SCIENTIFIC ABSTRACT PESHEKHONOV, V.A. - PESHEKHONOVA, N.V.

VIRLOV, A.P.p kand. ekwaorr. nauk; ~~~.kand. elconora. nauk,, naucbrWy red.; VASITIYEV, A.V., red. Izd-va; GULWZIrIYEVA, A.N.# tekhn# red* (Methodology for preparing and giving lectures on economical 0 metodike podgotovki i chteniia lektsii po politichaskoi eko- nomii. Leningradt Ob-vo po raspr. polit. i nauch,,,i. znaydi RSF$, 1961. .4.6 P. (141RA 15:2) (Sconorics-Study and teaching)  KOBYLYAUSKIY, I.F., inzli.; FESHERHONOV, V.D., te~lm. Spot and Dean welding of diasiall-ar h'-'&t-,r&9iBtant BtePIB I and al-loys. Svar. proizv. no.1:23.-22 Ja 164. i (MIRA 17:1) 1;  KOBnYAIIS.KIY, I.F., jjlzh.; PPSIMMONOV, V.D., inzb, DlstribUtlcm of el,,.mpnts in the nugget during spot wplding of hetrroginneous TZI(ItAlS. Svnr.proizv. no.5:16-17 Fly 165. (MIRA 18t6)  ACCESSIM IM: AP400,)&!5 S./0135/61J/000/001/0021/()O~->2 ALMOR: Koby4lyansIdy, T. F. ('FnClneer); V. 1). (Technicina) 17TIEt Spot and scrim vel.&Lnp, of beat resli3larit ateel-13 and riUoya SOURCE: 3varochnoyc j~raivvodntvo no. 1, P-1-22 TOPIC TAGS: spot wo1rI-Ing, ~3eul wel,,11m, Fif.e-l veldina, heat resliit.,~nt L- matericti. ;.nc,1dJm;, iillay filloy, V1,h(?,3 al_l~iy, El alLoy, 1jail')"ki(n c,.teeL 1~-,5TRACT: The feanlb:11~,y of' tn I '--T'(O~ alloyr, and Ub.1814gll s~~eeL vaa tcstcd the 1,11rY 1-50/1200 r,13cyt, weldor rin(l *,n 173hM 300/1200 neam wi~ld,.!r, uning I-11"A alloy electroden, Weldln,,, ,~-rc nelected which Inaured aZtcqtuAt(' Gti,Qngth of the joInt6 rit roc-sa n.nd hir~h tcu- (Ikp to 100X), and x-ray Control chojod freedcm from craclx, ~tnd irther d-fecto. tui exampl,! of the rtlaticninhip bet-voen the rtrerigth of rpot welAr. wid the tert tcmperaturc~ far turee embinaticus of o,11WD In nhomn in Fig, I of Uie ancloeure. The welding of ou:~h al-lay-3 rhould be carried oub at hig)-i 1frermurco. "Z. V4 '.,hJ.rtjhcvf7,, tui(! F. N. Molcx3triova took plr~; in the vo!-J,," card  i AccEssion NR-. ANOD9825 ASsociATIGN: ncne ; SLTRUTM - 00 FM L: 01 BUD ccm I mi No REF 13 Ul 1 003 OlUERl 000 i I . I-Card 2/3  ACCESSION NRI AV=9825 kg/B)>Ot '00 "~O 0 WCLOSLMEt 01. k6/13 pot t ~i-o lad 0 7!70 OW W e,7d 10,V (b) T~mmap-raturc de~xnidcnce of tl2e uhcai, atrength (a) runal Yc-eling rtrens-th (b) of th-z- aport weldn betwoen TZ111W and VZh9O aLloyn (1), WhICK) tuirl I'V105 (2) ruitl V-.hIQO  0 ACCESSION M: AP4029387 S/0135/64/0001004/0026/0027 AUTHOR: Roby*lyanskiy, 1. F. (Engineer); Pealickhonov, V. D. (Technician) TITLE: The tendency of welded J11oints of certain high-temperature and heat-resistant steals and alloys toward intercrystallite corrosion SOURCE: Svarochnoye proizvodstva, no. 4, 1964, 26-27 TOPIC TAGS: in tercrys tall ite corrosion, Fh I 8119T a teel , V7hl00 alloy, VZ1198 a E1703 alloy ABSTRACT: There has been no inform at icr, oiic _,rning the durability of V7h1Q0 , VZ!i93 and E1703 alloys to intercryBLVIIite gr.iizi _-.orrosion. Tests were made an thicknesses of VZhl00 (1.2 rwii), VZh98 (1-0 Inn), E1703 (1.2 mm), and 19,09,'M in accordance with COST 6032-58 by Lhe ;V1 m(Ahod. This provider, for th(~ testill~; oi samples in an aqueous solution of copper oulphate and sulfuric acid In the presencL: of copper shavings for 24 hours. The solution contains 160 g of copper CuSO 4 -5H`0+100 ml of sulfuric acid with a denaity of 1.35/titer of water and copper shavings . Ine results are depicted in microphotographs. The materials VZh100, VZh98, EV03 and IKhlSN9T, their homogeneouti welded Joints made by argon arc welding without welding rod and the inhcK~ogeneouo Joints of VZh1OO+VZh98, VZMO&~E1703, and VZhIOO+lKhl8Ni'9T welded with and withcut a welding rod of WhI00, were found to be reoistant to Card 112  I ~ACCESSION NR: AP4029387 :intercryBtallite grain corrosion in the initial 3tate, as well as after tempering at 6500 for 2 hours. In some staples, increased corrosion in the grain boundaries of the surface is observed; however, this may not be evaluated as a tendency toward corrosion. Orig. art. has: 2 figures and 1 table. ASSOCIATION: none SUBMITTED: 00 SUB CODE., ML DKIZ ACQ: 28Apr64 NO REF SOVs 000 .ord 2/2 ENCL: 00 OUIER: 000  1~,, ~ ~ 1 7.,: ~,. 1 " . I . . . .. I I . ~ " , , K A r,, r ir . . I , .I , ;, , , 1 1 1 i I : , , '! ~ " " ~, - ; , , ., ~i L L~j . . . I . ( 1.1 T j, I.. I ', ~ f ) . - ~ I !, I - : .  ACCESSION NR: AP4019877 S/0135/64/000/003/0016/0017 AUTHOR: Koby*lyanskiy, 1. F. (Engineer); Peshakhonov, V. D. (Techm nician) TITLEt Resistance welding of steel OKhl6Nl5?13B (EP376) ,SOURCE: Svarochnoye proizvodstvo. no. 3. 1964, 16-17 TOPIC TAGS; EP376 steel, resistance welding, scam welding, spot welding, steel resistance welding .ABSTRACT: Stool EP316 is Nb stabilized, austanitic after annealing rapid cooling, and highly corrosion resistant with tensile .strength -~ 55 kg/mm2 and elongation 6 -50% at room temperature, com- .pared to 50 kg/mm2 and 25% respectively at 600C. Sheets 0.2-3.0 mm .thick were spot and scam welded on the MTP-200 and MShP-150 units, respectively. An x-ray spotcheck indicated the welds to be free of pores or flaws. Tests at room temperature (see Fig. I in the Enclo- -sure) and at temperatures up to 700C (rig. 2) indicate that strength 'factor values for welded ceams were above 0.9 over the range of 20- ;700C. Good quality of joints was assured by the selected operating Card 1 /4  ,ACCESSION NR: AP4019877 !technique. "The mechanical tests were carried out by E. N. jMolodtsova and N. G. Alisov." Orig. art. hass 2 figures and 2 !ASSOCIATIONt None !SUBMITTED: 00 ATD PRESS: 3045 ENCL: 02 tables. SUB CODEi MH NO REF SOV: 000 OTHER: 000 !Card 2/4  ACCESSION NR: AP4019877 kg/mm2 P, kg 20,V jo Mo. 0 Cd WX0 to EW P1 U (0 M- 1-f lb"M welded plate thickness Fig. 1. Relationship between joint strength and plate thickness ENCLOSURE:01 1 - Seam welding; 2 - spot welding, shear test; 3 - same, rupture test  ACCESSION NR: AP40198-i-4 kg/MM2 Fig. 2. 0 Cd 0 XV op, TeSt temporature Temperature dependence of jotnt strength I - Basic metal; 6'- 0.6 mm; 2, 3 seam welded joint 6- 0.6 and 1.55 mm, respectively; 4 spot welded joint, 6 - 1.5 mm ENCLOSURE:02 P, kg Qrd 4/4  'RA 18:.-  KOBYLY~Vl:,F, I Y, I. F. 0 iriz)). ; PE" 'T ~A I HIC)"'t V. 1). , U)"llyi. Tericiency toward intere-yst-a"lire ~or--o.