SCIENTIFIC ABSTRACT BORISOV, A. Y. - BORISOV, B. I.
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Reaction of free radicals ...
27487
S/06 61/000/009/002/014
B117YB101
khimii, 5, 1171 (1935)) or by means of the Grignard reaction. It was
observed that in the reaction RHgR' + CCl 4 -->*RHgCl + RICCl3 the free
radical CC1* always combines in higher yield with a radical further left
3
in the following sequence than with one further right:
2,4,6-(CH 3)3 C6H 2P a-C 10H 71 p-CH3 C6H40 O-CH3C6H4' M-CH3C6H4' C6H5' C2H5'
C4H91 C6 H5CH21 C6 H11. If the radicals are further apart in this sequence,
the reaction is frequently nearly quantitative. For a chain reaction with
radical mechanism the order found shows a certain similarity to the
sequence set up by M. S. Kharasch (J. Amer. Chem. Soc., 1-8, 3130 (1926);
ibid.,JA, 674 (1932)) for the heterolytic reaction. The course of the
chain reaction may be represented as follows:
(C6H5COO)2 --.)'c6H5* + C6H 5C00' + CC2
C6 H; + Ccl4-4 C6H5C1 + Ccl;
CCl; + RHgR' R11g* + RI CC13
RHg' + CC14-,.%- RHgC1 + Ccl etc.
Card 2
27487
S/062/61/000/009/002/014
Reaction of free radicals ... B117/B101
The course of the reaction is therefore determined by
RHgR1 + CCl* RICC1 + RHg*
3 3
since in the further course of the reaction the REg radical only
participates the regeneration of the chloromethyl radical. The sequence
established on the basis of decreasing proton affinity of the radicals
corresponds to one based on decreasing affinity of the radicals towards
the free radical CCl 3* There are I table and 14 references: 5 Soviet-
bloc and 9 non-Soviet-bloc. The two most recent references to English-
language publications read as follows: R. E. Dessy, G. F. Reynolds,
Jin Young-Kim, J. Amer. Chem. Soc. 81, 2683 (1959); S. Winstein, T. G.
Traylor, J. Amer. Chem. Soc. J1, 3~41 (1955)-
ASSOCIATION: Institut elementoorgan icheskikh soyedineniy Ak-ademii nauk
SSSR (Institute of Elemental Organic.Compounds of the
Academy of Sciences USSR)
SUBMITTED- March 11, 1961
Card
'"I V11 F#
N We MM W,
~~O
NESMEYANOV, A.N.; BORISOV A.Ye.; SAVEL'YEVA, I.S.
Kinetics of decomposition of symmetrical organomercury compounds.
Izv. AN SSSR Otd.khim.nauk no.12:2241-2242 D 161. (MIRA 14:11)
1. Institut elementoorganicheskikh soyedineniy AN SSSR.
(Mercury organic compounds) (Chemical reaction, Rate of)
S/020/6!/136/ooi/027/037
//3 o o (IIS-Ij B004/BO96
AUTHORS: Borisov, A. Ye., Novikova, N. V., and Chumayevskiy, N. A.
TITLE: Infrared Absorptionspectra of Organometallic Compounds of
the Ethylene Series. On Cis- and T.-Rns.-configurations of
Propylene-antimony Ccmpo"a:ids (SbIII and SbV)
PERIODICAL: Dokl1ady Akademii nauk SSSR, 1961, Vol. 136, No.
pp. 129-132
TEXT: The present paper is an account in investigations of the infrared
abscrption spectra of cia- and trans-i-someril- propylene compounds with
tri- and pentavalent antimony. Syntheuis of these substan-,es was describedil,
an eariLex pape---(Ref. 1). Investigation was made with a 80K(- M-3 (VIKS
11-3) spectrometer and an NaCi prism within the range of 700-1800 cm"', and
with an VlKC-12 (IKS-12) spectrometer and KBt prism within 400-7100 cm`~
Figs~ 1-3 show the spectra of
SbBr ; (CH of the ---=responding
(CE 3~ 3 2 SbBr,;
E
Card 1/4
infrared Absorptionspectra of Organcmetall-JI-o S/j02Y611/1 36/M/027/03:7
Compounds of the Ethylene Series. On C~ii- and B004 B056
j
Txans--configur~tions Df Propylene-antimOny
Compounds (SbIII an! SbV
chlorides and iol'~Aes, moreover of (CH 5C, 3Sb; (CHY~ ~)3Sb;
H A H
(CH 3r C)5Sb; (CH 3r Y) Sb; (CH SbBr; CH r,-- Y) -
5 3x~ 6) 4 31 ASbBr; and, fom
H H H '
,;Ompa-rison, sket:hreo- of CH 3-X-6-Br and 0113 --q~~-Br spectra. Frequencies
H
are listed in Table 1. A11 trans- corif igu. rat i on s exhibit intense absorption
at 945--970 -m-1'. The frequencies of the CH--g::,oup uneven OS04 lla"ors are
at 97i cm-1 for tri- and pentapropenyl antimony, at 945 cm- I fol'-diha-logen
derivati-xes, and at 90'7 cm-I for tetrapropeny! stilbonium bromide. The
6rans~-configurations are distingui shed by bands at 718-726 em-I wh-3ch do
not exi.~3t in the ~~--s----onfiguration. The 920-940 cm-; absorption bands of
the cis-configuiation are considerably less I~ntense than the 945-970 cM-1
absorptiQn bands of the trans-configuration. Only ~:is-tr-ipropenyl antimony
and cis-pentapropeny-'. antimony turned out to have bands -a-L 970 cm-1, bu-~
their intensity amounts to only one third of the tl-rans-configura"-Jon
Card 2/4
Infrared Absorptionspeotra of Organometallio S/020/61/136/001/027/037
Compounds of the-Ethylene Series. On Cis- and B00413056
Trans-configurations of Propylene-antimony
Compounds (SbIII and SbV)
intensity. The same holds for propenylbromide: Intensity of the 930 cm-1
band of the cis-configuration only one third of the trans-configuration
band. The bands at 655-660 cm-1 of the cis-configuration.are 2 - 2.5 times
more intense than those of the trans-configuration. Cis-configurations of
the halogen derivatives and of tetrapropenyl stilboniumbromide showed
intense bands at 452 cm-1 which were not observed in the case of trans-
configurations and cis- and trans-tri- and pentapropenyl antimony. The
plane vibrations at the double bonds are more intense at 1200 cm-1 in the
case of trans-isomers and at 1300 cm-1 in the case of cis-isomers.
A. N. Nesmeyanov is mentioned in the paper. The authors thank Academician
I. V. Obreimov for his interest in the investigation, and R. A. isayeva
and Ye. D. Vlasov for their collaboration. There are 3 figures, 2 tables ,
and 8 references: 5 Soviet, 1 US, and 2 British.
