SCIENTIFIC ABSTRACT SHTEYNBERG, YU.G. - SHTEYNFELD, B.I.

Study of the Crystallization of Boron- Free, Strontium-Calcium Glazes Card 418 53 s4 S5 S SS S N IS80 S,O SlIq go /00 SrO Sig, 1wr, 78212 sov/8o-33-3-133/47 w fw L 0 16 40i so 80 100 S? -0-U471 I Y I 8rO--r1r8=1.6P( Fig. 1. Indices of refraction N in system SrO-SiO 2 CaO-SIO 2' Numbers on ci.irves are frit numbers. Dotted lines are Eskola's data, solid lines the present authors'. Fig. 2. Eskola's diagram for system SrO-SiO 2 - CaO-SiO2, wTemperature (0 C); (W) melt; (X) mixed crystals; Y tu %; (Z) by wt.  j f'. I - - 11 3 .9 fig Qj ,Qf 0 1'0a Jo 2 12- S OVI 0/47 IYO 1,99 cir 6' s1 0, S'02 parameters In :3ystem SrO (A) lal-tice pa-pameters in Angstroms. C;aO -1.01 ,~n curves frlt ruarLbers. Card  S t uc I Y1, 1, :1(, C" Q1 za t *101-. o f Bf-) Gla-e.,~ Card 6// 6 T8212 7/8 0 - 13 7 117 . I it e r- p la i,a vopacin,~ In system C a 0 - S, 10 Lor Lw,-, triost Iritt-ni-le lines 2 i3pacinr, dt/n In Ani~;-.itrom,3. Nwribers on i it Note: "M" j,-.; with I-)rO:CaO FIC, 2). Si~O-SiO 2 (A) Interplanar curves are frit = 1.69 by wt  1) 12 ul Giu: L L Li-w/80-33-3-13/47 M r 0 "0 40 5a fL? jig SrO Sig. rag SIO, FiE. 5. Specific Gvavity in system Si,O-S:LO 2 CaO - S -TLO 2- (A) specific gravity (C/Cmj); B. Cao-sio 2 coriterit in system (wt %) There. are 4 tables-; 5 figures; and 1'J references, 3 U.S., 2 U.Y,., I Danish, 7 Soviet. The U.S. and Card 7/18 U.K. referenceS, are, P . ELicola, Ain i . Sci . , 4,  -idy ol' Lhf,- Ury.'AallL-ation ()I* fiovoll- -(8212 31,1 Strontium-Calclum Glazec, SOV/d(J-33 -3 -13/47 23, 331 (1921); E. T. Carlson, L. S. Wels, J. Res. N. Bur. Stnd., 51., 2, 73 (1953); A. W. Hull, W. P. Dave Phys. Rev., 17, 549 (1921); R. W. Nurse, J. Appl. CheTn., 2, 21111 (1952); F. Booth, H. Breneu, Brit. Pat., 242996 (1924). SUBMITTED: MaY 15, 1959 CaL~d  SHTEYNBERG, Yu.G. Interaction between stronium glazes and a faience body. Zhur. prikl. khim. 33 no.11:2413-2421 N 16o. (MIRA 14:4) (Glazes) (ceramics) '  SHTEYNBERG Yu kand.khimicheskikh nauk; BUDANOV, S., khudozhnik - - ~- Majolica. Mest.prom. i khud. promys. 2 no.3:31-32 Mr 161. (MLRA 14:4) (Majolica)  SHTEYNBERG, YuaGo Diahes made of local claye. Stek.i ker. 18 ro.:5-27-32 My 16.. (MERA ("Dottery)  SHTEYNBLMY Yu.G. Crystallization of strontium-magnesium glazes. Zhurepriklek-him 34 no.7.-1470-1476 i1 161. (IOU 107) (Glazes) (Glass)  S/080/"61/034/011/005/020 D227/D301 AUTHORS: Shteynbergy Yu.G., and Yevstropyev, K.K. TITLE: Investigating the reaction of strontium and lead glazes with a ceramic body. Part II PERIODICAL: Zhurnal prikladnoy khimii, v. 34, no. 11, 1961, 2413 - 2419 TEXT: The present work is a continuation of earlier investigations and its aim is to explain the differences in properties of glazes of various compositions and also changes occurring within the layer of glaze, supported on a ceramicp during firing. The studies invol- ved measurements of radioactivity, given off by Na22 isotope intro- duced into the glazog after the firing of samples. It has been assu- med that the increase of hardness of the fired surface of colorless lead glaze is caused by evaporation of the alkhline components of the melt and should, therefore, be indicated by the decrease of N622 activity in this zone. It was also necessary to study the process of sodium ion diffusion in both glaze melts and ceramic support Card 1/4  S/O 61/034/011/005/020 D228% Investigating the reaction of ... 