SCIENTIFIC ABSTRACT ASLANOVA, I.F. - ASLANYAN, A.T.
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ASLANOVAJ, I.F.
Role of t'.,'ie corpus callosun, Jn the foriiatiora
c-f cornplex defense
reflexes. ?,hur. vys. nerv. deiat. 15 no.2:357-363
Mx-Ap 165.
(MMA 18:5)
1. Ir8titut vyish-ay norvnoy deyatellnosti i
neyrofiziologii AN
SSSR, Moskva.
ASLANOVA, K.$ aupirant
Prophy2axis of eye injuries at the Andizhan
mKommunar"
Plant. Mod. zhur. Uzb. no.7:27-29 JI 163.
(MIRA 17:2)
1. Iz Wedry i;lazrqkh bolezney (zav. - dotsent M*K*
Kamilov) Tashkantskogo instituta
usoverstumotmovaniya vrachey,~
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TN690-AS
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Fiber, lbread. and Fabrics from Glaw M ASLAM)VA- U of
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USSR /themical Technology. Chemical Products 1-12
and Their Application
Silicates. Glass. Ceramics. Binders.
Abs Jour: Referat Zhur - Khtmiya, No 9, 1957, 31511
Author : Aslanova M.
Title : Fourth International Congress on Glass
Orig Pub: Legkaya prom-at', 1956, No 11, 51-52
Abstract: No abstract.
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ASUINOVAY Margarita Se,nenovna.
All-Union Sci Res Inst of Class Fibre. Ac5demic derrer
of Doctor
of Chemical Sciences, based on her defense, 30 1954, In
the Council of the Inst of Physical Chemistry, the Acad
Sci US&~,
of her dissertation entitled: "Physico-Chenical Fases
of the
Mechanical, Electrical and Adhesive Propertics of Glass
Fibres."
Academic devree and/or tItle: Doctor of 3c-Lcnce--,
SO: Dcz!isians of VAH, List no. 10, 30 Apr f,5,
Dyulleten' '.1170 SSSIR,
No. 25, Aur 56, Mloscow, Pp. 5-24, Uncl, JFWNY-537
ASUNOVA, M.S., laureat Stalinskov premii, kandidat
-.,ekhnicheskikh nauk.
el
Achievements of Soviet scientists. leg.prom. '
no-11:27-V~ N 147.
(MiRA. 6::11)
(Research, Industrial)
ASLL.i',O-,A, 11-7. S.
Chernyvrk, ~;. G. vnd AsIf-iolic,' V. S. - IIIYf,
-n-ricnco ~-,nlnf~d ir. obt, !rAr.,,- F.~,In(-d
fibc-r and colored f'rbric "rom ~,l--sss, 11 In ti-*F- T'i
2 . - t f. k-',-n. svo, stuv:~ i
nrimenerli..-e stelclovolok-LIst-'kh Yoscow-D,--rin~r~d.,
1919, -c- 117-23
.r -
SO: IL' Augliat 5.3, (Iptopls 'Zimmal 'nykh Stntey, Nc.
15, 1919)
ASIANDVA, I-,. S.
Asltmovp, 14. S. and Edellshteyri, S. 7. -
'tPhysico-ew,-lnrerir.,;,, properti-:3 of ~,-lasc
f ibers, 11 In the symposluril Fiv,tekhli. ovoystvo I
prlmeiienirf, str-l-lovolokniftykil
niaterir-lov, 1-:o.,-.cow-Lenbigrvd, 19119, P. 71-101
SO: U-4~55, ll~ August ~3, (Letopir. 'Zhurnal Inykh
St,-.tey, No. 15, 19i-9)
ASIA170VA, 1-*.. S.
Aslt,nova, M. S. - "Elec-,rice.1 properties of the glass
fibers of certL.I-n gisss com-
r
positions," In th-e Sym!)-)sium: Fiz.-tekhn. svoystva i
prlm.~ne::'..ye steklovol,)k:~ist,,k-ri
materialov, l4o!~cow-Leninprad, lghg, -p. 61-71
0
SO: 'U-L'355, 14 August 53, (D~topis lZhurnal lnykh Stqtey,
No. 15, 1919)
Author Aslanovaip No so
TWA I Bf feet cif an adsorptively cietive medium on the
durability *f glaile
filaments.
Peri(Alcal Dokl M1 SSSR, 95, 6, 1215 - 1218, 21 Apr 1954.,
Abstract I DurabilitY of glass filaments is greatly deci,-eased
by the physico.-
chemical process of adsorption. The article gives a description
of
a durability test of various chemical compowd-&Ia6s filamonte in
-
various widia rair of different humidity* non-polar
kerostine),waterr
and aqueDIIS solutions of surface-active substances (Potassiwn
olcatD,
areosol DT) '1 . There are a table and diagrams in the article.
4
Institution s All Union Research Scientific InstItute of glass
filaments,, Institute
4
of Phys. Chem. of the Acad. of Scs, of the MISR.
Sutmitted ; 18 Fab 1954
USSR/Phvaical Chemistry
Card 1/1
Authors
I Aslaal)va,, 16. S., and Rebinder, P. A. Acz-44imician
Title
I
Adsor.ption effects of elastic fatigue and creep :in glass fibers
Periodical
S Dokl.'AN &M, 96~ Ed. 2~ 299 - 302, May 1,954
Abstract
I
1nves-bigations show that chemical reactions are not obligatory in
proceoses leading to deformation and mechanical disruption of glass
fibeno. The greatest adsorption effects c-f elastic fatiiNe ajid creep
were noticed during the addition to the water of a",t.~)holis and velon
(viny."-Lidine chloride) which are chemically inert wi,:;h regard tIo
glass.
The adsorptio.n effect increases as the stress during deformation
approadlaes the limit of technical strength of glass fibers. At
unifox-m
stress the adsorption effect of elastic fatigue is greator in
the c;ise
of thicker fibers* Fifteen references; 5 USSR since IqLa;
1 GerniRn
since 1863- Graphs.
Institution
s Acad. of Sc. USSR, Institute of Phys.
Chem. and All-Union Scievitific-
Reseavch Institute of Mass Fiber.
Subuittled
9 Febriiary 19) 1954
ASLAWTA, M.$., doktor khimicheakikh nauk (Moskva)
4~w
I Glass fiber. Priroda 45 no.4:85-89 Ap 156. WaA 9:7)
l.VSOSOya2ny7 nauchno-issladovatel'skiy institut
staklovolokna.
(Glan fibers)
-ASLMOVA, H.S., doktor khim. nank.
Glass Moore and materials r3ade from them. Mim. nauka 1,
prom. 3
no.l'.72-'?6 158. (Glass fibers) (MIRA 1101
AUThOR: Yaroshevich, V.M., Bngineer 110-S%-6-22/22
TITLE: A Conf-Drence on Ne-,v Electrical Insjila-~,inL;
1,11aterials and
Technolo3ical Processes (Konferentsiya po osvoyeniyu
novykh elektroizolyatsionnykh materialov i tekhnolo,L1j.cheskikh
protsessov)
PERIODICAL: Vestiaik Elektropromyshlennosti, 1958, Nr G,
p 80 ~ USSR).
ABSTRACT: A conference on riew insulatin,-, ir,;~tei~ials and
tech.rolo-
E;ical processes was beld..in..LPr~inf-,rad, in December-, 195V.
Called by the ooshtnestvo energeticheskoy
promyshleiincisti, it was attcnded by rc--preoentatives of
alzost
all the electrical manufacturinc works of the USSR and of'
L:
research institutes and other or6canisat_f.ons, altoGether 2r/O
persons.
The first report was by Doctor of Chemical Sciences M.S.
Aslanova end. Enfineer B.S. L'vov of the VITIl Steklo_7616k.-na
(_S_C_i__en_T7aic Research Institute for Glass Fibre), who
disccussed
the manufacture and General position of iflass-fibre insulation.
The conference considered that .1-,roduction of this material is
inadequate.
The introduction of silicone insulation vjas discus--ed in
detail
Cardl/4 and Candidates of Technical Sciences V,I. Kalitvyanskiy
and
110. -6-22Y22
A Conference on Nev: Blecti-ical InsulatinE Lai;erials a.Dd
Technclol-ical
Processes
K.I. Zabirina reported on "Silicone, 'Llo-Iterials for the
Ins-a-
lation of Electrical Mac:bines". En~,, incer Ye.P.
Bot:,dano-va
spoke on "Experience in L.astcrinL:, the Use of Silicone
La~;u--
lation in the Elol,ctrosila ~Vorksll an~ B.rrineer TomL)(,,,,r
made a si-,,iilar re-oort for the Dinano The -,-rescnt otate
of silicone insulation is then xeviev.,ed.
Uand-idate of Teclinical Sciences A.V. Khval'kovskiy reported
on nRiE,,h--jolta~~e Ir-sulu.Lion, of Electrical i-e-chilies
v:ith
Llica li-i~~ulation Usin, Thermosettin~~ Epoxy- s ilic wie
Biaders",
LD
The Elektrosila Vlor'rl-s ~ac-- developed anothcr type of
Mica-tape
high-voltaGe insulation which was the subject of a report by
Enginee-u3V.N. Korolev and F.A. Kolenko. Accounts of the 1;.se
of epoxy i' esins at the Blektrosila and Uralelektroapparat
Works
were read. Four reports on the impregnntion of electrical..
machines were made by Z.1. Yd-Iolopova (KhEMZ), Engineer R.S.
Kholodovskiy ~GIEKI), EnLineer I.G. Limov and Candidate of
Technical Sciences V.V. Skipetrov (VEI) and by EnGineer
Z.L. Zusmanovskaya. S.V. Tsukernik (KIMMIZ) reported on "The
Insulation. of Low-voltaU--.e Class F Llachines" for which
glyrtal-
oil-melamine var-nish Is most heat-resistant. Candidate of
Card?/4
110-58-6-22/22
A Conference on New Electrical Insulating Materials and
Technological Processes
Technical Sciences L.T. Ponomareva (Works Iffieni
Kalinin)
reported on `Eksparion Insulating Material",. which is a
transparent polymer obtained by heating synthetic rubber
under appropriate conditions. A.A. Davydova (Armelektro
Works) spoke on "The Use of Polyethylene Terephthalate
Film for Slot insulatien of Electrical Machines". Three
reports on micanite were given by Professor N.V.