ASSOCIATION: Institut element o organi che ekik h soyedineniy Akademii nauk
SSSR (Institute of Elemental Organic Com-Tbunds of the
Academy of Sciences USSR)
Card 3/4
Infrared Absorptionspectra of Organometallic S/020/61/136/001/027/037
Compounds of the Ethylene Series..On Cis- and B004/BO56
Trans-configurilions of Propylene-antimony
Compounds (SbI and SbV)
PRESENTED:.* July 18, 1960, by I. V. Obreimov, Academician
SUBMITTED: June 16, 196o
Legend to table 1. Frequencies of the Sb and Sb7 propenyls. 1) Cis,
2) trans, 3) boiling point, 4) melting.'point.
(CH.CH Me
(CHtCSHb
ffjH)' (CH.51bi
S ;.'~H).- (C~fH
bj _CH).-
. (CH,CH
-Sb -CH).
Br (CH.CH- CH). Sb
L
Tpk.. 4)
v
'I i TP3 IC-.
'C',
W
IM
T.
! 11"C'
'
,
T! C..
l
~
. Mini,
6
. nji
.1)
.
T
A
I
KIM
T
-
1 82 15 -r uaA
*
1
IGO-
T
BG*
8 6-
36
!
4
I 122
' 140-
1 . ;1
45-4ii' T. XHU41 T. K"nd/
-5
70
J. -46
74 t62/4m, 5- 1
1 123 J43
T
M
I
a
e.
goo I Goo I R r, 1607 1604, 005 tGOO 150& tGOO 160 1600 IWO
1
438 1442
W6
1440
443
1 1 10
41
425
14 1
1445
1432
144
0
1437
137S 1377 1385 1376 13S2 13771 MIS i35 13s0 1367 13SO 1375
1320 320
I 1308 1306 1305 1366 1297 1302 1305 130. 1321 1 08
3
IJ93 IM 1201 1191 1100 Ift
I 6
M I'll I'll 1=5 1200 D90
Ills it 15 - Itoo 105 1100 11 IJ5 foo 1185 ills 1110
toGO 1047 1075 1045 105 1065 1048 3062 ioca
1030 1040 M12 10111 10.0 1639 100 Ion 1010
070 971 W 957 939 V51 07 945 V60
N4 OG7
%5 970
92o 971
WS
01-10 935 02S 025 025
710
"'o
665 124 - 718 7u0 72G - 729-
660
G55
6215 667 "3 655 660 660 650 663 660 02
d
C
/ Oto 455 G20
'
' UO Glo 615 W5 625 (w
ar
4
4
---- ---- --- 1 4 5
D014SKOY, Aleksandr Vasillyevichj BASHEW, Vaevolod Vladimirovich;
BORISOV, A.Ya.,, red.; VASILIYEV, Yu.A.) red. izd-va;
OV`K,-'1-.k.-,-Fekbn. red.
[Industrial application of electron-beam heating; transcript
of a lecture]Primenenie elektronno-luchevogo nagreva v pro-
myshlennosti; stenogram- lektsii. Leningrad, 1962. 32 p.
(MIRA 15:9)
(Electron beams) (Metallurgy)
NESMANOV., A.H.; BORISOV., A.Ye.; BORISOVA, A.I.
Alkenyl derivatives of arsenic. Izv.Ali SSSR.Otd.khim.nauk
no.7-.1199-UG3 Jl 162. WIRA 15:7)
1. Insti-tut'elementoorganicheskikh soyedineniy AN SSSR.
(Arsenic organic compounds) (Unsaturated compounds)
S/062/62/000/007/ 1000/013
B117/B180
AUTHORS: Borisov, A. Ye., Abramova, A. W., and Nesmeyanov, A. N.
TITLE; Propenyl stereoisomers of phosphorus
PERIOLICALt Akademiya nauk SSSR. Izvestiya. Otdeleniye khimicheskikh
naukp no.. 7, 1962, 1256 - 1261
TEXT: The reaction of ois and trans propenyl lithium with phosphorus
trichloride yielded :tri(cis)- and tri(trans propenyl)phosphine, and the
reaction of isopropenyl lithium with phosphorus trichloride yielded
tri(isopropenyl)phosphine. The resulting phosphorus derivatives and
methyl-iodide yieldedthe corresponding phosphonium. kodides R P-CH I and
3 3
together with the sublimate and ~-ohloro-vinyl mercury chloride formed
QomDlex R3P-HgCl 2-typi compounds. The configurations of the synthesized
compounds were determined from their infrared spectra. Compounds with
intense absorption lines of non-planar vibrations of the CH groups with a
double'bond in the 960 973 cm ~j range and with C-C bond frequencies of
Card 1/2
S/062/62/000/007/008/013
Propenyl stereoisomers of phosphorus B117/B180
-1
-1630 am were assumed to be trans isomers. Compounds with intense ab-'
sorption lines of non-planar vibrations of the CH group in the
917 - 930 cm- 1 range and with C-C bond frequencies of 1615 am- 1 were
assumed to have cis configurations. 12 hrs heating at 60 - 1050C or
ultraviolet irradiation had no effect on the trans isomer, *but'v4v/o of
the cis isomer was converted into trans isomers by the-irradiation.
Attempts to. synthesize R P-type propenyl compounds of phosphorus failed.
5
There is 1 table.
ASSOCIAT.IONx Institut elementoorganicheakikh soyedineniy Akademii naulc
-he Acade4
SSSR (Institute of Elemental OrSanio Compounds of 41,
of Sciences USSR)
SUBMITTEDt February 2, 1962
Card 2/2
S/062/63/000/00,1/024/025
B101/B186
AUTHORSt Nesmeyanov, A. N., Borisov, A; Ye. anti Novikova, N. V.
TITLEs Diphenyl stibine
PERIODICAL: Akademiya nauk SSSR. Izvestiya. Otdeleniye khimicheskikh
nauk, no. 1, 1963, 194
TEXT: Reaction of diphenyl antimony chloride with lithium aluminum hydride
in anhydrous ether under an atmosphere of argon, produced the hitherto un-
known diphenyl stibine, (C 6H5)2 SbH, in 500/'o yield, a colorless liquid, b.pe
115-120'C/0.5 mm Hg, n 20 1.6882, which quickly-decomposes in air with for-
D
mation of a precipitate.
