wn
SHKATOVY A.P., inzh.; ZENCREEKO, T.I.; Pri-nimala uchastiye yEV,")TRATOVA, V.14.
rtain 11 te e 1 s -- -for
Ilavestigating the structure and properties of ce.
dies used iii forging. [I'llauch. trudy) EillYMS11a no.9:15-,27 !64.
(I-MtA 17:11)
.YWSTI,ATovA, z.F.; LAPIN, Y.N.; SEDLIS, V-X-; FEMLOV, TO-Ts-
Utilizing some gr9upq of compounds in ftwl oil fractions of
shale tare as plasticizers. Trudr VNIPS noo7.'226-231 '59.
(KRA 12:9)
(oil shales) (Plasticizers)
YIV5TUT'TZVA,_,T!k#P.; KURTACHIM, A.F*,* SIRITSM. AT&
Drying cottage cheese b7 sublimaticm. rans. i are pron. 14.
no.4:16-18 Ap 1590 12:5)
1*Rostovokly konservwI7 zavad *Smyohka" kfor Yevatratlyevaq Sinitsyn).
2.Giprorybproyakt.tfor Kuryachlyev).
(Cottage cheese-Drying)
17
IV-5
YMYSTROPOI. A.P., professor.
Rev method of fizing tendona of leg flexor- msclvs to the
pgtella. Ortop.travm. t protez. no.3:1:2-15 MY-Je"55.
(HLRA 8:10)
1. Is.ortopedichaskogo otdeleniya (zav.prof. A.P.Tevatropov)
kliniki gospitallboy kbirurgii (zav.prof. A.H.Aminev)
Xuybashevskogn nedits,inskogoinstituts.
(LEG. muscles,
flexor tendons, fixation)
profs (Ki,ybyahev (obl.), Rokranovokaya ul., d. 20,
Approaab to the ]Lnj,e Joint In the excision of a torn meniscus.
Ortop.., travm. I protez, 24 no.12,33.-36 D 163. (MIRA 17:7)
1, lz ortopedicheskogo otdeleniya (sav, - prof. A,P, Yevatropov)
kafedry pspitallnqy kh-4rurgli (zav. - Fwaf. A.M. Aainav)
Kuybyehavokogo meditsinskogo instituta,
[IF C' Ie 96,1 11,9 1. 1 18-j
A 711EGIR Veshnikova, 1. Ye.-, Yeistropov, 0. A.
T ME; Theory of natched slot radiators 44
SOURCE: Radiotekhnika i elektron-ika, v. 10, no. 7, 1965, 1181-1189
TOPIC TAGS- slot radiator, slot antenna
ABSTRAM Formdas for the conductance of a resonance slot having mi arbitrary
rosition in ths wldtAr w,,A11 nf n rewtnn-onj1:ir wqvep~iide qre devolonsui )7y momrs of
r9Q%i':-jd f~-r 71Atc~'
t.v in t'ho q;~It oont~r A I mr, fe)-milas ars~ i,,3r'vn--i f,,r +n,
III I P !-,nV F) Q.T-41. tin e: hf7, rtAw7!-an---&, Xxper 1-mon t a I Vtj r I r j OR! jf~qi nf '-nn
f mill On a wavAguid'a With A d1-fmA--'ndtinn 8 f 1. 46 ) xO, 4 3-A to a'-a ImAd
a-:- t) f 1-guxes ;cxi
I
AccF,ssioN,- xR - AP5017655
ASSOCIATION: none
-1"? CC-TV
YEViTRiGFOV G.A,,; 'LSAFAPKINP SOAT-
Study of waveguide-slot antennas with identla&I resonant,
resonators. Radiotelkh. i elektron, 10 no.9:1663-1671 S 165.
I. 1035LM La (1) /T Wrl
_-SOURCE CODE: UR/0109/66/011/005/0822/0830
G. A.; Tearapkin, S. A.
AUTHOR: Yevatruov,
OAG: none
TITLE: Calculation of slotted-waveguide antennas' with, aa allowance for dominant-
mode radiator interaction
S(
)URCE: Radiotekhnika i elektronika, v. 11, no. 5, 1966, 8ZZ-830
TOPIC TAGS: slot antenna, waveguide antenna, antenna theory
ABSTRACT: As the major-mode interaction. of radiators results in a substantial
deviation of the aperture phase distribution from linear (and the latter is conven-
tionally nssumed in the known methods of antenna calculation), the article offers an
v m-proved method of antenna calculation for, both specified amplitude and phase
distributions. The new method replaces the slotted-waveguide antenna with an
equivalent two-conductor lind with shunt conductances: the line is.broken up into a
number of quadripoles., Equations that connect forward and back waves at the quadri-
.7 pole terminals ar used in the analysis and synthesis of the equivalent line. These
L Card I/Z uDc; 6?.i.396.677.n.00i.24
(f A&I
-I-It.A?6014236
equations are transformed into recurrent relations, which can be used for calculatinj
ither the amplitude -phase distribution in a known-parameter antenna or. the
l
e
ecLuivalent line when the amplitude -phase distribution is specified. The latter case
caai be physically implemented by inclined offset slots. As a numerical example. the;
Dolf-Chebyshev amplitude distribution (side-lobe level, -40 db) is calculated and.
aperture phase distortion is analyzed. "The authors wish to thank L. S. Benenson-
for his useful. remarks, and L. A. VIYushkova and B. A. Malayev for their help in
C.-Wrying out the calculations and discussing the results. Orig. art. has: 5 figures,
23 formulas, and Z tables.
SUB CODE: CL 09 SUBM DATE:- 293an65 ORIG REF: 005 OTH REF: 00?.'- -
tard 2./Buff
YEEV37ROPOV, 1. 1.
4220S. YUMOPOV, 1. 1 . - Materialy go akologft iwirokkokoy saranchi. i izuchaniyu novykh lradov
Izvestiya Akad. -ie!,jk Azerbaydzh. SSR, 1948, No. 8, c65-76. -Rezyume na azerbaydzl'l.
yaz.
SO*. 1:4tODiS' Zhurnal'nykh Statey, Vol. 47, 1943
YEVSTROFOV,, N.A.p student V kursa; YEGIAZARYANI,, A.S., otudent V kursa;
PANMP I.M.p nauchn7y rukovoditellp dotsent, kand.tekhnauk-
Some problems in the theory of blasting In rock and the practice
of short-delay blasting in breaking ore in stopes. Nauch. rab.
stud. GNSO,MG1 no.W5-24 1959. (141RA 14: 5)
(Blasting)
nauk- MAZUROT V A.,
YEVSTROPOV "-; I I .
r~'U . tell naa-uk: ivau!2hn. red.
[Blasting in construction; the dynandes of blasting In
.,Soil and rock) Vzryvnye raboty v stroitel'stve; dinamika
vzryva v gruntakh I gornykh porodakh. Moskva Stroilzdat,
1965. 206 p. bURA 18:12)
L 05625-67 VVII)IT IJP(lc)- AT
ACC Nft SOMCE COM:
A ~W7
-AumoR:. Yevstr2~o~v V,. V.- Zibuts, Yu. A.: ParitsIdy, L. G.
ORGY: Phyalcotechnical Institute im. A. F. Ioffep AN SSSR,, Lerilwad.Mifto-
tekhnicheskiy institut AN SSSR)
2_
-Occurrence of photo emf in a homogeneous semi~onduetor on the separation
boundary between regions of different degrees of optic ionization of the impurities
SWRCE: Fizika tverdogo tela, v. 8., no. 7, 1966., 224o-2242
TOPIC TAGS: photo emfp-semiconductor impurity., ionization, impurity level
ABSTPACT:'~ Since normally the production of a photo emf calls-for the presence of in-
homogeneities in the semiconductor., the authors sh(r.; that under certain condlUons it
14 possible to produce a photo emf in a perfectly homogeneous semiconductor by Ulu-
minating it with two beams of light having different pectral compositions. III one
region the energy of the!. light should be sufficient only for i0pization of the shallaw
1e, jels., and in the other,' the quantum energy should be sufficient for formation of
el4ctron-hole pairs. Occurrence of photo emf is essentially due to an impurity-
iolAzation gradient, produced by uneven illumination in the spectral region of impurity
abs9rption. The magnitude of the photo emf Is calculated and it Is shown that it Iq
of the same order of magnitude as the volume emf., and can reach tens of millivolts
un4er favorable conditions. Measurements on p-type germanium doped with goldj using a
be4im of 12frared light, confirmed the calculations. The authors thank S. M. ltyvkin,
Cajd 2/2
mm
YEVSTROPCFVA S.N.
State of the blood coa.gulation cyafk-r. in patients V-4th congenital
heart defeet-9 operated on under artificial blood circulati6n. treho
trudy W. no.19:113-1.18 165* (MIRA 18:8)
AUTHORS: Tailankarov, L. L., Yevstroplyev, K., SOY/76-32-~~-2545
Vlasov, Yu. G.
TITLE: The Osmotic and Activity Coefficients of RbCl, CsCl and Kj in
-fitsi
Highly Concentrated Aqueous Solutions (Osmoticheskiye koei'
yenty i koeffitsiyenty. aktivnostey RbCL, CsCl i KJ v vodnlrkb.
rastvoralzh pri vysokikh kontsentratoiyakh)
PERIODIGAL: Zhurnal fizicheskoy khimii, 1958, Vol 32, Nr 7,
pp 1616 1621 (USSR)
ABSTRACT: As in publications values of the above-mentioned coeffici0its
are only found up to certain concentrations these values axe
determined in the present paper for higlier concentrations at
250. Uoing, the equation by Gibbs-Duhem a possibility for the
calculation of the, magnitude of the mean "practice.111 ion activity
coefficient 1.t is give n for the case.of the determination of
the valuen of the activity of water for higher concentrations
of the eloctrolytori employing the data already existing in thia
field., The isopiestic method by Robinson and Sinclair (rief 1)
was employed for the determination of the water activity;
Card 1/3' Kharned and Ouen (Ref 2) had proved the reliability of thia
The Osaotic and Activity Coefficients
Kj. in Highly Concentrated Aqueous So'Ut'Or'6
method..The diagram of the vacuum exsiccator used is given,
from which fact may, among other things, be seen that glass
and silver vessels were used. The water activity was determined
according to calibration curves withLNaCl and CaCl solutions
2
beina Used. The activity coefficients and the osmotic
coefficients were calculated according to an equation. Besides
the KJ-, NaCl- and CaC1 2- salts used also the riiiethod employed
for the production of RbCl and CsCl is described. The inves-
tigation of the solubility of the salts vas op. ried out
r 2.
accordlrng to the inopientic mothod. The obtained values of the
solubility at 250, as well as those of the osmotic and activity
coefficients are given in a table. There are 1 figtire, 1 table,
and-5 references, 1-of which is Soviet.
ASSOCIATION: LeninGradskiy 6,osudarotve,-:nyy universitet im. A.A.Zhdanova
(Leningrad State University imeni A.A.Zhdanov)
SUBMITTED: March 15, 1957
Card 2/3
The Osmotic and Activity Coefficients of RbCl, CsCl and SOV/76-32-7-25/45
IrJ in VAghly Concentrated Aqueous Solutions
1. Metalchlorides--Chemical properties 2. Aqueous solutiono--Chemical propexties
.3. Rubidium chloride--Production 4., Cesium chloride--Production 5. Metal
chloride,s--Addorption
Card 3/3
-7)
lit: -jt~.