~icn of welk-e-4 of some heat-resistant. ste-1-1 and allc-y-s. .var.proizv. no.4:2c-27 Ap 164 . (M-RA 18:4)  KOBYLYANSEY, 1.F.0 inzh.; F-rsAjalQNCjv., V.D., tekhn. Rbilatance weld!ng of OMMA.W.,511-13D (EP376) aste+il. Svar. pro:z-,, no,3tl6-17 Mr 164, 1p!-",  -66 EwT(m)/EWA(d)ll~,4P(t)hM(k)LMP(2)/4LP(b) UP(c) MJW/JD/Hw/jo. AP6003282 SOURCE CODE: UR/0135/66/000/001/0014/0016 AUTHOR: Peabekbonov, V. D.. (3ngineer);-KobXlyansM~_L. F. (Engineer); Dubitskiy-6 A. K. (Jsfigln-#M7~~ ORG: none 14 TITLE: Weldingof !sheet joints of co d XhISNIOT Ateel Mperdan ~SOURCN: Svarochnoye proizvodetvo, no. 1, 1966, 14-16 TOPIC TACS-. sheet metal, copper, steel, arc welding, resistance welding, bimetal XhISNIOT steel ABSTRACT: The fabrication of certain products (evaporators, beat exchangers, etc.) requires joining sheet copper to Khl8NlOT steel, I.e. joining metals which differ picochemical properties and hence are difficult to weld together. markedly In their ph In thie connection,kthe authors experimentally developed a technique for joining 0.3-1.5 mm thick M21sheat copper to sheets of steel KhISNIGT of the same thickness. Of the welding methods investigated, the two most suitable methods proved to be argon arc and resistance welding.Prior to welding the steel specimens were degreased and the copper specimens pickled. In the case of argon arc welding, treatment of the weld with Ki or with MI Cu improves the weld structure. Contact welding requires using as 1I Card 1/2  ,-n zt ACC NR% AP6003282 \2 a heat shield a 0.6um backing strip of MAor the copper part of the joint, since the m.p. of Mo is 2610*C and Its heat conduction is one-third as high as that of' Cu and thus it assures the required concentration of heat at the welding site consider- ing that unless this precaution is taken, owing to the intensive drain of heat through ihe copper sheet with ite,high heat conduction, the weld nugget would form at the center of the steel sheet alone and the copper sheet would not adhere properly. The results of strength testa and microstructuial examinations indicate that the strength of the welded joints (16.2-17.9 kgtmn ) is at least BOZ of the strength of copperand that high plasticity (0.54-0.96) is retained. The joints obtained by the argon arc welding method lack pores and cracks. The joints oboineO by the resist- ance (spot and seam) welding vethods not infrequently form crackslvrunniniz from the fusion line into steel along the grain boundaries. These cracks are filled with cop- per which penetrated them in liquid state. As tests of the specimens revealed, how- ever, theve cracks virtually do not affect the static-strength of the welded joint. Orig. art, ban: 5 figures, 3 tables. SUB CODE: 11, 13/ SM DATE: none/ ORIG REF; ODD/ OTH REF: 000 Joining of dissimilar*vietals in caid  Ni-It fl~- /Pad/1 VT C) UR/0135/65/000/005/0016/0017 jkCCZSSION NRI AP5012643 AUTHOR*. Kobylyanskiy 1. F. (Engineer) Pashekhonov, V. D. (Engineer) TITLE t Distribution o*f elements in the weld,nugget insp2t welding sitailar ate 0i dig eta 4 aroehnoye proizvodstvo no# 5, 1965, 16-17 'SOURCE., Sv TOPIC TAGS:- stainless steel, steel spot welding, weld nugget, alloy- ing element distribution,-.weld time ef f ect1VZhl00 steel, MlPN9T steel - 1'-';ABSTRACT:- -P-lates-):-l-.1 mm--thVM-k,-_-of -V-Zhl00--steel, -a Ni-Cr-l; steel i-con aining Nb, band of IKhl8N9T steel 11, 1.5 mm- thick, t Mo. an d [AISI 32 i 'were spot welded, and the distrlbutiatiA,,of t-ne alloying elements 1along the weld nugget,:Vas inirestigated by means of spectral- -analysis. ;The size of the nugget obtained with a weld time of 0.10 se'~! was 1.5 times smitllei than that obtained with-n-weld time of 0.30 aec. Resulti 0 r- s t ff~-utio-noT-tlwa Mwy-in-g f - th e --a p o'et r e-dl.