SCIENTIFIC ABSTRACT GLAZMAN, YU.M. - GLAZOV, G.A.
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Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000500020002-2
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RIF
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S
Document Page Count:
100
Document Creation Date:
November 2, 2016
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September 17, 2002
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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175
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01'
bitidiuyp
c),~;--Ulation of lyophobir. [iols und,-~r the effert of
uixtur,,--s. Part 3: ~;ffect of courter-ion adsorjAlon [with
swrun-ry in -"ziglishl. Koll.zhtzr. 13 no.4:376-38,0 JI-Ag 161.
0-111U'~ 14:8)
1. Tekiinologicheskiy institut legkoy promyshlennosti,
il,i,y:,v.
(Ad.wrption) (-;lf~ctralytos)
GLAZIG'..N, )~u.,M.
I'Col[oid choniatry" by A. 0-iialudko. Reviewod 't)y Tl!.i. GJAman.
. -1.zhur. 23 ...4::~,r'(1 rol,
K o] r,. ~ ~ I ('i. (VIRA 14: ~~)
(Colloids) ("33holUdIcOp A- )
BARBOY, V.M.; IGLAZMAN, Yu.M.; DYKMA.N, I.M.
Coagulating action of electrolyte mixtures on I.yophobic sole.
Effect of counterions. Dokl.AII SSSR 138 no.-!:11,9-142 It/.Je 161.
(MIRA 14:4)
1. Kiyevskiy tekhnologicheskiy institut legkoy prmyshlonnosti.
Predstavleno akademikom P.A.Robinderom.
(Colloids) (Electrolyte solutions) (Coagulation)
IW-LAN, A.A.; GLAZMAII, Yu.M.; S'rt,,AZI! jKO, D. N.
Adsorpt-ilon. of cowiter-ions in tLo roaguia!,Inn of Uois
by eiectrolyte.-Il. Koll. zhur. 126 no-3-,;!78-'63~ LXY-Te '6 4/
1- inititut C-;z-ic!:oakt):; J,,,-jni ' -' !,:,! "3 A"
r
i. K-ly'r"j;ki-Y lnsl;-..i~
. j ": .. . I . - --'
10)
(PI RA 17.
All
GLAZMAN, Yu.,,%~ FRA"i'lOKUT" KAYA, MI.Yo.; "'FON, J.P.
Coaculaticm zones in *he course of action of stir far ive
agents on hydrophobic gol.n. Koll. zhur. 27 Mr.-Ar 165.
1
OURA 18:6)
1. Taklmolrigicherikiy Institut legkcy pro-,vynhlnnyl(,!1L'., I(I.Y'.'V.
HAR AN, , A , F . ~ ! ~ ~ T*:-w.: : ~ NT I- G 1, A Z M i A 'I , Y , i . M . ; ( ~. b . 7.1
!':. -1~i -, ,~, " It, h.. --- 1! , ~v, .! ~~:)f! " i -v o f, a r1 i r:lo n1l, jj :;,~ , - ", 1 --~ ; "Ir f~ i - ~q r) I ~~
Ly P (It"!? It, ~ !1 1'. t-r,r, In ~ -I ~1, t oriJ, Dok I, A N T.;J'!i If) ~ r.~, , I ~ 1 f'!, .. i1 165.
m-,!)
L . rn3t L !' L z,; - ~,.- kh 1 ~Y) L i ~ ;n. 1, ~ V P Lpir j:,~ IN L
Ki yfjv:;ki,i lmq'A',-it 1~~gkoy S(ib-
GLAZMAN, Yu.M.; FARAN, A.A.; BARBOY, V.M.; STRAUff-SX0, D.N.
Ldation of' iron hyrr(,.xide
Sorption of' counterJonL; in the cmg
sols. Koll. zhur. 27 no.4:513-.519 JI.-Ag 165.
(MI'M 18: 12)
1. Institut, fAzicheskoy khirrdi AN Ukr:-SR Imeril I.,.V. I-Jgiirzhevflkogo
i Fiye,,rgkiy tpkhnolr)giciip:3lk:J), in.9titut lfWko,, ),-omy . n ti.
I shlen Os
Submitted October 2, 1964.
1*
it
-.in t r;~
t
GLAZOV, XATMW, V.S., [deceased] .
Using cold cathode iun acurcea in 3;rnchro--cXc1ot,ri-,ns. Prlb.i tekh.
ekap~na.3:13-,!6 N--D '56, (MLRA 10:2)
1. Ob"yadinennyy inatitut yaderrqkh lssledovaniy.
(Cyclotron) (Ion beamu)
'24( 5)
AUTHORS: Giazov, A.A., Novikov, D.L. 'f- 7/'5 1-28- 10- 3
TITLE: Investigation of a High-Fra(jUency Reionanc,:! Discnwrge
(Issledovaniye rezonansnogo vysokochastotnogo ra--ryada)
PERIODICAL: Zhurnal tekhnicheskoy f-J:,ikL,Voj 28,11r 11C, 1), L'294-?~Ul
ABST.UCT: This paper contains a de:jcription of the theoret-cul and
perimental investigation of' a hi~gh-Crequcriey reclonance discharge
in a magnetic field in the frequency range of 50,b,oo mc . 'This
investigation was carried out in the Laborutoriya yaderny1'.h -.;ro-
blera Ob"yedinennogo inst~-tuta yadernykh isaledovanty (Laboratory
for Nuclear Problems at 7he United Institute of Nuclear Research)
in 1956 - 1957. A special apparatus had to De constructed for
the investigation of the properties of' a hj.,zn-t'r--!quency resonan(yt
discharge, henceforth referred to by the term RHD. The RHD is
produced due to the secondary electrons, the time of flight (:f
which in the most 3imple case is equal to the half-p-ariod of the
high frequency. The conditions prevai-ling in the formation of a
RHD are investigated for the following two cases: 1) The cathode
is simultaneously the high-frequ~ancy electrode, 1 .. 0. 2) Thli
cathode projects into the high-frequency electrcde, 1>0, The-ex-
ax4-4/ 3 - perimental investigation of the iHD proceer-,e,j in two sections:
-
Investi
ation of' a Ifigh-Fre
uenej zk!!jon&nt:,i lo-, -:/
;C
g ,
q
Discharge
1) An investigation of the conditions prevailing a
i , in the form tion
of tho RHD and tho re-.lonan,--.e propurtit3s of, Lilt, RK1. .)) An in-
ve9tigation of the characturloticm of tKe di3charile plasma. The
experience gained in a series of S!Ats-.antialled 'the
Correctness of the rv;jults of the theorctimll iltudy of' the Spar'Ic-
over conditions of the RHD wi.th 1 ::: 0 an.-I also wi'h the exiltomcp
of' a drift space (I >-O). The relations ottained Ln this cannec-
tion can be utilized in the analysis of the aparkovers in the
acceleration chambers for the purpose of art effective arc oup-
preasion and in tho &!otgn Acrl littli""Ing, a RE)
ism" The armlyllif) of, Lilt? dj-~whar~;o ohar~ic%(,,riotics showed that
an ion source operating on HHD rrinciple,,z (-xhibiti; certain ai-
vantages as compared to a Io-n-frequericy ~is~,harge and to
7 s~ It. d:'Lf'fer3 from. the f i r,;
ordinary high-freauency E dis~7hargel
and a ~racti--:91-y urili:!Iited -,-f
by a high percentage of H
1
the cathodes, From the second it, differs by tne low values of
sparkover voltages and a BtabLe perforiminco in a high vacwim,
This work was undertaken due to the injtia-.ivc of V-3.Katysh-:?v
(deceased). The mechazilo V.A. Tezeri-- az~l it! ted ~ n, the ex.:~eriments.
