SCIENTIFIC ABSTRACT BONCH-OSMOLOVSKIY, A.G. - BONDAR, A.N.
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CIA-RDP86-00513R000206210014-5
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S
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100
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Publication Date:
December 31, 1967
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SCIENCEAB
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LL 22396
ACC NR- AT6011140 01
found that the rates of secular ti lts-of small crustal blocks
(encompassing a few
hundred meters) could best be determined by geophysical methods, and
for areas
of major, continental proportions (hundreds and thousands of
kilometers), by
geodetic and geological methods. Orig. art. has: 1 figure and 3
tables. [ER
SUB CODE: 08/ SUBM DATE:'none/ ORIG REF: 004
L~gard2 2
BONCH-OSMOLOVUjy, A.G,j IVANOV, G.X.
Circuits for shaping high-intensity magnetic field
pulses
approachin ~ zav.; radiotekh.
g rectangular form. Izv. vys. ucheb.
3 no.6:558-662 NoD 160. (MIRA 14:8)
1. Rekomendovana kafedroy spetsfiziki Leningradskog?
elektrot-
ekhnicheskogo instituta imeni V.I. Ullyanova
(Lenina).
(Pulse techXlques (Electronics))
AID 114r., 963-2. 10 1W.:-
~~-.C.HERIZTWV RADIATION 71HOM AN ELECTRON BEAKIN A DIELECTRIC PIPE'
(USSR)
Bunak9smolovaMy, A-&~ G. Zhurnal tekhr4icheskoy fiziki, v. 33, no.
3, Mar 1963,
296-300. 03/006/021
.S/057/63/033/p
Equations. are de.,rived describing Cherenkov radiation from a
cylindrical electron
beam of finite length and radius, arbitrary charge distribution
along the axis. of the
beam, and constant charge density along the cross section of the
beam. The beam
tmvels in vacuum along the axis of a dielectric pipe of finite
internal and external
radius and infinite length whose magnetic permeability is equal to
unity and wbo~se
medium is, transparent within the frequene range c6nsiderVd. It is
shown thai-~"
under these conditions Cherenkov radiation from the beam has a
discrete spectrum,
owing to emission of different slow waves with a phase velocity
equal to the velocity
Card 1/2
AID N[r. 96..,1-2 10 May
CHERENKOV RADIATION nom [Cont'd) S/05T/63/03VO-03/006/021
of the beam. 'Under practical conditions the linewidtbs in the
spectrum will be finite
because of damping in the dielectric, the finite path length of the
beam (limited
length of pipe), and the scatter of electron velocities. High
frequencies of emission
are shown to be determined onl by theAhickness of the dielectric and
to be independ-
~y
ent of the pipe radius. The power emitted at these frequencies is,
however, strongly
eter the power
dependent on the internal radius of the pipe. With a- small beam diam
emitted. decreases exponentialli with increased frequencies; when
beam diameter is de-
termined bypipe diameter, the deday of the spectrum is considerably
smaller. A
coherence factor is derived which indicates the extent to which the
emission of a
beara at a particular frequency exceeds the emission atthat frequency
by a single
-electron traveling along the axis.-- [BB]
Card 2/2
U63R/Radio TransceiverIa Aug 51
"Concerning the 'Urozhayl Radio
Station," V.
Bonchuk, Bratskaya WS, UkreLinian SSR
"Radio" No 8'.. P-44
Two years of operation of VrOzhaY"
station ia
subject MTS has revealed these defects:
The
antenna unit is inconvenient because 2
masts had
to be set up vhen the station vas
operating
further than 15 km from the central
station.
Noise-suppressing circuits should be
added (the
central racIto station frequently had
to shut dovn
154T.115
USSR/Radio Transceivers (Coutd) Aug,51~
wban. the shops opened because veld,
operations
interfered with reception). The hand
microphon*
in,inconvenient for the dispatcher.
194T115
V,14,
AUT"HORS: Bdrichuk, V.A., and But, P,P~ 93.-57--7-'JI-4/22
TITLE; Decreasing Oil Losses Due to-Evaporation (Rezervy
snizheniya poter' nefteproduktov ot: ispare-niya)
PERIODICAL: Neftyanoye khozyaystvo, 1957, Nr 7, pp 47-51
(USSR)
ABSTRACT: PKhV-l white coloring on oil tanks is more
effective in
minimizing oil losses due to evaporation than AL-177
aluminum paint. Table 1 shows that for alumin= paint,
oil losses are 1.3-1.5 greater than for white enamel.
Tables 2 and 3, and a diagram show that the annual losses
of stored gasoline are smaller for white colorirg than for
aluminum paint. Annual losses were calculated with the
aid of a formula worked out by N.N. Kanstantinov of the
All-Union Scientific Research Institure for the Processing
of Petroleum and Gas and for the Production of Synthetic
Liquid Fuel (VNII NP). The temperature range was
Card 1/4
Decreasing Oil Losses Due to Evaporation 93-57-7-1.4/22
determined by the attenuation of thermal waves, a method
developed by V.A. BunchuR of the State InSt4tlate for the
Design and Planning of StrucLures, Transportation and Storage
in the Petroleum industry (Giprotransnefc'). The coefficient
of sunray absorption was determined using the method devised
by M.A. Mikheyev, the author of "Principles of Heat Transfer"
(Osnovy teploperedach), Gosenergoizdat, 1949, On the basis of
these findings the State All-Union Production Office
"Lakokraspokrytiye" under the USSR Ministry of the Chemical
Industry recommended the testing of whit-e perchlorvir-yl
gasolineproof enamel P1hV-1 (VTU MKhP No. 2701-51), and the
All-U-nion Scientific Research Institute of Lightning Engineering
(VNISI) under the former USSR Ministry oE the Electrotechnical
Industry recommended the testing of white photostable enamel
consisting principally of zinc aluminate pigment. The latter
enamel is highly resistant to light and moisture and its
coefficient of sunray reflection is 0.85-0.9. As it: -is produced
in limited quantities for special industries and is quite
expensive, *%-.he authors suggest using PKhV-1 enamel which is
Card 2/4
Decreasing Oil Losses Due to Evaporation 93-57-7-14/22
produced in large quantities b~:the plants of the USSR
Ministry of the Chemical Industr'y. The authors also
recommend
the KhSL-1 white enamels and the chemically stable PKhV-101
enamel produced in large quantities by the plants of the same
ministry. For metal tanks exposed to the atmosphere the
"Lakokraspokrytiye" office recommended: a) one laver of base
paint, No. 138 COST 4056-48, and two 'Layers of AL-177
aluminum
paint, or b) orte layer of base paint, No. 138 and three
layers
of PKhV-1 white enamel. Tables 4 and 5 give the results of
applying enamel in this sequence to 5,000 cu. m. of oil tank
surface. According to Table 5 the white enrame! will reduce
oil
losses due to evaporation by 25-30 percent and cover the
capital
investment of the painting job in several months. The 1956
petroleum output is expected to amount to 135 million tons.
If the average annual output in 1956-60 amounts to 10 million
tons of petroleum yielding approximately 50 percent of light
Card 3/4
Decreasing Oil Losses Due to Evaporation 93-57-7-14/22
petroleum products, the loss of light petroleum products due
to evaporation in sto-iage will amount to 0.5-1 percent, i.e.,
a minimum annual loss of 250 thousand tons. This loss car be
compensated for by coating the storage tanks with white enamel
costing 50 million rubles, the price of 70 thousand tons of
petroleum products. Therefore, the authors suggest that the
tank farms of the Main Administration for Petroleum Marketing
(Glavneftesbyt), and first of all the tank farms in the
Southern regions, be adequately supplied with PKhV-1 white
enamel and that the USSR Ministry of the Chemical Industry
develop and organize the production of tank coatings which
will be more durable and more stable than PKhV-l enamel.
There are 5 tables, I diagram, 2 Soviet references, and
2 English references.
ASSOCIATION:Giprotransneft' (V.A. Bonchuk)
AVAILABLE: Library of Congress
Card 4/4 1. Oil-Evaporation
A,
DlMITRI TEIIIC, M-~
S', 0 AIN TIE] j
art zopbe n onE Glazi
229 t63.
.2 s of' 4: c-,;one If rc.-.TL Itch ie-r 3
ko tcf,o- , T, b', d Z
1 f 0 r g a i h e ml- hit F P-,~ u c gy
-Iqe unlwrs~.ty of S ul,M -~ tc-
ju-~y 101, 19`4.