- --.-e lements.- lind n ttie volume -of the weW nug- _practically- orm his-rndicated that, the molten metal Is Unil get was intensely ctirred during welding, probably by th e conve. etion curr en ta resulting.from combined action of the magnetic field of the welding ::~-Lcdrd  ,ACCESSION NR: AP4040700 S/0135/64/000/006/0021/0022 AUTHOR: Koby*lyanskiy, I. F. (Engineer); Pashekhonov, V. D. (Technician) TITLE: Resistance welding of aluminum 0.1-0.2 mm thick SOURCE: Svarochnoye proizvodstvo, no. 6 (630), 1964, 21-22 TOPIC TAGS: aluminum foil, foil welding, spot weldinp, seam welding, foil weld, rpot weld, seam weld, weld property ;ABSTRACT: Aluminum foil 0.1-0.2 mm thick can be seam and spot welded successfully with VZh98 alloy inserts 0.6 mm thick placed between the electrode and the foil. This insert prevents over- heating of the electrodes and increases the concentration of heat at the contact zone. Seam welding at a current of 5400 amp, an elec- trode pressure of 100 kg,and a welding time of 0.01-0.02 sec produced scams 3.5-4.0 mm wide. Spot welding at a current of 4600 amp, an .electrode pressure of 100 kg, and a welding time of 0.01-0.02 sec produced spot welds with nuggets 2.5-3.00 mm in diameter. Insert tbickness can be increased up to 1.2 mm, fiut-such increases must be 'Card i/2  ACCESSION NR: AP4040700 accompanied by higher electrode pressure. The seam and spot welds produced were dense and sound and had satisfactory strenpth. The state of the foil surface has no effect an the weld quality and special preparation of surfaces is not required. This method was used successfully for the manufacture of sandwich structuremade of work-hardened corrugated alumintim foil 0.1 and 0.2 mm thick.' Orig, art. has: 2 figures and 1 table. ASSOCIATION: none SUBMITTED: 00 SUB CODE: MA Cord 2/2 NO REF SOV: 002 ENCL: 00 OTHERi 000  KOBYLYANSKIY, 1. F., irzh,; PESHEKHO,'IOV,_-V.- D,_, tekhn. Mechanical prop3rties of -welded joints in OT4-1 with BT5-1 titanium alloys. Svar. proizv. no.10:12-14 0 162. (MIRA 15:10) (Titanium alloys-Welding) (Welding-Testing)  KOBYLYANSKIY, I.F., inzh.; FESHEKHONOV, V.D., tekhnik Argon-are welding of vacum5--tight joints on heat exchangers. Svar.proizv. no.1240 A 163. (MIRA 1612) (Electric welding) (Heat exchangers--Welding)  5/13 5/6 /014/0 i 6 A006/A101 AITTIiORS: Y o by' I y,-Li s k i y f;:, r,,, I) c. i -I r~ v , V. D. , T e c tin 1, c I an TITLF: Argon-are eieidi.;j: ~-f 11r, a heat exchanger PETZIODYAL: 3varochnoye pri TEX,": An (,f wt-LdInF withoxit filler wire to Join heat-exchanger wll~h After assemhllng the - 1:~ ~-- IV ~jj tubes with the plates, spec!.h~ attejjLIr,j, ~,j, C to the consecutive applica- tion of the weld )oints. Irlit~,ally the t,ir)es were welded along the least con- centric circumference, n-nd 1~het~ 1,~ aiie roei In it radlai direction from the center to the edges. The rows w~ro ~'irra,,~j-rod wlt,)i 10.," :~jvlclng. The following concen- tric circumferences were *Ai-n wc,d,?d ;r; tho !;i,rno direction unt.11 the tenth row; finally the last row was -weci,iv (F,~r-irc -7, wan performed on dixect polarity 60 amp3 d-c, with i.') mm vili-ctro(je diameter, and 14 I/mIn argor~ consumption. Welding of hont cxc,hanj:,er!~ duscribed method y1eldod strue- turos without deformatlons. Tnt,, vacuum of' tho welds showed one un- tight Joint of 1,428 welds. Tests with a holium flaw detector revealed 3 un- Card 1/2'  S1 1 1 I/f) I Argon-arc weldin.Z, of A 006/A 10 1 tight welds. They were f-)y ii(iIT,, wclcitng. There fire f1gures. Figure 2. Consecutivt. Card 2/2  3LB53 AUT-OCIFFS Kor-il yan3k I.y I . F ErF_j neer, Pe~-*,ekhc):. wolded J(:,In'.,i of he;ll In' R)RI, t,3 reslSt,~nc- welling -.f I" x Jc- er-rine 'he me~,1,ani(-il proper, ," li, I .' F 'le" i i' or.z 'r,~m *:-.e welll%g parame'ers, mvi 'tie effoc, c,' !%g ondl.' ine '.1;e welds. T hC~ f D 11 M'; I I ~g T - 7-, - 1 E- C 0 S. ee, -an I'e sa, I sfa~' crI I'), we' -led by argen-i- ),- T- e,-' lat i, Y analogous * c, *hal, of &N ~~9 (Vl_n~fl S'_ - resis'ance welding -under "s-oft" conditions. Tre d--I,*"::,. -4 pe r f orT r --iM-' E - ~Z Zr,-P'Ij nv- ex_,eed t5,'(, The hardness of tne wF-__J ar~ :ird resisl-an-ce wel-Hng IS ~~ D110 - 2~10, whi,~n i_= --.T :T~_-~- n~ss ~f :-,e tease vielcl-adjacen*. zones snL)%.,, wl-"In 3 - -P,)% Th'~ of We7d j3ints a,  s I T -2 e -i ma k f: m In, f I r~ --f .c -1 ed u r, 1 5 E r"' -  FESHL1110110V v .-, N. Finishing, of raving frame bobbins by the Ironing nethod. Der. prom. 13 no.1:2:24-25 D 159. (MIRA 1315) (Wood-Finiehing) (Bob))ins (Textile rALchinery))  .-ES;Y~ALI? CA , Yu.'-iy irrvicf, ATAI-IN, TRTI-51K, Y(,,.!,:., :r3tid. red. lbranch :3tructure a!' c.r.; on the arlallysi3 of' hp. factcr.-, and st.micture. c).' tl.e c;-,:-rc~rAion between su~Aivisions I ari~~ III stmiktura oj,--.h(-iiestven- nogo proizvoostva; k anaiizu faktoroj 1 rtri-ktury sootno- shendia I J 11 porlrazdelei,ii. 1.'c,:-.kva, Ekonomika, 19e ~O T OVIRA iF:9)  PIGULEVSKIY, Sergey Vladimirovich, prof.;_TWH~Hq~0-V,,-jq.V., red.; ZENIN, V.V. . tekhn. red. [Pathogenic animle of Daghestanj Patogennye zhivotnye Dagestana. Saratov Izd-vo Saratovskogo univ. Pt.2. 'j IAdovitye zhivotnyp.'1961. 128 p. [Poisonous animalo (MIRA 16:6) (DAGHESTAIR-POISONOUS ANIMALS)  --,: -a to Foot-and-Youth DiLe-,Fp and its ?ratical T"-01-1 ne"'. Prakt, vctcriin. i kcncvc,c!!:tvo, 1~,3,1, 7'o 11-2. o r, ra,-",:,': for A inf, Fouce Foot and ~Tollttl DISC-ase 'Ely A. L. State Publis'l for Ar-r-ICIAt"I~,11 Titerature, "joscow/LcninFrad ll17-) SC '-7-1(25, 11 Januar- 19152 0 0 0 0 0  ri i~- f4 cl 4 A, -4! Inn I'arr%,~ n!, r, 77 ~, -mc, "~-m ljl.- el I IvI: or, ri r7,7 I I'l. 7. 0 0  PESHFITIONOVA "The Clinical Pictum. of Foot-and-Mouth Dlvwlmell, Tho, *p4,p-V-Anmp Tl~!~khmr v oovreminnom qnvamhOeniA, IjeltI:hozgizj 19)2. (Ilibliogri,phy frora article Foot and Mouth Diseane by A. L. Skomorokhov,, State Publishing House for Agricultmral Literature, Koscow/Leningr,7A, 1947.) SO: U-162!i,, 11 Janwiry 1952, 5.