SCIENTIFIC ABSTRACT SOLOMIN, N.V. - SOLOMINA, R.V.

11 1 to of to to So its 16040641 igawaro A &I IL..L-I- La, M A lot 1-0 "soft a 44i of 14W Need car"Wesis 1wrectery. -04 N. V. GalawhL Glass and Ceramic 0 Imidusery (U.S.S.IL). iiii 4. INI. P. 20-11. . 0 0 0 X IUsulls of experiments on the comparative cor- go* oj 00 rosion resistance of different alumina-tantaininc =04) refractories in contact with alkaline sulfate at 0001 1350*C are charted. Alm describes and dingrants 00 .3 the laboratory apperatus used to determine the 00 " ; ; corrosion remittance. CO* b u AT 11a As 0 > 00 10000009000000000000 O;T44 60 ties -.1 Isles 2141411 NAPA 111111goo 0 FINNSANG19 000000060000000000 4000000000410000000  1111191011111 'am AL 0000000000060 I@011#ljiI go 9 i 00 7171. bift el ww &am "rmdm rOmdodes. V. 50WOON, Stekerways i Kemas. Ppow. 3 141 :DI-21 (lt&47)-- The resiotancr of vitmKamndun% and thennittmwUndurn in a molten mixtuff of 85% NaAO. and 15"t CaSO. in the girtsence of a redecing agent. at 1350' and 14301T.. eat W to 40 times gmter than that of fire-clay refractory and sevrml times great" then that of mullife. For more objective and amwate deirr- mittAlicHN Of reatstswe to glasamelt, a carro4nwter is u@d in which the speirlmen is rotated In stawnelt. 14fkram. liz K. 00 so its .41ALLURGIM CittlAVLOC CL46SIFOCArOM SIV's do 10 so As I #ads 081wasno 3's FZ 0 0 0 0 0 : 0 ; ; 9 0 0 0 0 6 0 0 0 0 a 0 0 0 0 0 we,k:uo*90@01,  a a d 0 Oft"fuss Ale peoplaftfs ftof* c C 00 8 000 00 oo@ "00 go, j t del. No 0 vvdLAys k A AT 10 oo t . I n I- IN 1. IN I. Kitalf-Wal, 7. No. M. 191 -1 vb "Y. moo 00 , - ,d F. Volchum- d&y 1, Lbl! Imuldfing tiv 000 ratber ndum'refrsctOrks- lmltlngn 2" 3 o 1 1 . Also in 07pory, Arsha I Sttig O.U ; so 7 &ALAP &gT&#.LVM4CAL Lntf&tWf CLAUWKATMN --Af moo RIO. 17"Nos- @@ @7- %Dow "NOT Vassal u 9 AV A. I a 0 n1w, , R . x I ; In Od 0 0 0:goe: '10"S:$06000400090030, 00000000000000,000000 0000 Be's 'a 0000 00000000000000000.0 60000000000,000000 000 0@ 0 0 0_0 g 0  46 6-@ -- - to goo* goo 0 0 0 09 00 0 to, goo 0040 000 00 , . ? 0 2 11 w 0 30 OV I ? ? 11 1 11 u 1) m a ft 9 a 0 0 &1 #j A A.-L-R L r A A-A-A I a- k - A @ @ I pA., st. St 4 set. 6.0 4 1. t@eom -00 0 649. Xlr*oM= U# Tomperetwe R*fraow7 fo@d fres Nierlopole Camemstraft, tW 1. 1. UtalgerWAI mW 1!?_Y. 0 fteleaU Seek WM p. O"4MI, 1947. goo Vol 00 00 goo a goo too wee A S I L A &ITALLURCCAt LITINATtOl CLASSOKATION A=-., 1 b u o Av ip pp "Olf 21M Ila 199 Ogg a a &I 1 @ Ir '0 2 .  PA 5'-T@'4 U,cSR/,AineraLs May 1947 "Theory of jlass-cf,,ment Binding of Crystal i3odies," 1. 1. AitaygorodsViy, h. V. Solomin, 2 pp I'Dok Akad Naak S33R, Notia Ser" Vol LVI, ho 6 z,-xplairis gr.--at stability of a .-lass-cement body in operation of hi,,hly ag6ressive fusion and its hi.-h mk-@@hanical qualiti-r, in temperature exceeding meltin6 poirt of @;lass by several hiin,,Jr-@d -ie,,rf-es. Eubmitted. by Academician D. S. Delyankin, 23 Jec hy,66. 5 r'! ^ 4  r o: -.- f- Tekha. @-to- 1 .49)  0 0 0 gig 0 1 go goo A A 6 Solos 1 3 0 6 0 to s 0 0 0 ? a 0 0 0 v 16 f @j ! 00 . I u A- A to- - -LL U ad x so a 0 0 a 41 a c 0 ill S A 4- -@AL L of 4 0 " - - -- -4 A-0-8- -- 0 00 A W -0100,211C, o 0 00 00 C.- -0 so .00 00 gig jolter Sok @oft IqJ-of f.oftISCWy nN11114141L N SAILVINIM. 0 0 rise ft,4111% 4 swtff@' 21 ZI (104141 '00 so Alwlybis door immidrimilly Th6at"I 1-ulfw of the posts. '.W, tiMuttioll fluting IIW liflodual ct"'filla ill low octod. 1.0y 111.6 .0 00 CA tft@ 1-tell it he.41411. i ( fi i t ItT. ng Ur Wr r held for not It" than I hr. at the JCMPCrAtute 0 41 so During I he Hold then rapidly coilled with a strmg 241"Tum Of Rif eoJ ' ;c he& I inif a fill holding, all tloe efyStalls. Is hiCh - L '@qIQFU t"I 1111611 g s ivill t orn to M"r e t Itividual coiling. itself, and tlw onaterial aln-cclar 00, the 4-cmulitism ut the inatcoriod crormtpunifing is. the high trinilefA 001 isitir of firing 4mr srrvkv. and during the ra;*l elstAing thi% vinuti- -so "afalible Isoot is fix"I. The inaterimal can thcot 1w cut file twit mslyti% This norlbeid vm% uwfI in the armly%i% of firr cLay fe. bactiorwS Anti eln-trimmllcvl mullitri in I.Ab .-A"- their %A. 'k $nut difirrentv its I-ba-w %%mn1w.i1kAt two%.-.It life fal-i'lly I-Ard -trod The grailually cool"I v4secluirm. the fivinct hadA Lolls r visli :1 terst of Klaq% Anil lo-sts mullitc. 11 It of, 1 U 1. Ill SAYWO ZI tilload .19 0'v 43 - -- - - 40114421 of - - --- U 19 of 10 is tralr - T T r r T T m - ea man, ,I, ISO 0 0 06090 @*sees O&POSOO a** ** 0 0 * 0 so -  T- Car ;.Nr) nru- ihe iaboratOry. tt-chniw Pory. 13 i 1 2-5 094S).-I " alurnina war mixed with 1`-, ZnO and fired to 14YOC. to insure maximum transiormition of -y-alumina to alinnina prior to inixing the charge. Organic binder (n(,t specified) and water were added to the charge in amounts requ ired for %enzidry ramming c1aud and pneu- tnatic),.aiid the turs were fired at 1460' to 1540*, For compartsm. li@,-. Am prepared from 77c`c Chasov Yar clay gTogari(I 2:1' Cbas-ov Var binding clay. Compared with the multigr(c g product, the glass comridurn I@mad a firing -i@iukzttc 7 to S tizric,as large. an apparent pcrosi", 2 to 3 timer a- large, and a res6tance to sulfate liquors 72 to 2,3 tinirs p grrat. SWfite,ceDulose extract is rec- ornmended as a piasticiler iwcju%e of its slow d--com- twisition wit1iin a wide tcar,,eraturv rauge. The fring Nv.is considerably improved by firing a portion of the charge in the forin of briquettes, grinding the briquetiv@. and v1ding the gla,s-ctilient grog in amounts f Uf X) to Sfir, to the original charge. On a commercial walr, ti@e was ma.tr (if te.:hnic:kl alutnina analyzing not lc,, th:.n 97 .1c', Al,(f, iot over 6.41-, SiO, 'not ov" -@t N.,-O, ;ine igniiivyi lt@; ahout 1) 1 .1(1: 6% 1 01,;, A,, a gla" binder. cullv,. (if mdlinarv cornrK,,atkm WAS UWfl, PArS Mere pTelIAB'd bil Imcurriam- rarnrntftc. Ai: Airin"ge was le,s th"n V@ I PrLAucts were fired for ten tbys and held f6r 24 hr. at a ma@ximurn itmPeraturt of 1500* to 1,-C)*C. The Wo1wrtien were better than thosr td %t@rati^- specirricris; !,Ulk; sperific gravity WM% and aploarent porosity was ;,bout !41-, B.Z. X- rTTRA'NRE CLAbli-sCA'11.01,  N. V. Pjk 43/43T9 GlOaso @Pkww ion air go 1.9w chemistry -@Psriodlo-systfm "Applioation of L. 1. MmudeleyevIfil P6rIOdIO TAv tO the Properties or Glass,,* N..,V. SolcmInP 3 YP "Dok Akad Xwk SMO Nova Bar" Vol M.. NO 4 Denorlbes agperjawto to deterwAne Offoot Of sepa-, rate glaae 0%vancute bn 'their 0791CIL, qualitt", and Move pwitive remats iii o"o of equizolsolaw components. ftbmltted by Ac"Miclan T. V- QM.M- shoh1k., 4 Doo 194T. 4M  10 90 ON 101 ou 103 Ad a a v a so 4 a aa a 4 a A- aI am A A L A -JAL A 0 jXM a i L-A.A 004 j - - a , 00 00 A -64 00 minma or varmas smAwi(m iaTH stuns pum smicat .0 00 TSMOLOGY. 9 To 491"n. ftk LAAAm 4 .00 11 so 60 t 1' 93-" NIMS). - The ratio of Qw dimensions of new-phaso .0, 1@ ; I 11 1 formiations to their number per volt volme to directly propor- .0* ! t10Wd to tb0 12-246 Of diffUSION Md to the tGMWGtfArO OW iM1VWS04 *so 0 j proportlowd to the vismalty of Uw medium. This characteristic go* 00 has great @UWI~aw In the removal of gas babbles from w1ton z so Soo glass Wwo It Is someotial that the number of gas babbles per valt 400 OOj vo lume be at a mAnAmmus md tbalp so age also at a monlimmal '-UOO sow this can be attals" smMW shem the vlasoolty Is at Umv possible see o0v alalm"o MOO by @ of dur"Iss the now-pbase formotloss .600 of manor dimsmisiome An sonummie to dowswo mm they rimeny droo disappear NMI* the" of Imew disimmolsom will Imereaso. Tkdo rearrameament ukes p2mos bob before, sed after pbsas, eq"- librium is roe", and It mmW oeaur at constant taqwatmro. 