CHIOSA9 L.; RMCIOCAT, C.; STANCTI, Carmen
microdiffusiometric method for determination ol
ammonia in
biological products. Stud. cercet. med. inte2n. 5
no.4:443-
449 164.
. . .............
2340. THE CAUSES WHICH MAY ALTER THE INTRADERMAL REACTION
WITH
ALLERGEN OF It. PERTUSSIS - Asupra cauzelor care pot
modifica reactia
Intradermic:1. cu alergen de B. pertussis la cobali
sensibilizali cu germeni
vii de B. pertussis - Bon c iu C. I S oa re I., Barbe r C.
and Petr o -
vici M. - NaCROBiOL.--PARAZITOL.EPIDEMIOL. 1957, 2/3
(234-237)
Infestation of guinea-pigs with Klossfela causes a
blocking of the reticular tissues
with an abundant iron depot in the tissues.of the spleen
and the adrenal glands. This
partly explains the' absence of a skin reaction to the
allergen of It. pertussis in
guinea-pigs sensitized with living germs. Advanced
pulmonary lesions, as well as
avitaminosis E and A may contribute to this effect.
Sechter - Iasi (IV, 17)
W'.
1277. PATHOGENICITY OF COMMON E. COLI AS COMPARED
WITH THAT
OF STRAINS OF GROUPS055 AND 018 ISOLATED FROM CASES
OF IN-
FANTILE GASTROENTERITIS. REACTIVITY OF YOUNG ANIMALS
TO
EXPERIMENTAL INFECTION - Contribution a I'Mude de
Vaction pathogene
d'Escherichia colf, espbce type, comparativement a
celle des souches des
groupes 055 et 0, is, i5oldes des cas de
gastro-entdrite infantile. RhctivitO
I Vinfection experimentale des animaux en bas age -
C o m b i e s c u C. ,
Bonciu C. . Popovici M. , Zili.qteanu C. Rasmerita C.
a-na-Via-dioanu I.R. -ARCH. ROUM. PATH.
EXP:MICROBIOL. 1957,
16/1 (56-68) Tables 3
Pathogenic strains 055 and018. inoculated
Intranasally, caused death in 83 and 331%
respectively of one-day-old rabbits, whereas a
non-pathogenic Esch, coli strain
caused no appreciable harm. Sechter - Iasi
DIMITRIUI Ofelia.; BqXCIUp C.; CERBUI Al.;.VASILESCO,
Th-
Research on urinary eliminators in human brucsllOsis-
Arch. RoUM*
path. exp. microbial. 20 no.1:21--31 mr 161.
1. Travail do l'Institut, "Dr. I. Cantacuzino" -
Service des Zoonoses.
(BRUCMIOSIS urine)
BONGIU~ C.; IONESCO, Al.; BELISp V.
A contribution to the study of protoplasmic inclusions
in the adrenal
medulla of r-n. Arch. Roum. path. exp. microbiol. 20
n0.1:43-52
mr 161.
i. Travail ae, VInstitut "Dr. 1. Cantacuzino" - Service
d'Anatomie
Pathologique et de la Chaire do Medecine Judiciaire de
111fistitut,
Madico-Pharmat-eutique-Bucarest,,
(ADRENAL MEDULLA pathol) (PROTOPLASM)
RUMANIA Farm Animals., General Problems.
Abs jour z Ref Zhur - Biologiya, No 2, 1959, No. 7266
Author : Boncota D. I.; Petrea, I.
Inst
Title Green Foods - the Main Source of Production
in Animal Husbandry
Orig Pub Re. gospod. agric. stat., 1958, No 3, 13-16
Abstract No abstract given
Card 1/1
BONCIU., C.; DUIMITRESCO, R.; PETROVICI, Monica;
ROTZSCO, C.
Experimental research on the toxicity of atabrine. Arch.
roum. path.
exp. microbiol. 21 no.1:213-233 Mr 162.
1. Travail de IfInstitut "Dr. 1. Cantacuzino" - Service
d'Anatomie
Pathologique et do Is Chairs de Modecine Judiciaire do
11 Ihstitut
Medico-Pharmacoutique de Bucarest.
(QUINACRINE)
BOTEZ, Virginia; PARASCHIVESCO, Maria; ANGELESCO, I.;
BONCIU, C.; PETROVICI,
Monica I
Criteria for the evaluation of the activity of BCG
vaccine.
Significance of the pancreatic lymph nodes. Arch. raum.
path.
exp. microbiol. 21 no.2s443-"S 162.
1. Service du vaccin BOG - Inatitut "Dr. I. Cantacuzinon
(for Botez,,
Paraschivesco). 2. Laboratoire pour Is controls d' Etat
des serums
et vaccine (for Angelesoo), 3. Service d'Anatomie
Patholdgique --
Inst. "Dr. I. Cantaouzino" (for Bonciu, Petrovici).
(BCG VACCINATION) (PANCREAS) (LYRH NODES)
BOW1Uj C.j- DWTRIU, Ofelia; BOTEZ, Virginia; ANGELESCO, I.;
A.; POENARU, Ilona; STOICA, Beaterina; OLIFICI, N.;
PIMOVICI, Monica; POP.. Alexandrina
Contributions to the siudy of splonic hyalinosis and of its
influence on iZmmity reactions. ArA. Rom. path. exp.
(GUINEA PIGS) (S?"I' (DISEASE)
(AMYLOIDOSIS) IANTIGEN-ANTIBODY REACTIONS)
(MM SERUMS)
DDIITRIU, Ofelia; VASILESCO~ 71h; CMM. Al.; POP,
~Uexandrina; WICIUA.;
PETROVICI, Manica
Comparative a-Ludy of sme vaceinse In experimental
In-uc9Iloa!B.
Arch, roumo pathe exp, microbioi. 23 no.3s661-666 S163
I
1. Service des, Zoonoses, Laboratboira de la
Bru-allosm (fo--
Dimitriu Vasilesznq aerbap Pop). 2. Servias d'Anatomie
Patho-
logique tfor Bonciup Petrovitil.). Travail de
VInstit-ut "Dr. I.
Gantaauzinollplkicarest,
BMCIU, Mga; BCNCIU, G.; PBMOYICI,, Monift,
- m~
Experimental reaear*h. on the pathogweeity of
certain fer-
raginous bacteria. Arch. roum. path. exp.
miarobiol. 22
no*I+tlO39-104'+ S-D'63
1. Travail de ltInstitut de Balneologis,
Bucarest.
BONCIU, C.; BON40.; PL"MOVICI, Monica
Study on the histochunioal composition of protoplasm
inclusions
in the cbromaffin cells b~ the adrenal medulla in
guinea pigso
&ch. roum. path. erp.`wdorobiol. 23 no.3:8217-832!
S163
1. Travai-I de 11I~stitat 'Dr. I. Cantacu2dne,-
Service d'Anato-
mie Pathologique, Bacarest.
BOTEZ, Virginia, PARASCHIVESCO., Maria; GHE4DRGHM,
Marina; ANGEIMCO.Ja;
BOKCIU,C.; PEMOVIGI,,Manioa.
1-11-- -
Study on BOG strain variants resistant to
streptomycin, INN and
PAS. IT. Vaccinat properties in the absence or
presence of a
streatment, with the homologous tuberculastatic.
kmho. roumo pathe
exp. microbiol. 22 no.4:951-JW S-D'63
1. 3hotitut M~r. I.Cantansino*; Servios du vaccin BOG
(for Botez,,
FaraschlVesac; Gheorghiu). 2. laboratoim Central pour
Is Controls
d'Etat des Serums et des Zteciner (for Ingeleaw). 5.
Institat
"Dr. I.Cantacuzinolt; S'errice d'Anatomie
Pathologique (for Bonciup
Petrovici).
ILIUSCOP M.; R' I'D'U, CC.; IPETPOVICI, Monica; BOTEZ, Virginia
(deceased]; GHFORGHRI, M-1,rina; PARASCHIVESCO, 1111ar-JILL
Research on the role of organ iso-Ii-,imunizatimi in the
infecLiouo,
process caused by an attenuated 1~~r:;obacterium (BCG). Arch.
Roul-,
path. exp. microbiol.. 23 no.4:939-950 D 164.
