SCIENTIFIC ABSTRACT SOLOVYEV, A.M. - SOLOVYEV, A.V.

ACCMION NRt Ap4o4lo68 S/(XL70/64/OCO/006/0006/0012 AUTHOR s Deyev, V. L; Solov 1y*Y A. K. MlUt Concerning the boiling mecj anism of liquid sodium on a heating surface with natural convection SOUFCE: Inzhonerno-fiziahaskiy zhurnals no. 6. 1964j, B-12 TOPIC TAGSt liquid sodium boilingp bubble boiling.. vapor generation center, bubble &rowth rate.. bubble breakaway diameters thermal conductivityp thermal diffusivity, liquid wettings vapor nucleus, heating surface depressions viable I nucleus size, heat exchange coefficients natural convection ABSTERAM The boiling of liquid sodium on a heating surface with natural convection was studied. A bubble type boiling of a wetting liquid vas assumeds and the results were caVared to water boiling under normal conditions, The boiling was studied by considering the various stages in the life cycle of a bubble formod at vapor generation centers (holes in the heating surface), Apdr nuclei formed at the generation centers are viable only above a critical size wil-Lich depends on the form of the vapor generation center and the degree of Card 113  AcussioN NR, Ap4olao68 wottability of the surface by liquid sodium, It can be calculated on the basis of the work by S. S. Kutateladze (Oanovy* toorii toploobmana. ~Whgiz.# 1962), va34d for vapor formation in a superheated liquid. This method of calculation MW be used in a nonuniform temperature field, provided the temperature chanGe over a distance comparable to the nucleus sizo is small and can be disregarded. The critical sodium nucleus in larger than that of water and decreases under in- creasing pressure. The rather largo nucleus size required in the case of sodium limits the number of generation centers. On a smooth surface boiling is difficult and occurs only in the superheated liquid at the heating surface. For this reason,. in liquid sodium the degree of roughness or the heating surface has a significant effect on the heat exchange, Bubbles above the critical size grow quickly by absorbing vapor of the superheated liquid on the heating surface. T1* coefficient' of heat exchange for liquid sodium at low pressures is close to that for water under normal conditions. The bubble growth rate in sodium in Urger than in water as a result of the greater sodium thm*mal diffusivity; the rate of bubble growth and broakaway diameter can be calculated. The breakaway mechanism differs consid- erably from that in water due torrapid bubble growth requirina the liquid rosistarl~. force to be included. At lower pressures the surface tension foroo can be ignored,,*,, but at higher pressures it becomes comparable to the resistance. At atmospheric N7.  ACCESSION M AP4041068 I pressure soditua and water breakaway diameters are coVarables but at lower pres- cures the sodium bubblo diameter is greater. After breakaway of the bubble a now bubble cannot form until the liquid is again superheated. The necessary time can be calculated and is related to thermal conductivity, Since sodium bubbles are larj;er) tho reheat time must be longer in order to produos a suffi- ciently thick superheated layer, As the bubble rises to the surface there is &n inlElenso hoat exchange from evaporation into the bubble. This causes constant bubble growth. Sodium bubbles are sluVed like mushrooms and rise sit 24 cm/880 (as do water bubblos)p but their faster growth causes than to attain a larger size than that of water'bubblese Orig. art. hast 6 equations, ASSOCIATION: Institut teplofiziki Sibirskogo otdelaniya AN 8=9 '!Novosibirsk' (Institute of Thermal Physics., Siberian divisionAN SSSR).. SUBMTEDs 29Apr63 SUB CODEs MIA, TD Card 3/3 NO REF SOV: 003 MVLt 00 OTMI On  KAiV,-,. A.,~.; :AKk.(;VA. MI.; SOLU.'"i.,"': A.:i. ,;i-w -' * ~, r, . " . - -- z. &It'r. : a ~-, .-4 ,:-.,j . I - , I " - - ~ '.,. L . -11 . , .1 ~ I , . - ~ . . -..- 10 -a ~ , 'i : A , '~, , ~ ;` 11 1. instlitut, teplol'izikl Slblrok,-.,o o',(Je`c-%i-.a A .L -  L 45627-0 EYIT(1)AYT(m)/EPF(n)-2/EM(v)/EPR Pe-5/Ps-4/Pu-4 WWICK; ACCESSION NRt AP5oo6476 a/oegh/65/003/001/0139/0148 AUTHOR% Solov'yev,, A. N.; Kaplunt A. B. TITIEs Concerning the vibrational method of measuring r It Ids V, a", t -WRCE.- Teplof171ka vysokikh temperatur, v- 3, no. 1, 1965# 139-148 Topic noss, viscoalty$ vlocosity-measurementp vibrational methoe. -j ABSTRAM The article describes a vibratioisa method develo-pe W.-the- lostitut----- -t"li)lofizlld--Oiblrskogo-otdeleniya -_(Xnatitute'of 4itermopbysicsf- Sibikrian Depart- - Al - -descriptim-con qts, nent) AN BSSR f9r a variety of measurment e6oindtIonpvF!Fi-- of the tbecn7 of the methodp analysis of Its c"bilitteag a~d the latest ver- slons of the actual equipment. The theor7 Is based on determining th" viscosity from the equations of motion of a known mass vibrating in the tested liquid. The theoretical analysis ahows that of the more than ten possible combinations of quan4 t1ties In the theoretical forbad& for determining the viscosity, the greatest practical interest Is attached to only two caseag one In which the oscillation frequency to chosen to maintain a phase ablft Ir/2 (&vplItu4e-ph^xe wthod)p and Cord 1/2  L 451627-65 ACCESSION KR: AP5006476 one in which the oscillation frequency In chosen to mftke the amplitude maximn-1 (amplitude-amplitude method). The two methods are amlyzed. Two viscosity meters constructed at the Institute, based on the saTlitude-amplitude method, are des- cribed. One is a small instrument for molten metals, and the other to a V-1acost- ty meter for continuous measurement of the viscosity of a moving liquid. Orig, art. has: 9 figures wA 10 formulas, ASSOCIATIONt Institute teplofitiki Sibirskogo otdolentys Akademil nauk OSSR (Institute of Thermqftolcsp Siberian Department Acedewy of Sciences SSSR) SUBMITTED I LVW64 EMM 00 am CCOZI HE WR WT SOVt 009 OTM t 003  I i - - - t% A-w-t 1,167h2m6&.- _3iVm)/EFE(n1.2/JUL44 -IJP- F XCC-M7-X P 5 0 2 19 2 2 S 41~ E~Ct~ UR 02VY-li, V/000/004/0174/0~ ~;7~6_7 AUTHOR: Kiriyapenho-, A. A. (Novosibirsk); Makarova-L_Q. 2., (Movosibirsky,; Romanov, V. D. (Novosibirsk); Solovlyev, A. N. (Novosibirsk) J ORG: none TITLE; Experimental investigation of surface tension in liqui4/sodium SOURCE: Zhurnal prikladnoy mekhaniki i tekhnicheakoy fiziki, no. 40 19659 174-176 TOPIC TAGS: surface tension, Admpeft sodium, liquid metal ABSTRACT: An experimental apparatus was built to measure surface ten- sion in liquid sodium at high temperatures. A block diagram and des- cription of the apparatus are given. Pure grade sodium was fed into a crucible (preheated to 400-5000C) filled with pure helium. The experi- ment was conducted in the temperature range of 100-9370C. Thermocouple were used to measure the temperature of the cruci4le. The floatin plate used in the experiment was made of lXhION9 I'slainle a steelX it was found that immediately after melting, the values of surface tinsion were about 5-8% lower than those obtained after longer period* (1-1.5 bra). Measurements of surface tension in liquid sodium are given in Cgd 1/ 2  L 16742-" F-ACC N& AP5021922 the following table. P 1 7. C P 1 71 *0 7.