far-Rast Polytechnical Institute imeni V.V. Kuybyshev decided to organize an underground labo- ratory for boring and blasting operations and drifting. The Card 1/2 laboratory will consist of a net of drifts of 150 m An length,  3-58-3-22/32 On the Experience of Establishing a Sf~_- i -Indd u3 trial Mining laboratory including the adit, an ole~;trical sub-station, compressor chamber, locomotive depot, the end of the mine's blind shaft with the chamber of a hoisting machine and several operating stopes of horizontal and upward workings, connected with the surface. The students viorz;,ed Puccessfully in this mining Laboratory during 1956/57., The construction of the under- ground laboratory is not as yet completed. There is 1 photo. ASSOCIATION-t Dallnevostochnyy politeklinicheskiy institut imeni V.V. Kuybysheva (Far-East Polytechnical Institute imeni V.V, Kuybyshev) AVAILABLE: Library of Congress Card 2/2  SOV/118-58-11-6/19 AUTHORS: LykkLaA.P.A.9 Candidate of Technical Sciences, and Nevench--e--nTo', I.I., Engineer TITLE, The Execution of Mine Working Using the PK-3 in the Far East Coastal Region (Provedeniye gornykh vyrabotok kombnynom PK-3 v Primorlye) PERIODICAL: Mekhanizatsiya trudoy8mkikh i tyazhdlykh rabot, 1958, Nr 11, pp 21-23 (USSR) ABSTRACT: This is an article referring to the use of the coal combine, type PK-3, at the Artemovskoye burougollnoye mestorozhdeniye (Ar1temovskoye caE!Ldeposit ) in the Primorlye territory. In 1957, a total of ),282 linear meters of excavation were driven by the PK-3 combine. The avernge speed was 273 meters per month (for technical details see Table 1). On the whole, the operation of the PK-3 horizontal driving combine is said to be satisfactory, though 17 % of the working time must be wasted for removing a 40 cm thick layer of coal or rock Card 1/2 rhanually. Other deficiencies noted: the face flushing  SOV/118-58-11-6/19 The Execution of Mine Working Using the PK-3 in the Par East Coastal Region system does not work satisfactorily, the PT-3 combine has no appliances for mechanical roof supporting at the stope. There are 6 tables. 1. Mining engineering--USSR 2. Industrial equipment--Perforjrance Card 212  SOV/11 8-59-3-10/U 28(l) AUTHOR: Lykhin, P.A.) Candidate of Technical Sciences TITLE: Use of Diesel Motors in Underground Conditions (Primeneniye dizelfnykh dvigateley v podzemnykh uslov- iyakh) PERIODICAL: Mekhanizatsiya i avtomatizatsiya. proizvodstva, 1J'5J, Nr 3, p 30 (USSR) ABSTRACT: The application of diesel motors in underground condi- tions entails great difficulties, especialiy in connec- tion with the clearing away of gas. Nevertheless, such means of transportation have been employed in the pits of British Columbia since 1950. Much attention has to be paid to fire security during the use of equipment. It is recommended to use diesel fuel with a burning point of not lower than 660C. The machines should be charged in specially equipped rooms. Experience in the use of diesel motors in underground conditions shows that the established security regulations do safeguard normal Card 1/2 working conditions. Industry produces various kinds of  SOV/.'.18-5j-3-l0/f-:2 Use of Diesel Motors in Underground Conditions equipment using diesel motors, with an output of 40-1,20 HP. Enterprises possess explosion-safe equipment with diesel motors, successfully employed in the pits, endan- gered by explosions of gas and dust. The gas purifier is in the form of a metallic tub filled with water. Explosive gases passing though it lose their p04 sonous components. Experience shows, that the best diesel fuel for underground work has its burning point near 580C. Card 2/2  LYKHIN,--,P,A.