3. Travail do 111n9titut "Dr. 1. Cantactizino", Service de
Soro-
logie, (for Iliesco, Radu), Service d'Anatorde Pathologique
(for
Bonciu, Petrovici), Service du vaccin BCG et de la TLIC
experimen-
tale (for Botez, Gheorghlu, Paraschiv&sco). Submitted june 1,
196,4.
AFTONIU, R., ing.; SAIM, G.p inge; DROCAN, V., dr.;
GHEDMM, V... ing, _
biolog.; MAPCOCI, S.,, biologs- MARCULESCU, I.,
radiochimist.
Studies on the conditions of utilizing domestic
waters and
sewage for irrigation of agricultural areas, made on
the
experimental grounds at Tazla, Constanta region, in
1961.
Studii prot epur apelor 4s6l-3.47 163.
BDNCIU~ 0.
"Studies on the anaerobic flora of soils" by A.
Prevot and
others. Reviewed by 0. Bonciu. ?4icrobiologia
(Bucur) 3
no.5:452 S-0158.
BONCIU, Olga
Contribution to peat microbiologic study (poat of
Poiana
Stampei Pilugani and Poiana Stampoi. Casoi). Rev
biol 8
no.3:281-311 163.
1. Institut do Balneologie et do Physiotherapie,,
BucareBt.
BONCWj Mga; BONCIU9 Co; PBMOVICI, Monies.
Experimental resear-ah on.the patheg"teeity of
certain fer-
raginous baoteria. Arch. roume path. exp.
microbiols 22
no-01039-104~ S-D'63
1. Travail do l?Institut de Balneologial
Bacarest.
SOURCE COM
AUTHOR: Iliescu, Constantin-Myeaka. Ket Boncoi.
GhsQr&e--BonkoyP.G.-
V3
ORG: none
TITIS: New calculation method for determining the dimensions
of the active parts
of forging dies. \~ Durability of tools
SOURICE: Const ti d Lsini, no. 3, 1965, 321-326
TOPIC TAGS: durability, material deformation, die, metal
forging
ABSTRACT: The authors present a number of graphs to be used
for the calculation'of
appropriate dimensions for forging the components in terms of
the thickness of the
material, the amount of wear expected, and the degree of
bending required. They also
discuss the factors affecting the durability of such toola
andshow how to calculate
it on the basis of various factors. Orir'b art* hast 12
figures, 12 formulas, and 1
table. f5ased oh authors' Eng. abstff LJ-13 RS7-
SUB CODE: 13 / SUBM DATE: none / SOV REF: 002
Vol. P., nfl-~.
T;-, T? 1- !T
jr~n JL
o1. 0 $ I-
BONGOTA, Nicu, corespondent
After 1.1 months. Constr ~ua 15 tic.726:1
7 D 163.
COSMA.9 Frederic; KISS. Ladislau, te)ftician de
normare; IENCIU, Traian;
BARBALATA, Si.; ENESCU, Constantin, tehnician;
HOTUPAN, Florialv,
corespondent; BONCUT, Remus
Problems connected with the organization of
production brigades.
Constr Buc 16 no.746:3 25 April'64.
1. Trustul Regional de Constructii de Locuinte, Cluj
(for Kiss).
2. Seful serviciului organizarsa muncii, Trustul
Regional de
ConBtructii de Locuinte, Cluj (for Cosma). 3. Seful
ser7iciului
organizarea muncii de la grupul de santiere nr.2
Sibiu, Trustul
Regional de Constructil de Locuints, Brasov (for
lenciu).
4. Seful serviciului organizarea. muncii de la grupul
de santiere
nr.1, Trustul-Regional de Constructii de Locuinte,
Galati (for
Barbalata). 5. Ssful serviciului organizares. muncii,
Directia
generals. constructii-ftontaj, Bucuresti (for Boncut).
6. Trustul Regional de Constructii de Locuinte, Arges
(for
Enescu).
_P~N~C~~,'-.Ba.zyl.i; FIRKOWSKI, Ryszard;
JATCZAK, Jerzy
Efficiency measurement of the neon telescope.
Nauki matem
przyrod Lodz no.17;41-45 164.
1. Department of Experimental Physics,
University, Lodz.
ADONAJLO, Aniela; BONCZAK, Jerzy
Tapewrm infection in the light of an intestinal disease
clinic in the
northern section of Praga in Warsaw. Przegl. epidem. 15
no.l+:425-427
161.
(TAPEWORM INFECTIONS epidemiol)
ADONAJLO, Aniela; BONCZAK, Jerzy; KOFERSKA, Krystyna
I
Ambulatory control of lambliasis. Wiadomosci parazyt. 8
no.4:475-479
162~
1. Poradnia Schorzen Jelitowych Warszawa.
(GIARDIASIS prev & controls (HOSPITAL OUTPATIENT SERVICE)
BORCZAK Jerzy; Al-ION!"R.C1, Anich
Analysis of cn,,es of bEcillary dyserjti~,ry treat;",.,
un'Jej- ar.,bulatory
conditions. NOVO. epidem. 18 no.1:19-2-i 164,1
1. Z Poradni Schorzen Jelitowycli Uarszawa -- Prwm, Pohioc.
(E.Ioroumil,:
lek. med. J. Bunczak) I z Zalzi.,.du pide-mi(I",("-;j -,~t
EL'-'Ia&u
0
liygierly (K4erownlk- prof. dr. J . I, o 5 1, rz c ~ 4,:
BCNCZAK, Jerzy; KOPFMKA, KryBtyna
Ahalysis of cases of Trichurls trichiura. Viad.
par&--yt. 11
no.lt25-.29 165
1. Po-adnia, Sa!crsm Telitowych i Laboratorium
Bakteriologiczno-
Parazytologiczne., W-arszawa.
I~udowa vmetrza zieri(Sbructure inside the globe), by
'J. Lonczkovski.
Rer..,oi-bed in !%~ew Pook (',~owo No. 6, y - ori'
3 lar'L. ',5,
, r
REGOS,, Janos.. dr.; BONCZOS, IaszIo, dr.j SCHNORCUp Maria
Data on the evaluation of porphyrin and its isomers in case of
po b in is, ca"ed by lead and other factors, Munkavedelem. 8
ni'7p6r. 1621,
Do -43Z
.1. "Munkavedelem~ aterkeszto bizotte-warsk tagja (for Regos).
BONCZOS. Lasz1o, dr.; FODOR, Anna, dr.; GONBAS, Bela, dr.;
KUBERT, LaJoi3, dr.
Occupational diseases of persons working with chromium with
special
regard to the injuries of the mucour, meii:Lwanes in the upper
respira-
tory tract. Mankavedelem 10 no.1/3336-38 '64.
1. Ganz-MAVAG Factory Dispensary.
~KITDAKOVY G.
-1cco-untim, for IWIteria"s proluced in subp,'diur~v Pnterprise3
of cooperrtive fB -B. P-32.
- i rm
K0GFEu.,I,rIvki0 ZU-ItU-~.Lar,, bui..yiti, Vol. 11) no. 4, Apr.
1956.
SO: Monthly List of Dist European hecessirns, (EEAL), LCI Vol. 5,
1io. 6 Juiie 1956, Uncl.
RONDAKOV ; KULSHEV, A.
The accounting of the manufacture ofproducts. P. 33.
(KOOPERATITIO ZEMEnELIE, No. 1, July 1957, Sofia, Bulgaria.)
SO: Monthly List of East European Accessions (EEAL) LC, Vol. 6, no.
12, December 1957 Uncl.
DONDAROV. G.; XULISHEV, A.
New method for making an account of the day's work in plant
cultivation. P. 30.
(Kooperatvino Zemedelie, VoL (12), no. 2, Feb. 1957. Sofiia,
Bulgaria)
SO: Monthly List of East European Accessions (EEAL) I-C, Vol. 6,
no. 10, October 1957. Uncl.
BONDAIY,T, S. 1.
li-ov(intion of Injuries in the construction organizations of
thr-
Sa khalin State Trust for the Design, Planning and Develcoment
ef
Coal Mines. Vop. travm. i ortop. no.13x23-25 163. (MIRA 18:2)
BONDALISTOV, M., mashinist komb&Yna
Live and work the commulet way. Knot. ugl. no,10:9 0
'59
(MIRA 13:3)
1. Rakovoditell brigady kommytistichookogo trada
karapudinskoy
shakhty No. 1 "VertikalluayaO.,
(Karaganda Basin--Coal miners)
BONDAIETOV. V.N.
