SCIENTIFIC ABSTRACT SINITSYN, S.G. - SINITSYN, V.I.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001550810004-7
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
August 24, 2000
Sequence Number:
4
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
![]() | 2.22 MB |
Body:
KHIATIN, S.A.; PINITSINg S.G.; SVETIAYEVA, A.Se, red.izd-va;
GHECHISiEk*i',`
(Timber stock,bf the LS.F.B,.R.1 stattatidal abstr"% (based
on the calculation of the timber stock an of January 1, 1961)]
Lesnoi fond RSFSR; statisticheskikebornik (po materialan
uchets. lesnogo fanda na I ianvaria 1961 g.) NoskTa, Gosleebwo-
Isdat, 1962. 627 p. (MIRA IWO
1. Russia (1917- R.S.F.S.R.) Glavnoye upravleniye lesnogo
khozyaystva i okhrany lesa.
(Timber)
14-57-7-14283
Translation from: Referativnyy zhurnal, Geografiya, 1957, Nr 7,
pp 12-13 (USSR)
AUTHORS: Kozlovskiy, B. A., Telyatnikov, P. I., Kapura, M. P.,
TITLE: Colored Aerial Photographs Should be More Widely Used
in Forest Operations (Shire primen atl tayetnuyu
aerofotos"yemku pri lesoustroystveT
PERIODICAL: Leso. kh-vo, 1957, Nr 1, pp 19-21
ABSTRACT: The following conclusions can be drawn from the efforts
of the Central Trust "Forest Pro ect" intended to
broaden the use of spectrozonal Mlored) aerial photo-
gi-aphs. The quality of aerial photographs will be
improved if spectrozonal emulsi-ons are used; this, in
turn, will permit a more detailed analysis of the
forest as it appears in the photograph (to determine
Card 1/2 the composition of the forest, chief tree types, etc.),
SOKOLOV, Vasiliy Stepanovich. FMIN, S.D.. nauchnvy red.; TOHOGnAKO, L.K.,
nauchnyy red.; YAITBOVICH. T.S., neuchny7 red.: SINITSYN S.N.
V.- ~.a.. ~te E.~?ede
nauchnyy red.; KORIKOVSKIY,. I.K., red.; NOVIDS
[Detecti'on of flaws- in mterials] Defektoskopiia materialoy.
MOBICV8, Goo.nerg.izd-vo, 1957. 239 P. (MIRA 11:2)
(Metals-Testing)
SINn-SYN, S'N.
25(l) (6) PHASE I BOOK EXPLOITATION SOV1279
Sokolov, Vasiliy Stepanovich, and Sergey Nikolayevich Sinitsyn
U11trazvuk v promyshlennostl (ultrasonics in Industry) [Moscow]
Moskovskiy rabochly, 1958. 105 P. 17,000 copies printed.
Ed.: Gurov, S.; Tech. Ed.: Yakovleva, Ye.
PURPOSE: This booklet is intended for engineers and technicians work-
ing In the field of Industrial ultrasonics. I
COVERAGE: The booklet covers fundamental principles of ultrasonics
and industrial applications of ultrasonics for such processes as:
machining hard materials, non-destr%ictive testing, checking of manu-
facturing processes, cleaning parts, inpasurement of velocity and
flow of fluids, and other purposes. Variods types of~ultraaonic
transducers and flow-detecting instruments are described. No per-_
sonalities are mentioned. There are no references.
TABLE OF CONTENTS:
Card 1/3
Ultrasonics in Industry SOV/1279
Inaudible Bounds
Generation and Recording of Ultrasounds
Nechanioal transducers
Piezoelectric transducers and receivers
Magnotostriotive transducers
Uses of Ultrasonioo In Industry
Ultr4sonic flow detection
Pulverization of crystals by means of ultrasonics
Cleaning scale deposits from steam boilers
Machining hard materials
Soldering and tinning aluminum
Welding and casting metals
Imulsifloation
Cleaning ports and washing fabrics
Smoke and dust control
DegassIng fluids and fomation of fog
,Action of ultrasonics on a substance
3
15
15
20
23
27
27
41
46
51-
58
60
66
70
72
75
77
Card 2/3
GERSHGAL., David Abramovich; FRIMUN, Viktor Mironovich; NOVIK, G.K.., red.;
SINITAN, S.N., red.; IAMONOV, G.ye., tekhn. red.
(Ultrasonic apparatus] Ulltrazvukovaia apparatura. Moskwa, Gos.
energ. izd-vo 1961. 246 p. (MIRA .14:11)
Nltrasonic waves-Industrial applications)
4 is is It isa 11 V'j Aa Z' 21 A1VN11 'Z 11 s' 13 16 11 M W 4! U 4) 'A0
a it P
J_J.. A..4 CC Pp_ Ct +j ti A
2 R LA I
00
00
III Glif f9fikkat 01 surt" at Twieus #4m.
-
~
Sinits 111 Arch. ui. 6W. (U, 9. S. It.) 41. No. 2. qj
jd&~
CIN ratio of the wirse of chiWen mw
00 .3 1~ th" 1. but In am ar it is equal to of gmter
indlentimc a dccrmw in cbe o
i&ti
t
0001 x
we a
S. A. Karialfa coo
041 j =00
to U
Soo
CIO*,
00
18.$LA 817&LLUN;KAL LITERATIAE CLASSIFKATIC16
-j
%L a OF 00 all;
0 0'0 0 0 0~v 0 0 0 0 0 0 0 0 0 0 0
10 000 00,10 of 000 0 00 a 0 0
0 0
400
see
Is, -,~Ii 3w-iNWTS
An a w a m a 9
v * 0
0 0 0
1* 0 0 0 o 0 0 0 0 a
w w R, w
---
W144i " :. 4_
' -
14F _
0
ID at 22 a it p Is- V a 29 30 is V 33
I
w 90
CC
]
1
1 id a Is V n it a At 42 a] 614
A I !
A A L
A
A
r - J.
i -
_
L st- 'L --
-
C*DtR
-S
,
9
FS %
PL -00
04
00 A i
A The asidatift proscamse in tao orgamumm at wassupos agets,
! Carbon. mitre". amissl the carlsom-alwMem red. is the
. H
Uriattj
N
Si
A
&W
I
d
'
S .
ts
.
. M
R
. txp
. U. R. S. S.
ti
1
_
_
_'W
A
t
7
7. 444-
m
-
1
a-
n
_Tbc C and N eliminatiott
T
in g. and the av. CJN fatio Of Uw wise of 2.M Omilm,
11.5-1 yr., full-pown and 15-17-yr.-old dogs we 0.3r-
1. 26, o.72-2.20 and Oak), 1 1.44-3 At and, 0.417,
1.92-4.30, 2.40-6.70 and OM, anti 3.&1-6.00, 2.71-6.60
Z
and 1.13. rew. The same values for the urhie of hummen S
1wings in the stile groups ts-10. 10-14, 14-19. 30-W and
Z
;
W-97
,
I.Q15.71. 2.23-8.7 and 0.69, 4.0-1-7.05.8.75-
1
0.33 anti 0.70, and 0.75, 7.20-12.0,
F 1
0.36-13.5 and 0115. and 5.7-18.25, 5.2-13.9 and 1.29, "
goo
JS rc,5o. S. A. Karialms, ,
, 6*0
.
00
00
A ETALLUNGKAL LITERATURE CLASSIFKATIC"
---'CW 0 a 6 1 of 0 a a 3 6
"i- -0 Id :sus d"
111 IT 411 ME 11 It IV
'Or 0 000
00 0
- ~40
0 40 0 0 0 0 0 a 0 0 0 0 0 0" 0
*all 11 IVIIIIiJI1111 14 It It If p
0* fit -4 'a-!. AND 41M Cl
PROORMIRS i"011
00 a
0 of 7"1
U" and Swore, "a too "to""
holk 01 CA
remey s;MAI
quatiout ft"W Mlw" 4* -
-
WOSY N1431i -W S. '... -51 (twtn).
-
14
h
-
f.
-
in ~
r1. Cim q" (!)
2
000 ,
. wit a cittlill
ovine is lowvt with it ;lcuttin-Vkh It.,
hyd at-fich diet. On all Owltili" Pmlc'" ol
f
0 13 lie urine withmi total N 0(31~14 ff. 100A.Fn ouslolikautt
I
y,jivi bk- diet (mid N, 10-12' it.) 'tic I is W-C. 41o a
A
loilikAdit( (total N. tm-220 thrlis lA,jnilvnacArlx,-
I'l
, I
l%
hydrate diet (total N. b-7 g.) the Av. I s,, I.:X
with 1he foix). with thir time A-Apsed after %lie 1444
mrat, wit Is wosk, tic. Thi rt rhafti,4 jlw a ftstfurit y
at to-lar, incovals between 2 intiils. The I of the rvrmn,
mill night urioe is low, and it is chm~ to thr minion.
T. 1.4jcir*
SO-SLA INT
"it -Ck. IJ&C
b u a AV to q T 4 W -7---I-,
0 W 0 to to 0 a rA AN I 1 8 IM
a a a a a
0 0 ~L
0 0 0 0 0 0 0 0 0 0 0 0 0 0
0 dl 0 0000004 so
0060
I. Z
400
4900
goo
woo
4046
goo
off
100
#100
goo
11100
00,
a 0 a a a a ~00
0 0 0 0 0 0 0 0 9 0 0 -0 -0- Ill w
-
-
--
-
0 : : :'
S~w w
s 0 0 0 0 0 0 0 0 0 *0 0 0 0 0 0 0
0
W
0
1 1 41 1 1 a I 1-1 11 11 W11, 16 11 to itXPR J1 An A17 AU 11 It A is 0 HYalu $I U 4164 41
IL 0 9-AI I N U LID It
00
-40
The uriaM ratio du~~ poilioning I cabon,
S
N
-
.
nitrogen and the wbon.
1'
'I
Cwl
A
s
t
S
. .
.
.
.
.
,
1juji. bwl. mid. esix
man); cf. C. et~ 54, 4115". - TIk- Ci-N latiri thr t1l"W-11
awfulal dugs is 0.78. whil'. that of thv will, S., ~tv-
'
O;
,
ll-NIG %,-' "-"" t,(
ins 0.03-0.14 g4kg- "It- -t- -f I
In hrAIthy human b6taxi illt- av. C,Ntal""If thc "THIC 11
0* 8: -41" but in CAWSOf 1,11\11, poi-Iling it T'a It,, I rovet.