21(g) S 7, - 6 - --- 7
.iJTHORS-. V a o i I Ov 3 k
Y u Dzht- I v, pov V i,% I t. i
y
B I Zarlatin, N - L~ Ko i I ga , V V Ero: - in
Ryballco, V 3 i ja v ~ r, - o v i A - 'arki, ,'!I r. L. A
.3
T ITL~1: Patting Into Opcr.,,ti~~ri it C,clotron -.it,', a Spatially V~,ryin,7
Tenaion of the '0ijlI-:tic Fit:ld ( ZU 'D LIS k t~'l -i IC .1 o tronli s r o a t V1
Y, -, n n oy va r ":i i y ej n; ip ry az I I ~, 11 n on t I n ., S~ t n o ", o p') I'i a
PLR 101) ICA L Ati-:,naya- VoL ()7
AB~MiACT In t;ie pres,:i.t "L~~tter to tiie r.-.)Ort
of t*-.,- new cy,~,Lotron, In Lte La~~orutcrlya
yadernykh proble, ,i Obllye,,;in~~nnoio
vaniy 'Laboratory for o-: th,-. 7(,
k * , - , , , j .' 1, - j _ t
for Nuclear Research) in thf. totill 0i, but-119 ti..L? Cyclic
a c c e I ~ r -1 t o r w a s s 1. :1 r t e d IN JIM42 Cv 1)'jS) ; t1iis ni.,N tyz,e !3 cv- 0
both an azimuthally mid :-.,, r!~dially varying
fields The dia..ut~r of tr.r_ i:ia-.-t l-,~ ac e z- c r 1'3 0
The lines of' constailt fi~!'Ic tt:!,-_3iol1 ~vlvc of
Card 1/3 of Archimedes, r - It') .) ,, 1:11, t:j!, t 'k,
'. r , p: I' J.j ,, j f; i ", , - :
Putting Into Operation a Cyclotron Nith a IS 6 V/8') - 7, / ~7
Varying TenFjion of tilt, Magnetic Field
N
it - 6. The mean value of the field ti,-nsion increases radlially
according to the relritivi!jtic mass incrclla~-ie cr the
ions. Since the ucceleration originates from the of
the magni~t the fundamental freqaencii;-a of the lri~e os(;illation,4
change accordingly 't Z. 0 , "ir . 1(at r-0) to qz. 0~2,
~~ r . 1 . 0 1 (,1. t r = ') 2 c i;i )It was ahoiri theoretically that, ti;l~
radial increase of the inean utagr:k~tic field tenJiQn whicA -Js
necessary for the elimination of' th;~ nonlinear resonance effect
occurring in the center of the acceleratcr Lay dE-Crea3i? A-it~
increasing N, accoruing to
M/2N(N-1)! and with an increase vf the radiEtl soacin,z in th,
case of a fixed N as Th,i.,:~ investigation results
were taken into account in selecting tli(-:- aix-spiral .9tructure
of the magnetic field in the center of iihich no nonlii:ear re-
3onance occurs. All measurements of the rield tensions viere
carried out by mean8 of a nuclear mav:netomi-,ter (error +1,5
A resonance quart er-wave syst,--Im -with onc D-shaped electrode
Card 2/3 was used for the ion acceleration, In the cyclotron deuterons
Putting Into op(,.ratioll il ("i(Aritz-orl Wi ;t p'l t,
Vary ing T cri-, I on o f th,. ne t i c i I I d
we I' e ac f: (!I i:na L 4~d Ll 1) L 1,'(~v ;,t 11 (1 -par I jc up to Z" 14~.v i
a m i n i ::Ix:1 aq) 1 i 1, , (I L! t
of' B kv ~ T I! - t ~i, j :i !I,-, kis W ~-l *1 C f IW f: 1, i:! ~l :1 4 f, I !, f , " :~ ~,
t!n, rrry in t -, E~ c as (i o f a ij,a ;( i..ium o rb i t,-i 'L r-. f! i. u.~, %t v k; u L- I L! ", ly
dt~!icribvd , A p i c, t -Aru uko~.:i tht? mc~ (,I*l~k--"t--r of the
C~(clotroll (Illig 2) , auuthf-u- one -.n 'Lat,j,.:raph oi' a nt.utron
in thu caws of diffc!r-~!A radii . Tht,, invki.,ti :ation renults pi*-)-,r(.
the pogsibility of a rtlativintic !~~cjotvc~ll Oiith
proton ('110r,
gy Which e,i-l: Is that uf -.1
aru 2 figun~~3 tnd '--' rofer(:ixem, I of vilitc;% i;z
S U B IMI I T T -"D April 1
Card 515
--~) / ~? ~ C, C
9~
AUTHOR,';:
TITLE:
PERIODICAL:
ABSTRACT:
Card 1/2
C.l:
~8
VC.
Glazov, A.A., Kuzm1ak, M.
X
Ion -So-,cX.,J'1th C,vity Cathode
JadernA Energie, 1960, Nr 2, 1) (,-2
This article i:; an illustrate(i de:j(~ription of ion :;ource wit'n a cavity
cathode. In the introduction the itithor point.,; out th'at tnp applic-atior
of the customar-j hot cathode ion :iource is connict,:K1 with certain tecnnicai
difficulties and that the described ion source with the llenning-tYPE7
discharge meets all requirement.:3. The :3pecial feature of this !or.
is a cavity cathode, 1100 mm depp quid '~ mpi in diameter, Aftc-r giving :!,,n-
,;tructional details of the ion ,;oLirc(-, the author .-~tate;~, that the pr 'ejen,
of the cavity Secures a high discharge currerd 'den:~ity (I -:: 10 A/cm2)
under high vacuum into the discharge chamber. The high vai.Vim permit,- the
use of -1 larger opening (3 mm) in the, anticathcde for thi! Ion extraction.
By the use of the described apparatus it i:~ po5!iible to reach high ion
currents during the extraction parallel to the magrietic field. Thiz- article
is written in Slovak.
"vdJ,
Ion 3ource lvlith Cavity Cr~tiiode ':'7 / -r -. ~
There are: 4 diagrams wid '-' refermce-S, I of -,.;hich Is --c-cho-zlov-tL: /
a-rid I English.
ASSOCIATION: Spojcn~ (istav 3Adrov6ho v Dubne (combined Mucle;---v
Institute, Dubna).
Card 2/2
21. L)IC;o
ABSTRACT:
C-) I'd
A Cyc I otrot-L 1,,j I. i,,,j ",I
on
Ne x t
Cl
H
tor's
1-:30 -
or
I. I.on:3
A Cyclotron
Magnetic Field
A
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i t J, h i. i ra
i i D , p 1 1-
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Magnetic Flelu'
41
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of'
ICI d of "'pival s.hirr
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A P/
F J~ I
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c) ~j d. e r r.y
oly:jI R, j
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1
2
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c
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y o
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I t L ri~,~c es sarv
Cn rd ,:)/10 d t
,
"
I . :
II
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A cyclot-o~: Wf-~-,
Ma~metilc
L D
J1
'Id i.,,
Lt
a~~d
W W:
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D. K-:
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SUBMITTED:
carcl lo "Ic-)
I I M-~ ()%' 11.1 .
VASIL'~'EVSKAY A, D.F. ; MAZOV, A.A.; y u.',! - ; D' ',I!; 'I,
A.A. ; KIJZ2'Al,, J,%;
I(YRALKO, V's.; SARKISYAJ;) L.A.; SHVV,,E, Ye.;
tekl,ui. red.
[Theory,- and the v.odeling of a circi!lar :,iyrichro-cyclotrcii
a npirr ,I r.;igri~etic Vop.-c'!C1 I.Pol-ii i
t,gcv()I,-o :.'-tzotro! ;t ~in spiralltmi ot,niktumol ira:~fJilwv-.j-o plhi~.
Duima, Obll,-~cilnennyi lr-t iadomy1ch issl., 7 p.
(S,ynchrotron)
GLAZOV, A.A.; SHVABE, Ye.; KOCHKIN, V.A.
A model of the high frequency system of the rLng-shaped proton
synchrotron. Nukleonika 7 no.7/8,455-463 162.
1. Ob"yedinennyy institut yadernykh issledovaniy, Dulyna, Laboratoriya
yadernykh problem.
GLAZKOV, A.A.
Power balance during acceleration in a itnear elme.:tron )mceleratQr.
Uskoriteli no.505-64 163.
Time dependence of pressure in exliau!st syst,.4m, lbid.:l~,1-170
(KLRA 1714)
ACCESSION NR: AT4019725 S/2759/63/000/005/0096/0107
AUTHOR: Vaildnor, 0. A.; Glazkov, A. A.; Pyatnov, Ye. G.; Selunev, V. D.
TITLE: Experimental study of the Y-10 linear accelerator. 1. Preparaition for
operation and measurement techniques
SOURCE: Moscow. Inzhenerno-fizicheskiy institut. Uskoritell (Accelerators), no. 5,
1963, 96-107
TOPIC TAGS: accelerator, linear accelerator, beam stability, roliability
ABSTRACT: The aim of the paper is to make a detailed test of the type Y-10 linear
accelerator in the following respects: 1) correspondence between the obtained beam
parameters and the calculated data, and the verification of the assumptions made .
in the design; 2) determination of operational characteristics of the accelerator*
which are important in estimating the stability of its operation and which describe
the beam reaction to variations in the feed conditions; 3) Yerification of the '
operational reliability of the accelerator for a long duty-cycle. Orig. art. ha5:
7 figures and 10 equations.
ASSOCIATION; lnzhenerno-fizicheskly institut, Moscow (Enginearing-Physics
Institute)
ACCESSION NR: AT4019726 S/2759/63/000/005/0108/0174
AUTHOR: Vai'drier, 0. A.; Glazkov, A. A.; Pyatnov, Ye. G.; Seleznev, V,. 0.
TITLE: Experimental study of the Y-10 linear accelerator
SOURCE: Moscow. Inzhenerno-fizicheqkly h-Slit-iL. U%~,riFitPli (Ist;cclerators), no.