Aleksandrov
and Engineer L.A. Epshteyn, by L.M. Bernshteyn and
Engineer
A.S. Ovoharova. The ec;onomios of electrical insulation
was
reviewed by F.Ya. Kaz(3vBkiy of the Elektrosila Works.
A t'&chnioal seltlor, on the soldering of machine
windings
and on mecharization -~f w'-'nding and insulation work,
met
C0211CUrreiat-ly w~.th the canference plenivi.
Experience with
hard-s,oldering was discu3sed. MechaniTation of winding
and insulation work was reviewed by V.V. ~olomchinskiy
of
the 191NII Tekhnologli elaktricheskikh mashin, Khar1kov
(All-Union Scientifio Research Institute of the
Technology
of Electrical Machines.., Kharikov).
Ca--rd 3/4
,~io-56-6-22/22
A Conference on New Elec~rloal insulat'Ing MateriaAs and
Technologi,.-al Prccesees
The c;onferenue decided to set up an insulation section
of
the So~-Aety, whereby th-m, (~-"--vrdinatlon of woik on
insulating
shoi.~-.'Id be-, i-rD::-cved.
ASSOC14TYON~, Filial NII za-voda, `Elelctrosila"
(Brancl, of the
SCientiftc- Re;-ear,:h Tjjsh-ltute., of the Elektrosila
Works.)
SUBMITTED-, February 21., 1958
card 4/4
1~ 1-m-a-lators (Fiect-ric).-Materials
U33COLIA-DC-55917
15 (2)
AUTHORS:
Vargin, V. V., Aelanova, M. S.
SOV/72-59-12-16/19
TITLE*.
The Fifth International Congress on
Glass
PERIODICAL:
Steklo i keramika, 1959, NT 12, pp 42-43
(USSR)
ABSTRACTt
This Congress was held in Summer of 1959 in
Munich. 600 delegates
of 30 countries including USSR
participated in it and dealt with.
the following problems in
their reports: Control of quality of
glass; investigation of
melt- and finishing processes;
mechanical properties and
behavior of glass; corrosion of
refractonies and glass flows in
glass melting furnaces; the
physics and chemistry of glass;
structure of glass;
diathermancy of glass. Further reports of a
Dutch delegate as
well as of Americans are briefly mentioned.
Professor A. A.
Appen (USSR) reported on "Alumino-boron snomaly
of some
propertioa of silioate glasoes". W. A. Bozborodov
(USSR) deall;
with "the method of recognizing in-
clusions in
glass". 17 reports on hiatory, technology, design
and use of
glass were delivered at the Congress. Soviet
delegates
participated in,,ql~gcus i9 ions with delegates of the
Card.
1/2
USA, the German Federal Republic and Franco concerning the
The Fifth International Congress on Glass
k!,
resistance of glass and glass fiber and
glasses and enamels.
'S)OV/72-59-12-1 6/19
I/
tho properties of I,/
Card 2/2
.... j--yr
r~_t7j-ly.' tnjly Tret-y,.-,o
1',210 wbry. 1~~59 (v1t,- f t:,
All.Unlc,.~ C~-
fere.i- o-, tho V.- tr~c,- rtAte, In
L-In~r-' 1959) 11=~"'
ltd-vo AN SOCS, 19~0. 5y; p. Errata
allp in-%el. c~p-~ prlnt~d-
It.: Trudy)
S;,o ... r1es 1-tit-t kti.11 8133katve
fin-Ak 2=R. Vaeopyutnoye
L4j.jchc.kc7e J,-j D.J. M-.4el~y- nal
Z,e.ln. optl~h.zkly 1n.t1t.t 1=_1 B.I.
V-11-.
Lditoriml T-di A.I. Avt;wt1n!k, V.P.
Bo-sko-akly, V.A. te-bodov, O.K.
Batvlakin,
V.V.V,r,;i., A.G. Vl-, K.S. T-trcp'y-,
A.A. M.A. F..tzy-, V.S.
Molchmw, R.L. Myaller, Yr.#..
Forny-Kochit3, Cr.~I--, N.A. Toro;,ov,
V.A.
?1orinnhaya, A.Y. YakhHn; E!. Or
Publlsh-nr I.V. Su~=-; Tech. Ed.:
V.T. B-h-er.
1%P.P-XZ: This bock In Inteadol for
re"a,rchers in the science C=d
technoloza of
CaaTJ4,-- Vie book c=tr-lus the reports
~d of ac Z%.Ird All-Unic.
Comfore'." - the vi--~' Z~t~' held in
om rtm_~'.r If-19, Ig'?.
They e., i1 vith t-.e -thode -d ren.1t.
of the tric-1- or 91-1r-, the
rel.ti_ blt-a the t_ct~ -4 pmpert-es of
gl-ez, -!,~ Mturt or the
ch=lcal bcnd md F.Inno t-ture, end the
cryz~Ll-heml.tr/ Of 91642. F"ed
ollice, mech=iR= of vit.-Irleation,
aptiml- r-_-p-rtle5 "a fl-s st"ctum, and
the electrical Propertle. c! gl-es o-
also el-=Zed. A of the re.-
P.rts de.1 ~IVI the dc;,cr.1-- of gles.
vrs~m-.. the tinting of
glossed ~,l ml!~tlvn effect., anl
ch~jml prcy~r-
tile Of ell,-. Other 74;erm t-.'- gl...
and -'. b.rOZ111C.A.,
T" Cmf~r-- -- ett-4-3 ty .*- ---%- 300
d~lrwl~g f- Soviet -1
Ewl. Germn scientific OrZOnIzatl~. A==A
&be V_rtlc1p=ts in the d1sc--1-m
-M N.V. Sol-I., I.. V. K~zblo.kdy,
Yo.A. G-t-, V.P. Pryan1.hm1ka,, I.. In.
Got1lb, O.P. Hch~dlov-P,troay.., G.F.
mlkhsjlc~, S.M. Fetro~, A.N. L-~, D.t.
1-1n, A.V. Sh.til-, X.T.
Ploshchl..k.1y, A.Ye. E=etdol, E.T.
Degtyamva, G.V.
By~j; ... *.sky., A.A. F~le.ow, X.M.
Skzrny-k-, ?.!.. B.kl., Z.r. Kell-,
Y-.A..
Kuznctso~, V.P. Fmd-,, R.S. Z.5. Pl-k-,
-4 O.S. Mol.h-o-.
-he fl..l -9.1on of tht &'_*e__.:c'.
'Or Proft-or I.I. Kltnya.rod~vly,
Emored Sclentlet end ErLSI-r, Doctor of
Teclizi-cal Science.. Tbe follm".
imtit.tel .- f- VI;1 t. Lo d1-Io7._t
of' glex.
vptit~-~Iy lostit4t (st%te op-1-1
1~.stlt~t.))
In. tit"t kj11=tl 61111Wo, kU SS-'F.
(Inntjt~tz of 'jjjta~ Cr-'ttry, A5 =-R),
ri.ich-my '.,t AN SS5,14 'F'181cs
Institut~ ;S U=~) F11'k-ttk.1jn1c1:-Xiy
1"titut A11; V='P. (rhy&!~tehaIrml
lostitut- AZ U=R), 1-tit-at fittki All;
R~,H
K16-k cr A-Ie-y of 5c-r.c-. Ptl.-Oy-
SZR. Min,k),
Z~Owrazcry of Y'2.rsl-~7 C-'_.-'t'y or
Stlic.tel Qf t- zmrtitat ot-clhry 1
neo'6n,11-
ch-koy LIA.1i K~ B5:;!i, Mj~ak of _A
1_,,, ,c Cl._I.ty,
Ac.d-y of Scier.cle. =-R, W-k). -~zt-wt
"sok-Iekjjy.=yk,
AN 51~_'."'I-tl"t' c. rle~, C-;-Ix, Ar
!-Z?.),
myy InaLitut rtokl. (st4t- J-tjt'o~ r-
1-titul. otrk-
lo-lov'm (Stet. 1.~tjtut~ for Cl-
Fibm), institut elektrotekh.
ulch-kOec- btck's (!~W~ 1-ttute for
rl;mtrlc&: ljnr.), Sibirzkly fitiko-
trch.10,-Hy T-k (rtberisn
A"'k_.k1y
Trchnol~,!snl lnr-IL~t 1eql
Bell,-lkly ple.h F.1ytec!,njc
Z=Lltute, Mi-kJ1, lantit,ft
(5-ocherkAaak
Polytechnic lnzt~ojt~). "It
fiverdlo,vkiy Int1tut (5-rd1-.k
polytrchnic I-Ut~--). Th~ C-fere-r -a
.;-1 by tie I-tttute Of Sllirntr
C~-Ir.try &S VS:1. (A~tlna Vlrvct~. -
A4. Vtv.~r~-ye knimich-koye
ob,hell-t- i~. D.I. (All-Ur.'- 5~,.Irt7
L-11 D.1-
Yr .,Jr1'Yr, )~ eni t.- Gc'-1sr"-_yy
'a-. to,!- -p-1ch"my .rtlt,t t'.-1
S.,. V_11~ -C'rd~' .1, I'll" S.I.
V-11-).
T,r 1, cf the lonf,re-, "~V~Il -.4~ti-'
t, or'l-1- .
C' '~'_ 'c' ,h, 1-;-e cf' coorl:mt-nr
t!:r on FInR4, tc, ;,bliah a e-
"F1
;'eri -12.a I knl~ly. .%,his" (Fl,y.1c,
6,11 Cr,-1-t1l I,'
tc _... - C~Ittrz = -_
A.A. 1,bcd-, A-1-111-, On-I Ch..~-n of
V,r of V"-
f
Or Fk,y'j- ,r .
arr-ir.tt"!"I C'-t'-; ~'A P.L. Xr~13-,
Do,~- 0' Chenic-1
of the 0--l-1,1-1 C~Itt~i. Tl.,t
editaripa 1-r! U.mntz !*,.X. Vartr,-.
V:V: D.P. Dbych!~. S.F:. Y.A. ."i
o'
B T r.
vit"o- st.te (Coat.) sav/50;5 1
Ko-j--!~Xm, Ire.j. of Z!~:tir
P-j-rti- f G1-'1c c,.
C-ro.1 t I - 3~lv
Discun'lon 343
Color of GlRs.eD w;ll Effect of'
PtIatIc%~
V~gi., Y.V. Color of Glw. wl
Eff~tt f R,44.tl-m~ ~45
Orl-, W.F. F,1, of Ae~-'Xt-~cs -d
C'i~tullt.lty of NiWc.): 1.