00
94
00
coo
00 j. =00
40
Coe
REP! i coo
see
0
00 00
0
go t
L AIT&LtO~Klt Ott-Alt,AF CLIWFICATICh
o's
r0
age
U VI If 4) It
0 0 0
0 0 0 0 0 0 0 0 0
00
0000000#0 0000#0000:0 0 ip 0~ 0, 0 O's 0 9 0 0 4v
Oa I
A a C
A I to it it I) w 1i is it t9 I It 1211 Nil IAHX 10 i 4 If U a W a k it X p a
I K L
o
M 18 U I~ Ill
d
b
I
1 4 Y
JL I L
-
00 I.
f
. --
s
2
,
o
A[
IS 0
00 Jk The udisay rttio -.carlient ' Itr an us fame
00 of swilelsill. S, N all. N4. mid, expri.
S. S. S. 54-5t 110.1) 1 in Gurman t; cf. C. A. 34,
41O.'A.-In all ea~-,ol ektengle'd limit anti hing di,tu,.-s and
ut triany caws Ed IWAYrythenri;4 anti antutia the C, N raw
.( the uritte is grvater than s, Aith the highest vzlttc nb-
uintdiu:S4raqvsI-46- In only 4 ca-,was the valu-! tw-
00 ww I ~Iv(a 0.97, ~, illihmili V ill highrr I hin the tu-1 inal (A
*'
Mo(thro3iitiativvprtwtr.4t,4intht~t-4ii4-
ii.m. Lk-sts-uct
06 'awv. with all incrtvw in incollipleldy taidile.1 jff-hwl~'
00 t-ults in an incrrw-w in the C ,f the utitt'. Ohile 1110V
,
elitnittation weltr, S. A. KArjjU
luttlgv itt N
00
A S t t A WALLURGICAL LITERATtoOf CLASSOOKATICU
- 64-
Of i-i' aw
r-j-'T-J ado 0 $111FINSAIN
U ""`~ ~`
As 171703141 stills Ro" Ifig No as 1,
0 0 00 0; 0 0 0 0 0
0 0
0 * * 0 * 0 0 0 0 0 0 0 0 0 0 0 0 04 0 0 0 0 0 0 IS 0 0
0
-00
.00
-00
GOO
see
00
0 0
0 a 0
noe
w**
0 00 0 0 0 0 0 0 0 0 0
O!gl 0
0 0 0 0 0 0 0 0 0 0 0 0 0 1, it 12 33 ]a a
03 It 'I If nil If 11. 39 ill 11 11 61
1. -h --j a I ,-I ~,v AA In 14A ill mo, u"D L"t --III- Lit tL-A-kA AI !1t100
0 0
16 cc A I Ill I..a Facrtal,ts .Vt.
Sol;
oo.ii
Some pathodientical Indextitt In the blociIi of pationts
1'efule and after asypill therapy, ,i. N
00 1 111. 114. IAb.' Nfilin Inse.. hl~ I.. I
Ili- lb.i. 13. frm.,
00
a
00 ,r . .
il -4 IN"11-13 before and after I,'t-I fir. t
!ralincut
cm.-W% of chrunic Invie I)rfmlcllitt% 11) arearlin-tit W;11,
00 will, illen-fiv in Illimmil dry wl. .1114 I.IVIIII'll-vie
not with changr its I'll"MI CI lilt
00 -IO`0tHJWR%*t11f 114-211% #$1 ItA3 lKii-ning lilt tjIjm,I
00 Ifiv ill. aild erythrocyte munt mulm to 41.1-tva.-W tilt" 0
:
09 It-
afinvut with nil chanp. It, Cl conlerlt. Ill eae, of
litti-IlinK lilt, I rythrmyli, tinint wa% vt.ry linA, cl wu%
0o flish, aml 0 flail no U11wrvell cf1vc( nil file blillml. In
09 1 im~t - a-, [here was ill) effect of the 0 treatment tilt the
alk. to-wfvv. Where 0 treatment L% helpful. it normalize,
00 11110ttil bY Fi-91112fillif (he diitributinu of erythrucytes lir-
00 tweell ljl(xml Stream and tissues. K. Starr Chester
d
U
Alb-ILA 1111ALLUKKAL LITERATURE CLASS"ATIO"
A
P
W LS I .
3 u Vt At tv IP K a It it
4 ; a
0 ;060ieeooooooooooo-----
1100 Ob 00 00 0000 0 : : 4
A4
ZA
I&
;a ; i
ooo*O
of
100
.00
goo
so*
coo
000
too
goo
Goo
goo
goo
goo
goo
goo
SINITSIE, 3. N.
"Carbon Coefficient of Urine in Acute Aniline Poisoning," Farmakol. i Toksicol., 9,
No. 2, 1946. N)r., Biochemisti-f Lab., Inst. Ind. Hygiene & Occupational Diseases
im. B. A. obuidi, -1946-.
"Ammoniacal Coefficient and Organic Acids of Urine in Poisonings with Carbon Oxide and
Aniline and in Chronic Toxic Bronchitis," No; 4, 1946.
1 "277y-
F-;i0e -;Fq-'
t'*L:
11 14 1$ k 1) is III w It U a 14 A III It a 19 NO P UU w a 16 V to 111 4U Udie 0
A L-1. it -J.-I A, a AG A J .1 V A Ii gJ Jl- sA., I-- Ii
;~
Ammonia - Mcfent and urinary organic acids in car.
";
i
b
on monox
de p4soning, -n
3
.* Isoning and chronic
"'
toric bromewds. S. N. Sinitsyn
11. A. bbukh In't.,
(
NI-OW).
Changes in Mla CO"N. and Org. add content in Urille mmilt
fmin odnionaryanoxcinia in certain c"s of Sui Imi%wing.
Po-ming with CO (W PhNII, has Atirsil.w eNcets. The
-
in 1w
rd (ever is chAracte-Fizest by oxygris defici,ncy; the
is &i" ~flmts on CO (as rarboxyhemoglobin) and orit. avidi in
Sol 11-': the urine are due to a shift in the acid-alkati b4wice.
JulLan F. Smith
J
0
00 J!
equ
*02
S a - S LMETALLURGICAL LIHNATURE CLASUFfCAMN
%.)Q41) -11 O.V Gal
U 6 4' 'Q 'ia it (I ev it Op di or itaa it it of
0 0 0 0 0:0 0 0 0 0 0 q 0 * 0 0 0 0 4
0 0 * Is 0 Ws 0 0 0 0 0 0 0 0 Is 0 0 0 IS 0 4
00
-040
-00
-06
0
0
.0
X0
411111111
Vol
1111oW 011"In. Eel
"Igatt. land a a 0 1 v a 9 do a :1, 6 v
0 0 0 0 0 0 0 0 0 0 0 6 a 0 0 0
IS 0 0 0 0
YELIZAROVA, O.N.; q~,IJT ANOVA, Ye.*V.
~P, S.R.; SHUR.R.L.; UP
Change in the higher nervous activity and other fVnetions in
anim2s under the influeme of small concentrations of the
compc~ents of explosive gases. TIcb.zap.Mosk.nauch.-isel.inst.
san. i gig. no.3z62-67,60. (KIRA 16:7)
(COUDITIOIED RESPONSE) (GMS-TOZICOLOGZ)
SINITSYN, S,&-(Maa)nM)
Changes in the cholinesterase activity of the blood serum of
petrolam refinez7 workers. Gig. truda i prof.zab. 5 no.6:
22-26 je 161. (MIRA 15:3)
1. Moskovskiy nauchno-issledovatellskiy inatitut gigiyeny
imeni F.F. Zrismana,
(CHOLHESTERASE)
(PETROLEUM WOREERS-DISFASES A0 HYGIEVE)
SINITSYN, S.N.
Studying the toxicity of a phenol compound (dimethylphenyl-p-
cresol). Uch. zap. Mosk. nauch.-issi. inst. san. i gig. no.9:
20-24 Y61. (MIRA 16:11)
SINITSM, S,11.
Chango in cholineBtorano acLivity under the influence of cyanides
and alcohol acting separately and in combination. Farm. i toks.
24 no-5:540-5/a S-0 161. (KVU 14: 10)
1. Moskorvakiy nauchno-issledavatellskiy institut, sanitarii i gigiyeny
imeni F.F.Erismana.
(CHOLJIMSTFM~E) (OUNIDES)
(ALCOHOL-PHYSIOLOGICAL EKFECT)
GRUZDEVA, R. A.Ideceased]; SINITSYN, S. N. (Moskva)
Working conditions for using dimethylphenyl. paracresol as a
plastic fixing agent for synthetic rubber. Gig truda i rof,
zab. no.3:11-16 162. 4(M.1.545
1. Moskovskiy nauchno-isaledovatellskiy institut, gigiyeny imeni
F. F. Erismana.
(CRESOL) (RUBBER INDNSTRY-HYGIENIC ASPECTS)
Blood sugar chanf,,-. under
following their separate
no.1:113-114 Ja-F 162.
of cyanides e
action. Fam.
1. Toksikologicheskaya i patafiziolqgicheskaya laboratoriya (zav. -
prof. A.G. Bukhtiyarov) Moskcwskogo nauchno-issledovatel'skogo
instituta sanitarii i igiyeny imeni F.Erismana.
(BLOOD SUGkR) ~CUNIDZS) (ALCOHOL-PHYSIOLOGICAL EFFECT)
SINITSYN, S.N.
Age sensitivity of rats to hydrogen sulfide. Farm. i tokB.
25 no.2:232 Mr-Ap 162. (NIRA 15:6)
1. Toksikologicheskaya laboratoriya (zav. - prof. A.G.
Bukhtiyarov) Lloskovskogo nauchno-issledovatellskogo instituta
gigiyeny imeni F.F. Erismana.
(HYDROGEN SULFIDE-TOXICOLOGY)
SHITSKOVA, A.P., kand.med.nauk; Prinimali uchastiye: KALININA, K.A., kand.
bio1og.nauk;-ZBITS)j~,_LX., kand. biolog. nauk; SHAFDVA, M.A,
m1adshiy nauchnyy sotrudnik; VASTLIYE7A, 0.1., mladshi-y naucbnyy
sotrudnik; YUNIKOVA, A.A., laborant.