-C 1740 159.5 4740 212.4 20M 165.0 WID 16t.0 WO 215.5 30010 184.1 2220 169.6 5400 U0.7 4000 2(K.I 248D U6.2 6370 228.5 5M 215.3 20M 182.7 732D 240.4 MW 220.4 3150 186.0 7670 246.5 7000 237.2 3580 193.8 8910 256.8 MW 247A 4140 2D2 2 10100 267 1 90W 257. a 4270 207:2 1 H120 278:3 1 10000 1 267. f 1100D 276.1 Surface tension was calculated according to the formula 0 C (IzdI + F) 2(s+x) where t, x = width and length of the plate, lx submersion depth, d x density of the metal and P a force. The interpolation line drawn from the data is given by the equation; a a 202-0.91(t-98). The mean square deviation from this line is 1.47%. Orig. art. has; 3 figures, I table. SUB CODE: 11, 201 SUBM DATE: 23Mar65/ ORIG REr: 002/ OTH ROF: 005  t (M)17Z~W:Ff I NF(c) D ACC NRi AP6014063 SOURCE CODE: UR/0294/66/004/002/0189/019 ALMHOR: Solov'yev, A. N.; Makarova, 0. P. nstitute of Heat Phys ~ORG: ics, Siberian Department, Academy of Sciences SSSR (Insti- Itut teplofiziki Siblrskogo otdeleniya Akademil nauk SSSR) JIM: Investigation of sodium and potassium surface tension ikh ~-4era 2'z no. 2 1966, 189-195 !SOURCE: Teplofizika vysok e tur, v. ITOPIC TAGS: Liquid metal, surface tension ABSTRACT: The surface tension of liquid sodium and potassium was determined up to 10000C and 8000C, respectively. The measuring apparatus is described In detail. A thil flat plate Insertion into the liquid metal was used as the most direct method to make these measurements. The apparatus was tested with other liquids for calibrations and experimental checks. About It deviation ft accepted data was achieved. Some effect of impurities in the tested metals was noted and resulted in 5% to 8% differences in measured values of the tension when these measurements were taken just after melting and a few hours after melting. The temperature dependence of the surface tension In shown graphically and compared with results of other workers and saw of the differene es are discussed. Orig. art. has: 5 figures, 2 tables. SUB CODE: 20,/// SUBM DATE: l2Mar65/ ORIG REF: 002/ OTH KEr*. 006 Card 141-011 Liquid Metal 1P UDC- 532.~:5464  ACC NRs U'6029775 SOUIRCE CODE: UR/0294/66/004/004/0503/o5o6 AUTHOR: Solov'yev, A. N.; K4plun, A. Be ORG: Institute of Thermophysics, Siberian Departnent AN SSSR (Institut teplofiziki ,Sibirskogo otdeleniya AN SSSR) ,TITLE: Approximate calculation of the surface tension%f molten alkali metals SOLMCE: Teplofizika vysokikh temperatur, v. 4, no. 4, 1966, 503-5o6 TUPIC TAGS: alkali metal, Mquid metal, surface tension, fluid density ABSTRAGT; In view of the contradictory experimental and theoretical data on the sur- face tension of liquid alkali metals, the authors derive an approximate formula de- scribing the effect of density on surface tension in these simple liquids based on the free volume concept. The final formula RU V_V9 -(V - V#) -2 2 It I is easily reduced to the Edtv6s equation if density Is a linear function of a IL ) C (7,, - T, 6) , P  ACC NR. AP6029775 Nhere p is molecular weight, p is density, 6 in the thickness of the Interphase layer band C is the Ebtvds constant given by the formula RMU46 C = 2uTcr 'where m Is the mass of a hydrogen atom. Substitution of the constants In the final Tormula gives the expression 0,247T PP/PQ) It V- (P/PQ) 1which is convenient for practical calculations. Results calculated by this formula !for lithium. sodium, potassium, rubidlum and cesium are ccmpared with experimental Aata at temperatures from 29 to 13000C. The divergence amounts to only a few percent. brig. art. has- 2 tables, 6 formulas. SUB CODE: 201 SUBM DATE; 1OMar65/ ORIG REF: 004/ OTH BEF: 008 1~ard  a . 0 ~Itlij u IS" file it a x 0 v a A 6 9 a N a 10 v a 0 a I, jj ti 41 Oro A_&_L ll r 9 J1 S 1 0 %X 0 U.m 4 6 f s ! # AT 17 so to Al 11040ol. Now. MI. No. 4. al A 111M.- -An mrP. to illustrated saill dewribftl uut ttpkW 40% befle" 0. see *0 400 00 if' asill so* 00 u 1 41 so As a T--c V I, I,* Ile 00 ol W* 09 0 No 4 00 00 00 N 0 0 0 0 0 0 0 0 0 0 : 4 Ol a I 1 9 a 0 1 a v 0000000 0000 : : 0 oi : : : :_ : 00000 lag fee*  -- --l :i 7 # -_-,V , A . I!- . ?'1-167 ft.-sch,,t Nlorr: F-r,-~vnoty Polvfebriket-)v Denti. Ilk s t I I . Proc.-at'. 19L.9. !7o. 6. c. 11-1,: SO: LFTOPIS '110. 11. jqLq  t I , . I . . ~ A , '. . ! . . v I . I . r I : , . I , . I I I I A , I i ~ , I ; 4 , ~ . I , I I I I ~ I I I , . : , : : - I - ; . I : , % . ' A (A ' - - , . . ~ I ' A T - _ , ~ ~ ~ - I ~ C i ~ ~ I  SOV/124-58-7-8310 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 7, p 13Z (USSR) AUTHOR: Solov'yev, A.N. TI T L E: Deformation and Endurance of Cotton Yarn of Various Twists (Deformatsiya i vynoslivost' khIopchatoburnazhnoy pryazhi raznoy krutki) PERIODICAL: Nauchno-issled. tr. Mosk. tekstil'n. in-t, 1954, Vol 14, pp 134-149 ABSTRACT: Results are described of an investigation made of the in- fluence of a yarn's twist on the elastic and plastic parts of the gross deformation in yarn subjected to tensile stress and on the endurance of yarn of different counts. G.P. Reshelyauskas propertlej Thread--Test results Card 1/1  I - - - -- - - - - -- I - - i -  Daternalantlem of Lts marlmem shrinklag of (abric. A. N- SAWtv. TrIsId. Prow. 16, No. 2. 40-8(39M).~- kt.ah. t,)tutkms for the deta. of the mat. shrinking of fitbrk Mir derilml.  SOWTITET. A.N., professor. Correlation between the coefficient of variation and Irregularity. Tekst*proiool6 xo*4:44--45 Ap 156, MRA 90) (Textile fabrics)  I prcf P33-:;r. ~ K T Proportion of the fll'.ITw of knit goods. Leo-.!-;row. 111 no.6; 19-W je '57. wLu 10-8) G-Knit F00,18)  SOLOVIT.-N, A.U. xfrect of twist anA ply nuxibor on the -3roperties of twisted yarn. Izv. vys, 11chebo 7av'.; takh. tekst. Dron.'ac.3:7-19 1~9. (MIRA 11:7) 1. Moskovskiy tekstillnyy institut. (Yarn-Testing)  SOIOVITIV. A.H. Changes in the proportiop of cotton yarn under the offset of double twist, ISY, vp, ucheb, xav.;,tekh, toksts'. promo no,5:3-17 158. (MIRA 11:12) I#Muskovekly tokettlinyy Institut. (Cotton yarn-Testing)  AUTHOR: -SO10V'Yev, A.N., Professor TITLE: An Evaluation of the Grading of Textile Materials According to the Inequality of Their Properties (Otsenka sortnosti tekstil 'nykh materialov po neravnomernosti ikh svoystv) PERIODICAL: Standartizatsiya, 1958, Nr 6, pp 59-60 (USSR) ABSTRACT: The development of standards for tile grading of texti16 materials must consider not only the limit values of the different types, but also the errors made during sorting. For establishing a rational difference between the types the marginal 1 index of probability F is used. If t le actual inequality is close to the average value of the norm, the probability for the correct determina- tion of the sort is a little lower ~.han 0.95. The probability may be i-ncreased by reducing the number of types aud by increasing the difference between the norms as well as by increasing the Card 112 number of tests for measuring the inequality,  SOV/28-58-6-17/34 An Evaluation of the Grading of Textile Materials According to the Inequality of Their Properties Por every norm 200 measurements are necessary, There is 1 table and 1 Soviet reference. ASSOCIATION! Moskovski tekstillnyy institut (Moscow Textile Institute5 Card 2/2  SOIA)VIYEV, A.N.. prof., doktor tvkhn.muk ~ I ~~ I -~. - -, . ". ~4 X9timattar the nonuniformity of yarn weight. Irvays.ticheb.sav.; takh.lol;.pron. no.2:90-97 159. (HIM 14:10) 1. Hookovskiy tokstil'Wy institut. (Yarn)  SOLOVITEV. A.N., prof., doktor tokhn.nauk Dependence of the difference In weight of single an4 double ply yarns on the number of plies, count and direction of twists. 