SCIENTIFIC ABSTRACT BLINOV, V.A. - BLINOV, V.V.
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CIA-RDP86-00513R000205520010-6
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December 31, 1967
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BASOVAj L.V.., starshiy nauchnyy sotrudnik,- BLINOV V A*-. I
kand.tekhn.nauk.,
starshiy nauchrjyy sotrudnik; SIMOVSKNA, Ye.r-.j-:-PODSHIBYAKINA, N.D.;
RIMBA, A. Ya.
Applying #e emulsion method for. wool dyeing. Tekst.prom. 23 no.11.,
83-84 N 63- (KLRA 17: 1)
I* Nauchno-io;sledovate.l'skiy institut, organicheskikh poluproduktov i
krasiteley'(tor Basovaj,-Blinov)e 2s Rukovoditell gruppy
Infor-mtsionx-io-
tekhnicheskoko bywo Nauohno-issladovatellskogo instituta organiches-
k1kh poluproduktov i krasiteley (for Simanovskaya). 3. Nachallnik 1&-
boratorii.Latviyokogo kompleksnogo nauchno-issledovatellskogo instituta
legkoy promyshlennosti (for Podshibyakina)- 4. Master krasillnogc tse-
kha fabriki."Rigas Tokstils" (for Rumba).
BLINOV, V.A., atarshiy nauOmyy sotrudnik, kand. tekhn.
nauk;IMSOVA,
., starshiy nauchnyy sotrudnik, kand. tekhn. na"-
Variant of t-he emulsion dyeing method of wool. Tekst.
prom.
24 no.1105-56 N 164. (~aRA 17cI2)
1. Nauchno-isaledovatellskiy institut organichesIdICh
poluproduktov i kraBiteley.
_4LINO W..YUZHN,11.!,, S.N.
Characteristics of the distribution of complex zirconium-Utanium
placers in Mesozoic and Cenozoic sedimonts. lit. i p01. iskop.
no.6tl9-26 N-D 164. (MIRA 18:3)
1. Vsesoyuzryy nauchno-issledovatellskiy institut minerallnogo
syrIya, Mosk.va.
"The Question Of The Initiation And Differentiation Of Cart6legeneous Tissues
In Avian
Smlbryos. Laboratory Of.&I%erinental &brioloMr (Chief: Prof. F. G. Svetlov),
Kazan ll-.edical
Institute." (p. 311) by-Blinov, V. A.
SO: PREDECES.-CIR OF JOURTIAL OF MINERAL BIOLOGY. (Biologicheskii ZhurnLl)
Vol. VII, 1938 11-1o; 2
a- I :A- -391mil 3233 J415 MAP arm.,
& p IF t 2 AA 11
1.
0&A 122115
p j/ 17, plocclul Awe paottalits mw#
OOA
CTION Or .X-RATIONTRIC CMDRYOMC IDEVSLOP-
lift" Or AMP111111A. - V,&49WV. Duklady Akad, NAvk
woo
Problems ndog relativit sesslit"y to %; rays. both at
different stages of embrycale life sad at various poists of
the duvelWa body, *#to toyeaticated on &WjAls and
tritum tuiLing 147 r1min 6cw* IrArnsaty). and nn frogs
(1100 r/mud, the It4halkly portentalp serving an a r
sonsilivity criterloa. It was observed thm the final phase
44 the blastula at*. tho late siftrUlit Mae. and the time
00% of the loll tomattim Were " far tkA "a $Msttive not
(critical) perioda in the embryo% life, as far sit a rays
wsrv Conte . Furthermom, the nmAirnum sensitivity
is lacallard at' the rur Md doting the early stages (bring
Y A thus cocrelated with p1drulatlon disturbances). while in
later pericsis It is contentrsod at The fare (brain) end of
the embryo.
tie*
tiell
aSn-ILA 44TALLUNSICAL
flow I'M# .00. ~Jft.
I"olo 64 Soloso wit INV a" 1111ill ad O-V 4111
S AV -0 R I - a M A I it ad a I )r Is 9 a (I
it 0 v to UP 61 K 'l 1 1, it, 't It it oil & -4 1 Isa
I . , 1010
09 0 0 10 0 W 0 0 0 0 9 0 'Wie 0", 0 SO w 'o'o' 0 0 0 606 0 *go*
0 * 0
.0 0. 0.0.0 0 gig 0, 0. 0 0 ei 0 411 0 0 a 0 0 0 0 0001,
Mu
USSR / Gzmural Biology. Individual Mvolop-.30nt. B
Abs Jour -131 Zhur - '3jiol., No 19, 19510, No 35583
Author 31inov, V. A.
Inst *'. =0-G " irm
Title 15,~nsltivity of ji;~Iplxibia Lmbryos at Difl'orcnit
3 tc.7, o aof Th~ir Dovolopmoilt to Actioi-I of
Ravs.
Voor. radlobiolwii
Cri3 Pub 7 sb, L., 1956, 159-184
bstract Axolotl oiabrl~os woro irradia-'~,d by dosos of
A
10 to - 3, 200 -- r. IrradiA ion bof ora tho' bo&in--iin3,
0, fission by dosos 10 r c;~ued rctardation or
stop-paS.) of thair dovolopaont-, and ---~a1forz,,ation
or, dostruet ion. Lifo duration of wabryos w,.a
lnvcrscl~ tional to tho radiation dosa.-,'c.
-propor
Doscs of 4-30.rzeausud 100,.) dostruotion"in
'lard 1/3
U53R / G--neral Biolo,,,y. Individual Dovolopziont B
Abs Jour Rof _711ur - Biol., Nb 19, 1953, '_.,~'o 35533
Irradiation at Vao oarly astrula sta-_ pro-
duo,.:d a sonowhat di-Lainishod radio aond it ivit,
o f 1 In such cases, at dos,:.-o of >40 r
C, *bjljrd destructioa pca',. appoar,:;d, corrcapond-
ia7, to thoso of lator staSos of davolopment.
A furthor ekiia-inution of radi030,1SitiVilv"T 11~,S ob-
sc,,rv(;d vrith irradiatioa at tho nourula o.--,-ld
tail G,):,miation sta-as. Tho dtiration o'.L' life
iii this caso was lon~,,thoaad, and the doso to
put ,. stop to furth.or dovolopm_,rit raised
to 9,600 r. HistoloGical analysis showed that
at early sta-cs of dovalop.-u-,int th- most pmlj
n;D.-Litly Oxprossod disturbannec;s of d,~volo-oiiont aro
obsorvod -i-Ll the tail soctor, in at,,.-us in
thQ hoad soctor, capocially in th~., norvoiis Bys-
tcm. -- A. 3. Shovolcv.
kritard 3/3
22
-------------7
ZION ~Do
TOPIC TAGS: silicate glass'l gerdd~ate glass, neoky:m1um activated
glass, laser eye-
Al
Item, light absorption spectrim,.lumineacence lifetime, glass
composition
ABSTRAM.. In co='ettion:.,:idW tbe . piobit ij'~deviiing 4nore
powerful laser systems,.,,,,
I I
ctiVA' alkali silicate 'and.
lodyid*4 e4
__Ch~iAiv;atlofil by the Nd
stiidied.,'
nTe In ergA
gerannate glatises have been
prompted by the reported relative fa4lity or population inversion
vith N-S, without
;cooling to a low temperature. The p*rpose of the study vas to
determine tliz effect
,of the rat'41o of glaes-forming oxide0XSiO2 or Ge02) to modiflers
f?lls_0 nr K 0) ard
ithe neody-miur ~~t;c_e_n_Tr_a-tlon in-the Na.20-Sio, K20 _S i02 ,
and X - ~~s:5 6 v
j,
Spe VrA_-WAMj_
e-,
-and Imineacence-life ines-1 T vere eAstired at room
rprincipal bands 2~ tealperstur 3
for R02-R1,0 ratios in the 1:1 to 1:11 range and for 1-10% Nd2ol 4n
'.he elass S7-.tc--
studied, Me glp-sses were prepared by melting chemically rlirr-
nh+e-'FL-in -,t 13, f
I Card Ir-
R_ ~-_ 941~1 I
RM W- W
ACCESSION NR: AP5009224
1500C. Luminescence was excited with an IFK-2000 1=p. In the silicate
systems,
at a constownt Nd203 --,!,Dntent (2% by weight), the width of
absorption bands
xk- ~nrrpasp In alkp_l ~on~crt
tl~en Starlea Lc aecrease. 'Ine
S`-' 2--K20 1~,ver for the same ratio in the
for the Ge02:K20 - 1:3. In the K20-GeO2 system, the fine structure
of' a0gorption
Bvectri.ir and E maxirr= for 513 mv vere observed at the sane
C' tl7e abz~rTli~-- bs~nclp 'n K;,O-GeO2 uystez. varied In !'he -j,.
.n -he K 2 s,,- sem e . , de c re P--- e d wh e r. t i-4 e F 7n, e
finer' abs~rr-:-n vgs obBerved ir, the K,-' S", 2;%s
6e reazei~ v`th %-n nrEase Ir the Nd2'3
I concentration in
1~--_-ause nr concentratior qjenching,
data were dlscusse~ --.n the bttsls of coordination be-~veen
amd the interaction cf NP~ Tjth sL--rounding oxygen ions. 1~!,_
was found tc be significantly hi.?k.,.- thar in potaBolum glasBra.
a Z
2 figxxres and 1 table,
ASSO.CIATION! Moekovekiy khi-miko-tf hnologicheskiy institu- int
Itari 2131'--_--
CHERNOSVITOV,, Yu.L.; TUXALISKAYA, E.M - BLINOV, V.A.