%AAQ A5 AbtodR 0 0 0 0 0 0  PESHEKHONOVA, A. D.; APONORAREV, A. A.; LIPAJX)VA, M. D. Ultraviolet nbsorption spectra of certain 2.5-4substltuted D,Twis. Izv. AN' Ser. fi-z. 27 no.1:58-61 Ja l6-,. (MIRA 16: !) 1. Kafadra w-'annicheskoy kbi.mii Saratovakogo gosudarstvennofyo unJiversiteta im. N. G. Chernyahevskopro. (Furan-Spaotra.)  5.3400 AUTHORS: Ponomarye-.! A. A , TITLE: A.:. X. PERIODICAL: Zh,-irnai (USSR) ABSTRACT: Spirans react di~,,xu-~2 DD1,3'. 4 Di bromo Je r4 a S qrje. is crad .,a I I yc,--, n v e i,'-di:. ~,2IJ phenomenon f-- possil,~~-, eu ~~ ~ 1, ~. - ` C I . -. _; T! , ~ s - a,,. dr sn f, - ~ - r, L~i o m.,*,,i e S . (c ompo i- e rit ra'- i oifo!s of spi--an:3. A 'aLl,--, ol' a,-J Card 1/4  Concerning the St--,,dy Cc)T-,pc :.cij, X. Bromination of flOWITIt., filld 11") 111 o 1 o v'., W 1 Bromine A T S o v e j e r r-,, ar. it. C, H. Bui,dic'~, H. Ad;.: Li , ('934); K. A exandt-- L . 2 ASSOCIATION: c e i, i-~ e . S "-a R,--J S*-~,.-- ani%*erssi~e' imen'-' N. SUBMITTED: Card 2/4  CO!!Cel'~-lrq; X. Bromin'tiOl-, Of nonane and Its Homoloi-,_3 co"rLA Bromim- ret x r-- t'Tr' T. 7~ 701 SO - 5, J)b", Wh 1.9 1 Card 3/4 115- 117j-", ILS's  Concerning the Study of Furan Cwnpotoidq. X. Bromination of 1,6-Dioxaspiro(4,4) nonane and Its Hoinologs With Complex-Dwaid Bromine 7 T 3','0 CO 0- 1.1106- 1: IA 71 ell, (C I I 1.!10',Nl 1A 14 ., . 1 7 - I p) Card 4/4  8/048J63/027/001/021/043 BiM/Bioi AUTHORS: Peshekhonova, A. D.9 Ponomarev, A* A.f and Lipanova, M.Db* TITLE., Ultraviolet absorption speotra of sonie 20-substitutfid furans PERIODICAL: Akademiya nauk SSSR. Izvestiya. Seriya fizicheakaya, v. 27, no. 1, 1963, 58-61 TEXT: This is a study on the ultraviolet absorption spectra ofdioxane solutions of the following 2#5-substituted furanB: A CH CHO, j Ga)B>ln, at; In the lithium silicate glasses. This order is characteristic for glasses when P120 )/[Na 0) < 0.3. If 0.3 < [Tt,,O,]/[Na,Ol < 1, the order is different: A > 13 > Ga > In; k-Aile ifFR 0 ]/[Na 2 01 > 1, th"e ordor ~8 Ba > Al > Ga > In. In (lie system Na 20- l'i02-540 2 whe r2ic ~ a20 =16-22 moi.%, dw effects wore characteristic for the oxides of glass formers, and analogous datt were obtained with some L102-TiO 2- sio 2 systems. Relatively small amounts of T102 Card 2/3  ACCESSJON NR: AT4040547 produced differentiation with respect to the stability of the bonds to Wiens similar to that obtained for the R203 oxildes. In sodium and lithium silicate glasses, Zr02 showed simflar results. 'rho electrode behavior of alkall silicate glasses Into which oxides of 71 and Zr are incorporated can be explained by the formation of bonds in which the atoms of these elements vre surrounded by oxygen in such a way that a complex is formed which carries a negative charge and which determines the predominantly ionic bond of hydrogen in the glass. Addition of barium oxide to lithium silicate glasses containing ZrO9 seems to abolish the glass forming properties of Zr02. Orig. art. has. 7 figures.