01 An emomple of this is the ppoesse of mmUltinatiom. The growth of a 12W* C. occurs, larger mullit* orystals at topmaturom abov No @ woo A54 S L A 61TALLUNGKAt UVIRATUNI CLAIWKATWO 80 at*w 11 ' b UN AT 00 AS b 10 A I a OW 0 -9 a Iv AT 9 A a 2 0 v . IS a a milix fin- Q - " 1 -; : ; e0060 4 q o 0000000 0 OOOOOOOOOO 0 1 7 4: ;OOOO 1 :::::: 0 0 0'0 0 0-0 OALjWL0 000000 0  00 LIP so so 00 00 0 0 00 00 00 00 990666060686664100006 0*000090* 0 00 apparemuy, Indtameavely with a dowesse In the loSel =111to coateat bessinae of the dlooppoweeve of the simaller mystals. Similar rearrampeento of Now-pun fWaistions oem In Ma- aims ad in Uw Votaw 21%uld-Ve. %is woo determined experl- mentally hW roacirdiag with the aid of a microscope the numbw and alsom of Vs bubbloo In softened quarts Slass after It we heated to about 2650 . It to quite poosible that an lawasso in plasticity of clay put* Md Sawa &isos during storage to mostly the result of slailm also rearrangement of the gas inclu- sions. 00 so 00 00 *9 *0 so 90 00 00 00 96 00 00 00 04 00 90 00 gel 00 0 00000000000000000000000000000*00000000000 00000000000-000000000***0*0000000000000000-  "all MOW low 0 9 0 11 Of 11 IS 4 Ir ff is MCI 14 a N M Is V A b ; - 0 h- 11 0 a It h A, 1. L L.-A 6 Z. A- IL L. Is 6 F I 4A 0 (K IV U 4 0 t..4 -00 go -** 00 00 00 00 '00 00 00 00 00 1 lost resiounc* al rot tackwj matevia". V 1--twitut. .00 so m,th., Ple oo Iff"Ill'al, bw drit-ritsining -S prmm- the Ilr =0 :4 111. IN, fill's III Ml Ill 1111hil-111 1114-1.11 CA 4111-n I 11.61KItl 00 limim-I vm-aw t"OkI.-Imul, -.40 t@ M-1411-1 A"ll Ifit' f-11111. We 1`111fr-I Ill I-"-, 111C '00 00 coo Cj,.jtrf the Vjw-JIV, lIlr KIrAtrj i% file jv%l%fm1- It- hilgis 00 lit, phw Ing 1. 414 vi- 00 trill1wrallorr. A Im.artkally Straight lisle vt goo Al I-1 11.4@ INVII M Ill AVIN-Al IIW MMW Ill 11; r%,4111111- M- lago 1:1800 COO coo 0 4f I too -00 too 414 $1 1 I1110-It-I boo %so ---------- --- 3 43 -.4 i-a is m u W., I'a -I It it n is It a q a g.. .1, Im 0 0 : 0 0 0 0 0,0 00 00 go 0 00 goo 0 So 001 0 0 0 0 ow 0 00 0 0 0 0 0 i 0 so 00 00 * a0 111of 0 F.0 000100000000090000000  : 1 @@ 1@ I . 9 . . J@ ; ., , @ . . : - ,.. c stat I v rlr-)f'. V - V. Gonch-,rov!a (,,,D c 'K-al: o7-.cuporrom -rterialel* . L e ,--rrn. "Grnrvpor.,,,", 1,?1,71, L.' Ogneuror7, 17",49, :;-. 6, s. '@,2. 0 4 ,'J: Jf-,foT)is' StACY, 1:10. 2'' t :' skva, IQ 9  Impt @Jqvswy so Irn tonleftrw for as gbm c7p4m:54" in lwwm sod al"Itlestious for isuplown"t in suiling clay *out env, 01"Ung of V%. 4A Wae*. aswi fixime. The mom. stalls also of aim -1'. ..11 1A.T. "i ISwu4M* IM4 twou rodurva to o.TA t'. I inin. 4u.1 jur Isootum Works to 9 runs. to lwwvwnt wepago of SLA%%melt into the blieck and wushisig-out W pug into the incit. Mold design sbouki br such t6t ran"Mo lAywtv of blocks will be Ise ptndicislar to working surfact If ( bkwU; ramming should In colitinuouis. withowt Intel- ruplions. to ptvvrnt drying of thic surfacc and le". Into lAyert. I)miriitlgsbouldbepnKik'vdvtbrirva4vattugams. In tn@t cam., the usax. anowable temp. change W should -be detti. forthe followiU43 perimbod Adog: (I)NOCTOIU- lion 11( j" And 00 shrinkage, (2) lnttn*ivt evolution of Kass. ;&rut (3) intensive shrinkW. For. the first perial r - CIAP'-Fas. for CAW mcoad period. 9 - Cst)LPAsFA# And fur I@e third lwfi-xi. v - CkP,*JvKdl. *here % I hral Ctaid., a I* C41cff. Of "Pansion, P Is temi(k luradt F is upAulus of clasticity g 6 gat p"awability. j shrinkage. v is Y14coally, s 6 tkickness. wid t. Ci. Ct. a (" ,rv "no-in. COMPIMI with tier Its to"*), t -1101.11" 1 sit m4%. temp. bas C., ienaed to K- 120 hr.; .&.I the strength of the bliarks but rectwirest Minding todimensions. H. Z. Ksmich  0 0 0 0 0 0 0 4 1, 0 10 ! '. #1 a 61 Od *.C 0 cc A a r 0 A-1 _r, A I It L_ 4'.3k _J! W 1. t It, AS I A_$ 1 0 A- A Mrkics i Keraw.. 6 112113-14 (190). -The friction (fl.N 1. orcur- riog on The boundiry of the laminar flow of a viscous slawriell be calculated awl solid wall idoni; which the flow a mov", can fromIlS - 29V.M/X, wlarrelis, tangential force along the wall'S is arm of the Wall. 9 is viscosity of the 112"Melt. 1,_ Is Mali. mum spred of dow. and x is distarxv between the wall and the Myer of S14",melt having maximum sptrd- When two rvffaciory 00 Arl walls move in relation room another in the gL%,,mell (eg,rota- t ion of the plunger within the bushing in feeding glaWforming ma. 00- chinc-0. f/S can he calculated from f,.% - 9 1*,'x, u here I* is 00 J!, linear speed of the plunger relative to the incite SUffACe Of the *9 a Imshing and x is the clearance between bu,hinj anti plunger.' Calculationt with both equations indicate that erosion. it% a 004 mechanical abrasive action of the glassmelt upon the refractories, oew is of no practical signilleance. Greater destruction of the refrac. torirs at places where the movement of the g[A%%nwft 6 greatest can be explained only by the increased comnion clue to the lArgef cacrfricient of exch4age of the jrla@crwlt near the wall. 7%i% ro ellicient 6 apparently jisrolcortional to dirlds In the flow new the wall. At&.% A ITALLUNCKAL 1.1114AIUME CLASUPKA11" claw )i" @! 1., 4 4.Aja! 1,144101 it 0101, Ogg U a A, 0) is 0 V a If air walls Stan 0 0 0 0 0 0;0 0 0 0 4 1:1 nos zoo r gee a 06 see see Bodo 04"Ov 11,1512-IF OK a.. all I1A An I Sig PWO Wj,j,,jMMG 3i I MW o"'s 1;0-ooeoooooooo::: 001 :00  -@ 1 1 a 1, . . 1. 33188. Fovysheniye 'achestva Sha:notrcgo I-riFasa. Stek:fo I Kera:7ika, 1,?49, No. 9 C. 15-18 SO: letopis ".1hurnal Inykh Stbtey, Vol. /,5, Yoskva, 3949  it u tj Li Is III u a III L-L-AL-IL.J., 2 1 A& A L "OeSIM11 AOD 02609 It'll go so ,ge 0 lb 00 so Skkto A Krraw.. 7 1101 14-17 discuaws thi ftiVoirbij so 1 illin: mability 0(tlw vifinvus state. SwItifity A1211to WpAr4- 1 1 :W so 'r, i 0 .1 . its the Iiquhl phaw. chnnical %tAbifity. atut the trAlisalims 4 1 SiTVI1 I)hy%iCAI I"Wfti9% (ViWONity AIUI fAtV 8*1 IL4kIIffA-.jtf4VU) 4 Firfe-Frtims It z K 0 so a - go 0 111041--_ I A I A *tT-LLtPQKAL 011841URE CL&ISWKATKO -T I u a AT 10 is -r- 1i -T-17 to a It It of K a x K pf a a is pu 000000000000000400014 :000001000000000,0 -e@ 1949 see I zoo 'lee coo See I t- &A j--Aj-O ->-j7-v a 1 14 d", 006006000060600006009 IL --q-q_6 0 0 0 0 0 0 0 0 0 0 0 0 0 olA  o" x 11 32 v 004.1 ajai Wage 0 4 AL-A- as N. 1 1 2 A& a a -9 A- Of fit- PROC11146 also Plespentits mots oo J so I.,@ 4011 cloPraidery asistariails load 00 and Go allsawe I"~" fit "Overalsarsis op to 2800'. NL HA)LIPM1.14. Otatwjsory, 13 141 183-M (101) -The test shape a- - tAW in aturnscranal subjected toprrswrrhy a vertical -tiCht. fi 00 1; loaded rod which is provided *itb linkage anil a pUinter With A 00 wale to 4low a 13-fold magnific-aiiiin (of the actual tnovirinclit ill 00 the roal during the test. The e"ilanscut 6 inictul"I law testing %halirs hillrillall A diAlTiCtef/lICight ratio JUSt All ift 41AM1.2111 lest ilissisrsusell for determinhilf deformation under Naualat high trial peralucts I I permit 0 vitriatkass's ludiallieter *h hill Until *ad fit (to 12 man. awl of bright within limits of 14 to In mill., 4himelef Can The incintaised to IS mill. Fquiptn"t can Also be u@l to titter- ' ll, shrinkage and growth. Acturr resistance. Anti even coeffi. ni 00 cicut of expansion by the differential method (by comparison with 60 11 grAphitroranotherstandArd). Vim-otilywaisailetervainedby the nithod described byS (J. Tech. Nys.(ILY.S.S R,), 15 Ill 11012-721 0945)). MformAdon tests were made with graphite. WASISVII kaolin. And zinvisfurn concentrate. For grAphite. the first signs alf dclurmait ion occurred at 7,M)" to 2MM"C., for kaolin at About INW.aracl for zirconium concentrate at about 131110. Staltiliacil technical sircmias showed better results (4'@ deformation At q0N)*). Illustrations &bow equipment. including an electric (of. l IlAce. 1. Ceram. Abstracts. 1%9, Sept., P. 21(k H z K. C l Vi 6111.1LA OCTAL LURGIC AL _Lll14*T LINK CLASS06CATON It A goo. Ill-all.. " - IDGZ i it t UM340 -4 10189ri .61 *a. cat it 0 U 19 AV 10 0 7@ 0 4 . . I F Nil l*Pwa a plarboas-i-I F w 0 IV it *41 mass Visit its! On 4 1 24 17, . 0 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 coo Coo avo a** COO too U00 woo.  13cs 23M TU thwMAI IN. V. SoLoWtx. X" U. GALD90A and N. A. P..=. ( @Szvfil-ll! rM "". MOSIMMIROMb WWO I I I Oat Of tbS thWVW SUPOSSIOR 01 SUMS Mtractod" with . &ktons6or of On Soloook IyM wbkb Is d@KdW Is AsUL nw ib*nnW expansion corm tor And knolK bob" &W -Y r-=.. emcwthwWalmostodocklawkboackofter. Skao(tg.2-48 VIS C4 wores davift besting Uma Uat wift ". 