Interrelation of vitamins A,D,C and B
P , and their effect on
calcium phosphorus, and nitrogen metab-ofism in growing ani-
mals. Gig. sanit. 28 no.2:41-49 163 (141RA 17:2)
1. Iz Moskovskogo nauchno-issledovatel'skogo instituta gigiyeny
imeni F.F. Erismana.
ACCESSION NR: AP4038143 S/0240/64/000/005/0044/0048I
I
AUTHORi Rumyantsev,, G. I.; Voronova, K. Ve
TITLE: Some changes in the carbohydrate metabolism caused by
total-body vibration
SOURCE: Gigiyena i sanitariya, no. 5, 1964, 44-48
TO?IC TAGS: vibration, carbohydrate metabolism, sugar blood content,
glycogen blood content, glykemic curve
ABSTRACT: Experiments were conducted with rabbits and dogs for
70-85 days. The rabbits were exposed to total-body vibration
with amplitudes of 15, 20, and 2001jand a frequency of 75 cps, and
the dogs were exposed to total-body vibration with an amplitude
of 750 D and a frequency of 50 cps. The experimental data showed
that a single exposure to total-body vibration with an amplitude
of 200 pand a frequency of 75 cps for a period of 4 hours decreased
the amount of sugar and glycogen in thd blood of the test animals
Repeated exposure to the same vibration resulted in a more signiti-
car,tdccreaGeof thesugarand glycoganblood content in the test animals;
Cord 1/3
ACCESSION NR: AP4038143
namely, the amount of sugar decreased by 18-27.5 mg% and glycogen
by 1.4-3.25 mg%. These changes, however, were only temnerary, and
on the day following the exposure the sugar level returned to i.ormall
and the amount of glycogen returned to normal a little later.
Repeated exposure (20 times) to vibration resulted in a decrease of
the sugar level to 83-90 mg%; after 30 times to 82-85 rng%; and
after 40 times to 74-85 mg%. The glycogen content of the blood
decreased correspondingly to 11.5-9.7 Mg./. In animals exposed
70 times to total-body vibration with an amplitude of 501jand a
frcquency of 75 cps, no marked changes in the blood content of sugar!
and glycogen were detected. In rabbits exposed to vibration with an~
.,i)litiade o4' 1511and a frequency of 75 cps, no marked changes were
I'--- 'Irved either at a single exposure or at repeated exposures.
Tl-,~ -ollowing results were obtained in experiments with dogs exposed
to vibration with an amplitude of 750.1jand a frequency
of 50 c-)S; After a single exposure for a period of 4 hours, a slight
2
ACCESSION NR: AP4038143
decrease of th.e sugar content in the blood was observed (82 mAZ
compared to normal 89.5 mg%). After repeated exposure to vibration
(55 times),the sugar level in the blood of the dogs decreased to
62 mp%, while the sugar level in the control group remained at the
normal amount of 80 mg%; the glycogen level in the test animals,
after repeated exposure to -vibration, decreased.considerably.
Experimental data indicate that the action of total-body vibration
with an amplitude of 200 p and a frequency of 75 cps caused changes
in the glykemic. curves and a reduction in the sugar and glycogen
blood contents in the test animals. Orig. art. has: 2 tables
and 2 figures.
ASSOCIATION: Moskovskiy nauchno-issledovatel'skiy institut
gigiyeny* im. F. F. Erismai~a (Moscow Scientific Research Institute
of Hygiene)
SUBMITTED: 13Fab63 DATE ACQ: 05Jun64 ENCL: 00
SUB CODE: LS NO REF SOV: 002,- OTHER: 001
Card 3 / 3
SINITSYN, S.N.
Oxygen consumption by the animal tissue under the effect of
combinations of some gases. Farm. i toks. 27 no.4z470-471
Jl-Ag 164- (MIRA 17:11)
1. Mcskovskiy nauchno-issledovatellskiy institut gigiyeny
imeni F.F. Erismana~
SINITSYN., S.F.
Synopt-'c cond-Itiona 'In the Southern Oce&n during t~- whaling
period in the summer of 1961-1962. 'L-,udy TSIP ro.-*37:94-100 164.
(,M 1749)
SINITSYN, S. T.
JQ
,, .:-L lion of Zinc froir; harass Due to Unctron Impact. G. I.
Pokrovskiy and S. T. Sl 't (Zh . Eksper. i Teorct. Fiziki
(J. 7,1~ er. Theoret. P-hy-51.-&i6
-P 1n3' sr-, 193UBr, 9, 1174-1177; C. Abs. 1930,
33,7660).- (In Russian) A thin brass plate was subjected to
electron bombardment in a vacuum tube. In the. initial stages, when
zi..c is lost from Pear the surface, the tcraperature of the plate renains
constant; ~.,;hen thp. electrons must penetrate farther into the plate to
effect zinc ator, eirdssiori, the tcmperature of the plate increases by
several hundred degrees.
25(5) BOT/64-59-6-2/28
AUTHORSs Karpov, V. L., Nalinskiy, Yu. M., Mitrofanova, L. V.,.Sinitayn,
4. T_., Finkel', E. E., Fridnan, A. S., Chorntsov,, S. M.
TITLE- Increase in the Thermostability of the Polyethylene Insulation
of Cables by Means of Exposure to Ionizing Radiation
PERIODICALi Xhimicheskaya promvahlennosti, 1959, Nr 6. PP 463 - 474 (USSR)
ABSTRACT; The thermostability of polyethylene can be increased by the
action of ionizing radiations (Ref 1). Polyethylene exposed to a
sufficiently large dose of radiation at 11010150 possesses pro-
perties similar to those of rubber (Ref 3).An investigation
was made of the irradiation conditions and -testing methods of
cables (I am thick copper wire) insulated with polyethylene
(type OKhK-501). The insalatiag. materia 1 pas expoe d to Lrays
of co6o (gamma plant "Kw20000" (Ref 8))-Nith a cap:city of
0.6-0.9 Mrad/h or to fast electrons from a linear accelerator
of 1 Mey. The tensile strength of the exposed samples was tested
by means of a dynamometer designed by V. A. Belynakiy, S. D.
Prokudin, and B. I. Zverev at the Finiko-khimicheakiy institut
im. L. Ys. Karpova (Physico-cheaical Institute imeni L. Ya.
Karpov). The thermostability of the irradiated samples was de-
termined by means of an apparatus (Rof 10) At the same time,
Card 1/2 the dependence of the deformation on time La investigated at
Increase i'n the Thermostability of the Polyethylene soy/64 59-6-2/20
insulation of Cables by Means of Exptsure to Ionizing Radiation
a definite load and a constant rate of temperature increase
(50OC/h). The thermodynamic curves obtained (Pigs 2-10), the
tensile-strength coefficients (Table 1), and the data of
electric resistance (Table) as well as data concerning the
thermal aging of the irradiated samples permit the following
statements: an irradiation of either of the two abov*-aentioned
'kinds permits an increase in the temperatures to which poly-
ethylene insulations may be exposed. The optimum mechanical
properties of the insulation were reached in the case of r-
irradiation in a vacuum with doses up to 100-150 Mrad ane in
the case of electrons in air during 2-4 minutes at a tension
of 1 mgv or during 6 minutes at 0.6 agv and a current density
of approximately 15,11a /082. The cables irradiated with the
optimum dose operat without failure for some hours at temper-
atures up to 230-2500, some ten hours at 1300t and several
hundred hours at 1100. The use of corresponding stabilizers
may essentially lengthen the life of irradiated polyethylene
insulation and increase the maximum working temperature. There
are 10 figures, 3 tables, and 11 references, 7 of which are
Soviet.
Card 2/2
BRATKOV, Yu.; MORGUNOVA, G.; SINITSYN,-V.
08-4j, 5 grain-cleanin machine. Takh.v sellkhoz. 21 no.8:50-55
Ag 161. (MIM .14:7)
- (Graiw-&IeaaW)
(71, '?1'Z)
Ij , ~" sov/ag-7-4-25/25
A "T _': 0 R S Sinitsyn, V., Leshchinskiy, ILT., Gasev, A.
TITLE: A New Container for Radiation Sources of High Activity
P-IRIOLICAL; Atorznsya energiya, 1959, Vol 7, Nr 4, pp 399 - 4oo (USSR)
ABSTRACT: The necessity arose of transporting high-activity radiation
sources and also of filling them immediately from the transport
containers. The containers hitherto used were destined for the
transport radiation sources having an activity of 4oo graim equi-
valents of radium. From these containers the sources could b~
L,aken only in certain water-vessels, and therefore it was not
possible to use them for immediately filling devices provided
7.,,ith a dry protective system. Therefore, a new type of containers
was now developed, which is destined especially for the trans-
port of high-activity radiation souvees and for the direct
filling of apparatus with radiation sources. In such a container
it is possible simultaneously to transport up to 4 standard
cobalt radiation sources having an activity of UP to 700 gram
eauivalents of radium. These containers consists of cast iron
cases containing the principal lead shield and the mechanism
Card 1/2 for conveying the sources into the container, for keeping these
A New Gontainer for Radiation Sources of High Activity SOV/89-7-4-25/28
sources in the container, and for discharging them. This me-
chanism may be controled from the upper part of the container.
The sources are filled into the container under a protective
shield of water in a basin. In order to avoid the accumulation
of random immp-,~rities, the surface of the container has as few
protruding parts as possible. The sources can be discharged
under a protective shield of water or also immediately into
the discharge channels of the apparatus by means. of a dry shield-
ing system. The container may be transported by means of Otidinary
conveyances. For this purpose, the case and the lead shield are
constricted in such a manner that the dose rate of the radiation
at a distance of 0.5 m from the container surface does not ex-
ceed 2.5 milliculAe/sec. The container weighs about 1 ton. There
are 2 figures.
Card 2/2
SINITSYN, V.
Seminar on the Use of Isotor-es and radiations in industry
and Medicirpe. Atom. energ. 19 no.4:410-412 0 165.
(MIRA 18:11)
84237
AUTHORS: Lokhanin, G., SinitBYn~ V.
