SCIENTIFIC ABSTRACT GLAZKOV, YU.V. - GLAZKOVSKIY, A.
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CIA-RDP86-00513R000500010020-3
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RIF
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S
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100
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November 2, 2016
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September 17, 2002
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December 31, 1967
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SCIENTIFIC ABSTRACT
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AU i'l 1 W Y"
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ly
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1. Giass-.Crystallizutim, 2. Farmaces-. A.pplioatIois
3~ Glass. -Proper tJLes-.Ref-Ie:;, ticm spm:!t:~~a
C', u r (I
GIAZKOV, Yu. V.
Applying infrared epectroscopy in studying the crynti.-llizatlon
of Na 2O-SiO2-system gJaRs [with ejznmary in English]. Inzh.-f iz.
zhu.r. ' no.li%-100 Ja '59. 04Mh 12:1)
1. Institut fizilei i materiatiki AN BSSR. HinBk.
(Gla8s-'Spectra) (Crystallization)
Gluzkov, Yu.V.
I TT F The Applic tion oC In.`--.Lred 5. ect ros(,cpy to y of
Crysf,cLjji::ation of of the r i n", -
n on iye i n!- r Lk rui noy .31 e k t rsk o p i -i k Lu 0 "1 e n ivui'.111
zatsii L;tekol
P` ETODICAL:
L h."1C T I t:i of I i ion iy (if'
is 110 %'rv~ v e 1;~ 31, ib rt i,; 11,~
A peculi,tri ty rj t' :;uch ;omi w-n i,,; .~ oyi.i I.; t, 3 i rt 1.
oompounds ,omc ri:;ing tips
eously in cry~;t-.Jli;~-Aicn o" 'i.r. :0y of' ItV0-,;(JIRf;Cf.f2f;t,
n~i Urio chemic,L1 ccmp OAS CXpV-,to,4 t-: ayjQ:-.iI i!i
li-ation f;-culd be sodium Jisilic ~~te and s-41.ica. '211 e s t 2 ~-, t r v
Of t.102e compounis ,-~re knc-~;n, ,ind this rroviles a -.osl3iii"ity
to ;tu,iy the process oIL k:f the Of' 2U,(!C-
tic ~;truc'ure. "Ilif invo~;t.14:- tion -Dut t-.- St"I'ving
infrl-.vod ref-t-r-tion v' i113, f --i I ly
_s,;es ir, to 1~)
MC(.1. t.1 ozje can-
Card 1/2 not he i,.-turt vo,.ed :~s Pe % i C S i I i : R t
-f he A I) p I ic at ion of' Tnf'rared Spec trooco; y to fll,~ u if -c 1'. of
Glas:;("s of the !:a C-~,io~) SI!;tem
2
or ()-,~cm~
o.!-nt -m,-j r ;Lr,(l 1 s 0.)-
tttin(Id ct:.:-,r~ct te Irec-'sjly identil'--e-J,
ii'dict-tioris as tc 'he pres,-!rco of rt"I.-ir
L;I,Iic tes
u-illion und--r
Tilor(- arQ 5 ~,r-ut;.m ari4 6 ~-Iovi-!t
A:iS,OCTY..TI ~N: Ir.,- t i tut f iziki i matemf t ik N Trj ;7,
and
4
~-Iatherr,;Itic,q of tl'e th.) -'ellcrussi-jr,
Card 2/2
AU!HCrk:
Ti
p E-~ i I ,j D I C A Linzhenerno- z iii ii,! I Nr
. , I' Inn pr,):,e.;.;
A ~;Tf A (-T lho Iw~hor :;Wdled th,-
colltaLrllrlj~ L~; uld 'i", mol.:I; 'A' oI
ovcrcooilng. The identli'icatlorl o", w~l~- maiR
by lrlii wcki re"leo(ion .111 Ule 1---,gioll ot, 1:,
nour-~. lp to d f f forent temperature-,i Inc 1 ud tni~ it,
de,-,orihed an,l Thc- zn h?
- e - -1 - -, ~ :~l '. - ~:,~ !i I-,
the id ot f-h" quiiiLr;uf,:
ch--tr;lc -,-? r i
uvol. the v,j if: the
i,u -, .:u 1 -'ri, y
um f-Y
Card 1/1) Figl-;re )w
7 jLl
'rho ikljp I ion In 'r -2d I I,y o if..
pli I [In'."Ill; Ii 1,!, r'lli; 1-", :1 )1 1 i'v': its,
t,h .1i'l it
t Lon c, rcducl._~, out b,; V~ukllill, "I ~t! :i"-. rri~;3.-
t
u!: I, It tll~ Ir t, _o- jr! 4! ~'!i-k-I !.V. '.;I f
b, i t'e rert u tti,~: t! 0 11~.. ('I'v!~, it 61-.
~11 Ic e n e n i! i,
_L 1 i 7 , II-,
it, i
yo,
C a r (1 2/ 21 ) ~,,, i;nion z..jI ~i n u, i u I,- 1 .2 1
05 27L
-59- /-5/Et
The Application of Infrared ~3Dectroscopy to the Study of' Crysta.1lization, of Glasr, cf tile
Na 2G, - sic, 2 System
~3ui,face crystallization were confirmed. III conclLW.Lon the author thtu-ik~;
V.A. Vlurlri~31;aya for, the guidance and a.-islotwice In Jnve~;Wgatlon.
There are: 3 graphs;, I table and 8 Soviet
A,'j-';X.'1ATION: In:3titut ['1zlki i matematiki AN (Jnstltute of I1hy1,;I-,!3 zuid Maitiiematics
of' the A~; Belorus3iitn 3SiO, Minsk.
Card 3/31
~/25
1 iV 1, ~l t o t, ra i ~.v iii :n: zY
s
rt r e 1(~ctor. b Firy I
di~ e s f whim ha,l a 1- ni~
y n .-I, ., C
vol ir. fl.-
n r~, . ej
e n rn, np n nT, I-) a ra ~a ii
mm i n rl I., i i r 7, T-t ng -
r -n-, e.~i ; de m (-r- Tho wr. r m-7 Vl~ ~I'W.
w h h n no 1
Im 'r'tf
ri:
15
!i ri
arn,
n c h
~ I
% I I lip r"I 1.1 1
fr. c - n
~,i n i
7v
kV,
A Te!-,t Rea ctcr 7, 4-th Gas r~'0113 1~ is si '.';a T --r ,, 1T F1 7 :1
plot tod . For Oic.. rk uct iv t.,,, t h.