5, 1963, 103-1-914
TOPIC TAGS; acrelerator, linear accelerator, particle accelerator, electron
accelerator, linear electron accelerator
ABSTRACT: The first part of this paper appears as the preceding paper in the
issue. This second part describes the energy spectra of the particles, the fre-
quency characteristics, the power and current characteristics, and the beam-power
and high-frequency efficiency. orig. art. has: 12 figures and 5 formulas.
ASSOCIATION: lnzhenerna-fizicheskiy institut, Moscow (Engineering-Physics Institute)
SUBMITTED: 00 DATE ACQ: 19Mar64 ENCL: 00
SUB CODE: NP NO REF SOV: 003 OTHER: 001
Card 1/1
GLAZOV, A.A.; KOC`iKlll, V.A.; 01113iiCIENKO, L.M.; 511VAEE, E'.
Higli frequency systam for proton accalemtors lbuilt as cin7ity
resonators. lik~eonika 8 no.2:~~19-100 f63.
1. Ob"y-,CiirP.---, institut yadernykh issledovaniy, Dubna.
GLAZOV, A.A.; DZHELEPOV, V.P.; DMTRIYEV,'jKIY, V.P.; ZAK)WI)CHIKOV, B.I.;
KOLIGA, VS.; KROPIN, A.A.; ONDSHCHENKO, L.H.; SINABE, Ye.
Effect of a space charge on the frequency of frulD oscillations
of particles in an isochronous cyclotron. Aton. energ. 15
no.3.-205-209 S 163. (MIRA 16:10)
(Cyclotron) (Oscillations)
Card 11
ei
okwo
X
~~ lond;; I St
,
, .
'90
Ut
227)1-66 T m PI",w :A P. 2 r..filfc
EMIT M I I R AT5007943 lilt /611/ooo/00olooll/0615
AUTHOR: Glazov, A. A.; Dzhelepov, V. P.; Dmitriyevskiy, V. P.; Zattoladchikov, B./-~~'
n , A**- -616 cbenko H. ; Shv a yu. 1'~
TITLE: Effect of space charge rin the free oscillation freque-ocy CT p'!Irticles in all
.isochronous cyclotron
SOURCE: International Conferenca on High Enerry Accelerators. Nbna' 1963.
~Trudy. Mosc ow,- A-t,om-izd at, '.1964
7OPIC TAGS: high energy accelerator, space charge, cyclotmm
;ABSTRACT: Theoretical studies of the effect of space charge on the m:).zion of par-
ticles in accelerators have been carried out In a number of w:wks: Sem-stetskly,
V.; Golldin, L. L.; Koshkarev, D. T. Pr~bomj i tekhnika ek'aper-boonta, 3, 26
(19,~i6) ; Dmitriyevskiy, V. P. ; Zamolodchikov, B. I.; Kol I ga, 7. v, rxktad rw kanfu-
rentsii Po tsiklotronwn (Report on -the Cyclotmn Conferpncf~):t Gracoliq 1960" Kolo- :1
mPnt:kiv_ A. A.t Lebedev, A. 14. Atomnaya energiua, 7, 5119 Ia create strong-
IL 2271.-t-66
1ACCESSION NR: ATS007943
icelerated particles. Pertinent manauraments wem carriod Out c'n a cyclotron with
!spiral magnetic field for the specifIc case of molecular hydrogen Lont acceleratod
1up to the energy of 12 Mev (Vasilevskaya, D. 11. , et. Al., Atimmaya anorgiya, 8,
1189 (1960)). The results of the present work shows that the cffect of th'a space
'charge does not prevent beam intensities of the order of severial, mUllamoeres in re~
Ilativistic cyclotrons. A result of this space charge io the displacenen't of the
!zones of resonant interaction of the oscillations. Expressiatv:~, are obtained which
!describe the effect of the space charge on the basis of linear equations for the
ifree oscillations, taking account of the electromagnetic field 'Of the accelerated
iparticles. It is assumed that the particles in a condensed bunch aiv uniformly
Idistributed along the azimuth and that the vertical size. of the bunch is much siball-
fer than the azimuthal extension. The main topics discussed am: (1) the density of
ithe charged particles in a relativistic cyclotron and its influence upon the fre- i
'quency of the axial oscillations; (2) measurement of the azimLithal extension of the!
i ! .
bunch; (3) measurement of the frequency of the axial free oscillationm; and (4) the~i
~
ilimiting intensity of the internal beam in a relativistic tyc.lotron. Orig. art.
,has; 6 figures, 8 formulas.
-,ASSOCIATION: Ob"yedinennyy institut yadernylch isisledovaniy, I)ubna (Joiv~,Jp~~k~uts
!of Nuclear Research)
;5U8MirMT_-.26May64 ENCE, - 00 SUB CODE: NP
NO REF SOV., 004 OTHER: , 002
L h23o-.66 9,1T(m)/EPA(w)-2/WA(m)-2 IJP(c) 9S
iACCESStOR NR: AT5007967 S/0000/64/OaO/000/9946/0949
i
I
Amu: G ft. Onishcheriko. L. It.
_,)'
_1azqv,__A,. A. K C In, V Lej I
jSemenov,
Tuzov, I. V.; Shvabe, U.-
1TITLX: High-frequency system of the 70D-Mev cyclotron
iSOURCEI: International Conference on High Energy Accelerators. Dubnal 1963.
ITrudy. Moscow, Romizdat, 1964,19
ITOPIC TAGS! high energy accelerator, cyclotron, proton accelorator
ABSTFJkCT: The accelerating system of the 700-Mev cyclotron must ensure a regive
of continuous proton acceleration for a current al: maximum radius tip to 1 milli-
ampen!. It is necessary here to haw- the maximum possible coklectiOn of energy of
the accelerated protons per revolution, with the restriction that the power of the
high-Frequency supply to the accelerating electrodes be technically possible and
econoinicallv admissible. The configuration and structut-e of -tlie region where the I
particle acceleration occurs and the design of the accelfirato,11 electmmagnet are
the determining factors in the selection of the scheme for thm acceleratiDg 13yV'tOm.'
The small height of the acceleration region, -the absence of gap variation accord-
Card 1/3
L 423o,-66
ACCESISION NR; AT5007967
ling to azimuth, and insignificant variation according to radliLs (2h `146 mm,
M ir,
I i
I2h max": 220.11 mm) with maximum gap in the middle radii are the special features of
'the accelerator under consideration; namely, a high-field machine itith small varia-
tion of the magnetic field strength and large 6piral. A siallar structure for the
operating zone excludes the use of &Emple bulk i-asonators as accelerating systemn
leven during operation at multiple frequencies of considerable multiplicity, be-
cause the vertical dimension of the resonator must amount to about one half of the
wavelength of the accelerating voltage, and the period of revoilutiQn of a proton
in the cyclotron field is 83,3 nanosecond (f = 1/2' -- 12 megah(,!rtz), Tt is also
practically impossible to use a multi-electrode- (three or morO accollLrating system
operating at multiple frequencies in the case of an effectively struatured region
where the acceleration of the protons occur. Even for operattans at a frequency
equal to twice the frequency of proton revolution, the raditas of the accelerator
turns out to be greater than a quarter of the wavelength of the accalprating volt-
age. Moreover it Is hardly technically feasible to create a cantilever design more
than three meters with supporting elements arranged In the smjiall laterpole gap,
with rigid requirements upon the constancy and magnitude of the gap between the ac-.:
celerating electrode and the chamber. A two-dee acceleratinj!; aysteel -with dees in
Card 2/3
.L 4230-66
~ACCCSSION NR: ATS007967
~which the proton flight angle Is clone to 1800 can 'be realized k~ varinus methods
I
:The Joint Institute of Nuclear..Research and the Scientific Research Inatitute of
Electrophysical Apparatus have investigated theoretically and *)W.Hirent ally modi-
:fications of the accelerating system with semicircular dees, which are closed in a
small part of the arch near the axis of symmetry, dees that avn part c& 'the
homogeneous rectangular line, and dees that are part of the )-41;ctangillar line with
variable wave resistance. Of all the c(xisidered possibilities. of accolerating Sys-
tem design, the accelerating system in the form of the rectangular 11110 with in-
creased wave resistance outside the gap of the electromagnet poi3sesaes the optimim
characteristics from the viewpoint of the magnitude of the lonr>es, excitation ' and
%realization of the design. The accelerated system chosen is 6hown In the present
report to satisfy the requirements imposed upon it. The radifi-enginearing and
mechanical designs carried out at the roaantioned two institutes and the modelling
of the various accelerating system elements point to the possibility of realizing
its design and construction and to the expediency of selecting the indicated
scheme and principal parameters. Orig. art. has: 3 figuim!.a.