TITLE: A Wash Cabinet
S/08 60/009/004/017/020
B006YB070
PERIODICAL: Atomnaya energiya, 1960, Vol. 9, No. 4, Pp. 341 - 344
TEXT: The authors describe here a type of washing machine that is used
for cleaning vessels, instruments, and small appliances which are
-radioactively contaminated'Atnd show a-, P-% or ~-activity- Photographs of
the machine are shown in Figs. I and 2; ti ~ ine ji# manufactured in
the Soviet Union, and is designated as type WM (ShM)O*- "Shkaf moyeohnyy",
The cabinet consists of three separate chambers connected by flanges. It
is 3,580 mm long, 825 mm broad, 2,329 mm. high, and weighs in all 860 kg.
Each chamber has a capacity of 0.4 m-1. The cabinet is made of stainless
steel. The contaminated vessels and instruments are introduced into the
first chamber(on the left in the photograph) through an antechamber, and
are washed with special deactivating solutions (acids, ly6s, etc.).
Another washing with cold water is done in the second chamber. The waste
water comes into a receptacle which can be hermetically sealed (Fig- 3).
Card 1/2
2
A Wash Cabinet S/089AW19/004/017/020
B006/BO70
Each time the washing is done in three tanks (two round, and one
rectangular, 8 and 12 1 in capacity). The vessels and instruments to be
cleaned are brought from one chamber to another through doors. They are
dried in the third chamber, and their radioactivity is checked with a
"Tiss" dosimeter; they are then taken out of the wash cabinet through an
antechamber. Ventilators remove the contaminated air in the chambers and
bring in fresh air. The air removal is checked by a draft gauge of the
type TOM-890 (TIM-890) - e filter system, which has (Pr7(FPP) filter
material in the second ffage, is described. The sump for waste water has
a capacity of 10 liters and weighs 8-kg; it is designated as type
10KHO(IQKZhQL. e used washing liquids are partly collected in it, and
partly they getit the sewage through an overflow arrangement. For
collecting solid waste material a container of the type KTO (KTO) of 10 1
capacity and 8 kg weight is used (Fig. 4). There are 4 figures.
Card 2/2
c SINITSYNI--V.-
Forty years. Zdorovle 8 no.8:32 Ag 162. (NIRA 15:8)
1. Zamestitell glavnogo redaktora zhurnala "Fizkulltura i sport".
(MYSICAL EDUCATION AND TRAINING-PERIODICALS)
SOV-69-50-4-B/18
AUTHORS: Kiselev, A.V., Kovaleva, N.V., Sinits-n Khrapova, Ye.V.
TITLE: Adsorbate-Adsorbate Interactions in Vapor Adsorption on
GraDhitized Carbon Blacks (Proyavleniye vzaimodeystviya al-
sorbat-adsorbat pri adsorbtsii parov na grafitirovannykh
sazhakh)
2. Application of Adsorption Isotherm Equations for Descrip-
tion of Experimental Data (2. Primeneniye uravneniy izoterm
adsorbtsii dlya opisaniya eksperimentallnykh dannykh)
PERIODICAL: Kolloidnyy zhurnal, 1958, Vol XX, Nr 4, pp 444-455 (USSR)
ABSTRACTz In the articlelthe equations of Reference 1 for the isotherms
of mono- and polymolecular adsorption of vapors are appl-fed to
the description of the experimental isotherms of adsorption on
graphitized carbon black. The adsorption of n-alkanes is de-
scribed bv the isotherm equations 1 and 41which are similar
to the equations of Langmuir and Brunauer-Emmett-Teller. The
isotherm of cyclopeptan adsorption has two inflexion points
and is described by equation 4. The experimental isotherms
and adsorption heats of nitrogen, argon, and krypton vapors on
Card t~.e carbon black R 7 0 C. At a tempera-
-33, graphitized at 2,,00
SOV-6 a,- 51,8-4 -8/1 e,
i'dsorbate-Adsorbate Inieractions in Vapor Adsorption on Graphitized Carton
31acks. 2. Application of Adsorption Isotherm Equations for Description of
Experimental Data
ture of -183 0 C,the pure initial adsorption heat is 0.8 kcal/
mole. It has been found that the adsorption isotherms follow
for values E)< 0.1 the equation of Henry, from 0,1-0.5 the
equation of Hill and for higher values the equation of'
Langmuir. () is tne general degree of filling of the surface
by the monolayer. Figure I shows that the adsorption iso-.
therms for nitrogen vapors calculated according to Hill's
equation coincide with the experimental values only to 0 = 0.4
and then incline downward. The Langmuir ea 'uation is applied
for higher values. Figure 4 shows the adsorption heats of'
I
argon vapors and the adsorption isotherms calculated according
to the equations 1 and 2. The pure initial adsorption heats
amount to 0.7 kcal/mole. Figure 5 represents the experimental
adsorption isotherms of krypton vapors at -183 0 C and -195 0 C
from Reference 13 as well as the calorimetric adsorption heats
at -183 0 C from Reference 15, The pure initial adsorption
heat is 1.5 kcal/mole. It has been found that equation 3 cor-
'ard responds well to the experimental Bata. Figure 7 shows the
Adsorbate-Adsorbate Interactions in VaDor Adsorr-tion on GraDhitized Carbon
Blacks. 2. Application of Adsorption Isoth-erm 7_qi~ations for Description of
Experimental DaTa
adsorption isotherms for nitrogen, argon, and krypton vapors
at high vapor pressure values. In the case of nitrogen and
arpon at these values, polymolecular adsorption sets in.
Equation 4 gives good results for nitrogen. For argonithe
calculated values are higher. The adsorption isotherms of
krypton have a step-shaped character. E-Equation 4 is used.
Figure 8 obows the isotherm and the adsorption heat for S02 0
vapors at 0 0 C on carbon black sferon-6 graphitized at 2,700 C.
'he pure initial adsorption heat is approximately equal to
the condensation heat and reaches a maximum of 1.5 kcal/mole
at a vapor pressure of 0.2. The experimental facts are well
described by the equations 1 and 2. Figure 11 shows 0the iso-
therms and the adsorption heats for ammonia at -78.8 C and
-rethylamin at 00 C, The ammonia isotherm has no inflexion
nointiwhereas the methylamin isotherm has two inflexion points.
4 and Hill's eouation are applied to the experimental
data. It nas been established ithat in the same measure as the
Card 31-115- aisorbate-adsorbent interactions decrease and the adsorbate-
SOV-60-58-4-8/18
-'-dsorbate-Adsorbate Tnteractions in Vapor Adsorption on Graphitized Carbon
Blacks. 2. Application of Adsorption Isotherm Equations for Description of
Experimental Data
ndsorbate interactions relatively increaselthe isotherms
change their shape from convex at the initial part with
single points of inflexion (n-alkanes) to initially concave,
with two points of inflexion (nitrogen, argon, krypton, sulfur
dioxide, methylamin, etc.) and to concave throughout with no
inflexion (water).
There are 12 graphs, 1 table, and 29 references, 14 of which
are Soviet and 15 English.
ASSOCIATTONS: 'Ooskovskiy gosudarstvennyy universitet imeni M.V. Lomonosova,
Laboratoriya adsorbtsii (Moscow State University imeni M.V.
Lomonosov,Laboratory of Adsorption)
Institut fizicheskoy khimii AN SSSR, Laboratoriya sorbtsionnykh
Drotsessov (Institute of Physical Chemistry of the Academy of
Sciences of the USSR Laboratory of Sorption Processes)
Card 4/-t~
SINITSY -V.A.. FOLUDINHKOVY V.N.; GURVIACH', V.5.,- HGOPOV, V,M.j RETUYEV, V.I.
1-1 J.. I
Design defecLsl and improvement of PPM-10 drives. Prom. energ.
20 no.7:14-19 J2 165, (-vJR-A 18.,12)
1. Permskiy rieftepererabaty-vayushchiy zavod (for Sinitsyn).
2. Mlariyskiy tsellyuloznc.--bunuzhnyy kombinat (for Poludnikov).
3. Zavod "Elektroapparat" (for Guvrich, Yegorov, Retuyev).
SINITSYN, ,V. A .
SINITSYN, V. --t- 'lInvestigation of the possibility of Developing a Small
Mine Gyrocompass." 1-1,in Higher Education USSR. Leningrad
Order of Lenin and Order of labor Red Banner Mining Inst.
Leningrad, 1956. (Dissertation for the Degree of
Candidate in Technical Science)
So: Knizhnaya Letopis', No. 18, 1956,
SINITM, V.A., starshiy nauchny7 sotrudnik.
New mine surveying Instrument, small MG gyrocompass for mines.
Ugoll 32 no-9:38-39 S 157. (MIRA 10:10)
l.Vsesoyuzn.vy nauchno-issledovatellskiv marksheyderskiy Institut.
(mine surveying) (Gyrocompass)
P4
' S-I111TSYN) V.A., kand.tokhn.nauk
- -- --l
Sma-U surveying gyrocompass. (Trudy] VIM14I no. 33:62-75 158,
(14MA i4 -.5)
(14ine surveying-Instruments) (Gyrocompass)
Zi
Al V~
NO
z 431!v
SINITSYN, V.A., kand, tekhn. nauk; SMIRNOV, A.S., inzh.
Dip needle for surveying frozen vertical holes in shaft
sinking. Shakht. stroi. 7 no.8:11-13 Ag 163. (MIRA 16:11)
1. Vsesoyuzrqy nauchno-issledovateltakiy marksheyderskiy
institut.
_L 1343-66. .. ._~T(d)/EAW/EZD-2 GWIJTIBC
'I ACCESSION XR: AP5020912 UR/0006/65/000/008/0015/0021
528.517
AUTHOR: Borodulin.,jj~_I.; Sin'tsyn, V. A.; Popov', I. A.t Mal'tsev B. NO;
Plyu.shchev, A. N. H'4, 5!~~_ It Lf
14415S
TITLE: Results of tests of a prototype of ihe TD-1 optical range 'finder.,
SOURCE: Geodeziya i kartografiya, no. 8, 1965, 15-21
TOPIC TAGS: geodetic instrument, range finders geodimeter, TD 1 range finder,
mining survey
ABSTRACT: Two prototypes of the TD-1 small optical range finder, originally
developed in 1960 by the Vsesoyuznyy nauchno-issledovatellskiy institut gornoy
i geomekhaniki i marksheyderskogo dela (All-Union Scientific Research Institute of
Mip "n Geomechanics and Mine Surve.Vi*,1,._~,`o measure distances in the 150-5000-m
T
range with a mean square error *1.-j cml~~Vrere produced in 1963 and field Lasted in'
1964 by the Electronics Instruments Laboratory of the Institute. Simultaneous
Itesting was carried out with a Swedish NASM-4B geodimeter. Comparative measurements
were made against those of the Institute's field -comparator, highly precise. traversd,,.
second- and third-order triangulation, and invar wires. Subsequent field tests
Card-1/2
L 1343-66
ACCESSION NR: AP5020912
were made by an interdepartmental commission set up by the USSR Administration of
Measuring Instpuments of the State Committee of Standard Measures and Measuring I
Instrumentso~,~;Results of these tests showed these instruments to be highly precise.!