Fh~==tna cr
Q-rt. Glaza Tlntl~,.- Ur.-.'.tr
the Actl~z of G~-l Fq. 346
D-1~, V.P., a,11 n.V. V-1.ti- 1.
the P!~Oz-'t'vt S;~ct'= Of
Gloo- of W~;I' U-1ir t" A~Uo~ r
0-m P,7, 551
Prek-wtzkikh, S.N. 0,.i tb~
Pesiotsace of C=ircl.l Glzv~o W
the Ifl-c,
of Pl.-U~cti- 355
Kfiraptym, 0.0. Effect of Cl~a
Stm-t- m the rfectrul -1 Chm.'Ml
Prol,ertlez of Ccrj= I=z ~r4
Card .15/22
vit-o-, state (co...) sail 5035
Azar-, X.P., V.V. Pml~4?Un~' S-11.
V.A.
Str-turt =1 Fro-_r-1,2 ..' Cl=c-s
365
Yl-..-, R.I., Y..I. C.1--t, "I
A.A. rcfeli. Abl.:7-1- r.-et,= of
the
Co 2. lot " the CoorcUnstim
Inll-t.r of r.r- e~~& Al-n- In
Sil-lct
01"Ces 3.58
V~rlm, T.V., and T.I. Vey~tcrg.
Color of Gl~ses It co-ict-ca vith
struc-urv 372
DI.cusslom 377
Kecb~' -1 -d Gont, T-b.1-1
Fll;,7;'*. f Cl
BArtecev, C.M. Btruct~re -.1
Xech~lcnl 1~-rties of rl- u-I Gl-c
FIber 3w
KoThov~k.y-, T..I. Vl,,sttc P.
-rtl- of GI... 1.
&r~ 1~1j?
vltrcc,~ state (C--.) S71t,035
Aslm~, M.S. X"hr--Jc.1 Prc7rr%je-,
a. Ojpz3 7.1,,r. 391
X.tobyl-.L.y., V.A., and V.V.
Tra-~. Cu cf Ito,Z-lc
Gl-.co &-.d 9-hg~lcvl F-w-=-
Itet&er, Kh. Det-roining t!,e
De.-Ity and Vi-colty In Tlr-. fw
ro-w-,'
Jenn GLas 16 111 In thc
T",-Fn-1t1- F~,z~ 599
I.F. Uport~ce of' the rl-e-r, !--,
r"ase It th, rcr"'.!- o!
the Cervalc Bo3X ma C~imt CLIO- A05
yermolayem, 7e.y. rhy.ic-~-1-1 of
FuAl- of rlrt-!11216t~t
O.Ido. 4~lr
Pre-, T.A. st-ct- ef ale.. -d the
;~Lt- "t
met.l. 41:1
415
Card 17/2Z
30617
s/uP/61/000/008/024/044
2 (-Zr- A058/A101
AUMORt Aslanova, M. S.
Tr."LE% Meahanical propeelAss of glass -.",b3rs
PFRIODICAL: Referativnyy zhurnal, Fizlka, ro. 8, 19,11,
198-199, abaT-ract 8D73
(V sb. "Stekloobram. sostoranlye'. M.-L., AS ~ITSSR, 1960,
391-396.
Disc., 415-417)
m '"he role of surface -defects in the meoharJ,-:m of br
~W-; I sakdown-of glass
fibers was investigated. . It was established th-r%t
regea-dless of the ohemical.
composil.-ion of the glass, surfaae defects reducie It's
-itlrength in damp air, in
water, in aqiieoue~ solutions and In surface- ac",*iv a
3'ib:jtknses. Vndftr these
conditions incident to static load-4 there are obsi~rvad
:atig,,Ie effo~~ts that are
caused by adsorption of water or surface-aotive subattmoes, In
fibers less
.h pears. The
than 3,w thick the effect of adsorption redu3tion in iitreng'
disai
highest values of strength are atba:LnAd for wp-.ting by
nor...polar bydrocaebons.
im silir;ate, alumoborosllioate ard nonalkaline .6h~sphzite
f1bers an ols3tio
aftereffect is deteatid. FF etching to a deptt~-i of" O_*3 -
0.5,k calases strerq;then-
ing of the fiber, which is greatest for thir. fi~-3:,s.
treatmls-nt leads to a
Card 1/2
30b)?
9/058/61/000/008/024,/044
Mechanical properties of glass fibers A058/AIOI
sharp reduction 1,-, etrength, C&USing Oj-jSIajI4za-.'or, of
tbis this cryistal-
k, -X I
lization ean be detected by- the eleatron mi~thod. WIF ,Ttohing
restores
strength.
0. MoICh,9nova
[Abstracter's note, Complete tran-glatIoul
Card 2/2
.4. 3
3rd All-vaime costrawence as Us
Titrecus state
PIEWNCLLS
31skle I ~-'-
1960. 2r 5. 7p 43-44 (V331)
Azwncvl
Mw 3rd
AL21-ftime Conferoxwe mi the Tltre~ State
was hold I=
.1j the ead of 19". It -a
arg-l-*d 1,,r the laxiltt
h
Cb
l.try of silicates
of :
,
"
0b a*,
,%
o
S
;
a
4 Go~uJsrstvvxaTy Uab. klj lastitmt lzeni
X. 1. TalIcrw
t op
=
Mate optima rantit. 1.
t,
a. 1. Sore than 100
"parts - the et~ to"
of gI.... 1-911gatic. ..th.ft of
.1tr.ove,
state, the sechaul.. f .11'ifio.tio. .44
PhJOL.O'h'.
said t"Italma prop."l.. of
gl-&.* were Th. Conf.r.-
---
-swo apamea
bjr Acedmacian A. A. Ib.d.,.
At Obw Tih
mewital. 6 reports dealt vith .9
OWN"StO ,
9 -ilk The Dlwlxg of SUavos -1 the Lfln~.
of r.-
!l!!1mw 'r~d 4 2 put -1th I
P~operti.o of
r.- TTa~. - T. Z.
rg. -Coloring 01.8'.4 1.
'
_
n-rw.-k. r7
111k 2h*lx Stroat
A. A~ Xf-Il. -AUorptlooz
Sp.qtrua In. In I cl-.r for
l
*
J
lla'r-~UML Of 30"~ -J '-A.LuUM 1.
01.8202'. T.
P:
Z-
%l_
_
X. V. on a. hrc. f the
1"
anposill" under th: flu .. of
9. 0.
.P.,rt.4 on the LRflowunt. 0
f the stru.t=r. of
"aalcal Properties of
the C-1.... 3. T. Orl
,
g
rsPw%O. 0a, "It tf the ftd~4 tores a.-J
the aryvlalll-i
t
Since by V - raZi.11o..
and "
~:g
;. be
"7 n!.%1
:.
Re. V. ywroj~".. "ported 0. 1 of
~
.14.. 1. a t.t. of q~lllbrl_. 1.
T. :,n--
n. r^_.rtaw of the Ylt"vowt Phase
L. the rormli..--27
Card 618
NodY and the
C:aest CILkz- . 1. A. ?"a.., reported aci
the pbj.i.o-
ak..U.r-1isa"i,etea. of
tba-f~sizj--*r-ci~.-._Z._i -x-uan. &:g'-
:;Otlg deal elth pbysi..l ob.aletry -1
ne.h-J.&I prp~tl..
f
62"..
a. Terv"..T.T. 0. a. Bart.... end a. K.
'ead. *~W"h..Wlve reports. A. A. App-
r.pr%.3 .. the
:tre,otoral paramet"a which -
w -get --Los the ;~op.rtl- of the
gia.
A. T. clfto.. T. A. L't."Y11.1-Y., T. V.
7-eav -ported .0
elftoo.w.
L. X. Veokl_ -
.5 on of the or -124.o
1
In xLIl_t4 else M.
1. 9. alau-sk-ly -p.rtcl 0. the eubj"I:
.Th.
u-= of =xes azd -b.ir Rol. 1. the
at th
Plux
Z. reported on
;
L. of -1--p vjS.%. CI ...... To. 1. Stidt
reported .. the
or the p-prtl.. of = !!=
z=,
position- Z. X,sbh.cl.ea reported on:
of the D..
,.ad We f tsi apm,2 Prp.r%1--
tf
C""
A. t
_..kkhL.4 r or .4 on the -bj.*I: -T'-.
=4
Ohs 0721ma Co-t";. of Glen.*. S. 3. -A
Mv-
ead. a ep " the oh-I..l
1U
o
...2 L. the anal
ce Ltexv.l and on t
1-otarv. Tt
.
L.
.
,
U.10,01Wx reported on the olastic
Fro2ex-11 f gla.... sod ..
= :
-
Card T/S
1L.
Fanusace of the oce2oaltion of the
SlansoB on their mechanical
Prepeft... A~
V. JM~ reported an the -bj.ot: of
910-ILke
A-.11. Iq Aq-m, 5.1.tj ... of A.Ld. and
the
"21
r.
f the 0.14m; 1. the atru.$- of Cl ... D
... IW. 3. X.
qq,j&lkh aid T. 0. Seen"---
"Ported an ejrnthtat- "A iiv4stlL--
Srt
_
ti of I-fzla el]Lla&t. glWase.. S. K.
Db-,o r-p-r1-4 0. phr.l- I
=
gb
&l jrops,111.0 of 4.111- 0121c.f. V. A.
Db",.kly
a" T. "ported 0. the -face file
foiN!u-9-0- @-1- -1 11
Olea-e.dima glans
In the neutral and be.10 a-dia- The f-l-
losing Veracas reported ." the final T.
7. Xok*rL- ex
the 1,f2 ance of She
alkali.. ."th .. idea 04 the Ob-1-2
-1-111111Y
g1".:& In . bould &t-pbrej L.
I.. Sa-J., no Ltrifin.tion
P2 -'Lee of
Vorste Slav ... I B. 77-711--r-okly, 7
A
said .1voy.. an the r...tl.a of .1.~ %-.
l
r. __x ira. 61.0 ..1.-
Z"t" ~&41 ~z
AmW*xLloLee 1. T. Naive, X. A.
laziorodov, 1. 1. Kitaygoro4skly,
-4 3. K.
Wer ulao spoke at the f1ma ... % 1-9.
Card S/S
~34355
2105,2205
s/1~)1/6o/000/000/007/014
130O,j/BO56
AUTHOR: AslanoyE, M. S.