1zv.vys.uch9b.sav.; tekh.leg*promo no*3:84-91 159. (MIRA MILO 1. Mhaknvskly tekstil'Vy institut. Rokomendovana kafedroy tokstillnogo materialovedentya. (Yarn)  SOIDVIYXV, A.N. _ Comnaring the various methods for deterwinlr49 the properties of cotton. Izv. vys. ucheb. zav.; tekh. teket. prom. no.5: 26-35 '59 (KIRA 13:3) 1. Moskovskly tekst illnyy institut. Wo tton--Gra ding)  25(6) SOV/28-59-3-5/25 AUTHOR: Solovlyev, A.U., Professor, Doctor of Technical Sciences TITLE: Repeated Standard Analyses of Cotton and Yarn (Pov- tornyye standartnyye analizy khlopka i pryazhi) 26 PERIODICAL: Standarti--atsiya, 1959 ,Nr 3, pp 24 (USSR) ABSTRACT: Be,::ause of lack of time, the reception of cotton and cotton yarn at cotton mills usually in made with only one analysis, as prescribed by the standard "GOST 3274-46" or, respectively, "GOST 6611-55% If the result is doubtful, and the result of repeated ana- lyses is different, there arises the question: what difference between the two res~.lts can be considered permissible and when is a third analysis to be done? The author answers the question by reconstructing his recommendations for stati5tical qu~ality control with Card 1/2 a large number of tests Z_Ref I _ $ which viere based  'Q'OV/28-59-3-5/25 Repeated Standard Analyses of Cotton and Yarn on a formula for the mean error value. There are 3 tables and 3 Soviet references. ASSOCIATION: Moskovskiy tekstillnyy institut (Moscow Textile Insti- tute) Card 212  SOILVIMO Aleksey Vikolwyevich- GORM'CHIKp G.H., red.; BATYMA,, r- ..-I-,- (Meanurement and evaluation of the properties of textiles) I=erenlia i otsenka avoistv tekatillzWkh materialov. Vo- skva, Izd-vo nauchno-tekhn.3it-ry RSFSRj 1961. 142 Po (MIRA 1~:2) (Textile industry-Testing) (Mensuration)  KUKDI,, Georgiy flikolayevich~ prof.j SOLU'*'tyk*.Vj Alcl:scy Niko ir-L, LI-ily-ny prof.; KISELEVp AsKet dotacnVj--r-9Uc4-4z-ent; PANSWM, A.B., prof., retsenzentj BUDRIKOV, V.Lp dotcontf rotson"nt; IAZJLTVA~ S.Te.., kand.takhnonaukj, retsenzent; LVVISHISp L.A.p kand.takhn.nauk,. reteenzent; TMWANO S.A... kand,tc;ft,nauk, retsonzent; SHTEYNGARTI M.D.., red.; SIIMSCV, S.V.p takhn.red. [Guide to textile material.93 Tekstillme materialovedenie. Pod obshchei red. G.K.Kukina. Moskva, Izd-vo sauchno-tekba.lit-ry. Ptol. 1961, 303 p. (KMk 15%4) I# Ivanovskiy tekstil'%Vy institut (for Kiselev)* 2* VnesoyuZzwy zaoch%Wy institut legko3r i takstilluoy provqohlonnosti (for Pakahver)o 3. Tashkentskiy tekstU'zgry institut (for Budaikov). 4. Vseso:yuzr4y7 institut pronWahlernosti lubyanykh volokon (for lazareva)- 5. TSentral'Wy mauchno-issledovatel'skiy institut sherstyanoy provVehlennosti (for Luviohis). 6. TSentral'My naucbno-iseledoTateliskiy institut shelkovoy pronyehlemsti (for Tumayan). (Textile fibers)  IVAN~_V, jerf~ey 3avel'yevIch, knnd. tekhi.rauk, LEabZVA,Nlria tilkolaievna, !l1b,"NA, Varvara lvanovna: TSISffEVSKIY, Ivnn Nikulayevich, kard. teklin. nauk, PrInimali uchsistiye. EYGES, Ye.G.; FILEMER, 1,,A.; 4 - ABRAWlUK,?l,N., -V,A,N,, dokt.tekhn.nauk,prof.,retsenzent ' ln7,h. _,retsennPntj CHUGREYEVA,V.N.,red.; TRISHINA, L.A., tekhn. red.; VINOGRADOVA, G.A,, tekhn. red. tMet.hods of determining the properties of cotton fibers]Yetody op- redelenlia s-/oist-v khlopka-volokna. Pod red. S.S.Ivanova. Moskvat Fostekhi-~dat, 1962. 234 p. (Cotton-Testing) (MIRA 16:2)  SOLOVIrEvp A. W. Datemining the Stiffneso eharecteri8tice of yarn in stretohftq. Izv. vys. ucheb. zav,l takh. tekst. prom. no.411&25 162, (MM 15810) 1. Mookovskiy tekstillMy inistitut. (Yarn-Teating) (EUsticity)  SOLOVIYEVA--A*N,,. Comparing the stiffness of various type yarns in came of tension. Izv.vys.ucheb.sav,j takh,taket,prom. no.5t17-20 162, (MIRA 15:11) 1. Moskovskiy tekstilInyy institut. (Textile fibers-Testing) (Elasticity)  SOLOVITEV, A,N, Inspection of goods by samples free of defeota. Izv. vys. ucheb. zav.; tekh. tekst. prom.. UO-4:12-16 163. (HIRA 16:11) 2, Moakava)dy tokatillnyy Institut.  And th! rK 12 r~ 16 5Ci -r, 2   I . . I ., , f . i" ~ !"-V j ~~ I , . . ~ ~ :~ f k !-. C ! - ~ .11 1 ~ Z, 1; 1- ~ I .t - ~- -A' - q *. , , !! - . I r,~ - -1 11. ~ - ( r , -, , , 11 1 , ': " V - tfl)er . '. i: P,:" 1, - !) - ~,,- , - '. I" -3. 3- 1 ' ' I I n " y ~ rj ~.4 f -: *,.I: ". ~ko'j 7A 11 ! " ~,` 1, " , I  ~_~o 1~r- zjr ~r Ulm F_ -.IT ~F'_ I I AU7HOR: Solovyev, A. N. (Leningrad); Kuzovlev, G. M. (Leningrad) ORG: none TITLE: Water-temperature anomaly near the middle of the east coast the Caspian SOURCE: Okeanologiya, v..6, no. 5, 1966. 906-911 TOPIC TAGS: hydrographic aurvtVp temperature gradient, hydrouateorologyp ocean propertyp sea waterp low tmperaturep water temperature / Zaspian Sea ABSTRACT: The summer water temperature trends are analyzed using lo,g-period obser- vations from a number of hydrometeorological stations in the middle kf the west and east coasts of the Caspain Sea. Some examples showing the dependence of water tem- perature on the wind-induced onshore and offshore movements of water are given. The hypothesia.attributing the abnormally low water temperatures near th- east coast of the Caspian Sea to the inflow of ground water is shown to be unfounded. The main cause for the lower water temperature near the cast coast an compareil to the went coast is the offshore movements of water. 0r1g. art. has: 4 tablear SUB CODE: 08/ SUBM DATE: none/ ORIG REF: 006 1 UDC: 551.465.46162163(262o  I'I'll ,I.,. I I . - - -, -, ~:-, I - - t, Poll oril(-y li ti " 11 ip. ~7 "c" "J' U c *c";t:!* p I -) ~, 5,  - ,f - SOMV')(;b-i, A-P-. inzh. Wins-protwed, dlesel-ongine nropelled fralghtere wlth 10,000 t dijud wolght. Sudostroonle 22 [I.e.2131 no.10.-1-4 0 157. (KIRA 12) (Poland-ShipbidIding) (heighters)  SOLOVIYEV) A. P..9 inzh.; KABANOVp V. N., insh. Experience in the operation of mmll boller units fired wl silled peat, Torf. prom. 40 no.3234-35 163. (KIM 1614) 1. Torfoprodpriyatlye Tesoyo IV.** (Pea t) (Boilers-riring)  L 12347-63 EWr (m)/BDS AB S/081/63/000/005/027/073 AUTHOR: Solov'yev, A. P. TITLE: 4,-n,e-w-t-ype--o-f---p-y-c,nometer for determination of specific gravity of _I~Auids PERIODICAL: Referativi zhurnal, Khimiya, no. 5. 