- ASSOCIATION: none SUBMITTED: 213an64 ENCL: 00 SUB CODE: MT, IC NO REP SOV: 011 OTHER: 001 Card 3/3  SHULITS, M.N.; FESHEKIIONO-V,A N.V.; KOPUNTSOVA, T.A.; SHANDALOVA, L.P. Effect of alksilins, earth oxides on the electrode properties and chemical atability of sodium silicate glasses. Vest. LGU 13 no.W14-120 163. (MIRA 16:3) (Electrodeq, Glass) (Alkaline earth oxides) (Sodium silicate)  SHULITS, m.M.j PESHEMONOVA N.V.; SHEVNINA, G.P. MQMM~~~ Electrode properties of lithium borosilicate and gallosilicate glasses. Vest. LGU 18 no.4:120-126 163. (HIRA 160) (Electrodes, Glass) (Lithium borosilicate) (Lithium gallosilicate)  SHUL'TS, M.M.; ~MPHONOVA, N.V.; LIPETS, T.V. Electrode properties a44' Lity of 11*1un 6111cate . *enical atabil glasses containing barii~m and lanthanum oxides. Vest. LGU 18 no.W60-162 163. (HIRA 16:3) (Eldetrodes, Glass) (Lithium silicates) (Barium oxide) (Lanthanum oxide)   310~4J6310*16DIIOI 9/022 Y_ of , -the --ele 6tr, 6d a: prop6rt iea e Iiiids' the-, above me'ntioned range-on y at BaO o nts smaller than 6~. MC 9t;9 ~ however, a bmall range'Lf add_iti,~es (6-9% Baos 3_6% La 0 3? 2 3 by,~.W ich the uyper limit 'of the "ie 'function nge is shifted to ra values b'Ovr than those~oi~ the c I orresponding ternary systems. The eff cts of e a 0 and BaO are camulative.': ~t La a'BaO (or-La 0 addition 2(31 2 C? -to IV& er Up 0 4%, doeiB not affect th6s at lity:.0 t. i f -the glaas. Higb ---------- . . . . . vc ditions of BaO or La 0,,- however, x6duce,-tilb There are stability' 2 ::fik4re,7!And',I tabli. r  A T" OR z C.; i i e on o v "t TITLE: V- e T h e o r j~ o 1' t e la 1 v - t r T e ).t t c I elei-trou';^~) VII. T~,o Effect c-f Fore,,,-:i I-)n,.; v: c Pot;~.csi m Functi,)r3 o.1- Olziss Electrode:~ ("'II. 1 C po.~itoronni~,.-. i )n,)v n . n triyeviijii i ev-: f 'u..'. ele%tr'D,-.0v~ PERIODICAL: rn a 1 F i -, i c'. c i-q i i , 1 Vo 1 2 r :--2 ( u: -, s T1 ) JUISTRAcT: Th ~- f o 11 ov., i n Z p r b 1 e m -: v, e re i ri v e s t i,~ t o c 1 c inf luence of f orei -n ion-, or. the ~o ! il n functi r. elcctrode~; A v~~ri~us temperEti,rQs. 21) ~resencc of a _Jaso ele,~-tr-)de., of Dt s~. t -.a infklu-ncc on wtrim:.- c:iti -n of v%rious te.-., er!Ltur funct4~ n. 1,. orier t-~ c~trry ),it ex,:ct! t inve--t )nc of t-e properties jlzccs electrode L, L:,,1v,-..nic ,-iti.out tr,-.!i.3fer -v inner sol',~ti i, '-lasc .,ip 11rcm...', oliter ":01-Al-r. ;C1 , Card 1, A C A'.  - ; - -- 7 The Theory -f the 7,1~,ss Ele + rode. VII. T:ie Effr-,,~t ~f Forei--n Tor--, oi. '. e Sodi- %. I I.L!:,Ct*'k -,C 0.f .vit.-, t..e corre!7,,)o:. Ii!. ind ex t,,e -a .it,i e of t e potent al ju 'i., t t ~r, li it t;,.0 --luti .-. c a o j i in (- 1- 001,:t -- n. ilic-te -lucs , t.,(' 0.0 i~os; t 1. oll wh i v -Lri ed only, wi t A c (,i,t,.. i I i,-A 71"i IL. liff~-i :3 fr~3;- t --t servin f-ir -j ro c t 3-1 C1 Oct rode-7 -, it f I: II - t 0-1. !IC)f r -L; hL-!ro--:. fi r~ct- t. -:-,~c., le3~: 1: -, - e ?)ere . Lver, ex,,)eri ~e.,:t c,)nols' o f t Ti o u r t a ~eas,..re e.- t +.,.C! ~C!- crellue CI!, e. P-,lrc U3 i"".. 0-1 o - o thi. :-e ~:urc--.C:A of E 2n co-.i,o,~: ' s )'~ u t , ):, . !~ ~ s t 11 Liver:ti--it 37-. C! ---rioi-s c,t- -i., o .,c I - - e :)- 0 odi,-,!i furcti-,n of elec*ro'.e--. Tl,- rc~-cti of s - u, electrodes in co-:.-ioin soDiti ~ n.