Method for calculating electromagnetic forcos and their work
during random varying interlinkage of currents, mutual induc-
tances, and self-inductuances. Trudy I-E-I no.64:179-198 165.
Calculation of e.m.f. induced in a current carrying coil
pasaed through by a conducting stage. Ibid.:1901-212
(""'ni, 19: 1)
BONDALVICH, V., kandidat na meditsinskite nauki
~.
Congenital intestinal obstruction. Khirurgiia, Sofia 9
no.10: 1
869-871 1956.
1. Minski meditsinskii Institut bolnichna kbirurg"chna
klinika
Direktor: I. Stalmasbonok.
(INTESTINAL OBSTRUCTION, in infant and cbild,
congen. (Bul))
BOI DALEVIC113 V. Ya.
Bondalevich, V. Ya.
"The significance of anatomic sutures of the vessels,
nerves., and mesentery of
V
the small intestine in the operation of plastic surgery
of m artificial
digestive tract." Moscov, State Medical Inst. Mi!isk,
1956. (Dissertation
for the Derree of Doctor in Medical Sciences).
Ki-Lizhnaya I etopis I
~,Io. 21, 1956--Ifoscow -
BONDAISVIGH, V.Ya.
"'"ll-
Case of myxoglobulosis of the appendix vermiformis. Nov.khir.
arkh. no.4:78 -Tl-Ag 157- (MIRA 10:11)
1. Hinakiv moditsinskiy institut
(APPINDIX (iNATCKT)--TUKORS) (CTSTS)
BONMLBVIGHP,~,y 4~L , Kandidat na maditsinskite nauki.
Artificial plastic esoph". Xhinwgiia, Sofia 11
no-7:596-601 1958.
1. Vissh Meditsinski Inst$tut; Minsk Katedra po
bolnichns. khirargiia.
Zmv. kntedrata: prof. I.-M. Stelmshonok.
(BSOPHARV, sur'g,',
Dlaotic repair. technic & statist. (BUM
3ONDALNVICH, V.Ya.; GUSEVA, L.N.
Work of +I,- ',%its Russian Republic Surgical Society.
Zdrav. Belor.
5 no.9*.77's !59. (MIRA 12:12)
(WHITE RUSSIA--SURGICAL SOCIETIES)
BONDALMCH, V. IA kemolle
A method for enlarged resection of the stomach with
the preservation
of duodenal patency. Mperimental studies). Khirurgiia,
Sofia 14
no,7:561-572 161.
1. Meditsinski institut, Minsk Katedra po bolnichna
khirurgiia. Zav.
katedrata prof. I. M. Stelmobonok.
(GASTRECTOMY exper)
STELIMASHOINOXI I.M..-,_BONDALLMOH V.ya.
Blood suppI7 of the jejunum functioning as an
artificial esophagus.
Rhirurgiia 37 no,2zlOO-104 IP 161, (ym 1411)
16.1z gosp#allnoy khirurgicheskoy kliniki (dir. I.M.
SteVmm-
shonok) MimAkogo meditsin k inotit-4ta.
(=MMM-UMD SUPPRY0g)o (ZSMOHAGYJS--SURGERY)
BONDPjX,Vl(:Il, V.Ya.
Methcd for ex--,on3ive rpsections c,'
duodenal patericy. E`k,,RT:er. khir. I
1. Kafedra g'ospitallnoy khInirg-ii
meditsinskogo imstitutu.
Lhe stumsicb wj.~t re~.-,.rratdcri of
ra
--nest. 9 nc.l.,38--10 161
(MIRA 17 02)
(,zav. I.M.Sttilliwitihonck) Min!~Ikclgo
E 31003-66 rBD/E.-.TT(1)/D,.,P(e)/-tl4T(M)/LEC(k)-2/T/E7~~IP(W)
(j"-~;A( ijp(c)
ACC NR: AM-007801 WG/WH SOURCE CODE: 5A/01.1/002/02-17/0218
, M. H.; Yer'omka, V- D- Bonchkqvq')W,, V.-..Y.
AUnj0R: 4Rnaqv
o'RG: Institute of Radiopbysics and Electronics, AN `UkrSSR,
Khar'kov (InstYtut
radiofizyky I elektronilW A11 UIRSR)
TITLE: Laser with maxim= Q switching
o. 2, 1966, 217-218
SOURCE: Ukrayins Xyy fizychrW zhurnal, v. 11, n
TOPIC TAGS: laser optics, laser modulation, resonator, laser r
and d,Q switching
ABSTRACT: Whereas In earlier experiments Q switching was
usually effected bv in-
terrupting the coupling between the active rod and only one
resonator mirror, the
authors investigated the properties of a laser in which the
coupling with both mir-
rors is interrupted. An estimate shows that the gain can be
increased in this case
to almost/the theoretical 50%. Two variants of such a laser
were tested (Fig. 1).
istals each 24 cm kng atid 1. 25 cm in diameter were used. One
crystal oper-
Two pby\)t2-
ated'Int-the Qrswitching mode. The ends of the crystals and the
hypotenuse faces
of the total-reflection prisms were coated vith MgF2 and CaF2
MmBp respective
The resonator comprised alternating dielectric coatings of CaF2
and ZnS (2 and 11
layers) on plate glass and the prism. The plate was rotated at
12,000 rpm. The
pump illumination came from two IFP-15000 and four IFP-5000
lamps and was suffi-
Card 1/3 7
1; 31003-66
ACC NR: AF6W7801
1-'Ig. 1. Diagram of laser resonator in vhich
the coupling between the active rod and both
reflectors is interrupted. 1. 2 -- Ruby
crystal., 3 -- Internal-reflection prismp
plane-parallel glass plate with two
dielectric coatings.
- ------ ------
3
4
..........
cient to cause 1a8ing without mirrors of one crystalp by
reflection from the free
ends# or else of two crystals with bleached ends. In the case
of a two-layer
coating on the semitransparent mirror.. the output,,-inergy was
somewhat larger than
5 1 wA 30~ more than in the case of a free plate. Under certain
conditions,, an
energy or-n was obtained In variant a., as a result of the fact
that the reso-
Card 2/3
L 31003-66
ACC IM: AF(=7801
nator was Q-switched twice during the pump pulse. The focused
giant pulse pro-
duced breakdown in air. The laser pulse repetition frequency was
0.1 cps. Orig.
art. has: 1 figure and 1 formUa. (02]
SUB CODE: 20/ SUBM DATE: IOAug65/ ORIG REF: 005/ OTH REF.- 002
ATD PRESS: q -2-
Card 3/3
BONDARI, A
Busin"is a'ccounting on sections of track diviaions.
Zbel.dor.
tranop.36 n0-5:83-84 IV '55- (14IRA 12:5)
1. NaAal'nlk distantsil puti, stantalya Darnitsa
Yugo-Zapadnoy
dorogi. (Railroads--Accounts, bookkeeping. etc.)
BoltZHKOV, P.; TUDOVICH, M.;.PONDARI, A.
Consolidated balance of a statistical report. Den. i
kred. 16
no.11:70 N 158. (NIRA 11:12)
(Odessa--]Banka and banking--Accounting)
(Macbine acconnting)
PONDAR, Artur
International cooperation in the construction of
automobiles.
Pt. 2. 'Motor 11 no.45:3 11 N 162.
WMA, A. A.
AUTHORS:
81999
S/12o/60/000/03/039/055
E032/E-514
Bondary, A.D., Yemlyaninov. A.S., Klyucharev, A.P.,
Lishenk , V. N. Medyanik, A.D. Nikolaychuk and
0. Ye. Shalayeva,
TITLE:
Preparation of Metal Foils from Pure
Isotopes J17
PERIODICAL:
Pribory i tekhnika eksperimenta, 1960,
No 3,
pp 134-136
ABSTRACT:
A summary is given of the various
methods which can
be used to prepare metal foils of Ni, Cu,
Zn, Cd, Co,
Mn, Fe, Ag, Cr, Pb, Be, Ge and Zr suitable for use
as
targets in nuclear scattering experiments. The
authors have
used three methods for obtaining thin
(0.1-100 foils, namely,
electrolytic deposition,
direct evaporation in vacuum,and
thermal dissociation.