7 301 (based on alumina and silica). In the earlier experiments Ca45 la- belled melts were used and it was shown that calcium ions, due to the absence of natural mobility in the melt, diffuse into the cera- mic body but only together with the glaze melt. In the experimental part, the authors used Na22 labelled soda which was introduced into the glaze prepared I,,-- partial substitution of SiO + MgO in the No. 111 glaze with equimolecular quantities of PbO and B203. The compo- sition, including 3 % of cobalt oxide for earsier observations of rubbing down uniformity~ was melted at 13000C, crushed and made in- to a suspension with 6 Druzhkovsk clays The ceramic supports were made in the form of circular plates, rubbed down to the uniform thickness which was measured with a micrometer with 2 micron divi- sions. Glazed plates were fired at 1040 and 11400C and the thickness of glaze layer measured. The distribution of Na22 was determined by measuring the residual P-activity after the successive removal of thin (10 microns) layers of glaze and the support. In the case of iead-free glaze the activity of Na22 was found to vary along the thickness of the glass layer. For samples fired at 114000 the reduc- tion of Na22 activity near the surface was found to correspond to Card 214  S/080/61/034/011/005/020 Investigatine the reaction of ... D227/D301 the increase ii, hardness in this zone, caused by evaporation of so- dium, The relation was, however, found not true for samples fired at 10400C, as at that temperature evaporation if sodium was less pronounced. The lower concentration of Na22 Li the middle layer of the -laze indicated that sodium, in contrast to calcium, has a con- siderable mobility within the alumo-silicate-glaze melt. Iffithin the body of the ceramic and the glaze melt diffusion of sodium occurs either together with the melt or without it, but at a lower rated and the depth of penetration, determined by removal of successive layers, was 3000 microns respectively for specimens fired at 1040 and 11400C. In the case of lead glaze the activity of Na22 in the uppermost layers remained constant indicating that practically no evaporation of metal occurred. Similarly, this activity was also constant in the intermediate layer and only marked decrease was ob- served within the ceramic body next to the glaze layer. The adsorb- ing action of lead ions is pronounced on the border line and pre- venzs dissolution of support in the glaze. Rapid decrease of Na22 activity in the contact layer of the ceramic indicates intensive diffusion of the low viscosity lead-boron glaze into that layer and Card 3/4  S/080/61/034/011/005/020 Investigating the reaction of ... D227/D301 the depth of penetration corresponded to 130 and 150 microns for specimens fired at 1040 and 11400C respectively. The low mobility of alkaline earth metals indicates their stronger bonding with the siiica-alumina support and also supports the observation that they influence the crystallization of the glazes to a considerable de- gree. There are ' figures and 1 table and 8 referencesa 7 Soviet- bloc and 1 non-Soviet-bloc. SUBMITTED: January 20, 1961 Card 4/4  SHTEYN-BERG, Yu.G.; GAIMMAH, Ye,,L. Strontium crackled glaze. Stek.i ker. 19 no.5:24-26 My 162. (KRA 15: 5) (Glazes) (Strontium)  SFTEYNBERG, Yu.G. Effect of the gas medium on glost firing. Stek. i ker. the quality of the glazed surface during 19 no.2:26-29 F 162. MfL~ 15:3) (ceramics)  :WH 0-63  SHTEYNBERG, Yu.G. Crystallization of strontium~-beryllium glazes. Zhur. prikl. khim. 36 no.10:2138-2148 0 163. (MIRA 17:1)  khim.mw' ~n' ~Tajolica ear,.heriware fri.m. 1---c-a :--4 mel ';ay. r2o.22:16-21 D 164. !F!3) C-::v,,.,d.-.-rqtl,-nyy Issledovatellsk-ly rkeram~~ch,~-x-~y  , Ya. rl, . . - Ra n 0 . k-- In~ id, SHT7 - ..., - - 11 ' 3' -52 1 11 1 abcut ct-k- ~ k-1-- 7~ -* I . -1 --. -1 .-., . ff -.-ot% -j, Je (IMTRA :18-. 6)    SHTEYMRG, YU.G. Regularities in the properties of glaze glasses. Trudy GZKI no.3-.47- 67 161. (F-M& 18.-7)  30912 s 13r" 01 3 Uri, n Rayevskii, V. Voyutokiy. S. S,~ L -,r a, V ~j L E'ftict a- ,ar-icus !.7/pps of fcj!-.,:iati-r;n cf el-astomers on L a ri h i -on t o f i 1) rou zi D o I v;:i e r s Ef e C, u 1 ral] -,~-itinn by ;ulfur -,~n adhesion -ubbpc tc. ,L- T~,j) 1,7,' L s c (Dim, e, a -,r: Y-; ov n e n -, va . v B 12 7 82)2 E rl' 7 wa-~ f-cun! previ(~usly 'lie" V "I Raye-skiy S~ S. Vcy,.1t -k-lv, V .;. ;jaye7rSkIV, -3, S Voy,; 31- 4 y L I L 96 r,,: h e d e -n,l r - e o ~ Z.,J h e or,~ 5~ u I e w s 1. e D r C- s er e, y t'- a a x I TI I u M ard Lts deo~,nlen---e -.n -he t,~Pp- of c,-2 Fn, a a 3' n p -k in the Df -s to r r: -two! in the nr-~~-erlt V., r, I C res of' s 0--~~? 1. f d f erpn t t  30912 9- Jv Hypes CC Oft PM S KS 5 C FLI I z. CKC OA (s 5 - a,' iTx ~A S C. 1 nc-.l r C, r,.; 0 e r a -n4 cf 1 c -I r - ! -Q :h 3 C a ~11" C. 1 V r, ~vl 71- 7 i: e :.'I -a z- a Lr  30912 S/ g()./'; 1 v~--,rl Cu~3 ~Ype~- C ru~'~U r Bi o6./B i ol occurz3 :.ri all 3,--imples inve~~U':-at-d 1-, 1 - i 'C'n t n"~ S t r0- --fe t, i:, hir-I n e r h r ab b e r fi 1 m be zaus!~ sh -n 7- a ~e n ccmta,-J --crie increase wish chick- e n s obserl-.--i,~Lcns ~~f t"s study '-~-jlly a.greedi with t?le Vne s~ron-rrer a,Jhes,-'cn to PerfTl a~i 'Vi ce J- I o P har, die to 'hi~ ~x'racrdi nary rigidity of mol-ecular chairs of and h-L--r- Lal~v'.rlg densily .,;'rj'-rh c-c-mPli-catez --he _i iementp ct' ru'---ber mole-cules, T---,,~ ootim-um degree of %-u' -aniza- ; I fi;olon ol e tir-)n, a 7.rlaximum. adh;~s-ion, cnn be u-,IlizL~d -_-i the -mduitry, cond". ior-o used s,: pr-~-~sent for rubber fabrlo materials brtn.i- a'-cu- a network, willh a molecular weight of Ll The r.;4. ~M-j f 1.1 V.' 11 e -r e s~abil---Ly of the adhez~ve bonj does ~~c~t yet decrease Ales, '-'Owever, at 6000-06500 in tqe types of rubber inv~?stigated. it is possible to increase considerably t'ne bcnd Strength cf r-u')ber fabric maLerials by loviering the vulf~anlzari-con qegree of ruh-ber layerl~ ~"Ireotly adherir,'~- to the fabric.- ~~ ",.--.weL- degree 4:-.f vul-tanizaticn c f av- r - a-i :c.,:i)d red' w 1 he deare,; r. ru" -~an izat on o the bul of r i r  '10912 ! 9(.- , /, 1 /6 () ~. 