ASSOCIATION:- Institut elemento6rg-6hicheskikh soyedineniy Akademii nauk SSSR
(Institute of Elemental Organic Compounds of the Academy of
Sciences USSR)
SUBMITTED; November 27, 19062
Card 1/1
S/020/63/148/006/015/023
B117/B186
AUTHORS: Nesmeyanov, A. N., Academician, Borisov, A. Ye., NovikovaN.V.,
Chumayevskiyj N. A.
tITLFi Infia-red absorption spectra of stereo-isomers of propenyl-
lithium
'PERIODICAL: Akademiya nauk SSSR. Doklady, v. 148, no. 6, 1963, 1312 1313
TEXTt Infra-red absorption spectra of cis- and trans-isomers of propenyl-
lithium were studied more accurately-in comparison with the results ob~-
tained ( in a 20% ether-solution) earl-ier (DAN, 119, 712 (1958)) by the
same authors and with those of N. L. Allinger and R. B. Hermann (J. Org.
Chem., 26, 1040 (T961)). In order to eliminate the misleading frequencies
by which the ether is characterized, the spectra mentioned were taken both
in ether solution and in paraffin oil. A comparison of the spectra taken
in these media showed the following frequencies to be consistent:
1 1
1625 cm- s 1540--0m- and 1300 cm- in spectra of the ois-isomer; 1635 cm-
-1
1550 cm in the spectrum of the trans-isomer. Hence the higher frequencies
A in the infra-red spectrum of propenyllithium of the C-C oscillations
''L.-Gard
S/020/63/148/006/015/023
Infra-red absorption spectra of... B117/B186
-1 -1
(1635 cm and 1545 cm ) correspond to the trans-isomer, and the lower
-isomer. Thus,..
frequencies (1625 cm and 1535 cm correspond to the cis
the infra-red absorption spectra gave results that were in agreement with
those obtained by Allinger and Hermann. The conclusions drawn in the above
paper from optical and chemical data as to the configuration of cis- and
trans-isomers are still valid.
!SSOCIATION: Institut-elementoorganicheskikh soyedineniy Akademii nauk SSSR
.(Institute of Elemental Organic Compounds of the Academy of
Sciences USSR)
SUBMITTEDs November 26, 1962
LCard 2/2
BORISOV, A.Ye.; NOVIKOVA, N.V.; NESMYANOV, A#N.
Triallylatibine. Izv.AN SSSR.Ser.khim. no.811506-1507 Ag 163.
(MIRA 16:9)
1. Institut elementoorganichoskikh soyedineniy AN SSSR.
(Stibine)
~ OSIPOVAp M.A.; NESMEYANOV, A.N.
Alkenyl compounds of bismuth. Izv.AN SSSR.Ser.khim. no.8:1507-
1509 Ag 163. (MIRA 16-9)
1. Institut elementoorganicheskikh soyedineniy AN SSSR.
(Bismuth organic compounds)
'A -'. .
~ru i,.'Ila. idTill"
!!n,1
hAlogen-coritaining organic and inorgani,- f,.cllp,)unj3,
AN 3SSR.Ser.khim. no. My 1-154. (IMI.-(A
1. '.1l.stit-lit ---jve:Lrienly AN
NE,,SI4E,YANOV, A.11., akademik; BORIS.OV,,A,3e,.; SAVELIYEVA, I.S.
Acidolysis kinetics of symmetrical aromatic n.nd aliphatic com-
pounds of mercury. Dokl. AN SSSR 155 no. 3 603-606 Mr 164.
(MIRA 17:5)
1. Inst-itut elementoorganicheskikh so-yedineniy AN SSSR.
Yt VA , A. N.-, il,ii" IF !S
vwv,-,ien~!c~ of the betf-rolyti, c r~3actir~nq c-I trip.,,tny~,-i7
no. 5-.-W41 ')43
1, IL -t
N
-AccEssim NR-. Ap4o37245 8/0062/64/WD/OD5/094110943
''AMOR: Borisov,, A. Yet; Abramove, A. N.; Parnes) Z. N.
TITIZ: Proof-of betero3ytic reaction mechanism of triphenyltin hydride
SOURCE: M SSSR. Izv. Seriya kh'-4cheskaya no. 5.# 1964, 941-943
TOPIC TAGS: triphenyltin hydride, reaction mechanism, heterolytic reaction mech-
aniamp tropyl bromide, triphenyltin bromide, cycloheptatriene, triphenyltin chlor-
ide., bis triphenyltin sulfate, free radical mechanism
;'ABSTRACT: A heterolvtic reaction mechanism for the substitution of the hydrogen
:in orga~otia hydrides was proposed and confirming reactions were run. Tropyl
bromide reacted vith triphenyltin hydride at room temperature in absolute alcobol
'ar give a 98% yield of triphanyltin bromide and cycloheptatrione:
A dioxane to
+ (CSHJ)JS"Bf'
Card
ACCESSIM n: AP405t245
Triphenyltin hydride reacted vith aqueous HC1 ~o give 90 yield of triphenyltin
chloride and hydrogen,, aukwith 50% H2S04 to g;ve a 90% yield of ~"is -triphenyltin
;!sulfate and go hydrogen. The author questions the freee radical mechanism indi-
....1'eated by H. Go Kuivila (J. Amere Chem. Soc. 84Y 3585 (1962)). Orig. art. has; 3~
equations.
OASSOCIATICH: Inatitut elemeAtoorganicheskilch soyedineniy Akademii nauk SSSR
i'(Institute of Organometallia Compoundsp Academy of Sciences SSSR)
sumaTTEDt. 19Kov63 ENCL: 00
SUB CODE t IC w rw sav: oo4 OTM: OOT
Cor~--2/Z
NESMEYANOV, A.N.; BORISOV A.Ye.; NOVIKOVA, N.V.
Trialkenyldialkyl and trialkeny1diaryl compounds of antimony.
Izv. AN SSSR Ser.-khim. no.7:1197-1202 Jl 164.
(MIRA 17:8)
1. Institut elementoorganicheskikh soyedineniy AN SSSR.
77
p-4 tAEDI~~(a)/ASDU)3
SSD)
~O -6 '~6 /'00*'667h'2dVT_
ACCESSION'MR: AP40428'10 S 0 .2 4 0
AUTHOR- Resme-vanov. Ai N orlsov., Ai Ye.; Novikova. N. V.