,ASSOCIATION: Ob"yedinannyy institut yadernyk-h issledovaniy, 1%ibna (Joint_ I
j tutg lear Research)
~29-Au-c
SUBMITTED: 26MayG4 ENCL: 00 Sul) CODE: lip
NO REF GOV:-,--000 OTHER- 000
CardA0
ACCESSION INR: AP4018359 S/0120/64100010011003-t/0037
..AUTHOR: Glazov, A. A.; Kuzmyak, M.; Novikov, D. L.; Onishchenko, L. M.
TITLE: Ion source for a I-Mev proton accelerator
SOURCE: Pribory* i tekhnika ekspcrimenta, no. 1, 1964, 34-37
TOPIC TAGS: proton accelerator, I Mev proton accelcrator, ion source,
impulse ion source, Penning dischirge, ion beam focusing
0
ABSTRACT: A Pcnning-discharl-,c impulse _~or) source in v,-1Uch a cold aluminum
cavity-type cathode is used is described. The source is intended for mounting in
the-hollow projection of a torus-type rcsonator-accellerato;-. The anti-cat*010de
aperture towards the ion escape is 1200, tHe drawing- roda angle is 900. The
V clcctz
source is supplied by-an electronic device which develops 50 -rviicrosec -long
ignition pulses arid 20-microf3ec -long ion-draviing puls~!:5,
I', cx-.)cri=cntLl1y
found that a system of duifferent-potenti-al clectro-Ecs wit'a .-:rids ens-,Ircs the best
Card l/2
ACCESSIO'N' INR: AP4018359
focusina. The effects of the size of the e-.iission aperture -in the anti-cathode and
of the drav"'n.- Voltage upon the extraction current werv c:.-In,2rimentilly deter-
mined (curvec. supplied). It was found tHat the source i~; c:~.pable of producing a
cur:.-ent oil 20-40 nna (pulse) at 20-25 kv, and a focu~.in,-, 0~ 10 =='. Th.(- cold
cathode ensures the constanc7 or cha,-actcr-stics during long periods of op-cration.
The source io used in a linQar that cmployr, a '--*3h frequclicy Of 1. 2
Mlv and -- pulre intensity of 10 ma. art. haac: 5 figUrC3.
ASSOCIATION': Ob"ycdinenny"~'y instltut vaderny-*kh iusledovaz~iy (Joint Nucle,'r
Researc.- Institute)
3
SUI M1"7TZTD: OlFeb63 DATZ ACQ: lu.Mar64 ENCL: 00
13
SUB COD17: PF, NTS INO REF SOV: 004 OTHER: 005
Carcl 2/2
ACCESSION N-111: AP40331ZO S/0120/64/000/002foloo/0104
AUTHIOR: Glazov, A. A.; Onishch,!nko, L. M.
TITLE: Device for reproducing current-pulse shapet
SOURCE: Pribory* i takhnika eksparimenta, no. 2, 1964, 100-104
TOPIC TAGS; current pulse, pulse shape, pul3c shape reproductioa, 'Rogovsky
bcl-, toroidal transformer
ABSTRACT: sim-ole device is described which is based on the principle of a
toroidal transiormer (-Rorfovsky's belt) and can serve for measuring the shape of
a curreat pLlse passing a conductor or of a char ged-particl e cluster. The
translormer-secondary signal is integrated by an electron-tube circuit as it was'
su--ested by V. Elmor and M. Sands in their book, "FAectron4cs in Nuclear
Physics. " The present article supplies elements of the theory involved and
bricily reports on experiments with a ferrite toroid (OD u 121 mm. ID A 85 mm;
Card 1/2
ACCESSIONNTR: AP4033120
thicknes s, 10 mm) wound with an insulated 0. 65 -mm wire. Iti; VE-e' - 1. 5 -
microsec; opt.-mum resistance, 23 kohms; sensitivity, -140 x 10-(, v/alsec.
T11-irea oscillourams illustrate the degree of true reproduction of the current-
0
pulse shape. Orig. art. has. 6 figures and 12 fornmlas.
AS 0-0 CIA T I OIINT: Ob"yedinenny*y institut yaderny,;kh issledovaniy (Joint Nuclear
Research Ins;itute)
SUB.'L\,'LITTED: 270ct62
DATF-ACQ: IlMay64
ENCL: 00
SUE CODE: GE, NS
NO RFS SOV: 002
OTHER: 001
Card 2/?
ACCESSION'NR: AP4042004 S/007/64/034/007/1272/1284
AUMIOR:Glazov,A.A.; Kochkin,V.A.; Novikov,D.L.; Onishchonko,L.M.
TITLE: A high frequency resonant cavIty for accelerating protons to 1 NDDV'
SOURCE: Zhurnal tokhnicheakoy fiziki, v.34, no.7, 1964, 1272-1284
TOPIC TAGS!, particle accelerator, proton accelerator, injector
ABSTRACT: A re-entrant resonant cavity in.described which, whon operat&d as 4 sin-
gle stage proton accelerator, produces 20 microsec 10 M pulses of approximately I
MeV protons at a repetition rate of 50 sac-1. The accelerator waii developed during
the years 1960 to 1962 at the Joint Institute for Nuclear Research as an'Injector
for the pha3otrcn described elsewhere by D.P.Vasilevskaya and 13 other authors (Pre-
print OIYaI R-930 'Oubna,1962; Nucl.Instr.21,85,1963). The accelerator consisted of
a 1 m diameter I m loii;,, steel cylinder with 30 cm diameter copper cylinders project-
ing radially inwa.-(( frcin each end to within 2 cm of the center. One of these cylin-
ders was novahin Ln til , axial direction for adjustment of the 4 eirk accelerating gap,
and the other con~ain-3;'i the cold cathode Penning discharge ion mource. The interior
of the cavity was cov-!,-:)d with polishod copper; a Q of 14 000 was thuraby achtevod.
Card
ACCESSION NR: A."
The cavity ;,-ii:~ ;, ~ L ;i j by a self-excited grounded grid oscillator of which the cavi-
ty was the froqti~iwy .~~otermining element. Difficulty was oxperlanced with resonant
reflex discharge in t~-.P accelerating gap at an amplitude of about 1000 V. The cavi-
:ty was therefore pre--excited at each pulse by a separately excited oscl-flator,' and
the self-excited oscillator took over only after the resonant discharge region was
past, When the iiistrument was operating under presumably typical conditions, the
beam was 3 cm in diameter aM contained protons with energies.from 0.7 to 1.1 MeV
with halt the protons in the energy range from 0.83 to 0.95 MeV. The possibility of
employing a buncher between the ion source and the accelerator to obtain a more
nearly monocnergetic beam is discussed, and it is concluded that this would be fea-
sible. It is pointed out that although the accelerator was des;Igned as an injector
for a phasotron, it would be suitable as a primary accelerator for lcqt energy nucl-!
ear research. For this purpose it has over electrostatic accelerators the advan-
tages of compactness, low cost, and high pulse current. "In conclusion, the authors
thank V.P.Dmitriyovskiy for valuable advice in planning the work and for discussing
the results, Ye.Shvabe and M.KuzmyRk for assistance in developing certain critical
parts of the accelerator, and also comrades V.V.Kudryushov, V.A.Akkuxatov, P.T.Ry*-;
bakov and M.G.Akimov for participating in the assembly of the olactronia accesoor-
ies and the construction of the accelerator. Orig. art.has t 17 tormulms and 8 fi-
Card
2/3
7 ( ~/
,) N, N,
US,'-,R/PbysicB of the Earth - General Problems, 0-1
Abst Journal: Referat Zhur Fizika, No L2, 1956, 36293
Author: Glazov, A. N.
Institution: None
Title: Use of Radioactive Isotopes in Hydrogeological and Engineering-
Geological Investigations Abroad
Original
Periodicali Razvedka i okbiana nedr, 1956, No 4, 55-58
Abstract: Description of several cases of the application of radicactive
isotopes in hydrogeological and engineering-geological investiga-
tions in England, US, Japan, and other countries. The change in
the density of the ground is measured with am instrument based
on the use of scattering of gamma rays passing through any sub-
stance. The source of gam rays and the detecto-r (Geiger4lueller
counter) are mounted in a tube and driven Into I;bj-- ground. The in-r.
tensity of the scattering, which is proDortiona:, -to the density of
the ground, is determined from the number of pu_lses j?er unit time,
recorded by the counter. The instrument 1B calibrated relative to
Card l/2
USSR/Physics of the Earth - General Problems, 0-1
Abst Journal: Referat Zhur - Fizika, No 12, 1956, 3629,1
Abstract: grounds cf kncwn density. A methad of determintng, rhe density
of concrete wLth an accuracy Cip to 1-2-,C, based on ~he absorptic)n
of radicactive radlarlion, Is described. Reports are inade on the
development of .11.nstruments for the determinaticn of thj moisture
content of' grounds on the basis of measurement rit' the. scattering
of slow neutrons by the substance, Their ocattering Ls greatest
when the neut.rons collide with atoms of hydrogen (In water).