T = , ~ a - 11
was four, d . The dr-pcnaenco iv pI ,-.t t-~, Jen!)t !~; th(- t imE
-1. ~ t h in -.,ih i ch t hl.~ not. I. r~i ri !' Lu X 10.13 .1-,d
im, eoet'fic 1 cni ~~a.3 MQ-3 3~ired a. no s hn, n form of
a graph . The disnoc i"i t Jon rate of the rqo I (oc., i i!P,.
termined as amoantinp o" cnloro-
- , t( I
trifluoride 91!Ov;S thnt -.-,orkinla condi-Li,iin; crin ua~ fo;nd in which
stability o,,' radiation of the uran~-,Tn-hex~.fluoricl,:~ in the rp,-
actor can h(., attained. t,. M. Suscv& a s!i -, ctod Lm mnsc.mblirig the
LIpparatus in collahorrxtion with A. Th~!vv ar~- 1,, fig-
ures and ', ref,~-renei~-B, i of' which is `cvi,it.
I!, i r d
"' 1/'C;1O1'0G4/C 1 ~,"027
B, 0 2,, -,3 ..' 05
AUT1TORS Glazkov, Y1;. Yu., Dubovsk!,/, 3. G., Kuznet-zov, Y.
semenov,v. A., Pen Pan
TITLE: Study of t:iermal-neutron qcectra in
means I-f monoc'~romators
PERIODICAL: Atomnaya energiya, v. 10, no. J, 1961 , '8l-'t13
TEXT: The exner~.ment3 jescribed in this "Letter to the EJitor" -,o~:-e
carried out in a reactor, in the center of -N,:-,(,h a
sub-critical assembly !&as installed. In order to tLo op, tmurn
diameter of the sub-critical assembly, the experlmen'3 were made sit
different diameters of "-e assembly. The monochromators Liaed for the
purpose viere desi.,ned for measuring thermal -neutron spectra. in ch;(~.tcal
low-Dozer reactors ~cl, A. P. Senchenkov, F. M. Kuznetsov, Ltomria~ya
energiya, ~, vyp. 2, 124 (1958)). The number of neutrons recorde'l-I by t1he
detector per second was calculated from the relation
N= n(v,)Vo 1 Sd h 1 :q:. 21 ~~ . n
Card 1/5 4 7-It H il 11 (w rc26o
S/ 0 6 9/6 1 1!01,-, 0 0,1/0 1 1'0 2
1 1:
Study of . . . B102~B205
where 11 is the number of counts of' the letector per seconfl,
neutron fl-.ix in the oenter of the reactor per unit int,~rval of j e- I c I t Y
n the sneed of the rotor per minute ; S, L, and h are , ne wid t- 111 n v t j I
and height of the collimator ; d is the wid t1i of tlhe r, ),IkzI , ill I~he leni-,th
of the rotor, r Cl p t ht. A ~ .3 ~:irv~e betmo on tho ax i 0 iln] er -.,f the rotor
gap, V the number of rotor guos, v -&jr
D/a the v,31,~ci t,~ of f-ssi-n
neutrons for a given angle of rotationa andagiven an,,-ilar veLoci%.r W
of the rotor, 11 the efficiency of the dete(~tor Cor
v and 6 a coefficient a(~cotiriting for the RbOOrOt~Orl Of I I I'
o
velocity V in air. The resol"Ition of the
0
&V h CR
v 0 wr Cp L H ij r., L v
where 6v is the half th' of the resol-i tion curve and 5, 1, fj,, ',I: '-o
width of the statistical transmission curve. T h e re 3 t i 0 --1 11, (D f t.-: ?
Card 2/5
2.)612
oo'! "o
00
ne
u
e rj e r
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:In n
enz
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c n
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57
17 T-, c of 63
ar, cm,
0 M. Lz o r c n
7
-ro
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-
t! t""! only sl I j1i f-ly fr, mthe I' an i:i~-tc r e a ~7 f:-
r c. r n,-- e
t: i1r, 1 na nul
S'; B Decembei- 7, 1""60
Lc-,~n,l to cell
IT - chz,,.-,n,21 7, it'". Uranitun
th enriched to 1 .2
A,
Cl'c
-9
jc~ Uz 2.T.Cpnia
..4z !:~-.Zn -z,:,: 'Aly 'G*A "1'T n:U.C.A
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ar,61
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Cq
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trg
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-P2 A",q"Ty
AMd - --2.0a 'A"Jlw
-[;'A X=~'.'-V tiS'ED 'jDqC2X FUJPUOdf~40:1 'ACCRTAOM
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ligg
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T.U..Tl-c Tw-pa
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P, "J" CC (!I-,. e 01
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P- -.3-9 ;o 0240d.v)
'794VA00
9A.W." tmi..tion WJT, APVT)IOa
-9~6T Im *
TWOTZ~.Juj
"105 2009 1 smi
PHASE I BWX SaXPLIO~rATM11 wv, ~'583
International Conference On the Uses of Atomic Mnr-rz:1.
2nd, Gohva, 1958.
Dokladj sovetakikh uchanyiLh; Y&SCMY76 reLiCtOey I Y&dern-'tYft en-
gtika. (Reports of 30~t.t 3cientlat.; N-lemn Remetzrm ~nd
Rucle r Poor Ko ..' Atcd--at, 7C~~ p. (Sertes: :t.:
TrQdy~ 1. 21 t. 11p tvacrt.d. i,000 copies pr* ......
'o Z;=
'
1Z
7
O.-ral . -Do-'l.zhAl. Mc.~" L'S$R Ac.-'-Y If
Ed
l
Arasln, Doctor of Phy--z-' and Moth-c'--'
So
:, A
-- f
A.Z. rsypi-I.kly, K-b.r, 33.R A-d~~7 of I.:-
W-Llw" Corro.p.ndIng M-t-, V&SH A,-:- Y f Scl-ce., -.~ V.S.
Fur OT, Doc tor Of Phy &I And Ratn E,!.. A.?.
sic
N
.".; Tech. Ed., T.. I. R=.-,-.
AlY
S or "d
PUT Rt This p"k Is i.t
'
In r--tor ds.IgnIni&, . I as :-.n
:
higher tachnics-I schools No- reazt- Is
COVERAGE, This I.t~, -,-d -!- f
u:f' atomic energy. TTZ' six -'~- 'Int.'n tne rcp-r~s ;;ne-
x-
t t.-,*
t db7 Sovin sclentin.
's
1958 1. (k .
h Z 0 ". 2 cc,n.-~ts of t~:,-. p.,-. r1r-
devoted to stowle
p~ "c - Pl-t. -~en t%t
Union; the se Lun~.! -I rc-t-
*
'
er
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=
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thea, ~d ~he *nrx .Mv-e -%,Z;
the Mire--- ~MtLrl is predaM'.nahtly to
... I.$-- "go to, phye'.. sn'I
-
lbr7akln Is the sale-a odtt-r or t~-c -_~- ace
SZ~V~~
for titles of all f set_ ap;:c&r at
end Of the ~rtlolos.