Ap , nauohn. red.,-,
SERGEYEVAt N.A.J, red,izd-va, 0
tekhn,red.
(Industry's reguirements as to-the quality of mineral rav
materials; handbook for geologists] Trebovaniia
promyshlen-
nosti k kaebeetyu mineralinogo syrlia; spravoohnik dlia
geologov. lzd.2., perer. Moskvag, Gosgeoltekhizdat.
No.73. (Titanium) Titan. 1962. 74 p. (MIRA 16:7)
1. Moscow VsesoyuzW nauchno-isole0ovatellsidy institut
minerallnogo syriya.
(Titanium)
BLINOV, V.A.1 DYUBYUKI,K.A.; KUZIMINA, L.S.; ODOKIY, B.N.
Concentration of titanium in volcanic sedimentary formations of
the Yaatrabovo horizon in the southern part of Voronezh Province.
Geol.rud.mastoroah. 5 no.1:109-113 Ja-ri 163. (MIRA 160)
1. Vsesoyuznyy nauchno-issledovatWskiy institut minerallnogo
syrIya, Moskva, i Voronezbskaya. ekspeditsiya Geologicheskogo
upravleniya TSentrallnykh rayonove
(Voro nezh Province--Titanium)
BLI KVYATKOVSKIY,, Ye.m.
Geochemical characteristics of granitvido in the Khapcberanga
region. Zap. LGI 45 no. 2:31-33 163. (MIRA 17:5)
I
I
BLINOV V, A
- Se~o~d Conference on the Geology of MinIeral
Placers. Sov.
ge6l'. 7 no.8sl65-170 Ag 164. (MMA 17tlO)
BLINOV, V. A. Cand Teoh Sci (cliss) ivum-oontaining
glass and
...oertain &VAft physiooohemioal propertivl-'-~--Js,
1957. 11 pp. (Min of
Higher Edueation USSR. Mos Orde~ of Lenin
Chem-Toohnologioal Inst im D. I.
Mendeleyev. Chair of Teohnology of Glass), 120 oopies
(KL, 44-57, 100)
413 Na Tk
KITAYGOROLSKIY. I.I.. prof.,, BLINOV, V.A.
Titanium glass as a d-f-eleetric material for capacitors. Stek.i ker.
14 no.8:4-7 Ag '57. (MIRA 10:10)
(Glass manufacture--Chemistry) (Dielectrics)
XIUYGMMSKlro 11&4,1,,#~~ T*A9
Thin glass films and their use. Itady NMI no.24t3l4-317 157
(Glass nautdaeturs) (Mru iltO
13 /1"VO
t/ A.
20-2-~2/6o
AUTHORSs Kitaygorodskiy, I. I. , Blinov, V. A.
TITLEs "Pireksill' (Pyrexyl) Heat-Resistant Glass (Termostoykiye
atekla
"Pirakail")
PERIODCIALt Doklady AN SSSRI 19581 Vol- 1189 Nr 2, pp- 351 - 353
(USSR)
ABSTRACT:
Card 1/2
The authors give, a sur-vey of works whose aim is the synthesis of
a glass which in its properties approaches quartz glass. They
succeeded in producing a g3ass in the Chemioal-Technological In-
stitute Moscow (Moskovskiy khimiko-tekhnologicheskiy institut)
which is clooe.to-I'Vikor'l-glaos (references 1, 2), but which does
not require any leaching of glass and no repeated heat-treatment.
Further the problem.o4the influence exerted by the overrefined
crushing of the mixture upon the melting process and upon the for-
mation of glass.is discussed. There exists no uniform opinion on
this problem (references 3 - 5). Highly disperse quartz-aand and
chemically pure materials were usgd for glass- melting. The melting
lasted 6 - 8 hour's at 1600 - 1650 C in an oxidizing medium. Boron-
-silicate-glass of the type "Pirekell (pyrex) was used as initial
glass. B20 was gradually replaced by Si02 in the original compo~
sition during the synthesis of the new glass "Pireksil" (Pyrexyl).
At a constant content of alkalies the content of silica amounted
M
"Pireksil" (Pyroxyl) Heat-Resitant Glass
PRESENTEDt
SUBMITTEDs
AVAILABLEt
Card 2/2
2C-2-,42/6o
to 80 - 94 %. The composition of the individual series of galas
i a shown in t able I . The sand f raoti on f rom 20 to 1 p yio lde
d the
beat results. For glass melting on an industrial scale the authors
recommend the compositions Nr 186 192 and 2 12, which Posagsa
small muduli of extension (25-10 1, 21 .8.10- and 16,9~10-1). In
the State Optical.Inatitute imeni S. Is Vavilov (Gosudarstvennyy
opticheskiy institut im. S. I. Vavilova) a semi-indus trial melting
of the glass KS-192 (KC-S92 Russian) was carried out in a quartz
container (80 1) at 1650 C in a high-frequency furnace. The obtain-
ed glass had a good quality. Finally moduli of extension of the
glass-series I - IV are given (table 1). There are 1 teble, and
5 references, 3 of which are Slavic.
June 14, 1957, by I. P. Bardin, Academician
June 11, 1957
Library of Congress
AUTHORS;
Kitaygorodskiy, I.I., Blinovt V.A. SOV/20-121-6-31/45
TITLE:
The
Production of.Super-Thin Film Glass and Its Fields of Appli-
cation'(Polu*bhehiye everkhtonkogo plenochnogo stekle i oblasti
yego
primeneniya)
PERIODICAL:
Doklady Ikedemii neuk SSSR, 1958, Vol 121, Nr
6, pp 1060 - 1062
'
(USSR)
ABSTRACT:
Rjibdjjt2::k.'ijjf`bY"t1ofi6 'wii&_ published on the
production of the
iii__th6'titl6**(Refs 1-3)* The'se glass films are
mice, condensers, cover
Since 1955 the authors have
'tr-i-e-d -to
br-ifiniia-a bbfitiffii
odi-pioduction-of super-thin glass
'
rilms-1fi_f6ri'of 6h endl6as strip; these attempts were made at
thi-_kaifeidis-tekhnolo~ii stekle Moskovskogo khimiko-tekhnologi-
chiskoto.7ihstifdti.iffi.'*D.I. Mendeleyevs (Chair of Glass Techno-
lo`g~-,6f::tfie-Mosc6w Cheimice'l Techn6logical-Inatitute imeni D I.
Mefidel6yei ). 1f tiir an"investig'ition of the methods described,in
publibatibn6 the method of extracting the melted glass vertically
dowriisid was chosen. It is"widely applied in the production of
glass
fibers. Figure" 1 ihovs a pattern of the furnace. with a boat
Card 1/3
made of ceramics or plestin". Due to its own weight the fluid
The Pioduction of'Super-Thin Film Class end Its
SOV/20-121-6-31/45
Fields of Application
.glass flbws'.out'thiough 61split in the bottom of the boat. The
stri~.foijiifig-Wthi6.. Oethod'.'is wO-oand up on a drum with
vary-
14, Vbl:06it~~. (i~cordiiig_t_o'_the_ re uii6d 'thickness of
the strip)?
A_'bdihmib_._hbldik (bo~rtbdeithetel`~ prbvents s'narrowing of
the
stiip' ." - T4i -, dtri~-"idhei-eei'to it'and-"thus 'maintains
its original
bibidfh 2---_100-m'M.- The'*len'gth of the strip,
iesched.asvirei a6zbia-or-ifi6tei,6 Ai well'se a.uniform
'thickness.
of-5 50. ii,il6o,p6biible to* reach other thicknesses.
..The',. ileii1tity, of -th6-it*ip'ib abtbrniin6d by its
super-thinness.
as the glass from
irhi6h - thi The~ 00#06ition, of the glass is of
great imporlance.' :Apar-t''fr6m tW-troperties of the
stri:p,,teble 1
Artificial mice produced
fr6m iV6h6*b--j6 ,viial.id,~iiitigd,d-in-c6mpirison with mice
(Teble2l,
This-fact'.Ydfers-to,the-cdndL%naers produced of the-strip.
There
are I figure,' 2 tables, and 3 references.
Card 2/3
The Production of Super,-Thin Film Glass and Its
SOY/20-121-6-31/45
Fields of Application
PRESENTEDt April 24, 1958, by 1.P. Bardin, Member, Academy of
Sciences,
USSR.
SUBMITTED: April 23, 1958
Card 3/3
KITAYGORODSKIY., I.I.; BIJNOV., VeA.