2-36. The tubwasommA fund Arms-mullits is cbmac6oriod by a moookb curm S&MY Phaos of tircowummko h" fiec"Wes is Me supsoolon cood. above OW Cl: Me mjgbt accousm &tz 1 9 strowift id nudlift bkmhs at 7W-4W C. during the warming %; nabs, WNk &W corsadess talrodo" do ezvasew@& cwvw Showed an Chem" is tu sap"doo OWL Tu fit&. 9 utio&)  B C-9- ( P4- @, 1,4 @ -@ @ 3M A *virv (or iodmins &now It vm Ow auk Keram.. & No. 7,14. 1931). Twt=;Fip*&"s =" licaty tampod slawiank bim-ts to - the bkwAs weigh ow 2 crA. &W ha%v a cruthing sirength of only 150-M40 IW%q. on, *W thcowfors twcak casily. (2 fWj  FOLIKKOVSKAYA, A.I.; SOUAIIN, N.V. Production tost of different refractory materials as regenerator c'heckers of glass tanks. Stedo i Keram. 9. No.), 3-5 152, (KIRA 5!2) (CA 47 no.19:10192 '53)  3842. CLAY-KAOLIH MIXTUMS FoR qLAm-TUiK REFPArTORIES AND RADW1101t PYROMETER SHEA1113. Solomin, N.V. - (Stoklo. Kemm. (Gl:-jzs & Cammics, Fuel Abstraots Moscow). I@ @,'101- 9. (1). 7). tttxrurc3 of rofmctery clay with Vol. 14 Ito. 4 60-80% of kaolin can be fired to grog at coMmOvoly low tempermircs. The Inckision of kaolin as grog and bond considerably Improves the Ootobor 1953 properties of glass-tank refractories fired at sltp)itly higher tempemircs. Refraotorioa In scmo casos an addition of kaolin to a clay renders the latter 5u[(.'Iblc for the production,of satiSfactory Class-tard. refractories'. C lay-to o I I n mixes with a high kaolin content my be lized for the rnnufacture of radlatlorr-tubw for pyr0reterM. B.Ccr--m.R.A.  SOLOMIN, N.Y., doktor tekhnicheakikh nauk, professor; KUKOLEV, G.V., drxtor t-AMIcha ski Ich nauk, professor, redaktor. LRefractory materials for glass furnaces] Ognoupory dlia steklovarea"kh pechei; proizvodstyo I primenenle. Pod red. G.Y.Iukolevs. Moskva. Go@. izd-vo lit-ry po stroit. rusterialam, l9j.). 190 p. (XLRA 7:6) (Refractory materials) (Glase waufacture)  T7 a Guminit on of mono termite and ltaoil@Wl sod n and Pj, at FrIdlender :('1'953).-The %-ldcspfead occurrence of qtimrU as an &a- era] in clay sediments Is easily detected by the., :cessury utir ;e1latometric effect of its 0 inversion. Pura kaollaite i doej% not show a corresponding dilatometrIc effect. Tbekrw. 6 truip. rifects (at 100* to 200 ) are Irreversible and only '141(n 9 to adsorption H30 in the clay minerals. -In highly, g S,,Ic ,s refractory monothermite ckys g., from Dmah- ' *) k. kovsk) and c rt i li t l U ff (1 1 e a kno ns n 4 a m e ect quar 4 ' ' nemly completely Nuppr, alter calchuttion at NO , but:- It reappe"s Oter a c2ildnation at law'. auk @eouz munos thtrmitc clays differ also by the high Changes in the &V. M f 4 - ansiou co ffs after l L t 1100* th ti e l h e ca c ia .: ou a es ow c ays s p V s higber expansion cocffs. which. howLver, axe decreased spin, j, sit highest t ps., evidently by the forination of a Sior . rich glasc. be kaotiniLe clay of lAtnin-1, shows after 7 W' heating to l3W* a distinct dilatonictric effect be U ' und 180' the reawn for which is not known r7=b % p d * ff ? 1 ynilte e ect )..  -'T - M WI Changes in mkft.;..d d..ft.WjIad Wft fractory at cc temperatures, 'raldjoa, SuAk i Keraw. 10, 0. , Chemical Abst. lab-made and one cam. electuramelt mullite refradarlef Vol. 48 No 3 were heated to 1460' In 3.5 hn., held for 3 hn., and then ' . cooled rapidly In water. Chilled specimens showed mom Feb. 10 1954 glass thar. those cooled slowly; the former showed no ore , Glass Clay Products Refractoriej, minerals. while the latter had up to3%. Chilled specimens ) f h d , , also t.54A a more pores. For flux content o = P and Enameled Metals were no structural changes In either; for over 81 ere . were certain structural changes. D. Z. Kandch  C" 046 vy Qy-5q *COnjj jgpA= N.Y.Solrlmin.N NI-Q-0,1108 A. A. Lialstyan. A I ih nr[@, - _@ 3 M were madi sy"WrKrFaM lkPTIMA, fta,953).-Tests were made in glass-melting furnaces of ZrOr-mullite refractories contg. (a) not over 5.43% flUXCS and (b) 6.48%. Stability of (a) was 20-30% higher and the corrosion more uniform - B. Z. Karnich  ima Sam $mjx atfoam V- Snamm 146L= A Crmwks Moscow, If No 6 1933). Rzferenea is mA& 1953. Aff&;W Zgt@@@ and j@ it Is ii;6* to havo 6; 4*)=% it is -wi I . Artv. fin, njr@ Tho kit rmAguto #Avmted Is the cooling of wk Walk t*rtJtxe the rate orgl3as flowadjacod to the wall. it wa sloo ob" th4ts lVdaction of the OwItint- ternp. by SO'C. mdum the contAnthutim of the &is by the rdmtorics by 3 limm  V iWIS a surface, too" In the =Mwy 01 md"O te a rfli m IM A *(,. . NOW4 Isslade- N.V.WW- , A IG - fth" Aldwial" i adlIff, J0001. M-2 1 0 Aar, Khios. 1933, No. 9M. Ov;Ij Appea, ot at.. C.A. 47, 406U) that IkO ___ I . - As - - " U IQ SUMMS PIMA to a greater extent than do the other related oxida JAgO, SrO, - CmO, 11&0. The so.p. and coeff. of expanWass of lJcO hWi- Cate a lower amt. of intumol. energy in M then In MOO, SrO, CmO. or B&O. 77he ammaly is attributed to the struc- tural features of BcO the other oxWes have a cubic lattice and octahedral ZQZ" and the structure of PAIJ is cliasucterized by a hmtossal lattice and letrArdral co- wdination. KeIner, - - --------  SOLOMIN, H.V.,doktor takhn.nauk,prof.; GAIDINA, H.M.,Acand.tekhn.nauk Improving the composition and technology in preparing electri- cally malted zirc@nia mullite, Trudy MIStekla no-33:42-64 '53. (MIRA 12:1) (Refractory materials--Testing) (Zirconta) (Mullits)  U&M/ Miscellaneous - (ilass flaws Card 1/1 Pub. 104 - 10/12 Authors I Solomin, N. V., Dr. of Tech. Se...Professor "OVM"@ Title I Certain sources and methods forthe prevention of Elass flaws Periodical I Stek. i.ker. 1, 29-31, Jan 1954 Abstract I The various causes resulting in glass flaws during the mnnufacturing processes are eXillRined. Methods for the prevention of flaws in glass are discussed. Two ULSR references (1937-1953). Drawing. Institution: ......... Submitted: ..........  USSIt/ Miscellaneous - Bibliography Card 1/1 Pub. 104 - 12/12 Authors iKitaygorodakiyj, I.I. Title tA useful book for glass industry workers Periodical tStek. i ker. 5. page 32, May 1954 Abstract iThe editorial presents an abstract of N.V. Solomin%%.book.9 conc erning, "The Production of Special, Highly-Qu'ffrTMTV891WMctor1es for Glass Industry, Economization of Refractory Materials and Technological of Problems of Glass Production. Institution: ..... Subndtted: .....  @-;,ol'a I,f, n-.. ',(. I%et@:orls for Prc-vrr.-tiri6 Vc Silky 6heen and Waviness (Undulation) jr, @Ilasz;. Leka Prordshlenost (Lit-,bt Ind-stry), #10:22;Oct 1@4 1  J J'V Lifect of refractories on the uppearance f sevii am& In )-not-IL-i'-9TO-As. N. V. @Pbmutt, A.011. I'm Cm A film, @xptj. w;" turii'@T".( W t-t w1l.-I ter 1111:11ite rthactlAii:@ Clio-'L'l tile If @;'(' I all"I lyllbbics. t+x@+Ay crucil,l- @,f 2-kg. r.,Ik4tity "'C' 1:e chargtd with fiw ctillvt of vuritpus mfmc- torlei al)(I phad 1111tier tile Cli'll-gv. I'llu ClimiLte, w0c t,,t , 'I - " lwa v to 1450', L'CIPL fOr 3 lItS. Itt thil nipi4ily coulml to low, 1100, 1 VO, or and VOt A this temp. for IJ firs. The ctxled crutiblvi 'were britikt-it 10110tudit'AlY and the glwi6 examd. for litilibic-, uIld skvd- TImse testg showd ttusf tit IOW-1200* the largest quantity of !ced was cawwd by high-M,O. fustA refractories cm,mg. F4:djctjojj-I)Icxtucts iviiieli rMuce tlic buffate in Ote g6wi., 6FOlUtiMl 4 501- -M-Ctrklully Nsed zircon mullitc an,] wine uther refi-actorses contribute tt.- the for-@-- tuation of stitall bulibles in the ghvs ,it terup,4. liclow 1200" and, thel-dore, should Ilot be lj@vlj in the w-0- nf tile CW- ilig part of ghsl tildlio-5 !11"Nkll  Se-L-e IWIN I' Presence of chemical coral and their volatility. " a k Rro@ftie whc ibid. 101; CrA N2, K. Rb) the volatility were detd. at 11000, 1200% and Chent. analysts). To -of the condensates on the M which the Pt cruelbte with i The socuracy of the detas. a 4400*- V-aO Bv% and- and d.0.21" v&pft*e 'of @mnpn.. but 2U.0.0 Is In fased alkali borales, ?0' oin and L, V. Potcnkina.. W. 91AU"; ef, not- :MOS"nol-IM. 5; Cee. I.Tnylor, ". 