P
AR'r 11' AND -M--rXi:H REACTORS
.91
T--
h
in
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'
.
.roal Rt-a-,
V.
Isotope
no
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f'or
ln-i.i Y
PAYM T 12.
_7 "'.s. A~ A.
T.
-r-2
N1
9-t-n-L
-R
.P-v No.
F-Yhb-rg, S.M., T~~. 3.
Nik.1 1,
'k-Y' A.
~
W.
tor--&r
iii.r. an,C] zxperioxn~a with the C'an-'- W.--
(Report 110, 21.5)
I
J V-A- Z*""-"LUIAtl~ in A VAter-water R.-tir
(R.i>orr- WdT ,M
1, lco
AUTHORS.
ia
T ITL E;
ZX T
Card
nv
tE
en ra
d
t e
tube f,.,'1W 4
e r
Card 2/8
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I j
25372
invest Igati 0:~
Central
21
cf a
coiumr, ~%f 76 cm
C e n t r a 1-1 channei un ,f
21 cha.-,nel s .-, it ,c t .7 a t er
t'-e ~Hs ty--e as
C. t. 1. "a
te
and 1). Oz w i t
S e c t r Limn
e v
i, I v r
72
iL
L
if
the iatt)-ce u!~,;kjr
in
ur an i um. '~ n eaut;.c- t*,a .. I
C "! r ~. ~ ;,
,)/ F3
t i
V . :i Fcj -F a:i ovV'1 17 ov V i,. j,,::. L
K. T na,
A. P. ~-"d A. V~
G. Ya. Aum-ants,--i bind 1. 1 r - 1:;:~liss~'.--.s'
There are 3 f Llr'~" A
non-Soviel-cloc. Th~- thr-3--- r-- 11 i it,c z;
read as followsi K I
P t a I
~U3LIITTED t D,2 c e v LI
Legend to Table 3: 1) number of the cells in the insert, 2) helnogoneTou* lattico,
3) construction of the elements nnd enrichment of the uraniun, 4) ring-shaped
elements with wnter, 1.2%, 5) idem, 6) the same without water, 7) 35 cm thick
rods of natural uranium, 8) 35 mm thick rods of 2% enriched uranium, 9)
experimental, 10) calculated, 11) in the fuel element (according to fragment
accumulation), 12) in the gTaphite of the central call, 13) in the fuel element.
*calculated acbording to V.V. Orlov; **in ap-Teement with 'the. mvisurfinents of
M.B. Yegiazarov.
Card V8
I . Kr-
KTST I, T. ~~. ; DF If" `MY, "'. 11. ; KA-.V'EV I A. F. I -) 'A I I A. ; ')Li%7~ ) Y
u . 1 11.
"The Role of Critical E-/-pnriments in Dp:-d.vnin;: V:~! Fir.-.-. At,:jmic Powt~r
Station and thm 13,-lnyar.,;k Atomic Pow-r 3tation."
Rmpr~rt at tli,, 11VA '3y;,mrisluvi -n '11"'!
E7-perl-ments, Ams;trrdam, 2-6 SeD (,3.
GLAMOV, Yu.Yu.; DHIMSKIY, H.G.; ILYASOVA, G.A..; KOZIk)V, V.I.; SMELOV, V.V.;
S161RAP0117 V.N.
Measurement of slow neutron spectra on the phyqic!il test stand
of the reactor of Ow I.V. Kurchatov Atomic Power Flant, at;
Beloyarskove. Atnm. energ. 15 rio.6:481-485 D , 6:j .
(M'-,'RA 1"-.1)
1 011. "T.;', J,
AUTHOR',. 1`31yurn, 1. A., Olazko,~-I, A 1'.
-F, The metlio(lf-, of' determininp ,;elentum ,,I
TFVT fit a separated quanti lativ(:- i; e (1
i oil o o r e s d ec om p o 7, ed I t I I I P 1") To c) x I (I I zI:- I r
H'NO- is lr~ft, the volume is brought 1:~v a~!(Iing witer t~)
fi,
chlori,-le is added and the -,--hole is left, ovurntht.
-,nd the (~- ~)ntent i~l by th,l tric. Trot-.-J
Fe i~; prtoi;"Itated In tile I'll trite by '-hloriAn, til,~ 1u- --1
the F(~ content in determined by tht~ r,hotorolorime-r1c !rot11,,;.
Ffkbstracter'~-, notes: 1) Complete trarislat-inn.
2) The paper IS FU,)E)()5ed to dt,.~! witil tht?
tellurlum (Te) but thr, reviewer 1~: f,hroughout
irori (Fe). ...,hich Is probably a
Card 1/1
ANDIM V. K.K.; GLAMOYA, A.P.
Theory of anti-firedmup action. Doklaoy Akad. lir;.ulr. 6.S.S.R. 86, 801-3
(CA 47 no.19:10229 153) (VOU, 5:11)
1. D.I.Mendeleyev Chem.-Technol. Inst., 11cscoll.
Ca I c a r
Abs Jmir, All Kh. No
Alliflor
Ins t At iticrnv of S.. j,n, t,.-i USSIR
ritiu Oil HIC Q`11'( Uf 01C D~', Or11j)0-1itlOl1 Pi-OdUL ki illd
lit-S oil thc Do( urllpu~,I!on of N'll ro~2.1~',
Orig Pub: Do'r, 1 AN No
Ab s t r a, t lvp-
thal the dt-, o,;l1po.-;it:ol1 of ri! t:-(,:- lyc I.- r Int. (1) %vhit. it h--~ bt,t:n puri-
f; L' (.4 01 % 0t I h' !Ill I) L1 it' S%Veit V !I OT d~ 1* ZL tC (1 1) t h
prt~6(211~ C Qf A11101,1111tS Of (JI't- 0111J)OSiti.Oll When I
k on t cl i n,.D Wet t v rI of Ow is ob
t~ll;tm ;11(11"( 1~oll 1)(11".0d, UP) Thk- allthurs
this 1)~, tht. Of llitto, .kili( h 1,-i ( ;tta-
a tego ry: USSR
\b.-, Jour. Ah Kh. Nil
the ]p P-trtlv r".