102 6 , va - L,- T, 1-1 06-1/B Cl at rjy r, j Cf t r bb f T 7,1 T ly Dn n a e -Les ri ,'a.r-C  S/153/61/004/006/007/008 /-5-1 Ps 'S-0 E134/E453 AUTHORS: Rayevskiy, V.G. , Voyutskiy, S.S., S TITLE- Relation of gas-permeability to bond strength in materials based on the bonding of an elastomer to a polymeric fibre PERIODICAL: Izvestiya vysshikh uchobny1ch zavedeniy, Nhimiya i khimicheskaya telchnologiya, v.4, no.6, 1961, 1022-1025 TEXT: The authors investigated the dependence of hydrogen per.meability and -Libre-to-rubber adhesion of rubber reinforced with polymeric fibres on the degree of impregnation. The fabrics "perkall All (cellulose), "kapron art. 152011 (polya.-aide) and "steklotkan' T111 (glass fibre), similar in structure, were coated with carbon-black-filled ~~-I"'~-25 (SKB-25) rubber compound by calendering. To obtain different degrees of homogeneity, tile plies were pressed on a continuous vulcanizer at pressures up to 175 atm. before being steam vulcanized at 1430C. The permeability of hydrogen gas was measured electrically on.the basis of changes of heat conductivity of the air in the closed space of the Card 1/3  S/l53/6i/oo4/oo6/0G7/Oo8 Relation of gas-perazeability ... E13VE453 apparatus beloi.., the test sample. A table summarizing pressures applied to the plies, density, and degree of homogeneity is given for fabrics based on all three fabrics. The fabric based on glass fibre is less homogeneous than the others but shows greater changes of hoi-.1ogeneity with varying pressure. '1-.,te lower homogeneity of the glass fibre product is thought to be connected urith wettability. A set of curves, showing permeability coefficient*s, resistance to ply-separation at different degrees of hoimogenelty, is given for all three materials. These show decreasing permeabilities and increased bond strength between resin and fabric with increasing homogeneity. The nature of ply-separation also changes; with materials produced at low pressures it takes place without visible damage to the coating layer but damage occurs with inaterials produced at high pressure. This change of character takes place at the following degrees of homogeneity: cellulose, polyamide, 88"O~; glass fibre, 6510. The extent of mechanical adhesion increases -with rising manufacturing pressure. It uas shoim that for a giver. increase in the percent impregnation, gas permeability decreases linearly Card 2/3  RAYEVSKIY, V.G.; MAYZEIS, M.G. [deceased]; VOYUTSKIY, S.S.; Priningla uchtistiye: -SIITEYNBERG, Z.D. Binding strength between a rubber covering and a caracasse and its effect on some properties of rubberized materials. Kauch.i rez. 21 no.2:17-23 F 162. (MIRA 15:2) 1. Nauchno-issledovatellskiy institut rezinovoy promyshlennooti. (Rubberized fabrics) (Adhesion)  RAYEVSKIY, V.G,; VOYUTSKIY, S.S.; LIVANOVA, I.V.; SHTEYNBERG, Z.D. _ _ _ Effect of various types of elastomer adhesion to fiber-forming polymers. vulcanization on the adhesion of rub Vysokom.soed. 3 no.12:1827-2832 D structure formation on their Part 1: Effect of sulfur ers to fiber-forming polymers. '61. (MIRA '15:3) 1. Moskovskiy institut. tonkoy khimicheskoy tekbnologii imeni U, M.V.Lomonosova i Naucbno-issledovatel'skiy institut rezinovoy promyshlennosti. (Rubber) (Vulcanization) (Adhesion)  RAYEVSKIY, V.G.; VOYUTSKIY, S.S.; YAGNYATINSKAYA, S.M.; SHTEYNBERG Z.D. 0 Adhesive strength of rubber coatings on a textile carcass As dependent on the rate of casing in calendars. Kauch.i rez. 21 no.9:8-12 S 162. (MIRA 15:11) 1. Nauchno-issledavatellskiy institut rezinavoy promyshlennosti. (Rubberized fabrics) (Adhesion)  GEBGARDT, A.G.; 1UPETSKIY, R.F.; S11TEYND4RG#--Z.1! State of thiamine in soils. Izv. AN SSSR. Ser. biol. no.3:1*01-408 14Y-Je 160. (KERA 13:7) 1. State University, Lvov. (THIAMINE) (SOIL BIOLOGY)  8iiTEYNBQK,.B.I.; POPOV, V.A., red.; AR11OL DOVA, K.S., red. izd-va; - BAdH'0R'I1JA, A.M., tekhn.red. [Lumber industry in the U.S.S.R.; a statistical manual] Lesnaia promyshle anost' SSSR; statisticheakli abornik. Mosltva. Gosles- bumizdat, 1957. 