2. 0 A a
72, Tn' I
0:4
is
~ g,-. a --I , 1 v 5, 0 ---
BF
4r
Tj
u 6
'HE
V'4
V %a, W.. 4,
7 s
1 lw
Ha
h RP
m 0
S"kloc~,mtnoyc o-taywilye; trud~r Trct'yvj~i vneaoyumo,
16-Z3 1959 Uitmv,u T--4.tio- the All-U--Iv. C~
forence, on the Vitmo~ State, Hold In
TsA-vo AN =R, 1960. 5~4 p. Errata. slip lhe~rttd. 3,Z00 toplc3 FrInted.
(Strifts', It%
Spo"orina Actnet"t. lhotit.t khteii a, Ak.Z-t ~.k SSSR.
kkdoich~okoy~. obahchtnt~o ixtat 13.1. mend.ley-& -1
lealne. cTtit%ezkIy Inatitut ime-11. S.1. Vevilova.
Uitorial Board: A.T. Xva~mtluikj V.P. Barzakov3kiy, M.A. Betborodovs O.r. Ba-vIakjv
Y.V.V6r&in, A.G. Vl"ov~ K.S. Tcvutroptyev, A.A. I&btdev, H.A. V.S.
-ftolch~ov~ R.L. Myalltr, Y-A. Pamy-rwtitS. Ch"=An, N.A. Torovoy, V.A.
Plorlwtayn, A.1c. YaWaa~&, Ed. of Publishing Ho~w. I.Y. GLyorov; Tech. rd.-.
V.T. Bml~cver.
PIU=t This boolle In lat"44 for rcSCMrCht74 In tl-.e balance wl techn0lomr of
glasuts.
COM=M. The IhOC& Contain$ the r"pcr-d and dtacuralms of Uie Third All-Ualon
Conference ca the Vit"ous Sto4c, held In teatedro-A on Novc~aber Ir,!?, lqmO.
They deal Vith the Methods and rcfiult4~ of rtudylrz tua atructure or 61"acs, the
TvUltion between the structure and properties of' glasses, the zat~m or the
c2hasiltal bonil and &lass atructtire, and tne cryatallozhen-lotry or rued
ailica, Alchamim of vitrification, optical pro-,--tles and gLosa gtr~~Lurev end.
the tUctrIcal Properties or glaoscs am also dIxeusacd. A rurbr Of the re-
part* deal vit-h the ddpendtncc of als-se properties no ccapwitloao the LintIng Or
alaosta aaa rTAttion effect., "d mech.nIcal, tcohaLcAl. and ch-leal pro;4r,
ties or gl"ets. Other Vsycm tm&t gLaza "aicondutora, and avam boroallIcate
gla,stes. The Coaference vas, atte-uled by zom th~ 3W delegatra froa Swdet WA
rest cer~ ficl"tific orj:anitaticau. Azote, th" partLcIp=tfi in th4 41scusulms
irere R.Y. Sol=lu, Ye. V. RuvzhInxkly, Yu,A. Caotev, V.P. Pryaaiahalkovs Ta. 7s.
Gotllb~ 0.1-. Matd1ov-Petroopm, G.P. Rlkhay-lov, S.M. Petrovs A.11. tzzarvv. D.I.
LevInp A.V. Shetllov~ X.T. Pleahthintikly, A.Ta. Kutaetaov, X.V. DcStrarevm~ &,V.
DyarCahovakays, A.P. Wea-, M.N. Skomyd!~~, P.7%, Vokin, EX. r~llcr. 74.A.
Cazutoov, V-P. Pozdnev, R.S, She"lei.h, Z.O. Pla&her, and O.S. MolehazoYa.
The fInza session of the Conference vas addressed by Professor I.T. Kltay-gorolkly,
lCuored Sclentl%t and raSia"r, Doctor of Ttchalcal Sciences. Tat foll~lng
I"tItutes ~,rre cited !or their ContzW4tica to I-e 6.~vlopoegt of gless scl.n.&
and tectnolo.~y! Ga3ud&rstvef"nj7 optichtakly u3tiv~t (state optical In.tItLit.),
Itatitut khl.--ji sjj4k%tov A.11 :3-e.~fj (jwtjL~tv of Sl3lchte Chemist t AZ ~t
ry LISS.
r1lichfak4y ln3tltjt AN WSR (Yt-,y0IcD Inotitute As U539). FizIkv,-ttIhnIC%e4xIy
lzktlt~t AN WSR (Yjjy~jcote0,njcaI In rtitute AS trS11), lnutltut fitiki A31 mn,
Wet (InatIt.tt or Physics. A~sZe~y of Scj~hc.a, 5,19, Minsk),
tabcratory of YAyAjeal Chenjutry a Silicates Or t~,e lnc-it~t cbz~~Chey I reor&Aal.
Cb.zkoy kuiull A.11 Y.1-k. or re.e.r.1 ~.d Ino. ~hjc C "lot
b . ry
Acalezy of Science, t4lor~3knyu SS4, Hinz)(), lnstitQt
boyedit,zly AN SSSRb-iltt. or Hie, volcc~lar coo;o~A,136 AS =M)s GosQdar4tvvn.
x07 ln3tltat Ot0cla (State IzAtItute for Glass), Cooudaxstvehnyy Institut sick- . '
10m2OLnUr (StAt. Inctivate for Glass Fibers). Qwu14rjPtvcn:;,)y InatItut elektrot.xh-
aIcbo&tA;c, att-.1c, (rtato jr~-jtatv for XrectrIcal 01".), Sltlrs~uy rlza~
techult:165VAY i-jutltut, Tozsk (51earl~i Firricotet.1,nical. 1ntt.-tu!v, TmDk)~I4zIzmA.
&11Y Z*14~- (1,enla~:rvd Stftto Unlvvrolty), Xz-ztm~kly L-Iwkz-
t0iy~ZOIcZl~htakly 1110titaL (MO3cw Institute Of Chemical
ttxhnolo;;~-Chesloy in3titut 1--- fl-llvle,"O T.c.1,401azle-1 I.Atlwt lzcni
p.litt""I ... ~kly ln.zl"t nl.uk (rell.rusala,' rolyt.~,~nic
Inst.'"t., x1nak) I novNherk~sxiy politeLhalthezLly r.3tivit
folytecrX.It. 7hatItutt), fthd SrcrdjO")&j7 ;olitr4lalchcaly IMAtIt*t (Sverdlovsk
ro1jt*c='c lmtitut~). 'rre Coafereh~e wd~ gponsored by- t." Taxtitute or SlIlente
Chea-i~try AS LESA (Attir,3 riector - A.S. Cctlib)$ the Vaeacy-0-ya
obt.h-!~tst,o I., D.I. K-d.-1.y-& (KII-ftlon C4-lcal Society I-al D.Z.
-d the Go."dw*t~nhyy ord'a. Uhl., OK-Uthezkly 1.~tltut L--tat
5,1. Vw;-Iov. (StAte ~Or-r of Unin~ C;tj_j Itstltuta 1--ent fl.l. Va~llne).
rh~ 15 T-Olqti~n4 Or t!'c "ca-1-n4atlo-A to a
Center for the of coordln%tih, t!~c "..c.rch on gla.z. to J~bltdh . n.v
ycrIoi*Ic&l uzd~. tt, Litle, "FLtIX% I LU--Iya ~Lckla" (Pnysl~ cz-A rhea!Atry or
01~1), enl to JI. th~ lzt4r~Aticoal C-itt- ", al-4. -,hr Confcm~cc~ thAnke
A.A. Ieb.dt,, Acd-IcIle.a. Prcfcsvor, -I Chalmn Or U.t C~'-Itatloa O~ cc~-
.Lc~,
ikttt.e; Ye.A. r~-W, of P,,y4tc* a~d P..thcon. Motbtr or th.
CrEsall4tional C=%Ltt~r; ~~l P.L. Fy-411er, 4~tor rf Cr-l Scleuces, Yenbvr
of the Or&-tt.ttmal The tdltorial r,~,rd tha,.Xa r..4. bart.n~~,
Ekkina, D.P. Dobychin, S.K. Dubr~i~, V.A. loffe, ",I
L.T.
ft~frr~h~,z !-r-ts.
vit-a- st.te SOV/5053
44-Inshleyn, M.M. QF-1~u1&tIC4 or LLO FIEZtrlc ?'ltld In i~ttcrua Or
Bpecil 257
M-url., O.V. tr tleztric.k'~ rcrductivity a Solid Gl-ca
on CmI-Ition, 260
Im
of 2 lc~, sy,t- 261
Kwt&-%Y=, r.A. StuJy of tl~ Neutr4lz~tIon Erfect or Electrical Cckiductiv ity
In ftud Baron Glaspea 266
Rly.y K.K. st.4 ct Diffuzion of S~ Alk IAll Icmx~ In Silica
Y;Mt~
-
It"'h U, Aid cr n~
jo,,ctjv. jzmOj,,* 270
IVUm-n, TcA. Djff~jm rf CC;Wr IC,,- In 01"S Depending M Cmj~jtscz 274
G.T. Khvostrtk~, Kad 1.S. Y&ahtv-Aayu. Electrical PmjvrLIcn
of il~-zinmllicbt~;s 278
Card 1z'/22
vitrec- 5t,t. SOVM35
41A V.1 Nc~ ,:cIalt-LU ZirccnIt=-C0fttz1ranC
silica Gial3eo of Ccup,.z. vu,~tdre' 282
olelev-,kly, V.I. , and A.r. Lmzy 'ev. On the Tr,1:142 Of LxPWAIng thO
g.t=. or B.gc~... L-ac. in 286
lik.ol-skly, B.F!, And M.N. M4l't1-- Bl-'tr~!c Glass r-~,-crtles 292
Ptt-nkiy, G.T. mectrC44 Pm4*rtt~.z Of soda I!Arim Silicate Gladzem 300
Discum-im 303
TRY3ICC,HMC,kL MOM"Mi CF CLAZM-M
Dej,cmUnza of Fr,;-tles on C=Plwltlm
K.S. On Seae Of the StUta Intluded In the Section Dcallus
With r"jrt1,4 of Gl-ts 307
vit~-O~ state (Cmt.) SM,'503 5
Sr~ldt, On tht L-trt---c, cr ef Alk-11 Silicate Glasuca
i'm C=;:a11t1- 310
Glodkom, A.V., ".d V.V. Etue, Or the 1,ly-mer-c Stmct~ of
In=z&I-c GIAS~ej 314
ar.-A Ats~rTtlcn or U&ht by Sw* Cryata.12
am-4 01"6.3 318
A.7. !,. And vrt2-i Conalant-
of Gl-5.s 323
Slweje-kly, V.T. C&)~u'~tlt,, et the Acti~tlon Enerja of V16couz Flw
c~: Alk,li S114,~ftte Cliv-4 ~r Given Ch~tzAl Coeij~jitlm .10
Kin,i, F.1e., 4n! Ltrtct or lar-wB Adj%tI"s m rrapertlea
of M- v d 331
Glast.3 335
Card
AE=s VS1116MUSYS, Z. R. VOT 601000 03/021/~21
=
zw
rITM -1-m San vitraaaa alata.