MI 0 _~V-
4%0
TITLE: PentaB1keDL1_cRMourkds of antimony
SOURCV. AN SSSR. Izvestiya, Seriya khtmicheakaya, no. 7, 1964, 1202-1209
TOPIC TAGS: orga noantimony: com und, pehtaalkenylantimony, pentacovalent
To
antimony compound,, synthesis, Pentalsopropenylantimony, pentavinylantimony,
the rm6l stability,. halogentation, - bromination, iodination, trialkenylantimonydi-
bromide pentanaphthylantlmoi~y., exchange reaction
ABSTRA CT: Cis- p lithivmi-tr 11ithium, isopropenyllithi
pro enyl ans-propeny um
and vinylmagnesium bromide were reacted with, SbC15 to form the pentacovalent
antimony.compounds: pert~a-(Cis..-propenyl).-ifitimony(I), penta(trang-propenyl)
propenylantimony(M) and'pentavinylantimany(M. These
antimony (H), pentalso
products were characteriztd and their behavior toward heat, various halides
and exchange reaction was investigated. Beating I to 101C or r1 to 160C, pro-
Card -1/3
L.I.. 4~
ACCESSION.NR: AP4042870
moted 011U _f rinatibhof the tri(cis or trans-propenyl) antimony,
gas ev u on and o
"ri(cis- -p ~penyl)ant!
which was: then. brominated, to ~ th6'~Z ro mony-dibromide (V) or:
-prope I)aniiihony Idib, mide: (VI).~ -Reaction of I or Il with an. equiva-
(trans my to
ave e tit A
lent -amount of lodino 9 e Ta cis- or rans-propenyl)stibonium iodide.
All four initial. compounds reacted with:2 moles of Iodine to form the correspond-7
R~6action of the, tetraalkertylstibonium bromides with
ing periodides: ROW 12-
iodine gave the compounds: cis-* or trans- (CH 3CH =CH)4SbB r. 12, CH2=C(CH3) 4
SbBr. 12 and (CH2=CH)4SbBr. 12. 'The cis-isomer is the most stable; the other
compounds decomposed liberating iodine. The tetraalkenylstibonium iodides
reacted with bromihe: R4Sb1 + Br2 -R3SbBr2 + RI to form V, V1, triiisopro-
penylantimony dibromide (VU) and trivin.Ylantiniony dibromide WHI). The same
products were obtained by reaCtiori-Lof the tetrapropentylstibonium bromide with
bromine. R SbBr + Brq R3SbBr2 + RBr. Reaction of 1, 11 of M with
4
TlBr3 resulted In the formation of complex compounds of the type R4Sb. TlBr4
and TlBr. The dibromide compounds V, V1, VII and VIII underwent exchange
reaction -with XF to form the correWnding trialkenylantimony difluorides.
Reactlon between trinaphthalantimony dibromide and qa ithiu Ito form
pentanAphthylantiniony was not -successful., Orig. art. has: 8 equati ns.
Card?
13
K*JSLITSKIY, A.B.; BABEY, YtI.I.;
MIZETSKIYi V.I,.; K)RISOV, A,Ya.
Effect of nonmetallle inclusions and metal density :),i
fatigue strength of ele-tric spig and vacunm rerpelle(i ~.:Ihlh] 5
steel. Stall '25 no.2.151-153 F 165.
CllbW,AYEVSfaY, N.A.; BORISOV, A.Ye.
Cis- arl-trans---nfigurations of propenyl compounds of As Hp
am! Dok:L. AN SSSR 161 no.2.36C-369 Mr 165.
'UIRA 18-4)
1. Inatitut elementoorganicheskikh soyedineni.y AN SSSR. Sulynitted
Septemter 1.4, 1964.
WIT17 FI~113L ~,-- lt~-,
BORISOV-, A.Ye.; SAW-LIYEVA, I.S.; SERDYUK, S.R.
Synthesis of some organomercury compounds. Izv. AN SSSH. Ser. khim.
no.5;924-925 165. (MIRA 18:5)
1. Institut elementoorganicheskikh soyedinenly AN SSSR.
WSHEYANOV, I.N.,, aiadean; BPRISOVt I.Te.; NOVIKOVAo N.V.
Goometrie isawro of prmanim alkenyl compounds. Dokl. AN SSSR
165 no.2s333-336 N 165. (Min 18-11)
1. Inatitut elwnntoorganichookikh noyedinaniy AN SSSR,,
24(7), 23(5) SOV/'TO-27-1-21/30'
AUTHORS: Borisov, A. Yu., Tumerman, L. As
TITLE: A New Type of Fluorometer (Novyy tip fluorometra)
PERIODICAL: Izvestiya Akademii nauk SSSR Seriya fizicheskLya, 195,",
Vol 23, ITr 1, pp 97 - 101 (U;-,R)
ABSTRACT: The phase method ar fluorometric method,io based upon the
following principle: Measurements are carried out of the
phase shift between exciting and emitted liCht. In the
exponential extinction law the constant of thio law ( the
average duration of extinction) can be let..---rmined up to an
order of magnitude of 10-swPor this purpose it is, however,
necessary that frequency be modii1ated by the order of
10 megacycles. In principle, the phace fluorometer has
remained the same since it was developed in 1941, with the
exception that for the oscillograph tube, i~.--hich had been
used as zero indicator of the -,)ha--e shift, a phase detector
with an insertion measuring device was substituted. In the
course of further development the following tasks remained
to be performed; Increase of sensitivity, stability -nd
Card 1/2 reliability of the device, and providing for the posDibility
A New Type of Fluorometer
SOV 2 2 17
of casily passing from one frequency to another. In
connection with the last-mentionod reouirciients' the pre.-
viously used heterodyne was replaced by nn el(~ctromechani-
cal frequency transformer, and general frequency shift
was replaced by the multiplier FEU. The old basic scheme
and the new one are illustrated by fi.-.Ures. Further possi-
bilities of development are being envisaged. It is intended,
within wide limits, to provide for a porsibility of re-
gulating amplifier resistance in vier of the f,.ct that
current measurements up to 10-10 A are carried out, and
the electromagnetic frequency tran,,:for-er is to be replaced
by two generators which are independent of each other
and are stabilized by means of quartz. There are 3 fissures
and 15 references, 8 of which are soviet.
Card 2/2
85344
9,
L 2 301 -196113001) S/120/60/000/005/012/051
..1134( E192/E382
AUTHOR: Borisov, A.Yu.
TITLE: Signal Frequency Chan in by means of a Photoelectron
.Multipller25
PERIODICAL: Pribory i tekhnika eksperimenta, 1960, No. 5,
pp. 60 - 62
TEXT: The frequency changing is based on the following
principle. The basic circuit of a photomultiplier is shown
in Fig. 1. Two dynodes j) and 'a are connected
n-l n+1
across the terminals of a potentiometer 2R . The intermediate
dynode 2) is connected to the slider of the potentiometer.
- rL-, ~ . -
A constant light flux is now applied to the photomultiplier
and its anode current I is measured as a function of the
voltage applied to the dynode an ; this voltagetan be
varied by the potentiometer from zero to twice V k where
Vk is the normal interstage voltage. The output current
characteristic as a function of the dynode voltage is in the
Card 1/4
85344
S/120/60/000/005/012/051
E192/E382
Signal Frequency Changing by means of a Photoelectron
Multiplier
form shown in Fig. 2. The sloping part of this.,;,;T-haracteristic,
centred around the point a , can be approximated by a straight
line. The current voltage characteristic can therefore be
expressed by
I = AS(V - V
0
where A is a constant eoefficie~t,
S is the light flux, and
V0is the voltage corresponding to the intersection
point shown in Fig. 2.