294 p. (MIRA 11:3) 1. Russia (1923- U.S.S.R.) Planovo-ekonomicherkoye upravleniye. (Lumbering--Statistics) (Lumber trade--Statistics)  OTGHARMO. G.A., red.; SHTSTNBOK, B,I., red.; RTZHJ7, I*D*p red.; ckiu OVA, TU.S.. is&.-.- XlPfl~M-A. A.A., takht.red. [Industry of the R.S.F.S.A.; statistical collection] PromVahlennostl RSPSR; statintichemkii abornik. Moskva, Goestatizdat TsSU SSSR, 19610 343 p. (MIRA 14:12) 1. Russia (1917- R.S.F.S.R.) TSentralluoys statisticheskoya upravlenlyi. 2. Zamestitell nachallniia TSeutrallnogo sta- tistichookogo upravlontya pri Sovete Hinistrov RSFSR (for Aphov). (Industrial statistics)  it a 00 G - - witu mec"Al 6iters Mo. cln~ p (In A"AAcbM II&M,Alk TI R. slan.) G. D. 8h 27, June 1950. P. 23-24. Experimental and plant-scale In- vestigations established vultability and advant"es. es"clally for bor- lathes Ing and turnin . TO SG-) f (017 . . A A A - I L A METALLORWAL VURATUNC CLASSAFICAMM .3ow 10"141, t4l(lba 40 ONT 4VC 431431 OK QMV Alt 'o w rt;x KID a 1 31111 An I % a ad a 01 , ~9,09 0 0 0 0 * 0 0 0 0 0 0 00 00 a 0 Al 0 0 41 0 * 0 0 .01 :. 0 00,400 41 0 :1'** 0" 0 0 0 0,0 0 0 0 0 0 00 00 0 * 0 2.0's 0 _000 066  SHTEYNBOK,G.D., inzhener Make decisive imDrovementa in the operations of peat machinery construction plants. Torf.prom.32 no.6:4-8 '55. (KWA 8:12) 1. Glevnoye upravleniye zapasnvkh chnstey energeticheskogo kho- zyaYstva (Peat machinery)  SHTEYNBOK, G.D., inzhener. -, - Now passenger car.- Torf.prom. 32 no.8:23 155. (MLRA 9:4) l.Glavenergozapchast" (Railro;ds--Passeager cars)  - I SHTEYNB-OK G.P. inzhexer. Seasoning wW ijL petrolatum. Terf-Prem. 33 xe-5;35 156. . i f. (KRA 9: 9) 1.Glavenerg9zapchast'. (Petrolatum) (Wood--Dryiag)  SHTEYNBOK, G.D., inzh.; BOLTENKO, V.I., inzh. lr~- . Standardization of parts and assemblies for peat machines. Torf.prom. 34 no.8:11-15 157. (MIRk 11:1) l.Glavenergoremont. Reat machinery-Standards)  5 SARARIN. Aleksandr MikhayloVich,, KARABV, Robert Alekseyevich, kandidat tekhnicheskikh nauk; VERTMLN, Alekgandr Abramovich, inzhener; KAR V. Viktor Nikolavevich,kandidat tekhnicheskikh nauk;. f. UDALfTSOV, A.Y.,glavnyy redaktorl,"wfiae!R~-~Yu-.Ira tor dak I-Apparatus for studying kinetic processes at high temperatures. Apparaius for studying' the discharge of viscous liquids through orifices and nozzles] Ustanovka dlia izucheniia kinetiki protsessov pri vyeokikh temperaturakh. Uetanovka-dlia issledoyantia Istecheniia viazkikh zhidkostel iz otyerstil i naeadkov. Tema 4.uo.P-56-457 Moskva, 1956. 15 P. (KJRA~ 10:3) 1. Moscow. Institut takhmiko-ekoneutbbeekoy informiali. (Chemical apparatus) (Viscosity) (Fluid dynamics)  POPOV, Vladimir Ivanovich; GSANOV, Dmitriy Pavlovich; LYUSTIBERG, V.F., inzh. ved. red.; SHTEYNBOK G.Yu.. inzh., red.; SOROKINA, T.M., tekhn. red. [Diffusion chamber--for measuring the o