TITLE: Adhesion of Polymers
Compositions
Fibers N)9 of Different Chemical
to GIBSS
PERIODICAL: Plasti.cheskiye massy, 1960, No. 8, pp. 31-33
W
TEXT, The author inveptigated the adhesion of glyptal resin
(GPR) and
organosilicon lacque:rs\lbf the type K-47 (K-47) (with polar
groups) and
type K-43 (K 1_ar_~ to glass fibers usinp the T,-.ethod of
point con-
-43) (apo
tact (method of crossed filaments). It follows from Table 1
that the spe-
cific adhesion energy of polymer films does not depend upon
the diameter
of the fiber. The experimental data are collectEd in the
following
tables-
Table 2. Alkali-freE! Glasses 2
Type of glass Specific adheef".on enerey (erg/cM
GPR K-,j 3 K-47
Quartz glass 305 158 297
Aluminoboron-lead g:~'ass 288 154 213
Card 1/3
614355
Adhesion of Polymers to Glass Fibers of S11
,1/6011000/008/017/014
Different ChemicDl Compositions POCIII/B056
~(7
142
210
lur
iinoboron-barium glago
A
_
54
1~
200
Aluminoboron-zine glass
245
13r,
216
Alur~inoiron-silicate
-lass
u
230
-
Lea3-silicate glass
50
85
lion-silicate Glasses
Table 3.
2
Type of -lass
t~,
ST)ecific
adhesaon
erer~y
(err,/cm
GPR
X-43
Phosphate glass
85
6'?
Borate glass
73
45
Cadmium-borate glass
63
4?
Table 4- Sodium-calcium silicate
plasses
Specific
adhesion
energy ervm)
.
Type of glass
CPR
K-43
K-47
Sodium-calcium-sili.cate glass
145
log
129
Sodium-aluminomagnE!sium-ailicate
glass
152
133
154
Sodium-lead-silicate glass
244
141
181
Card 2/3
M-355
Adhosion of Polymers to Class Fibers of
33/191/60/000/008/007/014
Different Chemical Compositions BC00056
Sodium-zirconium-silicate glass 235 147 164
In polyester resin No. 9 and apolar substances, Ouch as
polyi-sobutylene
and paraffin, a very low adhesion energy was found. The
adhesive proper-
ties of alkali-free aluminoborosilicate glasses 'not directly
depend on the
polarizability of ions contained in the glass. H:)v;ever,
introduction of
lead ions of a high polarizability into
sodium-calcium-siliate glass con-
siderably increases the specific adhesion energy of polar
polymers to
glass fibers (Table 4)- In this case, the electrical
conductivity of the
glass surface decreases by two orders of magnitude. Similar
hydrophobic
properties are imparted to the glass by treatment with
organochloros:Llt,nes/V
(Ref. 10) or volane. Thus, its adhesion energy Increases by
30 to 50~4- '
The adhesive properties of glass fibers increase tith an
increase of their
mechanical and electrical properties. The author mentions B.
V. Deryagin
and P. A. Rebinder, and thanks M. A. Yakovleva for taking
part in thr-
experiments. There tire 4 tables and 10 referencvs; 5 Soviet,
2 US, 2
B~ritish, and 1 German.
Card 3/3
DOD
82672
S/072/60/000/009/002/001'
B021/BO58
AUTHORs Asle.novup M. S., Doctor of Chemical Sciences 110,
TITLE: Inorganic Fibers of High-temperature Stability and Their.
Properties
PERIODICALt Steklo i keramika, 1960, No. 9, pp. 15-16
TEM Three types of such fibers with a malting temperature of
from
17500 to 18000C are used in modern teohnology~ Quartz fiber
(100" S102)
is produced by stretching a molten dropleb. Cotton wool, mats,
cardboard,
paper, and filters car, be manufactured fr-)m this fiber.
"Silica fiber"16-
(96-98% S102) is produced by extracting the highly liquid
oxides from
commercial glass fibers. Fabrics, threads, felt, oaxdboard,
paper, and
filters are produced from sodium borosilicate- or aluminum
borosilicate
fibers.treated with acid. Ceramic fibers of high-bemperature
stability
made from kaolin are -produced by melting naturally-:-~oourring
minerals
and synthetic mixtures of difficultly fusible oxides,
respectively, in
electric furnaces at 200000. Felt, cardboard, paper, and
filters may be
produced from these fibers. The problem of producing kaolin
fibers for
Card 1/2
84350
S/072/60/000/011/002/00'i
B021/BO58
AUTHOR: Aslanovap M. S., Doctor of Chemical Sciences
TITLE: The Influence of Various Factors on the Mechanical
Properties
' 4
of Glass Fibers\
PERIODICAL: Steklo i keramika, 1960, No, 11, PP. 10 - 15
TEXT: In the present paper, the author mentions the research
work hither-
to conducted in this field and arrives at the conclusion that
so far the
nature of the increased strength of thin glass fibers is still
the object
of discussions. The molecular structure of glass fibers could
no'. yet be
determined on the basis of radiographic and electron
diffraction analyses.
The author also mentions the paper by A~ F,. Zak,, In her
opinion, the great
strength of thin glass fibers is mainly caused by the reduction
of size
and number of surface defects, the development of which depends
on the
method and conditions of fiber production and the relative
chemical com-
position. Drawing conditions and rate of cooling influence the
strength of
thin fibers, which is also determined by the condition of their
surface
and the physico-chemical interaction with their medium, The
influence oil
Card 1/3
The Influence of Various Factors on the
S/072/60/000/011/002/C)of')
Mechanical Properties of Glass Fibers B021/BO58
adsorDtion-active,media on the mechanical properties of glass
fibers is
mentioned next. Such fibers, regardless of their chemical
composition,
have their strength reduced in hum:Ld air, water, and aqueous
Solutions o"
surface-active materiala. The dependence of the adsorption
effect on the
fiber diameter can be seen from Fig. 1, The surface treatment
of alkali-
free fibers by means of organosilicon compounds influen-,e*
their fatigue at
static loads in water vapors (Fig. 2). The development of the
glass-fiber
deformation in water is shown in Fig. 3. The complete
reversibility of
deformation after relieT was established, the conform~.ty with
the idea'9
held by Academician P. A. Rebind.er being underlined,
0Blectron diffraction
patterns of glass fiberi5 after heat treatment at 600 and
5000C are shown
in Figs. 4 and 5. The influence of the chemical composition of
glass on
the strength of the glass fiber after heat treatment :is shown
in Fig 6
The change of the tensile strength of fibers of alkali-free
aluminun;-boro~
silicate glass after heat treatment and etching can be seen
from F3,g.
Ye. S. Lerman took part in these experiments The tensile
strengtii Cf
quartz-glass fibers is i the author states
,khown in Fig. B. In conclusion,
that the great strei!Eth.17of thin glass fibers can mainly be
explained by
the reduction of surface defects. The strength of glass fibers
is mainly,
Card 2/3
61650
The Influence of Various Factorf, (-.)r, the
S/072/60/C)OO/011/002/00,cl
Mechanical Propertiea of Glass Riber.,i B021/BO58
determined by the condition of their surface and their
physico-chemical
interaction with the medium. A drastic decline of the strength
of thin
glass fibers of various chemical composition after heat
treatment is
caused by their crystallization. The consolidation of fibers
after etching
by means of hydrofluoric acid proves the role played by
surface defects
and crystallization f~.n the reduction of strength. There are
8 figures.
Card 3/3
KITAYGORODSKIY, 1.16~ doktor tokIm. nauk# prof.j
AACHALOV, N.N., prof*;
VARGINj, V.V,, doktor tekbn. nauk, prof.; :CEISTROPIYEV,
K.S.v
doktor tekbn. naukp prof.; GINZBURG, D.B. , dolctor
tekhn. nauk,
prof.; ASLANOVA M SAL,--doktor tekhn. nauk, prof.;
GURFINKELI, L,Ye..,
inzh sy kande -tekhn. nauk; KOMAR, A.Ye., inzh.; PATME-
KIN, N.M., doktor tekhn. nauk, prof.; SENTYURM, G.G.,
kand. telchn.
nauk; SILIVESTROVICH, S.I., kand. tekhn. nauk, dots.;
SOLINOVI :F.G.,
kand. tekhn, nauk; SOLOMIN, N.V., doktor tekhn. nauk-,
prof.; T&IMp
B.S.j, Icand. tekhn. nauk; GLADYSHEVA, S.A., red. izd-va;
TWKINA, Ye.L.,
tekhn. red.
[Glass tecbnology] Tekhnologiia stekla. lzd.3., perer.
Moskvap Gos.
izd-vo lit-ry po stroit... arkhit. i stroit. materialam,
1961. 622 p.
WIRA 14: 10)
1. Chlen-korrespondent AN SMR (for Kachulov).
(Glass manufacture)
ASLANOVAZ Hargarita S.
"Structure and properJLteB of glaBs fiberB."
To be submitted for the Cvordcn Reasereh Conference, Electrical
and Reltantion Propellses
7-11 August 19619 111tonl N.H. --w
Director, All-Union Scientific Research Institute of Glass
Fiber.
G/005/61/000/012/002/003
D029/D109
AUTHOR. Aslanova, M.S.
TITLE., Influence of the surrounding medium on properties of glass;
f ibers
PERIODIGAL: Silikat Technik, no. 12, 1961, 528-531
TEM The author conducted experiments in order to determine the
influence
of c-.hem4_Qa1 factors of the surrounding medium on the mechanical
and electrical
properties of glass fibers. The effect of concentrated acids, lyes
and other
aggressive agents destroys the fiber of alkali-free
alumoborosilicate-glasa
and finally leads to a complete disintegration of the structural
bonds of the
glass, The author found out that adsorption processeEl further
deformation
and destruction of the glass fibers in a much higher clegree than
chemical
processes. In his conclusions the author states that experiments
showed that
not only chemical reactions alter the physical-chemical properties
of glass
fibers, but that adsorption-active means alao have a strong
influence on. the
mechanical, electrical and adhesion properties of glass fibers.
The hydro-
phobization of the fiber surface by help of various organic and
silico-organic
Card 1/2
irfluence. of the surrounding medium...
G/005/61/000/012/002/003
D029/D109
Eubstances improves the mechanical properties, the electric
resistance and
the aehesion of polymers to glass fibers. Through
hydrophobization the al-
t,~rat4on of glass fiber properties during the production and
application can
be restricted to a minimum. There are 5 figures, 2 tables and 5
Soviet-bloc
references.