29,3W4'. %0s; 2140.13A (R - U. eampn. of the vapor phase 10, 14000 (by weight loss. Mtly. analys" were made 16 of the porcelain tube In tells had been suspended, condensates was for 1xith volatile are: NagO.B^ at. 01 at 13W'. MO.%O@ withoutper ptiblechange wged to 1JxO.BA in the v without decolupa. up to icompd. above 1200', and 30% KajO.BsO#. The coutalus at 14W* the base max. in the I rather AMM for N%30.lh(@' Is not decm. but very flat for the ibor MAIM posed,in,its vepw at I but at 140D NftO.BA A famed In the coadetuate. KsO.BA and 2KtO.BA artt, not dtaxnpd. below 13WI K%0.2B^ is entirely dec=pd)' 'ancl chahged to W.RA & the vapor condensate. Metm- to Oft most stable borstes; the va f BA Is mucis WCAW to that .1 free R.0 tea. In the smut. of borosilleste glassirs It Is bnpor- tant to leara from U* Autbort'revults that &OMA is thez most volatile touftent In glen melts. With iWm_@ At. wt. and calionie nuflus of the allmll metals an appm.',' Ham function Is pkttt4 for the valsilli-flon of the mtw Wrates, dstd. Id g./sq. on. per me. X 108 at coust. temp. W. 1114L.  USSR/Chemical Technology. Chemical Products and their Application. J-12 Glass. Ceramics. Buildiag Material. Abs Jaur: Referat Zh.-Eh., Ilo 8, 19517, 276Z3- Author : NX. Solomin. Inat _T_@ Title : Chemical Compounds in Boron Glasses. Orig Pub: N,Sb: Stroyeniye stekla. M.-L., AN SSSR, 1955, 230-233. Abstract: Experiments are described, in the results of which it has been established that metaborates (RAO.B.@.Oj) evaporate without de- composition, if borate fuses were heated. This fact proves the stability of metaborates in fuses. Checking of the results of these experiments with industrial borosilicate glass containing potassium oxide as the Alkali showed also that mainly potassium netaborate evaporated from the glass in this case. The author thinks that the formation of borates in fuses may explain the so-called anomalies of borate and borosilicate glasses in the 11composition-property" graphs without resorting to the hypothe- 1/2 -23-  .USSR/Chemical Technology. Chemical Products and their Application. J-12 Glass. Ceramics. Building Materials. Abs Jour: %ferat Zh.-Kh., No 8, 1957, 276P-3 sis of alteration of boron co-ordination. It seems that some stoichiometrically definite compounds of the type of salts in i3ilicate systems prove to be sufficiently strong ir. fuses and, consequently, also in glasz. Many peculiarities of physical and chemical properties of silicate glasses are probably con- nected with this. See FOOAm, 1957., 1565- Card 2/2 -24-  TITO 4 VMR/Miacel-laneous Glass furnaces Cardl/1 Pub. 104 - 6/8 Authors I Solomin, N. V., Prof* Dr. of Tech. Sc. Title I New types of refractories for glass furnaces Periodical i Stek. i ker. 3. 23-24, Mar 1955 Abstract I The development and testing@of two new types of high tmperature resistant refractories (ceramic high alumina refractory and meltt.4 high alumina zir-_ conium refractory - Bakor for the interior of glass furnac,se are re- ported. Institution r Submitted  USSIR/Chemical Technology - Chemical Products and 1-10 C@ Their Applications - Silicates. Glass. Ceramics. Binders. Abs Jour Solomin, N.V. Inst 1_1 - - -- ------- Title Correction to the Article "Modern Trends in the Development of Refractories Pro- duction and Their Application in the Glass Industry". Orig Pub Steklo i keramika, 1955, No 9, 3 Abstract See RZhKhim, 1956, 36679 Card 1/1  I_1P IL C VMGW in" of r#fr&CWdOl fOr CIUPMOIWW hinks. N. V. Solomin (Glass & Ceramics. Afase4m, 19,55. 12, No. 3, OT--TrOmit tNorundura refractories have a shorter life than 6rcor-mullite blocks, which are cheaper. The former have a high porosity (25-40%) and contain up to 8% of Fe.0 Attempts to improve these blocks have failed. Reference is mah to a highly aluminous block and to a fused AI,Og-ZrSiO, refractory known as Bacor. The former containg 68% of AIjO# and 1% of Fe,03. ind has an apparent porosity of 10%.: It is particularly sWtablo for the upper part of the tank connecting the melting and cooling sections. Bacor consists of electrically fused AI,Oj and Arc*n. vrith -me mullito; it contai-s only O-SO1. of Fe,OS and is 1-5-2 times as cheap as the aluminous tank-block.  S0144WIN,H.V., professor, doktor tekhn1oheskikh nauk Modern trends in the development of production and use of refractories in glass manufacture. Stek.1 ker. 12 no.8:4-6 Ag'55- (KIRA 8:11) (Refractory materials) (Glass manufacture)  137-1958-2-ZZ93 Translation from, Referativnyy zhurnal, Metallurgiya, 1958, Nr 2, p 12(USSR) AUTHOR- Solornin. N. V. TITLE On the Physicochernical Fundamentals of the Fusing of Refractories (K fi4iko-khimiclieskini osnovam proizvodstva plavlennykh ogneuporov) PERIODICAL@ V sb. @ Fiz. -khim. osnovy keramiki. Moscow, Prornstroy- izdat, 1956, pp 359-375 ABSTRACT. Attention is centered on the special features of the technology of fuaed refractories obtained by-casting frcm melts., and particularly on such matters as the viscosity of and convection in the melts. crystallization irate of growth. dimensions, geometrical configu- rations, effect of additives, formation of pores), reducing reactions (formation of Fe-Si), and on the annealing of the castings. Data are given on certain characteristics of different types of refractory. The calculated viscosity of fused SiO? at boiling temperature (ZZ300) equals approximately 1350 poises. Bibliographv 45 references S. G. Card 1/1 1. Refractory materials--Fusing 2, Refractory materials-Characteristics  Al - _K, OIL ......... x!i I The P@i;auccvon and t"ting of N. M, Cri 13, Zr -i, fol' Ul :11, :1 :ni: I eLi, h, arid 60.5, 3 1 21 .7, 1;, ar.j @i 4 "Inpar,lble with [hat "A 1 L1114U: or Zr The ds. (r, /cc. ) were 3-cAj. 3 23, .213, antl 3.W; All;,rarellt 'fits Arcre 10 -2, 76 u 6. -d I ..I @-Z. i rn- wait 7 -.ir furn:ic@! cowl'i n s wz@ Nvith these rtlractcd" tzad tic to [it sujxulur ta thn other tv-u, C@g, raoi of. (1) and (2, attack b@ - a jimv: Aa gla@,s ill wm,/day W-vera 0.33. 0,32, NF,  47 bY UML )OLOMIN alld N' G,NLD'N% 3111, 11NO CIT It. ZT t1j.11 w min t tank-W-ks Ic" In' - . -'I I A)@O, it. (i jig_ 3 oblei increases viscoiity-  SQL23;A,-IL,j., doktor takhnicbeekikb nauk, professor; GALDINA, U.M.; SULKIIANOV, M.B.; IDDOCIEKIN, P.A. Manufacture and industrial testing of "bakor.n Stek. I ker. 13 no.9:9-14 5 '56. (MIJIA 9:10) (Refractory materials)  Ware LldW= "t%&dgtCft cast to bloicks )a at =a, as eusad. In 4 a ss w In emptsison with shwa-Mullfte bulow"Cks in 08ldfai folknft saw.)., touch Mperbi tA the r tatter Mate" ==Lkfoftvvl&-- C-Atp- Sb*WW wO Wdcleylta Characiedstic crr&L- Phu" to the stnKture of ftkor, t esubeiltied to a newly OWeis glass (a two I.M to 1.513). t with tow Mullitt . r ne bkb V6Mjty Qf the SJU. I cmn*&= Is Important W the Osbillity of tM rdroctory 1 mate" In oervim, as to Its high Ourity (ray low in, PeA, TIOt. tic.). - The iea@tioq Q1. W Slass sadt with Bakor Is - desnoostratec! by. them,'"ya" d different zoo" In the' used bkKb together with their TU ;;@ --jr reasoves AIA, Iftr6as tahbe Mc I material, and NA&O IS IOUWUCed (11% of It In the trawltion! Mae, 4=bGMQt 0%, oma t"MW W surface iortioniv Zr% Is rela-, (from 15% to 18%) Wdle 4UA h reduce4l (IMM 70.6% to 01.6%). 7@* taffs;r fine Cmi. XMO dW* r Maded CorU&WM With 4bfimt c= d=&ftkr "CURIZ11"! Of b"ileleAte, aa4 much gla" (m 1 .510 is;4 - higher), with faullite n and atpbelioc- The latter aluminositicate Is the typical reaction product of the dissolved AI*04 with the moitco glam Thefine-ayst.1 ZA can be transfemed Into the glan bY convection bot cannot be detrimental; tr)th Zt0j, ao4 nepbAjae aM ft,jr@jjy  USSR/Chejaical Technology - Chemical Products and Their Application. Silicates. Glass. Ceramics. Binders, 1-9 Abst Journal: Referat Zhur Khimiya, No 19, 1956, 62329 Au-.hor: Solomin, N. V Galdina, N. M. Institution: None Title: Investigation of the Corrosion of Refractories by Glass Melts Original Periodical: Tr. Vses. n.