In any of these methods it is important
to choose a
suitable base which can then be removed, since the
foils must frequently be used on their own. The
apparatus used
in the electrolytic method is shown
in Fig 1. In the latter
figure 1 is the anode
Card 1/3
(platinum), 2 is a perspex
cylinder, 3 is a copper
pa
81999
S/12o/60/000/03/039/055
E032/E514
Preparation of Metal Foils from Pure Intopes
packing, 4 is the cathode, 5 is a copper contact for
the cathode and 6 is the base (perspex). This device
was used to obtain free foils of Ni, Cu, Zn, Cd, Fe, Pb,
Co, Mn, Ag and Cr. The first six of these were obtained both
from naturally occurring elements and elements efitiched with
stable isotopes. The various electrolytes used to obtain
the foils are shown in column 3 of the table on p 135.
In order to obtain thin foils of Ge isotopes,available
in samples of a few tens of mg, the graphite evaporator
shown in Fig 2 was employed. The evaporator was mounted
directly on the copper leads (2). A tantalum plate 0.1 mm
thick was placed above the evaporator at a distance of
about 3 cm. In this way a Ge layer 3 to 4 )L thick was
obtained from 15 to 20 mg of the isotope. The film was
separated from the base by bending the latter. In order
to prevent damaging the Ge film, it was covered with a
thin layer of varnish. In order to obtain thin foils of
Be, a beryllium oxide heater was used, as described by
Sinellnikov in Ref 8. 1 to 2 ji thick Be foils could be
Card 2/3 obtained in this way. Zr foils 5 to 10 iL thick were
81999
S/120/60/000/;3/039/055
E032/E514
Preparation of Metal Foils from Pure Isotopes
obtained by the thermal dissociation method. The sample
was in the form of ZrI4 placed in a special sealed ampoule.
The compound was dissociated at a hot molybdenum base.
The iol%dine was pumped off and removed by a cold trap,
while the Zr was deposited on the molybdenum base. The
molybdenum base was then dissolved in nitric acid. The
amount of Zr necessary was 30 to 40 mg. The metal films
obtained by the above methods were found to be stable
during experiments with 5.5, 6.8 and 20 MeV protons.
There are 2 figures, 1 table and 10 references, 8 of
which are Soviet and 2 English.
ASSOCIATION: Fiziko-tekhnicheskiy institut AN UkrSSR
(Physico-Technical Institute, Ac.Sc., UkrSSR)
SUBMITTED: May 22, 1959
Card 3/3
82000
S/12o/60/000/03/040/055
21-39ps E032/E5i4
AUTHORS:-Bondarl, A.D., Klyucharev, A.R., Lishenko, L.G. and
A-13.
TITLE: Preparation .of Isotopic Chromium Targets /JFfrom
Cr20 3
PERIODICAL: Pribory i tekhnika eksperimenta, 1960, No 3,
PP 137-138
ABSTRACT: A new method is reported which can be used to
obtain
CrI2 at 300*C in a molybdenum glass container and then
convert I into ductile chromium foils. The authors had
at their disposal stable isotopes of chromium in samples
of about 100 mg each and in the form of Cr 0 . In order
to transform Cr 0 into the soluble form, fh~ usual
method describei iY Nekrasoy (Ref 5) was employed. The
chromium was then deposited on an Hg cathode from a
0.1 N sulphuric acid solution. In order to obtain a
complete separation of the chromiumv a current of 0.75 A
was passed for 1.5 to 2 hours. The amalgam obtained in
this way was then filtered through chamois leather under
vacuum. After removing the surplus mercury the chromium
Card 1/4 amalgam was placed in the apparatus shown in Fig
1. The
82000
s/12o/60/000/03/040/055
E032/E514
Preparation of Isotopic Chromium Targets fro.-ii Cr203
amalgam was introduced through the tube 7 into the
retort 8 and the tube was sealed off. Nextan iodine
ampoule 2 was introduced through the tube 5. The
block 4 was introduced through the tube 5 in a
similar way and the latter was sealed off. The whole
assembly was connected to a vacuum pump through the
tube 3 and the retort was placed in a furnace in which
it was heated up to 200*C. The mercury was driven off
from the amalgam into the receiver 1 and the whole
apparatus was sealed off at A, while the mercury
receiver was sealed off at S. The block 4 was then
used to break the iodine ampoule, the iodine was driven
into the retort and the apparatus was sealed off at B.
The retort was then heated to 3000C for 30 to 40 min and
the chromium iodide obtained was collected in 6. The
surplus iodine and mercury iodide was driven into the
retort by heating the ampoule 6 up to the knee A to
3000C. The ampoule containing the chromium iodide was
Card 2/4 sealed off at rl. The ampoule containing the
chromium
82000
S/12o/60/000/03/o4O/O55
E032/E514
Preparation of Isotopic Chromium Targets from Cr 203
iodide was broken under toluene and the chromium iodide
together with the toluene was placed in a ceramic
crucible lined with molybdenum foil. All the subsequent
operations were carried out in a metal vacuum chamber
connected to the vacuum pump thx-ough a liquid nitrogen
trap. The latter condensed all the volatile products
such as toluene, iodine etc. The evaporator employed
is shown schematically in Fig 2 in which 1 are current
leads, 2 are insulators,-31sa tungsten spiral, 4 is
a ceramic crucible, 5 is a molybdenum jacket, 6 is a
flange, 7 is the molybdenum lining, 8 is a ceramic
crucible, 9 is a molybdenum container and 10 is a
holder. After the toluene had been driven off the
molybdenum foil base was heated to about 1050*C and the
chromium iodide to 800*C. On striking the molybdenum
foil the chromium iodide dissociated, the chromium was
deposited on the base and the iodine was condensed out
Card 3/4 by the trap. In this way chromium foils 1 to 15 11
thick
V~
S/120/60/000/03/o4O/O55
82000 E032/E514
Preparation of Isotopic Chromium Targets from Cr203
could be obtained. There are 2 figures and five
Soviet references.
ASSOCIATION: Fiziko-tekhnicheskiy institut AN UkrSSR
(Physico-Technical Institute, Ac.Sc., UkrSSR) x
SUBMITTED: May 22, 1959
Card 4/4
S/048/60/024/007/011/011
B019/BO60
AUTHORS: _1ondar_L,_A,_2,, Yemlyaninov, A. S. Klyucharev, A.
F.,
Lishenko, L. G., Medyanik, V. N., Nikolaychuk, A. D.,
Shalayeva, 0. Ye.
TITLE: The Production of Isotope Targets for Nuclear Research
PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizicheskaya,
196o, V/
Vol. 24, No. 'I, pp. 929-933
TEXT : This article is the reproduction of a lecture delivered
at the 1Qth
All-Union Conference on Nuclear Spectroscopy held in Moscow
from January 19
to 27, 1960. Methods of preparing foils from 16 elements are
discussed.
The authors used three methods for the preparation of free
foils: electro-
lytic deposition, evaporation in vacuum by heating, and
thermal dissociation.
The principal characteristics of the three methods are briefly
outlined. In
the case of the electrolytic deposition, e.g., the selection
of the right
electrolyte is extremely important, the working conditions
play agreat part
and so does the regeneration of the isotope. In the method of
thermal dis-
sociation, an important factor is the selection of the
chemical compound
Card 1/3
The Production of Isotope Targets for Nuclear
S/048/60/024/007/011/011
Research B019/B060
and the temperature conditions, and as for the evaporation
method, material
and construction of the vaporizer are very important. Table 1
gives data
for the preparation of foils from the elements Ni, Cu, Co, Zn,
Cd, Mn, Pe,
Ag, Cr, Sn by the electrolytic procedure, and specifies the
compositions
of electrolytes and the operational conditions in electrolysis.
The lead
foils were prepared by using 30 - 50 mg of lead, the
electrolyte was ~5%
perchloric acid with an addition of gelatin. In order to obtain
a homo-
geneous Pb deposition, the anode was rotated eccentrically. The
preparation
of Ge and Be foils by the evaporation method has been described
a number
of times, but the large isotope losses have never been avoided.
With a
view to reducing these losses the authors made use of a
graphite crucible
(Fig. 2), out of which Ge and Be were evaporated onto tantalum.
The pre-
paration of foils from other elements by this method is briefly
dealt with.