Hlc
01, allwl ot ~:tkt Iloll ~1
I III, Lk I i,)11 Th, ,_iltioll ot ;Gild (A L'IV~CI-,_IdIrl1traIt, I() I
Th'' d- 0IIII)OSition; ill III,- I'mel, k A.-;"S, 1,.ov;oV(-I*, Ow
J'Iw t
I I ~ iS Oil I k 0 11 S I L I C F ; 11) 1 1 -I P
Of" %V,LT tll(! -i~ i &I dL ;, I' lb~-d I I,ove I s . I I zi k i I I b ~ ( I' V " ( 1 1 1'. ! hI n
killd'-r ~ "1't ~!ll "Jildit lolin) !II III( , t!i, ,,I I~jtro, '.11ti
C
i i,~Thc influt-vict of 1,(Ompitfit~m plodti,:13 alo I,
on lh,~
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f;Ily tit, :is I joll fit tilt- jtj.~j 14 Willo LI I N ( ), is 11-1 eq- i;t I I
11-80, raf"I've d ... sillim., 111, !,(1411105,
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S J7 3." ,1! 'i E- 1) January 7
Card 3/3
S/C76/,S I /0:,*,:~/'~C -; ,/' 01 7/01
11,5100 31 C7/ -52 20
AUTHORS: Andreyev, K. K, Glazkova, A. F. and Tereshkin, 1. A
TITLE: The influence of 1:reo~iure cri t~~e burnin,-.: :)f _!,.qu id ex~;Lo3i_le3
PERIODICAL: Zhurnal fizicheakoy khirnii , v. no. z:,
TEXT: The study concerns the combuotion of La a f~,lass tube of
3-4 mm diameter at Lress,,ires of uj to V50 atm. '-flle rute of combustion in-
creases slowly up to about 20 atm pressure in to zhe pressure
u - 0.048 1); then it r4sen much qu;cker: 11 0. in
~T
1 2 2
,-/cm sec; P in kZ/cm F,_ 6-, . 1 This hi.-her rate is due turbulent
intermittent burninE;. The aim. of the present investij,~fition waz to study the
zone of transition to interinittent burnir.~;. The fact tnat t'ne hig'-.er 1. ate
of combustion depends on the turbule-ice of the ccmbustJ.on fr:)nt and not only
on the increased amount of heat was proved by te_--t~, ;:i*:~,. -elatinous nitro-
glycol: Throughout the pressure range investigated, E, -.1Jxt'11- of 97,; nitro-
glycol and 3c,', Kolloxoline showed a uniform -and sloyl increas,~ cf tl,.e cnnitus-
Card 1/02
89576
S/076/61 /0.21 5//c 1 ?/013/0 1
The infl,.ierice of p.-e:joure 1 IY! I j:-, ~),-A
tion rate with pressure: u,, 0.075 + 0.0315 F --' c 2). The (,~tmbusticr, prod-
ucts of nitrot;lycol are NO, CO, CC (a,,,t)roximate rat;_0 7:1~ ::Ii +t amounts
of methane, and possibly formaldeh~~de. Above a (~ert!iin ;.,rescure abcut
10 atm - a secondary flame appears due to Mile final romib,~,stior. of NO, Tii e
distance between the secondary and prilr.~:I.y flrG;IPs is ltj zir, fo::- pure nitro-
glycol, p - 12 atm, and ari int.,nal tubt? dia;;Ietev if' Ii :!lm m-~,I . This
1 1 C
distance decreases rapidly with iricreasin,,; pres---ire: 6~
For gelatinous nitroglycol , the distance is shorter. For pure nitro~71yccl,
ho-.,iever, thi2 distance begins to vary already at 16-2C atm 'pressure. '-~hotc-
;_raE,'as taken with a hi,h-speed camera arid a photcrec:)-_-.Ier have shown that
t'.-lesp variat-i-ns may be regular or irre6;ular. Firially, it in-, stated zhat
the behavior of the secondary flame does not follow tLe tEeory olf Ya. B.
Zelldovich and is,thus riot decisive fcr the burnini: ol" t,-.c! liquid. Tho
tendency of the products of combustioi~ to create -1 _IHMe is at-
tributed riol only to thernal but also to more complicaLei ::henomena. -1 c -
cordin- to studies made by 1. 1. Polyakov,a secondary ia~e will aj-jear
even a,~ lower Lressureg when tubes of' ltlr,~--er ar,~ tidied. The au-
Card 2/4
S/C"( 61/0~5/0C2/C13/0115
The influence of pressure 31 07y--22C
thors thank S. V. Chuyko for making available some illustrations of his
diploma thesis. A paper of A. F. Belyayev and L. D. Komkova is mentionea.
There are 13 figures and I Soviet-bloc reference.
ASSOCIATION: Akademiya nauk SSSR Ins~itut khimiches'K.0y fiziki (Academy of
Sciences USSR, Institute of Chei,,iicai Physics)
SUBJMIITTED: June 25, 1955
2
Legend to Fig. 1: (x) p in k[.;/ctn ; \y) u,, in cm. Press,are dependence of t1ne
rate of combustion of liquid nit-roC-,IycoI.
Legend to Fig. 2: (x) p in kt;/crn2 (Y) UYI in cm; (1 ) liquid n i t roulyco-,
(2) gelatinous nitroglycol. 2
Legend to Fig. 6: (x) p in kg/cm (y) I in mr.; variation of the distance
between primary and secondary flames as dependent on 'jros3ure: (1) liquid
nitroglycol; (2) gelatinous nitroglycol. The zcne of intarmi-tent burning
is indicated by a broken line.
Card 3/4
26 31 L" ,
S/076/6 ~ ADJ lj/'OC;7,,'C - 6/0 1 q
11,63 00 B I 32/B221)
AUTHORS: Glazkova, A. P., and Tereshkin, I, A,
TITLE: Pressure dependence of the combus*iin z-;tL(--
PERIODICALs Zhurnal fizicheskoy ~himii, v. ri~: ~-o'
TEXT: The pressure dependence of the (,ombusti'-,n :',udied in a
wide pressure range. Trotyl, picric anid, tetryll. and some
mixtures such as Amatol 80:20, nitro-gly.prin p%jwd,~?.- ani ',Ia2k Dowder,
veral -.Bert, testcd.
and mixtures of ammonium perchlorate Ait, ' se
Combustion was studied in bombs at constant f 340 and '.000 atm.