The mean square error of a single measurement for the first prototype was t9 mm
and for the second *16 mm; ihe systematic error was +1 mm and +8 mm, respectively;
and the mean value of the deviation of the number of waves computed from the total
number of waves was 10.02 for both prototypes. Orig. art. has: 2 figures and
5 tables. (ER]
ASSOCIATION: none
OP
SUBMITTED: 00 ENCL: 00 SUB CODE: ES
No REF SOV: .000 OTHER: 000 ATD PRESS.-#*
i Card__22
SINITSYN, V. A. (Candidate of Technical Sciences)
"G.yroseope-type inclinometer for surveying vertical freezing wells."
report presented at the Scientific-technical Conference on Modern Gyroscope
Technology Ministry of Higher and Secondary Special Education RSFSR, held
at the Leningrad Institute of Precision Mechanics and Optics, 20-24
November 1962.
(Izv. vysshikh uchebnykh zavedenly. Priborogtroyeniye, v. 6, no. 2, 196))
)9Q)1_66
L EW'1(d/'/EWT1(M" 'FWP(w\ WFAP(t) /ETI/FWP(k' IjP(c) -- JD/HW/EM
ACC NRi AP6010410 (A,,N) SOURCE CODE: UR/0126/66/02VO03/0452/0460
AUTHORSs Novikov, S. A.; Sinitsyn, V. A.; Ivanovp--A.--G.; Vasiltyevp 4.j.,
ORG: none
TITM Elastoplastic properties a number of metals under destructive loadings
SOURCE: Fizika metallov i metallovedeniye, v. 219 no. 3, 1966, 452-460
TOPIC TAGS: elastic propertyp material testing, destructive testing, impact loading,
elastoplasticity, shock wave, material flow, compression wave/ Mi copper, DI aluminum
alloy, D16 aluminum alloy, LS59-1 brass
ABSTRACT: The re to of testing copper, brass, and two aluminum alloys under
destructive loadste presented. The test method used is that described by A. G.
Ivanov, S. A. Novikov, and V. A. Sinitsyn ~vw, 1963, 5, 269). The process of forma-
tion of a system of two compression waves keiastic and plastic) is shown in Fig. 1.
.The thin lines on the diagram are the characteristics of the process. D 1 and D 2 are
respectively the first and second shock waves, tA is the moment in time when the
pressure on the surface of the specimen reaches a value corresponding to the adiabatic
break-off point. II is the domain of constant flow. In the domains I and III the
flow is completely determined by parts pf the adiabatic above and below the break-off
point. The limiting boundaries of domain II are -the characteristics corresponding to
c..A 1/3
the flow 10
Fig- 1. Diagram of f r a .1
length-time coordinates 0
'Yot.m of two compression wave
--elastic and plastic G
x
0 on specimens
tC Tests ml onducted ion
d at #ie break-4f Poln d 14 Vass. The time variat In
sp do of 0 J%nd w 6 112--i I is plotted in Fig' 2*
the two 'alloys - - in front of the elastic
made of X1 OP er~ tion over ve4~-short Uie re'vals
- 0 ef the authors not. that beyond the ~p439,rance Of 8,
of the i7at8 resultst . occurs a more or lesS clear a] o related.
the tes or .18 therr osione This ph6nos"on i ion
discuss the 0 1 mo, e in simple wave compre proporties wA defOrmst
wave in ni-ease pros .
domain of increase 0 materials and to the
to the flow limits of
rates
L 29821-66
ACC NRt A
0410
a
/.70- Y?O - C
ID
100 -
0
o.
4b-
90 - 100 2000
60 -
100
10 8
40 ZD
,Pt
100 2
20
9,2 OQ 06 0,8 /,0 ~2 ~Ij f~4 see0 OP 12 16 2.0 2.0. t0l sec 00/ 42 0,J 40 05 0,# 0,7 Z7,8 'V OIL
--se(
Fig. 2. Typical variation of u(t) obtained after oscillogram frocesaing. a alloy
D16 (specimen height 30 mm)i lower curves obtained for annealed specimens (weak
plastic waves are visible), upper tempered specimens; b - brass (specimen height
80 mm); c - copper (specimen height 30 mm).
Orig. art. has: 6 tablest 6 figures, and 3 equations.
30 CODE: II/ MMII DATEs 29Apr65/ ORIG REPs 004/ OM REN Oil
Card
Sj:-,T'"~-f-, V.A.
If.-,at cal-ac-Lity of the a*,or,:tion ,;yoten :3ilica gel - water. Dold.
All 31331t 135 ric-3:6-'--6/;L 1: 16-0. OMRA 13:12)
,Coy Akademii nauk 133". Predstavleno
.,Sti- t fjZiC',j-.,-]
1. 1, uu - I - 1.1 ~ 16
a!:ad. V.1. Spltsrny,~,.
Ocat capacity) (Silica)
BEMZIN, G.I.; KISELEV, A.V.; SINITSYN, V.A.
Dependence of the average molar heat capacity of an adsorbate
on-the differential heat of aesorption. Koll.zhur. 23 no.5:
638-639 S-0 161. (MIRA 14:9)
1. Institut fizicheskoy khimii M4 SSSR, Gruppa khimii- pover-
khnostip Moskva.
(Heat of adsorption) (Heat capacity)
(Systems (Chemistry))
G,I~; KISEM. -',V,; SRXII'SY'1~4, V,,A.
144,af. caWxLty of the adso-rptdou sysiRuw- ~iil--' grEIT -- wuter - 11'enzene -
hexarie. Diur.fiz.khim. .17 n-3.202,5-332 F '63. (,~IIIFRU 16-5)
.1, Institut fizicheskoy khLmll 01 SSSR.
(Silica) (Benzene) (Hex2ne') (Heat of adsorption)
4W-
AUTHORS:
TITLE:
PERIODICA T
S/16 63/005/001/042/064
BI 08YBI 60
Ivanpv, A. G., Novikov, S. A., and Sinitsyn, V. A.
Elaotoplastic waves in iron and steel under blast
rizika; tverdogo tela, v- 5, no. 1, 1963, 269-278
TEXT. A method for the direct and continuous recording of the rate of
qovement of the free jurface of a specimen under blast was developed
G. Ivanov,-,S- A. Novikov. Pribory i tekhnika eksperiments.
Experimental equipment and techniques -). A special capacitor pickup is
used, where the free surface of the sample act's as one of the capacitor
plates. The possible types of elastoplastic waves are examined in the
light of the Hugoniot P-V shock compression adiabates of the materials.
The results obtained with Armco iron and several steels showed ths~t the
elastoplastic wave parameters depend on the material, length of sample and
length of charge. The results agree with those of other publications
(e.g. S. Minshall. Journ. Appl. Phys., 26P 463, 1955)- The already known
increase in yield point with loading rate (brisance of explosive) was
observed. Pressure attenuation was observed in the front of the elastic
Card 1/2
I S/181/63/005/001/042/064
Elastoplastic waves in iron ... Bloa/B180
wave as it passed through the-specimeno. There are 10 figures and
2 tables.
SUBMITTED: August 10, 1962
Card 2/2
17(2,12)
SOV/16-60-3-5/37
Alj rF10 R Sinitsr!, V.A.
"'LE,' in~
Using the Indirect Hemagglutination Reaction for Detecting Botul
Toxins. I. Detecting Botulin Toxins Type A and B With the Indirect
Hemagglutination Reaction (in Hytsails Modification)
.31
PE-MODICAL- Zhurnal mikrobiologii, epidemiologii i immunobiologii, 1960 Nr 3,
pp 22 - 27 (USSR) A
ABSTRACT,- The author studied the efficacy of the indirect hemagglutination re-
action in Rytsai'z modification as a method for rapidly detecting
botulin toxin in food products or objects of the external environment.
Using homologous and heterologous (diphtheria and tetanus) antisera,
the method proved suitable for differentiating botulin toxin A from
botulin toxin B. The method was more sensitive than tests with white
mice and gives an answer in 3 1/2 - 4 hours. The method also needs
improvement, since negative results are sometimes obtained with
established botulin toxin, despite strict adherence to the method of
performing the test. In determining an unknown conceni-ition of
botulin toxin, the erythrocytes must be sensitized with 'Farious doses
Card 1/2 of botulin antiserum. The optimum temperature for sensitization and
SOV/16-60-3-5/37
Using the Indirect Hemagglutination Reaction for Detecting Botulin Toxins.
I. Detecting Botulin Toxins Type A and B With the Indirect Hemagglutination Reaction
(in RYtsails Modification)
hemagglutination was 370C.' This Increases the stability and sensitivity
of the test and cuts the reaction time from the usual 2 1/2 to 1 1/2
hours. The optimum concentration of tannic acid for treating the sheep
erythrocytes ranges from 0.2 to 0.1 O/oo. During sensitization of the
treated erythrocytes the pH value should be maintained between 6.4 - 7.0.
If allowed to rise to pH 7.2, the sensitivity of the reaction was cut by
two. This, then, is a very specific method for differentiating botulines
A and B.
There are; 2 tables, 2 diagrams and 1 Folish refer(mee.
ASSOCIATION: Chitinskiy institut epidemiologii, mikrobiologii I gigiyeny (Institute
of Epidemiology. Microbiology and Hygiene, Chita)
SUMMED.- April 9, 1959
Card 2/2
17 (2, 12)
AUTHORi ---Sinitsyn, V.A.