-i. in-ta stekla, 1956, No 36, 43-50 Abstract: Tests were carried out on the resistance to glass melts of a number of refractories according to the method developed by the authors. In the tests use was made of ordinary window glass and glass of eutectoc type, of the system CaO-MgO-Al2o3-S'02 containing 3-10% Na20, chamotte, thermitocorundum, zirconomullite, bacor, quartz, etc. It was found that fused quartz is the Most stable refractory an exposure to law-alkali, high alumina glass melts containing large amounts of alkaline-earth oxides. This is due to the forma- tion of a viscous protective film of silica at the surface of the refractory as a result of interaction with the glass melt. Card 1/1  SOLOHIN, N.V.. doktor tekhn. nauk. prof. Production of compact corundum refractories electrically fused in laboratory kilns. Trudy TNIIStekla no.37.'32-35 157. (KIRA lltl) (Refractory materials) (Corandum)  SOLOMIN, N.V., doktor tekhn. nauk, prof.; GALDINA, N.M., )mnd. takhn. nauk. @ - Magneeia-zircon-mullite electrically fused refractories for glass furnaces. Ti-ady TWIIStekla no-37:36-43 157. (MM ll:-l) (Refractory materials) (Glass nu-naces)  PATTHOR: Solomin, If. V. , Professor SOV/72-5,3-1o-12/18 WA@ I @'-, i -@`, TITLE: Glass and Ceramics at the World Fair in Drussels (Steklo i keramika na Vsemirnoy vyntavke v Bryuseele) PERIODICAL: Steklo i 'keramika, 1956, NY 10, PP 42-43 (USSR) A111STRACT rlass took a proiziinent p-irt at thij fair. Ceramics -were less Ohown. In tho Soviet pavillon glass walls of a length of 150 and 72 m, and a height of about 20 m, as well as glass ,,s were exh4-bited. In contrast to other pavillons ceilin- semitransparent glass with a rolled chagrin surface was used (Figs I and 2 of the enclosures). In figure 3 the I "aris pavillon and in fit.-ure 4 that of Belgium are shown. In fijure 5 the crystal products exhibited by the Leningradskiy zavod khDdozhe3tvenno-o stekla (Leningrad Factory of Artistic @;lassware) are shown. The L-lass exhibition of the 'zecho- slovakinn pavillon is said to have been very interesting (ri-s 6 and 7). In the figures 8 and 9 Belg-ian crystalware and colored glass are shown, and in figure 10 some from Finland. In the figures 11 and 12 Belgian ceramics are shown. In figure 13 a porcelain set of the Soviet factory imeni Card 1/2 Lononosov, and in figure 14 Forcelain pro@!ucts of the  (3hiss and I'eramic3 at the '.Vorld Pa:ir in 11rusielu SOV/72-543-lo-12/18 Czechoslovakian pavillop. are ghown. in fir,ure 15 Belrian faience, and in figure 16 porcelain products are nhoin. Final- ly the rmthor states that Western Europe showed -,ocdtechnI- cn1 achtevi!mcnts as re,-ards quality zand finishing, but ac i-e,-ar,12 tarte t1he ITSIIIR and the flecille's Demor-racies had 1@roved to 'be superior. There are 11j fi,-,ures. Card 2,'2  j AMUR. Some Ga." TLTL9. "cc. of ftnett.co.ri-A of it. ;I... 1.4-try rocaL..... stsual'acy Cum PR11Q1)1ULi ANIUVI cant.racca of f-c%lomart.o of ta. &is.. I.d.a'try of the R:nl Th of naitzir from October P44. @ho or. % kald a* tom : ta %to be Los to G ... S.r.1-Aij A-Uo-t-MAicn-ly " w ; :al , .. to staltrow R;:rAR cc-.Lt.. z tn. C.011 of 11 Lots .. r- Of tb- (.;let- 0111:- f,r !1.-Lng of In. "@R@: I... M'oua. 1.041 J. 4.1.y.s) and V1.41m.ar-11 wz.r.t.. 94ocomy). It. %epic of %us c-fer.n- oj: k,rlect-a a' lrc.I-ti@ of 4-sr.1 .1.4 1A gas factories far b-14-Ad bul te4ax.1-1 &Iabr, Ole- -,Uer. ;ass I.Laor. UA I...... 5-pt) Z-Lr-. .7 -'4. t. Lt. -f r ,-T cbintml Jt M : 15Y=: LA c1. .$ AUab .;. 'a Lost m. at f- rurlai.r d-jai-nS f in. C!arm LA3-sry ly or it. Card t/5 L.t..t %.tlkAtC.1 Oitl.-G'At. .. ...'I .. tn. It ;-4@ f&cLan* go " an& " - 1ATL'At less' As $23"S %r.&& %I.' a rl"'- ' 3ov2*1 *ad fo;.!P -4 ob-11 ~4.-Of old."d 14 pleAkInd ass -011., TZ. 1.110.IAI X-k-rts pcof-#@@. of us J.&A-tork). X. (L.borutoxy of us 41... rotArt.1 a t:i. @,.%r- "a a f J.C%ric -4 03-....1rxc f.M.C.O. ?j&tc&jc&%Lj. 0-4tcr of %us "botator, it tn* am ..%404. or.. 0! t'- ..-'a -.-: &Ift, ' * C:.o tj lacreadlno U'v tot4ad L-jetat'ro -1 -Inc -- 4-.64 Q :r Flul.vtar, Nr.ctnr of %L. If - f 9"A' :194.r FAALAO.r at tr.. P.I.Vskty . ftca-rf of pwffm.t.r@ jI.. on 1.. .-'I. t'rUN At worse 1,arta as. of es%emaLew of Us Nrosce scrsLA49 FAVIDS Lj aft%flCla. 4"1%*4 Of U- fliruat. crabs ILAIAC. ,.1*Oalop, DIP-t%or of too LaLor.tory of tao ;1av4 :nettt,ts. r.;-x. .4 oz-1th. 4o asitra! f at.,.. 1.6 r=... 2.7.1, cut... of ta. @%..l ..at- far 3"14LAW jf.t.rt- @r to. Z-1 -Pa.- - me 4-1. of @ 'I I&IW .4i.rt. t. tz. r Sl*f or to. -....a, D. .. ..... SO: orrts" of %&A& an as.. 1-t.". T11 !.a a. .: ;  AUTHOR: sQjomin,1Lj,,_Prof@ssor, Doctor of 72-58-6-18/19 Technical Sciences TITLE- A Collection of Scientific Works on Glass- and Rock-Smelting (Sbornik nauchnykh rabot po steklu i plavlenym gornym porodam) PMODICAL.- Steklo i Keramika, 1958, Vol. 15, Nr 6, pp. 48-48 (USSR) ABSTRACT: The author in short discusses the work entitled: "Science and Research in the Glass Industry" Veda a vjzkum v prumyslu sk1drske'M, Rada III, Praha, 1957@, which vas published in Czechoslovakia. li Cflass industry--USSR 2. Scientific research--USSR Carr] I/  13(2) AVM011 soft at.*" Sol/72-59-5-1/23 VITLEo Class SC1.1w. at the Illy M-04010Y., Congress (Uuka a &tokl- am, Vill rMLIODICAL, St-kic I kermika, 1959, Or 5, p, 1-4 (assa) ABSTRACT, Ia the b-clu-Ine - proclemeation of this Tal IF33 to the personnel of the bulldlAC mAt*rIal LadustrI.. for &qu&Il%&tLv4 "A %u&ntLt&tL,. lacream. of prMcetion, to mentioned. Th. Coversee took place in Koscow in the Second half of VlarOh of = sUrrOut year and was devoted to the 125th anavera&47 of the grant ockol"'M birthday. L%utot&ndlmg chealsta of the "'let MUDD &ad the P..pl*la Zac,.r"3..o attended thoConarmax. Th. principal problose of the do-lopmeat of choulatry as" 410,418-4 at the plenary meetings &zA the meetings of the 10 Congress "all*". ft@f.sscr 1. X. Utaycorcdaki7 a "a"d the mostlage of the eub-s.ction for glass and Cav. a 'cr' Y of Us stages of de@elapstat of Soviet glass produaSlou .4 Ml .9 of a W=b#r of proalming task* In Lba fl*14 of alas@ toohnology. loroav.r@ the following jo4turss vorm, holds Doctor Kotaut (people., S pub 1lc Qf H.ML27) lov..tigated the tr@%Ura of Card 1/4 : . the top- I., to f 1'. .. C A. L_AVlt I p*k (LT I Ia. at of a fluely diaper.. crystalline ph.- from the Ila-Ilk. ph"al 1. 1. Torell and QQ,,.4,rfp*" (001) rwPor%.d an absorption spectra. joetai.c.".. -a Aesoch.alc&l proprtl.. f "Tine-glass It"-*I 1. _2,_UjjP, (Gal) r%p..%"z .% the q%nallutivo reciprocal "lesions between ordered and dis- @t-Kojb,l.os. lms%Ltut ordered gloom phas-I Tm@ _APII@. khiall allikatov AS 3351 (imtttut. of @&Jj.atw Choolstry, of the AS 9331) d1sc"**d the reasons for the 4ioagnomoul on the problem of the truclure at jjla.@Ilkv 8.1matand*81 Pvvrossor 0._g,.B*Arlzkln. N. 1. Anoni-h. and K. lustitus stekla (Class lastit-to reported an tba Ia-08t1Cot1QA Of the close Strocturo by the Method of Thromal Analysts "A Optical Pelarleatloot To. V. rodushko (001) &Igguzood the mew method f electric claso "IM-08 AM the _L%IAC of -Iltoas.o by sman. f h1gs-frequency etarmal, To. G. Wj!!,yubrg reported elk : close& sat boron far rat.". and majolica which bAv. been taw*lOp.4 In the Gas-4srat-SAry mwkm-4*oledava%oL-akil k.r-Ic"-kIY 1"Utut (3tat- Scientific Research lustitDt. of C.raicwh I. a!_Tamtromova. Card 2j4_ _am4.vj_jjdjjh- (GOI) di-ve-t the -14 played surfaas prottotLas film to the do.truCti.si of mille.s. 4. lL.,Sv;!pbrC (001) dima.o"d the coloring characteristics am mahmelogy or phot;M1. alse"ot O.