These bombs were designed by the Ingtitut khimicr.k?.3k,J.,- fi,-ki AN' SSSR
(Institute of Chemical Physics AS USSR). The QJI~OL'2: L;i- Wll-i into
columns of organic glas,; of 7 mm liameter. Pi!-,i ef,'---:ted by meang
of a nichrome coil in nitrogen atmosphere, The prcl-e.-is was
photographed on the moving film of a
combustion rate was calculate t119 c-q i
~d from ua k w h e r u
uM is the mas-,; velocity during comb,-i~; t ion i f t h c-
Card 1/4-1.,
SI/076/6
Pressure dependenc2 of the combuLtion BI, ~21P'21~0
recording drum, n the speed of the drum ,:,, the i:, irit 1(:ri f t "I e
-ontitl ti-e -,;Fe ~ '-t' jor -j, -Y tile :3pe-imen,
combu~3tion front to the horiz
711 th
and k the reduction of tile specimel, on 1, he f i ILI A ::,;, r a : v uaj
trotyl ani picric acid, the comLustion rate ILn,?al-Ly with
pressure from minimum up to 1000 atm. With f-ryl i 3.J4-G-G'14p holdS
'6 1,] 1)e'-cw 250
in the range of 250-1000 atm, whereas u 0 ~. t UtM
The combustion rate of Hexogen is much lower. and sh:jwi ..,,)nsiderable
variation above 200 atm, The combuAion rate of T011 111-17~?4!1'is linenrly
in the range of 16-750 atm. In the ca:-.ie of D.,,,na, the ~~imUuijt,lcri rat.~!
above 1000 atm increases faster than linearly with pl-3-~ure, T he
combustion rate of nitro-glycerin (26-,4) powder in,_,reases wish pressure
according to the relation u M -0.12+0.158P 0.9--. 'jj: to -'_.; atm From 50-1000
atm, um.0.62+0~00926p. For Amatol 93s?O, the was u little
slower than linear in the range of 11)0-1,00 atm holds
as from 40 atm. Gunpowder no. I wai 1.zapd iii tt~:t:: -r:ith pjvder,
The equation u =Bpy was derived for 10 an(I *030 atm. The
Card 2/4 M
2634
'3/076~61/035/007/0-.6/oiq
Pressure denendence of the combu--tion BI-12/3220
values of coefficients A, B, and Y' are tabulated -for all isubstanceB
tested; moreover, the combustion rates at 100 atir., and the com'~ustion
tiomperatures calculated. Professor K. K. Andrey~v is th;aziked fox"his
intereot and assistance. A. P. Daka vev is mentioned. There sz:~ 14
figures, 1 table,an,1 A referencei: 3 So,.iet-bloc and 1 non-Sov-iet-bloc.
ASSOCIATION: Akademi'',7a nauk SSSR, Institut khimicneskoy fiziki AN SSSR
(Academy of Sciences USSR, Institute of Chemical Physics.
S U S Sl
SUBMITTED: December 2q, 1959
Table. ValLies.of coefficients A, B, and v for a number of explonives.
ILegend: (A) Exulosive; (B) pre3sure range for rhich the equation holds,
atm; (C
combustion --ate at 100 atm; (D) combustion' temperature T,
OK; (E) trotyl; (F) picric ac4d; (G) tetryl; '(11) Hoxogen; (J) Ton;
(7) Dyna; (1,) nt-)-p rLn 28',f, novid-jr; (M' bliwk powdor; (N) Amatol
80:20.
Card 3/4
AIMR.EYEV, K,K,,; GL~ZKOVA, A,,P.; IERE-SHMI., I~A.
lv'~ffe-t of prp:2wre on the I~r,.uLing of liquid explc.-;Lves, 11hir.
fiz. ichim, 35 no,,2:42(-,,430 F !61. (MIRA 16:7)
1, lnstitu~ Ichimicliaskoy fLzild AN SSSR.
(E~xplo,3 I (Combustion)
C'L'.Z~1-111. . - , I '' - I
. . - 1. ; - . - \ - ~ - , )
E f 1' , ~ ( '. L() L' i I- , : - ; - ; u r, !oli ~ it , i J f' i-, 1 ~ : , ! ~ I j t 2 1 ir, , , .i I :' t :~' , .11 ; I'1:1 1 ~z I -,-
, - I t 1 ~ , r: i t'k - .11 i'll, Ffit -. . , , : I . , I - I . ~ ,, . ;-( )I " j. (~ t.tl : IA I , - : .1 1 )
WW"WJW JWI)/H
ACCESSION NR; AP3000421 S/006/63jd3l/00911.119/1123
AUTHOR t Glarkova, A. P.
TITLEs The effect of a liquid la~ r in the ombustion of i.1capos L
ye c tit system
a
SOURCEi AN SSSR. Zhurnal flaiclittaltoy khtmUp vp 32, noso 5~ 1963, ~119-1123
TOPIC TAGS: combustion of composite exploalves, burning ralto, praisurep awmoihiumi
Perchlorate, potassium perchlorat4, paraffin wax, trtethy~04%iti glpl.bl dimoth-
scrylate
ABSTRACT-. The role of a molten oiidizer and Oombustible 139k:.ms fivied in the
combustion of composite explosives has been studied. Amsioll LL-H_rC1!1Rr_&__tA0V
.;;\\Potasai= erchlorate was mixed in stoichimittriti pr X
oport it 6: Vi th ~ 1~ow-m
point co ustibles monomeric triethylene.glyi~ol dimethacrytit'it, par~ffla wax)
or with nonmelting combustibles (polymerized triiiitbylene.gij'-~ol tftj~iiilthacrylatalq
coke, cellulose, ~aphthalanellurotropin Mixtures wits-i- it4i size of ldss
than 250pwere compacted in plexiglads 4:12's 7 mm in diimetair, and the burning'
rates at pressures ranging from atmospheric to 350 ata ware itttermin6i~ pbotogr~pbi-.
cally in a nitrogen-filled constant-pressure bomb. The buingng-rate'versus prissuril
Card 1
L 10533-63
ACCESSION NR: AP3000421
curves showed that mixtures of ammonium perchlorate with liqistd or lowrmeltinjj~
combustibles burn faster and mixturee with norgmelting conibusliblou b4rn slower
i than the perchlorate alone. Mixtures of potassium perchlota,~.e, which fatus a
molten layer, with nonmelting and melting combustiblfs burne4l at 4)wAt-identica
q\1wLth motiomerit tind polymeric
rates. In other tests, mixtures of ammonium A&tr~L
i methacrylate burned at the same rate 'at 350-1000 atm. The eitperiat-ital results',
are explained on the basis of the following mechanism: In the proseitce of a
molten combustible layer the oxidizer particles are covered with the vielt, which
increases their reactivity and therefore the combustion rate. The pr.esence of
I the combustible melt eliminates the buffer flame which is fozined by decotq)ositlon,
of the oxidizer, and therefore the zone of maximal temperaturit is shifted to the
surface of the condensed phase. Further experimeats with anao~nium aiLrate of
less than 250t, and 1-10~i in particle size showed that in tbe'presanca of a
melting combustible the grain size has little effect on the otimbustian rate, but
does affect it in the presence of nonmelting combustibles. Previoull totudLes ara
also discussed which showed that in the combustion of mixtureti of imai~,alum
perchlorate and paraf f in wax, the burning rate Increased expoiiantial ly with
pressur(a up to 300 atm and linearly at more than 300 attt. 111tit &uthorl considers
it her pleasant duty to express thanks to K. X. Andrevey a5d It K Botiolev, in
hur re "N -140 t hor;-,Uk~ol
, riNrIMIS No t a.