Water is detected Ln any aggregate state, making, it p,.-)at3j.ble to
carx-
y out !PA-.stigations under conditions of perpe%uaL -vost.
The neutrons source employed ~.i; a mi-xture of polonlum o- radiizu
with beryllium. The source together with the detector are mounted
in the form of a probe- The sena~tivify of the in6t.-UM-DI; is
constant over wide range of moisture content. It is no-:-Ald that
radioactive substances have been successfully uf)(:~d in,'minal oun
1!
- .1
tries for the study of hydrogeological conditionii of petr leum
deposits, to investigate the erosion of shares, tiie accumula-
tion and transfer of river deposlAs, the illoc-ling, of -Irrigation
systems, etc
Card 2/2
GLAZOV, A.4., inzherier.
--mmmumWMA-MMAW
.1
Use of radioactive Isotopes In englriemrir~E; . 'idr.
i mmT. P no.9:13-19 S '5~1. (muu c): 10)
(Radioisotopes) (Soil resmarch)
I I - t) - - Icf)H
3(5) ('- PHASE I BOOK EXPLOITATION, SOV/1546
Glazov, Nikolay Vasillyevich, and Anatolly Nikolayevich Glazov
Novyye pribory I metody, primenyayem7ye v in.-ILenerno-geologichesiki1th
izyakanijakh (New Methods and Instruments Usedin Geological Enjaneering
Explorations) Moscow, GoBgeoltekhizdat, 1957. 69 P- 3,000 caples printed.
Ed.' of Publishing House: B.S. Filippova; Tech. Ed.: S.A. Penlkan.
PURPOSE: This booklet is intended for exploration geologiots, geolbysicists, and
hydrologists, as well as drilling, and highway construction engineers.
COVERAGE: This booklet reports on new methods and instments used in geological
engineering exploration and testing. The authors consider the mse of radioactive
Isotopes as the beat and most popular method for improving exploration and test-
ing tecbniques, and inedcate ways for further increasing the scope of its qpplica-
tion. The supplement contains a price list of the various rqAioa.ctiPi isotopes
turned out by Treat S0yuzreaktiV8bYt. The authors express their gratitude to
N.A. Ogillvi and F.S. Zavellskiy of"VaW11080 for their valuable assistance.
There are 17 diaggams and 43 bibliographic references of wbich 36 are Soviet,
Card 1/4
Nev Methods and Instruments (Cont.)
5 English, 1 German, and 1 French
TABLE OF CONIENTS:
Introduction
Ch. 1. NL-4 Methods of Studying Wind Scattering, Washout, and Trawport
3
Processes 5
Sand catching chamber 5
Luminescent dyes 6
Use of radioactive elements 7
Ch. 2. Use of Radioactive Isotopes in Studying the Solubility tu).a
Leaching of Saliferous Ground 12
Ch. 3. New Methods and Instruments Used in Geological Engineering
Operations 14
Detexmining the natuxal moisture of the groland 111
Determining ground density with radioactive elements 24
Basic technical requirements in constructing instruments for
determining the density and moisture of the ground under field
conditions by means of radioactive elements 33
Card 2/ 4
SOV/1540'
New Methods and Inntrments (Cont.)
S(N/1546
Device for,determiniag slide resistance in a borehole 35
Determining R. Peltier's "sand equivalent" 37
L.P. Leonoy's device for determining porosity 38
The "Potos" device 40
Ch. IV. New Drilling and Hydrogeolpgieal Exploration MethoO 1~1
Use of radioactive isotopes in logging wells drilled with
mud s6latims 42
Utilizing radioactive isotopes in hydrogeological operations 46
Utilizing vibratory drilling in geological engineering
operations 49
Ch. V. - New Method for Increasing Water Flow and its Appracintative
Ccmputations 52
Supplement 1. Table of Radioactive Isotopes
60
Supplement 2. Certain Safety Regulations for Working With
Radioactive Elements 66
Card 3/4
New Methods and Instruments (Cont.)
Bibliography
AVAILABLE: Library of Congress
Card 4/4
mm/gmp
5-7-59
SOV/1546
68
V.Ya. (Senior Forejpux-,i) -.Lrd Giazov, -h.N.,
(Der.,aty Y--n~4;er). 13o _ 6 - - i o/;:,7 - - - -
TITLE: Fettliij~_ (--,lectric-nii7iiLce xall- and bottons wit 11 fille
chromf~ Orf?. (Zapravka rodiny i otkosov elektropeohfay
molkoy khromistoy rudoy).
PEIiIODICAL: 195,17, i!C).1:,,
A~3STRACT: Difficulties witla bottom wid. wall erosion by infatal and
slaE 1,11hQn stainless steel is melted in 30-ton bi;.sic f-:,l(,,c-
trio witK oxyE~en blo,,,iix),C are, described, The
authors, togethor with Kibt--A~o, jz-o.-,osed tLe use of chromite
ore for (loc/'c' + 301,76 maLnesite + 305; caloixied, -fe=-u6ir-ous
dolomite) fettlinr and the :.Ldoption of' this lias caved the
1,[uzr---ts1: metallurcical combine about 100 000 roubles ir-, a
jrc'-'lr 01L. ~Lccount of fettlir4,, m,:.Aeriu13 alane: 1,!.6,i~,! less of
ou s
ina.-nesite powder, 1-3.3% less of calcined dolom-
iLe, T~-e fine c'c-romit-e ore consumj~tiori is ".5"
T~iere are 2 tabled.'
ASSOCIATI01.-: Electric ~teel-Meltii44, SEiop, Kuznetsk Metallurgical
Combine. (Elektrosta-lbp1aviltiabgo tseh~iaj Kazretskiy
Met allurE i c~ieskiy Kombinat
AVY1IL,113LE:
Card 1/1
TOISTOGUZOV, N. V., KONOVALOV~ K. N., GLA?OVI A. N., 11,011,11, L. I., DANILOV)
1. P. M. ~
OMIKEN) E. H. and GUDA)IVICH, M. rj .. -
"Vacuwn Ti-entmant of the 1-9 15-3teel and CommercUl Expl,~rlerica of
the Vacuum Trarwformer q~-eatment."
paper preaented at Second Spapaoium on the Application of Vacuivii Metallur&y.
) - L- -~ I I ~ 1-1~'
-, -) -1)- 1, 0
SU V/i 30-- 59- 1.- 7/21
AUTHORSt Glazov, A.',-I-, -and Mle:3yats, V.I.