-----------------------
Investigation of -physIc6chwdca1'trbpertieo- of glasses
contaiw4ng
titanium dioxide* 'T:hidy MKHTI*nb'*27t6;;22- 159, (KIRA 15 3
6),
(Glass-Ana.3,vate) -(Titanium oxide)
5(1,2)
AUTHORSs
TITM
PERIODICALs
1BSTRLCTa
SOV/2o-127-2-44/70
Kitaygorodskiy, I. I., j1inov
Production of Hedt~roof Glass by Enriching Glass With Silica
Doklady Akademii-neuk SSSR, 1959, Vol 127, Nr 2,
pp 392 395 (USSR)
The oloser'the interatomio:bbiide of a crystalline structure,
the lessIthe attuotiii!e-is capable of an expansion caused by
heat (Ref 1). The-ionloryatals with the closest bonds have com-
paratively low 6k~andloh coefficients (Refs 2-4). The quartz
glass which is very suitable for the production of different
resistant-produots.i's too expensive since its production re-
quires a.high-temperature. Therefore glass types with high
.silica content-*ere-neceseary. The glass "Vikor" was found which
is similar to the quartz glass. It contains 96% Sio
2' Vikor-
glass is.produeed from'the.glass of the system Sio 2-B 0
2 3-Na 20
by heating until a slight opalescence occurs. This proves
Card 1/3 apparently the formation of alkaline borates and the
separation
Production of Heatproof glass bi Enriching Glass With
SOV/2o-127-2-44/70
Silica
Card 2/3
of the glass into 2 phases: a) silica and b) the sodium- and
boron oxides soluble.in mineral acids. Then the glass is rinsed
in a hot minera; acid. The phase (b) is leached, and glasses
with microscopical pores produced. Then the gla 11 a products
are rinsed in water, driedt and heated up to 1000 11000. Thus
the pores are-"fused". By.*this method transparent prodacts with
not porous surface.and the mentioned 96% SiO 2 are produoed.-The
glass is equivalent tb melted quartz, is however, more easily
to be worked in the*gas burner flame than quartz. No thick-
walled (more than 3-mm ) products can, however, be produced
from this glass * Ifi'the present paper the production method
of the glass Imentioned in the title is developed. First an
aggressive alkali-free lead glass with low viscosity is melteds
this is the differende-between this and the hitherto used me-
thod A quantity of vibro-pulverized quartz-,land as high as
possible.(grain sizie'1-20A or silicic acid gel) was additionally
solved in.tUs liquid phase with a small quantity (3%) of
sodium chloride. 1) Borosilicate of the "Pyrex" type, 2) highly
silica-containing glaBs*, and 3) alkali-free lead glass (Table 1)
were used as initial glasses. These glass types were pulverized
Production of
Heatproof Glass by Enriching Glaaa.With
SOV/2Q-r127-2,-!44/7o.
Silica
in a ball mill and' 50%. sand was.-added.
to each. The quartz grains,
do not melt in-the-heatin,g up to
166o%-16700,- but are gradually-
solved in the liquid phase- (in-
glass)_.._The-.gr&ina_ aze. f1rat-
subjected 'to polymorphous- changes.
and burst.-The diasolution
proceeds mainly on the surface of.the cracks
so.th&t,the,-quartz
grains are "etched". The glass -Hr. 5. (above.)
is,.b eat 'suitabl--e
for this. A.series of-alkali-free lead
glassies.were zelted on
the strength of the obtained. results (Tab
le...2_)..-.TJhey-.. had. it,
yellow color. Table 3 shows the
composition.of-the-in1ti-al glass
types and
those.enrioheA.xith-quartz.vith the :thermal expansion
coefficient.
Prescriptions are given. arb',Y tables hnd* 4
references, 1.of which is
Soviet.
1550011TIONi
Moskovskiy khimiko -t ekhnolog i obLes kiy ins t
itut im. -D.. I.- Mencleley._'
eva (Moscow Institute of, Chemical-
Technology Men-
deleyev)
PRESENTEDt
March 19, 1959, by 1. P. Bardin,
Academician
SUBMITTEDi
March 19, 1959
Card 3/3
BLINOV V.A.- KLUSHIN, I.G.
Determining the ratio between the averaging of geophysioal
anomalies
and their analytic altitudinal continuation. PrikI. geofiz.
no.40:
136-142 164 (MTRA 18ii)
-NV-
0-13498 7
-:_:-ACC- AP6 7 `UR /612 0/66/000/0.02/071i 0073
. ~1, - o -SOURCE" CO
DE:
!-A 0 4,
kinov. A. t Kiiznet _14., I.,
Radium-,Ihstitute, AN. SSSR',,1-Leningrad (Radiyevyi-institut AN
SSSR)
:.TITLE Low-noise '$-counter using 4'. siolid state anticoincidence
circuit
SOURCE: Pribory i tekhnika eksperltoenta, no. 29 1966, 71-73
_TOPIC TAGS:,-radiation counter '0-counier~
ABSTRACT::: A. compact, light-wightl- lov-rnoise 0-counter built n
the basis of the'.
DF-100-decade-counting device is :'described. An
STS-5-b--yrsurrounded by a ring
of ant "icoincidence-coupled counters..of the same type, serves as
the active counter
and in ulaced in a lead housing 'During the measurement of the
activity of high-
energy i-sources, some of the eiectronS may pass through the main
active counter and
then through one of the protective counters, thereby activating the
anticoincidence
circuit. To prevent this,a plexiglass cylinder-, 7-8 mm thick, Is
placed between
the main and protective counters to cut off "articles with an energy
of up to
2 Hev. Five P16 transistors are used In the anticoincidence circuit
shourn in Fig. 1,
Pulse amplitude of the STS-5 counter reaches 150 v and varies as a
function of
supply voltage. Pulse duration to 150 psec, All diodes used in the
anticoincidence
circuit are either type D9B or M..:,Stable operation of the circuit
is not affected
C6rd 112 Z,
:UDC:. 621-i387 J.-
RX I.. I I I ~ V6. -I I -
WS uclear P sics - Energy levels of Li FD-2355
.Card 1/1 Pub. 146 - 20/34
Author Khromchenko, L. M., and Blinov., V. A.
Title Study of the energy levels of the Mh`=um~nucleus by the method of
magnetic analysis
Periodical Zhur. eksp. i teor. fiz. 28, 741-743, Jun 1955
Abstract ]BY the method of magnetic analysis of the products of
nuclear re~~-
actions (method described by.L. M. Khromchenko, Doklady Akad. llituk
SSSR'193, 451, 1953) the authors investigated the energy spectr'zn
of the lithium nucleus, this method making it possible to obtain
on a photoplate lines visible to the eye, instead of the locali-
zation of discrete groups of particles. They present a repro-
duction of photoplates obtained in the case of the irradiation of
lithium oxide by deuterons; they also present a table of data for
the levels of excitation of 17* nucleus compared with data of
others from the reaction Lik(d,p). They thank the late AcaaelEff...
cian P. I. Lukirskiy and also Professor Yu. A. Nemilov. Nine
references, including 3 USSR (L. M. Khromchenko, DAN SSR, 94,
B. S. Dzhelepov and L. N. Zyryanova, Uspekhi fiz. nauk, 47, 1952).
Institution Radium Institute, Academy of Sciences USSR
Submitted Januaxy 24, 1955
AUTHORS., Blinov, V.A., Gedeonov, L.I. 89 -1-7/18
TITLE: Wtmber of ActivelAtoms and ftpected -aecm~y Reacti6ns
-:in -Tot4il Frag-
mentation-Adtf0itildsia- (01i1s1:d-',9kUvqyk4 atomov i
predstoyasehikh
aktov raspads. v proba.kh summarnoy oskolochnoy aktivriosti).
PERIODICAL: Physics and1hirmotechniquei-of Reactors! (Fiiika i
teplotekhnilm
reaktoro*), : Supplement Nr. I to Atamaya energiya, 1958, (USSR)
A Pit' C(~-10-3
ABSTRACT: The number of active atoms and the remaining number of
acts of
decay for the sum of fission products of the prompt fission of
uranium-235 is oomputed. This is of importance, for example, for
the problem of calculating the concentration of active atoms in
the air, the presence of which may influence the electric proper-
ties of the atmosphere. This is also important for the case that
thed,ose of the fission products obtained from the atmo
is intended to be estimated. In this case it is necessa
termine the acts of decay which took place during the 1
sample from a certain,time onwards. There are 3 figures
and 8 references, 3 of which are Slavic.
AVAILABLE: Library of Congress
Card 1/1 1. Uranium isotopes (Radioactive)-Decay-Math-nqtica1
2. Uranium 235-RadioactivitY 3. Fission fraonneents-AA
..2113), 21(8) SOV/89-5-5-18/27
-AUTHORS: Shvedovy V. P., Blinovq V. A.) Gedeonov, L. I., Ankudinov,
Ye. P.
TITLE: Radioactive Pall-Out in the Neighborhood of Leningrad
(Raaioaktivnyye vypadeniya'v okreatnostUakh Leningrada)
PERIODICAL: Atomnaya energiyap 1958, Vol 57 Nr 5P PP 577-582 (USSR)
ABSTRACT: The samples to be investigated were obtained in the following
manner:
1) A piece of absorbent paper, on which the dust from the
atmosphere and from precipitation collects, is placed upon
the bottom of a euvet e with walls of 10 cm height and a
ground surface of -1 m . Tha ouvette is posted in a free
space for a period of 24 hours. Collective effectivity:
80
2) The fall-outo is collected in a porcelain vessel with
high walls, the bottom of which is covered by acidified
water. Collective effectiveness: 100 %.
The colleoted matefal (waterg snowq absorbent paper) is
evaporated and the ashes are dried at 500 0C. The activity
Card 1/'~ of the.residues in a ground state is measured by means of a
SOV/89-5-5-18/27
Radioactive Fall-Out in the Neighborhood of Leningrad
window-counter.
In orderto be able to draw conclusions with respect to ab-
solute activity from the impulses per minute measured by
means of the counter used, comparative measurements were
carried out. W 4n counter developed by S. A. Baranov and..