1963, 142, abstract 3D37. (Uch. zap..Mordovsk. un-t, 1962, no. 16. 83-85) TEM A pyonometer)Qis described for determination of specific gravity of nonvolatile aqueous solutions. The pyonometer consists of a reservoir and two capillaries, one of which is bent. The internal diameter of the capillaries de- pends on the viscosity of the investigated Uquids (1.5 - 2 mm for the more viscous, 1.2 - 0.8 for the less viscous). The special feature of this pyono- motor is that through its use the weight of any liquid may be determined at various temperatures without pouring the liquid out of the pyonom*ter. Sao also R. Zh. Khim.. lg_rB. no. 12, 38946. 1. Yof1mova. [Abstractor's note; Complete translation] Card 1/1  ~ () T 111 Yr E, vk A.!I.li 'JoIng atAtl-,%t!nal mrthtds for rtrerg~n or at-,~Ctwe?. FuA,~strcenle 30 nc.11--11-13 N 164. WRA ,8!31 .  BVKOVAX I.V*P Dt. nauchn. sotr.; Si'EPANOVO A.S., z;t. nauchns sotr:! SOLOVIYEViA.Y.; AFANASIYEVA,. A.A.# sto nauchn, sotr , WCAF~~kj L*M.; LIFENTSOVA, A.S.; SHTIHAp L.S., red.j TIMOFEYEVA, Ye.A.p red. (Food product substitutes in the textile industryl Zameni- tell pishchevykh produktov v tekstillnoi proqrshlennosti, Moskva, 1963. 67 p. (MIRA 17:12) 1. Moacow. TSentralfrory institut nauchno-tekhnichookoy Inrormstali legkoy pronyahlemostle 2. Rukovoditoll labo- ratorii spotsialtnay otdolki Ivanovskogo nauchno-looledo- vatel'skogo Instituta khlopchato-bumazhnoy provWshlennosti (for Solov'yev). 3. Ivanovskiy nauchno-issledavatellskiy institut khlopchato-bumazhnay pronWahlonnosti (for all except Shuba., Timofeyeva).  SC)T.(-.V'*,.C-:'/, A.F. kasult3 of t" secor~-, ~11-"'n-r in-npectior, (;' tho otil. of Plans for 4nl intr-i-,icing the Y,163 aciiievoments or nr.-! ',Pf!hnc~i,~gy '~n t,.q nqtllcrial aconcry. 341all 24 no.61486,13~ J~- -ooY, 1. burontitelt prodAedAilply-i T:,,!-,.riAl'mg-l p-w-lonlyn Ilinvichno. trjk~inicli~~nkogc cbshilm.~it-r,i .  SDLOVITIVO A.B., lnzh. T- -~~ - - - ~~, ~~ Use of a magnetic sliding clutch in atuomtized hoisting. Nauch. dokl. vys. shkoly; gcr, delo no.3:198-201 '58- (MIRA 11:9) J.Predstavlena kafedroy gornoy slaktrotekhniki Leningmdskogo gornogo institute, im. G.V. Plekbanova. (Mine hoisting) (Clutches (Machinery)) (Blectromgnate)  1 1, -~, ". -,.,; 1, ~, . .,J ., - , .' ~ t,* : ~J,'i - 0- -, ) 11 ~ .-~ _ - '. j.. " ~, : . j ~! 1. .1 lap :-"i, - , - - , ".~ ~ - , '..' " ;;~', Novocharchaaskj, 1960S 22 ppq 200 cop (Navocherkasak Polytechnical Inatitute im Cargo Ordzhonikidze) (KL, 43-60, U9)  pj fir r xt V1 F :-f lit F1 it lit F, ft P, its if I I U IF V I a fit P. It:-: All F PUN It -% 1p, Mr r 7,j jr  SOLOVITIV. A.5.; STRUNIN, G.B. InduRtrI&I testing of broking devices for mine hnisting machines. Sbor.nauch.rab.stud. LGI no.23125-1)4 157 (MIRA 13:4i 1. Laningradakiy ordanov Lenim i. Trudovogn Krusnogo, tnan"ni gorWy Institut in# G.V.Plakhanova. Pradstavlnuo dotsentom (Hoisting machinery-Brakes)  ~SOLOVIIM, A.S., Insh. Method of calculating an electric sliding clutch coutrol circuit for automatized mine hoisting. Nauch. dokl. Y". shkoly; gor. del* vys. shkoly: gor. dels, to.1:121-126 159. (KIRA 1215) l.Predstaylona kafedr*3r gornsy slaktratakhniki Leningradskego gornage instituta im, G*T* Plekhanovae (Mine hoisting) (Automatic contrel)  SOIDVIYEV A T. inzho Le"I measurement by remote control of the liquid cargo in tank vessel coqpartments. Sudostroenie 28 no.qs6446 S 162& (MIRA 15:10) (Liquid level indicators) (Tank vessels) (Remote control)  SOIDV'TXV. A.T. _. -.'. r , ~ Dome-like structures of granite rAsses. no.1:112-113 155. Infora.sbor. TSWII (MLRA 9:12) (Geology, Structural) (Granite)  VDZNXSZNSKIT. D-Y.; A)WIANDOV,A.S.; GIffSIJM, A.N.; GOLUBYATMIXOV. V.D.; Ldecoanodj; DOXAM, V.S.; DOMINIJEOVSXIT. V.I.: DOVZHIZOT, A*T*,; ZATTSIT, I.K.; ITANOT. A.A ; ITSIXSON, M.1,; 1201H, I.?., ITIAZZY. I.1.; KORZHIMSKATA, A.S.; XISHARIV, D.T,; SIMOV, AJ.; NORD- ZXTJXO, N.I.; nYZWV, To.l.; RADCHIM, G.P#; SZRGIINYSIIY# V*X,: S0140V1YXV,.AXT,; TALDTXIN. S.1,; UIMV. V.A.; KHARAXOT, A*T*; PMMMY, A.-M.; CHUPILIN, I.I.; SHATAIM, Te.%j glavnyy r*d&)D- tor; ZRASNIXOV, V.I., rodaktor: KIRLIN, G.A.. rodaktorl RUSANOT.B.S. rodaktor; MANY, V.S., rodaktor Isdatel'stys; OUROVA, OoA,, tokhmi- cheakiy rodaktor. LInstructlons for organization and execution of geological surveys in scales of 1:50.000 and 1225,000J Instruktolla po organisatell I proizvodstvu Coologo-sOomochaykh rabot samahtAbov 1950,000 1 1:25,000. Koskya, Gos.nauchzo-tskhn.fzd-Yo lit-ry pe Cool. I okhrane nodr. 1956- 373 P* WMA 10:6) 1. Russia (1923- U.S.S.R.) Ministeretvo Coologii i okhrwq sedre (Geological surveys)  15-57-7-?367 Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr pp 90-91 (USSR) AUTHOR: Solov'yev, A. T. TITLE: Some Remarks on the Article of A. A. Yakzhin "The Sequence of Formation of Different Fluorite Varieties in the Fluorite Deposits of TransiBa kal" (Nekotor e zam.echaniya po, povodu stat'i A. . ~axkzhina "Poslyey- dovatellnosti vydeleniya razlichnykh raznovidnostey flyuorita v flyuoritovykh mestorozhdeniyakh Zabay- kallya") PERIODICAL: Inform. sb. Vses. n.-i. geol. in-t, 1956, Hr 3, pp 146-148 ABSTRACT: A. A. Yakzhin has noted a definite sequence in the formation of variously colored varieties of fluorite (RZh Geo, 1955, 7645). These are: 1) earliest, dark Card 1/2 violet, predominantly of cubical aspect; 2) green and  LUTHORSt Solov'yev, A. T.9 Levando, Ye. P. 20-119-1-43/52 TITLEt Gearksutite From Eastern Zabaykallye (Tranobaikalia) (Goarkautit iz Vostochnogo Zabaykallya) PERIODICALs Dokludy Akademii Nauk SSSR, 1958, Vol- 119, Nr 1, pp. 158-160 (USSR) ADZTRACTs From Kalanguykoye fluorite deposit the authors got samples of a mineral which was because of macroscopic similarity earlier considered as kaolinite that is widely distributed here. Nobody investigated it before. The accumUlati ons of this mineral are in its parent deposits mainly bound to the middle and lower parts of a quartz-fluorite vein which intersects a aandy-schistous Middle Jurassic mass. Beside amorphous silica and fluorite pyrite, marcasite and kaolinite are found here. The above-mentioned mineral is white and sticks slightly to the tongue. Its aryptoarystalllne aggregite shows an uneven break (Ficure 1) and eagerly absorbs water which indicates a high porosity. The mineral is soUle in HC1 and HNO3 by slight heating. Under the microscope one sees that the mineral substancelsincompletely crystallized. The indi- Card 1/3 viduals, with blurred contours) are only to be distinguished  Gearkst9te From Eastern Zabaykallye (Tranabaikalia) 20-119-1-43/52 with high magnifications (Fi6urs 2). A considerable portion of the substance is not crystallized at all. TheAndividuale well to be distinguished by their sections show a character- istio positions vertical to each other. Well developed small crystals can be better seen in immersion preparations than on sections (Figure 3). Lengthening of the mineral is posi- tivel cNg < 15 1 the optical sign positivel 2V - in very littlet 11 1,4601 N '* 1.451. The chemical and thermal ana- lyses togIther with tRe above-mentioned optical data show that the mineral is gearkoutite. The chemical analysis (Table 1) makes it possible to calculate the following formula for its C&Al(F,OH)5 or Ca2A1 2(F,OHo). Figure 4a gives the heating curve of the mineral from the steppe part of Kazakhstan (Figure 4b). The curves from both places of finding are very similar. 