10 nov d rgo n r
9
Card
OWN=
j
L 1333246
:s
ACCESSION M.- AP3003856 sxoroz A51A
~106
AUMCR-
110olevi V. K.; Glazkova
A. P.; zean A4,L,
T.
IN tj
llorW
Tnu:, Temperature profile in,
4
60,440T;
SOLWE-. 'AN SSSR. Doklady*o V, 151p:
no. 31 1963
~J_
TORIC TWSt t", reituie. #i3f-* U
~T
----------
~-pMse
ABSTR=l The. Quo _C(Mbustion
AnOuLl 2i
4L a. d
abova,150, tM, Pqpte y: of:
carried. mit thi, 1wthod", of.
pacted-sem adim
I md ]A
,p ep.~of um per
Ae 30.
to $lil a nitrogen a
,t~ ~Ob vatte famnil
t The re'Corded os Og
Card 113
COWTO
a TJ5
es
0,
L. 13332-63
Acassim m. Anoo3856
showed two distinct combustion patterns: a stable one witbdn 40--150 atm and
an unstable one within the 160--350 atm. The.region of i=tdbla combuntion was
characterized by temperature fluctuations with a high (up to 500C) empliAtude in
the gas phase, followed by a leveling off of temperature at ebtAtt 2TOOC, which
was assumed to be also the temperature at the stwface. The surface temperature
(Ta) was determined either Indirectly from the mmdmm heat relcmum in t1ae con-
densed phase or directly by a method proposed by P. F. Polthil (6arn. 'Ti:zika,
vzry*va, to. 4, 1955 and no. 2,, 1956). The increase in mrall bitqit releeue with
increasing pressure observed within the region of stable comb-astion wini attrib-
uted in part to a simultaneous increase in heat release in the goa phEUie and in
part to a change in the mechanism of chemical reavctio)as. The he~ relt
Ilit Mpe in
the condensed phase, and hence Ts, decreased with increasing preiMure m! ap-
proached the temperature of phase transition within the range of unstmblo com-
bustion. The existence of a heat barrier (80 Cal/g) between the two ce'r4l"'Unt-Ion
regions was determined from the identit7 of the eitperimental heal; reledne at
150 atm in the condensed phase and the calculated amount of be&t reqlitr(24 to
bring the condensed phase to 2TOC. Heat absorption in the phase tranzition
might be responsible for the decrease In burning rate which leatLai to Tlame ex-
tinction. The surface temperature in tile 50-150 L%tM pressure rgiage iras found
Card 2/3
L 13332-63
A=SION NR: AP3003856
to be relatively low -4 vhich indicates a heat flow emd. hence (Umsiot
300 30 #
of molecules and free radicals rom the flame zone tovs;rds *.e :rpurfape. Activated
combustion products are assumed to act as catalystc of thermal (!Iecompos:Ltlon on
the perchlorate surface. The assumptiom is extended to the caml,,m%istion of arq
conaensea system in which heat flows from tht gauccuss reac~tion :,,orne frj,,rjjX(I t'4e
surface. The article was presented by Academician'Ya. B. W.1dorich 9 Apr
1963. Orig. mt. ban: 4 figures.
ASSOCIATION: Institut khimicheskoy fimiki Akademil nauk IISSR
Chemical Physics,__Academq of Scien2es qSgg)
SUMMED: 3214ar63 DATE ACQ: 15Aug63 do
L
SUB COD8: CH No RLF sav: oo6 0IM-7,R: 004
Card 3/3
ACCESSION A.P1,0412G6
S/02 (Y7161,10CO1003101531015 8
AUTHOPS: Bobolov, V. K. (Mfoscow); Glazkova, A. P. (Moscow); Zonin, A. A. (MOGCOW);
Loypunr"My, 0. 1. (moscow)
TITLE: A study of the temperature distribution in tho combustion of ammonium
porchlorato
SOURCE: Zhurnal prikladnoy mekhaniki i teV~inichosko~-- fiziki, no, 3, ~964, 153-158
TOPIC TAGS: temperature distribution, combustion rate, pressure effect, flzrA
temperature, grain effect, phase change, decomposition, point thorrneouplo,
sublimation, condensation, combustion stability, heat liboration, o:3cillograph
11 700
ABSTUCT: Studios of the combustion of preheated ammonium perchlorate at below-
atmospheric pressure show that the combustion rate is limited by the equilibrium
endothormic decomposition of ITH4C104. to ANH 3. and HC1.0,'. A zone combustion treat-
ment of burning indicated, howover, that the decomposition was exothormic. The
-0 1 th
, int thermocouple me' od, developed by A. A. Zonin (Izuch-Bniyo rasprodeloniya
~omparatury44 pri goronii kondensirovanny~~kh voshchastv. Dissertatri'va, Moscow,
1962) vas used ir, L.iis paper to study the temperature dist.-ibution of
Cord 113
ACCESSION IM: AP4041206
armoniwa porchlorato combustion. Two p-ty-pe thermocouples, ',N-Ro (5 and 20;,"Re)
with diameters of 15 and 30 p. and a thickness of 3.5 and 7 AL respectively,
wore used. The 7-mn samples of unfiltered porchlorate (prossod to a density of
,/cm3) were treated over the pressure range 40-350 atmos of nitrog,01i. The
1.93-1.94p
thermocouples were impressed in the samples at a prossuro of 3000-3500 kj,/cm;2,
1 -20 minutes produced transparent samples, The
V
aintaining the pressure for 15
temperature distribution was recorded on a loop oscillovraph H-700, and the speed
and character of combustion were photographed. It was discovered ',,hat at the end
of combustion there was a temperature fluctuation 50 msec and 500-1000C).
The flame temperature fluctuation and plateau agreed well with the decreased bright-
ness in the photographs, but complete eyamination of the oscillogram for unstable
burning was not possible. This wvuld require more precise recording of the fluc-
tuation of the burning rate (perhaps with high-speed motion picturos). in some
casos tho burning was extinguished. Temperature profiles were obtained from
40-350atm, which showed "he presence bf 2 combustion schemes for =1onium
parchlorate, stable (40-150 atm) and unstable (160-350 atm). Abnormalitiee were
discovered in the relation of the surface temperature and heat liboration (in
the condensation phase) to the pressure. Assumptions were made concernin:r,; 1)the
variation of the arzordum. parchlorate oombustion meahanism with tho 7owth o~'
pressure; 2) the qualitativo effect of the producto pausing from tl-.o reaction
Card 2/3
:: . AP404-1206
2ono in the r,-as phase to the surface by gacillication of the cotdonsation phase.
