SCIENTIFIC ABSTRACT ALEKSANDROVA, Y. - ALEKSANDROVICH, Y.

BETWMAN, Abram Isaakovich; POZDIIYAKOVA, Antonir-a Illarionovna; MUKHINA, Anastasiya. Denisovna;_&LIRCSAN'D?,CVA, Yuliya Mikhaylovna; GINZJJURG, I.S., red, [Pediatric orthopedic stomatology] Ortopedicheskaia stoma- tologiia detskogo vozrasta. Kiev, Zdorovlial lq65. 406 p. i'M. 18:9)  ,ALY.M3AhMROVA, hand. med. naL-.1. ~i,.D., 1:-r.-d~.med.nauk (K-iye--v) Treatment of diagonal =1cm-cluslon In cIdE,-r childrctn. Probl. chel.-Itt.q. kbir. no.1:225-2218 165. (MTRA 18:10)  ALIKSAWOVA, Yu. M. with toothless gms. Stomatologila 38 no.6: 70-71 IT-D 159. (MIRA 13:4) 1. 1z kafedry ortopedichaskoy stomatologii (zav. - prof. A.I. Betell- man) Xiyovelrogo maditsinakogo institute. imeni almd. A.A. Bogomolltsa (direktor - doteent Isr, Alekseyetko). (DFMAL PROSTHESIS)  ALEKSANDROVA, Yu. M. Cand Med Sci - (disa) "Repairing teeth Defects and Teeth Order in children," Kiev, 1960, 13 pp, 200 copies (Kiev Medical InstLtute im Bogamolets) (KL, 46/60, 127)  ALEKSANDROVA, )~,.M._ Prosthesis of defects of a raw of teeth due to ejentation in childhood. Frobl. stom. 5:322-325 160. (MIP-A 15:2) 1. Kiyevskiy meditsinskiy institut. (TF.ETH--ABNORMITIM AND WFORRITIES)  ALEKSANDROVA Iu..bj.-- Change in the form and dimensions of the dental arch and corona dentis in the permanent bite in children. Probl. stom. 5:326-329 ,6o. MIRA 15:2) 1. Kiyevskiy meditsin kly institut. NENTITION)  -AC-CM: AR5023518 SOURCE CODE: UR/0275/65/000/008/AO12/AO13 SOURCE: Ref. zh. Elektronika I yeye primenenlye, Abs. 8A84 zq AUTHOR: Aleksandrova.- Yu. M. j Aleksandrovj Lo N. Determination' ure conditions for molding incandescent of optimal temperat filament from tungsten produced by different manufacturers CITED SOURCE: Uch. Zap. Mordovsk. un-t, vy-p. 36, 1964, 41-52 TOPIC TAGS: tungsten filament tungsten filament tamp ~TRANSLATION: A method of-thermoMnetic curves was ustd for,detirmining'the (_ softening ternparpture und initial primary-r ecry OtahzatioA tern peraturIe. -Ten lots of VA-3 tang stenroduced by different manufaxturars were tested. The annealing wau carried out, -aJ716_4 torr, by direct passage of alternating current (for 10 min, 20 sec. 10 sec) and by rewinding in a hydrogen furnace, in dry and hurnid hydrogen, at a rate of 2 m/min In a 600-mm muffle. The temperature was measured by optical pyrometero ---After the, ajdnealing�-,-Ahe mpecim-i-ene were ruptured at room-temparature In, air on an RM-3 tensile -testing mmwhines, tha -error wan t IS or 19wer. The. rd 'Cc UDC: 621.5Z:669 JI  rl~- ~~rd 2A  M45 S/191/61/000/004/008/009 B110/B208 AUTHORS% Aleksandrova, Yu. V.9 Yegorovv I. A. TITLE% Textofaolite and its properties PERIODICAL: Plasticheskiye massy, no- 4, 1961, 65-67 TEXT: Textofaolite has an outstinding position among plastics used as anticorrosives. The low weight of faolite (specific gravity - 10-~lZ7), Ito-chemical stability to aggressive acids, ita-plasticity, and its comparatively high resistance to heat (practicdlly up to 1300C and more) r6fidbrs it particularly useful'for the manufacture of chemically stable apparatus. In some oases, however, faolite cannot be used because of its insufficient mechanical strength. The mechanical properties of faolite are considerably improved by reinforcement with a fabric. The present paper deals with the properties of faolite reinforced by