PERIMICA&I Inatle I kqrsaiks. 1~60. Mr 3. VP 43-4
210 3rd AU-VAIMR COMfOX'SAGO on the I'llirsouLl s"" van held I~m
lasixtr*4 at She and of M9. It was at& lost by he Inatitut I
h
k%Lmu 41111PRIOT AN 0332 (lastitate or the C!Anlxtrr At IUI0441
A3=I..'-'q7RIQo7$ %ki'llabasuds QlAsbetessro 1*321 2. 1.~ ,
(All-Vatca Chemical 0091417 1=21 2.1 t. mandslarav)
amm& 91"Aaretwomayy aptlabookir lastitul twat 2- 1- U1110yi,
(Otate Optical Inattints Inset S. 1. Taril"). Core itisa IM
as the streature at glass, lawastirtlaa v%hods or Mis
71tremew state, the xachmalax of vLtrlfla&ti-u ax-i V!~731cacbIM'.
an& tss%"A&I Properties or Classes vor* Wiver2l. Me Cjzf4woz
me opened ty madsaiaian A. A. lo'hodar*
ro2orts do% % IV
oaks izrasugation rovalts or
49F.M2 Go *Zcroo and A2=0:"rcA 13"sIr or t--q Tio*37
r 11n. langs-I To. T. Wmat, -OA the CaorlI'r.4tl.,a i
to" Or ALILSIA" and I ran IP. r-I!-3V r4ro
as aftwftr&2 champs I* barox-sl2loalke Slaxaosl i~&.A.
a" 2 Y. ZbdmAQT reported So noun con%~eXal.1 3751:5-3-.~0"VIT
libe ~;T;gtare of guavas =1 ttvir Par.,= J?rc'Aho
Me. A. PAM47-lashlis "4 1. r. A~Otpztv.
Ca" )/a - &SISQUISS AS the 15 jr.port~
---*be 6-k "4212-8 dealt with the electric 7TV?GrtI.4 a.' S11203D.
reported on the Strueture 4.16ralastiol
j
surd 4 4 12.03*000 electric flent T. 31, yar"~"41
T.tiz. ontrmaturs azd Fropertles of 40-2 CX14* Oj
at %us rolyzLer-ths"y or tu y1trMaze 314ts-I
b* AsIllty Sal th. 4.C-0 of di:jum;j'
24 &sonax sz~'Osltioa or Vz& tIA441
:
V- I- IMOISTOMY VOPOrIld on the IAScll of 4162.otrlo Io2x3v~ It
42agrams Mad ar7stallLas alwalmoslu4st.31 1 kr~3nn .11
VVESISLUGm at the Dielectric Polarizatica 1.-7 lfhc
Is"Is, Glasseass V,-A--2Xuazv. T. 1. CALsm RAI 41-P. r--4~Lj!.nthj
reported on wastipsions or 11.1t7 at 6"j-2 -
t-T-nr ;~i:q: am tht dSrfz&ICAjqj
V-
IS 1.
-0mra asst 9-2. Khroattaka an electric *�e5;-4271-ja of mrxsizIL'Ijj
am Clawallits -Q~ _T.X-12 OPCIP on kin 0 t ~41
Iftluk were carried "I under the of prcfoj&*-- Z.! et.
Tova"OT41 at the lefodra at.kla =1 Izz.1 UMSOTSIA (CL41'j t.
Gleas of Ski Leassrat Toobaslosloal la"I I
SIDO revers: -M Depeassuat of the of Glooq4
!!ELjLIt-qM She CkSXIOAI Composition*. V. A. t 0. 1. 1"-Lu
JN.-IK. uncra4sro, La"Stization re .1%S 02 the
*921"LLrity or Classes of the myolla 210, - 3,03 - W &a *ks I
Teratara' Waage or from 400-wo' Got am the InfIveass of w1am,
or SZ-Lh- 414 Sias OJLIA. 04 tL* A"A2Uall-4ty or ilsi
At us 7th atellma, 6 re2orts 4o.It i%% al"nas &*1 *4,
.11RASS". 9 With the aelorlas of 61"I'so "I the lariuszoo at
41AU's matt 4 "Ports with technical prc2m~-ttws of Classes. !,!~
left@ MA ghwooloaks, Illentrio rrm;artlog or 2t34 VDAJ4~n
2. A. SM.UrLva oul T
,?,,
as Moth"Wa -7;F-U-4 PrO4.01lon of shaloossd4o jfiaj~;J-'
of their passel propertlea =4 *2 the ljml%S Of tho~ VII
a 14 la sks 474stronans - As'var T22 as - "'463, vbg*3 r- Aq~
- As - Do. A. 2. lolootysIS &Q4 1. V. 1-.7291 reported wa tho
IAlw&2 aboMtIom -~ a xnah9v at binji ~S-ppmAo &Vt~. N.
FAIGUIjola, T, 7- MISSOMOTS, and 9 T. Navajos. toPoTtod ma the
A. To I
ote
-Xadiogropble Inv*fitiption
kr=&&a 0 chaleadwid-S. T V T.r.-V and T. a. no-aboll
rogQW904 an the chain stru3tu;Sta~r-58 Ntr.oma i-OrijI
do"t"w" by than with 0-10CLISIrl, alaffural.1ts. t. P. A::,
Gaza 5/4 "Pertod! " straotard and propartles of ferreas baroz clam 004"1
'I- I
Dun -
MISTROPIYEVO KoK,; MAZURI~t 0,*V.; bOLCHASOVv V*S.
Relation betveen certain physicochemical properties of glasses
and their composition. Zirar.VKHO 6 no,.l.-114-116 161. (mIRA 14;3)
(Glass)
S/07 '0/034/009/027/041XX
B020YB056
AUTHORS: Makarov, L. L., and Yevatrop'yev, K. K.
TITLE: Thermodynamic Study of the System KBr - KI H20 at 2500
PERIODICAL: Zhurnal fizicheskoy khimii, 1960, Vol. 34, No. 9,
pp. 1967 - 1972
TEXT: The authors wanted to give a definition of the solubility isothermal
lines of the system mentioned in the title, to determine the limits of
existence of solid solutions of KBr - KI, and to determine the change in
the isobaric line potential AZ in their formation at 250C. When evaluating
results, the relations suggested by I. Wasastjerna and V. Hovi (Ref. 7),
and T. H. Neuman (Ref. 8) were used. The solubility isothermal lines of the
system mentioned in the title at 250C is given in Fig. 1, and the vapor
pressure isothermal line of water over solutions saturated'with the
KBr - KI mixture is given in Fig. 2. The error in determining the activity
coefficients is estimated at + 1 - 3%, which corresponds to an error of the
quantity &Z of + 4%. For ever-y range of existence of the solid solutions,
the constancy of the activity coefficients is characteristic. Table 4 gives
Card 1/2
/60/0
t
6
1
St
f th
d
i
d
S
h
/027/0
S/0
/009
c-
e
em
u
ermo
T
y,o
XX
ynam
ys
34
4
7
/
,
KBr KI - H 0 at 250C B02O/BO56
2
the values AZ calculated from the equation
'
'61'
AZ x W9
61"'
,
2
2
POT 1
whe retLdenotee the chemical potential. Fig. 3 shows a comparison between
the valuesAH and TOS for the formation of solid KBr - KI solutions from
pure crystals. Fig. 3 also gives the values of the deformation energy E,
calculated from the Neuman relation, on the assumption that disorder
prevails in the distribution of the mixing ions, and that the law of the
additivity of molecular volumes holds. The activity coefficients f and
KBr -
_7
f as well as the mean ion coefficients and in saturated
KI r�KBr 9'+KI
aqueous solutions at 250C are given in Table 3..The authors thank Professor
A. N. Murin, Professor A. V. Storonkin, and Docent M. M. Shul'ts. There are-
3 figures, 4 tables, and 16 references: 5 Soviet, 4 US, 2 German, 2 Italiaz4
and 3 Finnish.-
ASSOCIATION: Leningradskiy gosudarstvennyy universitet im. A. A. Zhdanova
(Leningrad State University imeni A. A. Zhdanov)
SUBMITTED: December 16, 1958
Card 2/2
S/08Y61/054/011/005/020
D227 D3 01
Shteynberg, Yu.G., and Yevstropyev, K.K.
Investigating the reaction of strontium and lead
glazes with a ceramic body. Part II
PERIODICAL: Zhurnal prikladnoy khimiip v. 34p no. 11, 1961t
2413 - 2419
.TEXT: The present work is a continuation of earlier investigations
and its aim is to explain the difference3 in properties of glazes
.of various compositions and also changes occurring within the layer
of glaze, supported on a ceramic, during firing. The studies invol-
ved measurements of radioactivity, given off by Na22 isotope intro-
duced into the glazeq 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 alAline components of
.the melt and should, thereforef be indicated by the'decrease of NO
activity in this zone. It was alsonecessary to study the process
of so#um ion diffusion in both glaze melts and ceramic support
Card 1/4
Investigating the reaction of D227/D301
(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 melto In the experimental 'V
part, the authors used Na22 labelled soda which was introduced into -
the glaze prepared by partial substitution of SiO + MgO in the No.,
glaze with equimolecular quantities of PbO and B203. The compo-
sition, including 3 %-of cobalt oxide for earsier observations of
rubbing down uniformityt was melted at; 130000, crushed and made in-
to a suspension with 6 % Druzhkovsk clap 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-
siona,, Glazed plates were fired at 1,040 and 114QOC and the thickness
of glaze layer measured. The distribution of Na2_2 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
lead-free glaze the activity of Na22 was found to vary along the
thickness of the glass layer. For samples fired at 11400C the reduc-
tion of Na22 activity near the surface was found to correspond to
Card 2/4
S/08 61/034/011/005/020
.~,Investigating the reaction of ... D227%301
the increase in-,hardness in this zone, caused by evaporation of so-
dium. The relation wasp howeverp found not true for samples fired
at 1040OCt as at that temperature evaporation if sodium was less
pronounced. The lower concentration of Na22 -in the middle layer of
:-the glaze indicated that sodiump, in contrast to calcium~ has a con-
siderable mobility within the alumo-silicate-glaze melt. Within the
body of the ceramic and the alaze melt diffusion of sodium occurs
either together with the melt or without it, but at a lower rate,
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. Similarlyt 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-
vents 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 114000 respectively. The low mobility
of alkaline earth metals indicates their stronger bonding with the
silica-alumina support and also supports the observation that they
influence the crystallization of the glazes to a considerable de-
gree. There are 3 f igures and 1 table and 8 ref erences A 7, Sovie t-
bloc and 1 non-Soviet-bloc.
SUBMITTED.: January 20p 1961
Card 4/4
S/02061/136/001/030/037
2 loo B0047BO56
"'AUTHORS: Y and Kharlyuzov, V. A.
.,TITLE- The Nature of Conductivity of Alkali-free Barium Silicate
Glasses
PERIODICAL: Doklady Akademii nauk SSSR, 1961, vol. 136, No.1, pp. 140-142
TEXT: The problem of the electrical conductivity of, alkali-free silicate
and borate glasses is discussed as a sub-problem in electric-insulation
engineering. In the present paper the nature of carriers is investigated.