R. It. Polev.V was used)
The density of fall-out is represented graphically in the
logarithmic scale for the period of from Alril 1, 1954 to
December 3", 1957 (daily measurements). The annual distri-
bution is as follows:-
Density per day in mC/km 2.
mean annual mean annual maximum value number of"signal"
temperature backRround with date fall-outs
1954 0,73 0,31 12,48 10'Xi 36
1955 1,28 0,40 93vOO 132IIit) 53
1956 O~70 0945 16,41 26,xi 40
1957 1,67 0,50 43942119,IV:~ 94
1958 - - 42
Card 2/3 june)
BOV/89-5-5-18/27
Radioactive Pall-Out in the.Heighborhood of Leningrad
Summated activities were calculated as amounting to;
me/km2 mC/km2
July 1, 1954 13 JulY 1j 1956 68
Jan. 1P 1955 56 Jan.1, 1957 87
July 1, 1955 87 JulY 1, 1957 142
Jan. 1, 1956 72 Jan. 1, 1958 151
A more detailed graphical representation of these values
is given in an affixed appendix. There are 5 figures, 2
tables, and 13 references, 3 of which are Soviet,
SUBMITTED: July 301 1958
Card 3/3
AUTHORS:
TITLE:
h2556
S/089j62/013/005/008/012
M02/B104
Blinoy-, V. A., Karamyan, S. A., Matveyev) 0. A., Nemilov, Yu.Ass,
Selitskiy,. Yu" A*
On some peculiarities of measuring the energy speotra of
a-particles ahd fission products with semiconductor detectors
PERIODICAL: Atomnaya-energival v.*13p no. 59 196~, 476-478
TEXT: Semiconductor detectors of charged particles have various known
advantages. Chatham-Strode et al., however, have found that these
detectors cause a low-energy-tail in the pulse-height spectrum of mono-
chromatic a-particles (IRE Trans. Nucl, Scial *89 59s 1961). In the
tail,
region the intpgral count amounts to about.1% lanly. This effect being
attributed'to the presence of certain traps in-the.ph junction which
xeduce
the pulse heigbl#,the, reduction was now studied for a-particles and
fission
fragments* All measurements were made with semiconductor
surface-barrier
detectors designed in the Leningradskiy fisiko-tekhnicheakiy inatitut
im.
A. F. Ioffe AN SSSH (Leningrad Physicotoohnical Institute imeni A. F.
Ioffe
AS USSR) of 5-5 am size and having a resistivity of 150 ohm-am. The
voltage
Card 1/2
S/089/62/013/005/008/012
On some peculiarities of measuring ... B102/B1O4
applied to the.detectorwaa 20v. In various experiments with Am 241, U233
and U235 the causes of the low-energy tails in the energy spectra of
a-particles and fissionlfragments were investigated. It was found that
the
recording zone of the pn junction does not contain any regions that,
reduce
the pulse heights. Only boundary effects could explain this reduction
quantitatively. In special experiments the kinetic energy of fragments
from thermal fission of U 235 was determined as a function of the
fragment
mass ratio. The drop in total kinetic energy at the'fragments observed
with
symmetric fission was in agreement with other papers (e. g. J. Milton,
J.
Fraser,..Phys. Rev- 7P.No-2, 27, 1961). The data obtained &-from the
semiconductor counters were corrected for the loW-energy taili. An
integral
neutron flux of "J~-Io 11 cm-2. was found to raise-the detector
resistivity,
from 150 ohm%'cm to 10,00 ohm-am. There are 3 figures,-
SUBMITTED: April 5t 1962
Card 2/2
2'
S1089V6 /013/001/004/012 J
B102/BIO4
QUM- ~V- 6111, 0 i pLitvin, V,, F.j
AUTHOM.
Nemilov, Yu. A.
.$goe$i~,ogr~Lp~~analyzer
TI TLE: A pojygq~pl magnotid~lwe
4
.1 no; ii-j962s 59-60
PE410DICAL. Atomhay& onergiyal
TEXT Detail~ a ,.q1 #i t:r~tion 9~nalyzer similar to
a are given of
m%A
tholie alrejo 'do Intern. Conf
.y scribed by 8-0-'jo
Nudl. St"'ature, Kingston, , q4nA,a*)" a multi-
ru op
F
00,
spqatrograph with a Van-de-Praaf 'i~c dtA`
field, produced by
idth
pe;maner,kt magnets can. be varied-vfl, ht &.trjulgj_af 7 1()3--
o*e. The gap w
is.'I am. Nine sections'with,',diapp v FTA'Spod t44'ine angle
intervals
9914
between 5 and 950, each diaphragmc~' i .-tol.~ePtVato,'a' solid
angle of
QTV
-5-10`4 steradian into its "own" 0 ~'V Taph.'.,The charged
parti*cles
Pe
coming from the target, which is P1 cod,ig-the uniform art of the
magnetic
a
T6.fooused onto the
field, pass through t~e cor~resp o~d AS -.Oil hvW -'and -a
X A
nuijea,r. omgle o'ntrast with
ion P~at s,.&rrM,*A A o
P-aniilmrs do c ad 'by 09
p
BLXNOV~ v .1 DWIPAMVO VON$ I XmNkTsOv$ Mo I,
%-AWMM :!j
usa Op aL gaff=-,bpbOtram#thT- for duming a6haidenom; III
amlytihg a mixtwe of mdiolvotoposs Atom. ontirg 19 no-4042-346
0 1656 (MIL 18111)
--fio
4U"
S/12o/62/000/005/029/036
1) E032/E314
AUTHORS: Baranov, A.I.,.AlinDV, V,A., Lepnevq G*P. and
Selitskiy, Yu.A.
TITLE: Vacuum evaporation of materials onto thin organic
films
PERIODICAL: Pribory i tekhnika 'eksperimenta, no. 5, 19.62,
173 - 174
TEXT: A method is described for the removal of heat from
thin organic filmsso that materials with high melting points can
be deposited by vacuum evaporation onto Ihe'films. The authors
have used collodion films, 10 - 30 us/cm thick, attached to light
dural rings with the aid of shellac. A %-Ing car-rying the film
was placed on the polished end of a iolid brass cylinder and.the
whole assembly was inserted into a vacuum system. After the
pressure was reduced to 0.1 mm Hg, the film was charged by
placing an electrode at about 1 500 V.near'it, so that a very
low discharge was.produced. The results was that the film came
into very close contact with the supporting brass cylinder. The
ALolecular cohesive force between the film and the brass surface
1/2
S/12o/62/oOO/005/029/036
Vacuum evaporation of E032/E314
was sufficiently large for the film to remain in tight contact
with the brass.surface,~eyen when thelatter was turned upsid:e
down, in which position the high'melting-point material was
evaporated onto it. The overall system is illustrated schema-
tically in the figure, in which 1 is.the polished brass
'cylinder, 2 is the ring carrying the film, 3 *is the screen,
is the substance to be evaporated and 5 is a tantalum
evaporating boat. The brass cylinder was found to be an efficient
heat sink and the system has been used2to produce uniform films
of uranium and thorlum up to 250 lig/cm thick.2 Chromium and
-iron films have also beenobtained 100 jLg/cm There is 1
-figure.
SUBMITTED: December 3% 1961
z
Card 2/2
AP5026438
SOURCE Cbbi:~6U.R/0089/65/019/004/0-342/0346
:.AUMORS
Blinov,.V.i A.,;.,DmitrIyev, V. N.; Kuznetsov) M, I*
TIM': 'Application of the ter- f a sum-coincidence:;.
abma-ray~. speotrome
the -analysis: of. :Aoisotope mixtures
;A
SOURCE.-~ tomnaya,energiya 19'. no. A, 19660, 342-346
-detect on,.--gamma spect-rometer-, radioisotope
TOPIC,.:TA gamma
JAB$TRAC11.. A reviewing various: methods' and devices used for
detection.:
,and measurement of Pamma radiations A khe ',authors chose for their
_6xp_eri-_
ment-s-,--the method.developed.by,lA. M4 H6ogenbo'om (Nuel. Instrum..
39 567*,-:_:
~1958). ~ In this,method, a tWd-erystal scintillation spectrometer wa s
used.tomeasure the gamma radiation amitted.in.caseade
disintegrations,'-,~
This method with improved -resolution- was espeeially suited to measure
Tgamma coinoidence*speotra as:well a t relevant peaks
a 0 sum up. This
authors.adapted this method with some modifications to the analysis of
Xadioisotopemixtures*,~ In their arrangement (see Fig. 1 - Card Z/3)'a.
system of fast-slow-coinoidenoes-vaa-,employe4o- The resolving time
for,.,
fast coinoidenoes could be changed b6tween.0*5110-9 and 5xlO-8 sec. A-6
UW: 539 107
... ..... .
L c
-ACC
"5096438: -
zulti7channel- analysing dev icie~.:,:checked only~ioinoiding pulses.,
the.sum
of which represented the full onergy.emitted by two oaseading,.gamma
s were checked, , ef f 80t
quanta., Ohl- th6 full.gamma-aboorption peak
Y.
~1_of Compton scatteritig.was 'elizalhated. - The:iesults of
experiments are
illustrated by.six grapho.showing the-'spectra obtained for.Co-60,
Mo-99,
and Ge-144 isotopeigs, In order to reduce the back-scattering
It is mentiont
ef Not I the crystals,:dre protecte,d:by lead ciones, id how-
~ever~.'that the.lead proteotion obuld,-'be, ommitt6d in cases.wbere,
weak-.
samples..vere used. In conclulsionyWis stated that this method can b
aj~plied to measurements of.Ce-~443,-_C6-l44,.Mo-99_, 1-1311 11-132.,
Ru-160,
Ba-140,.Co-40, U4235:and all..0-ther isotopes-having a cascading gamma
radiation'.' This quantative aniilysii,can be used also for isotope
disin-
tp~grqtions caused by the:successive emissionp..of one electron and one
-isotop ~h ing a-
7a re con onto of
as, liable.tool. for determl ning1the es av
gamma "radidtion-.--of _3 to.A-pct..~._of:..the, I- t6tal'xamount.'of
gamm rays emitted
-by' tHe A1bttu*re_*._:.,- Orig;~ A: gra h
AgvaW
P
SUB COW., _.00~11/,SUBM DATE: 166A66~ P .'.'OPJ,G _R3F.*- 005 OTH REF:
007:
_;7
-7:
L Cord 3/3 FIJ
L
BLINOV, V.A., nauchnyy sotrudnik, kand.tekhn.nauk; RUMYANTSEVA,
L.P...
w""IRV-P-~ry sotrudnik; ANISHCHUK, Ye.N., nauchnyy sotrudnik;
SbMMEVA,
L.S., inzh.; GORBACHEMOVA, A.V., inzh.