TITLE: lm-L~ro-74M__ent of Electric-Furnace Lining (Usovershenstrov-
aniye fu~:ero-~rki elektropechey)
PERIODICAL: Me+--allurg, 1959, Nr 1, J)p 14-1~' (USS-R)
ABSTRACT: The desc.-ribe ways in which electric-.furnace 1~1a.*~ng
life i-,as beer. 1-mproved at the Kuznetski-Y metallurgi-chaskiv
kombinat (Ku~;netsk metallurgical combine). Since 1953
wall and -,od lives halro improved from !~-+ and 66 heati,
respecti,;-al7), to 164- and 127 respectively. Some of tha
Pe imj:-):~ercen~- is due to the adoption of cased
chro.me-magne3j'.-e bricks, but better wall design,
of i,113 th,.e tapping hole (Fig 1) and impro 77,~~ j
maintenan.-.:~, t,een important factoi-Oz Better in~ o'
lines made Possibl-~_~ t~.Tough the adoption in April lc)
a sug~,-Dstion ty Monastyr3.kiy, Fudkollia 2; and Shtep thar,
sLell diameter be increased by 250 mm (Fil, 2) led to
further improvement, The authors attribute great impor-
tance in wall-life to the form of the bottom and bank:; and
Card 1/3 discuss the. optimal form -and its maintenance for furnac,33
produc-'Mg stainless or ball-bearing steels with occasional
L;()VI13()- 5';')-l-7/21
Improvement of Electric-Furnace Lining
melting of eg l2K11N3A, OB1111-Y' imposing a greater thermal
load on the bott-om. A special device (Fig 3) is used fc..-
removing the top softened laye:rs of the bottom remaining
after tapping. A bottom-life of about 2000 heats has
beer, achieved. The authors describe bottom construction
(Fig 10 and maintenance and 3tate that the latter is the
ma'or iife---.,3nt-,ro11ing factor. The bottom lining is
(lovered aftr brief heating to 1000C with a slightly
tamped 30-40 mm, thi:tli: layer of magnGSita povder in water
glass and furnac;e char.lf-ing is started after this has been
heated 3 hours with coke and firewood. After tapping
thp first heats the bottom and banks are fettled wLth dry
magnesi",e pcwder and kept heated by lowering the hot
elec.trodes, The first 6-8 heats after bottom repairs are
of carbon steels. Old bottoms are removed in one piece
(Fig 5)~ Tiie authors briefly describe roof construction,
co n t ra s '. ing the old arnangement and that adopted in 195"',
(Figs .'a and 1b respectively), at tho suggestion of
Card 2/3 'Pudkoma7 and Kornilov which secured improved service
conditions foi t.qe bricks and led to L life increase of
Improvement of Lining
SOV/1-30-59-1-7/21
35 Tho 4mprov,?inents in refrac.-tory consumption
(kg P?r tinne of steel) and down time brought about by
0 11
ile m. a qi s des -.ribed are shcwn in Table 2. In 191,~7 the
to+al and sild.ca)
-1 -3 wil P t, )n wac 8.,7 ke,/to".Ule 1-1, (j. the down
S n
tlm~~ 01 :,A3r,Jar ~Arie, wLile thO corresponding 111:1'53
figufeS L1~3 '?,0,
The..,.3 a(.~ 6 fl-'gi,,,ce~3 an.] 12
ASSOCIATION.- kombinat
Card 3/3
18(5)
SOV/148-59-1-8/19
AUTHORS: Levin, A. I!. , rbcerit, Candidate of Technical Sciences; Teder,
L.I.; Glazov, A.N.; Monastyrskiy, V.Ya.; Chornenko, A.D. and
Alyavdin, V.A., Engineers
TITLE. Yetal Refining in Intensified Smelting of Structural Electric
Steel* (Rafinirovaniye metalla pri intensifikatsi:~ rlavki kon-
struktsionnoy elektroitali)
PERIODICAL: Izvestiya vysshikh uc~iebnykh zavedeniy - Cnarnaya aetallurgiya,
1959, Nr 1, PP 71-81 (USSR)
ABSTRACT: Comparative tests were carried out on kinetics of harmful im-
purities with the use of conventional and exterimental methods
of structural steel smelting. The basic pec:uliarities of the
experim'ental techn 'ology which caused intengification of smelt-
ing and reduced the-amelting time by one ho%ir, -includedi de-
phosphorization during the ameiting process; use of gaseous
oxygen; termination of smelting combined with oxidizing blo-m-
ing-through; reduced quantity of burning-out carbon; preliuri-
nary deoxidation with silico-mangELnese and early addition of
ferrosilicon plus coke du6t, and forrochromo; metal. treatment
Card 1/3 by slag of the same metal at the moment of discharge. Results
SOV/14 ~' - 9
!,'.etal Refining in Intensified Smelting of Structural Elec-ric Steel
of the tests were compared and the followini.r conclusions were
madej Depho3phorization did not depend on the 'baoicity of the
slag and on the temperature, whereas the fe:7roua oxide content
had a strong effect on phosphorus distribution bctircen the
metal and the slag; due to motal troatment by slag of the same
metal, the desulfurization rate in the tout mathod was higher
than in the conventional technology; a strong effect of ferrous
oxide on the desulfurization coefficient in the ladle Was ob-
served and therefore slag deoxidation prior to the discharge
was imperative. The decrease of burring-out carbon did not
.increase the hydrogen content. Preliminary deoxidation and
early addition of ferrosilicon dust caused speeded-up elimi-
nation of oxygen. Prior to the addition of agents with higher
reducing capacities than those of carbon, t1rin oxygen content
depends on the carbon content and, in the cise of' "12KhNZA"
steel on the silicon content. Mixing of the metal with the
slag caused a decrease of the oxygen contcat during the dis-
charge. The determination of non-retallic impurities was
carried out by Engineer S.N. Yeremenko, who atated that, in
spite of the shortened reduction time, in-,on3iflod deoxidation
Card 2/3 created favorable conditions for eliminatJng impurities. The
f5u/ 14 9- 5? - 1 -F~119
Metal Refining in Intensified Smeltin~-; of Structural Ele-ctric St,?el
mixture of the metal with the reducing slag had a poeitive
effect on the decrease of non-metu'lic imi)urities. The de-
scribed method ensures the p.-7oduction of hi,;h quality motal.
The author presents graphs comparint3 changes of the impurity
content in experimental and .,onventional mathoda.
There are 13 graphs and I Soviet roferenco.
ASSOCIATIONS: Sibirskiy metallurgicheskiy institut (Siberian Institute of
Metallurgy). Kuznet:3kiy metallurgicheskiy kombinat (Kuznetsk
Metallurgical Combine)
SUBMITTED: October 25, 1958
Card 313
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ua 251
GLAZOV., A.N.; KOLYVANOV, A.D.
Industrial conference in the Kursk 49Znetic Anomaly. Pbtallurg
? no-4:5-6 Ap 162. 00,1 15-3)
1. Predsedatell postoyanno deyotvpyushchego pro,1-,,,YWstvermogo
soveshchaniya na, Kuznetskom me-tallurgicheskom kombinate (for
Glazov). 2. Selcretarl postoy-wmo deystvuyushchego proizvodstvennogo
soveshchaniya na Kuzrietskom riLetallurgicheakom kombinate (for
Koly-vanov).
(Kursk Magnetic Anomaly-Matallurgical plantu)
1ACCESSION NR: AP4019474 S/0133/64/000/oc)3/0229/0231
AUTHORS: Konovalov, K. N. (Engineer), Glazo
V A. N. (Engineer); Danilov, F. Mi.
(Engineer); Pashchonkop V. Yes (Engineer)
TITLE: The effect of ingot mold lubrication on the surface quality of steel
2.KhleN'9T
SOURCE: Stall, no. 3, 1964, 229-231
TOPIC TAGS: stool, lKhl8N9T stainless stool, stool malting, ijt4el pouring, ingot
mold lubricant, oxidizing lubricant, reducing lubricant, evaporative lubricantj
refractory powder, slag powder, naphthalene, anthracenoo petrolatumj lakoil
lubricant
ABSTRACT: The effect of ingot mold lubrication on the quality of the surface of
stain-less steel ingots (lKhl8N9T) was studied experimentally. The casts were
produced by both top- and bottom-pouring methods. The results showed that the
addition of oxidizing or reducing powders to the usual lubricant did not eliminate
the formation of crust and of pitted surface, while evaporatiye lubricant applied
to cool molds decreased the number of pits but increased vaiious defects associated
Card 1/2
ACCESSION NR: AP019474
with the formation of crust. It was also determined that the absence of lubricant
or the use of the refractory and slag powders as substitutes for lubricants
increased the number of scabs on the ingot surface, and that the prosence of
moisture or of organic matter in such powders increased Vie degree of surface
;pitting. Adding dry borax to the "lakoil" lubricant improved somewhat the surface
.quality~ whereas using naphthalene) anthracone, and petrolatum as lubricants
created reducing conditions during steel pouring 4ind result4id in a uniform "lubri-
cating" layer of soot on the mold walls and produced a greauy improved general
appearance of the ingot surface. Orig. art. hass 3 figures*
ASSOCIATION; Kuzaetskiy metallurgicheskiy koMbinAt (Kt1Zn8t(11r. 148tU21lujiCal
Combine)
SUBMITTEDr 00
;SUB COM ML
Ccrd 2/2
DATE ACQt 27Mar,64
NO REF SOV: 003
ENCLi: 00
OTHERt 000
LE'VIN, A.M.; GLAZOV, A.N.; VERSHININ, V.I.; LANILOV, P.M.; PASHCHFSKO, V.Y-p.
Characteris tics of the production of catalyzer t-~teel with a low
addition content. Izv. vys. ucheb. zav.; chern. met. F
no.10:62-68 '65. (HIPA 18:9)
1. Sibirskly metallurgicheskly inzititut i Yuzn-Ft,,,3kiv netallurgi-
cheskiy kombinat.
N.;
GLAZU1, A-l"ll,
Y;
A,N, inzh,j DANILOV, P.14, ksind, tekhii, nal , 11 . . " I '.
GUAZOV9 , jk-
Inzh.; MPSYATS, V.I,,-, inzh,,, PA~-F~HPIKO,
Influencp of the technology of sinnItArig on
Khl?P;71V 3.,-e1 sheet and rolled shapes. !itall !"
911J)13 1 165. 1 %,:;: "
. .
~3'
1 p, 1) N
, - .I
1~ Kuznotsk4y mitallurgich~-t3lkiy kom*c',r,,,i',,
N
Y~i D~ Pp!
Ifit t.-t lwr h, 1 v
ACC W AF6019314
INVENTOR: Levin, A. M.; 918ma-AsAp';
Plekhanov,,P.. .; Pashchenko. V. Te ; L
Levitskaya,, To T.; Tatarov, F. S.; Lipi
SOURCE CODE: UR10286/65/000/012/0022/0022
shinin V. I.; Danilov P. H.
nov, S Kuin 101m, 'habina P. - D.