Einstein's equation which relates conductivity and diffusion was made the
starting point:-D = nKkT/N(ze) 2 (D denoting diffusion c Ioefficient,cm 2/sec;
W = specific conductivity,ohm- 1CM n - transfer number of the diffusing
ion, N - number of ions per- cm 3). Conductivity was measured, the diffusion
coefficient was dete '--mined by means of tracers, and the conductivity c al-
culated from these data according to Einstein was compared with the experi-
mental result. Barium silicate glass was investigated as it is suited for
Card 1/3
The Nature.of Conductivity of Alkali-free S1020 61Z136100110301037
Barium Silicate Gla8 BO 04 XG) 5 6
sea
vitrification within a large range. Glass with 30, 40, and 50 % BaO was
melted from BaCO and sand in quartz crucibles in a h-f furnace at 15500C-
3
'Conductivity wasImeasured in the temperature range of 350 - 6500C by means
of an MOM-4 (MTOM-4) megohm-meter (Fig. 1). The diffusion coefficient was
measured by grinding thin glass layers according to Refs. 12, 13, using
Ila 22 and Ba140 as indicators. Na content did not exceed 0.02 %. For glass
with 50 % BaO, 50 % S102 the following results wero obtained:
DBa ~ (2�1).10- 12 Cm2/sec; D (?+,).10-12 cm2 /see; -logK -8+0.2;
Na ~ Ba ' 6 -
-lo&Na 10-3�0-3; -10g9 exp 6-3�0.2. Calculation according to Einstein
7 -1 -11 -1 -1
gave (1.7�0.8)-10- ohm- cm ; VC 1-8 3)-10 ohm -cm
Ba Na , (5 2+
These data show that the conductivity due to Ba agrees well with the
experimental value within the limits of error, whereas the conductivity
of the Na+ ion differs by nearly four orders of magnitude from the ex-
perimental value. Therefore, conductivityin alkali-free barium Silicate
glass can be traced back to barium ions. In the authors' opinion, this
Card 2/3
The Nature of Conductivity of Alkali-free S/020/61/136/001/030/037
Barium Silicate Glasses B000056
result may also be applied to other types of alkali-free silicate glass
with oxides of divalent metals. The authors thank Ye. V. Podushko for. hi!3
assistance. There are 1 figure-and 12 references: 10 Soviet, 1 US, and
1 German.
PRESENTED: July 4, 1960 by A. N. Terenin, Academician
SUBMITTIEM: June 24, 196o
Card 3/3
k.
S/1 11;1 1
10
AUTHORSt V A- V -4n&vjreVi%t fsp:ir
T khoms,kiyt~ f_
e of ajUWO�jjj~(.
TITLEt Conduction ty 0
P
-PERIODICALt Fizika tV'e idogo tela j
TEXTt Th e infl the. sllumimj~ *Xldt ~'a tkI6
properties of sodiUMLalumosilicate tlawiae %~m lmri6z
and diffusion coeffiOlent,of
the conductjVitZ~L', 13. Na
2
re: 4x rid 0 'Na 6
2
(in m 6 1 e1a), whe, 9. a 01
10, 15, 20 25 (11)'The glasales we're'. prod fled by uSA th" i 1,
jiwaa moasuiled'at'jo'
145Q 750 0 in'quartz,cruciblos.
at
the 19.different"glase,namples measured$ log ~-'f(lft) a; irdigut,:ii~i;-41,"
na,,varlti ..
_n6linati6
The activation energy E obtained f rom their Li 4 b4
Ov. For-the,glanson I alao tho diff sion ao6ffkOii3nt,D- 'aaa
and 0-71
measured with use of, Na 'tracer -a t 300 an(I 415, 0. The. ahanga~.in.e
prpper tieS'JS LLcharacterile'tio -of L the Al 0 Na 0 ratio. in'66duch-atl~"I
3, 2
Ca
rd 1/3
onduction
C B10
type~of
5
parameters
to-: it M'Y'I
vow._
-Pro6, the
have'extrern
es-(cf. Figes
re sul
cluded.that .
,
.
.
the:changes,in activation' energy, ate Iu,du66!-,* i4l -'Wad-
ces es.
ro s
p
Th e and 2. tables.
er6-~are 3-figur a
CIATION
ASSO t, Lenitgradeki hei 1-iy'.istituV
y, tekhnologio s ung6vau." (Iiiiiiii4-
'
4: TV-
'
"
j"Goisu
r dat
stva
Ical Ins ti tu to Imeni lan6die t)
g ad Technolog
optiche'skiy1institut im. S. I,, NaAlovd,-~.Otl~g
1. VaTil,
-
'
-
BUBMITTEDt in
ber 18, 1962
-Sep to
YI
t
TITLE G, as s a a s 3 2 5
c n s r
n a i~
t E.r
TITLE: Microstructure of germanate glisses o(mutining one and tx,.-(,
0101MCF- Vsesoy-qznoye soveslwhari e pt- Ftek!n-r-,bra?nomu sostmRniyu. 4fh. 1 -nfnctrfi~i. 19rA.
TOPIC TAGS: glass, glaso property, electric conductivity, microstructurc
AMT'P,,A(T: The authors investizate the tcmr)erature depiendences of *he rlt~ctr iral cm-luctiv ity
r !Nil 5"'' 4 Wk An w*, i,~.i iL::f tw- li wn ;i;:, 11~!(,~,
, , ;1! L" rn":1 m! f.
I !-I-,. ina as ~ es a-ri-i th el of- t r !(-:i t t
qcQnQ orml qiin ing q! cn I irnq r'f
Th= mjE~rqtjnn nf qjkqji inna in Er
Card 112
1 qnnrhor rvpn fa rfitfi;Qmn M ~.~i in aii-q.Q kr~.( W: t i- anrl viro vo,qs?t i-q
F,,-xwg omz! uR I I
A 00411/W 46
log-
AUTHOR: Yavat 3pfyev, K. K.
ORG now
1!2
T=: AU~ieation o-P radioactive isotopes. in the man-1 meture of glass and during
the Btudy of p4fq~icochemical properties of glasses and the prospect of their further I
.application
-.SOUWZ: Optiko-melftnicheokaya promyshlennost', no. 12j. 196o, 44-46
TOPIG:TAGS: glass property, g1ws , calcium,. neutron absorption, sodium,
tadio strontium, potassium, radioisotope
A:-:S7-,ACT -Basel on the reirults ofexpertiton-tal research, conducted by a mmber of
exrx-,-'~.s inn the field of glass production and reported in 33 papers, the author pro-
-'~~f sri-as in t~hp mru-iu'3x!turP- of
PI
f
4
)?-j e r -,)r t AIx A!3 tie ~2
nf mo I ten q-1,aa a to intensive doses of neutrons, 'k-radi
Ca[A 1/2
L'25720-66-
ACC NR, Ap6oo2l~
er
in tliq c a T-v;r- I ty of limit eseence exciters irt ard
;7D"-; t~'p ~f'~ialpn of Iqns in glzwia in =_.er t'c .4 e -
the natu~- Of CCT%!Llct_'Vlv.' ~_f
rqdl_q_tI..)n.,3 on the ll~,rmatl%-n - f
t':%j.tt It is that or trie 6(N)~et resew-c-L iruitituti~Aia
l"'P 3'~.'4v ci_-"~ tner I ~
X.L' I' oc
'_az
Tjp ry-q)-g 'l! SUPM DATE - 28Rcv4_01 ORM M 019/ UM FW: 014
Rill
L 05693-67 Wr (1) 11g,
t
ACC NRs ~ AF6024399 SCUFC-A GODS$ UHjOOZGj(2bj1b9rjQGz/03UzjCUb
AUTHORI Tavatrop"70vt X. K.;
ORGS none
&as "ises
TjT1Zz Nature of the conductivity.6f beryllium fluoride-b
-7
SOURCEs AN SWR, Dokladyp V* 169v no. 20 19d, 382-3&
TOPICTAGSt glaseq beryllium compound# fluoridep cesium compoundip electric conduction
ABSTRACT: In order to determine Ithe tM of current carriers in glass containing 80
=16 % berynium nuoride and 2o mole 15 cesium, fluoride# a method was used In which
the conductivity measured directly was.compared to the-conductivity calculated by
means of Einstein's 9quation from diffusion coefficients determined with the aid of
the radioisotope Ca*(. Einstein's equation relating Ionic diffusion iidth electrical.
conductivity.is
X/D N(ze)2/ a IMP
,uh diffusion coefficientp N tho number-of low per =3
_.Ire X Is the conductivity, D the,
of glass V z this valance of the moving ion, a this. electronic charr, and mmultipa.
+
c-Alon factor equal to 0,V_Oet. .7he conductivity provided by Os low ~is
XC3 - 1.8 x 10-15MCS%S/0.4 To'
Card 1/2 UDC8 "6011.01:539,219.3
mom
L 05-693-67-
ACC NRs AP6024399
al conductivity values with those calcula;ted wV% the assmv-
'=a::'aon 0t eiricity by -Cs ions in cesium fluober7nate glaoses indicates
ti f tranaf= V,
that the contribution of the cationic component of the conduction is nealgibJ7, amen,
(of the'order to 1-2%). COOPariscn Of this rOBUt with data raported in the litera-
twe leads to the conclusion that the conduction in beryUlumi fluoride-baae gUased; is
Mdoldo In character. The Paper was presented by Academician Torenins A,. U.9 4 Nov
65*. OrIgo art.. has$ gigues g I table and 2 formlUg,
SUB cmg -I,!/ SUM DA=# 280at6$/ CRIG RM 011/ OTH WS 002
2/2
car
:1,80k66 EWP(~)/EWT(m) VJH
ACC NRi AP6006275 (A SOURCE CODE: UR/0080/66/039/002/0452/0453
AUTIHOR: Yevstroplyev, K. K.; Pavlova, G. A.; Pavlovskiy, V. K.
ORG: State ODtics Institute im. S. 1. Vavilov (Gasudarstvennyy opticheskiy institut)
TITLE., Nature of the conductivity of nonalkaline pyroceramics
2rdjerjja~ systems 4 "Pe
-SOURCE:-- _-Zhurnal prikladnoy khimii, v. 39, no. 2, 1966, 452-453
TOPIC TAGS: electric conductivity, activationlenergyo magnesium compound, aluminum,
compoundi silicon compound,, g44'j'
ABSTRACT: Systems of TRgn!~Ti~~- 'aluminun-silicat se containing 0.15% Na2O were
studied to determine the dependence of electrical conductivity on temperature and to
measure the diffusion coefficient of Ila in the systems. Comparison of experimental
data with the Einstein correlation is given as follows:
XNa + = D-N-(ze)2
*kT
where X and D n the electrical conductiYity and diffusion coefficients of Na is
the number of Ila ; z is the valence of Ila e is the charge on the electron; k is'the
Boltzmann constant; T is the temperature; and a is the correlatV ionic factor.-'Redio-
active Na2l was used as a tracer in the measurement of D for Na . Electrical conduc-
Card 1/2
L 38695-66
ACC NRs AP6000275
1~ tivity was measured by gold or silver deposition at an electrode. A 2-3 order of rag-
nitude increase in X was found when the temperature was increased from 300-7700C. Cor-
respondingly, a decrease in the activation energy and a decrease in the volume of the
vitreous phase of the glass were noticed. The measvred X compared well with the cal-
culated X based on the Ei7stein correlation using the measured D. From the experi-
mental data, X due to Mg, diffusion and electron migrati?n was concluded to be 0.
The increase in X is therefore due to the diffusion of Na . Tito increase In D + and
Na
subsequently X is attributed to the conversion of MgO and A1203 to the crystalline,_-
phase resulting in the decreased bonding of Na*. This increases the mobility of Ila
Also increasing X is the decrease in the volume of the glassy phase during crystalli-
zation resulting in a relative increase in Na2O concentration. Orig. art. has: 1
table.