Emulsion dyeing of cotton and blerded cotton-lavean goods with
the leuco eaters of vat dyes, Tekst,prom, 25 no.2:65-67 F 165.
(MIRA 18--4)
3 Nauchno-issiedovatellskiy institut organicheskikh
poluproduktov
i krasiteley (for Blinov, FaWantseva, Anishchuk). 2. Kombinat
"Trakhgornaya manufakturall imeni Dzerzhinskogo (for Shmeleva,
Gorbachenkova).
BLINOV; V. D. (Humanak)
Epidemiology of ascariasis in the Nola Peninoulas
Madeparazei
paraz.bol. 110032308-311 162, WRA 15t9)
(KOLA PENXVSUL&-ASCARIDS AND AsuRimis)
BLINOV, V.D. (Murrwisk)
Graphic representation of the proteinogram. Vop. med.
khim. 8
no.4:4355-436 JI-Ag 262. MlPk 17:11)
BLINOVI V. I.
.. 1-14*
Machine-Shop Practice
Collar for testing of Presses
Stan. i instr., 23, no. 2, 1952
m
Tvjiv St# Igo lip MIPS U-sw
it to w 11 1
-r..Q 4- 1- L I - 1- -1-1, L-l _A_0 6-0-
Cl A-J- -A If Sk $00 CIO(ItNt.,
t
13963
stafasmsm. V. L Bfttqv Unit,76r,
41 eL
fr-m
D IIN8. P. 1494-1495.1
1'1*~IY 4,bstmded from ~wtginxi.
Aj..SL A METALLU*GCAL LITERATLAI CLAOWICATIOU
W0.0 19148, It 0.9 13#1
, ;
st "t J
fog
so 00 00
0 0 0 0, SP & 00
ties
we w
8D.Inv
mI I I Od 0 11 v I N a 43 0 31 8 vd"
0 0 0 0 f 0 0 0 as 60
0
1 0 0
JW,A.~nzh.
Refrigerating machinery manufacture during 1961 and its tasks for
1962. Khol.-tekh. 39 -no.2:1-3 Mr-Ap 162. (MIRA 15:4)
1. Gosplan SSSR.
(Refrigeration and refrigerating machinery--Design and
construction)
BIaNOV, V.1 .; UGLOVO P*A*j Jjizh*
~inzh
Overload protection of.the TT-l measuring device. Avtom.,,
telem. i oviaz' 6 no.6:41-42 is 162. (MM 15:7)
1. Ufimskiy filial laboratorii signalizataii i avyazi
Kuybyshevskoy dorogi.
(RaUzoade-Electronia equipment)
60
FOVCSO;;s -..* ;;V0191181. wbts
I . .1- - ]
-ji'istplaalwo at naixtum of
oar
Garb= MOOMOMW MA 84r-. X.I.Bullo
Cbvvs~ stow. 10K 5,1333--i-a all lwjpl
to rX.
M;=A I
suall daft of 00-* mhturea to narow
a tuba b =Xrby, do &mcupt -f CO, prod..d;
Ink with a itolobelometi'le mixture,
== =vo4rA
oVis"tion interalty in dry and
mobt uddomw am id&bU~be& ca. ASS. (P)
zoo
do*
coo
Lee
gee
�%M ILA OtTAkLU"CAL U1101ATM WhOWAT" c -4
IL
Allow flyfolivw S*mlnv
t 1111940 PAT ORV III
U AV a 9 . . a I
It I I I I 'k
.1 all It K
o 910
re:
0 0 0 *19 0-0 0
Owtosesesee0*90*4 006 00:00
;0000*00400 *see 644662* so 000 00 64060060000,100006
u w a a yx Von adid) do d"STC04,vuls
-9,0 it 6 a A t I.. u a" m It u
L-Q.
Is .4
go
902
Om
Alfulliti-v V V 'UaAfS AM "3UJ" o
-441" J&U.UAL 't111q%.1 4W SlIU*U 641 kPIM T14AjA AM WtKj to
'JI&A aqj pi wilviv 'WA4j%nq"1w aTtj
dwa Qqj pul aql
TO
imvp mit .41twu " I Att mul 'Usa'.1t
b1q) !.(v 4*11 A Awl= P^
go. i1
AUSIALUP 01 WWA :IA. "I "I Sol
-YUP4.) In-)4)PA,amIww1w) ammvj kj~oj 4a 01" isig 00
19 rJumn Ot
,iwluwl NupEm& is palwqj ma ai" asi papuAdm nvt( 00
0
~ A =I K4
Ism!![" 1"Pump"w"O Tm "Ll, 0 0
0 0.
IF V,
r-7- a
AkA~ .2
F- 41 )5 a I rift
a At a A ft
Is 0-0 0
tip Akv !v!
of mwmm go combesuou cd .Fbw-l care-
00
1
1
1
&.27; Cf. C.A.
-) Qvmm~ s
F
7
00
n
k
A.
,
0
The ruentmSilm I'l L, P-Wel iocstms with tile illkTrame
mma" of
Sim-
in the finem, vewty w ow g- ww Will; 11 the
tim velocity Cwt be "Preigied by
tA
00
n
The i'm
k - k,*(OW)LI + 60 Where t ft atm. p(MUM4
coeft.wbichdo
and jocqtv. A, A. D,
dnwud an I be tw"Sum
fez
T57
ASIA.SLS 111TALLOVSKAL LITIRAU0111 CCASSIPKATION
%*goal if 011 004
a
n_~
*00 00,9 0
it-
lit
so two a IN** a a 9 v
ft 0 WAI
~Ofi -1 14 00
: :
.00
.00
see
00
4*0
40
'00
woo
'00
00
ts
IV
I
1 16
I p
'
s AND
6"D vaoroff-iss ;~~ih
Combustion a( isa.. ewI
'
MR-I.S. Sil
?PMJ. G#dJ, lei. bi~, -
i
Ttwwvtk-M. The mto of f,K thr
~bm, a cylWor. and Parallel wall% d
coal. It
-01
n
I. I
that tracclonmvUts at tlw it'llm] boutulay
Whkb tooves Monly
forward and that the 0 di%tribuikm W
vwrmrd by the 41mal diffuslon
fristhmit. It. Ibid.
-00
004
f1K1-d-TIw tomp. distritnith"i fm 11w 3
c~ml ~hajvs b,
assuming drlirrry W brot Irtma the c4al tdwyn
R. O
.
WOK
.
.
coo
see
vie*
UIALLLOGKAL UUNAIWIt CLUSOKATON
flow SOWAMV
-440004 "it
4" Got oplAll 5K oftv all
bi0 IN
POW p a a
0 0 0
'
0
00 Wo 41- 00_00 0 09 00 so* *
a
1 4 190
POOCISSO APO "OP11146 WMA
Iso
,
I (COm"OU Rand*,
2316. IMMNG Or. COAL.ASHolle tsar V.
AM7
1
60
Ac ad. Sai* U.LS*S.S~ 19460
T
652' 68;_6861 abstp. in
1116
Brit. Abstr., 91# Jan. 1948, 9),
Mathmatloalo Tho
.3 rolmtions datemining the tomperatues in the
burning sons,
4*
46f a walls a cylinder* and a sphere of coal hav,v
been
A za
dedua ode
I
A'~, L& MIALLmr,%L m1fievot maivrocumv
:11 1&"No
.4 %blow "40 GmT Cot alkwo ~oftv 1.1%
mF-- V- -4 1 a OS 0 0 1 1 or
'm 0 4 a 2 1
-to & al 1111"'A
1
0 Wa 0 0
m -A, 0, .0
WA A
-
06 A
so-
00 A
0
Is%". wiWatwe of Hjulds, V. . 'INI14. .0 0
so W. sit. V.P.SJ. 5J -4734A. ft- he relailims .00
00 It t*IVM'n the 141010491 Of-IM11,, U a lisjuld III III nativ*
voill*ol
00 Al tube and the dMawv of the liquid suflalv Ifulu Owupivi
end of the tube vm Investinted. The tube wa% 3 nuu.
go a I in 46co. and the liquid was bested by nwans rJ a n-int
whiding on the outside nt The fulw. llennw.
00 Ar Warue, 10011. ked AmOlf Ism The
'Iftults Ismaww" ill Ow ICNIII td at rufvv plum ictlilkwl
Wall. 04 tbe abovisas mud bright formu thr lop 1111,11m lulm,
rAtheardhWe.. 11MUOK temp. of all thv 114ulds 1wrawil 40
withthebelitht.