SOV/16-60-11-25/47
TITLE?, Using the Indirect Hemagglutination Reaction for Detecting Clostridium
Botulint~ioxins, Il. Modification of the Indirect Hemagglutination
Reaction and Its Comparison With Other Tests Used to Detect Botulinum
Toxin, 5/
PERIODICAL, Zhurnal mikrobiologii, epidemiologii I Immunoblologii, 1960, Nr 4,
pp 102 - 107 (USSR) A
ABSTRAC-T, Part I of the work was presented in Zhurnal m1krobiologii, epidemiolo-
gli i Immunobiologil, 1960, Nr 3. Subject section deals with the
author's modification of the indirect hemagglutination reaction and a
comparison of its merits with other methods of detecing Cl. botulinum
toxin, i.e. the biological test with mice, Rytsai's modification of the
hemagglutination reaction and Minervints method. The author's method
was found to surpass all the other methods as to sensitivity. Kiner-
vin's modification enabled Cl. botulinum toxin to be detected in the
liquid under study with a common salt concentration not exceeding 2%.
Card 1/2 With the author's modification, however, toxin could be detected in
SOV/16-6o-4-25/47
Using the Indirect Hemagglutination Reaction for Detecting Clostridium Botulinum.
Toxins. II. Modification of the Indirect Hemagglutination Reaction and Its Com-
parison With Other Tests Used to Detect Botulinum Toxin.
liquid with a salt concentration of up to 15%. Only 3 hours are re-
quired to determine a 1/8 MID of C1. butulinum toxin for white mice.
There are 5 tables and 5 Soviet references.
ASSOCIATION': Chitinskiy institut epidemiologii, mikrobiologii i gigiyeny (Insti-
tute of Epidemiology, Microbiology and Hygiene, Chita)
SUBMITTED: September 11, 1959
Card 2/2
SRJITSYV, V.A.,__m or med.sluzhby
Use of the indirect hemrgglutination reaction for detection of
botiainus toxin. lloen.-med.zhur. no.10.-65-68 0 161.
(MIRA -15:5)
(CLOSTRIDIUM BOTULINUM) (mmomuru)
(TOXIITS AFD AlITITOXIFS) (BLOOD-AGGLUTINATION)
SHVARTSMAN, Xa.S.; SINITSYN, V.A.
Reactions of indirect hemagglutdnation. Zhu--. mik obiol epid. i
imaun. 32 no.9:97-102 S 161. 0,fiA 15:2)
(BLOOD-AGGLUTINATION)
SINITS)IN, V.A.; 6HVARTSj-L4tI, Ya.S.
Reaction of indirect hemagglutination with preserved erythrocytes;
preliminary report. Lab. delo 8 no.2:30-35 F 1162. (M:LRA 15-2)
(BLOOD-AGGLUTIMMON) (ERYTHROCYTES)
SINITSYN, V.B., inshener.
MW
.PA~i- -
Experience operating Ointegralff type
Blek,sts.28 n0-7:81-82 JI '5?-
,,hydroalectric
hydroelectric vower stations.
(mt 1o-9)
power stationa'It
SINITSYN V D., kand,med.nauk
Effectiveness of filling teeth with inserts of various materials.
Stomatologiia 40 no.2:7-11 Mr-Ap 161. (MIPA 14:5)
1. Iz kafedry ortopedicheskoy stomatologii (zav. - prof. V.Yu.
Kur-lyendskiy) Moskovskogo meditsinskogo stomatologicheskogo instituta
(direktor - dotsent G.N.Baletskiy).
(DERISTRY)
SINITSYN, V.D.,, kand.med.nauk
Clinical basso for constructing jointed bridge-like prostheses
Stomatologiia 41 no.4s75-79 JI-Ag 162o (MIFA 150)
1. Is kafedz7 ortopedicheskoy stonatologii (zav. - prof. V.Yu.
Xurlyandskly) Mookovskogo maditsinskogo stomatologichookogo
instituta.
(DINTAL PROSTHESIS)
STARSHINOVP B.N., knad.tekhn.nauk; SINITSKIY, V.D., in:ih,j LAVRENTIYEV,
M.L. , inzh.; KOTELINIKOV, -
Processes of deexidation and slAg formation in blast furnaces
operating on natural gas. Stall 22 no.10:871-876 0162. (MIRA 15:10)
(Blast furnaces)
MrMi~,'x V. F.
VIiianie parppvtrov kryl a na ves ego konstrul--tsii. (Tekhnika vozdushnogo
flota, 19h6.. no. 10, P. 1-6, tables, diarrs.)
Title tr.: Effect of the parareters of a wing on the weight of its
stmetural elements.
TL5oh.Th 1qh6
SO: Aeronautical -"ciences and Aviation in thp Sovic-t Union, Library of
Cant;ress, 1955.
lQe
1 6-~. -iml
7. G. Cfild Tf,ch 6ci -- "Study of as~rirmctrical hei&+ roll~n6*
M
.~,OG, 1958. 16 p1) with graphs (Glvvniiproyckt under Goq)lan USSR. Ceritrnl
Sci Res lnw~ of Ferrous .letnllurCy), 1,,)o co!~ies (U, 36-58, 113)
-41-
SINITSYN. V.Ge, inzh.
Production of rectilinear bimetallic strips on rolling mills having,
rolls of various diameters. Blul. TSNIIMIM noa'5:32-35 158.
(Rolling (Metalwork)) (MIRL 110
GOLOVANENKOIV S.A.; CHMIOV, A.N.; SAPOZHNIKOV, V.M.; _�LNIT~YNt_Vt .G. Ii,
- GULYAYEV, V.V.
&ctrusion of bimetal ahapes, K=,,-ahtaz, proiav. 5 noslOs
7-9 0 163. (KrRA 16-.11)
Id
31
C6
UP y
HI
j V
Vill U3 Au fl?
Category US-, /Nue-Lear Physics - Iluc:11--ar Reactior;s C-5
A ,UO Jour :'(--f Zh!L-- - Fizil--, "-.'o 3, 1957, iio 6G75
Author Artsimovich, L.A., Andrianov, A.11.1., Dubrokhotov, YE.I.,
Lu?'yanov, S.Yu., Podgoriiyy, I.M., Sinitsyn- V.I., Filippov, N.V.
Title Hard Radiation from Pulse Discharges.
Orig. Pub : Atom. energyia, 1956, No 3, 84-87
Abstract : It was observed that high-power pulse discharges in light gases
can be sources of hard radiation. In 1952 the authors detected
neutron radiation accompanying pulse discharges in D2. The
discharges were carried out in cylindrical tubes 20 -- 40 cm
in diameter, 50 -- 100 cm long. The current reached several
hundre kiloamperes, and its rate of rise amounted to
5 x 10 18 of 1.5 x 10 11 amp/sec. Silver targets were placed
in paraffin blocks and scintillation counters were used to
count the neutons. In discharge tubes with porcelain walls,
neutron emission is observed if the initial pressure of D2
ranges from 0.01 to 0.3 mm Hg, while in tubes with metal side-
walls the emission is observed up to 10 mm. At a maximum
Card 1/2
Category USSR/Nuclear Physics - Nuclear Reactions C-5
Abs Jour Ref Zhur - Fizika, No 3., 1957, No 61075
current 250 -- 300 kiloamperes and a D2 pressure of approxi-
ma~ely 0.1 mm Hg, the neutron y ield is approximately jO7__
10 per discharge pulse and varies greatly from pulse to
pulse. The neutron radiation is exceedingly sensitive to small
impurities of foreign gases. The neutrons are emmitted in
brief pulses at the instant when the discharge column exper-
iences the second compression. Syrehronized oscillograms of
the current and the neutron yeild are given. Certain control
experiments are described.
A high power pulse discharge is also a source of hard X-rays,
occuring simultaneously with the neutrons and having energies
up to 300 -- 400 kcv. Certain possible explanations for the
occurrence of hard radiations are given.
Card 2/2/
Ot Category USSR/Nuclear Fhysies - Nuclear Reactions C-5
Abe Jour iRef Zhur - Fizike, No 5, 1957, No 6076
Author SLukryenovy S*Yu.p -gwllaw A-16,
Title ;Spectroscopic Inves-Elgr-tion ar-MIWPower Pulse Discharge
in Hydrogen.
Orig Fub tAtom. onergiye, 1956, No 3, 88-96
Abstract zDescription of an experimental spectroscopic investigetion
of a high power pulse discharge in hydrogen. The discharge
was produced in a glass cylindrical chmiber with inside dia-
meter 185 mm, filled with hydrogen at a pressure o.o4 -- 5 rim-
mercury. The raoximr;t discharge ~ current reached 270 -- 300
kiloamperes, the duration of the first half cycle was approxi
nately nine microseconds. The spectroscopic measurements were
carried out in two mothodst photographic and photoelectric.
The ISP-51 srectrograph was used to photograph visible region
of the discharge spectmi. The time variation of the intensity
of the various spectral lines were recorded with the aid of a
WI--2 rqonochromator with a special attrahment containing e, FEU-1914
photouulti,plier. Characteristic photographs of the spectrum
Card 1/2
USSR/ Chemistry Laboratory equipment
Card 1/1 Pub. 147 - 26/35
Authors tAlcksandrov, A. V.; Slnitsynj V. L; and Chmutov, K. V.
Title 3Simple device for the control of cryostat temperature
Periodical IZhur. fi:,. khim. 30111~ 204-205, Jan 1956
Abstract IDescription is given of a simple device for controlling the temperature of
a cryostat by means of a cylindrical thermostat made of organic glass and
placed on the ceLd transmitter. The accuracg of temperature stabilization
accomplished by means of this device is 0.25 C. Three referencest 2 USSR
and 1 israel (1953-1954). Drawing,
Institution Aced. of Sc., USSR, Inst. of Phys. Chem., Moscow,
Submitted October 27, 1 `;5
AUTHORS.' Leshchinskiy, ti. I., Shtan'. A. S., Sinitsyn, V. I- 32-11-59/6o
TITLE: On the Problem of the Organization of Laboratories for Work With
Radioactive Substances (K voprosu ob organizatsii laboratoriy dlya
rabot.y a radioaktivnymi veshchestvami).
PERIODICAU Zavodl3kaya Laboratoriya, 19-157, Vol. 23j Nr 11, pp. 1396-1398 (USSR).