1) The strong endo-Rffect is probably connected with the separati8n of water (398 WC). 2) The strong endo-effect occurs at 523 C and possibly mainly corresponds to the separation0of fluorine from AIP The third endo-effect lies at 898 C and apparently corKsponds to the dissociation of CaF 2;0 The mineral under review was found in larger pieces (up 10 on in diameter). As geark- Card 2/3 sutite was earlier mistaken for kaolinite, its much wider  SOU)V I YEV.- A.T.; ~ . STRUVE p N.V. Now data on recent fluorite formation in the belt of eastern Transbaikalia. Inform. abor. 85 159. (Tranobaikalia-Fluorits) gold-molybdomm VSEGEI no. M75- (MIRA l4tl)  SOLOVIYFV, A.T. Calcium source in the formation of fluorite deposits. Trudy VSEGEI 57:135-139 161. WRA 1514) (Fluorite)  SOLOVIYEV, A.T. Bands and stages of fluorite mineralizatic-n of eastern Trans- baikalla. Trudy VSEGEI 57sl4l-145 161. (KIRA l514) (Tranobaikalia-Fluorite)  SUA VIM p A*T.~ CIIUMt(N$ V.V. ~ ~ 34 Association of the fluorite mineralization with intrusive for- mations in western Transb-q1kaIi-. Trudy VSZGZI 83183-89 162. (KM 160)  -:,UwvIxiXv A.T.. Structu,ral charactcristic3 of orea in the Kal&Mu (wootern Tranabaikalia) fluorite deposit and their genetic signitj- Cance. Trudy WEGLI 83:91,-100 162. (HIRA 160)  BIRYUKOV? V.I.) SOLOV1YZVj_A*T* Types of lead-zinc mineralization in the Korean People's Democratic RepubItc, Trudy VSEGEI 10004-108 163, (111IRA l7s3)  SOLOVIYE11P A.T. Role of fracLuring and the physical. proportlas of rucks ir ',hp, formation of fluorite depositA In southern Yakutla. Trudy VSWEI 10808/,-388 164. (W, RA 1822)  BABOSPIrif V.A.; 111011OVIK("t P.P.; ZAKHARCHENKO, A.I.-p WANDY, A.A,j NIKANOROV, A,Z.; N:;~!T',N, V.D.; WTSK, Yu.Ye.1 SMIRNIOVA, V.S,j SOKOLOrv, Ya.N.1 TISEXHOMSKlY, A.M. In memor-I of Danlil Timfeevich Misharev. Trudy VSEGEI 108:189-191 1U. (MIRA 1832)  SUFAMIURS A.G..; KUKH.GIN, L.V.; LeMft', i.T.; BIAGUVp 1.S.; KUTKIN, A.M., -qOWV'IIt-Vj A-V- , Briquetting coal and anthracite breozes in a cold state* Ugoll, promo no,6:34-36 N-D 162. (MIRA 6s2) 2. Dnepropetrovskiy gornyy inotitut (for Shpakhler, Xorchagin, lavin). 2&. Ukra;nskiy proyektno-konateektorskiy i nauohao-isslodovatel'skiy iAntitut p0 obogashcheniyu i briketirovanlyu ugley (for blagov,, Kotkin,, Solovoyev). (Ekriquets (Fuel))  SHPAKHIM, A.G.; AKSHLIRCDj, E.Lj XM=,..AJf.; --X1LV-riV A ; Z LIDIN, D.B. ~1 A. -- Y~~- E Improving the mazwfacture technology In cc4l briquet plants. Ugoll Ukr. 6.no.2:17..19 F 162. (MIRA 15:2) 1. Dnepcropetrovskiy gorW institut (for Shpakhler Aksollrod). 2. UkrVINgleobogashcheniye (for Kotkin, Solovlyvv~. 3. Donotokgiprosh&kht (for Selldin). (Briquets (Fuel))  L ?1425-65 EWT(I)/EWP(x)/EPF(o)/ZPF(n)-2/3?R/T/ZPA(bb)-2/&WA(l) Pd_l/~r-4/ Pe-4/Pu-4 AEDC(9)/ArWL/880/A$D(f)-3/ASO(p)-3/ArM - WW: ACCESSION KRs A25002030 $/0170/6#=/012/0005/=9 AUMORSt .3sasnM P. A.1 8gjLv'Wj, Ag- VP_ TITLEt Liquid flow- in thin layers SOURM Inshenerno-fisioheskiy shuz=lt n0a 12t 19641 8"9 TAM fluid flow# frictiont vav* velocityp periodic motiont interface We speed gas flow .-3.%T?4CT s The flow of a thin liquid film a1mg a vertical vall with the friotion force of a high-speed gas stream acting on its free surface was studied analytical~* Zxporbaente showed this free surface to be covered by circular waves (if flow Is insida & tube) moving from bottom to top at constant speed. In the absence. of tbA"I'lf", waves an expression in deriyed for thi preasurs gradient Sp S h be Yn =1 7 r + h 3 where his the liquid film thickness. To include the wave notiong a tion Is superimposed on the steady-state solution by considering t" "s of opera~ionse the first are averaged over time# and thus are cha;=wterimA by a ateaSy-state flow; the second are tivia-dependent w2d axe expressed by tord 14~1  1~ 21325-65 ACCESSION NRt AP5002030 du I ap + VA U, T, 7x LP + i u. at p dy a"' + du . 0. After solving these oquations,.eWaseione am be derived for Tx ay. the tangential and normal components of the interface stress r and V, and an 0 equation is 6btained whioh describes this interf&o*o Corresponding periodic stress components are obtained at. the interface from the psecus phase, of the f lowo For dr . thin yields 2 2 ".* Finallyr the speed of the pr*pWt- T--LS 1=: 3 2. 3 ho n ing wave is found to be given by W Y Orig. art. hass 11 for=lss.. k ASSOCUTIONs Inatitut kbimichaskogo mashinostroyen4a g. Moscow (Mosoow Ustitqte G-., "Mical-maahine Nei Card 2/3  Iff1dolges"OdulftTWOMMistioncis the dynAwks cf Alistnict!j *qu"dio iud qwadtotive wa4" retalms in com- bime4 ksamW of bmtv wA sc&* lot," d a I'A. V, =7 f Of-vow"I. Cum, c lrpk 11), 1154 ma- . knifts Olf"1001 ver"Wa. i9" ~"Q. a i&llOrj?:nl Chamlatry W-ji. ml tillmv;*-t irt*d6(km kads to PXIl mml(slnjypbiH%tbffmpy; thebuplipus.trulkmichanp, tot". onegand Lbe tilef of the pem 11 1**ffKl, xf. K099101W?O.-  SOLOVIM, A.V., dots. Modullur7 hemopoissis in rheumatic fever in children* TruAy Jlovosib.gos.ned.inst. 27:214-224 '57. (KIM 12:9) 1. Zavodiivushchly kafedroy detskikh bolesney Novosibirskogo nnditainakogo Instituta. (IIE140POIXTIC STUTZM) (RIDPJHkTIC FXV'HR)  ALIXSAOROV. A.G. dots; ARONOVICH, I.S., inzh.; BABIKOV, N.A., doktor tekhn.naa; BATUSOV. 8.Y., kand.takhu.nauk.- BILIKIND, L.Do, dolctor tokhn.nauk; MIKOV, V.A,. doktor tekhn.neuk; VlbXIA)VSXIT, O.N., kiind,tekhnonpuk; a0LOVIN, A.Ts. dokt,,)r tekhn.nauk; GOLUSTSOVA. V.A., doktor tekhaonauk; GIWW, L.K., inth.; GRUDINSKIT, P.O.. prof,: GUSJ6V, S.A., Insh.; DKOXHOVSKAYA. L.Y., kand.takhn.nauk; DROZDOV, N.G.. doktor takhn.nauk; IVAHOV# A.P., doktor takhn.nauk [deceased]; KAGAIJOV. I.L., doktor tekhaevauk; WMAW, L.L.. tnzh.; KOCHNNOVA, A.L. kand.tekha.usuk.; IMONOV, A.M.; MINOV. D.K., doktor takha.nank; JUITUSHIL$ A.Y., doktor tekhu.nauk; NIXULIN. N.V., kand.takhu.nauk: HIIAWAR, R.A., prof.; RAIRTUSHIN. V.S.. prof.; PASTNKOV. Y.T.. doktor takha.usuk; PZTELOY. 0.U., doktor tekhn.nouk-. POLIVANOV. K.M.. dnktor takhn.r,&uk; FRIVIZIMSBY, V.A., dok-tor tekhn.nauk; RADUNSKIT, L.D., lush.; PiN4. V.T., doktor takhn.nauk; SMOHA14SKIT, A*Ds, doktor takha.cauk; STUPILI Y.A. doktor tekhn,nauk; �9A4Y!X#.V kand.tekhn.nauk,* TALITSKIY, 177T., prof.; TIMMIKOV, Y.Ye., kand.takhn. nauk; YADOROV. L.L. inzh.: MOSHYIV, A.M., dolctor takho.neuk; KHOIXIVSXff. G.B.. insh.; CJ=HRT. Tu.S.. doktor tekhn.nauk; SHW- Bh2G, Ya.A.9 kand.tokha.vauk; SHUMILOVSXIY, U.N., aoktor takhn.nmuk; AIITIK, 1.3m, red.; KOVMV, L.Ya., tekhn.rada [The history of power enelneering in the U.S.S.R. in three volumea] lutorila enereetichaskol tekhniki SSSR Y trekh tomakh. Moskva, Goo. energ. lzd-yo. (Continued on next card)  AlJXSAl.aJftUV, A.U.