Foils of Zr, Ti, and Cr were prepared by thermal dissociation.
This method
involves the use of volatile compounds of these metals; the
apparatus shown
in Fig. 3 for the preparation of Zr and Ti iodides is
accurately described.
To prepare chromium iodide, the authors developed a new
procedure. They
prepared a paste-like silver chromium amalgam and thence
obtained chromium
iodide sealed in an ampul with the device shown in Fig. 4 at a
temperature
Card 2/3
The Production of Isotope Targets for Nuclear
S/048/60/024/007/011/011
Research B01q/B06O
of 3000C. The ampul was broken under toluene and the chromium
iodide
was poured into a crucible (Fig. 5) together with the toluene.
The,
crucible was then evacuated in a vacuum chamber, the toluene
was evaporat-
ed, and the iodide was then heated to 8000C. The evaporating
.iodide was
passed over a heated base, where it decomposed. The chromium
deposited
on the base, while the iodine was intercepted. The targets
prepared by the
methods described exhibit good properties. There are 5
figures, 1 table,
and 10 references: 9 Sovietand I US.
ASSOCIATION:
Fiziko-tekhnicheskiy institut Akademii nauk USSR
(Institute of Pusics and Technology of the Acad
Sciences UkrSSR)
of
Card 3/3
s/12o/61/000/002/036/042
E032/Ell4
AUTHORS: Bonder's A.D.s Karev, V.N., and Klyucharev, A.P.
TITIEs Preparation of isotopic magnesium f^ils from
magnesium oxide
FERIODICALs Pribory i tekhnika skeperimenta, 1961, No.2,
PP-177-178
TEXT% Russell et al. (Ref.3) have described a method for the
preparation of isotopic magnesium. The present authors suggest
that this method suffers from the disadvantage that thib magnesium
specimen contains magnesium oxide and tantalum impurities.
Moreover, it cannot easily be used to obtain relatively thick
targets, or targets in the form of a pure magnesium foil. The
present authors use the following method: 100-150 mg of the
isotopic magnesium oxide and 250-400 mg of lanthanum are ground
down until the grain size is of the order of 1 mm. They are then
inserted in layers into the crucible shown in Fig.l. 'the
crucible contains a filter 3 which is prepared from molybdenum
shavings. The crucible is then inserted into the furnace 5
(Fig.2). The reduction and evapora:tion of magnesium i13 carried
out'in the vacuum system shown in Fig.2 (at pressures at
Card 1/4
S/12o/61/000/002/036/o42
E032/E114
Preparation of isotopic magnesium foils from magnesium oxide
10-5 - 6 x lo-6 mm Hg). Temperatures of the order of 700-1300
OC
are necessary and the reaction times involved range from a few
minutes to a few hours, depending on the form of the original
materials employed. The reduced metallic magnesium is collected
on the target 1 which is cooled by liquid nitrogen. Owing to
the intensive cooling of the target the magnesium foil is
frequently found to crack. In order to obtain a continuous foil
the magnesium is again evaporated from the same furnace on to
the uncooled target. Depending on the amount of metal employed
and the distance to the target, 2 - 60 1L foils can be obtained
by this method. The target is in the form of a polished
tantalum foil. The target surface Is carefully rubbed with
ceresin and finally with soft cotton. Magnesium foils can then
be separated from the target with the aid of a razor blaide.
Foils having a thickness of less than 3 -p can be removed by
immersing the target in water or alcohol. The reduction and
evaporation process Is very dependent on the absence of
oxidizing
impurities. These can be removed with the aid of hydrogen or
some
Card 2/4
S/1.20/131/000/004/020/034
E202/E592
AU,moiis Hondar-, AD-, Karev. VN andI%'_Iviicharev All
TITLE - Preparatioii of thin foils from the isotopic alkali
and alkaline earths metals
PERIODICAL- Pribory i tekhnika eksperimenta no.4, 1961 .136-139
TEXT- The authors describe the preparation of metallic foils
of Na K Rb, Cs and Li. Ca Sr. Ba which werp used as targets
for proton beams of linear accelerators. Two distinct methods
are described. viz, by the decomposition of the corresponding
azides, and by the reduction of oxides in vacuo with metallic
lanthanum powder. For the first method the azides of all the
above metals, except lithium. were prepared in an aqueous medium
and subgequentlv evaporated and frozen to prevent the moisture
pick-up, Lithium azide was prepared according to the method
described by N Hofman (Ref 7: Bang Acta chem scand... 1957,
11, 581) The azides of Na K Rb and Cs were decomposed in a
sealed glass vessel which was evacuated to approximately 10-3 mm
Hg,
and heated slowly to 1504C. When the decomposition started the
heating was terivinated.. but after its completion the
temperature
r__
Card 1/3
Proparation of thin foils S/12o/6i/000/004/020/034
E202/E!92
was increased again. Precautions were taken to degass the
collected metal at 350-36oOc., and tr P, nsfer it by gentle
heating
into another vessel evacuated to 10- mm 11g, and finally
depositing it in a small glass ampoule The authors found that
the rather high decomposition temperatures of 27.5-3950C may be
lowered to 160-1.9o;C and the yield of the above metals made
substantially stoichiometric if small quantities of barium
azide
are added to the alkali metal azides.. The authors attempted to
decompose the azides of Li Ca, Sr and Ba in vacuo in a
different
type of apparatus- Here, the azide was placed in an armeo iron
crucible which in turn was placed in a quartz vessel, The
crucible was fixed to a conical condenser.. also made of armco
iron, connected to a copper cooler. The azides were decomposed
below 3000C and then the temperature %as increased to 800-900%.
with the subsequent distillation of the ns,--tc1l whicti
Cinallv
collected in the condenser, This method gave 706 vield in t tie
case of Sr and Ba, and only 20% yield in the case of' Ca. In
the
case of lithium the decomposition of the azide was always too
violent resulting in an explosion. Hence, for the preparation
of
Li, Ca, Sr and Ba foils the authors used another mothod, based
on
Preparation of thin foils s/i2o/61/000/004/020/034
E202/E592
the reduction of the cni-respon(ting oxi.des with nowdered
Jan(hanuln
The Procedure of this method closely follows the method used
by
J~ B Platt and D H, Tomboulian (Ref,9z Rev Scient,Instrum.,
1941,
12, 612) in thi! z;renaration of magnesium foils, Calcium
foils of
1-5 is thickness prepared according to the last method from
stable isotope enric'ied carbonate 10 withstood proton
irradiation
of 5 4 and 0 8 MeV and 10-9 - 10- amp for many hours,-
There are 2 f4.1;1ires. 3 tables and 9 references,. 4 Soviet
and
5 non-Soviet The Engl i sh -language references read as
followst
Ref,Z. L..N,Hu8sell'W..E Taylor, J.N Cooper,
Rev-.Scient.Instrum
1952,, 23~ 764. Ref,3, D.H.Randall, M,L,Smith. Nature. 1955.
175,
1041i Ref.;9.,. Quoted in text..
ASSOCIATIONs Fiziko-tekhnicheskiy institut AN UkrSSR
(Physicp-technical Institute AS UkrSSR)
SUBMITTEDC juiy 18, ig6o
Card 3/3
5/032/62/026/012/004/023
B124/B101
AUTHORSt ;BondFxr'_._L__D.1' Karev, V. N., Klyucharev, A. P., and
-~Ilikolaychuk, A. D.
TITLIE: N-ray spectrum analysis of thin tetal foils
PERIODICAL: Zavodskaya laboratoriya, v. 28, no. 12, 1962, 1446 -
1448
TEXT: Non-destructive determination of impurities in thin
titanium,
chromium, and zirconium foils was carried out by X-ray spectrum
fluorescence analysis. The foils were obtained by decomposing
the corres-
ponding iodides on a molybdenum base which was then dissolved in
nitric
acid. Molybdenum diffuses into the foils at'1050 - 1250 0C.