00 3 lion lwtwrcn the mod,irapor 1we-Atire and the stin. 1weA.
mm. the brialu. muct the 11guld consts. A tviatfAlu i-
drilml (or the ItHISAW brAt of rVal'". which Shows vk.f
asreenworn witio tabulated valurs. A table of lU%h txAnt-
0014 1 Nx 15 mg. liquillf Is xtvvn. [ewe
00 -t ago
AID
A"Mra
xoo
:j too
;'.. ~Qtl
'nr .1 to 9 a 4 3 9 9
U A
06::*0.606906 go :10 o a
0 0 so* **so*. a 0 0 0 0
~Dr -
77
v
f T I T-f T
i T
',i
allil
I
OOA
00
,
t
'
fo 8 NOW V. MOL-
u
r
I
A
904
of '
"m o/
mt
7
oil
dtlA.%LA
METALLURCKAL tffl*Att*t CLAIMPKATWX
x
view *"&AV
%)am sivivilw"
totoot
SOJO03 -it Q.V 3a villil ow 4"v Iti
MI
Vs is
9
, I - F-W
1 A & t a (w o of 'N I or- p a a 4,2 a T IM
K, a, ; a K
ffft, It x I
-
~
0 000,0000 60006 0 0, O,o o q 0, 6 4:0 Ce O*Wll~
0
0 0,0 0 ffi.0-0
oo
BMOV, V.
Novye ammiachnye kompressory. (Vestn. Mash., 1948, no. 3, p.
20-22)
Refers to Moscow "Compressor" plant.
Now ammonium compressors.
DLC. TN4.V4
SO: ManufadIring and Mechanical Engineering in the Soviet Union,
Library of
Congress, 1953.
BLINOT. V. I. A 4314)-287 1
m
'F-1
i
1
t
a a it a
fit 2%0 04
V
A
Pokkd
4kad
No
k S
S
50
S
R
.
o
.
.
.
.
y .
.
-00
CA. 41, 4291rd.-The basic differentisil equation govern-
Ing
the temp. (7) in the combustion zone around a sphere
-
of ash-conta. coal is
(dr/dx) - (30144 (a T - a Ta
k
th
tlo
f th
b
i
di
f
h
d
s
e m
o
e ra
us o
e un
urne
t
q
core to the radius of the sphere. a is the
00
O/C ratio in the "action products c is the sp. heat
capacity of C, k is the ip. velocity ;I burning, a Is a re-
-
dured heat trander coeff., 7*11 Is the temp. of the surround-
Ing atm., and I is the heat of reaction. Thl.4 and triated
110411
equ4tions are applial to various sets of c(suditions.
It.
K.,Llvingston
we*
0 o a
ago
00 w
it
40 0
goo
"
8
Isom *win*
--
w
11114
S
ollill Ogg am. iii
%*Noo ulp 0.1 dat MULS104
I 1 1 3 0 T W
$A 1 9 V FM 0 A 6 60 5 a 0
, a ; 11,; 1_ w U
U is AV as ISI; 14
AS
g
C,
th
M~
Combustion Ora -d T- A.
ettr,~.,
A 1!2=4 S.S.S. R. 73. 9~7(1930e!-) -.a cf. C). A P4.4k.
2,720i.-The previously derived equa lon Is modified for lite
R tj
cast of a bumki; sphere to A&�/(%4 + k1q). where S
(-is -a funcdw of the position of the sphere in a flowing gas
stream and the other symbols have the name mcarting as lit
thin previous abstr: . . If. K. Livingsttti
snu G-
U% Lv,-V.-L emloodo W toll La lk 0
t*n la. Aked. Nauh SSSR OM. tak,
-jffad na 3,73"4% May M. I
p4q*r ia VA additim to the Iftylli-a puwitbad
Iwt* t4t tlt
tbD IUW IMPUSU" QCI'Urt Wt MAY oa'
J~c WL4u "s-ts wl am on
t4 L.~& -.16 ~( tho pm~ A
tkm difiLlmll wIlvity ol
vwimm typa a e*A
pwtku)a4y in reWd to thrir paro4jy,
awdy of Q* vwluttwb pvvvm is
carricut out ou a -m* of
Vhrfw &16LPL AvAly" tmal-Imt of 00 prob$r-m
azswlw.
CYHnd-kAl M Mi-&l POM WAI;AUI PriMadirUlAlly tO &.4
arbom swirwo,
&pmolona for v_wlha Wodty of cml-AnOon,
for rn" ~ct low &od b*b
UmpEjauva we drHved. U5 corns
to Leta
It b abo" that lh6 mtW of ulivmSm
hs .
MlAximum vAlue fee "L-D& cow and b appromimiely tw.,co
WAr than the
yaluo for Wst"vin mmi. RE-aetibz t~,twm
varlm mid oxysm &Vmdl %)Pon tLo
wong the ;om This D=vwtfttinm dcm-L.-a m~~&m!ity
ibe dstorv Imm bumir)s
suiruo, vxwiAy vntlt L=cL4-
ims U~vpemulm, ovskra, tho ftlaohllan o1 tho
proem wul
wvur at "m iwBp=turv toy er4 with flao Pam th4n for tho
rW with
Lvp Perm D. k-tatovic-N
BLINOVI V. I -
.1E
"The Change in Compositionof Binary Mixtures of Liquids During
Burning"
DAN SSSR, vol. 89,, no. 1, pp. 101-1040 1 March 1953
A mixture of two liquids, when burned, becomes enriched with that
component
which has a lower concentration in the vapor phase than in the
liquid. When
burned, a mixt does not change if the compn in the vapor and
liquid phases is the
same. Presented by Acad A.N. Frumkia 24 Dec. 1952
259T4
RLMV. V,..I.
5370. -Blinovs, V. 1, Rukovodstvo k'.0*ktibheskimzwWatjy4w po
Mike. (Elaktrich-
estvo. Magnetizm Akustika). L., 1954. 95 a o6skhom. 20 sm.
(M-vo uyssh. obrat,~-
ova ya SSS R. Leningr. in-t auiatopriborostroyeniya). 1.000
ekz B. to-(55.1017)
53(076.5)
SOS Knizhnaya Iotopis" Vol. 1, 1955
MIS
ussR/Engineering - Fuels FD-2244
Card 1/1 Pub 41-12/17
Author : Blinov, V. I., Leningrad
Title : On the ejection of liquid fuel during combustion
Periodical : Izv. AN SSSR, Otd. Tekh. Nauk 2, ~M-133., Feb 1955
'Ab.,~~-act : A further study and investigation of the belief
that burning oil is ejected
(or sprayed upwards) from a tank due to water, mixed in the oil,
which has
been heated to above its boiling point. Description of apparatus
used in
experiment. Discussion of test results. Graphs, drawings. Seven
refer-
ences, all USSR
Institution:
Submitted : December 30) 1954
124-1957-10-11333
!Translation from: Referativnyy zhurnal, Mekhanika, 1957, Nr
10, p 21 (USSR)
AUiHOR: Blinov,. V.4.7k,
-----------------------------
TITLE: On the Laminar Combustion of Liquids in Containers (0
laminarnorn gorenii zhidkostey v rezervuarakh)
PERIODICAL: Tr. Leningr. in-ta aviats. priborostr., 1956, Nr
14, pp 3-1Z
ABSTRACT: An experimental study on the laminar combustion of
ethyl,
butyl, and iso-.amyl alcohols and benzine in both glass and
metal
burners of various diameters was carried out in order to
complete
certain information and clarify som 'e questions that have not
yet
been solved on the theory of combustion of liquids in
containers.
The calculations obtained from an analysis of the experimental
results are as follows: 1) -For* a given liquid, the ratio of
the
amount of liquid burned to the height of the flame remains con-
stant and does not depend on other factors, such as the diameter
and the material of the burner or on the liquid level therein;
2) the velocity of the combustion of benzine is higher than the
velocity of combustion in other alcohols because of the greater
emissivity of the benzine flame; 3) the decrease of combustion
Card 1/2 velocity accompanying an increase in the diameter can
be ex-
124-1957-10-11333
On the Laminer Combustion of Liquids in Containers
plained by the decrease of thermal losses through the walls of
the burner; 4) the combustion velocity in metal burners is some-
what smaller than that in glass burners because of higher losses
through the walls of the burner into the surrounding space; 5)
during the experimekits some deviations were noted from the
theoretical laminar-.c'o'mbustion formula: const, where
It PWS=
is a coefficient numerically equal to the amount of grams of
oxygen used for 1 g of ste'ali; 44 is the amount of g of liquid
burned per unit time, and is the height of the flame. It is
assumed-that the deviation is caused by the different combustion
efficle~cy of the liquids tested in the experiments, and that it
would 4c, helpful to introduce a correction factor in order to
establish better agreement with the formula.
M. V. Krasnoglyadova
Card 2/2
"~LLT N 0 V , \4 T
AUTHOR BLINOYL_Y,1., KHUDYAKOV, G.N., 2o-5-42/67
TITLE On certain Laws in the Diffusion Burning of Liquids.
(0 nekotorykh zakonomernostyakh diffuzionnogo goreniya zhidkos-
tey - Russian)
PERIODICAL Dokjady Akademii Nauk SSSR, 1957, Vol 113, Nr 5, PP
1094-1097,
(U.S.S.R.)