SUB CODE Ut 20/ SUBM DATE: OlFeb64/ ORIG MF: 004
-t__~Card 2/2
16 tv It- it - ts-- to if a 'S., It Sk It M -to -k
14 - 1. 0 a a I , " I
A
%
A cataparsfive iKady 00 the tuaVaods u4*4 In detamiaing
the active addify at aids. 1. Tkoaq. D.P.Nikallkit,
'a Lvda. Aced. Aer. Scl. ad Actu-Sod lut., Fw, l4wia-
grad W~ IN. S.I. No. 12, 51-6(1030),A "w and
41. .00
taft)"tical dixvmim on the ApplicatlQu of the CGW-
dictlic am Poftutitsattrio'-fit Sb quinhydroft aid
hodo (M the. ltd. of activ *a
acidity. U. Us &*#, doccMde. 13. P. MW*akil wd
eoid A-% Mg. 37--iJ; d. C. A. 28.2WIO~
*oil have hem tegW for ft by various
tk~ 00
foetbodo. The tistdts dow that the &M dectmie W
far supedw to other wdbods. It the quiabrdouse tkv - .00
ItWo Is to to um:d the OU OWU14 No IM lba-fosta 4A a '00
100
po~tc and a4dal. lwxtkm at quinkytImm dUww not
inducam the reading. The % cWtude gives ("y
046
rehaw resialts fix au axiom or Ccutrduod Mixto. The
Pct$OUW OUCCUrve mawba In Ike VISPULI100 Impede* Z
the accuracy. It yickto pmigvr troutto in ad Nita In 04,
Cuts.
too
'00
'09
ICA~ LMMATWE CLAIWICAMN
:00
v-v .144
TV #'A I A v w 0 - 94 0 is is I fe T
It a 4C 44 IS 1 14 ;
00 * 0 4 00600000 0 0 0 0 0 #4 09
a 0 0 a 0 0 W V 00 of* 0 0 0 * 0 60 Cr *,of# 0 0 a 0 0
6 r :4 9 "'Ito It U -0 X a Is. V Is ff a 4'
6 -a
p4lipcit"I did MA4191111 w1f
Vww W-i Aivitt. Amt. Aft. -0#
Pwc.lextorgrod la4E IN. S,J..Ntp- IL*. 45,244o",Y-Ii~
(Vadings up to h 11.3.
1
04 C 1-pymad 1kcs P" itcvtw 4,44 the rittin".
V
h
ii z (01 t
t, IM W*4 Y
he, 16wom w
i
ht~
1 M. fill
[
W
rtlg
ria* 6
td I
be tz"
4.1flumildr) fl*
044 tur 111
IA-0
Okt
t AV
4te
~
f .
k
1
It
r
CIMAlsktit giltre &%WAIT tfskills. III I1W 14.-CCWV -14 a
1% pulus OL4", With &414h Oc .411ittwt 41W PH 4(w o4w
1-vib 14%tb the sta-A 611"1 It tkOwdr.. -00
IS VW"16117 VMIUAW 10
,
i
A, 14"T'r
qUABqiIy Of W4"kit Alldift
00 GO
041
00 live
* ~16
~t
6!
"'80
01,14, fil'sti.. 1*0
u AV 00 &A &
t qir 1~v
-8 it I
tt C, it
-0 ow a IV
-W
0
ad I d
mA
sp a it
, Os 0
0-0 0 0 A 0 00_00 0 0 0 P, 0 a 0-* 0- 0
14
W~G_ :1 , - .
It . -, 1-
to v tj Ad t* too U a if a a m to
m io-u to to 4~
.1vt"'ItUs All, f*rf(4f#l
4elat(ficlia Of VAC& 1111199
SAMW9CV
Evslrop*cv. U. R. S.
60-13(Ltt, Frrwb, "In.-Tagat "Pit.
Pb Ow HSI
tugde am the dcq*46ca of Cd, Ag, CO,
aq. St". d ib,* OU(S. 00 a Pt Ckvirak. R Iff" Af
tomki tlkct the depa4lim of the first (Cwn of the mdd
4tee Atmwe thrA nVdred for (he moo
newtotod Sma. tol Ike tmmd. A study was n=de of the
Tra this avertatap and C. d.
mlAtkMhiP CIMUS bOw ZOO
cuma. of Wt ia the W&L am cmd. of lat"m
goo
.kw tut tb. tfiotl
tiw of the im ad the deperdtiam a( tfx awal atcocm am
dWinct pbevxmwtza sM that th"t is an Lacamediate
it
100 414e, Stadar*r go*
zoo
--go
-_oo
A I Al
WALLOW L WHO41141141 CLOWICITIC,
I too
,49
U IV tv 10-61" 19*01
id it
Att too Is to to is 4 4 u 0 4 to
os 0 0 0 oi
it 4 4 0 9-0,40 it-*_*
.00
1 0 ..
-c ful,
A a ll T. 0
'0 .00
444014fits ait
A acwtwds J
I'. V. Sdkovdall. clacm.
S. S 4. 421-4~ln OMMO 424-7),
7440".-A coat uation of work in
the XlTcct Of cOmPa- fit simPk &L-90 of 9" tkx -
an the C. in. t. pwoccd in, Ckcirometric titca(LW. 06
A of asesaxements with gksws c(Ou
.4 g. NaO and
dWWd tbAt Me kWw the conen. former the
0: 1 tho W-t!CJ Produced; subaitudon of r4o for
0 t 9;e *Uikr -dta- Tbrec-campoazat dasses were
found to fsg Into two cwes.. T= CTIZ 2*0
Of C'kjl=U and Pb showed chant, te. 400
i to while chow coutc. asidesom
00 ~3 At a alowed COASQ M.. Con 600
OEM CQCM be used to runsurv the cumn. Q( cv; go&
00" la $&AS. The gka c=tg. Ha acted as is mctsLUc all
The R tit" w" sens(tive ca, COGM-1. a
00 -d Li 1-. The lbCM7 and awhauLva 4m di.-
00 r E. DeRight coo
00 1 ~ j,
'Woo
t109
it
.14AII..
V
A ja~~ jL 4XSTALLU4GX*L L"CRATLdl ASUMATICO
41!4&~_Cw 0%, all
A
]k a so 2
9 Od 0
IZA
Ilk Or
_U al if a
-0
0-.~40
0-0
-0-0, 0-0 -0--w-1070 -0
WO: V-0-4,
, 1- 9 V 9 -0 a
J- 0 .-*-*-
it V4 30
~V- is M-
I re -11 a J4 n 16 a 0 a a 44
r LZ
4t
00-
to
06
*Om"ilsp thudeums In Ow Xk*od#v**ka d K ms-
*0 13 Who& A. M Kentattoxv v4 rm v (zAifmd Atiebilf,
- "OSMiMPkA Zoo
00 KAilaff (4. PAYN. CAM.), 1634, U F tm' Ak, I=, 90, 7K=~ -
[InIttmianj 100
c4 jOkUnLmd lidirtum dWttufm w44 dWkd its aqtK*tw "WrAw droAmItsto Coo
ottf*(,-, 4~lta of mpper, kind. manuy. and eilver. and in a C HIS ouilut"
tl( IdIver nitmW at 2W-W C Tho Cen(W-Unst
Curit" 41W .4 Ahow a
mittimum. which iocahstaced by thezr=G(lummin thecawo(tadmiar"
all :ulphate. Ttw prutndization of kmw and delmmritlim of meW akmt tin the
ro 4~,
, ME
COW
te a
aes
I 7-j a- 31 0 -v
u 11; 111 -it M it gat" Itcrit WKWO IIKII
tooooso *0 6~0 00 009 0 0 0 * 0 0 0 010.0 0 0
_0 a 0 0 0,0 0 *o 00 60 06
,,W. 0 -0 l4t~ 0 ep a 46-0 & 4D a 0:41-0 O:-e 0 a 0 0 W 0 0 0 a 0 a a a 0 0 4A 4F 0 a 0 IP a 0 0
--tip
tl4cr
moo a
Chem RuwiAL'Iloak 130-1331.-
The (Nktxw" dowftcl. by 64hWAUlaisf. d al.
l(A.i 1"346) qWQdWg I" bubbl",
it
by
Del
L14
zoo
-4 1-44TAUMICAL UTCRATWE CLAUWICATKW CIO*
'A 10, IL
a -W
RV 10 ts
I& w tp ~O 0a w x W~c fc a KIA 4 1 2 a
T4 6 a I
-ev 0 0,0:6:0
11 P 77 1y v
tMMM111
F 41 a 0 a U 19 Ill IS tr to Is I & a 'ii, ji 16 "IrWorm is a 12
Jat- X-X--V-Z AIL A X.
141
pff'"Ites &.0 011CIP41111116 .off
Viscosity and electric cmductivity of N"d "Ito and
_V.'ev.
Evw
-3. &W-74
Sit. Op, IM.
Op Foglish VS)w--On the basis of data fowW in the
litcrature go viscosity of valfiou-4 fiquid,. it Ila cow1u4-d
that Ckafte (it vbowty With (Callf. In urtasaacd. lku4f%
i IfuOll) fi0viat FmalArl-ArAra-16 * equation 9 - At-
4111 whete A wW a at ccast%.. and ill zoned. liquldf (11^
molten &fit"), it follows WaWto-l's equal&) I Its -1 -
00
A' + (a'!Tjf1Jr. whirre A', a' awa aremn-As. Change,
*0 OWtv. cmd. with truils. infuvd %alts follinn the equAliwi
9 . flyo, 1. Olleft If AIM 'f Arc CvKlqtt" mail Ill *"Kit.
6 Cr William Allwati'll gla%4), It flahms (fit, 14JUAlisill Ill x
ix, r)e*. P.1wimi, 11', X an4l h Arc omw,. 1he
Frtaiiim, betiffCCH X And q, ill %A11% and 914~iW% 14
00 by 16- equation x1.V cmit, where is is a larte-viumlict
es
w
"n
to
*4 41 ma," 4t#
low
.00
-00
so 0
too
too
coo
lot
0
1we
too
S L A "TA&I.VROCAL &IMAII(Al CLASWOCA11046 two
so
Ito
U AV so-- T'_ AN A 0 4 oil a 0 a I w 0 0 do I
7;j H
is 0 tp I to tpa a at it a 'e cc at IS (I
0 to ie 0 0 It IF 0 0 0, 0 6000 0 0 0 A 0 0 0 0 0 0 & 0 0 of 0
C) 0 0 4 0 4-0-6 0 0 4:64.0 0 it _4 0 0 w 0 _0 0' 0 0 0 * 0
'e, We 0 :LA1
gun 0 0 v 4
a__ A TR JA
V(v gkw"
vs. ttv*mp'gv 04 A, IL GamLWL Zwol-
co"Milm 4w op"a.
oe a nuuukd visat vwomder (cf. C. A0 AWPI
so 41
SO&
-00
0 41
ke 9
ip ~W-Qai- guAll "q
-a-W . ~ ~ v w v v 7 , - , _. . 6 - a c
cbsom
.04
Z! to tft plac
I (C~ -A. 2k
LMla
_raft"3004W
A d.(Qcwdca9bmwfRtbet9=v
cld
Ilk
114,W 14
u it AV so-~Jls a Ic It it I VA A. 'a
Aa micl it *"rks a a F
'OL 0 & & 9 0 # 0
0 a a o 'It0 a- it0 a 0 9 0 0 a Ore a IS 0 a 4 0 a 0 off 0 0 00
- .1 . 1 7 ~ . I , ~ ~ V I I ~ 2 F 1 1
az~ "'Lilt
i
glam Of
UcTrCiSms. 9. N'S~
ad la. U. bbritkAv.
14-15010lb- 1w blIP09"We (d "Ift'ring LVOMI CtA-
dta(M wellittil 110 (Amat" Kimmart h(vimvirmity im 'fi-4-1 -4*
to.. It) the Orfimt .4 the %4y. -4 J%'A
:Itb sWcW tvvwd rpAs '4 Milan bubUV4 "it It t-api-I -00
III jaclus4a itt, t1te
alb at
ag nkitiliamitt. 14) t-flalt 44 t4)-
and Immid 'A lbe MITI, Ao
0 ISO Or
00
00
00
JA*
of
.06
he*
tie 0.