ASSOCIATION: Glass Piber Institute, Moscow
Car3 2/2
77
ZAK, Aron Faybyshevicb; ASLAVOVA, IA. S- . retsenzent; IXIANOVA,
A. 1. ,
retsenzent; DUKHOVIffY, F.r., red.; TRISHINA, L.A., tekJ=.
red.
[Pbysicochemical properties of glass fiberslFiziko-
khimicheskie evoistva steklianogo, volokna. Moskva, Routakh-
izdat, 1962. 224 p. (MIRA 15:11)
(Glass fibers)
PANIASYUK, V.L; ASIIAN.OVA,, M.S.s, doktor Ichim. nauk, prof.,
retsenzent;
TSOY, R.M., kand.tekhn.nauk, retsenzent; VAKR/Abl, E.Ya.,
inzY.,
retsenzent; PIMYANNIKOV, M.N., red.; ZOLOTIA101A, I.Z., tekhn.
red.
(Chemical control of glass manufacture] Khimicheskii kontrol'
proizvodstva stekla. Leningrad, Rastekhizdat, 1962. 195 P.
(MIRA 15:7)
(Glass manufacture-Cherniotry)
ASL&NOVA M.S.
Gordon conference on glass in the United Stater-,
Stek. i ker,
19 no.3:48 Mr '62. (141lu 15:3)
(Glass manufacture-Congresses)
CHERNYAK, M.G., red.! red.; UK, A,,F,, red.;
IVANOVA, A.I., red.; KUTUXOV, S.S., red.; IWASYUK,
V.I.,
ripd.; SHKOLINIKOV, Ya.A., red.; VASKEVICH, D.N.,
red.;
SHPAK, Ye.G., tekhn.red.
[Methods for testing and quality control of
fiber-glass materialo)
Metody isoledovaniia i kontrolia steklovolcknistykh
materialov;
sbornik statei pad red. M.G. Cherniaka. Moskva,
Goskhimizdat
1963. 92 p. (miRA 16s6~
1. Vsesoyuzn3ri nauchm-18sledovatellskil institut
steklia-nnogo
volokna.
(Glass fiber indus trv--T,3 sting)
ASLANOVA, M. S.; VOLSIMA, El. Z.
"Strength and stinactu:rv of f Ibres made of borate) cadaium and
lead glasseo. "
report submitted for 4h All-Union Conf on Structure of Glass,
Leningrad,
16-21 mar 64.
ASLANOVA, M.S. dol:tor khim. nauk; RARTEVIV, G.M., doktor
khim. nauk
Congress cm the physics of noncrystalline solids. Vast. AN
SSSR
34 no.121!0-52 D 164 (MIRA 18:1)
:ACCESSICN N11: AP40--~901.8 S/0072/64/000/005/0015/()017
:AUTHOR: 1~yaznikov, A. A. (Engineer); Aslanova, M. S. (Doctor of
chemical sclexices)
I TITLE: Tnfluence of' clumical composition of basalt on its
resistance to acijIs
SOUMCE: Steklo i keraztkaj, no. 5., 1964y 15-17
;TOPIC TAGS: basalt fiber, acid resistance, fiber glass, basalt
cowposition
kBST .0
IRACT: Considering the availability of local basalt i' xmations in
the Soviet
I Union and, the hir~a r,,siotance to water, azid alkali of filbor
glass opun fro= th=,
if 4-h
the main criterion oT t-licir general- suitability L eir
~~,sistance to dilute
jhydrochloric acid. Depencling on the baGalt composition, its
fibero do not dissolve
or are marely leached out ~n hydrochloric acid. The purlose of this
work is to
ifind the rearons for it in the com A. k -
positioza of the mater-4.1, For this purposc,
e:-~erimcntal glass ebarger. simulatinf; variants of basal.t
compoGition were prc!pared
Euid teated. The rewilts were compart~d vith fitern spurA from
natural baBalt (4d
it WaG found that bai;alt from the M~Xanok quarnr (kmeerdtn SSR)
forms fibers
:Iissolvinl- in 11C1. Fibers from Isachko-vak dia:riaae (UkraJne)
am leached in
',*drocb-1orie acid and thoati from "Yanova Dolino." (Lkralnlan
SSR) am not attE~,cked,
Card
f ACCESSION NR: AP403';kllS
by cold 11Cl. A diagrad showing the influence of CaQ-ANgC) and of
Fe 0 'contents
.,on the rate of leaching indicateo that the latter increases with
Cagw"GO COnt42rV~
but decreaGeo with groving FC203 content (as substitute f or
CaOAmgo). it is
assimied that the rolv of iron compoundr, in the vitreouG rtructure
cliangea
de - art. haz: 3 figurer,, no f uln o tablco.
pending on their quantity. Orig Olin f), n
ASSOCIRAON: Ukrainckiy f ilial Vrec;oyuznogo
nauchno-iol;lcdova-tell skogo
institututa ateklyarmogo volokna (Ukrainian Branch, All-imion
Scientific Rcseari:h
Institute of Glaau Fibers) VPesoyuznY1KY nauchno-is(31cdovatellakiy
iniitl.tutl
steklvannogo vololma (A4.1-union Scientifi-a Research InsLibute of
Glfwa.ribera)
SUBva= 00 DJM AN: 10,Tun(A M~ C L: 00
SITB CODE: MT iio Pzz, sov: oo4 OVMR: 001
2/2
o r
- ASLANOVA, M.S., prof.
Glaor. fiber. Priroda 53 no-5t64-68 164. (HIRA
17:5)
1. Vs,gsoyuzW nauchno-isoledovatellskiy Institut
stek-
lya=ogo volokna, Moskva.
iF
L ~
V111P(OW %,;(M)/EPr- (0 /RH/MWT(b) F4-14/T'r-11P3 ~!l AFWj jTj( 51
L/A F a
__~S_QTA -DT
m
~1/%SD (
_~.___.:____:ACCES SION -NR*.- AP 4 (N 9 14 Z__
AUTHOR: Aslanclva.~M. S.: Y41L-ovleva, M. Ao
TITLE: Effect of the ~ surf atie layer on mechanicat and electrical
characte ris tics of copper- cout sin ing D._La.9s I iberv Lr,'
SOURCE: AN S 5,13 R. D,D.klady*., v.. 159, no. 1, 1964,1 186-188,,and insert
4acing j?. 161
TOPIC TAGS: glass fiber, aluminosilicate Slaad,,alkali free 111ass,
~copper containing glass, glass heat treatment, semiconductor glass,
'high strength glass, glass surface property
'ABSTRACT: . New type.s of hj&h:~s iLrength% lass fit-eirs have been synthe-
sized in the CuO-CaO A1203-SiO, system, and their mechanical and
electrical prop'ertie; have beer4l determined. Copperoxide 15-40 mol%
was introduced into the glass because of th,i! known effect of highly
polarized copper ions on the surface properi:ies of glass. The new
glass fibers have an increased modulus of eLasticity in comparisozi
with alkali-free aluminoborosil.icate fibers and are moisture-resistant,
but their surface resistivity has been founJ unstable. After heat
Card
L 14858-65
ACCESSION NRt 04Wit4l
treatment st .500-60CIC in a hydrogen atmospheres,, the modulus of
ejaa-
ticity of the fibersTeached 12,600 kglm,m the curface resistivilty
vas stobtlized at a high vallue, a positive therm.44 emf was
develclied
in the surface lay r .and chemical resistanc
c -e was greatly improvei
However, the strength of hept-treated fiberu was decreased*
especi~~ally
rafter hf etching of tbn surface layer. The abnormal effect of
etchilng'~~
is attributed to the disturbance in the clote-packed structure of
subsurface layers in -the glass owing to the heat-treatment induced
diffusion of copper lons to the surface. X-ray diffraction,
microscope_
ic,-and etching stOdles indiciated.a crystalline structure bf thtsiur-
face layer of beat-itreated fibers. C
EX~talliza tionUaf ter heat tre:Rt-
7 i
ment is responsible' for the decrease in stre'~gCii and increase in
aicid
and alkali res.istan.ce of the fibers. Coppet adisorbed in the
surfa~tce
layer contributes to ~the formation of crystalli:ia~ion centers. I ti~
was concluded that cc~pper-containing heat-treatod fibers combine a!
crystallized surface layer having p-type electronLc conductivity
Vith-1.
the bulk glassy phase.having ionic conductivity,, orig. art* has: 3'
figuren.
'2
Cord /3
CHMNYAK, M.G.; ASU
+N.QVA,-jj.S.; VOL'SKAYA, S.Z.; KUTUKOV, S.S.;
S1HAKOV, D.P.; NAYDUS, G.G.; BOVKOERKO, A.N.;
KOVALEEV, N.N.;
SHKOL'NIKOV:, Ya.A.; ZHIVOV, L.G.; KOVALEV, N.P.;
K07,HUKHOVA,
N.V.; KOROU'VA, A.Ye.; VINOGRADOVA, A.M.; OSIPOVA,
O.M.;
RADALOVA, E.I.; BRONSHTEYN, Z.I.; LIVOV, B.S.;
KRYUCHKOV,
N.N.; BLOKH, K.I.; ~ASHINSKAYA, N.I., red.
[Continuous filament glass fibers; technology
fundamentals
and their 1,..-operties] Nepreryvnoe stekliannoe
volokno; osnovy
tekhnologii i svoistva. Moskva, Khimi-,a, 1965.
319 p.
(MIRA 18;8)
ASLANOVA, M.S., doktor khim. nauk
Seventh "Enternational Congress on Glass. Stek.
i ker. 22
no.11:45--46 N 165. (IMIRA 18-. 11)
ItP (5 )-2Avr 4? (i)/EPIF (n)-2,/t-?/EPA (vi)-2/F_%'1P tj',tAl 1p
-4/p a b-jYP -4/Pr-? /P~- -4&t~-7 V,7~L/Mj 1.11 1
-ACCESS1014 N-R: AP 00M11 S/4D072j%%1;/000/003/0012/00
AUTHOR: 1NIyasnikov, AIA..(Engbeer); Aslanova ALS. chemical sciemcea)
_Q )octor of
MIX: Selection of basatt-rock o-ompositions for the prepavition of
fibers bavin
Various apocaions
SOURCE: Steklo i keram:~ka, no. 3s 1965, 12-16
TOPIC TAGS: glass man, gacture, fiberglass manufacture, bvLsalt
fiber, Ixonoxidio,
inagnesRun oxide content'
ABS9?_kCT.----To -&termive-tbe influvice- of -the-content of koji
-and-aluminian -oxide on
the acid resistance of basRlt fibers~-~the authora studic-d thc
stability of such fibers in
3N hvdrochloric acid. Ait increase in ALA and a correspondina
decrease in iron oxides
decreases the s~cid resist--m-ce, and t)--.e b6un'daries of the
soluble band st-ible fiber ccm-
positions are (hspJaced toviard lower comems of 1Lav and M-3 and a
higher SiO, ecnteat.