Specimens of
20 mm dia:~eter resulting from vacuum metallization of
molybdenum on an
aluminum filin were used as external standards. If the foils
aro,~elxkthe
molybdenum con-tent can be found directly on the calibrntior)
curve. If the
molybdenum distribution is irregular, it can be determined
approximately
by irradiation from both sides. If the total impurity forms a
thin layer
on one side of the foil, then 12' - Ioe_/'k~ (2)
Card 112
3/032/62/028/012/,004/021/
,x-ray spectrum analysis ... B124/B101
1 1
with A +
and holds approximately for the redue
tion in absOrDtion of the MoKa radiation from the other side. I
is t1ho
intensity of Mlok-radiation on the side where the base is, /k 2
is !"I S C
?he
coefficient of absorpLion of the foil for characteristic
X-ravs, P31 and I~e
are V-,e angles botween the foil surface and the primary and
characterist-ir
rays respectively, andj is the surface density of th.,~ f-oil
in A4glcm2.
if molybdenum is distributed on the surface, 1; - 1 2e/,_!.~
is obtained on the assumption that the experimental vAue 1 2 is
given by
reducing any intensity I;. The actual molybdenum value
corresponds best
with the me-in value of ! 1 and I;. There are 1 fi,--Ire and 2,
tibles. Th P
most important Emglish-langugae reference isi P. 1). Zemany, H.
A. Leib-
hafsky,. J. rjlect.-oche:;;. Soc. 105, 157 (1956).
ASSOCIATION: Fi_%:;.ko-tvkhnicheskiy institut Akademii nauk
U3SR (Physico-
technical institute of the Academy of 6ciences UkrSSRR)
Card 212
ACCW10N NRs AP4033611 8/0032/641030/004/0430/0439
AUTHORS i Karev, Ve N q Dork1arl s Del K17ucharevj At P#
TITLE: Determining the thickness of metallic foils froln their
absorption of
characteristic x-rays
SOURCE: Zavodskaya laboratoriyap ve 30, not 4., 1964t 436--437
TOPIC TAGS: metallic roilp foil thicknessp x ray absorption,
magnesium, chromiump
ironp copper, zincp chromium iodide., absorption coefficient) surface
density
ABSTRACT: Mcperiments were performed to determine local thickness and
character of
metal distribution in foils of Mg., Crp Fe, Cu,, Znj and Pb-Sn. A
short-wave x-ray
spectrometer with a monitor was used. Measurements were taken Vith
the help of a
micrometrically operated collimator mounted i.n front of the counter
aperture. The
foil could be moved in a plane perpendicular to the x-ray bearas so
that the areas of
2
0.05 x 2 m could beinvestigatede In order to determine the surface
density mo.
and consequently the thickness of foilep not only the i~tensitiea of
radiation but
also the coefficients of absorptione.for a given wavelength must be
knme Them
Cord 113
ACCESSIM NR: AP403363-1
were determined from the absorption of MoKOC radiation. The surface
density of Mg
foil was obtained from its absorption of CuKoc, with taken as 39,3-o
In deter
PH9
mining the character of metal distribution, the frames containing
foil were placed
in two mutually perpendicular planes. . On Fig, I of the Enclosure
the mean values
of mo are shown by dashes., the experimental v4ues by dots* This
work represents a',
continuation of a previous article by V. N. Karev A* P. Klyucharevp
and V. He
12 1962')o Orige art* hast 1
Medyanik (Zavodskaya laboratoriya,, XXVIIII iZ9
Jigure and 1 tablea
ASSOCIATION: Fiziko-teklinicheskiy institut Akademii naukUkr33F,
qb~sicctethnic&l
Institute$ Academy.of Sciencesp Ukz6SR)
SUEMITTEDi 00 DATE AOQt 20APr,64 MCM M
SUB OODEt MM NO RV SM .001 OMER: 001
ard 213\
17 7-
Card 313
Fig. 1. Dietribution of metal in the foilst Is copper; 17. elec-
trolytic ironj Ills connercial lead-tinj IV* chromium produced by
the decomposition of chmium iodidej Vo electrolytic chromiumu
SOV/124-57-5-5703
Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr
5, p 88 (USSA)
AUTHOR: Bondarl, A. G.
TITLE: Xn Experi;~e_ntal Investigation of the Transfer of
Heat to a Boiling
Sodium- hydroxide Solution Circulating Freely in a Vertical
Boiler
Tube of an Industrial Evaporator (Eksperimentallnoye
issledovaniye
teplootdachi kipyashchim rastvorom yedkogo natra v
vertikallnoy
trube pri yestestvennoy tsirkulyatsii)
PERIODICAL: Izv. Kiyevsk. politekhn. in-ta, 1956, Vol 17, pp
83-97
ABSTRACT: Results are given of investigations conducted to
determine the rate
of heat transfer to a boiling solution of sodium hydroxide
(NaOH)
circulating freely in a vertical tube. The purpose of the
investiga-
tions was twofold: 1) To obtain data needed to permit
reliable
design calculations of the heating surfaces of industrial
evaporators
to be used for concentration of NaOH solutions, and 2) to
determine
the most favorable conditions of evaporator operation.
Included is
the schematic diagram of a specially designed experimental
appara-
tus. A detailed description is given of the measuring
methods used
Card 1/3 and of the methods employed in the analysis of the
experimental data.
SOV/124-57-5-5703
An Experimental Investigation of the Transfer of Heat to a
Boiling (cont.)
It is noted, in particular, that the specific lient flux q
was determined from the
amount of condensate that had formed on the respective,
surfaces of the individual
sections of the vertical boiler tube, allowance being made,
of course, for the heat
loss due to dehydration. The author states that in the
respective determinations
made of the coefficient of the heat transfer to the boiling
NaOH solution cL2 in tile
two cases of the minimal (q = 1,700 kcal/m2hr) and the
maximal (q=74,200 kcal/
m2hr) thermal load the relative error that occurred ranged
from 5 to' 81/o. For the
purpose of determining the optimum hydrodynamic boiling
conditions for any given
concentration of the NaOH solution a series of experiment s
was conducted wherein
in each experiment of the series the apparent level of
the.bol-T-t-hg solution in the
preoxidized-steel vertical boiler tube was different. The
tube usee for these
experiments was 32/38 mm in diameter and 1,500 mm long.'
Under the given sets
of conditions further experiments were conducted for the
threefold purpose of-
1) Determining the values of the coefficient aZ of the heat
transfer to the boiling
NaOH solution for different concentrations of the solution;
Z) working out the
relationship between cL2 and q; and 3) determining the
physical properties of
5, 10, and 200/o NaOH solutions at secondary-vapor pressures
of I at, and deter-
mining the physical properties of 15, 30, and 401/9 NaOH
solutions at secondary-
vapor pressures ranging from 0.62 to 0.76 kg/CM2. The author
states that,
Card 2/3 a
SOV/1 24-57-5-5703
An Experimental Investigation of the Tra!,n -West to a Boiling
(cont.)
..Afe-r of
within the ranges of variation exhibited by the parameters in
-the experiments
described, the ratio of a2 to q (which ratio is designated in
the paper as n) varies
between 0.564 and 0.620. These results are in agreement with
the findings of '
other authors. In particular, it is confirmed that the
coefficient of the heat trans-
fer to water is greater than the coefficient of heat transfer
to an NaOH solution
when the heat flux is the same in both cases. The coefficient
of heat transfer to an
NaOH solution decreases as the solution's concentration
increases. Using a special
traveling thermocouple, the author is able to show that when a
boiling NaOH solu-
tion circulates freely in a relatively narrow vertical tube
the solution becomes
superheated to a significantly higher degree (by as much as -
ZOC more) than when
it boils in a spacious container. It is pointed out that,
under optimum conditions,
the highest temperature exhibited by the solution will be
encountered, as a rule, in
the inlet portion of the vertical boiler tube. Bibliography: 3
references.
G. Ye. Khudyakov
Card 3/3
BONPARI, A.Ge, knud.teldin.nauk; MIRGORODSKIY. V.T.,
inzh.
Estimntlon of the nmount of mnterial needed for annomiR
synthesis.
Izv. XPI 20:161-173 157. (MM 110)
(Ammonia)
BOUAL." .. Yand.tekhn.nauk-, MIRGORODSKIY, V.T., inzh.