L40 0
41 lv-(~ elikIT %%tt "I ISO
-V' I. ii
r2 - " Oll it it_-Z ~111 W it 1 114
gLf " i , , 'goo 0 a 0 W .10 0 0 0 0 0 0 0 0 0 0
0 0 If
0 0 0
wool
Dot
wait'4we Oda.
(110 =o-An,atk*q9
tool of -Kitkeraf the
tad. Omat
0 1
Is. PpLza
00*Ag. "WAW 4kow4d. as*
omit
00.0 &M AUt the
fee kg M*tt. the Opwdtm- of 1% i~awtbe exapa. see
UK IqKvidtw AW. f. 4
00 (1 to
- CoNi IM
Id
_4 -famisd, wd ve. SM a '. R* kmogffmow 'doc Its (is IfqUk- Sigg 44 WV(!.
b0twelk 14 codqw
twId.adthepwa U=ft CA tbairompdg. of ='f (hLbf tlW PM49kv 09 d1finfUl cbew.
ate e c ~ EIT It Witkapawt (uaO=ftrbe Mt'zr'w' d1ou" gag bc II&Ild
tp - r in
tion mcmvendir4i to The MIC-lih, gdzt rtks Of the liquid
Mdt obey thne fudkat; Tht 9"(Mtr of (be Wg j T. * and dm ' "Md.
w I&W With to 11W -Pa- it wwkkred to W rzd ad
,,m4, With the CIMIP 4f do IhE M structaft e( bhwy =e
TS the 410060tw is t UUQUId mix S. Irm refereacm
W..R. IfMa
age
it
MIALLMMAL UTUATWC CLAUWCATM ire*
claw 14MOT
so
Minagg dw off A14
aL,
I a. I It FA
It
, %' 00 6000000 a
14609 ).so 9 : * , 1 0-00 0 -
G_: 0 w a c 0 *00.00 too 0 a 0 0 & 0 11
OW 0-0040 of 0 W. Mwm_~~ ~
T , Ki 1 1, A ]a a
Ma
Pan 11~
aw Noma- dlaftw
IL IL R
1
(U
06 .
.)
5.
owaffiWims (c fa*mm that
r.04 at Wow to ghm b!O the Wat= evtw bt +
an ti
tk. Fkb",
.00
too
+
lot
Two
U
w
d
0
u
0 v
.
m
p to
tr "a lowtio
at coop%. It ,m
by Im 9 - a + &C-wheist 4 wd & am coluts. aid " gvwc
7we (if tDAW FOSK6 w Ifkatod. Fom 6m down to
In st ~R =~Cmupaadiic to the.comod.
*
5W
the Aacka is rcvcc-
1.6, Q
t, with dwm~
r
coo
it F. H. a AM-4
cot
Mr 'flit
too
--slow 411"814TO Mgtf 90-LWW
-
-
4mv Q4C X;~Ifi
911463 -a#
Aft c W C~ at I w w & a 3,
'% I m
I cr I
ut it AV 'o ai; f;
:
0 0 00 0 0 0 a eat 0. Go 0
to as 0
it-M- 44M
Zetdi;~& betcow stid "'tu. (a 1114fts d .40
PSI; fl"r refik.
(Coal, act Vbc.cWty of Lkulds ad CrAtottlal Stolno.). 3,
rACttd It% 1. &W, (340S flffhgd, 10
abd
11391 10t (Mft-Tbe MU6M bttXftU TbCOSity And tent -
pmuft in meal wdu is tzpm"cd by lb-,- forumu
v - Ae-'~ wtick c%nnoc be appficd to ctos ttk4ta.
Empirk famulas as muested by S. C. Watetton AM G.
Tanuttann cotitafts Mw cow"als, thm introducing ca"-
Istion enwit. Vor practic-al use thew fomulas could fie
Ltp&4,cd by a simple fbmuta. got 9 - A + (It/ P).
00 one menti(wed above, the
*0: Atthmh not as Accumte && the coo
(Omuta is cce"ive fm %he tempcratum int"Val important
[00 for glas%niefting, (It2t Is. abow the liquefying point. d as#
see
8 too
Zoo
lee
too
too
MAI- all
1*0
1143M #440'r
11V
MOM '-fall
ilk 4411 Ast
019L&;-
U to &V T~ An 8. r. a nd a a a I w 14 -'M
v3 U
t" 00 (*0 0" CC c ft I tK
-J.L
w W6,Y910it
-
' (
a
off
-44k4
c
M
k4 Iv
'00
"d a WOW. no
"
l
sud
utuduft (on
t* 0 bms k &*w.* low
Kat&JI CA IS 514V,)
kIVA Q(tTQ CIgjtk(S
d
t
"
a
"
K
kv d!
cool
oft,
So*
ft
JULA
me
t0'4
t a
1 a ID p 0 0 a a e 0 al e 0 G'a a a 0 a
ANDROUNIKOV,.X.S.; BALAKOV, T.Y.; BUZHINSKIT, A.M.; BURAGO, A.M.; VINTKAM,
L.A.; VISHUNSKIT, A-.A.- TOLOSOT, D.S.; GASSOVSKIT, LAI.. professor;
GIR~R=, A.A., professor; YALITASEWICH, K.A.; YVS'JROP!Tv, X.S.;
GUM[ICH, N.H., professor; KOLYADIM. A. 1. ; KCRY-AX-M.
Xff, A.L.; PAPIUNTS. K.A.; PROKOPIM, T.K., professor; MSMKO,
Y~,X.; RIMOT, M.A.,- RITYRI, N.E., SAVOO-YAKOVA. N.V., professor;
SITCHOKO, A.M.; SMOT. N.I.; STOZHAROT, A.I.; FAYOKAY, C-.?..
professor; FI&ILOT, P.P.; TSAREVSKIY, TaHe, professor: OfmamTATIT,
D.P.; YUDIN, Ya.F.; X&VRAYSKIY, V.V.. professor; VAVILOT, S.I.,
akademik, redaktor'
LOPtice in miliiary science) Optika v voonnom dale; abornik statei.
Pod red. S.I.Vavilova i N.Y.Savostlianovot. Izd. 3-a. sanovo parer*
I dop. Moskva. Vol.2. 1948. 387 P- (HLRA 9:9)
1. Akademiya nauk SSSR. 2. Sostavitelt - sotrudniki Gosudarstvan-
nogo Opticheakogo instituta (for all except Tavilov and ICayrayskiy)
3. Toyanno-morskays akademiya (for Iravrayakly)
(optics)
t'll'Wrtz"a IF WMINN-11ml I MM W-41MOR""M 4~~
Od
Al g98%"
P4
its.
A as
;V
gig .9
40 All , 0 g .
4
kV
I qw;p
Chemistry - Electrical Condue- Nov 51
tivity of alasses
toke 6tric&1 Conductivity of-Glasses of the
~~t*= PBOMB20 "I 1 0 MelIntko , K. S.
Tevotftplytv." 11.1 Ya.'Kuzonetsov-, L-Veaningrad
9 Xhim" Vol M, No .11, Pp J-318-1327
*iivt6tigata&~spe &Ito cond, of PbO-D 0 glasses
Ut
-%PbO canto ,21.4-69 molar ~)-for t148 170-
0' Bat
. Found, forj~aila isfying dopendew-.e
C
46f.:'elec 'eo:iid of g1tLemed ~on temp. Found that
-IO8-&rithxi of elec torld - increases with higher
VW'Icdftti~A in glabset;. -~Diacussed variatians
i96Tj.6
%~/6&Mifjt' Erectrical Conalic- - Nov 51
rIV
tivity of Glasses (Conb-d)
6f, ictlec cand in dependence an PbO content.
~~cd activation energy of glasses; estab-
::Li4he&'tb&t activation energy is high, In-
content.
0
"'14% Vith higher B.Z~ 3
196T16'
i0i
4ihalillt e_qgeg
0 -r,
L
ETtlo- vol. in Nis Q-Na~
kJ
AUVIOrb I Evstroplv, K.S.
Tit] N-4 ~-i Emorv nf the develi-ment of Lhe hyootheses of the crystallite
of g la:5s
Periodical i Stek. i ker. 5, 4-7, Mv 1954
Abst:-act i n--ssents abgtnictg of hypotheses by YA.I. Frenkel-I , A.A.
1~ Vn!AnknV =nH V,A, FInrinjkAvn rn the rvqt-;iII-
C ard
Authara I Kachalov, N. N., Yevstroplev, K. S. Dubrovo, S. K., Upkin, V. M. and
borisov, K. I.
Title --,Ar-0Iq a~ lalhcrator'95
Per
A b a t-fl- t
n- a-,* ~e ~~ea-,,; corr(ducted in --o :1
coua'd 'Le r-,rr3duced in Iara;- rmanf-itipq. b~ c-,qv. 41, i -4 4-
r r
A
BMINKS, O.K.; YWSTR(VIYLV, K G,, doktor khlalcheskikh nauk, professor,
retsensaut; TWOOTIC, ~,'"Ioktor takhn.nauk. professor, retnenzent;
KUMIN, O.T., kandidat khIn. nauk. retsenzent; KUKOIN, G.T.,- daktor
takhnicheskikh nauk, peofessor, rateenzent; ALKM, I.Ta., kandIdat
takhnichaskikh nauk, redaktor; DXHINA, G.A.,, rsd*t4Fj-F,=OVSJMYA.
R.1 tekhnicheskiy radaktor.
[Physical chemistry of silicates] Fizichaskala khWia silikatov. Ixd.
2-os, parer. i dop. Moskva, Gas.izd-vo lit-ry pa strolt. naterWam,
1955. 285 P. (KWA (9:5)
I.Nefedra. obahchey takhnologit allikatoy LeniMradskego ordena Trudo-
vago Krannago Znmeni Takhaologicheskmo Instituts, Ineni Lannevets
(for Yevatroplyaw, Toropov, Razurin).
(silicates)
USSIVChemical Technology. Chemical Products and their Application.
Glass. Ceramics. Building Material.
,Abs jour: werat zh.-n., No 8, 19,57, 2761o
IT-12
Author K.S. Yevstrop'yev.
last
Title Two Canponent Parts in Glass Structure.
Orl g Pab; v-Sb Stroyaniye stekle. M.-L., AN SSSR, 1955, 301-302
-'stal tea
Abstract: The author points out that the modem theory of f j 1i
considers the glass structure as a mixed system., in vhich cry-
stalline, as weU as amorphous elements axe present. The task
of the investieAtors is to find out the ratio of the volumes
of the orderly and the disorderly portions and to give a more
exact characteristic. See also BZhKhim.-I 1957, 1564.
Card 1/1
professorg doictor L-himi dhaskikh vauk;
3MUM-Ofty. ANIMinaman 0v prdessor, daktor tekbmicheakikh
nauk; GURITZGE, 84., redaktor; GUMM, R.I., tekhatchock1jr
redaktor
[The- chemistry of.silicon -and the physical chanistry of silicates]
Xhizila krannita i finichaskala khimils silikator. lzd. 2- ce.
Hookwa, Goo, ind-vo lit-ry po stroit, matertalam, 19369 339 p.
A K
A
By
TZ
SYAAV SKlyi, Iktar Tlmofey6v~ch daktor khigitchaskikh
nauk, professor- raUktor,!; 6yatell
na.uki I takhniki. professor. retxenzant; KHORAMOV, UPI'*, lazhanor.
radAktor,i MOROVA, I.A., Izdatillakiy radattar; ROMIN, V.P.,
telchnicheekly redaktor.