two kinds of fabric: glass fabric of the type 'IT" (POCT 8481-57) (GOST 8481-57), and cotton cloth (MT 6639-53) (GOST 6639-53). was accomplished in the following way: Fabric impregnated with phenolic-varnish and dried at 25-290C for 24 hr was placed on the surface of blocks of raw faolite Card 113  211115 S/191/61/000/004/008/009 Textofaolite and its properties B110/B208 painted with Bakelite varnish. Faolite samples were prepared with 1, 2 and 3 layers of fabric. Curing was carried out in two waysi 1) in the p~,-lymerization chamber at atmospheric pressure within 30 hr: 60-70OC/ 6 hr, 70-80OC/ 5 hr; 80-9()0C/ 4 hr; 90-100()C/ 3 hr; 100-1100C/ 4 hr; 110-120OC/ 5 hr; 120-1300C/ 3 hr. Total, 30 hr. 2) In the-autoolave at a pressure of 6 atm in 9 hri for 1 hr up to 1000C, for 1 hr at 100-11500; for 1 hr 115-135OC; for 3 hr 135-140OC; cooling time 3 hr; total 9 hr. The resultant textofaolite samples were tested for their specific impact strength and strength on static banding. Figs. 1 and 2 illustrate the mechanical strength as dependent on the reinforcement method. The indices of the mechanical properties of textofaolite are considerably higher than those of common fao'Lite which is not reinforced. Reinforcement with glass fabric offers bettex results than reinforcement with cotton cloth. The curing method affects the textofaolite strength substantially. When curing in the autoclave under a pressure of 6 aim, a material with better mechanical properti:~s is obtained than by curing under atmospheric pressure. This dependence is plotted in Figs. 5 and 6. Reinforcement with one layer of cotton cloth increases the strength of faolite one and a half times, and reinforcement with three layers, two and a half times. Card 213  S/19 611000100410081009 Textofaolite and its properties BIIOXB208 Reinforcement with glass fabric increases the mechanioal densities of faolite 2-2.5.and 4-4-5 times, respectively.. Tubep may be produced from textof-aolite for all purposes where ordinary faolite with its low strungth is not suited. Faolite tubes can be reinforced by wrapping rourd fabric The fabric is impregnated with phenol varnish, dried at 25.,290C for 24 hr), and wrapped round the faolite tube which has previously been painted with Bakelite varnish. It is then cured either in the polymerization chamber or in the autoclave. The reinforcement of tubes can only be done-from out-n side or within the wall, since in the case of inside reinforcement the fabric may be destroyed by aggiressive agents. [Abstracter's note: Complete translation.] There are a figures and 3 Soviet-bloc references. Card 3  AUTSANDROVA, Yu.V.,., LAKOSINA, T.A. Investigating the kinetics of the reactions of isocyanate with water and polyoxypropylone polyol taking place simultaneounly. Plast. massy no.7t 15-17 165. (MIRA 18:7)  I I'Z; .- Y -. .- - - -I - _-_ - -- - - - -14-1-3.12 Translation from: IL-ferativnyy Zhurnal, Geograflya, 1957, Nr 1, P. .11 WPM) AUMORS: _Aleksandrova, Yu. Ya., Bocharova, Yee P., Knorozova, V. N. J~i ~g==~, ~e.. ~iridav, A. Ye.,Sokolova, N. A. and Rglit: V. 1. TZUX: Experimental and Practical Work of th e NOW (Opytno- proizvodstvennaya, rabota. NOW) PERIOD3rAL: In: Opyt stereotopogr. s"yemki, Moscow, Geodezizdat, 1956, pp. 5-15 ABSTRACT: Brief description of field location; description of aerial, field and office vork in stereatopogmphic