U
An hypothesis wan proposed concerning the reason for the docroziso in the arzonium
parchlorato combustion rate with an Increase in pressuro above 150 atm. An
imnortant discrepancy was established between the kinetic thermal decomposition
an~ the kinetic gasification of perchlorate with combustion. Orig. art. has: 6
figures.
ASSOCIATION: none
SUBMITTED: 15Apr63
ENCLt 00
SUB COM: GO NO RET. SOV: 001, OTHER: C05
Card 313
Gl,,,~-,KOVA, E.L.
(,f ;`h; 'n ~- tin,it ~t, ;~l I I . .
. :.. ! .11; , :!r~j,-pollprln
... ." ;,,; ,
Gi-
-! . 16 ) I ,
C ro In ,l i -,- Li I . ") -~ 1113 r i c wo -, J I ly i I - C) I ". ~, , - ! :.; . ': i ~o I.. " ! " ;; i . : 1,~! I ~ ~1,, -1, 1
164. 0.LRA -18:3)
.,, GLkZKOVA, G.
Balancinr income and expenditures by districts. Don. i 'cred. 17
no.e,:5,9-60 At-, 159. (KIPA 12:11)
1. Starshiy kredituyy inspektor Sverdlovelcoy oblastno7 kontory Gosban'~M.
(Sverdlovsk Province-Bauka and banking-4ccounting)
00 S/020/60/1 32/03/43/066
B000007
AUTHORS. Spitsyn, Vikt.- 1~1 Academician,
Glazkova, I. N.
TITLE: The Influence of the Radioactive Radiation of a Solid on
the 1~rocesses of Its Dissolution
PERIODICAL: Dcklady Akademii nauk SSSR, 196o, vol,. 132, No. 3,
pp. 643-645
TEXT: The authors investigated the solubility of BaSO 4 which ivas traced
with S35. They describe the production of Bak 41 the specific surface of
which was determined by means of a microscope and an electron microscope.
The particles had a size of 2.7-8.1,P . Furthermore, the activity of
precipitate and solution was measured in intervals of time, Fig. 1 3hows
the kinetics of Ba~O 4 dissolution of different activities at 200C. 3a~30
was obtained by mixing equivalent quantities of 0.1 N 30111tiOnS Of BRCI
and Na 2s0 4' With a specific radioactivity of the pri~oaration of O~7-1-0 :-j
Card 1/3
The Influence of the Radioactive Radiation of S, 020/(SO1132/03/43,`GC-:6
a Solid on the Processes of Its Dissolution B00,03007
curie/9 considerable oversaturation was obsjrved, ~h locrt-e-iu:-d
25 h. In the case of preparations with 9-20 millicurienj /it the concentra-
tion of the dissolved BaSO increased proportionally 741,h time. The
4
solubility of BaSO4 is increa3ed by an excess of Nft?sottl but enpi~cially
by an excess of BaCl (Fig. 2). If inot-iad of Na k a 0,1 N H k 111
2 2 4 2 4
used for the production of Bak 49 solubility decreasea (Figs. 3,4), but
the kinetics of solubility shows the same phenomena as represerLted in
Fig, 1. The authors explain this phenomena as being due to P-radiation,
by which the electric double layer at the interface in lnfluenced~ This
influence acts in a similar way on the dissolution as the ion strength of
the solution. The occurrence of a maximum is ascribed to a chRnge in the
interaction between P-particles and the substance with an increased num!~,-'r
of P-particles. There are 4 figures and 14 references: C" Soviet, I Auatl
1 French, 1 German, and 1 Dutch.
ASSOCIATION: Institut fizicheskoy khimii Akademii nauk SSSR (Institute of
Physical Chemistry of the Academy of' Sciencen, USS~~--
Card 2/3
The Lu.iuence rj.L the Radioactive Radiation of
a Solid on the Processes of Its Dl.-33clut~on
SUBVITTED: February 24, 1960
3/020/60/132/03/43/066
B000007
Card 3/3
SPITYfN, Viet.I., aktdemik;TORCIIEhIOVn, Ye.A.; GL~ZXOTn, I.N.
Process of silution of barium sulfate tagged. with two radioactive
indicators. Dokl.A SSSR 1.33 lio-5:1111-1112 s% 160.
(NIFUL 13: 8)
1. Ingtitut fizicheskoy kbimil Akademii nauk: SM.
(Barium sulfate) (Barium--Iootopes) (Sulfur-leotopes)
ACCESSION NR: AT4013959 S/2659/63/010/000/02:19/0246
AUTHOR: Arkharov, V. I.; Konev, V. N.; Nesterov, A. F.; Andrianovskiy, B. P.;
Glazkova, 1. P.
TITLE: Investigation of metal oxidation in sulfur-saturated air
SOURCE: AN SSSR. Institut metal lurgi I. lssledovaniya po zharoprochn-j,"m splavarn,
v. 10, 1963, 239-246
TOPIC TAGS: OXidat. ion, Sill fUr, t i tanium chromitini, waganese, cobal t i ron, nickel,
fautal oxidation, transition elcuient
ABSTRACT: The presence of SUI fUr in the ai r frequent ly leads tr.) acceleration of
the oxidation rate, and sometimes to dangerous accidents. The present paper de-
scribes the rCSL1ItS Of investigating the oxidation of Ti, Cr, Mn, Co, Fe and Ni in
air containing two chemically active components: oxygen and -,Lllf:ur. For this
group of metals the importance of sulfur in oxidation increases from titanium to
oicke I .This is explained by the fact that the sulfur activity rises and the oxy-
gen activity drops. The percentage of sulfur in the oxidation scale increases
from 0.004% for titanium to complete ~ulfuration of all the nickel under the layer
of NHO. This explains the brittleness of nickel during heat treatmenL in sulfur-
o5taining media. The process of metal oxidation in sulfur-oxygen media corrobo-
&
1 1/2
ACCESSION NR: AT11013959
rates the previously published opinions of tile authors. Orig. art. has: 2 figures
and 2 tables.
ASSOCIATION: I nst I tut meta I I urgi i AN SSSI1 (Isis ti tute of Meta I I urtly AN S a SR)
SUBMITTED: 00 DATE ACQ: 27Feb64 VICL: 00
SUB CODE: 1,n,4 NO REF SOV: Oil GTHER: 0-02
Card 2/2
L 18102-63 EWP(q)/EW(m)/BDS AMCASP
ACCESSION NR: AP3004596 S 101AV016/001/0086 /0090
AUTHORS: Konev, V. N.; Nesterov, A, F.; Glazkova, I. P.