(Gases In glass] Gazy v stokle. Pod.red.K.S. Evetropleva. Kaskwa,
Gos.izd-vo abor.promVshl.' 1957. 141 p. (MLRA 10:4)
(Glasal
~'w 4 a
:3-- . 0 0 0. -
a"
-a
41 -a
Al
yo-u---.32
_M]
Jo's Vmw
A
.6 20"
a.
*13
-on,4
Jj
Am~ 1114., 4; -.2 B. 3: -0 d. -A
1: i *
"Zd
1~ A: Hk.
:a
..a
-a v 947 .1 -_
"..o -%A
cl a W d
..8 titqI ".
i-S.-Ho. U Ra d
U 1
a
*'a ~. 0 CA
A 2.
49'0~1- : , - at ".06
ouji a-
4.3
a Ll 9 " ~o "44
va j, -u
ad., I: g
vivs
a
Al W
.a
Ild
KUKHIN, Tevgoniy TakovIevich; GMIMA, Naomi Girshevna; YEVSVROPIYET,
prof.$ doktor khimnaukp red.; WIN, R.S., kand.takhn,
red.; KCROZOVA, P.B.. Izdat.red.; PUKHLIKOVA, N.A., te)dm.
red.
EGIass crystallization amd methods of preventing it] Kristalli-
zataiia gtokol I natody as preduprezhdaniia. Pod red. K.S.
Zvotropleva. Hoskva, Gostizd-vo abor.prou7shle, 1960. 125 P.
(KM 13:4)
(Glass manufacture-Chamiatry)
MULE I
StckloDLr~moic owt~jw,lyc; tr-14Y Tgtt-yei;o -ed--jru=n0,-O so~cLhcl,anlyz Leningrad.
16-20 noy-bry. 19' 59 (Vitrco,is Sthtt; Tr~m-~4~ of t!X 7,iir.1 All-Unlon Con-
ference on the VitMOaS State, Feld In 19591 MZacordr
174-o AN SGSR, 19,'d). 5,1~ p. Yrmt- ollp c-PL,- printed.
(Series, It,.: Trz:y,
SPoosorina Aeencltg: Inatitut willkAtaf Atzicoll nook S~'=. VreaorAmnoye
khIxAch Gkoye obehchestva I.e.l. D.I. M~:ael -a and Gosud..-I c,-,yy Orden&
IAmIAA,ZtlchcDkIy instItut Izent S.I. V-41-4.
-
tvinkin,
mtorl&l pkmxd: A.l. A'C'atlulk- V-P- lferbo-Cdo~, O.r. bo
-
. Yevstrop4y", A.A. Lcl~cdevm M.A. Kmtwyev, V.S.
V.v.vQzO;u' i'.U. vi..O.' K.S
Holchmo-, R.L. Kyull.r, Te.A. Poray-KoOdx, C--elroaz, N.A. Torop.~, V.A.
vlonnek.Va, A.X. 7A~hvinl' ra. Of PLL~Uzbirzm~e. I.V. Suyo~.; Tech. Fd.-.
T.T. Borbever.
IwJSII=: This book is intenled for reemrcherm 1. tile science U-4 UehnolcW of
glasses.
The book mitains the reports and dlzc,~olws of ihc Thirl All-Unlo.-%
Conference on the Vitreous Statet held in uezio,~r%d on xm=ber 16-19, 19-9.
Tory dal 'dth tl~e u.thwx and rt4alts or st'4!~rzr4' the structar* or eiazzQk' the
relAtIOn tO-Wen Uld MtMCt~ C14 PMPertIC4 Qf jgl~tgr~s' the ~1;um or tb*
chealcal %-%& wil ela.~4 str=t%re, =a the crr#taUmhc=IAtry ar tl-s. ruA*4
~Chan:'= of ~Itrifleattcn, optical yr-erti.x end gles. trjct~oxv. anI
the electriml proT,*r%las of gl"eta arc &jao, d1%cqeScdA. A WjAl- Or the rm-
ports deal vith t!zv CaDe,Icnee of el- prcp.rt-cs On camposItIcn, the tInting Or
91954c4 aod radiation effects, eni aeC~%&oICA%.~ ICeholCIAI, "4 cZe=Icel prolvr-
tlea of glm~iscs. Other Va;)ers tm&t glas- fft=4r=4qctorA an! soda boroollicat&
zlsz-aes. The Conference var atteu&ca by o.- 5M ecj.zAtcO T-= Savla%. and
Zwt Germa:n scieptifle organirntiona. Amortz t:,.e ymrtlclr~tz in the diacuselo"
were N.V. Solcmin, Ye. Y. Ku"Un3kly. Tu.A. G~tev, V.P. Pryaclshzixov. Tu. Ta.
00*.Ilbv O.P. Mchtillov-Petromynn, G.P. Mlkha7l~z. S.M. Petrov, A.N. Immmv, 0.1.
Url~. A.V. Shatilov, ff.?. Plmstchluskly, A.T&- Jt=mctaor, N.V. Urtyareva, G.V.
17=Zezovsla~ra, AA. Kalerav, X.R. Sko-nj&kx~, !P.1a. Zok.-u. t.K. teller, Te.k.
Xu=netsov, V.P. r=lnew, II.S. ShavolevIch, I!Nmxcr, " O.S. Kalchazove,
ft,m final session of the Conference uw adlrm.s~d Ly Prof.oa= 7.1. EltaysprodAkly.
ff0dwel ScIentint end Englater, Doctor Or To-z--cal Set-Ac.3. Too roll~rlna
Imatituten vere citel for their ccntrlb~tlcz ~o "e develzIccat of glaze stivoce
"d tethuoloy- 0".e-,r&%,tnnyy optichca"ar L.L-I%~t (State W-itel Inatitae),
ImUtut Well IIIIAntcr AN S=tt (Imstit4te Or Silicate Che=intry, AS =,11).
Flilche.kly Ins-Itut JVC &TM (Phyaico rnstjt~-~ A:~ tXSR),
lostitut A5 =SR (Fb"!cotev=Icaj Institute Ar lwtlt%xt rlzlkl mm =It
KL"k (Xeztlt,~t. of ftystes, AcdeV or Sc!euec.a, Belcraa.kya =R, tilzuk).
tal~omtory or ?-,yt'tctl Chemistry Or Silic~tc-- of ve Inctit.t I utorgaml-
Cbtakoy kbiall A.,; Br-IR, Hlwk (lutt%.te of C___ c.1 so,i Ine.-Jmmic Chczls try.
Acedc" Of Sciences Z4Icr"3kA;m -SSH, Ifin6k), In--titut
xaya,unenLy A.% Of filgh 1401ec-414-r Campo"nds, AS Mall), C04udAratyan.
W" 1"tItut stek.14 (State IrAtlt4t& for Gjaz*3. Gos%~!%rzty~,Yy lozzicut stok-
20~ul"' (State %astitute Zor GLmA Flbtra), tltktrat&%h-
n1chestoZo stvkIA (State Institi4te for Xlectrtc&2 GiAaa). Sibimt-ly fizlkc..
It-0m1rheet"' lnot!=, T--!~ (-111,allaa I-t4tut.-,
se.7 gwu!iustTm~7 wlwrsl"t (lemingra.1 Ste- zza-,erslty), Xo&k--"kIy khjstko~
I-stlt'At (Voscm ImatItte or Cteo~lcal T-hz-Ioa),I4nlt,j;rakIy
%*X~=10ALthe9klY In't1tut In. lenscmeta Technolailcal lmatltat in~nt
ZcotOvet), DvI=uAskIY Politekbntcititkly lnatit-~ I"nz): (2cloraazima ftl~'tvcanlc
2"tItutc, )!3nsk), ffCvCv4etkA%ski7 poll tekh!--i- - kly Institut
ftI.ytCv.hnIc 1-titute), an4 twerdlovokl:r pCjt--k=jz!%c4kIy Instit"t (Sv-rdlovok.
Tt-- =~ V~~ tt~ or
Che,mlutrj~ &% Ui;= (JkcttnL Director - A.S. the V&rficr'ZmCTt khImIcheekrea
bbzhzr-t~o I.. D.J. Mcalelrye~. (All-Unico Cteltul 5-l.ty I-at D.T. '
Kenleleyev), and tht G~odarst~cnnyy ordeom t~~!.- apticheakly Inrtitlat t.ant
I I. (st.". 'O~ur or Unia" C.t1-1 --.1-W... IZe--L S.T.
;;; 15 re..Iutl~., of Lr. Coecrtnee in~lu-lt ccc~enUtlms to orz~~ita a
cezter for the purpoae of coc~rdlnatln& the m~c%~.-!-. - glass, to -1411.h . n"
WrIodicAl uzc!tr tt~e title ~Pizlku I khImlyn $~rk-luv (PhyzIcz A=:! ChvodAtry of
"i to join tr... I.teroetiowa C-ttt- co Glaos. T'no C~.t-c. ti,anks
A.A. tcbOdt7, A-1-1-ciun, Proft-or, and C:W-- or the Oraw-1-MIm or Cm-
witte; Y...k. Pcry-K-hits, DoctOr of Pny.1c, -1 Y.Wtz.ttes, XMbe- or tt-,,o
OrawtIzAtAmml Cou~ItLee; and R.L. Itruller, Of Ch=-ic&1 Sclenctc, I'll"Lor
of the Ortrwiltationn], Co-Ittee. The editarial ~,=ml thsoks G~-!. B&rtcrov.
X.T. Vol-k-vht,yn, L.T. Dcnklu-, D.P. Dobychl~, S.K. Ducr-o, V.Jk. lo!fo, wha
2I.T. LOI-Iyrt~. Hofprtneem accompnn~r ln&tvvl,w~- reyortz.
Vitr.oao Sw. (Clxnt.)
itelatim U.t.- t~.e st"ctqm aid rZol,ertle., or cl~ez
Y.Y.trol?-y.y, K.S. Gemmi rrohirmo of 6-ruct~re isd Pm~,lrtleo or Gl-&cs 39
L.I. Additivity of Silich Gla.'s Pro.~rtled in Co-.~Ctsm VIth
Tneir
and t ie rrablcm'of Ol"w Str~cz~ve
NAt,=e of U.C Chemical Dcmd "a stm.t~ of G1-3~5
ftyuller, R.L, jlv~tor or ctlatcAi scieni-1. cnexttai rro7ert%es rotytr%t
Gina*-FcmInZ Sultstances and tLe tzature of VItrifIc.tim,
-Qlarlt-es
-a B.T. rolmlyen. rroblem or vitriticat:m Bel,
In Chal.oat.jd. CIAl.es ?I
Tamov. V.V. G2". a Folyzer
Card
Vltm~ *tate (coat.)
'Cry.t.licbe.16try of GUza,
bolov, N.V. D~aa,, 'et-t-1rc In tile ug=. ar the CrfstM,
91
Dive-alon 93
rumm SILICX. ~=?W'Msbq OF VITRIFICAnou
ruatdsiuca
On the FrzZloa of Cr a,&ti,a p~r= r%zoi
sil.ita jut4l phea* yo~
vitrificatt
on rroctr's &ad 01"3 stvwt~ Im
On the Problem or Fornim.3 t.* Class ~~tr--tum Dtw1aj
Proccis. U-3
upmxMh D.A. Te~tll, an4 V.I. M~Jkhl.. Anjsotr~,7 of !!je-trjvnj
C-end=Uity of rtu~id 5111- ana V=ates In Flov 125
7122-
vlt~oaa state (Coat.) 2m/5035
jernoletka, r.H. On the PrcblrA or ais-r Forainz 10
Cheelluln" V.A., and D.A. Y.91n. Electrolyli$ or Liqlle.' A-1-incollict.6 129
md O.A. Texin. TIi-o!Xn~1c Tmrrties of
of Can-F.D-Sioz -I zyzt- 150
Dive"ZIM 13X
Xecl,.nlen of VitrIfte.tion
vollkrmshx~7n' N.V. On the S-.r"-tqTAl As'd KI-tle Ch.racter1l,tiv. of ty,*
VItr.ows State 15~
An.frl"~m. Ye.V., ~,4 A.V. 0. th. L-1a-v-1 Method or
11tvLVinj; t--e Vitrincat!m of ralr"tra
21olotisla, I.A. Optical Actl~-ty lall VitrIficatIon
Card 8/Z2
.... . .......