-Y-314-Irls (LTZ) ash Varied an the "lollity of "41us I-" IS glass IYP-- Of tb* Z. U2(I-20-3102 1 2. A. Nosova (911 3toDykerealka) - sleViubdulse the 616-46 by land 41"ve"4 &be pro4T. %alt* sA alrovaivass DAT-t ... ktY poll t4khal.hoskSy lwtlt-S (Zhax-ke;@ Fol"echuld reported on oill-te formatIG& and DLAL*rl%& PrOcag"s IS the brtqwttod glees layarl K-.J6..19YjLtr22!Zwv lavOutlg&**d Taxis" _ Tcl"v InStit-to) rop-ra.4 .6 the types of el-all 2--y- I - @W dateralmati.6 of L8PUrI%l@8 Ilk 8111" 1-7 4PS41"14 Do To. V. Crime. (Class gj,@ss-.hloh Sea b-"& &*stood by *he*. dlo@,t the ki"Mo. of tsw-forostion or crystallisation Q*at*m Ia pbot@oo"Islwv ,. Sy'i, . (clean Ins"t.l.) 41"u.s.4 " Z* 1 4 lose ssmAmy of Pbo*pkatto : the . all! ; "h. . , steal toverde glass formati.al L. "Psrs.4 em, 51 L-I.Irvykb. am V. G._!tr _JkL Invassig,tiou of %7"o of ...icoutuatiag old. 916** se, %to tests of T,% j*jj.Zwj1,2jQ" L. A. Gr,sm k. 1. V..P@pkava, &M To. A. "borg (NIZZS) d1samm"d Use predustAGM, of - - oadustii filas an type* of Sias. watch evalain compensate e :%etly, %4 Us rogmaert-4.  WLOHIN, N.V., prof., doktor tekhn.nauk What's new in glass maufacture in Sweden. Stek. I ker. 17 no.6:43- 44, is !6o. (KLRA 13:6) (Sweden--Glass manufacture)  -Vasillyevicb,_ doktor teklin.naukq prof.; ABUTKINA, E,I# p red. izd-vaTMWMTY,-Ye-.L., tekhu.red. (Refractories for glass furnaces; production and use] dlia steklovarennykh pecbei; proizvodstvo i primenenis. parer. MoBWap Gos.izd-vo lit-ry po strolt., arkhit. i materialan, 1961, 185 P- (Refractory materials) (Glass furnaces) Ogneupory Izd.2.p atroit. (MIRA WO  KITAYGORODSKIY, I.I.) dok-tor tekhn. nauk# prof.; KACH=V, V*N., prof.; VARGIN, V.V., doktor tekbn. nauk-, prof.; YEVSTROPIYEV, K.S.v doktor tekhn. nauk, prof,; GINZBURLG, D.B., doktor tekhn. nauk, prof.j ASIANOVA, M.S., doktor tekhn. naukv prof,; GURFINKELIp I.Ye,p inzh.; ZAK, A.P., kand. tekbn. nauk; NOTLYAR., A.Ye., inzh.j PAVLUSH- KIN, N.M., doktor tekhn. nauk, prof.,- SENTYURIN, G.G., kand. tekhn. nauk; SILIVESIROVICH, S.I., kand. tekhn. naukq dots.; SOLINOV, F.G., , doktor tekbn, naukj prof,j T kand. tekhn. nauk; . SO@MIN, NV.. FMIN, B.S., kand. tekhn. GLADYSHEVA, S.A., red. izd-va; TDMIDIA, Ye.L., tekhn. red. [Glass technology] Tekhnologiia stekla. Izd.3., perer. Moskva# Goo. izd-vo lit-ry po stroit., arkhit. i stroit. materialam, 1961. 622 p. (MMA 140-0) 1. Chlon-korrespondent AN SM (for Kachalov). (Glass manufacture)  29119 S 2020j, u 11 'J '+ '! . , B1 03/B 110 A UTIq Olt S.- Solomin, N. V., Shelyubskiy, V. I., and Vayqfel'd, 11, 14. T ITL E-. Formation of kJass-microcrystalline structures Eii 1 6D I @ it L -Akademiya nauk 'S)SSR. j)oklady, v, Iiji), no. '), 1961, 1067-1069 ,es in the dimensions of now TEXT This paper deals with the study of chanr formations in the crystallization of glass containing SiO 2' 1AI'2C'3' and Tio The cnanges As of ti%e interface, a:kd AZ of the isobaric-isothermal potential are interrelated by IAs = 6,Z, where I denotes the intensity of the surface energy.. Since tiie entropy change AS AS -As(aj/,aT@ is valid, and for tile enthalpy charie holds6H =4s II - T Ia T )P] of initial 61ass were crystallized at two different temperatures- in the last stade of crystallization. the samples of both series were heated in 'Ile t',Iermostat at 10500C. Carbon replica of the crystallized samples were @jttzdied tinder tne 3M-1L,,0 electron microscove with a 140-@'@6-4fold I'iOr to tiJS StUdy tiliey were etche-d for 11-20 -,-ec in 'ard  29119 S/0201/ 61/140/0C, 5/0151/t_@2 2 FormatiDn of glass-microcrystalline.,. B103/Bilo Two main crystalline phases could be distinguished. By X-ray analysis Y ;,.,ere i6entified us disthene and rutile. Th disthene crystals were @::Iort prioms, autile had oblon.-I, prisms wit'- pyramidally inclined. L@-,Iall tlcets. The difference in the crystal sizes of the two ohaseo w-ts very luw@ The crystals, increaved in sizze as the time o" treatment at constant temperature was eztended, their number, however. decreased wiiile tLe phase composition was kept constant. This is due to an absorption of smaller cry.,;tals by lar.-er ones. The results show that the process of redistribution of' microcrystaliinc structures is of considerable importance in thermal treatment, Since the heterogeneity of composition occurring in the initial semiproduct favors new formations in the initial and thus also in t1he final sta6e, a maxir.?.,um chemical homogeneity of the glass semiproduct i!:; necessary to guarantee maximu-n homogreneity of the 61ass-microcrystal line structure, There are 5 fi,,--ures, 1 table. and 7 references -.; Soviet-bloc. and 2 non- S ovi e t -bl oc, Oosudarstverinyy nauclino-issledovate"Llskiy institut elektro- tekhnicheskogo stekla i tel:hnoloji-heskogo oborudovaniya (,-'tate Scientific I -arch Resp Tnstitut: for Electrotecnrical. and '@'echnological Equipment)  3/072/62/000/008/001/002 3117/B101 AUTHOR Solomin N -.V., Doctor of Technical Sciences, Professor TI7'11:;: Thermomechanical stresses in joints made of glasug ceramics, metals and other materials PERIODICAL; ' Steklo i keramika, no. 8, 1962, 14 - 15 T'--'XT: For the calculation of joints, allowing for thermomechanical stre=s, the equations P1 AOtE I E2h21r- 1h, + E2h2 and P2 E2h1/1,31"1 + E2h2 were derived for the ease of cylindrical parts, where one part clasps the other, &4 - j - , ._2 /-I (o4 coefficient of linear expansion; 6t is the temperature difference between the beginning and end of coolingl E is Card 1/2  5/072/62/000/008/001/002 Ther-omachanical stresses ... B117/B101 modulus; h is the thickness of the layer and P is 'he absolute value of the tangential stress. Joints of other configurations can also be calculated by moans of these equations which may be applied irrespective of -.,:hother the parts of the joint are cooled or heated. There are 3 figures. -Ard 2/2  BEREZ11;OY) A.I.; E-WDSKR, Yu.A.; BROIISIIKENI@, Z.I.; VbYN:jMG, K.L.; GALDIVA, NJ".; GLETI-W,', B.A.; GINZBUG, D.B. ; GUTOP, V.G.; GbREVICI-I, L.R.; DAUVALITM, A.El.; YEGOROVA, L.S.; KOTLYA; A.Ye.; KUZYAK, V.A.; MAKLROV, A.V.; FOLLYAK , V,V.- POPOVA, E.H.; PHYANISITIKOV, V.P.; SEETYURDI, G.G.; SIL'ViftROVICH' S.I., kand. tekhn. nauk, dots.; SQLQM111, 1I.V.; TWIN, B.S.; TYKAGHILSKIY, I.D.; SHIGX-,'EVA, V.F.; S@i@v, I.D.; EL'KIND, G.A.[decaasedl; KITAYGOAODSKIY, I.I., zasl. deyatell nauki i tek@niki HSFSR, doktor tekh.-.. nauk, prof., red.; GOI.'.OZOVA, IT.A., rvd.izd-va; KOMILIOVSKAYA, L.A., tekhn. red. fliandbook on glasE manufacture] Spravochnik po proizvodstvu stekla. [By] A.I.Berezhnoi i dr. Pod red. I.I.Kitaigorodskogo i S.I.Sillvestrovicha. Moskva, Gosstroiizdat. Vol.2. 1963. E-15 p. (MlaA 16-.12) (Glass manufacture)  A002SSION XR: AP4040683 S/0072/64/000/006/0012/0015- AUTHOR: Solomin, -N. V. TITLE: Structur"al parameters and properties of glass SOURCE: Steklo I keramika, no. 6, 1964, 12-15 TOPIC TA('S: class structure, vitreous glass, crystalline Glass, j alumina --lass, Y parameter, V parameter ABSTILICT: This Is an abstract discussion, sometimes based on urevious experimental work by the author, to determine the func- 4qnal dependences of glass composition, structure and properties. The hypothetical dependence on changing ion coordination is criticized and It is suggested that changing chemical bonds due to the formation of new compounds account for nonlinear changes in glass properties. The relationship of vitreous/crystalline structu'ra @of glass is discussed and the Y-parameter (proposed by J.M. Stevels, Y=average number of "bridge" oxygen ions in each polyhedron, /Philips Techn. Review, 1960/61, vol 22 No 9/10/) is criticized as-impractical .and Incompatible with experimental results. Instead, the author Card 1/2  ACCESSION NR: AP4040653 .proposes the following structural relation for ordinary oxide lasses: 11 = EVP, where 14 is the number of metal oxide molecules Jbasic type oxides) and P is the number of monomer oxide molecules forming the polyhedron. The greater the modification of the dis- orderly polyhedron 1,attice of the vitrification element, the;greater ,N. Since Al 0 can be both a lattice former and a modifier, Y 1 2 .and M calculation for alumina containing glass is difficult. V'hile Stevels considers.Y = 2 the thresh9ld of inversion, the -author considers glass types with N = 1 as being invert. The .conclusion is that while changing glass properties depends on changing Y and N parameters, they also depend on the structure and .properties of atoms: electron numbers, nuclear charge, character of the outside electron shall, Ion size, quanta characteristic and on. the character and power of chemical bonds between components. .OrIg. art. has: 2 figures, 2 tables. ASSOCIATION: None SUBMITTED: 00 ENOL: 00 SUB COD-: MT NR. RW SOV: 0108 OTHBR: 003 Card 222  1' '0_ L11 0.6 BiP(e)/E?A(s)-2/9~n(m)/F.?F(c)/EPF(v,)-2/EdP(v)/EPR/EPA(w)-2/T-2/ P@ I -. - '11@ 2PA (bb) - 2E (bb)--2 DIP(b)/EWA(h) Pa-h/Pr-h/Ps-4/Pt-10/Pu-VPab-10/Pad/Peb AydL/B@D/ ASD(a)-5 ASD(m)-31/SSD(gq)/3iD(t) 11,1HAJWA1JW/jD/JUATG ASD a AS ACCESSION NR: AP4049087 S/0072/64/000/011/0013/0014 AUTHOR: So lomin, N.,--V. (Doctor of technigal sciences) TITLE: New glass-metal and ceramic-metallosystems SOURCE: Steklo i keramika, no. 11, 19640 13-14 TOPIC TAGS: glass metal system, ceramic metal system, glass electric! property, glass thermal property, glass to metal joint, electrotech- nical glass s a -.t loint ving a -11 ABSTRIXT: A new system of &In o-metal matched coefficient of linear thermal expansion a of about 70 x 10-7/deg C for both materials has been introduced into vacuum electrotachnology X 10-7 X.10-7/den C in in order to fill the gap between 52 and 87 the saries of materials presently being used. iThe metal component of,.