- !3. .7-1. P. $
p, V. .; Cherne3sova, Z & M.; Alakse.'revaj i
ORG: none
TITLE: Steel for manufacturing ammoni Isynthesi Ia catalyzerl. *Class 18, No. 171877
SOURCEs Byulleten' izobretaniy i tovarnykh znakov, no. 12, 1.965, 22
TOPIC TAGS: steel, ammonia, inorganic synthesis, catalyals
ABSTRACT: A steel for manufacturing a=onia synthesis catalyzers Is distinguished
by an increased catalyzer activity and has the following chemical composition:
0.10% C, 1-0-2-0% Al, 0-05% Mn, 0-008% P, 0-008% S, 0-05% Or, 0.1% Cu, 0-05% Ni,
0,40% Si, balance-iron. [JPRS-1
SUB CODE: - 11, (Y7 / SU13M DATEt none
We 1 669
R4-3-13A 5
AU12HOR: Barkan, Ya.D., Eoyarevich, V.Ta arid A.P.~
Engineers.
TITLE Non- sync hron ou s connection of st-ations.
onnoye vklyucheniye elaktm~tiln',-siy)
PEidODICAL: IrElektricheski:ie Stantsii"
Vol.28, o.3, pp. 44 - 116
ABSTRACT: The use of autOnIiAiC lk~ClOSUr(,' Vlit11011-~ checkintE synchr-
onism on single circult lines fod Trom lboth endi, can jruatly
increase the reliability of rower stations. Calculat ions of
the currents that occur when -enerators are connected whilstu
the voltages are out of Phase by large an.-lf.-~s sv_~,-ve as crit-
eria of the applicability of automatic roclos-ure without syn-
ehronisa-tion. Idmitations on automatic reclosuni! of-ten rel3ult
from particular conditions of Calcul-
ations showed that it could be a-plied without li_--itation to
only one power station in five on a syste,,Lt. Hoaeir~~r, tests
have siiovn that if the balance of r(3.,Active and -oa,,~er loads is
mrtntained in the separate, ports of 07stem the
currents on reclosinL: are 14 - 16111,,, less than th~:.~ calcala-ied
values. The rerrion Of a-Dplicability of ;--tutoiLitic, reclossure
can often be extended by ta.'kin,- proper account of experimental
Card V3 data in this way. Often the fi-eq)-ency of iLeavily loa-ded
~_.ons jaliGht suggest
systems does not fall as much as calcula"i
w4-3-13/45
Non-synchronous connection U U - JIS
when the link is loi~t f:~A. olf itsOlf
causes loss of load. The urticl,~ de-cribe: 1;1~rill of tests
that were carried out on a to ascertain whether
automatic reclosur,-, without ~;ynclironisation coiild be applied.
The of Lhe tests -,Lie tubul:,~t,:!d. ~"~Yn,-,Lronisnl -aas re-
estab,.ished in 1 seconds and, LiLe nuimb-~,n. oi:' cycles of asyn-
ch.ronous runninj~ ~,,,,Lsc not" (~Ti,)ater than Aie cht:Lrice of
..~tted in ~he freq%iency was r e,
frequency io illu~Al edD1 d
from 44 c/s to noriaal in Urua 2 sucs. ~baub 11-0 asynchron-
ous swiLchinGs .,iere made uid proloni_,~ed a_,,yr),:,.!_ivonoiis conditions,
lon[,er than 20 sees. :_.)b;~;erved in t-,nl.,7 Cases., these
unusual cases were thou~jit ~o b~,, due to of -the
turbine governors. The o::pcrim(,~Ilts %Ijere, rej)eat(.,~d au othar
power stations ,,,,ith L~ood rf_,sults arid it that asynchr-
onous switchinU can be al),.)lied to all. liru~i of L.~,e Dower systlem.
connectin,; thermal T)ower stations for practically possible
U u
conditions . It h~ai~ acco:LxLin~jy been InLvoduc~2,11 On 1111 lines
U,
except those- leading.-, to nycliro-,Aoctric i)OW1011, st;~Aiolls.
It is concluded th:tt in, analysin,:- Lhe of applying
Card 2/3 autonnLtic reclosure local conditions iraist-be -Vttken in-to accou-nt.
The magnitudes of lol-ds and tiieir disLribution in the system
largely goverrt. the nauure of t~ie processes that occur on
1011--3-13/45
Non- synchronous connect-ion of power stations. (Con
reclosure and the ra- v
pidity
lished. At large overload,
have a marked effect on the
:)f applic-,tion of automatic.
experimQntal deterriiin:,tiozis
reclosure.
with) vihich synch ronism is re-estab-
- -
uf~ Iect associ:..,ted with voltaGe dro-D
redLiction of fr(.,~(Iuo-ncy. The roEio~
reclos-,.ire ma,; be e:r.-,ended by making
of cul-1:v'r.t V;_-tlaos of auto-Datic
There are 3 fi,,_;uies.
AVAIIABM: Library of Congress
Card 3/3
ACCESSION Nit: XT4010695 8/2601.1163/000/01V/0111/0119
AUTHOR: Glazov, A. P.; Ly*sak, L. I.; Tiklionov, V, V., XMzjjjjov, Av.1. 8.
TITLE: Investigation of changes In the fine crystalline structure or alloy ZhS-6K during
ffierinal faLiguo
SOURCE: AIN UkrI1SR. Insty*tut inetalofizy'ky'. Sbornik naucluiy"kh tiudov, no. 17,
1963. Voprosy* fi7iki metallov I metallovedonlya, 111-119
TYPIC TAGS: thermal fatigue, turbine, turbine blade, thermal strenB, inacro deformation,
microdeforniation, roentgenography, craclUng, elasticity, alloy Zbjj-6K, alloy crystal
structure
ABSTRACT: '11ornial fatigue Is ono of the basic factors leading to breakage of gas
turbine blades. ConUnuous, cyclic, thermal loads when starling, stoppIng, or changing
operating conditions sharply decrease die durability of the blades. During the process of
cyclic thermal loading cracks usually appear In the surfaco layerati cof die blades and
quickly lead to breakago. It in usually agreed that therinal stromi lig tho most important
factor occurring in processes without fixed tbormal influences. Thermal atress surfaix is
Cord V3
ACCESSION NR: AT4010695
greatest on the layrrs; hence atructural changen are more evident there. During the load-
ing process an accumulation of elastic macroileformations ULICOG place beading to the
formation of crarks. In tJiis study the blades of a gasturbineiveri? investig
pted by an X-ray
(rocnip,mographio) inethod; the blades were tested for thermal M.-thility in. conditionn
maximally approaching, working conditioun with reapoct to toinperunre wid tipeed of Lbe ga.8
strealr- X-ra V cxalllinations of the blades were made before aad after tho appoaranco of
cracks. Roentgenographic investigation of the hard solution on Lhe -urface layers wits
conducted in a ionization unit UIIS-501 which automatically registored the diffused
radiation. The results showed that considerable structural Clj,,jjjjr(!s occur durinr cyclic,
thermal loading only on the surface layars of blades ivith thicluie,qu 0. Wi - A. ! 0 nini.
,Noticeable changes occur with a relatively low number of thormocycles (about 100). Witii
further increase in the number of thermocycles structural cbanps do not. occur either
before or after the formation of cracks. F"rther, with an Increase in the number of
tharniocyclos, the zone of colieront diffusion first inercaiian front iiii Witial 3. 10 G cm to
a magnitude of 10-3 mm and ffien decroaveii to 3. 10-0 cm , after which u rackii npnoar. In
Uladan with oraakg thadimunsiono of Uie area of coherent diffmidon In 1()-'l ell), !)1i 1-ing
cyclic thermal 'loading of bladee no noticeable ftocumulatlan of alasdo MFWl'o Itilt. kiliol'o'.
deformations occurs in surface layers as compared with their i0tial tiLate. At the same
Ca rd Z/3
V
0
ACCESSION NR: AT4010695 I
time, before the formation of a crack, Inwnsive accumulation of plairtle deformations
is noticeable in the zones of the formation of the crack, accompanied by an lacrease in the
density (closeness) of dislocation. Orig. art. haw 5 figures.
ASSOCIATION: Insty*tut Metalofizy*ky* AN UkrRHR (Institute of Metallurgicia Pilysics
AN UkrRSR)
SUBMITTED: 00 DATE ACQ: WanH ]'!.I'K'L: 00
SUB CODE: NO REF SOV: 012 01"HER.; 000
Card 3/3
ACCESSION NR- AT4042834 S/2601/64/000/018/0060/0068
AUTHOR: Glazov, A.P.; Tikhonov, L. V.; Khazanov^ G.
TITLE: Radiographic study of the surface of turbine blades touted for he,Lt resistance
SOURCE: AN Ul(rSSR. Institut meLallofiziki. Sbornik nauchnyflch rabot, no. 18, 1964.