It is now assumed that the light flux is modulated with a
frequency W in accordance with:
S = S (I + m Cos WO (2)
0
where m is the modulation index.
If now the voltage applied to the dynode varies sinusoidally
according to
Card 2/4
85344
S/120/60/000/005/012/051
B192/E382
Signal Frequency Changing by means of a Photoelectron
Multiplier
V = Voa Cos Wrt * Va (3)
from Eq.(l) it follows that the output current will be in the
form of Eq. (4). From this it is seen that the output current
contains combination frequencies w � * 0 It is clear that
the frequency changing can be effected in this way and that a
selective receiver tuned to the intermediate frequency w - wl-
will reject the oscillator signal Wr . The frequency
changing can also be obtained under different operating
conditions. Thus. the operating point can be shifted to the
maximum of the current-voltage characteristic (Fig. 2). In
this case the frequency of the heterodyne voltage should be
twice as low as in the previous case since, due to the symmetry
of the curve, the heterodyne will modulate the multiplier at
the double frequency. The above frequency changer-can be used
at frequencies up to several Me/a. The instrument was employed
Card 3/4
85344
S/120/60/000/005/012/051
E192/E382
Signal Frequency Changing by means of a Photoelectron
in a fluorescence meter at the Physics Institute of the
AS USSR which operated at 8 Me/s. The author expresses his
gratitude to L.A. Tumerman for suggesting the subject.
There are 3 figures and 5 references: 4 Soviet and 1 English.
ASSOCIATI!ON: Fizicheskiy institut AN SSSR
(Phveics Institute of the AS USSR)
SUBMITTED& July 15, 1959
Card 4/4
81920
S/051/60/009/01/022/031
~Z*, 6.510 3201/B691
AUTHORs Rax1mAALL.
TITLI-. A Highl, Sensitive Modulation PhotgEat!gr 1'6
PMODICALt Optika I spektrosicoplya, 1960, Vol 9, Nr 1, pp 115-116 (USSR)
ABSTRACT-. The author describes a photometGAin which the d.c. signal of the
photomultiplier is transformied(by a weak: a.c. voltage applied to
one of the dynodes) into an i.e. signal of double the applied
frequency. This makes it possible to separate out the useful
signal from the leakage currents through the insulation separatiag
the photamultiplier electrodes. The modulated photamultiplier
signal is fed to a tmed resonance amplifier. The sensitivity of
photometers with the signal modulation described above is one order
of magnitude greater than that of photometers with d.e. amplifierst
it in possible to detect down to 50 photoelectrons per second from
the photomultiplier cathode. There are 3 figures and 2 Soviet
references.
SUENITTIDs January 18, 1960
Card 1/1
BORISOVp A.Yu.
Measuring the passage of a signal through a photoelectronic amplifier.
Prib. i tekh. eksp. 8 no.3sl87-188 My-Je 163. (MIRA 16:9)
1. Institut, radiatsionnoy i fiziko-khimicheskoy biologii AN SSSR.
(Pulse techniques (Electronics))
I
DORISOV9 A.YL,.; MKHOVA, Ye.N.
Opectrophotometer for recording Blight absorption differences.
Prib. i tekh. eksp. 9 no.2:145-147 Yx-Ap'64. (MIRA 17:5)
1. Institut radiatsionnoy i fiziko-khimicheskoy biologii AN SSSR.
ACCESSION NR: AP4033136 S/0120/.6-1,/000/002/0145/0147
AUTHOR: Borisov, A. Yu..' Mokhova, Ye. N.
TITLE: Spectrophotometer for recording small differences in absorption
SOURCE- Pribory* i tekhnika eksperimenta, no. 2, 1964, 145-147
TOPIC TAGS: spectrophotometer, monochromator, ZMR-3 monochromator,-
differential spectrophotometer, differential absorption spectrophotometer
ABSTRACT: A differential spectrophotometer was developed on*the basis of the
Soviet-make ZMR-3 monochromator, after B. Chancels ideas (Rev. Scient. -
Instrum. , 1951, 2,2, no. 8, 619, and 1959, 30, no. 8, 732. Science, 1954, 120,
767). The spectrophotometer is intended for measuring absorption and,diffVsion,
of light in two specimens within the 350-700-millimicron range. The error a!
spectrum recording is * (0. 5-1) x 10Yoptical-density unit, at maximum
ensitivity, with a alit spectral width of 20-30 and iL time constant of about
i.ACCESSION NR: AP40331'36
I sec. The instrument was reported before the Conference of Diffusion-Media
Optics, Minsk, Feb 62., Orig. art. has: 3 figures.
ASSOCIATION: Institut radiatsionnoy i fiziko-khimicheakoy biologii AN SSSR
(Institute of Radiation and Physico-Chernical Biology, AN SSSR)
ISUBMITTED: OSJul6Z ATD PRESSi 3047 ENCL: 00
725 VIOUDE: OP NO REF SOV: 003 OTHER.* 002
BORISOV, B.
New machine. Mashinostroitell no.1:25 Ja 165.
(I-IT71
-.-. - , , - I
rkl~,TITSCI,T, P.
1 nstnl "at ions in constriacticr. r
Voll. 21 ilo. 10,111-y
STRCIT ST-1
Sofiya,
so: EIst Accessions, 'Vc-I. 5, no.
BCIPISC,V, 6-.
The lvlay How tbe Speed of boo Code Signals ner 'I'linxite Has Been ~chj.cved.
"PA010" Ministry of Con"Mullicati-1-11, #9:10: S-aA 5'5
SAVONOV, Alsksandr Petrovich; BORISOV, B., redaktor; VORONIN, K.P.,
tekhnicheskiy rsd&ktor------:---'-- -- -
[Heating system problems] Zadachnik po teplovyis setiam. Moskva.
Goo. energ. izd-vop 1956. 191 p. (MIRA 9:9)
(Heat engineering)
SHR,iBSilTNYH,I. dots.; CBKMSOV-TSY;3IZOV, A.,starshly prepodavatell; MILYUKOV,K.;
prepodavatell; BORISOV, B.,inzh.-ekoaomist; LAPINA, N.