- the s,stem was developed on an iron -nickel bas (H 38 alloy) by the Tsentral'ny*y nauchno-isoledovatel.'skly institut chernoy metallurgii@'_ (Central Scientific Research Institute of Ferrous Metallurgy). The gf"s component was developed on a base o? alum1na E-o-r-o-siTI-feate glass, L(;!@rd 1 / 2  L 211460-65 ACCESSION NR: AP4049087 containing MnO, CaO, BaO, and R20. The a values of the 11-38 all LLO-Y and of the newly developed glasses are close to 70 x l0-'r/-de;'__C. 16 The glasses have improved dielectric properties and thermal stabili- ty, as compared to glasses which are matched with platinum; they also'. display increased chemical,resistance. Data,on the composition and coefficient of linear expansion are tabulated for a series of glasses and ceramics which are suitable for matched or low-strained joints to 11-38, titanium alloys, or tantalum,metal. Orig. art. has: 2 tables*'@ ASSOCIATION: none SUBMITTED: 00 ENCL: 00 SUB CODE: HTI M NO REF SOV: 001 OTHER.- 000 ATD.PRESSI 31-34 q Card 22  I " ;,- -1. ' @ 1, " @',! L'I N.V. , klo;,Lf).- ri@%I.F-; -@( . c Iii , A.N. - - _I y A J-neIa5t!,,- deformalion rf gla3s and cer=fc products unqer their own weight dur!nv annea@-,At4g. Stek. I ker. 22 rio.8:19-21 Ag 165, ('XII,A 18:9)  L40287-65 E',.',:P (e)/EPA(,,, )-2tr--V.,T (m )A va ACCESSION NR: AP5005025 AUTHOR: Rustambek-ran, S. F Solornin, N. V. TITLE: Study of the phase composition of fused high-alumina Lmullitq) refractories SOURCE: Ogneupory, no. 2, 1965, 28-32 TOPIC TAGS: muWte refractory, alumina refractory,_ fused refractory, refractory phase compositlon, silica content, refractory mierostructure, minoralizor contem.- corundum - ABSTRACT: Laboratory Investigations were carried out in order to determine the changes. In the pbase composition and microstructure of fused mullite refractories as a function of the ratio of aluminum oxide to silicon dioxide and of the type and quantity of the mineral- Izers (FC.203, Cao, 7102, Na2O, MgO, MnO) Introduced into the refiactoiy. Six series of specimens were prepared by fusion in a solar furnace. The spccimens were Investiga" ted by tho petrographic. method, chemical analysis, and x-ray powder method. It wag found that CaO and particularly Na2O prornoto the formation of corundum and simultancous- ly increase the amount of the vitreous phase, thus decreasing the amount of mullite crystal- lites. The oxides of magnesium, manganese, and titanium promote only a very slight formation of corumdum, and cause the vitreous phase to be evenly distributed throughout tha, Card IJ2  L 40287-65 ACCESSION NR: AP5005026 specimen, thus increasing both the resistance to vitrification and the thermal stability of the refractory. The results of the study confirm - the conclusions drawn earlier by other Investigators to the effect that the fusion of mullite Is congruent._ "Chemical analyses and treatment. of the powders were carried out by S. N. Avsharova. Orig. art. has: 3 figures and 2 tables. ASSOCIATION: Nauchno-issledovatellsIdy institut kh1mU Goskbimkomit@ta pri Gosplane SSSR (Chen-ds!a scientific research institute, State chemis@j committee, State zinAng commission, SSSR) SUBMTTED: 0 0 ENCL: 00 SUB CODE: MT NO REF SOV: 007 OTHER: 001 Card 2/2  SOIDMIN, P. M. "Case of Mediastinal EmphYsema in Children,O Pediatriya, No. 2, 1948, Mbr., Hoop. S-urgical Clinic, Ivanovo Xed. I4st., -cl948-.  SOWMIN, P.S. Determination of the friction coefficient between copper and steel at high rates of deformation. Izv. vys. ucheb. zav.; Fiz. no.1:29-34 158. WRA 11:6) l.Tomakiy gosuniversitet imeni V.V. Kuybysheva. (Copper--Testing) (Steel-Teating) (Friction)  IIri--@ -1. @. I p! @11 . -. @,x. -,r - 11 @. n -1 1! r "-- @ -.- r@',: 5 -a!, z cphf,-, i-h. n I t'- a ',;' S- i rv@ .Vo;or!nar-'-'& 4i "; f, I () k 0 XWA, .',8,,6i i -:@ oy- -,@7 1 r. -,it A3psrl@menta@ Incy veterlnar@! . @ Vq jzr 9@llt  SOLOMIIN, V. "The bUckground of the alternating current in the low frequency amplifiers," Radio, 1951.  124-1957-10-12201 Translation from: Referativnyy zhurnal, Mekhanika, 1957, Nr 10, p 137 (USSR) AUTHORS: Bakshi, 0. A., Solomin, V. I. TITLE: Study of Residual Stresses After Automatic "Electronic -Tornado" Welding (Issledovaniye ostatochnykh napryazheniy posle avtomaticheskoy vibrodugovoy naplavki) PERIODICAL: V sb. :Vos5tanovlenlye iznoshennykh detaley avtomat. vibrodugovoy naplavkoy. Chelyabinsk, 1956, pp 126-132 ABSTRACT: The article presents results of measurements of the residual stress after automatic "electronic -tornado" welding of cylindric- ally shaped machine parts 50 mm in diameter, made of steel "2011 where the experiments were conducted by means of the incision method. Along the surface of the specimen the existence of tangential tensile stresses reaching 27-30 kg/mmZ was revealed, and in the central zone tangentiil & radial compressive skresseis of 8-12 kg/mm?- were found G. A. Nikolayev Card 1/1  @ @o_ 4 60041. 1 N I V. I . ICAN o TECH SC 1 011 Gou f*74," OF RECTANGULAR --- ------ --. ae"A PLATES ON ELASTIC it -SPACE BY THE GRID METHOD," SVERDLOVSK9 1961. (MIN OF HiGHEP AND SEC SPEC ED RSFSR. URALI POLYTECH INST IMENI S. M. KIROV). (KL-DVI 11-619 222). -183-  SOLMIN, V. I. Calculation of bdams on an slastic foundation by the method of finite differ6ne6s, TrUdy Ural. politakh, inst. un.IMI 15,1-169 161. Calcul,ation ok coopridoed and bent rods by the method of finite differences. 170-175 (MIRA :L6,ii)  SOIDMINt__L. 1. _j Chelyabinsk) Design of foundation slabs for a load applied near a corner, Stroi.mekh.i rasch.soor. 5 no.2s6-11 163. (MIRA 16:6) (Foundations) (Elastic plates and shells)  ACC NRs AT60351485 SOURCE CODE: Ult / 2 5'12 / 66 00 0 / 0 i;? AU'7H02: (Candidate of technical sciences); Chernyavskiy, 0. F. (Engineer); Komov, V. S. (Engineer); Shirokov, V. N. (Engineer) iORG: None I !TITLE: Calculation of a conical shell on a digital computer !SOURCE: Raschety na prochnost'; teoreticheskiye i eksperimentallnyye isaledovaniya ,prochnoati mauhinootroitollnykh konatruktoiy. Sbornik atmtoy, no. 12. 1966, 72-84 ITOPIC TAGS: conic shell structure, !omputer application, thin shell structure, shell theory ABSTRACT: The authors consider a thin elastic conical shell with a load and thickness, which vary arbitrarily along the meridian. It is assumed that temperature varies ;along the generatrix as well as with respect to thickness. The elastic constants 'are taken as independent of temperature. The computer program used for solving tile iproblem is based on the method of finite differences combined with the method of linitial parameters, The program is compact, taking up only 30% of the operative Imemory of the "Minsk-14" digital computer. The small size of this program gives po- !tential applicability as a component part of a more general program for calculating structures where one of the elements is a conical shell. Machine time is only about ten minutes for computation of all nodal stresses and displacements for the case of i Card- 1/2  SOWHIN, Viktor Kirillovich; KRAKITALIN, V.S., red.; VORONIJI, K.P.. tekhn.red. - - [Construction of electric musical instruments] Konstru .irovanle elektromuzykallnykh Instrunentov. Moskva, Goa. an r izd-vo. 1958. 