Arlnan"Y~, P.M. ~f tLe Fltz%tlc Field 1. fttter" of
61,ecial fjn~;~ Incl~,11n4 31,
~n,L.mtftr Etrc..tv
257
bqva3eu~# ar vi!.~t rie". cc.4!.Ctlv3tjY of SOU4 clmzz"m
On ccrpO7!tlm 260
Kh~').zcv. V.A., O.V. -d rl~trlcll coaactIvIt)F ar"
OWCts cc the ry.t- 2%
1-thiqun, K.A. Study of the Neut-rzXmic~. Effect of glactri"I Cc6.4=ts-v~7
In FuseA Bzrw Gl~szes
i-Ar of Uff-l- of Sw,. Alkli I*= 1. Silita,
01"Bes Wit-h Ue A14 or Rzlcoxtl~. 180=7~3 2V.
~
I
Mova' Ye!A. DlfMalca e Ccp;*r Ter$ In Mace Pej~ndirZ on Canovitica Z7-%
loffe,~ V.A., G.T. Xhv~%leatl. And Z.B. T&nchc%,ek4:r. Zlect-rIcAl rrarcrtlc3
or Aluml M~. I It mtis
2T8
CArd 32/22
vitmoun
Vartbtj~hik, N.M., "-A V-I- U*14V$~zlY- '~Qw fcmalk&ll ZIrc&%lum-CcataImI=g
si-Iii. Olzz-ez a cml"*n 232
Odelevokly. V.I., end A.r. K%m~lkv. On thl. Tr"a-- or Expladn'na the
RA%ur* ef Lo,.cs 1. 236
F., ~l K.H. sh .1 t-. M14-k-e cl~. Pmpfftles
petrov~kiy, G.T. jj"trc,%e Pro,ptrtiea of Sc4A BAXIm SWOLte Cle4l" 3w
DIscuzt1m
nvr.;cxHm!7.%L nlzmnm or GLAS=
or Prc~-rtiev C-s co=.0sitica
Ya'stm-'-3e Irs On Sc- cr the I-I-ied in the Sectlon L'I'llng
&I Prolrius of Gl"s-3 X71
Yltreous St.'~ (Ccnt-)
sh--Idt, Yu. A. C~ the L-.J:en!~C, Cf Cf' AlWt 5411tAta 074f5e~
ql.dko~' A.V., t'4 Ftuly of the ToU=crlc SU%mtu~ of
l.Qr6e,njc Gl*,st~
meaveday, N.V. perw~:t4.11 qt.! JLIyc-rlcji cl Lldht l'y Sme C174t.10
ir4 '518
Ts"Und, A.K. Llw c! V.'. V-.tltye. OrUml CO=I.-e
of al-ap..
8IAVYaa%kiy, 7.7. C.3.0.tl- ct th~ A~tl-tlm Y-rsy of vi.c= rwr
c: AAkedi Eal~.-,t G:~:se4 i.r CAW4 ChcatcAl Cc..?"Ltlc-
Und, N.re., s=1 irr,,t or Ur'V-'~ A411tl"A CM P~, rtleX
at pu~.l O.sa- Q~'rtz
01-ed
3 09 23343 8/0 58/6 1/0,')0/X6/0 29/063
IS" t/ A00 1/A 10 1
AVr14OR: Yevl~
TITTEt General problems of the structure and properties of gl,ass
PERIODICAL: Referativny3r zhurnal. Fizlka, no. 6, ig6i, 223, abstre,ct 6D65 (V eb.
"Stekloobr421n. sostoyaniye", Moscow-Leningrad, AN SSSR, ig6o, 39.
48, Discus. 98 - 112)
TMs The oxisterica of miaroheterogeneities In glass (structurally ordered
formations) is confirmed bir changes in physico-chemical propertiee of glasses, de-
.p.endent on the structure, when the temperature varies. All studied properties of
glass-forming systems are divided, In a first approximation, into simpla proper-
ties, such as densii~y, dielectric constant, thermal expansion coefficient, refrac-
tion index, etc., Arid ccmplex properties, such as viscosity, diffusion, electric
conductivity. dielettric lol3sc-a. In simple properties, there is an additive cor-
relation between these proporties and glass composition, whereas there are many
particular deviations from J ~heae correlations in complex properties, which dia-
guise the general, nature of relations, The complex properties are more sensitive
to changes of composition. The depandences of complex properties (viscosity, elec-
Card 1/2
Genera! problems 23343s/o58/$ I/C-00/OC-6/029/063
A001/AIOI
tric conductivity) on and temzerature -,f glasses of the foll,Dwing syz-
tems,- it Na 2si205-Pbsio-~ NA20-R:~O 30 PbO-B20A, PbO-GeO 21 RI O-RII O-SiO 2 (where R'
and R correspond to 2 2
-YA,and Ka, JIA and K,Na. and K, in pairs) and severall solid
and moll-en salts, were, considered using experimental data of various authors. Ca-
PIkelties to glass-fo:rma-tion of various elements of the periodic system are pre-
sented, and the conclusion wa.s..drawn that this capacity varies according to a
periodic law, There ar,& 15 references.
A. YakhkInd
[Abstracter's note.- Complete translation]
Ca.rd 2/2
KITAYGORODSKlYp I.Lp dokto,r tekhn. naukp prof.1 KACHALOV, N.N.$ prof.;
VARGINO V.V,.., doktor tekbn. nauk,, prof.;. K.S.v
doktor tokht. navk,, prof*; GIIIZBTIZ 0 D.B. t doktor tokbn.-n A.,
prof.; ASMOVA, M.S., doktor tok4p,. nauks- prof.; GWIIIKELI,. I.Ye.$
-inzhe; Z&Kp A-.P.---kAmd. tbkbzi. nauk- KOTLYAR, A.Ye., inzh.; PAVLUS&
KlUp N.M., doktor tekhn. nauk,, prof.j SOTYURIU, G.G., kand, tekbn,
nauk;
., SILIVE."ITROVICH, S.L., kand, tel:hno.nauk, dots.; SOLINOV, F.G.9
kand. tekhn. nauk; 9XVIRI, II.V, , 4oktor tekhn, nauk.. prof, T29321.,
B,S, p- kando AeWm, nAiuk;-GLADYSHEVA, S.A.,, red. izd-va; TEKKZA, Ye.L,,,
tekhn. red*
(Glass technology] Tekhnologiia stekla, Izd*3,, perer, Moskva, Gos,
izd-vo lit-ry.po stroit.,, arkhit* i stroit. materialam., 1961, 622 p,
(MIRA 14: 1.0)
.1. Chlen-korrespondont AN SSSR (for Nachalov).
(Glass manufacture)
I
5/061/62/000/004/053/CBTI
B150/B138
UTHORS'.
A Yevstropeyev, x. Sot Mazurint 0* Vot..Khartyuzov, V. A.
:10
TITLE. Electrical conductivity-of oxygen and oxygon-free glasses
with U-type conductivity
PERIODICAL: Referativnyy zhurnal.. Xhimiyal no.- 4, 19621'386, abstract
U280 (Tr. Leningr. takhnol. in-ta, im. Lensoveta, no.
52t b
iq6ij 16-25)
___ TEXT A short a-urve,- As-regards their el-e-a-trical proper-ties',
~ semiconductor glasees,occupy a position adjacent to those with ion
. conduotivity. In the transitional range the:properties of these g
d of glasses ove rlap: aemiconduotor glasses exist2with a high Volumo
-
reoistivity,an .
d ion-condu6ting ones with,high speoifi6 oonduativity.
13 referenceed [Abotracterts note:,,-,' Complete, translation.
Card I/
IVAIIOV.. A*O.,, YEV3TROFIIEV, K.S
Strac-tdke of simple germanate gLws. DALAU SSSR 145 no.0-797-800
Ag 162a OM 15;7)
1. Predstavleno akade-'kam A.A.Lebadevym.
Wass) (Ge=,~~tea
ORG: ID_61~itqte of Silicate Cbemigtr-f im. 1. V. rrebenshchikoy,_Academf of Sciencez,,
-6- -a
.:n. _e7su-iet ~,eni.,gradskiy institut
TITLE: The eftect. of gaseous medium over molten fluoroberyllium glass on the Ultra-
violet light transmission of th
N SSSR. izvesti-ya. N,~~ rzrt!-. e: nP t e r i ay , v. n c .
TOFIC "AGS: glass, optical glasc fluorc,b~~7.llium glass, glass synth(!L;is. glascs
the earlier 5tudie,, at 'erJngrad Technological Institute, a t c. rry
emD a
me-'* E
Card 1 2
UDC: 539-213:546.45,161
L 6486-6 6
~cc NRI AP50a~T"(i
'-,ith m-c-Iter ~,we the t4 '.-BeF,
r P-:-. m-, s S Ie S
m M "~ V.,-
DRONOVA, G.H., inzh.; YUS.TFWP'_YE.VI K.S., doktor khimich. nauk
Electric propertieo of 5VA114--type glaon plastic. Elektrotekhniks
36 n0.5:37-39 My 16!5. (INIfUt 18 3 5,
L 0622E~&7 FWT(1)/5WP(e)/MJT(mj
A
CC SOURCE CODEg
Wit AP60294J5 UR/0426/661019/005/03?-5/032-9
AUTHORt . 1,11argaryans A. A.; Amon~WAY0.
CORGI Glass Technology Dapartmontj. LTI iia. IansMt. (WQdra tekhnologU stekla-M)
TITIZI -Infrared spectra f fluoWryllata glaBses, containing am-11 am(mats of ceriun-
group 'rare earth fluorides
SOMES Armlanskiy khimichaskiy zhurnalp v, 19t no, 59-19669 325-329
TOPIC.TAGS: fludberyllate glass, rare earth compound, fluoridep IR speotrump light
transaission
'ABSMACT:, -IRlight, transmission ourves-of fluober7llate glaoses-of alkaline and. alka-
ii-frea comnosition were Istudied in-the 2000-4000 aft-I range. In both cases, the
presan2a of rare earth ions in the amount of 0.92 mole % appreciably gXfocted the in-
-tensit'l of the -absorption band at 3508-33535 cm-'- No selective Influence of various
rare earth fluorides (FrF311 NdF3P 1aF3) on the light absorption in this range was ob-
Served:whon the fluoridesware present in amounts from 0.05 to i mole %- FbF2 and
Bic- added in-amounts'of 0.05 and 0.1 mole % decreas -ad the light transmission to 66-
72wat 3508:--3535 Od-l'- It had been shown earlier that the presence of.0.02 nola ~.of
rare earth 1-luorides causes an increase In the effective ultraviolet tranapvenoy;
this wits also found to be true of thetransparancy in the infrared Orig. art. has$
Car MCI 535s34+546e1jj�5�6*45