Glass fibers of the system albite - anortite - diopside (whose piiase
diagrmn is ^Muqtrated~,
CMM~6 ferric oxide, are also divided into fibers which ar,D E:Oluble,
leachable, juid
I stable in acid. Experimental results show that an increaso kk the
MgO Instead of the CUO
L 4241" 65
MiCESSION, NR; APS0.081111
content increases the acid resistance of the fiber: absence of'MgO,
makes the fiber
soluble. 0.2ddes of Iron
-mul magnesimn increase the -apid r-os [stance mort, than do
wddes of aluminum and c0cium; 111s must be takai hito acooimt in
select-big the raw
materials foT the productlDn of bas,,dt and other mineral fib mg.
Orig.. art. has,
4 Bgures and I tablo.
rMyac~nikdVj Ukrainskiy filial Vsesoyuznogo Muchno-Issled
ASSOCIATION ovatells~,O'VD.
instituta, steklyaviogo volokn-a (Mcrainlan Branch of the AU-Urjon
Sclentific R6sea
ijbergiasv); fkslanovaj Vvosopuz-
institute of r Uynavic, o-!sledovatel'sklyingtitut
steldyannogo volokaa 1' AU- Uhlon Scientific Research Institut a of
Flb2n~ ss)
SUBMIT7UP.- 00 EXCL: 00 SUB CODM MT
0 0
0
J 7 _7
Card
1 4951-' 56 EWT(1 )/EV4 (e )/r--PA(s)-2/EVJT(m)/EVP( I )/ENP(b) IJP(,,
ACG NR: AP5025717 souRcE copi;, uR/b2oo,/r)5/uou/pio/uoil;!/o),a
Aslan r,73
AUTHORSs ova# M. 3,,;l Syritskaya, Z. M.; /Foy~n~r) S. Ya*
J~
ORG% none
TITLEs GlaBso Class 32s, No. 174779 /announced by State Scientific
Research
Institute of Glass (Gopudarutvennyy nauchno-issledovatol,'! skiy
inBtitut stekls;Y'-
t?
SOURCEs Byu-Ileton' Yzotw'eteniy i tovarnykh znakov, no, 18, 1965*
70-71
TOPIC TAGSa glass Aieleatric therinal stability, chamical stability
This Author Certificate presents a mathod for obtaining a g1a3s of
high
ABSTRACT/
thermal%nd chemical stability, high dielectric pormeabi:Lity, and lov
tempersiture
of cooking. The componcints making up the glass are taken in the
follwing
pr ortions (in wt %): P205--30-40, T02-51-6o, si02,--*1-6, and less
than 2~.I' of
N275-
SUB-COM MT1 W34 DATE: 02Nov6h
Card. 1/1 666.112.92t5)16.14 _-I
L 121lo-66 Ewde) WWA-WN ww/0 T
AT6000516
AC SOURCE CODE: UR/0000/65/000/000/04211/0431
AUTHOR: Aslanova, M.S.; Vol'skayaq S. Z.
77~~7
ORG: none
TITIE: Strength and structure of boratet cadmium, and lead glatis
fibersK
Urdno
SOUT tCE: Vses_qYugAoYP_!~0Ms n!y 0 tqklo braznomu sostq i ad, 1964,
StekIDobraznoye sostoyaniyo (Vitreous state); trudy soveshchaniye.,
Leningrad, -v0
Nauka, 1965, 428-431
TOPIC TAGS: glass fiber, glass property, borate glass, silicate
g1ass
ABSTRACT-, In order to determine the relationsbip between the stra.
.2g!y and structure of glass
fibers, continuous fibers in the systems CdO-B203 A1203 i02,
1,03-CaO-AI203-SiO2 and
PbO-CdO-B2O3-Al2O3-SiO2were studied. Glass fibers containijigup to
45.5 mole% CdO and
PbO ivith a low SiO2 content (1(1. 3 mole %, called cadmium and
lvacl, fibers) and fibers with a.
high boric anhydride content (71) mole %, called borate fibers)
were prepared. Cadmium ~
fibers were found to be stronger than lead ones, owing to the
higher strength of the Cd-O bond.
Borate fibers W a strength sitni3w to that of lead ones. FiberE
made of alkali-free alwninun
borosilicate glass had the highost strength (300 - 320 kg/mm2),
vAiereas cadmium, borate.
and lead fibers showed values of no more than 200 - 250 kg/mrn-o.
The effects of surrounding
moisture on the extension of fibers, of chemical composition on the
deformation of fibers in
r
ACC I*- AT6000516
extension, of glass composition on the elastic modulus of fibers, and
of thermal treatment on
the strength of the fibers were Investigated, and conclusions are drawn
regarding their struc-
tural inhomogeneity. The mierDhoteropneity of lead, cadmium,
borosilicate, noda-silica
and glasses is also characterisilo of their Itber6, aW manifesto itself
particularly after Their
thermal treatment at 100 - 500C. Orig. art.. has- 4 figures and I table.
SUB CODE: 11 SUBM DATE: 22may6r) ORIG REF., 001 OTH REF: 002
2/2
W. 'ply IWIRR 0
MOMMIMM WIMITIM-07 OEM- MMMEM
L h5?8-M B;P(e)/EPA(s)..2/EWT(m)/.FPF(c)/EWP(i)/BiP(b) IA!LT
,SCE CODE: Llft/0020/65/16h/OD6/121'7/.1279
SOU
ACC NRs AP5027225
001
AUTHOR- Aslanova, M. S.-, Khazanov, V. Ye.
___!, . qq
ORG: All-Union Scientific Research Institute of Glass Fiber
(Vseaoyuznyy USUCIMOP.
issledovatellskiy inst~tut steklyannogo volokna
JE,
It, I
TITLE: High-strength property of ELas~ az~cjHp z fiberv a -196c
(in liquid
nitrogen)
SOURCE: AN SSSR. Doklady, v. 164, no. 6, 1965, 12TT-1279
TOPIC TAGS: fiber glass, quartz, fiber optics
ABSTRACT: Alkali-free aluminoborosilicate glass fibers with
diameters d = 4_.'c!O P
and quartz fibers (d = 10 were subJected to tensile strangth
tests in free fLir at
room temperature and at -196C in a humidity-free enviromient in
which adsorption had
been eliminated. The strength of glass fibers at -196C, w
compared with the strength
. Maximum strength
at room temperature, was 1.5-2 times greater (4oo-450 lzgj'mm2)-
(800 kg/=2) Was observed for 4-10-u fibers. The aversq;e
strength of quartz fibers
increased 2.5-3 times under the same test conditions, and the
maximum strength also
reached 800 kg/mm2. The strength of quartz fibers may be
increased four times by fas'
extrusion; a maximum strength of 1000 kg/mm2 at -196C wan
recorded. Decreasin~~, the
length of the quartz fibers (from 10 to 5 mm) increases the
maximum strength by 30 to
40%. Orig. art. has: 2 tables and 3 figures. [BD]
A,
St
.VAMA EWT(M)4WeW.1/rAEW I-% IJP(C)
ACC Wt'- AP6OX6921' k W) SOURCE CODE: UR/00'[2166/000/005/0017/0016
AUTHOR: inee
r
*~G~~ovaj M. S. (Doctor of chemical sciences); Roo taryan R. M.
(Eng
ORG: (Aslanoval All-Union Scientific Research Institute of
Fiberglass and Fiber laus-
.Reinforce -Plastiep (Vaespy-uimyy neuchno-inaledovatellakiy
institut atekloplastikov i
steklovolokna)! [Hostocqan] Institute of Stone and Silicates.
Yerevan (Institut
Kamnya i silii;tov)
ITLE: Mechanic~i properties of new types of alkali. glass fiberal
based on ArmenlLan
F
.erlites
SOURCE: Steklo L keramike, no. 5, 1966, 17-16
TOPIC TAGS: iless fiber; a3k&li, perlite, mechanical
property,*chemic6l. stsbii4y~-
synthetic fiber
.-..ABSTRACT: The authors study Armenian perlites. These'perlitea
contain very little
iron oxide but do have both sodium and potassium oxides which
contribute to them
chemical stability of glasa. A series of glass i3pecimen:3 %ras
founded using Yaxiour
ratios of perlite sand and additives to find optimum composition.
As a result of
.these experiments new types of glaze fibers are produced with an
slumin~!Iaallesium
calcium-Bodium-ailicata couposition~ The mechanical properties and
chemical stabilt-ity
of these materials are- similar to those of fibers made of'
&1kali-free al=inoboro-
Card 1/2 um -666.189.n2.oi-
WH/WW
A~C ~NR, AP660 SOURCE CODET
INVENTOR: Aslanova, M. 0.; Syritskaya, Z. M.; Feykners...~'. Ya.
ORG: none
TITLE: Chemical~- and heatzesUtaqt glass. class 32, No. 179885. tannouncod
by
All-Union Scientific Researeff Instlzuf"T OT lass Fiber ~:Tsesoyuznyy
nauchno-
issledovatelskiy insE --s =eyannogo-vo-lbyn-a)
SOURCE: Izobreteniya, prDMyshlennyye obraztsy, tovarny're zriaki, no. 6,
1966, 62
TOPIC TAGS: chemically resistant glass, heat resistant glass, glass fiber
ABSTROCT: An Author Cert'ificate has beanOsued for chemical- and
heat-resintant
e
glassPfor the manufacture of glass fibersi ~Iesistant to aluminum phosphate
binder.