~ kand. tel-din. nauk; PETROV, S.A., kand. tekhn. nauk; ZILIBERSHMIDT, V.G., inzh. Using detonite in the making of lateial drifts in coal mines. Vzry-v. delo no.55/12:115-120 164. (MIRA 17:10)  7AAKHAROVO IU.A.; BOLDIREVp V.V.; LYKHINj V.M.; VOTINOVAp L.A.; SAVELIM, G.G.; BREGER, A.Kh. Study of the effect of preliminary irradiation on the thermal degradation of silver oxalate containing cadmium admixture. Dokl.AN SSSR 145 no.1:122-3-24 Jl 162. (MMA 15:7) 1. Nauchno-isoledavateliskiy institut yadernoy fiziki, elektroniki i avtomatiki pri Tomakom politekhnicheskom institute imeni S.M.Kirova i Fiziko-khimicheskiy institut imeni L.Ta.Kaprova. Predstavleno akademikom M.M.Dubiniwjm. (Silver oxalate) (Cadmium) (Radiation)  BOLDYREV, V.V.; ZAKHARCYV, Yu.A.;.L)~~HIN, V.M VOTINOVA, L.A. Effect of the addition of cadmium ions on the thermal stability of silver oxalate. Kin.i kat. 4 no.5;672-682 S-0 163. (KIRA 16:12) 1. Nauchno-issledovatellskiy institut yadernoy fiziki, elektroniki i avtcmatiki pri Tomakom politekhinicheskon institute imeni Kirova.   7: ---- ---1 25i4i,,'6 L ION,-NR- :--AC.CE AP5001518 ion a .e an not coine de,~ dtxe~ app-arently bf in did me to atip'n 6 th rlitritd on, on the I following ionfiati of the air or increase of the oxt undet. irt aU00. Linear depeedence of the initial radia- -ift lite ssoclat n ou -free voI m 0 pu the cell Points e -of 4 the. c, emejitAl c~eystal *6 h Y. Of the Cr yst W. ffeCt Qf't i_- packing densit als an azide radi ysis- ~v _Odg, d Iffu di6h:of the- e rad ~tjotj vroduct,--- CrYstal density med th~ '0 -important -determinan 'of r'ad'iation- induced yield, in contrast to'-' see at t that for tliermi-alAis'- on theses salt,' I, this s"arts from actitre locltioris at exterior arid: interlor.,defectS of- the crystal surface and is basically determined by M, th rel e an electron fro; the azide ion. Radiation and thermal dissociation :coir ida*lthough their endproducts are the g~lmc. "Trradlition was thus donot ic conducted h -instrument o ar on. t e gamma f the Institute of Nucle Physics of the vilsh Ita-exprew" their Orig~: art.:jfta6-,,I_tabIe and 2figurea AS~OCJATION! ~Aftatitu( khir~iehedkoy ~kl, _P~Hki, f gareniya. Sibirskop ol dclen~ya Akadeiai of Che"mbqaI Kinetieg and:Combu.5-tion, Siberlan Division .6-caderny of Sc-ience5 SISSR); yad~'Ri_-_ oy, fiziki pri Tomokom. poll' inatittit im. S, M, Kirova (Sc-tentific "77'  ACCESSION:NRIAP606 :: Res- at ~611 uisfflvjt e,6r. g~01ediviiYaj O.'s, Tojiisk,' Pol~tecftnlcaj Institue) ENCU 00 13 oor.: I C tlqR 148P SOV' OTI . Cara 3 1~3  OBLIVANTSEV, A.N.j LYKHIN V.M.; 13OLDYREV, V.V. X-:-=- Pz-dio2yeiB of alkali metal perchloratoo under the &-.tic;n of gama irradiationo Zhur.VKHO 10 no.53598-599 165. (MIRA 18ill) 1. Tomskiy politekhnicheskiy institut ixwni Kirova.  ACC NR, AP6029225 SOURCE CODE: UR/0195/66/007/003/0432/0430---I AUTHOR: Boldyrev, V. V.; Lykhin, V. M.; Oblivantsev, A. N.; Salikhov, K. H. iORG - Institute of Chemical Kinetics and Combustion, SO AN SSSR (Institut khimicheskoy kineti~i-i goreniya SO AN SSSR); - S'c"i'entikic 'R~s`earch Institute of Nuclear Physics, Tomsk Politechnic Institute (Hauchno-issledovatellskiy institut yadernoy fiziki pri Tomskom poU_ta_Knrcfi_es)C6m_institut) I/ TITIX: Effect of additives on the radiolysialof potassium nitratell SOURCE: Kinetika I kataliz, v. 7. no. 3, 1966, 432-438 TdPIC TAGS: radiation chemistry, radiation effect, potassium compound, gamma irradia- tion MiTRACT: The effect of Tl~, Sr+, Pbz+, and S04- on the radiolysis of KHO3 was studi- ed using a CobU y-source. The samples were prepared by fusing YJTO3 with 0.1-5 mol of TlNOS, Sr(NOj)Z, and KZS04 at 3400C. The 0.02-0.07 mm fused nitrate grains were .T.Poules, sealed, and irradiated at 350-400C at 400 rad/sec. It was placed in glass a found that the Tl additive results in increased radiative yield of potassium nitride, the final product of the+potassium nitrate radiolysis. It was also found that up to 1019 ev/g doses, the Srz and Pbi+ additives result in increased potassium nitride yield; doses of greater intensity produced lower potassium nitride yields than those Card 1/2 UDC: .541.15117