'Economics of transportation by seag by S.F.Koriakia, I.L.Bernahtein,
W.F.3911inskii. Reviewed by I. Shrabobtein and others. Mor.flot 20
no.10:46-48 0 160. (MIRA 13:10)
1. Odesakiy institat inzhenerov morskogo flota (for Shrabshteyn,
Cherksaov-TSybizov, Kilyukov). 2. llachallnik Planovogo otdela
Baltiyakogo parokhodstva (for Borisov). 3. Nacballnik Planovo-
ekonomicheskogo otdela Kanonerskovo zavoda (for Lapiua).
(shipping)
(roriakinj S.F.) (Dernahtein, I.L..) (311inakii, W.F.)
BCRISOV, B.
Construct he3icopter models. Txyl, rod. 13 no.9.-25-26 S 162.
(MIRA 15:10)
(Helicopters--Models)
BORISOV; B.
Welding of plastice. Tekhomal. 29 n0.11:8 161. (MIRA U,:11)
-(P1avtiC#--Wi1#ing)
(UtO~t vmb~-Im~histrial applications)
62/000/005/001/001
D408IX301
AUTHORS: Borisov, B.,.and Sergeyev, A., Scientific Associat-,s
_Y_~adcmiya nauk SSSR (Acadetay of Sciences USSR)
TITLE-: The biosphere of a.spaceship cabin
PERIODICAL: Nauka i zhizn', no. 5, 19621 39-41
TEXT. The autnors argue tLat s-paceships on long-duration
Cn
trips will have to organize a closc-d I:fo cvcle in the crew accom-
.3 CUltjVatCo. 4-0 sz-,ipply oxygen, absorb
modation where PIL11-j-, -1 1 '.)o
carbon dioxide a Z .,.ood ane. W Plants in turn will
feed on human, x~. 1 m, -. 6. m 4 n c r a 1 x. a t;L o.(:I:r which are put back
v;ir cties of pla 'its `or purpose would be
into the soil. Good i -
ordinary and swect i)otatoes, whose vC-c`_-atio-_ provide consid-
erable amounts of o>rzycren. Chlorella and 0_CC,L1:GeSMUS would be good
for air purification and waste conv-~rsion int-o food. By varying
the temperature, lighting and nutrient products one can condition
such alLfae to accumulate mainly proteins or mainly fats, the possi-
Card 1/2
SIO 2.5 /(-12/'000/00.5/001/001
The biosphere of a spaceship cabin D408/:)~01
ble variation being as follows: protein 8.7-138.27o; fats 4.5-85.67o;
carbohydrates 5.7-37.50/6. For a balanced diet, however, animal pro-
ducts would also be needed. Those animals would have to be sturdy
(to survive the stresses of space fliglit), low oxygen constmiers
with a low carbon dioxide output, fast maturi---;', high meat y'""elders
and capable o-7 feedi-,,,:f. or, plants and aiiii-.,,al iv- -. The best choice
wouIC prooa*_;I - *)e ra-b'Ats and poultry, espec.Li, y since these lend
themselve. . automat-'c "orced" feeding. Plwa-I.."Con would be a
valuable aadi-tional source of food; dried plankton would yield 77-
fat; 59','~ protein, 20"' carbohydrate and 147o ash and chitin. The
L L 1"
sPaceship, of the future will probably -also carry fish. Research
is now in progress on the best varieties of fish and considerable
attention is being paid to-labyrinthine species which grow to a
large size, are good breeders and draw their oxygen direct from the
surrounding air outside the tank. Soma scientists also recommend
goldfish for the purpose.
Card 2/2
R,Lyibv, M~'i 15. , 131-1AI-YiN IZ ~ - G.J.1-11"'JIEW. , ", .
--- . I .- 5 - 0
Electrin -auntacc nf~tir~g r,-' a-ank3he--s~ Avz. 473
no.10:~7 0 061). .1~ i0i
ABDEYEV, YU.M.; IMONOVA,, E.G.
Measurement of the period of electric pulses. Izm.tekh. no.5:
47-48 My 162. (IURA 15:6)
(Pulse techniques (Electronics))
SELIVERSTOV, Yu.P.; PORISOV,, AA,
4
Traces of ancient permafrost in the Zaysan Depression. Inform.sbor.
VSEGEI no.52s85-92 '62. (KRA 15111)
(Za.vsan Depression-Frozen ground)
0 -
.1
BORISOV, B.A.
Methodology of evntrast arthography. Vast. rent. i rad. 39 no.4:
70 il-Ag 164. (KRA 1817)
1. Kislovodakaya gorodskaya, bollnitsa. No.l.
P.,)Ru~ov, BoAs
- ! 4. 1 1, -
of th's J;t~,.-el 01.6ta!~aoas and 'a. La ogene-Ijeo gene in
~"le ""- -3a-'l Nf'rebsiotl'o Trul- 'J-0:GE,f 4,- ' (,
-Y 11 1) 1 163. (MIFU 11:6)
R-IRISOVY B.~.
A case r~f multiple progres3ive mycnilla c;~Eifjcans. V-,a I..
rent. 1 rad. 38 no.6i6l-62 N-U; 16-1. (MIRA 17:6)
1. lz Kislovodskoy gorc(i!3)cvy b(-,*Lln4 tsy Nc.l ",rach
S.!:. Ko~!aurlkbin~o
11
irrho; Bopisllyl, B*A,e# I=h&
BDRISOVp B.A.-
Use of I.ntravenous choledochography in Jaundice.
rad. 40 no.4:64-65 Jl-Ag 165.
18:9)
1. Kislovodskaya gorodskaya bollnitsa Mr. 1 (glavnyy vrach
S.F. Kosourikhin).
Vest. rent. j
(MIRA
f,
I
RITUR B.A.