--(continued) Card 2. Vol.2. [Mlectric engineering] Slektrotekhnike. Avtorskit kollektiv tome: Aleksandroy I dr. 1957. 727 P. (MIRA 11:2) 1. Moccow. Moskovskiy energeticheskiy institut. 2. Chlon-korrespon- dent AN SSSR (for Imrionov) OLlectric engineering)  SOV/110-59-8-19/24 AUTHORS: Rat, Ye.L. , Solov' yerT., A*V* t Engineers. T17LE: Meohanisation of the Foundry in an Electrical Engineering Works. PERIODICAL: Vestnik elektropromyshleanosti 1959, Nr 8, pp 72 (LTSM) ABSTRACT., The works foundry was mechanised for greater production. The output of moulding machines was increased by installing additional rapping tables and rearranging transport facilities. The measures adopted are outlined. The arrangements for removing the castings from the moulds using shaking machines are described. The castings are fettled on the shaker, and then painted while on a conveyor which transfers them to store. Card 1/1  SOUN I YEV p A. V, I Inzh. I Timonruicii, m.s., insh. DevIce for the automatic control of electric lighting. Svetotakhnika 7 no.5:25--27 My 161. %MIRA 14:6) (Electric lightinf) (Automatic control  SOLOVIYEVO Al"ill Protective properties of fluoride-ollicate filma of magnesium. Zhur. prlkl. khimo 36 no.Ilt2547-2551 N 163. (MIRA 17%1) 1. Moskovskiy institut stali I. splavov.  SOIM I YEVS _At.v. --- - ------ Apparatus for growing mold fungi cultures by the top method, Spirt. prom, 29 no,701-33 163. (MRA 16t12) 1. Voesoyuznyy nauchno-isaledovatellskiy Inatitut fermentnoy I. spirtovoy pronroblennosti.  S/04 60/024/006/022/030/XX B01 3YB067 AUT11ORt Solov'yev, A. V. TITLE: Effect of an Additional Admixture on the Absorption and Luminescence Spectra of Admixtures in Molecular Crystals 34 PERIODICALt Izvestiya Akademii nauk SSSR. Seriya fizicheakaya, 1960, Vol. 24, No. 6, Pp. 737-739 TEXTt In Refs. 1 and 2 it was found that different deformations of molecular crystals change the spectra of these crystals. It could be as- sumed that different molecules of an admixture may cause different dis- tortions of the crystal lattice in one and the same crystal. To examine this assumptionl spectra of a naphthacene4ompurity in a dibenzyl crystal. to which tolane had been added were studied at 200K. The naphthacene con- centration In the crystal remained unchanged. The tolane concentration was Increased in each sample. The changes in the spectra are shown in Figs. I and 2. At some tolane concentrations, the bands were blurred. Weak lines became invisible. On a further increase of concentration, new bands Card 1/3  Effect of an Additional Admixture on the S/048/60/024/006/022/030/XX Absorption and Luminescence Spectra of BO13/BO67 Admixtures in Molecular Crystals were formed which were polarized in a similar way as the spectral bands of naphthacene in a tolane crystal. Admixture of stilbene causes similar changes. Lumineecenc spectra also exhibit the same changes which take place in absorption :pectra (Fig. 2). It was found that the distinct and sharp bands in the spectrum of a naphthacene impurity in a dibenzyl crystal are related to the crystalline structure of the solvent. The changes observed at low concentrations of additional admixtures are related to the distortion of the crystal lattice of the solvent. The bands which are observed at high concentrations of additional admixtures are probably due to a direct interaction between the molecules of the ad- mixtures. The changes observed in this case are probably also due to such interactions. The fact that the molecules of the crystal impurity are distributed not regularly but in groups may also be of importance. For the stilbene Impurity of a dibenzyl crystal, this was confirmed by X-ray structural analysis (Ref. 8). The present paper was read at the Eighth Conference on Luminescence (Molecular Luminescence and Luminescence Analysis) which took place in Minsk from October 19 to 24, 1959. There Card 215  Effect of at, Addi tional Arlmixture on the Abuorption ar,d Luminencence Spectra of Admixtures in Molecular Crystalu are 2 figures rind 8 Soviet references. S/04 60/024/006/0?2/030/XX B013YD067 ASSOCIATION: Institut fiziki kkademli nauk USSR the Academy of Sciences UlkrSSR) Card ',/3  S~!Olovy ,ov, A. V. 3 S1.185/62/007/005/004/013 NOVD301 ~',sorn~~ on and -urdnescence of -4r.,purities in cry%tals of o.-6anic compownds at 200K. - VI. E-ffoct of crystal- 14--ne solvent on the frequency of ellectron-transitions of -4--pu r i t i (3 s )r 0 I C L T`.-a-i-sII-yy fizychnyy zhurnal, V. 7, no. 5, 1962p 492 532 aut..or checked exparimen-,,ally the theory of III.C Longue-.- -ins -'Id j.A. PoDie (Pef. 1: J. Chem. Phys., 27, 19 , 1 7)t -1 1 1. - 2 ;5 `etor-Jnes the change in the frequency of electron transitions .,)uric, ectra as a function of the properties of the -olecu- "Y s: 11,~s 31* t'~-.e z;olventl and of the impurity. The basic formula of the ...Cory, VIZZ& Z. a (2) f4 0'10 ' 1`10) -modified for cryst-alline sv^iu-ions- AV is the difference be' Card 1/4  B/135/62/007/0v-5/004/013 .absorption and luzinescence of D407/D301 ween th.-, frequency of elec tron t rans i I,- ions in the impurit-y and so!- Vent, rezpeciively; a and a0 $.he mean polarizability of the sol- vQntl- and imnnurity ::~oiocuies; 'M, and -_- - dipole noment and energy; ,Z, - -V'A-.e coordina-.ion number; the mean ~_istance between the cen- -~ers of the inpurity molecules and the nearest moleotAies of the so!- IP_*nZ,O autA,.or considers -1oh-e inter--olecula.- interactions which cauSe s,Aft in the frequency of the electron transitions, as 4-n- teract-ions between a-,oms of the impurity noiecules and of the 3ol- venz. ~-:a.nce a correciion tern is introduced in formula (2), viz. im.D. Za 0 0 2 21n 4 + Y,10 (3b) 6 p ~Ti (0) ,:.ak--s allowance for 't-e fact that -.ne molecule are not points an -ta-.at all t.he a-.oms of the solvent molecule interact to the same LI V k, If zhe impuri-y a-o=s, (I denotes 'he mean value o the icniZU-ttion Potential o--f' t1ae aton). The applicability oil formula (31)) .i.s t~xtended to the case of constant dipole mo=ents of the solvent 2he-reby formula U&rcd d/4T  6/!85/62/007/005/004/013 Absorption and luminescence of ... D407/D301 a 1 )12 (4) i hcE 10 io obt-~,-ined (it de;,,,oti:i:- the mean value of the dipole mom=t-a of the U --civon t 1--oloculeo takes into account additional polarizabili- ty, ir. t.he imnurity molecules by the constant dipole m oments -he so'ven- moleculco. Furthert the polarizabi'lity of the crys- ,a.1 ---oloc-ies is calculated in torms of the =ean value o.1AP the re- -action of th.c crystal, by means of the Lorentz-Lozenz forru- -~i. 2or that purpose, the mean index of refraction is defined by a The thus calculated --nolecule-polariz-abilitoies agree with obtai.ned by other met-hods. In the vtorking, formulap the atomic of the -rolecules is taken Into account. It is sho%-M th- value of R (formula (2)), does not fit the experimental Z..a, to '-.he proposed mod--'fied formula (3b), R represents -e eZ'-',:!c-.