-. n~' so - c.. o r i d e well -i.: i,,~ t~,, c I.or-i 'es of hydrotc:., rotasoiu--, lit'Au rid,idit, i, n lu.:i L~n~ c,,tlci,,: -. t -2 0 , 1, , ( o ;I: I 1 0 C re i v c, t i c,l h t h o r s si:i th A ~,e -en i on -x c r c e s t re,-' - -t i fl,if- t C- so _i f,-:, c t i c, r of t", vlect.~ode. Thic is iiiflli-nce b. ion.. o' pota2siii- i.c ',I C.Ir,-' 2,' ca' ciL. . The of t'.~- lit:,.iu - i n e  -~f t tr--' Ions n tne S -'iii t n v r, c-~tiinz is -.. %lo,.,. fro t.~e i t on so~li- ct! -r-, ti. 0 0 e e an -)f i 3 ~ n o:-. I ~ s -11 flvencp ii. t~.e follc,-J-.-,~ vor' T!~ order to ch~-ra--t~,ri7c t~,2 inrlitc-cc of , t, oi, uw `~ : C,1 .tivf- ~-f t.,.e clac. 1--,e 4 c-it n i rr t 1~0 t:-,c O-e t i c -.1 c ")c f f i c i et RT/F i T~ f - r t-e 1-2f, e' rctro-le i.-, ie i t.. t t t cceffic ent of t~L i.. c. 1r0 of t C'. ~.tr: i I.: f 1 4 f t h t t e i f L!. I t 1.t t-- 1 o:. -,. o, c: r . t r.. - 1 :3 ex-eri c:. t1 rv j, i t n t.-- i t t It f, i t i f7 c 11 r e I r-,! 11 i r t C a r3, e  'T The Thoor',, lono ~)n tho So A iti t 4 f D 14 T f I tti T',c: t f; I ect r3-1 c :70" rf f :~j , ~TI 1- Leni--- rl- S, t t SOCI e, . AS Card  The Thcory of t;ie ^31 ii; VII. Elf-, -f 7j,-'~ . . .1 Ions :).i the SoJiu;~ --Y. 2ot -,3i, .. 7,,- .cti --is 0' -,1 z;:, I . - SUB..'ITTED: ~-Uij " !"~" AVAIL!..:,',,E: Libr.~i% ol' Con-i-,zo Card 5;'5  NIKOLISKIY, B.F.; SIWPTS, PESHEKHONOVA, N.V.; BELYUSTEN' A.ti. Particular features of t~,e electrode brhavior of glass cnntaining two acid (glass-forming) oKides) Dokl. AN SSSR 140 no.'4:64-1-643 S (I. (miru, 11~:q) 1. Leningradskiy posudarstvennyy universitet im. A.A.Zhdanova. 2. 3blen-korrespondent AN SSSR (for Nikol'skiy). (Electrodes, Glass)  IVN W S/054j63/004/001/012/022 B101/13215 OM Shul Ott) HO M. Peshokhorzova H t, Parfenovs A* 1-4 1vanov PID ~M a as Ye, Ast TITLB:i Study 'of how alkaline eaz oxides affect the electrode properties and chemical v-tability of lithium silicate glasses PERIODICAL: LeningTad. -.Universitet. Vestnik, Seriya fiziki I khimiit no. :Lj, 1963's 104-114 -'TEXT::.- classes containing 249 271 -,or 30 mole% Li 0 and an addition of 2 mole% of BaOq :CaQ, HgOp or Beo were studied by plotting the curves E versus pl: Results: Bao shifts the upper' limit of the 11+ function ~ -rangp. by 0.1 ~J Rees# - 0.3;pH units Into the , kaline region. In some c . , also,the lower lim.~~t of the H4 funotlon is shifted in positive directiollo The exchange constant of Li Ba glas.-wt is somOthat lower than that of binary glass. +: CaO addition narrows th e H function range in the l alkaline re extends the -transiti range by A pH unit, and incressoa; Card, 11,3  S/054/63/004/003/012/022 t of how alkaline earth oxides ... B101/B215 udy~ th chan constanz. MgO has the same'effoot but.much more intensivelyk e--' ex 9e A ;~,j*~-~.;~~ ~- The.shift in.the upper limit of the e function caused by 15 mole% MgO' V:.. I ole% Li 0, is 3-3 pH.units, but that due to 15 mole% CaO i MJY.-: ~Y ut.27 m 2 unit. The Bhift,caused by BeO! is 2 pH. units at no more than 2-5 At A 5 - 20 moles BeO, this sbift in acid direction is 3-4 PH moles units. The-effect on the exchan-e constants increases as follows: !a0