ABSTRACT: In the introduction to this article it iffexplained that the problem
concerned has not been dealt with sufficient clearness in scientific
publications. A publication with the title "Planning of Laboratories
for Work with Radioactive Isotopes" by I. V. Malaahenko is declared
most descidedly to be at fault because it is based uporr wrong and
obsolete conceptions. The article mainly criticizes severalmeasures
mentioned in the publication by Malashenko, and the allegedly "cors
rect measures." are given in order to be compared with the former*
The article contains a sample plan for the laboratory-concerned# from
which it is possible to distinguish strictly between "contaminated
rooms"J"passage rooms" and "pure (uncontamined) rooms". According
to the plan the laboratory consists of the following parts: 1., A
storage room for radioactive substances. 2. A repair room to deal
with the "contaminated zone" from within. 3. Medical and dressing
Card 1/2 stations, shower baths, and rooms where clothes can be changed. 4o
On the Problem-of the Organization of Laboratories for Work With 32-11...59/6o
Radioactive Substances.
Alas-hroom with special facilities for conveying "contaminated
washing", and a device for taking over "pure (decontaminated) clothes".
5, A room for work carried out with Little active substanceff with
built-in chest of drawers. A "pure corridor" with door& leading to
f1pure rooms". 7. Emergency exit from the "contaminated zone". An
automatic manipulating device for the transport and handing out of
radioactive substances to the rowof protective chambers-("boxes'%,
where work is carried out. It is pointed out in the article that the
use of wooden material (also if painted) for boxes, chests, etc., in
the "contaminated zone,, is not permitted. Provision is made for
thorough ventilation and corresponding filtering of rooms, Filters
may be exchanged only on the "contaminated side". "Contaminated
waste,, must,,be -examined as to'the degree df~ their contamination, and
must-,be removed and isolated. in conelt3ion it is said that.planning
of the sanitary installations is further st~Ldied and developed in
various different forms to suit scientific institutes as well as tech=
nicaland arricultural institutes.
There are 1 figure, and 3 Slavic references.
AVAILABLE: Library of Congress.
Card 2/2
FROLOV. Yu.S., otvetstvonW red.; ZHAVOROKKOV, N.M., red.; AGLINTSW, K.K..
rod.: ALMMMIV, B.A.. red.; 130CHKAREV, V.V.. red.; LESHCHIESKIT. N.1.,
red.; HALKOV, T.P.. red.- SINITSYN, V.I., red.; PCMVA# GoLe, red@;
IfOVIMKOVAO NeD., tekhn,iR-.-
[Obtaining isotopes, Heavy gamma-units. Radiometry and domimetrys
Proceeding of the Conference on the Use of Radioactive and Stable
Isotopes and Padiation in the National Sconoeq and in Science]
Poluchenie Izotopov. MoshchzWe gamma-ustanovki. Radiometrile I
dozimetrits; trudy Vaesoiuznoi nauchno-tekhnicheskoi konferentall po
primenentiu radiomktivrWkh i stabillnykh izotopov i isluchenit Y
narodnom khostaistva i nauke. Moskva. Izd-vo Akmd.nmuk SSSR, 1958-
293 pe (MIRA 11:6)
1. Toes
my.muchno-takhnicheekayi konferentetya po primenentyu
iookvtvn tabillzwkh izotopov i isluchenil Y nsrbdnom
woz
Yaystve 1. nauts. .195T.
notopes), (Gemme rays-Squipment and supplies) (lbadiation-Dosage)
KOMEUK011, V. S. and SINITS4N, V. i.
"A Piezo-Electric Method of Investigating a Strong Gas Discharge." (Work - 1952);
pp. 234-242.
"The Physicq of Plasmas; Problums of Controlled Thermonuclear Reactions." Vol. I.
L,)r
' )~, pul,hihbd by hot. Atomlc Enorgy, Acrid. 131c.l. U8811.
reap. ed. M. A. Lcontovlch, editorial work V. 1. Kogan.
Available in LibrarA
uY 1. V. !. -jr,~t,~yr,
,tp,. ort I.resenteci .t, :~Ijr. Ucnz-for-P-ace Ccnf.,~ren e,
UWANOV) S. Y.) SINITSYN) V. 1. and KCGAN, V. 1.
"!kpectroscopic Investigations of Strong Pulse Discharges."
papbr to be presented at 2nd UN Intl. Conf. on the peaceful uses of Atomic
Energy, Geneva, 1 - 13 Se; 58.
PIPAIR I NOR 1UPWITATION SOV/129?
:rus nsuahao-tokKniehesicays konrtrentslya po primenenlyu
r
r
dia
Ivnykh I stabiltarkh isotopov I Ixluchenly v narodnou
'
b
h
'
warsyst
Ve I nauke, Mosew, 1957
F61makOftlys IXotopov. ftshchnm gammse-ustanovicl. Radioestriya
I d"Imatriyaj trudy konforentall ... (Isotope Production
Xlgh-snergy "was-Radiation Pacilities. Radiomstry and Losi-
MSr7J Transactions of the All-Unlon C
f
on
erence ou the Use of
RadIft4tt" and Stable Isotopes and Radiation In the National
goonowy and Science) Moscow. Izd-vo AN SSSR, 1958. 293 P.
5.0w soplos printed.
SPOODrIm Asenors Akademlys neuk SSSR. 014vncYo upravlonlyo po
l
l
opel
softes" stoway enorall 3=.
5d1t9rIS1 Board: Frolov, YU.S. (Romp. Ed.), ZhAvoronkov. N.M.
Damuty Asop. Ed.), Aflintaov, X.N., Al*kseyov, B.A.. Dochkaray,
4
.T.. lashohlankly, R.I., Ralkov, T.P.v Sinitsyn, V.I.t and
POWN . G.L. (Secretary)i Teeft. Ed.: Novichkov, P.D.
P=PC=1 This collection is pubLIShed for sclentlat logists
t
hn
0
"
,
Persons engaged AR MdIGIW or misdical research, :.d
:
h
ra con.
owned with the production and/or us* or radioactive and a t4lble
I"SaRed arA radiation.
COMAGRI Thirty-eight "Parts are Included In this colliectlop
Mftr thr" MIA subject divisLonat 1) production of Isotopes
2) UP-GA&W SAM&-rsdibtlOn racIlItlemand 3) radjosetry and
601mtr7.
IS= or COMM 3
PAW 1. PRODWTIM OF ISOTOMS
Frelor, Tu.3., T.V. bachkarev, and Te.Y* Kullah. Development or
1009OPS Froduction In the Soviet Union : 5
This report is a general Survey of production methods,
wato
apparatus, raw r141S. applications, investigations
Md Mum Prospects for radio Isotopes in the Soviet Union.
Card 2/12
usnets0l. Methods
fashkov, V.r-and V um - He
;Jw 1419
me Separating Heip'. "1&O% pea ( I
ran 11. 0101igany OAM FACILITIES
31"tarn Problem and Trends In Creating High~*r*orS7 160
U.To. ftrgullm,gad V.G. KhrushchoV, Prin-
a" Techniques of UsIng Radioactive Isotopes 44 175
WEM,""W Sources in RsdjobjoLfty and Medicine
conecaltent to,plasuains and construe tIng
ftsis Woblows
are systqlatized according to the
radiation facilities - tions &nJ sahsAffitle
= of the racilitr. Dsdcr'P s- Led as to
a are Io, for awe f4cilit-'06 'I&S -r
rurposal a) experissel-t4l radjobLology. -nt#nded for low
lAtIVely Small object& (.niWAIS, plants)
radiation of re for radiation of
experimental IU'lallationa intsn3od in
b
) or small at$* but swassr
.1ous biological p"Parat-ono emmalftw,) 0) JoamwWUa WQVA%tft of
we"Wasge, blel"Isel
Sm"W" rsqwLmo asavuls"Ise, psoarvatims, 401slatestims,
a". 40 Mad" am uWarow"s" vwp-
LUK'YkNOV, S.Yu.; SIMMIT, V.I.
Spectroscopic investigatfons of a high-power impulsive dis-
charge in hydrogen. FIZ.Bboro no.4:71-73 '58- (MIRA 12:5)
1. laboratoriya izmeritellnykh priborov AN SSSR.
(Hydrogen--Spectra) (Blectric discharges through gases)
~IUTIMS: Lt.,klyano-.r, :1. Yu., Sinitsyn, V. 1. --- 56-34-4-10/6o
TTTLZ: ~,Ipectro3coDlc 1nvestigations of a Powerful Pulse Discharge
issledovaniya moshchno-
go imDullsno-o razryada v vodorode. II)
PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1958,
Vol- 3A, Nr 4, pp. 849 - 855 (USSR)
ABSTRACT: The author investigates the spectral properties of the
radiation of a hydrogen plasma of a gaseous discharge at
10V; Dressure at amperages unto 5- jo5 amperes by means of
the method of the mirror unfolding. The method used here
vermits to investigate the discharge spectrum in the visible
range. "'he experimental conditions were already previously
desc,-ibed by the authors (Ref 1). The impulse device con-
sisted of a capacitor battery with 86 g F capacitance and
of a discharge tube made of farfor. Also the determination
of the development of the spectrum with respect to time is
discussed in short. The image of the development of the
spectrum with respect to time allowed a synchronisation with
Card 1/3 the course of the discharge current. A diagram illustrates
56-34-4-lo/6o
Spectroscopic Investigations of a Powerful Pulse Discharge in Hydrogen. II
the development with respect to time of the discharge spectro-
graphs for some particularly characteristic cases. The first
2 spectrographs refer to a discharge in pure hydrogen at
the initial Pressures po = 0,05 and Do = 0,1 torr. Two
further spectrographs refer to mixtures of 95 % H2 + 5 % N
and 70 2,' H + 30 -~'o He. If the discharge takes place in puri
hydrogen t9e lines of the admixture atoms occur only after
the second compression. If the discharge, however, takets
place in a mixture of hydrogen with helium or nitrogen in
the moment of the maximum constriction of the plasma thread
a short flashing of spectral lines in the spectrograph is
observed, which is not characteristic of the following
states of the discharge. These lines are to be ascribed to
nitrogen or helium in relatively highly excited states. Ai-
together the totality of the obtained optical data gives
an agreeing image of the phenomena which take place in a
pulse discharge of high power. There ~re 5 figures, 2 tables,
and 7 references, 5 of'which are 3oviet.