TITLE: Study of the reaction diffusion, in the systems "metal-gas,mixture." 7.
Molybden - Silicon - Boron 1-0
-V-7 112, 7 -
SOURCE: Fizika metallov i metallovedeniye, v. 16, no. 1, 1963, 86-90
TOPIC TAGS: diffusion, ternary system, Mo-Si-B
ABSTRACT: Experimental results obtained in the investigation of the reaction
diffusion in the system Mo-Si-B are discussed. The experiments were made at
temperatures 800-1200C following the procedure described by A. F. Gerasimov,
V. N. Konev, and N. P. Timofeyeva (F101, 1961, 11, 596). It was established that
a diffusive layer is formed in the system Mo-(B + Si) in the atmosphere BC13 +
SiC14 + 112. The layer consisted of phases with the structure !4132B5 (to 1000C),
and M02B5 With OC -MoB (above 1000C). Apparently silicon participated in this
process (the diffusion of boron was slow and the activation ettergy of boron
diffusion had a greater value than it would have in the absence of Si). It was
Card 1/2
L 18102-63
ACCESSION NR! AP3004596
assumed that the diffusion in the systems Mo-B, Mo-Si, and Mo-B-Si proceeds due
to the inward penetration of the component gas atoms through the spaco lattice
of the layers formed. The basic reaction-front in such systems is the intra-
phasal boundary "case-metal." The 'comparison of the radii of 'Mo, B, and Si
(rMo = 1.40; rB - 0.87i rSi - 1.17 J~ correspondingly) indicates the correctness
of this hypothesis. Orig. art. has: 3 figures.
ASSOCIATION: Ural'skiy gosudarstvenny*y universitet-im. A. M. Gor'kojo (Ural
State University)
SUBMITTED: 12Sep62
SUB CODE: ML, PH
Card 2/2
DATE ACQ: 27Aug63
NO REF SOV: 022
ENCL: 00
OTHER- 009
Dill"'Il"Ov, P.M.; Ewil-WROV, A.D.; YFRFMPI~O, I-V.
Oxyren content ind nonmf!ta?li~ ~n,~Iu,~Aon!~ ii. gtqr?l wlt~, Its
deoxidation by aluminum. Izv. -,rys. ucl~elc- 7av.; -hern. -net. 4
'(1. (MlRA 14:9)
1. Yuzn(-.tA-iy metallul,~-icl)pFkly kwilinat i LAMn-ddy metallurrlcl~!?.s~-.iy
institut.
(Ste.,-1-0yy~ren content) (,',I uminum)
L 38707-66 W(m)/'T/hwP(t)/bTI Lj,-(c) jDAIWIjop, GD.
V.11/
ACC NR: AT6016861 (A) SOURCE CODE: UR/0000/65/000/000/0086/0092
AU'rHOR. i G~a7kova, 4, 1.
ORG: none
TITLE: Zinc carbonate decomposition in vacuo and in melts of alkali metal nitrates
1'~ - 1,7
SOURCE: Geterogennyye khimicheskiye reaktsii (fleterogenous cheraical reactions).
Minsk, ?.auka i Tekhnika, 1965, 86-92
TOPIC TAGS: nonferrous metal, zinc compound, reaction rate, thermochemistry, heat
of decomposition, carbonate, activation energy , aw-a~
ABSTRACT: The kinetics of thermal decomposition Of ZlIC03 "s litudied in vacuo and
in a 58% 003+42% LiN03 melt in the 2501-280'C range. The object of the work was
to verify the pertinent information in the literature. It was found that ZnC03
decomposition is a self-accelerating reaction and that its ratf:! incteases with in-
creasing temperature. It was also found that at 2801C and at '2500C, the ZnC03
decomposition in the KNO+LiNO3 melt and in vacuo was 129 and 178 times greater-.,
respective!y than in vacuo in the absence of the melt. The dependence of the
Card 1/2
car(I 212,~IW
BASHEIIINA, Natallya Viktoroviia; GLAZKOVA, II.M., red.; U.M.EVA,
L.V., toklin. red. ------------
[EcoloU.,i of' tile cormon vole (MIct-oLun arvalls) and vomc
chavacteriotics of it.,j googrnphicn]. vat-JabflIt,;j Ekolofij.n
j,
obyknovennoi jolovkt I mkotonjo cherty ee geograflcherflcoi
imencIlivosti. Moskv&, Izd.-vo 1-'.osk. univ., 1962. 30E u.
(',IIII,A 15:7)
(Field mice)
YelCTia 1,ikolayevna; Gb%ZKOVA, red. I.A"VL.:,:VA
L.V., teklin. red.
"roblelru; ill the of the Inur,'n :opine
an(, cl,,(,::t] 'leoretich(.cl-ic. voprony himencliLvo,;t-i
i ;,i*U(Inni Ilet:i cholovC.11:11. Moskva, I7d-vo u-niv.,
52
(Spin') c I 0:-,-.T
SHOSTMOVSKY, SKVORISOVA, G.C, ; Pol"ifl[NA, Y-,"I.i N..,
1.
~,;.,,-w of' vinyllindollt., ~:n !xLn-tti,in Lr: .
.L.,v. AN khim. 5.31 Ii
r7 .15. (MIHA !~,: 5)
1. Irku skiy irstitiit orFanil,:Li~Ac,y kniniji .3il I-, t f i - -- I e n ly pt
, c) ~ - -
AN
. 1 1. 1 .
. I I
I , , " I ! , 1'. ~ . ',*,: . I . .
. , ,,I - .
KUZYAKINIA, 0., kand.tekhn.nauk; GIAZKOVAI--S-...,_ insb.
Partial replacement of the cement in concrete and reinforced
concrete elements with fly ash from burning btow coal at the
Alelsandrovskaya Thermal Electric Plant. Bud.mat.:! konotr. 1~
no.6:30-33 N-D 162. (HIRA 15:12)
(Ukraine-Fly ash) (Lightweight concrete)
GJAZKOVA, T.A., kandidat meditsinakikh nauk
Treatment of cholecyatitis and cholangitte with antibiotice tie related
to the microflora of the duodenum. Sov.med.20 no.10:60-64 0 156.
04LRA 10:1)
1. It kafedr7 goopitallnoy torapii (.nauchnyy rukovedLtell prDf.
V.H.Karatygin) Svordlovskogo maditainakogo institute.
(CHOLBOTSTITIS, thor.
antibiotics, eff. of duodenal mocrofilora on indic.)
(ANTIBIOTICS, ther. use
cholacystitis and cholangitiB. off. of du