The glass has the following compositlon:14,P205, 22-329; ~-'H021 64-88%;
S1022
1-4%; Nb20 , not over 2%., In addition to these ingredfients the glass
contains:
Cr203' 1-4C W03, not over 1%. [BO]
SUB CODE: 1l/ SUBM DATE: l9Feb65/ ATD PRESS: q-L-26
Card 1/1j~
uDc: 666.112.!?23546.18128'78182,882
L '1~ 3101t2-66 -FI-T( a)/FJT(m) /i~UP(t)/t TI TJP(c)
JDjJnAm~(;nATA'j1
ACC NRi AT50279" (H) SOURCE CODSt UVOO(XV65/00t~lo-oo/65~~~~rck5~I
ATJTHCRi Aalanovap Ho so
ORGi none
TITLE: Designing high-temperature corrosion-resistant material on
the basis
of inor o refractory fiberis
SOURCE& S..nJ~~'~po zharostoyltim pokry-tiyam. Leningrad# 1964,
Zharastoykiye pokrytiya
Leningrad,, Izd-vo Naukap 1965p 87-91
TOPIC TAGSt refractory oxide, fiberglass, zirconium compound#
silicon compound.,
cesium compound, thorium, compound, aluminum compound, corrosion
resistance . high
temperature material, synthetic fiber, refractory product
BSTRACTis Large-scale experimontg on the synthesis or inor~,-anlo
fibera'from, pure
t
efractory oxide -.11bowed that the long-fibored structures could
be produced only
from SiO2 o-r--on-Dis basis of the binary systems ZrO2 - Si(~2v
Hf0'2 - S02v CeQ2 - SiO21
ThO~ - SiQ2 and A1203 - SiG2* The tendency to form long-fibered
structures in binary
systems increased with increased content of SiO~# and the longest
fibers were produce
from mixtures containing ~M, - 40% SiQ2. But the melting point of
fibers and glasses
docreased,with an Increased amount of SiO~ regardless of the
melting-point value of
the refraotory oxide. The author and his coworkers developed a
technique for produo-
Ing quartap quartsold, ZrC2 S102v and aluminosilicate fibers of
kaolin composition
Card 1/2
-66
ACC NRi AT5027944
having malting points of 1750 - 18000. 7here is a production method
for each type of
fiber which affects only its mechanical propertiese The thermal
propertiesp chemical
stability, and the electric properties of all these refractory
fibers were nearly
similar (althou& the quarts fibers had somewhat better quality) and
did not depend
on the production techniques Sintering (deformation in solid phase)
without softening
at 1450 - 15000 was typical or all fibers. Thnse fibers are stable
at temperatures
'=`U2000 during prolonged operation. They were proven to be very
efficient heat ir,-9u:-.
lators at a low volumetric weight (50 - 1000 kg/m3) with beat
conductivity varying
from 0.03 at room temperatura to 0*15 kcal/m/hr/da&z-ea at 1000C.
Those fibers wore
chemically highly resistant to water# high-pressure Eteam, and all
acid except HIP
and HPC~,Their electric resiativity at room temperature'vas 101 917
and it do-
creasad with increased moisture only to 1012ohm cm. These fibers
were thus,*ghly
resistant to,moisturop -which Is an important qu ity for electric
Insulators i- The
dielectric constant of fibers from quartz -glasdtas.445 at a
frequency of 100 cycles
The tensile strength of quarts fiber was d'-150j fibers from molten
kaolin had
Cf - 140; and the smallest Ct - 80 kg/mm2 was observed in the
quartzoid bars. The
treatment of quarts Tibers by HIP increased their d to 280
- 300 kff/mm This
suggested a large negative effect of the defective surface layer of
the glass fibers
on their mechanical strength#
SUB CODEs 11/ SMH DkTI I' MIU65
rnrA 2/2
L 35922-66
ACC M AP6012132 SOURCE CODE: UR/0413/66/oOO/007/0051/0051
INVENTOR: Aslanova, S.; Syrltskayal Z. M.; Feyla.iers, S. Ya.;
Zak, A _P.-,- Khomutov, A, 1,
ORG: none
TITLE% Glass. Class 32, No. 18031L'/a-nnotiriced by
Research Institute (Vsesoyuz:nyy nauchno-issledovatel'skiy
SOURCE: Izobreteniya, promyshlennyye obraztsy,
no. 7,-1966, 51.
All4nioil GIngs Fil)er
instiLut steklyannogo vDlokn-6)
tovarnyye znaki,
TOPIC TAGS: glass, glass composition, CLfl-55 Fjj3Fk-' )p4,1~5-5
IORoPFI?7'~'
ABSTRACT: An Author Certificate has been issued describing the
composition of glass containing P205, SiOFY T -.? 20 Dlgo.' which
is intended for the manufacture of glass iber To PrAuce a fiber
with high absorption properties, the following wt, %) of the
above
components are suggesteds. P205, 40-0-55-0; S102, 32,0-43.0,-
TiO,,:),
IL.0- .0; A1201, 3.0-8.0; MgOj > 1.0; and CaO, 3.0-5-0. [LD)
L'I'i-ans ation oY allstract
7
SUB CODE: ll/ SMM DATE: 12Feb65
Card
-,)IEWFQ' L'J P rMtf
L G EM"k0),-D.7(ii 11 j
FAdC_N_R"t D6023397 SOURCE UUDEI---UR/0374/661000/003/0380/0382-
AUTHORS Aslanoval 14. So; Bolevichy 1, So; TyukMLt V. No;
Gordonp So So V- I
1~1-j~_---'_- &
ORGI All-LhAon Scientific Research Institut2 of_F_Jbqz~~sa
RaInfore
Glass Fiber, Kryukovo (VsesoyuzrWy nauchno-issledovatellskiy
institut stekloplastikov
i steklyannogo volokna)
TITLEI Micreasing the specific flexural rigidity of
fiber-glas"'Pr-inforced p1natios
by using hollow glass- fibers;
SOURCEI 14okhanika polimerov, no. 3j, 1966, 380-382
TOPIC TAGS1 glass fiberp reinforced plastic
ABSTRACT: An attempt was made to develop glass fiber of light
structure, i. a., of
hollow (capillary) tubular 'cross section. A special
multi-drawplato knit was con-
structed, and the proco6s of drawing hollow aluminoborosilicatp
_gLass'~fibors was
studied. An experimental batch of braids made of these fibers,
which had a capillari-
ty coefficient K = 0.6-0.7 and an average outer diamet-or of
0.013 mm was preparod.
The physiaomachanical properties of plastics reinforced with
those hollow fibers in
the direCtiGn of the filler vere compared with those of
plastics roinforcod with ordi-
nary solid glass fiborao Tho plastics with hollmi fibers have
lower elastic moduli and
tonsile-strengths; however,, because of the lower volume
weight, thoir wall thickness
is on the average 1.3 times greaterp so that the flexural
rigidity of auch.a wall is
__bard 1 2 uDct 678.oi:666.212
ACC NR, AP7005415- ---'---SOURCE
CODE:--UR/0072/66/000/01-1/0012/0016-
AUTHORS: Aslanoval.-M., S-. (Doctor of chemical sciences); Gordon,
S. S. (Engineer);
Khazanov, Engineer)
ORG: All-Union Scientific Research Institute for Fiber Glass and
Glass Fibers
(Vsesoyuznyy nauchno-issledovatollskiy institut stekloplastikov i
steklyannogo
volokna)
TITLE: Application of experimontal-statistical optimization methuds
to the
determination of the dependence of the diameter of glass fibers on
their method
of production
SOURCE: Steklo i keriimika, no. 11j 1966y 12-16
TOPIC TAGS% glass, glass fiber, glass wool, glass product,
mathematic analysis ,
ABSTRACT: A mathematical description of the glass fiber formation
process is
presented. This description is based on the axperimental
statistical optimization
methods described by V. V. Nalimov and N. A. Chornova
(Statisticheskiye motody
planirovaniya ekstremallnyk:h eksperimentov. Ml., izd. Nauka,
1965). Tile following
relationship between the gl&js fiber diametor'd and the normalized
para=ters X3 and
X5 was derived% (Xi - 0, 395)1 '+.0.8715)' - , I
7,41-1d 2.44 4- 2.04
Card UDC: 661.189.211
ACC NR. AP7005415
A table of matrices used fox-the evaluation of the dependence of the
decrement in
the mass Of glass on the variable parameters is presented* it is
concluded that the
experimental-3tatistical optimization method may also be successfully
applied to the
solution of multicomponent silicato systems6 Orig&' art. hasi 1
tab:,e, 1 graph,, and
8 equations6
SUB CODE: ll/ SUBM DAM none/ ORIG,REF% 006
Ca
NAGIYLrV., M.P.; TRIAPINA,
Determination of th-ij kinetic characteristice of
thermally cracked
fuel oils. Azerb.khim.zhur. no.5:57-63 160. (MMA 14:8)
(Petroleum as fuel)
Y"TXHAYLOV, V.V.,- ASLANGVA N 'KO I
Mechanism of disorders of the concentratf4on and
clearance capacity
of the kidneys in botulJsm and diphtheria, Pat,
fiziole I ekBp.
terap. 9 no.4:43-417 JTl-Ag 165, (MIRA 18:9)
1. Kafedra patologicheskoy fWOogii (zav. - prof.
M.Mikhaylov)
Saratovskogo ineditsinskogo instituta.
0-1 ; 'i - 'Ic -
I I-jk- -- i
~,~ 31' "': ~ --, ( L'.. , " " . ,, I'-,.
.!"C'100 Zi,my y~, r-zv~?dka chernomors'--j~-)-j J---j
; . .1 v - -)
1, . -1 1. a - - - 1--,
3
19." In. 1,10 . I I , cc . :)"~ --~ ?-
30: i~nizzh-iaya, LAo:)~Isl, Vol. 7, 19,5-)
ASIANOV-A,N.Ye.; BOGORCFV.V.G.; ZUSSER,S.G.;
X19NOVA,M.V.; STAROSTIN,A.D.
Scientific and tei.,hnical research of
I.I.Mesiatzev. Trudy
Gidrobiol.ob-va no.6:17-22 '55. IIKLRA 8:9)
(Hesiatsev, Ivan Illarion3vich, 1885-1940)
ASLANOVA, N.Ye.. kand.biol.nauk
Study of fish behavior vithin the zone of action of the
fishing
gear. Trudy V19IRO 36:33-51 158- (M-M& 12:4)
(Fishing)
ASIANOVAI N.Yel
Studying the reaction of fiahes to the not. Trudy IPITMO
44:165-176 161, ('MIRA 14: -11)
(Fishev-Beha,dor)
(Fishing nets)
--MAI
ASLANOVA, N.Ye.