-4ve intermolecular distance (unlike its interpretation in numerical value of 1.1 in all the solvents, is close to ,:bean inter=olecular distance of carbon atoms of organic --olecu- -Us of crystalls. r,,,r,--e of variation of R. is establi3hed, as wen Card 3/4  S/185/62/007/005/004/013 .-'.bsorption and luminescence of ... D407/D301 ao _'t3 ~,Iependcnce on t-he packing coefficient. The use of the rodi- fied 1~'ormula (3b), obtained on the assumption that the atoms are re- Snwnsible for the molecular interactiong yielded satisfactory values J for all t',le calculat-ed quantities. In part-icular, the constant di- mo:~ents o-' d4benzyl and stilbene molecules were calculated. 2h(~ connc:ctlon bet-,,ieen the basic formula (3b) and the corresponding _1o=:.u":a of other theories was established. There are 4 tables and 41 references: 25 Soviet-bloc and 16 non-Soviet-bloc (including 1 trans- -lation). ASSOCIATIO11: instytut fizyky AN URSR (Institute of Physics of the AS Ukr'iS.';.,) 'A'Yyiv 11 SU3'-:1TTED: .4ovember 22, 19061 I klz~rd 4/4  37", 5 V ' )05/005/013 62/007A D407YI301 A U SolovyOv, A.V. .-'-bsor-,)-kion and luminescence of imnuri-ties in crystals of or:-anic com-.)otunds at 200'K - VI.L. Effect of variable COM-zo-- tion of mixed crystals on the frequency of the electron t---ansitions of imPurizies"9 C' D I C'j Ij U': ray'inslkyy fizychnyy zhurna,!, v. 7, no. 5, 190620 535 - 510 Th.ls work, is -- continuation of the Preceding article (Ref. 1 4~;2-1'702). Pormu~a (3b), obtained in Ref. 1, is usod for calcula- I-ing (on the basis of experimental dat*a), the froquency shift of `,~c c"ectron ti-ans4tion in impurity spectra of naphtacene in mIxed %, J. & o---ystals of wl..-iable concent-ration: dibenzyl-stilbene, Oibenzyl-to- lanc tolane-stilbene. Tn tho general case, the frequency shift, calculated by formula (3b) of Ref. 1, depends on the change in pola- rizabilit-y of the solvent, on the mean intermolecular distances (i. e. on the parameter P.), and on the coordination number, vizo: C -, r d 1 / 4 v r,,67 /013  S/'85/62/007/r-05/005/013 ,V'.'_-ZorPtion and luminescence of :)407/D301 z aoB1 0 ~!,2 a + z a )' "a 0::10 2 + Y, _4 -10 7 4 10~ 12? 2R ra 3 1 a -0 10 + 2 ' A z. (1) 4 M 1 2IR - "-a -4-St -0-- (denoted in the following by n-; represents the ~- --- . -.I a w -16'uie of -.he shift, caused by the chpnGe in the polarizability ~'r I.t'e 3olve-~, resulting fro- changes in the concentration of the V - 4. - 6 of t.*,-..e mixed crystal. The investigated iMpU-4ty spectra o_f naphtacene in mixed crystals# have the following property: V'o _--"&-'Ua! frequency-shift-due to changes in the-concentration of 'he ~._ I - V com:~anents, %-.as observeA; the rrequency shift is sudden and toakes -.1ace at a certain concentration of each mixed crystal. 12.1iis effect is lue zo the crystall4ne structure of the solvent. The calculations carriad out by formula (1), showed that the shifts, resulting from z-4e c:-iange in polarizabili ty a and from the change in inte=ole- cular distance Rr coMpensate each other, The magnitude of the chift Ca_-d 2/4  0 S/185/-2/007/005/005/013 z c 46o.-. Lind luni.nescence of ... Cj7/D3 01 due to th.e changes in P. 'Thust t';-ie impurity spectra in n -, tl- i talli- -e sD_u"-4;)ns ,iold in" rza~ion on chan,-es in the crys~ 10 11 of tlie so"Lvant azndl on. t1w. varlous ener,--y proce--ses in- ,ormula (1) is used for clucidating certaln [-,enex-.1 -%ctra Jn crys+a1s. The inw,)urity j1,)ec'..-a QL ~j I-; t,.46- - of kin,-~s of 'band-c- -ahiclh form, 3 spectral- sories., T.he st-ructure. The nean values of the quantl- -r-'bu cn,~Cz o a ar e used for est.-116=ating ?.-he con ti~~,n of to thO =W-nitude of the s *.-. i f -to, and to aoce~-tailn for the shift (by a comparison of calculated- values). The nultiplet st.-ucture of the bands is _~o the wxiable mean intermolecular distancep i.e. 'to 'the of t.,,,e i;npuz*i1ty =lecules in the solvent; the defo=a- Ln c, th~., s o vent mo-1 e cul e s o r o f the im-pu-rity ro lf.-,~ul e s give s 4 S %a .L to a con3tant dii)o1_e-_"o-_ent; thiso in turn, leads to a consi- r 'he n orab' e 'r,~quency s--;- ultiplet structure of the impu- --ft. Thus r_ Uy sp-,:cti-a is mainly due to mic r o s toructural changes in the sol- Vent, and not to the DhY3iCoche=ica1_ prope-rties of the molecules. wr4cus factors which cause "requency shi-'4.s, may compensate cac.~. c,'.1Ier, the author concludes that it is not yet possible to un- Card V4  S/135/62/007/Ov^5/005/013 o i o n a.-. d, I u m -In e s c e n c a o f ... D407/D301 ascartain tw",.e. --eason I-or the shift. The calculated and values (~-bta:.ned by in0ependent methods: X-ray struc- ra xn,_ -)ectral) aera in r-ood amreement; therefore formula '1) :.n --,.,neral correct; it requires only a refinement of the values cnte---inc iln it. -Formula (1) can be used for calculating frequency f bcloa 10 - 90 cia-1. Somo of the c:ilculati6no performed, _,re apprcxiJ.,.,-.ate, yielding tentative values only. There are 15 14 Soviet-bloc and 1 non-Soviet-bloo. --,ns.ytut fizyky AN URSR (Inst'itute of Physics of the AS Uk~-RSR) Kyyiv SU-_~: T 7 E'D 1,4'ovember 17, 1961 CL~rd 4/4  T101266-a BW(l)1EWT(m)1EPF(c)1ZWP(j)___ IJP(c) RK ACCESSIM NRI kM20788 WW48/65/029/boeAmAM AUTNOR: Voroblyevs V. P'O; Soloviyovi A. V.j_.Shpakp if. T.5711' 6z TITLEs Luminescence of the prod-acts of photolysis of crystalline triphanyl- motha;~~t 200 bieport, 1 th Conference on Luminescence hold in Kharlkov-2-5-June to 1 July 1960 SOURCE: AN SSSR* Izveatiyao Seriya fisiche3kaya, vo 291, noe 81, 19659 1307-1308 TOPIC TAGSt photolysis., organic crystal,, free radical, luminescence anal"ist electron paramagnetic resonance ABSTRACT3 Two of the authors and collaborators have previously found that ir- radiation of triphenylzethane crystals at 200K with unfiltered 14 mer- I r cury arc gives rise to five now bands in the luminescence #pad= NX they have called the Ap Bp Cp Ds and E bands# in order of increasing wavelength (Ukre fiz. zh., 7P 422P 1962). The present paper reports results of an examination Of initially very pure triphenylmeth&ne crystals which have been further purified by zone refining, After irradiation with mercury arc light these crystals showed i only the A band, the B, C, D,, and E bands being absent* The A luminescence band of the purified irradiated crystals was Identical with the luminescence spectrum Card 1/2  L. oi266-66 ACCESSION NRz AP5020788 of triphenylmethyl radicals produced in other samples by chemical meansp and the electron parawgnetic resonance spectra of the purified irradiated crystals and the crystals containing chemically produced triphenylmethyl radicals were also identical# It is concluded the A luminescence band induced in triphanylaothans crystals by irradiation with mercury light is due to triphonylauthyl radicales and that the B0 C,, Do and E bands are due to impurities* It Is noted that the luminescence method for analysing the photolyals products of crystalline tri- phertylmethans Is more sensitive than the elect atic resonance method "The authors are deeply grateful to I&FPrikhi; r1komeorwhose direction this work vfas, performedj for hie constant interest and helps" Mgo arto hams 1 figure$ ASSOCTATIONs Institut fisiki. kkademii naukUkrSSR (Institute of !!NY-8-ics# Academy of Sciences? UkrSSR) SUBMITTED: 00 INCLt 00 SUB COWt S8, OP. NO P3F SOVI 001 OTHERt 002* Card 2/2 4  SEWNOV, P.A.j SOLDVIYEV# A,V. Regular wave conditions of the flow in film absorbers under conditions of an ascending direct flow. Trudy HION 26:60-64 164. (MIRA 18.5)  SOWYIVM,, A.V. [Soloviov, A. V.] Absorption and luminescence of impurities in crystals of orannic compounds at 200K. Part 51 Spectra of naphtbacens 1n certain mixed crystals of variable composition. Mir. fiz zhur. 6 no.ls66-76 Ja-F 161. (MMA 11... 