61 P. (Mannovata radlobiblintaka, no.310) " &RA 12:2) (Musical instruments, Electronic)  SOMMIN, Vladimir Vasillyevich; LISOV, V.Ye., red.; PONOFJUWA, A.A., tekhn. red. -- (Transportation plannin in the U.S.S.R.] Planirovanie transporta. v S=. Moskva, Izd-vo ekon. lit-ry.9 1961. 126 p. (MIRA 3J,:11) 1. Glavnyy spetsialist po voprosam transporta i ovyazi Ga3udarstvenwgo planovago komiteta Soveta. Ministrov SSSR (for Solomin). (Transportation)  FAYNBERG. A.I.; REZ111K, A.I.; LIBLIMN. Ya.A.; AISKSLTIN, S.A.; VASSLIM11. S.Z.; BORIOV-19m. S.P.. red.; ALTUVOYEVA. A.M., red. izd-va; KONYAWUNA, A.D., tekhn.red. [Drawing up plans for housing and municipal services] Metodika aostavleniia plena zhillshchno-kommunallnogo khoziaistva. Pod red. S.P.Borisovskogo. Mosk-va, lzd-vo H-va korimun. 1rhoz. RSFSR, 1957. 408 P. (MIRA 11:3) (Housing) (Hunicipal services)  TARA31DIKO, Mikhail Yakovlevich; red.; GERASNOU.. G.S.9 red. izd-va; GOLIBERG9 T.M.9 tekbn. red. [Reorganization of the management of industry and construction and lowering the cost of building and assembling operations; from the experience of the Chelyabinsk Economic Administration Region] Pere- stroika upravleniia promyshlennost8iu i stroitel'stvom I. snizhenie sebestoimosti stroitellno-montazbrwkh rabot; iz opyta stroitelinykh organizatsii Cheliabinskogo ekonomicheskogo administrativnogo raiona. Moskva, Gos. izd-vo lit-ry po stroit., arkhit. i stroit, materialamp 1961. 74 p. (KIRA 14:7) (Chelyabinsk Province-Construction Industry)  BUDCVOYI G.T.; 1URTINKGV, I.P.; SIIKOLIIIIKOII, B.Ya.; &IIGOI,',IYhIf, Ye.A.; SOLOMIN, V.V.- REZETIK A.I.; IGNATOVICH, A.A.; OZOI-dICV, A.K.; GILINSKOY, E.B.; ZIIIRNOV, V.Ye.; VEMISM, M.I.; VOLKOVI N.Lp red.; VOSIUMAN, G.G., red.; KASrv'OVSKIY, Ye.V.., red.; MIDI, A.Ya., red.; LISM, V.Ye., red.; PONOMHEVA, A.As, tekhne red* (The district worker's manual; reference and rethodological aid for economic and cultural planning in an administrative dis- trictlspravochnik raionnogo rabotnika; spravochno-rotodiche- skoe posobie po planirovaniiu khoziaistvennogo i kullturnogo stroitellstva v adrinistrativnom raione. Moskva, Ekonorizdat, 1962. 439 P. (FIRA 15:7) (Russia-Econor-ic policy--Iandbooksj, manualsp etc.)  ANDREYEV, V.P.; BUTKOVSKIY, N.I.; KOMAROV, L.A.; KUDINOV, V.S.; 14ASHANSKIY, G.S.; MERKIN, R.M.; MERKULOV, V.A.; ZE14LYANIKIN, S.A.; SOLD14IN V.V _'L-S H01A)KHOV, Ye. I. ; PEREPELITSKAYA, A.G.-, e .; VA, V.A., tekhn. red. [Toward the new achievements; the Russian Federation in 1963, concise handbook] K novym rubezham; Rosaiiskaia Federatsiia v 1963. godu. Kratkii spravochnik. Moskva, Sovetskaia Rossiia, 1963. 284 p. (MIRA 16:10) (Russia--Economic policy-Handbooks, manuals, etc.)  SOLOMIN, Vladimir Vasillyevich; PROFERANSOV, D.P., naucb"yy red. YU14T16SIX, A.K., red.izd-va; IWDAKOVA, N.I., tekhn. red. (Plan is construction's law]Plan - zakon stroitelletva. Mo- skva, Gosetroiizdat, 1961. 60 p. (MIM 16:4) (Construction Industry-Management)  LIVTINOV, V.L.; SOLOMIN, Yu.S. Possibilities of dividing and correlating granitoids by rare and dispersed elements in the rock-forming minerals. Geol. i geofiz. no.6:60-74 162. (MRA 15:7) 1. L'vovskiy gosudarstvennyy universitet imeni Franko. (Amazar Valley-Granite)  LITVINOV, V.L.; SOLOMIN, Yu.S. Increased jointing zones in the eastern part of eastern Transbaikalia and their role in the distribution of postmagmatic mineralization. Izv. vys. ucheb. zav.; geol. i razv. 7 no.2:83-92 F164. (MIRA 17:2) 1. Llvovskiy gosudarstvennyy universitet im. Iv. Franko, A ., ...  SOLCKINA, A. Public commiasion of the province committee. Okhr. truda i sots. strakh. 5 no.7;14 J1 162. (MIRA 15:7) 1. Prodsedatell obahchestvennoy kamissii sotsiallnogo strakhovaniya pri Permakom oblastnas komitete professionallnykh soyuzov rabotnikov proaveshcheniyal vysshey shkoly i nauchnykh uchrezhdeniy. (PERM PROVIRCE--SCHOOL HYGIENE)  POZDNIKOV, V.N.; YANUSHKOVSKIY, V.A.; SOLOMINA, L.N., otv. red.; MANVELOVA, Ye.S., tekhn. rea.- - (Use of radioisotope methods for control in the food industry) Radioizotopnye metody kontrolia v pishchavoi promyshlennosti. Moskva, 1962. 48 p. (MIRA 16:4) 1. Moscow. TSentrallnyy inItut nauchno-tekhnicheskoy infor- mats1i pishchevoy promyahl nnosti. (RadloiBotopes--Industrial applications) (Automatic control) (Food industry)  MC,ZHOYAN, A.I..; MIURKARYAN, L;.A.; SOLOMINA, KALAYD.HYAN, A.Ye. Derivatives of furan. Part 30i Syrthesis and some transformations of substituted c)(-cyanofurans. Izv.AN Arm.SSR.Khim.nauki 17 no.1:89-94 164. (YIRA 17:4) 1. Institut tonkoy organicheskoy khimii AN Armyanskoy SSR.  it., 8. 1  STFAIANOV,H.D.; SOLCHISA,M.Ya. - Organization of agricultural meteorological observations of winter crops. NeteorA gidrol. na.Z:33-34 F 15Z. (KLHL 8:9) 1. Sverdlovskoye UGHS, Sverdlovsk. (Meteorology, Agricultural-Obaervations)  S1 137/tO/OWA) 11/0 23/0 4 3 AOO6/AOO1 Translation from: Referativnyy zhurnal, Metallurgiya, 1960, N0.11, P.12J, # --b-178 AUTHOR: jolomina _P_S. TITLE: Experiences of Measuring the Metal Pressure on Rolls PERIODICAL: Tr. Mezhvuz. nauchno-tekhn. konferentall na temut "Sovrem.dostizh. prokatn. proiz-va!', Vol. 2, Leningrad, 1959, PP. 341 - 30 TEXT: At the "Krasnyy vyborzhets" Plant stationary indicators of metal pressure on rolls, designed by TsNIITMASh, are used on 2 two-and four-high billet mills. The indicators represent universal dynamometers with foil pickups glued into the plunger recess of the liquid dynamometer. The use of the pick-ups made it possible to develop more practicable reduction systems, which were also used to determine the effect of different greases on the magnitude of metal pressure on the rolls when rolling a brass strip billet of 4.5 x 650 nun on the 500-two- high mill. A.R. Translator's note; This is the full translation of the original Russian abstract. Card 1/1  U51CRICIColor,r Card 1/2. Pub. 22 - 35A7 Authora I T-WJukho-11,dclay, A. D., and Solomina,, R. V. Title i Tlew data on the stratigraphy of the carboniferous deposits in the Shartywm River bnsin (southern Urai). Periodical i Dok. AN SSSR 101/6, 1105 - 1.107, Apr. 21, 1955 Abstract i flew geological data are presented on the stratigraphy and fauna of the carboniferous denosits discovered in the Shartymka River basin in south- ern Ural. Five Aussian and USSR references (1900-1950). Institution : The A. A. Zhdanov State University, Leningrad Presented by: Academician D. V'. Nalivkin, December 27, 1954  SOUIMINA, R.V. Permian stratigrapby of M-e nortbern Karaulakb Ra e. Inform. biul. NIIGA no-17:21-27 159. TURA 13:11) (Kharaulakh Range--Geology, Stratigraphic)  SOLMMU41 R.V, Upper Paleozoic deposits in the lower Lena Valley; on field work results.of 1959, Inform,biul,NIIGA prelizinary report no.3S:23-26 160. .(MIU 14:6) (Tit-ary region-.Geologyo Stratigraphic)  SOLGIMIM.1 R.V. Some Permian Brachiopoda of the Pay-Khoy Range. palenont. i biostrat. no.19:21+-73 160. (Pay-Khoy Range-Brachiopoda, Fossil) Sbor. at. po (MIRA 14:7)  SO"INA, R,,V-; GHERNYAK, G,Yo. Drulgania, a new genus of speriferids from the Upper Paleozoic in the Arctic. Paloont.zhur@ no.3-,61-66 '61. (MIRA 15:2) 1. Nauchno-isaledovatel'@akiy institut geologii Arktiki. (Arctic regions-Brachiopoda, Fossil)  SOLOMINA*.RAV.; CHERNYAK, G.Ye. Carboniferous sediments in the region of the Lana estuary. Sbor.st. po paleont. i biostrat. no.26:5-9 161. 1 (MIRA 15:8) (Lena Valle.Y-Paleontology, Stratigraphic)  SOLOMINA, R.V. Stratigraphy of Carboniferous sediments in the Verkhoyansk Range. Sbor.st.po paleont.i biostrat. no.30:16-35 162. (MIRA 16:12)  ?OM-f. SOLCMINA, R.V., , h. - I , ; Iv a on Carboniferous @edjnsr ;!3 1 ri the I vwor Lena Valley, @ @i cn @vi.). NITGA. Ser. "Faleon*.. i tc.6:5-11 164, (MIRA 18:12)