Received 7/1957 Reviewed 8/1957
ABSTRACT The in'Vestigation of the combustion of motor spirit,
petroleum,
Diesel oil, solar oil and a number of other mineral oil products
in containers of diff*rant diameters makes it possible to deter-
mine a number of laws governing this kind of diffusion combustion
of liquids. Illustration Nr 1 shows different kinds of flames pro-
duced by motor spirit burned in cylindrical containers of 1,101
15; 30 and 130 om. Combustion of liquids is a comtustion of the
vapor jet. Table I gives Reynold's numbers for some of the inve-
stigatied mineral oil products; they were computed on the basis
of experimental. results. In the case of the combustion of liquids
in containers there are two regimes; the laminar with small dia-
meters, and the turbulent with diameters exceeding 1 M. ~he en-
tire domain of the rising diameter is divided into 3 parts: at
d >10 emo(d- 6) the velocity v rises simultaneously, at d> 1 m
practically dbes not change with a change of d. The re-values
for different d and the flame recordings lead to the conclusion
Card 1/3 that the first part of the domain corresponds ot the
laminar re-
00-5-42/67
On Certain Laws in the Diffusion Burning of Liquids.
gime, the third to the turbulent combustion regime of the liquidg
whereas the second forms a transition zone. Uncomplicated compu-
tations show that the reduction of the specific velocity of the
laminar combustion is, on the whole, due to the relative decrease
of the amount of heat in the case if an increasing diameter of
the container. Table~4 shows that intho case of laminar oombu-
stion the ratio between the volume Q 06he liquid combusted in a
time unit and the height of the flameoldoes not gepand on the dia-
meter Df the container, and thus the value umQ/%/'d, which cha-
racterizes the combustion velocity which was referred to the unit
of the flame surface. The value u is modified proportionLAto the
fraction 1/d, which is explained in the following. Prom the ex-
perimental results shown in a table 1 it follows that the speci-
fic velocity of the turbulent combustion is practically indepen-
dent of d: with an 18-fold increase of diameter the combustion
velocity of motor spirit and petroleum hardly changed at all. In
this way the following conclusion is arrived at: the constancy
of turbulent combustion shows that the amount of radiation energy
absorbed by i cm2 of the surface of the liquid within a time unit
is independent of d. Also the relative height of flameIP/d is in-
Card 2/3 dependent of the diameter of the container in the case
of turbu-
go- A2/67
On Certain Laws in the Diffusion Burning of Liquids.
lent combustion.
(1 illuettation, 1 table, 3 Slavic references)
ASSOCIATION Institute for Energetics "KRZHIZHLNOVKIY, G.M." of the
Academy
of Science of the UsSoSeRe
PIESENTED BY KRZHIZHANOVSKIYj G.R.p Member of the Academy
SUBMITTED 25*5*1956
AVAILABLE Library of Gongroas
Card 3/3
BLIINOV, V.- 1. -anid--KHbDYAKGV,- G. N.-,-
"Certain Regularities in t he Combustion of Petroleum Products in
Containers."
of Combustion Processes;.Collection of Articles on Work, Done by the
Power Institute
imeni G. M. Krzhizhanovskogo AS USSR) Moscow Izd-vo AN SSSR, 1958. 123
P.
(Laboratory for the Intensification of Furnace Processes).
.fbr abstract see Xhitrin, L.N.
BLIwT,,-T~L;..KHUDYAKOV. G.N.; PRTIIDV,~ 1,!.-L.PBUTT,.- V.Gh.
Motion of liquid agitated by a jet of air in a tank. Inzb.-fiz.
zbur. no.11:6-13 N 1.58- (MIRA 12:1)
1. Bnergeticheskiy institut AN SSSR, g. Moskva.
(Hydrodynamics)
14~O
Palzation of diffusion flames. Inzb,-fis.zhur. no.8:15-22 Ag 159.
(MICA 12:11)
1, Raergeticheakiy institut im. G.H. Krzhizhanovskogo, Mook7a.
(Flame)
FL40 I BOOK EXPWITATION SOV/5381
Blinov, Vasiliy Ivanovich.. and Georgiy Nikitovich Xhudyakov
Diffuzionnoye goreniye zlddkostey (Diffusion Combustion of Liquids)
Moscow,
Izd-vo AN SOS., 1961. 206 p. Errata 934p Inserted. 2..500 copies
printed.
Sponsoring Agencyt Akademiya nmk.SSSR,, Energeticheskly institut im.
G, N.
Trzhithenovskogo.
Reap. Ed.: L. W. KhItrin, Corresponding Member of the Academy-of
Sciences of,
the USSR; Ed. of Pd! shing Bowe:,~'G* B,,-.Qorebkov; Tech. Ed.: 0. G.
U1 yanova.
PURPOSE:- This book is intended for engineers and others concerned
with the com-
bustion of liquids and means for the extinction of burning liquids.
COVERAGE: The authors have reviewed the considerable experimental
material and
theoretical data,published on the physics of liquid combustion &u-ing
the
last fifteen years in sources not widely circulated. They have
collected
and generalized the results. The subject mattervas restricted to
diffusion
Card 115
Diffusion Combustion of Liquids B(YV/5381
combustion of liquids in containers. The, first part of the
book deals with
ignition end combustion of liquids. Properties of mixtures of
liquids are
described in detail. The second part treats the burning of
liquids and
problems related to the shapes and dimensions of the flame,
pulsation,
temperature, radiation, and various combustion regimes of
liquids. Changes
in the composition of liquids during combustion are discussed
and the results
of measuring burning speeds are described. The second part
also deals In
detail with temperature distribution in burning liquids and
gives reasons for
the appearance and increase of a heated constant-temperature
layer in burning
gasoUne., petroleum., and several other liquids. Finally, the
phenomenon of
ejection of hot liquid during combustion and its consequences
are considered.
The third part of the book discusses the mechanism of
extinguishing flaws
of burning liquids in containers by agitation using foam and
water spray and
with combined methods. The data in this book wre obtained from
the joint
work ot members of the Laboratory for Intensification of
Heating Processes
of the rower-Engineering Institute of the Acade;V of Sciences
USSR and the
Thermophytics Laboratory of the Central Scientific Research
Institute for
Fire Prdvention (TsNXIM). Members of this group.. besiaes the
authors, were:
1. 1. Petrov, V. Ch. Reutt., L. A. Volodina, 1, V. Gerasimov.,
and N. V. Obukhova.
Work done at the Baka Laboratory of the TsNIIPO was taken into
consideration.
The first part of the book was written by V. 1. Blinov, the
second and third
parts by V.-I. Blinov jointly with G. N. Mradyakov. There are
184 references:
Card 2/5
Diffusion.Combustion of Liquids SOV/5381
159 Soviet., 18 English,, 2
German,, 2 French,, 2 English in Russian translation.,
and 1 German in
Russian translation.
TAM OF COWT
From the Authors
3
Part I. Ignition and
Combustioh of.Liquids
5
1. Ignition and combustion, temperatures of
liquids
2. Instruments for determining ignition and combustion
temperatures
6
3- Ignition temperature of liquids and coiftstion limits
of mixtures
7
4. On the theory of self-ignition and ignition of gaseous
mixtures
8
5. On flame propagation in combustible gaseous mixtures
16
6.
On flame propagation along the surface of a combustible liquid
19
7. On
the combustion of liquids
22
8. Ideal solutions
27
9. CUssification of
mixtures of liq7aids
29
10. Mixtures of liquids which intermix in all
respects
31
3.1, Mixtures of liquids which intermix within limits
32
Card
3/5
J
88632
5/170/61/004/002/010/018
B019/BO60
AUTHOR: Blinov, V. I.
r
TITLE: Rules Observed to Govern the Inflammation of Mixtures of
Combustible Liquids
PERIODICAL: Inzhenerno-fizioheskiy zhurnal, 1961, Vol. 4, No. 2,
pp. 95-98
TEXT: The author has shown in a previous paper that the relation
p . p (1-- e-bh ) (1) holds for the inflammation of individual
liquids
in cyTindrical tubes, where p denotes the pressure of saturated
vapor, Po
is the atmospheric pressure, h the distance from the tube end,
b--- 7-5-104MIR/p PD T 9 D is the diffusion coefficient of vapor
at OOC,
0 0 0 z : 0
TZ' is the ignition temperature in OK, 0 the number of oxygen
moles
required for the combustion of one mole of vapor, and Mo the
number of
oxygen moles required by the flame in one second. P. 0. Ipatov
showed that
the relation (1) holds also for binary mixtures, when putting
Card 1/3
886
Rules Observed to Govern the Inflammation S)2170/61/004/002/010/01B
of Mixtures of Combustible Liquids B019/BO60
D = D 10-yi + D2072 and P - P y (2), where y, and y are the mole
0 1 1 -+ P2Y2 2
fractions of the mixing components in the vapor phase. A study was
made of
the dependence of ignition temperature on the composition of the
mixture
of combustible liquids. If Mo is supposed to be the same for different
substanceso and the tube diameter and oxygen concentration in the
atmosphere are allowed to remain.unchanged, one may then assume bo =
const
for po = const for various liquid mixtures whose ignition temperatures
differ only little. Then, b --bo/DoP (3). If Dop changes only little
on a
change in the mixtureg p Zoonst for a given h. In this case, the
ignition
temperature as a function of the composition of liquid and gaseous
phase
coincides with a curve indicating the relationship between the boiling
temperature and the phase composition. It may then happen that the
ignition temperature of the mixture be lover than that of the two
components at a determined mixing ratio. Experimental results
concerning
mixtures of toluene and benzene are then dealt with, in which the
ignition
temperature in ideal mixtures is a linear function of the mixture. The
relation 4m -61 - (-~i - 42)Y2 (7) is obtained, where -~m is the
Card 2/3
88632
Rules Observed to Govern the.Inflammation S/170/61/004/002/010/018
of Mixtures of Combustible Liquids B019/BO60
ignition temperature of *the mixture, 41 and 42 are corresponding
temperatures of the components. This formula coincides with the
empirical
formula by Ipatov..The definition of the flame temperature of a
liquid
is then given and-it is stated that it is closely associated with the
lover concentration limit of the inflammable vapor - air mixture. If
the
ignition temperature is near the flame temperature, the relation
k = B/DP (10), 7here B = const, can be put for the concentration
limit
k VD 100 PD 100. V and V are the volumes and p Iand
~ TD + VL PD + PL D L D PL
the partial pressures of air and vapor. It is shown on the basis of
experimental data that (10) is well usable. There are 2 figures and 4
Soviet references.