6, 1. Institut fizIkI AR USSRF g. XI V* (Ilaphthacene--Spectrar  SOU'VEIVP A.V. (SoloviOrs A.V,J. Absorption and luminescence of impurities in crystals of organic compounds at 2eK. Part 4: Spectra of anthracene In crystals df certain polyphanyls. Ukr. fiz. thur. 6 no.106-65 J&J 161. (KTRA 14t6) 1. Inotitut Miki All USSR, g. x1yev, (Anthracene-Spectra) (Polyphenyls)  SHFAK, AH.T.; ~$59LQVIBV, A.V. [Solovyov, A.V.J; SFIFBE~ET, N.Iq WHITRENKO, I.P. [Dmytenko,, U.P.] Spectra Investigation of chemical transformations in crystal-line triphanylmthane. Ukr.fiz.zhur. 7 no.4s422-429 Ap 162. VURA 15:8) 1. Institut fiziki. AN UkrSSR,, go Kiyev& (Methane) (Chemical reactions)  SHPAX, M.T.,- SOLDVIYEV,-A.V. SURDET9 N.I. -- -- - - - j Mature of the luminescence spectra of crystalline bensens at lov temperatures, Opt.i spektr. 13 no.5s694-700 N 162. (MIRA 15M) (Benzene oryatals--Spectra)  SOV/51-b-2-30/39 AU THCR s Solov,yev. A.V. TITLE - Effect of an Additional Impurity on the Impurity Absorption and Luminescence Spectra of Molecular Crystals (Vliyaniye dopolnitelluoy primesi na spektry primesnogo pogloshchoniya I lyuminsatsentsiyu molokulyarnykh icristallov) PERIODICALt Optika I Spektrookopiya, 1959, Vol 6. Nr 2, pp, 268-259 (USSR) ABS TRACT: 'Me author studied the effect of atilbons on the absorption (Fig la) and luminescence (Fig 2a) spectra of naphthacen* dissolved In a crystal of dibenzyl. The amount of stilbene was gradually increased while the amount of nAphthacens was k*pt a=stant. It was found that, at small concentrations of stilbane, Lutenso aaphtbacene absorption lines are broadened, while weak lin disappear altogether, as the concentration of stilbeae is increased ( 19hge 1V and 1v). On addition of stilben* some of the naphthaosne lines close to ;he intense lines but on the side of low frequencies are intensified, while the naphthacamo lines on the side of high frequenciea are waaksaed. At high co'neontrations of stilbans, (5-10;~ or morel a series of wide bands appears between th4w naphthacen bands (Figs ig and 34). At the same time intensity or the Card 1/2 naphthacen: bands docroa&63. Tne wide bands 'which appear at high  SOV/51 -o-2 -30/39 Ef fact of an Additional impurity ca ths 1mrarity Absorprtion and Luminoscen:e Spdpttrs of Molecular Grystals stilbone, concentrations are similar in form and polarization to the absorption bands of naphthr-cone ia stilbene (Ref 3) but are displaced by 100 cm-1 towards high frequev:isa. The author concludes that these wide bands are due to P-'taorptict lq t1hose, naphtnacens, mole~:ulss whose nearest neighbours are stilbaze rather than dibentyl molocula4. Similar behaviour Is observed In lLxiues-sn,-q spectra (Fig 2). Fig 2A represents the luminescence spectrum of naphthazdae in dibonsyl, while Fig 2W-14 show the spectra with 1r.,--.*aainG amounts of stilbene. The observed effects are primaAly due to iaters~?tlons of stilbon* with dibensyl at low concentrations of stillleve. At high concentrations of stilbane the latter Interacts directly with nap!~thacene. Detailed results of this and other Investigations will, be pu'~Uahe! later. Thera are 2 figures and 5 Soviet referoaces. SUBUITTEDs July 29, 1958 Card 2/2  PRIZHOTIXO, A-7- LPrykhotlko. A.P.J; SOIOV~'M, A.V- LS*loviov, A.VJ Absorption and luminescence of impurities in organic crystals at 200K. Fart 1: Spectra of naphthacens, solutlins In dibonzyl and diphanyl crystals Lwith summary in Inglishj. Ukr. f1%, shur, 4 no.1:92-107 Ja-F 159. (MIRA 12:6) LInstitut fisiki AN USSR. (Naphthacene-Spectra) (Bibentyl crystals) (Biphenyl crystals)  PRIIHOTIKO. A.7. [Prykhot1ko, A.7.1; S0I0V'M# A-T- ISOIOviOTt A#T*1 Absorption and luminsseence of inWities in orgAU10 compound crystals at 200 X. Part 2: Spectra of naphthacene solutions in the crystals Of certain uAcondensed aromatic bydrocarbons. Ukr. fiz. shur, 4 no,22 229-238 Kr-4p 159. (MIRA 13:1) lolustitut fis1ki, AN USSR. (16phthacene-Opeotra) (Crystals) (Fqdrocarbous)  GORDXYZV, G.G.. prof.; YAKUSHKIN, D.J.. Prinimali uchostiye: GORMATA, N.V.; GRANOVSKATA, A.Te.; YiCVSTIGMYZVA, Yu.G.: KRYLOV9 M*V.; LEY111, D.I.; KAKHOMSKIY, V.B.; KZTJCIMW. A.L.; NAZAMWO. V.I.; NICHIPORUK. O.Ke; PAVWV. L.I.; RUNTANTSETA, N.V.; SOSZNSXIT, I.I.; CHIMMSKIT. Yu.V.. TULUPNIKOV, A.I., red.; SOLOT profs, red,; RAKITINA. Te.D., red.; ZTBRILIKA. Z.P., takhn.red. (Agriculture In capitalist countriem; a statisticel manual) Sol'skoe khosioistvo kapitallaticheakikh stran; statisitchemkii abomike Moskva, Oos.izd-vo sollkhoz.lit-ry. 1958. 247 p. (MIU 120) 1. Moscow. Vassoyuznyy nAuchno-issledovatel'skiy inititut skonomiki sel'skogo thozyayastva. 2. Otdel nauchnoy Informstaii po skonomike I organizatell ael'okogo khosynyLotva zsrubashnykh stran YsevoyUsnogo unuchno-issledovetallskogo inrtitixta ekonomiki sellskogo khozyaystva (for all except Tulupnikov, Soloylyev, Rakitins. Zubrilins). 3. Direktor Vaesoyusno.go nauchno-teeledovatellskogo inatituta ekonomiki sel'skogo kho%yAystva (for Tulupnikov). 4. Zamentitall direktora Vassoyusnogo nauchno-lasladovatellskogo institute skonomiki sellskogo khosynystva (for Solov'Yev). (Agriculture--Statistics)  TULUPWIXOT. A.L. Prinimali uchastlys: BAKULIN, 1.1.; VIKUTAUV, A,P.; LUBOROY. I.T.; UBANOV, P.N#; FISINUNYT, I.G.; POPOV, N.I.# SMVIYSV. A.Y., prof., doktor ekon.nauk. reteenzent; KALAWY, S.F., prof.. daktor skononsuk, retsenzent; GORTACHKIN. M.I., kand.nauk. retsentent; OKHAPKIN, K#A., imnd.nauk, retsentent; RUSAXOT, G*K*# kand.nauk, reteenzent; RMTOV. D.G., kand.nauk, retseuxest; CMMK- MUSHKIN, S.D., kand.nauk, retsenzent; TOLOT, V.V., retsensent. (Bconomic basis for agricultural administration] Toprosy ekonomi- chaskogo aboanovaniia sist-6a vedeniia sel'skogo khosiaistya. Koskva# 1960. 275 p. WxA 13..6) 1, Moscow. Yeesoyuznyy ntiuchno-inaledovatellskiy institut okonesiki sellskogo khosynystva. 2. Yeasoyuznyy nauchno-ionledovatellskiy insti- tut skonomiki sel'skogo khozyaystva (for Bakulin, VikUyayev, Duboroy, Kabanov, Pialmnnyy, Popov.) (Farm management)