Cnlculntion of the amount of material necesspry for
preliminary
entnlysia in the manufacture of ammonin. lzv. KPI
20:174-185
'57. (Ammonia) (Cntalysis) (MIRA 11:1)
CRER TLISKIT, Iosif Illich, prof., doktor tekhn.nauk;
BW SARI
Grigo a, dotsent, kand.tekhn.nauk; GATATSKIY, Boris
Anto-
novich. dotsent, kand,takhn.nauk; OMDINSKATA, 13arra
Abramovna,
dotsent, kand.tokhn.nauk; LADIUT. Rostislav
Yakovlevich, kand.
takhzi.nauk; TAbUNAUO, Turly Kartirlyevioh,
kand.tekhn.nauk;
MUGORODEKIY. Tasi1iy Tisofeyevich, insh.; STABBIKOV,
Y.N.,
prof., doktor tokhnonaukp retsenzent; TURM, P*Ta., red,
(Kachiner7 and equipsient of chemical Industries:
principles of
theory and design] Mashiny I apparaty khimichealdkh
proinvodstv-,
o9novy teorii I rascheta. Pod red.
I.I.Chernobyllskoeo...Koakwa.
Gos.uauchno-tekhn.izd-vo imehinostroit.lit-ry, 1959.
462 p*
(KIRA 13:2)
(Chemical industri6si-Equipment and supplios) I
CHERVOBYLISKIY, losif Illich., doktor tekbn, nauk,,
prof.; BONDARI, Alla
Grigorlyevnap kando tekhn. nauk, dots.; GAYEVSM
-F6r-I`s)Ef-o-N6---
nauk,, dote.j GORODINMWA, Sara Abrazovna.,
kand. tekhn. nauk.. dots.; LADIYLT, Roatislav
Yakovlevich, kand.
tekhn. nauk; TANANAYKO, YuriyMartirlyevich, kand. tekhn.
nauk, dots,;
MIRGORODSKIY, Vasiliy Timofeyevicb., inzb.; z'URER,
P.Ya., red.; GOMO-
STAYPOLISKAYA, M.S.,, tekhn. red.
[macbinery and apparatus for the chemical industries;
principles of
theory and.designj Mash~M ij&pparaty khimicheakikh
proizvodstv; os-
novy teorii i rasebeta. Izd,'2., ispr. i dop. Moskva,
Mashgiz, 1961.
1+91 P. (MIELA 14: 10)
(Chemical industries-Equipment axxl supplies)
CIIER140BYLISKIY, Iosif Illich, doktor tekhn. nauk,
prof.; DONDARI,
Alla GrigRLY-e=, kand. tekhn. nauk, dots.;
GAit-VSKIII,
Boris Antonovich, kand. tekhn. nauk dots.;
GNATOVSKIY,
lvamvtobp - kpnd. A440, f d9t&*j-.GC"jNSKAYA,
V*41 ~ - - .6 1s.; IADIYEV, Rostislav
Sara Abramovna, kand. tekhn. nauk,
Yakovlevich, kand. tekhn. nauk; TANANAYKO, Yurjy
Marterlyevich,
kand. tekhn. nauk, dots.; MIRGORODSKIY, Vasiliy
Timofeyevich,
inzh.; STABNIKOV, V.N., doktor tekhn. nauk, prof.,
retsenzent;
SOROKAY M.S., red.; GORNOSTAYPOLISKAYA, M.S., tekhn.
red.
(Machinery and apparatus of the chemical
industrylMashiny i ap-
paraty khimicheskoi promyshlennosti. Pod red.
I.I.Ghernob yll-
skogo. Moskva, Mashgiz, 1962. 521 p. (MIRA 16:2)
(Chemical engineering-Equipment mid supplies)
BARANOVA,N.M.' )ASS, Yu.B.; BOGDANOVICH, V.V.;
VILIGOS, Ye.F.;
GRAWDANTSEV, I.I.; GRYAZNOV, V.I.; GUTOROVA,
Ye.D.;
KABRIZON, V.M.; V;OLYAVKOO G.I.; MOROKHOVSKAYA,
M.S.;
NOSOVSKlY, M.F.; ROMODANOVA, M.P.; SOSNOV, A.A.;
SHEVCHENK03, Ye.S.; USENKO, I.S.; Prinimali
uchastiye:
BONDARIg A.G.) inzh.-gidrogeolog; SACHENKO-SAKUN,
V.M.,
St. t -po'g7V_,' SIMUKHINA, A.V.y st.
tekhnik-geolog;
STOPIK, M.A., st. tekhnik-geolog; RFUTOVSKAYA,
E.A.,
tekhnik; BETEKHTIN, A.G., akademik, glav.
red.ldeceased]
[Nikopoll manganese-ore basin] Nikopollskii
margantsevo-
rudnyi bassein. Moskva, lzd-vo "Nedra," 1964. 534
p.
(MIRA 17%6)
Institut geologicheskikh nauk AN Ukr.SSR (for
Baranova, Molyavko, Romodanova, Usenko). 2.
Nauchno-
iseledo-vatellskiy institut geologii
Dnepropetrovskogo
gosudarstvennogo universiteta (for Gryaznov,
Nosovskiy).
3. Trest "Dneprogeologiyall (for Bogdanovich,
Kabrizon).
4. Trest "Kiyevf-ologiyall (for Bass). 5. Trest
"Nikopoll-
Marganets" (for Villgos, Grazhdantsevp Sosnov).
BOYKOTA, A.I. [translator]; BOWAII, A.I. [translator];
YUNO, Y.G.
Ltran lator]; IMCH64" "%'.*Wf-tiransl&tor1; NIZOGOSYAN,
U.S.
(tran:lator]; TORMY, N.A..,professor. rodaktor;
ZAKHARIYEVSIUT,
V.A., redaktor: OGAWZHAIOVA, N.A., redaktor; DUMBRZ,
I.Ta., tekh-
utchaskly redaktar
[Physical chemistry of silicates; a collection of
articles.
TriAel&tel from the &Lglish and German] Fisicheakaia
Irbi-iia, milikatov;
sb9inik statei. Pereyod a anglitakogo i nemetskogo
A.I.Bolkovol L dr.
Po& ired. N.A.Toropova. Moskva, !zd-vo inostrannoi
lit-ry, 1956. 302 p.
(Sillcates) (KIRA 9:7)
B.'llTL-'%N0V, Ya,V, [dsceasrdli BOVD-J~l ~.J.
conirate pippt. Erjerg. fi,~rvoi. no.4-l'
35-39 16-4. O/WU 1701)
BONDARIJ, A.M.; MUSKY, R, Ya,; KOSTYUK, V.N.;
MOSITOVICH, F.B.
Studying the conditions of the explosive
decomposition of allene.
Khim. prom. 41 no, 12:923-924 D 165. (MIRA 191l)
SOSNOVSKIY, Yu.A., inzh.; BONDARI, A.N., inzb.
Regulated electrical feedback. Fnerg. i olektrotekh
prom.
no.3tl4-16 Jl-S 165. (kRA 18:9)
MWAII I, AsIli; -SARKISTAN. S.S., Insh.-mekhanik.
Fulfilling the resolutions of the JUne PlODUM Of the
Central
Comaittee of the CPSU. Put' put.khoz. n0-9:2-3 S '59.
(1411U 12:12)
1. Naeballnik Darnitskoy distanteii puti,
Tugo-Zapudnoy
dorogi (for Boudarl).
(Kiev Province-Pailroads)
ADAMEWO. A.I., kand.takhn.nauk; YAKOVLEV, V.S.,
Inzh.; BOIMARI, A.11.;
SARKISYAN, S.S., inzh.
Multistep phase converter for the track electric
devices. Zhel.
dor.tranap. 42 no.2:74-75 v 16o. (MIRA 13:5)
1. Nachallnik Darnitskoy distantaii puti, Kiyev (for
Bondar').
(Electric current converters)
(Railroads-Electric equipment)
BONDAY.? I ~ A
-LlIL
Our experience in the reorganization of the
structure of the
division. Put' i Imt.khoz. 5 no.lL24-25 N *61.
(MIRA .14:22)
1. Nachal"nik Darnitskoy distantsii put-.1, st.
Darnitsa., Yugo-
Zapadnoy dorogi..
(Railroads.-Management)
BONDARIp A.N.; SHILIN, A.M.-
Standard maintenance work during long "intervals."
"Put' i put.khoz.
8 no.3:24-25 '64. (MIRA 17:3)
1. Nachal'nik Darnitskoy distantsil ptiti Yugo-Zapadnoy
dorogi (for
Bondarl). 2. Nachallnik teklinichaskogo otdela sluzhby
puti~ stan-
tsiya Darnits, Yugo-Zapadnoy dorogi (for Shilin).