ASSOCIATION: Institut aviatsionnogo priborostroyeniya, g. Leningrad
(Institute of Aviation Instrument Construction, Leningrad)
SUBMITTED: Jiily 1, 1961
Card 3/3
ANISIMOV, V.Ye.; BLINOV, V.I.; REUTT, V.Gh.
Relation between the rate of burning of a,Jiquid and its surface
tampIerature. Inzh.-fiz. shur. 6 no-8t45-51 Ag 163. (MIRA 16:10)
1. Severo-zapadnyy zaoohnyy politekhnicheskiy institut, Leningrad.
BLINOV9 V.I.
Using the semiautomatic eight-ap!ndle vertical
drilling machine
with extensible spindles. Biul. takh.-ekon.
info=..Gos. nauab.-
Isol. inst. nauah. i tekh. inform. 18 no.7;32-33 JI
165.
(MIRA 18s9)
MTEMKO,., Yelizavota Somenovnaj-BLINOV. nauckn. red.;
VOLIFE, L.P red.
(Solid state pbysiosp-teftbook for a general p4sics
~6urse] Fizika tverdogo tblil.wbobnoo posoble po karsIA,'
obshbbei fi!ziki. Leningrad., Severo-Zapadryi zaoobxwi~"
pb-litekhnicheakii in-tp 1963. 67 p. MIRA 17:3)
?
,4 A
'A P!-* I
#6"It"t Atib 04opletils Moto
T6 sago' I W"A* ",-4, iNim'J'A"lilt"lim usimmum Zinc AU07 from
'm . -,
Dudsuft lbWA bY a TbWamelodtic NIOW. V. 1. 1111 .80
_J,_Wlmtj- anti D.
it J,
(&vlad. Lob.. 1943. 21, (2/3). r22-223).-Ifn RussLaill. ftluilollit
-tre
eon
iso*
sea
too
004
00
me*
wo 0
400
I I L .. . . . .
16 ~A "49 4'j, jet
of I we '60 004
U
0 0100 00 0 0 0 000 9.0000 00 40 0 041 e .6 0 a 4 06
-0 0-0 0 o 0 0 0 a 0 0 0 4 0 0 0 0 0-0-0-0-* 0 0 0
000 000000,000 040 - - - ~2
BLINOV, V.N., mashinist ekskavatora (Borispoll, Kiyevskoy
obl.)
Changing an attachment on the chassif of the ER-4 excavator.
Strol. truboprov. 8 no.12:30 D 163. (MIRA 17:4)
10 BLIIIOV,'V. P.
- - t SR' o
2. % ~60)
4* lukoyanov District-Fire.Clay
7. Report on the prospecting vork for refractory and molding clays
in the
territory of the Lukoyanov, Arzamas, and Vykea Districts of the
Gorkiy
Province. Abstract Izv, Glav, upro geol, fon, no, 2 19479
9. KonthlZ List of Russian Acgession, Library of Congress, jLv~Eqh
1953. Uhclassif ied.
BLIMV, V.P.; SLAVIKDVSKIT, N.A.; FILIN, L.G., etarshiy dorozhW
master
wwvwmw,w-&%wMntsiya Moskva-Xur.skaya)
Transportation of welded rail units. Pat' i put. khoz. no.6:29
je 159. (MIRA 32:10)
1,Naohallnik takhnioheskogo otdola alushby puti, stautsiya
Moskva-
Kurska.va (for'Blinov). 2.2amsetitel' nachallnik distantaii puti,
stantaiya Moskva-Kurskaya (for Slavikovskly)
(Railroads--Raile--Transportati;n)
--------- --
BLINOVp V.P.; LELICHUKjo V*S*.q nauchM sotro; ROGACHEVSWA, L.S.,
nauch.sotr.;
POMOV, Yu.A.,otv.red.;KBD,T.B.j iod.izd-va;
GUSIKOVA,O.M.,tekbnoredo
(Those who are at the fore'frontj an account on the movement
for.com-
munist 2abor in the Oktyabrlokiy District of Moscow] 0 tekh, kto
idet
vperedi,- rasokaz o, dvizbonii za kommmisticheskii, trud v
Gktiabrfskom
raione Moskvy* Moskvaj, Izd-vo Akad. nauk SWR, .1961. 94 P'
(HIRA 142- 13.)
1e Zaveduyushch4 otdolom propagandy i agitatsii Oktvabriskogo
rayon-
nogo komiteta Kommmistichaskoy partii Sovetskogo Soyuza (for
Blinov).
2, Institut istorii. AN SSSR-(for liellebuki, Rogachevskays.).
(Moscow-Efficiency$ Industrial).
BLTNOVP V.P.
- - - - -------------
References to standards in the teaching literature.
Stan-
dartizatsiia 26 no*6:52 Je 162. (MIRA 15:7)
(Standards, Engineering)
BLIXOV; V. Ve; DOGORODSKIY; As L.;
"Causes of 0.4& Formation of Internal Cracks in Heat-Resistant Steel
Ingots
and Thermal Effect of the Mold on the Ingot," Proizvodstvo
stali'(Steel Produc-
tion) Moscow, Mashgiz, 1958. 154 P.
PURPOSE: This book, published on the 25th anniversary of the Ural
mashzavod (Ural
Heavy Machine-building Plant imeni S Ordzhonikidze) is intended for
engineers.,
technicians and scientific workers concerned with the production of
steel.
BOGORODSKIY, AA~~~~._
'~t
Cause of the formation of internal cracks in beat-resistant steel
ingots and thermal processes In the mold. Sbor.at.UZTM
no.3:101-115
1 58. (MM 11-12)
(Steel Ingots--Testing) (Heat--Transmission)
AMMS onlyajov, B-3.
TITINS CoWerence on Crystallisation of
Mat"(SOTOGhchamijo PC
krIstallizatail metallov)
PIRIODICATA Zavesti7s. kkadenii Sauk SSSR
0td*l~n1j* Takh-Ickwskikh
Sauk, 1958. $r 41. Vp 153 - 1~5 (=-1m)
ABSTRACT: Vile conference was hold at the
InstItut zaahinowodoniya,
AX 8801 (Institute of Nechanteal
zagineerins: or the Ac.sc.
MM) on June 28-31. 1958. Abour 4w people
piLrticipatod
and Cho participants included spocial"to
in the fieldA or
laundry metallurgy crystallography,
physics, voldize,
boost piqsicsl ebollstry, mathematical
PLYsics and other
ro3jL;ed subjects. %A addition to Soviet
participants.
foreign Visitors Included Profossor P.
CZ:Lkl (East Gerz&AT)
&ad 0.1. Ch"rinov (Cmachoslavakla). This
conference an
cz7st&Ws&tj*u of matsk was the fourth
conference relating
t0. the-ges-ral problem or the thoory.of
foundry processes.
T--X.- Is .1 K-.P.
~a . it
7.3r.-Oll OkO,
Nodueli.MV411 -UAXLW-v - 'Certain Xothads
Uniformities Of Large Castings (up to
made of-Rissing Stool'; T-K, SOTUSUY.
A.B. Kilcu
'Influsoce OtInter-al crystalli
*a Wto Structure- and Pr--partles of
stool Ingots-
x-xx-V-kv*r1Wr 030choolovalls) - on tt.
Crystalil,
Coxdfi/10 owsm JLWr SAG Inr.Luo=o an it
or the Properties of
Idg[Old So 91*; T-1,AUVasnakly and 0. V.
_;A&ol I -
*XgLfluence of Movement of the metal in
the 14quid rere
On tb* CrYftallisaticia of steel Ingots
and Costiagg-j
X-ff[~Sguz2in, A.A. Noviko-va, and B.B.
G-ujjjraJo7 -
70taflisation an-TTZ.-hanical Preporti:eo
of st*Qjj at
2241vatImlicops:', V-Y*..YcyWAr1C -
'Influozct Of
X100culs Me.orzation. of the Crust and the
99044 Of SQUALgaatLon of lzgots--. G.p.
ln=a
'ft~zual Stresses and Deformation in the
Cru
OW715"IllsIng Ingot'. V.G._qpgz&A and Jnx.
d&&2% With Problems Of formation at the
primary atruciure
Of structural steel and'tb. influence an
it of -.he
temperature as PO%L--Lxtg.
MW features Of "7st&llis&tLOu of castings
made of
SLU078 with special properties and Of
*UZ'*EdtC Stools
were dealt with In the followLOG pap*rs.
X-1-JEQZM=ov - "Influence of inoculation
an the Stj~cture
and on the Physico-soch-tcal Preportles
Of Ejxb..,.,~y
GU010-1 T-P- P-V. Aksonov, 5.7. Lak2jWc
oul
X-T-- -ARAIA& - -Occurrence of
froa--unifo;~---itri-3 Ln H10_
*02W~fratuf~ Alloys D"Ing
C.-Yotalliscition and Beat
Card7/10 Tr6atM&z)u ard *Xxp*rj&~ut&j
Inv9stigatloa of the Pro.-can
Of CZYst&llifiatiOA'-Of Cast Blades Made
of Refractory
Alloss"; A.N_.-LLarov considered the
process of
ran
Ji
v. -2
'I
HI TOK. ft tee I
a ~ *
IV
lk W P. V -
MH CHI
nji Rai
91
_12
k
W.5 Fo 1 5
S.v