Planniric norma in road vonstruction, Avt, d(,r. 28 nc,jlz2o-j3
D 165. 19;l)
--=- 7-_77t-N'- I - - - __ - - __ - - __ ___
R, AP6016321
AUTHOR: Borisov, B. D. (Novosibirsk); Senin, A. G. (Novosibirsk)
ORG: none
TITIX: On the synthesis of a measurement system for the classification of random pro-
cesses
SOURCE: Avtometriya, no. 5, 1965, 12-16
:C TAGS: random process, random noise signal, wideband communication
ABSTRACT: A method is proposed for the synthesis of an analog measurement system
which can be used to classify random processes. Each channel of the system consists o
two linear filters and a square law detector. In the classification problem consider-
ed, a signal, observed in the time interval [0-T] is a realization of one of n random
processes n',(t) Q=1,2,...,n) and it is required to establish the nature of the pro-
cess itself from the accepted realization x(t). %Problems of this type are encountered
in medical and technical diagnostics when random signals must be detected in the pre-
sence of background noise or when speech signals must be recognized automatically. In
the proposed system, the input signals are measured and transformed and the accepted
realization is used to evaluate the correlation function and to compare it with the
correlation function of the process to be classified when the latter correlation funa-
UDC: 621.391
card 1/2
M
ACC NR:--AP6016321
tion is known a priori. The solution is obtained to favor the process whose correla-
,lion function is best approximated by the evaluation. The proposed method of classi-
fication is suitable both for wideband and narrow band signals. However, in the lat-,
ter case the operation is carried out on a complex correlation function and on quadra
ic terms of the process. Orig. art. has: 1 figure, 15 formulas. IT
CODE: 13/ SUBM DATE: 12Apr65/
ORIG REF: 003/ OTH REF: 002
j Card 2/2
ACC NN: W6023385 SOORC), CODM UR/000/65/000/000/0153/0157
AUTHOR: Wri-.ov B. D. 01ovosibirsk); Karysha~'. Ye. N. (Novosibirsk); kqqqn~
1. (Novosi`lMr-Mi_~~_
ORG: none
TITLE: System for data inn~_into a special purpose computer for statistical inves-
tigations
SOURCE. Vacsovuznaya ~~onferentsiya_ pq -avtomat-ichen-komu. kontrolyu i m etodam elektri-
clicsxi'Kh iz-inerenly. 5th, Novosibirsk, 1963. Avtomaticheskiy-kontroll i me-Cody clektri-
chezkikh izmareniy; trudy konferentsii. t. I: Metody clektricheskikh izmereniy. Tsi-
frovyye izmeritcllnyyc pribory. Elementy izmeritellnykh sistem (Automatic control and
1electrical measuring techniques; transactions of the conference. v. 1: Electrical mea-
suring techniques. Digital measuring instruments. Elements of measuring systems.
Novosibirsk, Izd-vo Nauka, 1965, 153-157
TOPIC TAGS: special purpose computer, computer input unit, analog digital computer
system, computer technology, analog digital conversion, graphic data processing
ABSTRACT: Analog-to-digital converters for transforming signals and graphic data in-
to digital, cccputer-oriented form for input into special purpose computers are de-
scribed. The A/D voltage converter is a fast acting unit capable of 15 thousand con-
L __IUOUZ-D7
ACC NR: AT6023385
versions per second, with an error of 7%. The input is a random varying dc voltage
of 0 to 300 mV. The output in binary form is recorded on magnetic tape by a tape-re-
corder, an integral part of this converter. The tape is then used for feeding data
into the coimputer. The input voltage is successively compared to internal binary
scaled reference voltages, until a balance condition is achieved. The resultant 'Lour-
bit word is serially read out of a register by a commutator and recorded on magnetic
-'ape. Natural binary code is used. To speed up the*operation, the most significant
bit is read out as soon as the balance for it occurs, while the next significant bit
ir. being processed. The tape has two tracks: one for binary data, the other for syn-
chronizing timing pulses, recorded simultaneously with the signal information. The
recording density is 2 x 15 imp/mm at a tape speed of 6 m/sec. The graph scanner is I
based on a row of photodiodes, arranged across the width of a paper chart or film con-
taining the line graph to be digitized. The chart or film are illuminated from one
side, and the light is registered by the photodiodes on the opposite side. A camu-
I tator scans the photodiodes, and produces a count of ordinate increments (each incre-
ment corresponding to the space between two adjacent photodiodes) starting from a
reference line to the intersect with the graph line. This count is converted into bi-
I nary zo-,n and fed directly into the computer. Provisions to prevent errors where the
graph line appears between two sensors at the instant of sampling and errors due to
steep graph slopes are incorporated. Foin-bit binary words are used to represent the
ordinate valuer. in 16 discrete levels. The Vidicon graph scanner adapted "or a single!
Card 2/3
ACC NIZ: AT00"3385
L he scanning --pot with
line :;cin ;s imed in*tlii-- converter. The internee' of t
h .)~C of the iCrigf,,cjG a gite to ae,,-.jjt pulses fron. a generator to a hinar-j
-.0 CLI
1:01'", rcDmsenting graph ordinates is then fed directly into the computer. Orig. art.
has: 3 riRurcs.
ZININ., I.P.,-.BDRISCYV, B.F.
Determination of the osity of well cuttings. Trudy
.591-54 162.
Giprovostoknef-ti no :4 (MIRA 16:8)
(Kuybyshev Province-Borings.-Analysis)
(Porosity)
BORISOV, B.F.; KALERIq N.B.
Possibility of determining the content of bound water in
producing layers based on well cutt~hgs. Trudy Giprovostoknefti
no.5:55-57 162. (MIRA 16:8)
(Borings-Analysis) (Oil field brines)
- 7-7 -- - - - - -
~. , , - " I ~'.'
BORISOV, B. G.
"Study of Hydraulic Resistance in Horizontal Pipelines
Carrying a Two-Phase Mixture.": Min Higher Education USSR., Moscow
Order of Lenin Power Inst imeni V. M. Molotov, Moscow, 1955.
(Dissertation of the Degree of Candiate in Technical Sciences)
SO: M-955., 16 Feb 56
BOMSOV, B.G., dots.kand.tekhn.nauk
Resulto of the-dicientific and technical conference at the Ivanovo Power
Engineering Institut% izv.vy9.ucheb.zav.)9In9rg.' to.8:134-135 ~.
1 58. 4 A/ 04IRA 11:11
(Power engineering-Gongrsases)
BORISOV, B.G., kand. telrtin. nauk
PxPerimental determination. of relative phase-voloci ties of water-
stream mixtures passing through horizontal pipes. Izv. vys, uoheb,
zav,-,.energ. 2 no.10:66-75 0 '59. - (MMA 1) 13)
l.Ivanovski7 energetioheskiy institut iment V.I. Isenina. Proistavlana
kafedroy teplofikats i i Cidroener"tilci.
t7luid dynamics)
BORISOV, 3.G.. kand.takhn.nauk
Studying hydraulic resistances In horizontal pipelines in the
case of the movement of steam aud water mixtures. Izv.vys.
r-aheb.zav.; energ, 3 no.4:116,-126 Ap 160.
(MIRA 13:6)
1. Ivanovskly energetichaskiy, institut imeni T.I.Lenina.
Predetavlens. ks6fedroy teplofikatsii.
(Pipe-Hydrodynamios)
BORISOV B.G 9 inzh.
For the builders of natural-gas pipelines. Izobr.i rats. no.2:
5-6 F 62. (MIRA 150)
1. Tekhnicheskoye upravleniye Glavnogo upravleniya gazovoy
promyshlennosti SSSR.