Voprosy* fiziki metallov I metallovedenlya (Problems in the physlci3 of metals and physical
metallurgy), GO-G8
TOPIC TAGS- gas turbine, gas turbine blade, turbine blade heat rusistance, turbine blade
surface crack, blade surface radiography, narrow beam niethod, surface oxide film effect,
microcrystalline transition layer, inosiac structure, structural disorientation.
ABSTRACT: The size of mosaic structure fragments, the disorientation of adjacent
fragment,g and a parameter characterizing the conccntration hetcrogcneity of tlie &-solid
solution In various sectors of the surface of gas turbine blades tested for heat resistance
:were determined by x-ray using a narrow beam with low angular divergence. The Ir-
radiated area and volume were 1. 57 MM2 and 7. 85- 10-6 cn13, respectively, The average
divergence was 12. 5- 10-3 radians. Ile methodology is given In datall. '1110 rOSURS indt-
1/2
i
;AccEssiu,; NR: AT4042834
cate the presence of a thin microcrystalline Lran.Ation layer down the Ienj, 11 of the blades
prior to and after formation of cracks. it isconchided that the suffaceoxide film playsa signifl-
cant part In structural changes resulting in crack formation. The f3tudy confirmed results of
previous similar studies by other Soviet writers find the authora aujigest that studios of din-
location defects and vacancies in tho surface layers can yield valuabln Information on factors
governing thermal fatigue of turbino blades. Orig. art. has: 4 irrapILS, 5 microphotos
and 8 formulas.
'ASSOCIATION: Institut nictallofizlki AN UkrSSR (Motallophynica IwAftuto, AN UkrSSR)
SUBMTTED: 21MarG.' ENCL- 00
SUB CODE: PR, MM NOR EF SOV: 002 OTHER: 003
CaRd 2/2-
L 24446-66 EWT(m)/EWP(w)/EWA(d)/r/fi~P(t) UP(c), . JD/W/G4
ACC NR: AT6010581 (N) SOURCE CODE% UR/0000/6!1/000/000/0153/0160
2~3
1UTHOR: Glazov, A. P.; Tikhonov, L. V.
ORG: Institute of Physics of Metals AN UkrSSR (Institut wstallofiziki. AN UkrSSR)
TITLE: . Crystall structural\?thanges due to peri*,lic thermal loading in the surface
,layer ofj&qjde_vapes made from ZhS-6K alloy
A
SOURCE: AN UkrSSR. Mekhanizm plasticheskoy deform~itsii metallov (Hechanism of the
plastic deformation of metals). Kiev, Haukova dumka, 1965, 1513-160
.TOPIC TAGS: cyclic test, thermal fatigue, guide vane, crystal. structive, plastic
deformation
ABSTRACT: The paper is a continikaticn of a previous work (Glazov, A. P., Tikhonov,
L. V., Khazanov, M. S., "Problems in the Physics and Science of Metals, 18", Xzd--vo
AN UkrSSR, Kiev, 1964) based on improved methods. More accui.;:Ite expevimental data
:are given and a number of generalizations are made. Guide vanes made from ZhS-6K
alloy were subjected to thermocyclic treatment on a special iii-stallation with the
:following parameters: maximum temperature-8000C, minimum temperature-11000C, 'time
Card 1/3
L 24446-66
,ACC NR: AT6010581
,of a cycle--120 seconds. The modifications made in -the x-ray method uned in the
previous work are described. Three blades were studied subjected to 300, 560 and
600 cycles. It is found that a periodically changing temperati,ire fi.el,-.1 causes irre~
,versible processes resulting in considerable structural and phase tvknsformat ions
which gradually accumulate and reduce the resistance of the material to alternating
,thermal stresses, resulting in final destruction. 'Me greatest structural and phase
.transformations in ZhS-6K alloy occur in a thin surface layer of the turbine blade
.(0.05-0.1 mm deep), which is due to the distribution of thermal. stresses through the
,cross section of -the blade and to the effect of -the aggressive high-te-nperature gas
stream. Thus the state of the sup ce layer determLnes the thtrmal fatigue strength
of the blades. The thermal fati&~Inrocess may be divided into two successive
stages: 1. (up to approximately 100 cycles) a redu.2tion in the flast density of the
crystal structure in the surface layer accompanied by softening.; 2. (beginning at a1
number of cycles which is strongly dependent on the maximum temperat~xe) accumula-
tion of defects in the crystal structure and formation of cracks. T'he processea
which take place in the material during. both stages are closely associated with the
initial structure of the surface layer. The pbysical and chemical changes which
take place in the surface layer are discussed. The plastic deformirticn which takes
place during the second stage does not increase the overall macro- and microelastic
Card 2/3
. .... .....
L 24446-66
ACC UR: AT6010581
deformation in the surface layer as compared to its initial state. A characteristic
feature of crystallostructural changes during operation of guidea vanes is irregular-
ity in the state of the surface layer in various sections of the bl,:dp.,,-This is due
to differences in temperature conditions. The greatest structural nges are ob-
served at approximately the middle of the blade cn the concave side toward the in-
take edge. Thermal fatigue cracks are observed in this region as a rule. This In-
dicates that crack formation in the blades is directly associated with plastic ef-
fects in the softened surface layer due to periodic therirocyclic stilBuses. The
strong localized irregularity in surface deformation is visible from grain to grain
and within the confines of a single grain. The greatest structural changes during
thermocyclic treatment occur in grains with considerablp otructural d0acts. Inter- *
granular boundaries of complex configuration my serve as stress concentrators and
thus are potential sites of crack formations. The structural irregiLdarity of the
;alloy from grain to grain has a considerable effect on thermal fatigue in causing
,localized plastic deformation accompanied by concentration of stresseo in both in-
tercrystalline and transcrystalline fracture. Orig. art. has: 2 figures, 1 table.
SUB CODE: 11,20/ SUBM DATE: 260ct64/ ORIG BEF-. 009/ OTH REF: 000
Card 3/3JJo,
TOKIU,KOV, P-P--, GILAZOV, k.V., LT:'iSIK, S-ii.
Origin of the unusu~d form of au-,irtz 11 ebbles" jr, 'he e,tatern Elope
of the Southern Urals. Trudy LiEll no.49:62-65 '60. (141FL!, 13:111
(Ural Pdountains-Quartz)
GIXLOV, A.V.
Genetic clasoification of crystalliferous depo:jI.ts. Trudy V1111P
(1431 3 no.2:125--126 160. (MINA 144:4)
(Quartz--Classificatiori)
RZ11-11,11, A.A. , GLA,7,'Ply B.M.
Aut.,)rmt-4(. LrOLIMM ccrt,rcl of c,"I lrji~ln~~f~,-J~ ~, no':-, ;,b-..-,
n-- 12:; 2(~-23 1~4. WikliA A i.)
L Mv-,skovtildy UiL3~ltut, "S~)yu-Ilvod~~riti~il,,li-,-.,j,ok'~",
GLAZOV, , inzh.
Gyroflywhe4l locomotiveo and the possibility of using thr.:7~ in
Kuznctsk Basin Ilines. Izv, vys. ucheb. zav.,; Tor. zhur. nc,.P:
15.33 161. 15-5)
1. Fcmf--rGvt3kiy gornyy Lnoti-tut. gorn~ljl
11
mashin 1"lum(~,rovokcco Cornogo Inotit.tita,
(Kuzn(.tsk Easir --Niric rail-roado )
(Grogeopic
G [A ZOV D. N.
for urvii!rr.,',)ijr,,i
1. r 0;~: all
t i
71.
'T 'T
-d 9C
I . , , . - " ; , 11; 1 .
. I . .11.
-1 1 - . 1 .1; . .- i I ~ r I , , '!. , , 1; ~ , I-,,. . .
. , ,,, . - , . , ,I -I T) " .' t - I , i .- ,; , - - . , .. , I . 11 - VIII
GLAZOV,G.A.;'~i'TROFANOV, S.Y., -'llok~,or
retnenzent; 'V.A.,
USIKOV, N.N., inzli., red.izd--r,-a:
tekhn.red.
[Nocharlized lille;i III ";mllli-l i.)t. N-11dinflizirovall-
nye pot.ochriyo lin-Ji v Mc)!-kva,
Vasligiz, 1963. 76 )). (.'-11;~A i7::~)
SHULIM, YevCeniy Fedorovich; GLAZOV, G.A., inzh., retw,~n,,,ent;
VARKOVETSKAYA, A.I., red, lzxi-va; DDUNA, I.A.p red. izd-
va; "E ERSON, M.E., tuekhn. red.
(Line production in the machirpory and instrimiont induo-tries]
Potochnoe proizvodstvo v mashinostroe-nii i priborontroonii;
iz opyta zavodov n sorliryn proizvadotvom. Mo:tkva, "IaShGiz,
1962. 222 p. O-ITY.A 15:9)
(Machinery induatry) (Instn-unont industry)
(Assembly-line motbcds)