Tagging of co=orcial fishes. Vop. ikht. 1 no.3:564-569
161* (MIRA 14: 11)
1. Vsesoyu2,nyy nauchno-issledovatel'skiy institut morskogo
rybnogo khosiyaystlva i olteanografii - VNIRO, Moskva.
(Fish tagging)
t
ASLANOVA, S.M.
Some datia. about fossil fish of the Shemakha region. Izv.AN
Azerb,,SSR.
Ser.geol#-geog.nauk no.5:77-83 160. (KEM 14:5)
(Shemkha ;oegion-Fisheaj Fossil)
aam ~
: 1- -,7 . 1. ~. ;: -!aw~ Ul~
ASLMIOVA, S M
Uew finds of upper Maikop Cetacea in the vicinity of
Perikishkyull.
Izv.AN Azerl:.SSR. Ser.geol-geog.nauk i nefti no.3:25-29
161.
(MIRA 15:1)
(Sumgait Valley--Cetacea, Fossil)
ASLANOVA, S.M,
Seal from Uwer Miocene sediments in Azerbaijan*
DokI, AN Azerb,
SSR 21 noo6:46-48 165, (MIRA 1802)
1. Yestestvenno-istoricheskiy muzey imeni Zardabis
ASLANYAN, A.__._.
Activists find production potentials. Sov. profsoiuzy 19
no.l4sl9-21 n 163. (MIRA 16%9)
1. Predsodai4l' Armyanskogo respublikanskogo komiteta
pro:Oessionalfnogo
soyuza rabochikh neftyanoy i khimicheskoy promyshlennosti.
(Armnia-Chemical industries--Technological innovations)
ASLAITYAN~ A.; AKOPYAN, M.
Urgent 1,Drortotion of industrial training of
specialists&
Prom. Pm. 6 no.11:21-22 N 163. (MIRA 17--1)
ASLAKYAN, A.A. 016PI-OPetrovsk., pr. Kalinina, d-42,
kv.12)
Mask-to factlitate strumectomy. Klin,khir. no432t72 D
162o
(MIRA 1632)
1. Miirargichfiskoye otdeleniye (zavo - A.A. kolan-pm)
*editsinokoy
sanitarnoy clatisti zavoda Azovkabelt jo Bardyanalca.,
Zapbrozheko3r
oblasti,
(SURGICAL INSTRUMENTS AND APPARATUS) (GOITER) ,
A3 L'U'l 11 N 2A .r .
"Dependorice Ect,,,,een Coefficient of Filtration and .*ieight of
(;apillary Rise of Ground 3oilz;."
Iz Akad 1,Tauk Armen SSR, No 10) 194b (61-b4)
(j,letaoroloCiya i Gidrologiya, No 6 Nov/Dec 1947)
SO: U-3218, 3 Apr 1953
ASLAMN, A.A. (ZaporozhskAya oblast', Berdyansk, pr. Stalina, d.22/1,
kv.29)
Treating second and third degree bWns with 'synthomycin and
levomycetin
powder. Nov. khir. arkh. no.5:101-1192 8-0 160.~ (MIRA 14-12)
- - -4 r'
1. Khirurgioheskoys otdoloniya medsanchasti moda "Azovkabell"
Bardyanska,
Zaporozliskoy oblasti.
(BURM3 AND SCALDS) (CHLOROMYCETIN)
Lila
- ASLA11YAN., A.a. (Berdyansk,, Z9.porozliskoy nbl..,
prosp.Staliha, d.22/1,,kv.29)
Acute obstruction owing to primary carAer of the small
intestine.
X;ov. khir. arkh. no.3:89 M34Je ~60. (14I.,Lk 15:2)
.1. Khirw.,gich*eskoye otdelexiiye modsanchasti zavoda
"Azovkaboll"
goroda Bardyanska, Zaporozhokoy oblasti.
(INT.~STIN-,,A.-OAIIC2R) (PITESTIRES-OBSTUCTIO113)
- ASLANYAN, A.A.
Drum with 4 sections. Pov.khir.arkh. no.1:84 162. (MIRA
15:8)
1. Khirargicheekoye otdeleniye mediko-sanitarnoy chasti
zavoda
"Azovkaboll" g. Berdyanskaj Zaporozhskoy oblastio
(BAVDAGES AED BANDAGING)
AZIZBEKOV, Sh.A.; JVIRASUNOV, A.A.; ASLAIIYAN A G
- MTSTAFABEYLI
_! J, jP
ILL.; SMAII-YAH, G.A.; TVALCIUIELIDZE, G.A.;
TSOY, V.;
KITAYFITKO, L.G., red. izd-va; SIVAKOVA, T.M.,,
tekhn. red.
[Geology of lead and zinc deposits in the
CaucaBus and their
distribution features] Geologiia
svintsovotsinkovykh mesto-
rozhdanii Ketvkaza i --akonomernosti ikh
rameshcheniia. Otvet.
red. A.A.Amiraslanov. Moskva, G-jsgeoltekhizdat,
1962. 165 P.
WIRA 15:7)
(Caucasus--Lead ores)
(Caucasus-Zinc ores)
ASLANYAN, A.GP
C~, the accuracy of a solution proposed by Carleman. Dif.
urav. 1
no.10:141.1-11+22 0 165. (MIRA 18:10)
1. Moskovski-y fiziko-tekhnicheakiy institut.
SANAMUNP V. A.; AISLANYAN, A. M.
Variation of' the flux density of the radio source
Casniopoia-A.
Soob. Biur. obeer. no.30:35-43 162. (MIRA 15:10) \1
(Radio astronomy) I \
TOVMASYANO G.11,1.; SANAMAN, V.A.; ASLOYAN, A.M.
% New data on radio emission from the spur-shgped region near
111 = 300. Soob. Biur. obser. no.31:53-56 162. (NIRA 16:9)
1. Inatitut. radiofiziki i olektroniki AN Armyanskoy SSR.
-- I -- ~-' ~., :., - . I
. - . - F,- - - . !, .
SANAIMIYANP V.A.; ASLAIWA
.E,_A M. .
. . .... .4_
Variation of the radio emisaion flux from Carsi()PE!ia--A.
Astrofizika 1. no,2.-247-250 Je 165. (14111A 18%10)
1. Byurakanskuya astrofizichoskikya obser-witorlya.
ASUNYAN, A.T.
Origin of Lake Sevan. Izv.AN Arm.SSR.Zot.nauki no.8:39-44 147.
(MM 9: 8)
1. Inotitut goologicheekikh nauk AN Armyanskoy SM.
(Seven, Lake)
ASIANYAN. A.T.
Age and origin of metamorphic shales in the morthern
slop of the
MiaporslWi (Hurgusakyi) Range. Izv.AN
Arm.SSR.Rat.nauki no.8:
69-73 '47- (Wak 9:8)
1. Institut geologicheekly nauk AN Armyanskoy SO.
(Miaporskyi Range--SMle)
ASLLHUN, A.T.
".
%M070MIMIa"s for determining the thic)mees and depth
of a stratum.
Izv.AN Arn.SSR.Ser.YMT nauk 1 no.1:81-84 148. OMM 9:
8)
1. institut geologicheskikh nauk Akademli nauk
Armyanskoy SM.
(Ingineering 9D01097)
A. T.
ve6loEw jun 1948
~Stratlfloixtlcn
Tootcales
OftwDats, on the Stratigraphy of the Jumesio Depoelto
of,lorthern Armenia," A. T. Aslanyan, Inat of Geol
Acad Bei Armemian SM, 4 pp,
Ak Nauk EISSR" Vol LX, No 7
-6m his-studl a of Mesozoic deposits of northorn
ft ~e
i4lms of . Armtenia, -author has developed detailed
lgrqphic pattern for rooks of Jurassic eFetem.
On'buitte(t mar 1948.
ASLANY-ANT, A. T.
30184
0 vozrastye Offu7ivnykh Kvarbsyevykh porfirov
inalopo ka-,rk-nza.
iyvyestikh akad, nauk SSSR) sycrikh mreol-,, 1949
110- 5, C. 141-1b4--
Bibliogr: 13 nazv.
SO: LETOPIS' NO- 3b
USSR/Geology - Strati 'fication Nov/jDec
49
Petrography
"Me Age of the Vulcanogenic Stratum of
the Central
Part of the Little Caucasus," A. T.
Aslanyan, 10 pp
"Iz Ak Nauk SSSR, Ser Geol" ITo 6
On the basis of personal studies and a
critical sur-
rn., vey of literary data, Aslanyan
proves the young
T4 vulcanogenic-clastic strata of central
part of the
Little Caucasus and gypsiferous,
salt-beari-ng strata
of southwestern part of this region are
stratigraphi-
c4ll_v ennivalent, and belong to the
Sarmatian Age,
t~e
vhIle
blanket deposit of doleritic basalts
.00
152-T43
USSR/Geology - Stratification (Contd)
Nov/Dec 49
of the Axnenian plateau is separated from
this
vulcanogenic stratum into an independent
strati-
graphic level and belongs to the
Akchagylskian Age.
152T43
ASUNYAN, A.T.
History of the origin of the Armrnt Hollow. Dokl. AN
Arm,SSR. 11
no.l-.29-34 14). : (MW 9:10)
3. Ineiltut-Igeologicheakikh ruailk Akademii nauk
Armvanskoy SSR,
Yerevan. Predstavlano I.G. Magaklyanom.
(Arnrnt region-Geology, Structural)
ASLLNTAN A T k,
Machanism ()f goosynalinal folds. Ixv.AN
Arm.SSR.Ser.YM nauk 5
no.4:7-16 152. ()CWA 9.- 8)
1, Inatitut goologichookikh nauk AN Armyanakoy ;MR.
(Folds (Geology))
ASLANTAN, A.T.; BALOYAN, S.P.
Traces of Lower V4=ternary glaciation in Armenia. Biul.XOIP, Otdo,
gool. 28 no.6:73-74 153. (MM 6112)
(Armania.-Glacial epoch) (Glacial epoch-Armenia)
ASUNYAN, A. T.
"Relation Between Volcamic Activity and Deformations of the
Terrestrial Core".
Dokl. AN Arm SM. No 1, pp 19-25, 1954.
Volcanic activity is related to periods of elastiv undulatory
deformations
ofthe terrestrial core) according to the assumption of
geotectonic contractions.
The rise of magma is due to pressure of the core and
expansion of gases.
Gravitational anomalies should be observed in the zones of
volcanic activity.
(RZhFiz, No 11, 1955)
SO: Sum No 884, 9 Apr 1956