SUBMT TT7D: November 26, 1957
Card 2/3
56-34-4-10/60
Spectroscopic Investigations of a Powerful Fulse Discharge in Hydrogen. 11
1. Vkgnetohydrodynamic waves-Theory
Card 3/3
USPENSKIY, ',D.D.- SAVITSKIY, P.S.- STNITSYN SHTAN" A.S.; ANDREYMO,
Z.D.. red.; MAZal, Ye.l.,-1~707
[Manual on dosimeters, radiometers, electronic and physical
Instramnts, counter tubes, salIntillation counters. and photo-
electric naltiplieral Spravochnik po dozimstricheskim, radio-
metrichaskim i elektronno-fizicheskim priboram, achatchikan,
staintilliatoram i fotan-mnazhiteliam. Moskva, Izd-To Glavoupre
po ispoilzovaniiu atomnoi energ., 19.59. 252 P. (MIRA 12:5)
1. Russia (1923- U.S.S.R.J Glavnoye upravieniye po ispollsovaniyu
atomnoy energli.
(,Nu-;lear '-Iountera)
I ALI -AL
il V
cl
A d
gal
..JA
j14 0
4 4f
JA
U ~j
.21 a v ul I
.0
all V. 41 It
.30
Is
1.1
.93
- * Ul
14
411
all
jai
ax. I lit
Ik
.1Z
j .71 q
to a
KURDYUMOV, G.V., akademikv red.; SINITSYN, V.I., red.; PANASENKOVA, Ye.I., red.;
MAZELI, Ye.I., tekhn. red-*--
[Transactions. Selected reports by foreign scientists] Trviy. [IzbraxL--
xWe doklady inostramWkh ucheTqkhj Moskva# Izd-vo Glav. uprav. po iBpoll-
zovaniiu atomnoi energ. pri sovete Ministrav SM. Vol.10. [Production
and use of isotopes] Poluchenie i primenenie izotopov. Pod obshchei red.
G.V-Kurdiumorva. 1959. 603 P. (MIRA 3.4:7)
1. Vtoraya mezhdunarodnaya konferentsiya po mirnaca ispollzovaniyu atom-
noy energii, Zheneva, 1956. (Radioisotopes)
21M, 24(7) BOV/56-36-6-2/66
AUTHORS: Luklyanov, S. fu., Sinitsyn, V. I.
TITLE: Spectroscopic Investigations of Powerful Pulsed Discharges in
Hydrogen.III (Spektroskopicheskiye issledovaniya moshchnogo im-
pul'snogo razryada v vodorode. III)
PERIODICAL; Zhurnal eksperimentallnoy i teoreticheskoy fizikip 1959P
Vol 36, Nr 6, pp 1621 - 1624 (USSR)
ABSTRACT: The authors give a report on spectroscopic determinations of
the parameters of a high-temperature plasma at the instant
of maximal constriction in a cylindrical chamber connected in a
shock circuit (cicuit parameters:C - 86 -)LF , Vo ~ 35 kv,
imax - 460 ka, dJ/dt - 1.5-10 11 a/see (at t-0)). For the purpose
of evaluating electron temperature the energy distribution
in the continuous plasma spectrum is investigated and the den-
sity of the charged particles is determined from the absolute
intensity of the continuum. Intensity measurements were carried
out photoelectrically. Ion temperature was determined from the
Doppler broadening of the line N IV 3479(33F - 33r) with intro-
Card 1/3 duction of several ~o of nitrogen into the discharge (observation
Spectroscopic Investigations of Powerful Pulsed BOV156'-36-6-2166
Discharges in Hydrogen. III
along the discharge axis, quadratic Stark effect). The lines
were Gaussian in shape, Zeeman splitting-up did not exceed 0.051
which was beyond the limits of measuring accuracy. The authors
used the spectrograph ISP-28 and quartz object lenses. The
method has already been described by an earlier pape:.*. In such
a discharge (in 95% H2 and 5% N.) also lines of highly ionized
nitrogen are recorded besides the continuous spectrum. For
9 N II-, N IV-, and N V-1ines the table gives the wavelengths,
transitions, and excitation energies. From an analysis of the
energy distribution in the continuous spectrum it follows that
T ' 0.05 torr
e >10ev. The density of the charged particles at po-
amounted to n. 1.2.10 17 cm-3, i.e. in the case of 10(Y~ ionization
it exceeds the initial density of the neutral molecules in the
chamber axis by the 35-fold (T e- 100 ev). Figure I shows the
development of such a discharge with respect to time, figure 2
shows in a diagram the variation of charged particle density with
pressure (straight line), and figure 3 shows the ion temperature
Card 2/3 measured by means of the Doppler broadening of the line N IV 3479
Spectroscopic Investigations of Powerful Pulsed SOV/56-36-6-2/66
Discharges in Hydrogen. III
at the instant of molecular constriction, in dependence on
the nitrogen admixt re. Ion temperature was determined as
amounting to 1.2.1P OK ( at 0.05 H9 ). There are 2 figures,
1 table, and 6 references, 1 of which is Soviet.
SUBMITTED: December 16, 1958
Card 3/3
SIN i dl~s'i ~, , %, - I., On I" ti P I I'%. Z~-IMq t: I i Sci -- *%' a i ss ) trzscopi c ;--e as -
unL~Luent of '---ated hz;dro~~en plasm-a." Moscow, !9t-Z-)G. 8 ppi (Moscow Ergin-
-. e r i r ~:* Rn,v s _i c s 1 n s t ) ; 1. 4 C c o p- i ---- S ; p, ri c c- n o tu :~,- _i v e n ; ( 2K L 1 2 ~ - 6 0 , i ;; I y
msE i BooK Expwimiw sov/5366
Bibergal!, A. V., V. 1. Sinitsyn, and N. I. Leshchinskiy
Izotopnyye gamm -ustanovki (Isotopic Gamma-Ray Sources) Moscow, Atomizdat,
1960. 137 p. 4,000 copies printed.
Ed, (Title page): B. M. Isayev. Ed.: V. V. Pereverzev. Tech. Ed,: Te, 1, Knell,
FLTJ1OSE: This book Is intended for specialists working with strong radiation sources.
COVERMT: The book is a purported first attempt to deal systematically with the
vhole complex of problems in radiation technique and eqaipwnt. Present-day
mthod.s of designing g emitters of various configurations are discussed.,
and examples of the calculation of the individual characteristics of strong
gamma-ray sources given. There are appendixes to facilitate design calcu-
lation-.. Ciis. 1 to III and 7 were written by the authors Jointly. while Ch. 1V
vas -w.-.:.tten by A. V. Bibergall. References follow each chapter.
GRUZIN, P.L., doktor fiz.-mat. nauk, otv. red.; ERYANTSEVA, V.P., inzh.,
ved. red.; SHKOVSKAYA,I.Yu., inzh., ved. red.,- SINITSrN V I.~
inzh., nauchr-yy red.; LADONINA, L.V... tekbn. r;;~,
[Use of radioactive isotopes and nuclear radiatio= in b7draulie
engineering and construction] Primenenie radioaktivmykh izotopoy
i iadernykh izluchenli v gidrotekbnike i stroitellptvs. Mo-
skva, (Peredovoi nauchno-tekbnicheskii i proizvodstvanxqi opyt.
Tema 19) No.14. 1960. 35 p. (MIRA 15:3)
1. Moscow. Institut tekhniko-ekonomichookoy informataii.
(Construction industry) (Hydraulic engineering)
(Radioactive substances-Industrial applications)
IN
S/170/60/003/02/25/026
BOOS/BO05
AUTHORS: Grafov, G. I , Sinitsyn. V* I*
Now&
TITLE: Application of High-intensity Radiation Sources in Industry
PERIODICAL- Inzhenerno-fizicheskiy zhurnal, 1960, Vol- 3, No. 2,
pp. 128-132
TEXT: This is a short survey of the material dealt with at the Conferencp*
in Warsaw from September 8 to 12, 1959. The Conferehoe which was devoted to
problems of applying high-intensity radiation sources-in industry was organizej-
by the Mezhdunarodnoye agentstvo po atomnoy energii (International Atomic
Energy Agency). It was the first great international conference on the role
of ionizing radiation in industrial processes. More than 60 reports were-de-
livered and discussed. In these reports, concrete problems of the application
of radiation in industry, as well as some related scientific, theoreticalt
and economic problems were dealt with. Among the reports dealing with the
action of radiation on plastics~sand elastomers)5the following are mentioned.
A report y the British scientist 150 Ka Fi "Fizicheskiye svoystva poli-
Card 1/3 * Conference on Use of Powerful Sources of Radiation in Industry
Application of High-intensity Radiation Sources B/170/60/003/02/25/026
in Induatry B008/B005
vinilkhloridnykh obednennykh tsepey sopolimerov~ poluchennykh v rezulltate
vozdeystviya ioniziruyushchey radiataii" (Physical Properties of Exhausted
Polyvinyl Chloride Chains of Copolymers Obtained by the Action of Ionizing
Radiation); several reports delivered by Japanese scientists, among them
A. Danno and M. Matsumoto, Sunichi Onisi, et al., as well as a.report by
Dzh. Oster. The action of radiation~on the processes of polymerizationjand
accumulation, tE~_-e-ffect on chemical reactions, were dealt with in reports by
the following scientists: a,_S. Medyedev, Ye. V. Barelko, P. Dalton, and
R. Roberts (England), S. Okamura, I. Sakurada-ez al. (Japan), J. V. Sutherland,
A. 0. Allen, A. Henglein (USA), N. Dyuryu, FI Trenar, P~ Verr'ye (France),
A. S. Kuzlminskiy et al, (USSR) used ionizing radiation for vulcanizing
silicon rubber.'t*'A. V. Topchiyevv L. S. Polak et al. (USSR) d~_Iivered the
report "PerspeMvy promyshlennogo ispol'zovaniya radiatsionno-termicheskogo I/
ki-ekinga normallnykh uglevodorodov" (Prospects o Industrial Applicat-ion
of Radiothermal Cracking of Normal Hydrocarbons A, Danno (Japan), D. U..
Georg and D. 11. Gregory (Australia), as well as the Soviet scientists N,.P.
Syrkus, A. Kh. Brecher, and B. I. Vaynshteyn reported on high-intensity -
radiation sources and on methods of their application in industry. Further,-
problems of the application of rays in treating foodstuffs, plants, and
Card 2/3