surveying on a scale 1:5,000 for eccipiling topographic plans of coal basins. Card 1/1  ALMANDROVAL- Z. - Differentiation of personal inoomes in the U.S.A. Biul. nauch. infom,: trud i zar. plata 5 no.9168m-77 162 (Min 15: 10) (United Statea-Income) 1~  ALEKSANDROVA, Z. , vedushchly konstruktor; 1VANOV, V.; TOMBERG, S. Uniform standardq for servicing ships at sea fishery ports and stations. Mor. flot 25 no-4:10-11 Ap 165. (WRA 18:6) 1. Nachallnik sektora GoBudarstvennogo proyektnogo instituta rybopromyslovogo flots, (for Tomberg).  A tj AD-I~ bw h- S/632/62/000/000/012/015 D424/D307 AUTHORS: Alexandrov6, Z.A., Gundyrev, A.-A., Nametkin, -k-.-S-.-,-Ta_nchenk_o-v, G.M. and Topchiyev, A.V. TITLEt Surface tension of organosilicon compounds of a number of classes SOURCEi Issledovaniya v obla 'sti krmeniyorganiches- kikh soyedineniy; 6intez i fiziko-khimiches- kiye svoystva. Sbornik statey. Inst. neftekhim. sint. AN SSSR. Moscow, Izd-vo AN SSSR, 1962, 219 - 226 TEXTs The investigation-was designed to supply information in the little-studied field of the dependence of the surface tension of organosilicon compounds on the tempera- ture. The surface tension at an air boundary of 39 organosili- oon compounds of 12 different classes was measured over the range from 20 to 500C, at 100 intervals. The measurements were carried out in an air-bubble viscometer as proposed by Sugden Card 1/3  S/832/62/000/000/012/015 Surface tension ... D424/D307 (J.Chem.Soc., 121, 657 (1922) ) fibstractor's note; reference corrected improved by quale an~ Smart (J.Amer.Chem.Soc., 66, 935 (1941;~,), and further improved by the present authors. The constant of the viscometer was determined with benzene and checked with n-heptane and water. The following classes of com- pounds were investigated; hexaalkyldisilylmethanes, -ethanes, and propanes, hexaalkyldisiloxanes, phenyl-, 4-methylphenyl- and 3p4-dimethylphenyltrialkylailanes, diphenyl-, bis-4-methyl- phenyl-, and bia-3,4-dimethylphenyldialkylailanes, and linear and cyclic polyethoxysiloxanes. In all cases the surface tensions were found to obey the linear relation 6t - a - bt where dt is the surface tension in dynes/cm at tOC, and a and b are constants for a given compound. The surface tensions of hexaalkyldisiloxaneB are 2-3 dyne/cm less than those of the cor- responding hexaalkyldisilylmethanes or -ethanes. The transition Card 2/3  S~832/62/000/000/0`2/015 Surface tension ... D 24/D307 from hexamethyldisilylmethane to the corresponding disilylethane and disilylpropane derivatives is accompanied by a regular increase in rJt. Lengthening the polyethylsiloxane chain by successive di- ethylsiloxy units is also accompanied by a regular increase in dt. In addition, the following pairs of analogoxis compounds were investigated: diethylsilane-n-pentane, dipropylsilane-n-hoptane, dibutylsilane-n-nonane, phenylmethylsilane-ethylbenzene, and'phenyl- dimethylsilane-iso-propylbenzene . The surface tensions of the alkyl- silanes were close to those of the corresponding hydrocarbons, while the surface tensions of the alkylarylsilanes were 1-5-2 dyne/cm higher than those of the corresponding hydrocarbons. There are 5 tables. Card 3/3  SOIDATOV, A.S..; ALEKSANDROVA, Z.A.; GORDEYEVA, L.D.; An5ular distribution of fragments in the photofission of U238 and Th 32 by gamma rays from the reaction F19 (p,,