(Pipelines-Technological innovations)
TROSHINP P.V., kard.tekhn.nauk, dotsent; i'EDYTOV, M.P., inzh.; SOKOLOVp
Yu.P., inah.;-B-QR-ISO.V.,,J3..G., kund.tekhn.nauk; MALKOV, Yu.*.., inzh.,
SOROKLN, A.F., doktor tekhn.nauk,, prof. [deceased]; ZUYEV A*I&j
kand.t ekhn.nauk; KOPTELOV, Yuo*X., kand.tekhn.nvvk; YERSEOV, Yu.G.*,*
inzjA.- BROVKIN L.A., kand.teklin.rtauk
2 . dotsent; POTOSKMV, M.P.,
k tekhn.nauk., dotsent; PYATACHKOV, B.I.,,kand.teklm.nauk., do4w;
RORANGVA, T.,M., kand.tekhn.nauk2 dotsent
Abstracts of completed res ch works contracted for the national
economy. Sbor. nauch.trud.tri no.1144.14DW-Q& 162.
(MIRA 16:9)
AMIYAN, V.A., red.; BORISOV,-B.G, red.; IGREVSKIY, V.I., red.;
KREMS, N.K., red.; MATSKIN, L.A.0 red.; SAAKOV, M.A., red.;
SILANTIYEV, I.A., red.; KAYESHKOVA, S.M., ved. red.;
STAROSTINA, L.D., tekhn. red.
[Creative activity of inventers and efficiency promoters in
the oil and gas industries] Tvorchestvo izobretatelei i ra-
tsionalizatorov neftianoi i gazovoi promyeblennosti. Pod ob-
shchei red. V.A.Amiiana. Moskva, Dostoptekhizdat, 1963. 190 P.
(MIRA 16:6)
1. Voesoyuznoys qt~shchestvo izobretateley i ratsionalizatorov.
(Petrole= industry-Technologic&l innovations)
BORI~~OV 0SK-MV, IMJ%, kand.tekdin.nauk; RUM-t'.11011A)
kand.ttkHn.miuk; POT
kand.tekffn.nauk; TROSHIII, P.V., kand.telchn.nuk. TISEL.!,BRO
T.M.)
V.Ye., kand,tekhn.nauk; DANICH-K, Yc.A., kand.tekhn.nauk; IUMAGD1,
U
N.P., kand.teklm. nauk; MEYEV, V.P. (Ioshkar-OL-)
Training of engineers for work in industrial heat and AcetricpWAW sYS-
tems. Prom.energ., 18 no.8:35-41 Ag 163. (MIR-A, 16:9)
1. Ivanovskiy enargatichaskiy institut imeni V.I.Lenina. (for Borisov,
Potoskuyev, Romanovr~, Troshin). 2. To-askiy politakhnichoskiy institut
(for TSelebrovskiy). 3. Dneprol)atrovLil-.i,-,--BWAallmrgiiehaski3r in- v
stitut (forDodahek). 4. GorIkovskiv "Lznvne-rrm-sLroitelInyy institut
(for Kal7agiu).-o
(power eA5tUWiU8-,-rWucation and train" g)-
89568
10-6120 S/055J61/000/001/005/005
14,7600 C1111C222
AUTHORt __Bori
jov, B.I.
TITLEt Determination of the profile of least resistance for a
ring wing
PERIODICALi Moscow. Universitet. Vestnik. Seriya I. Matematika, mekhani-
ka, no.1, 1961, 62-65
TEXT: The author considers a thin asymmetrical ring in supersonic flow
(velocity VO). After the introduction of the dimensionless variable
X
M27, r = r
r 0
0
the linearized equation for the velocity potential of Rakhmatulin
2 2,f ~2y 1
32 -.2
Z) r
changes to
a2T a 2
M -- +
20 X2 r2
(2)
Card 1/ 5
89568
S/055J61/000/001/005/005
Determination of the profile... C1II/C222
The boundary conditions for r - I read
'V (x) on the outer surface,
o o Pe (3)
7 V Pi(x) on the inner surface;
77 0 0
for r - I+x it holds P- 0. Here p,(x) and Pi(x) are the angles between
the axis ox and the tangents at the outer and inner surfaces.
The solution is sought with the arrangement
x
r v r"C"d Z7 (outbr problem)
0 of Pe (x- Z;) L6 ( I
0x (4)
tP - 'F 0v0 jPj(x- -C) If2(r, 'C)d-C-(inn'er problem)
0
According to the method of characteristics the author obtains
Card 2/5
89568
!-/055/61/000/001/005/005
3)etermination of the profile... C1II/C222
. 2
AP10,x) - -1+0-4195X-0.0795X
V2(1,x) - 1+0.209x+0.65lx 2P
and fxoi~ the Bernoulli equation for the pressure
p v
Po- 0 0
x
(5)
(6)
Card 3/5
89568
S/055/61/000/001/005/005
Determination of the profile... C111/C222
If the symmetric profile of the figure I is givent where Ae--I%(X)-r:'(X)
then for the drag it -follows
V.23 1 x
Q - 2 -71 0 0 (X) f ~ (X- S ) d r, dx
dic
0
where -C)- T, (1,1C). If 8(x) y' (x) then Q is proportional
.to the integral
x
Y, 2 (x) To+y, (x) Y, ( Z; (x- C) d CIdx, (7)
0
wherexyo -1~'(O). The author seeks the.profile of least resistance by
demanding the minimum of (7) for a given thickness 2S of the profile.
.He states that the sought profile is a rhombus formed by four sine
curves. If Y(X) - YO (x) for 04-%,Z-x
z (x) for x x 1L I
0 .1
Card 4/5
89568
S/055/61/000/001/005/005
Determination of the profile... C111/C222
is the profile equation and y(x,) then it is found
y 0 , k1 sin kx, zo k1 sin k(l-x), -1 - 2
sin -2 sin -2
where k - 0-85- In the limit case 77 --> co there follows the well-known
solution of the plane problem 0
S - S
Yo = - X, zo 0 i
2
There are 2 figures.
ASSOCIATION;Kafedra volnovoy i gazovoy dinamiki (Chair of Wave and Gas
Dynamics)
SUBMITTED: September 8, 1959 LX
Card 5/5
BORISOVA. B I., -inzh,
r-_- _0 ~
Durability of concrete elements acted upon by weak ni'ric acid.
Promo stroi. 40 no.2:38-/+l 162. (MMA 15:7)
(Concrete products) (Nitric acid)
DnISOV, B.I., inzh.
Providing for the durability Of structural elements of shops in
which sulfuric -acid is liberated, Prom. stroi. 40 [i.e. 411
no.6-.35-39 Je 163o (MIRA 16:10)
BORISOV9 E. 1. (Aspirant)
"An Investigation of the Thermal Conditions in the Yormation of Glass Strip by Gontinu-
ous Rolling." Gand Teah Sol, All-Union Sci-Res Inst of Glass, Ministry of the Build-
ing Katerials Industry USSR, 21 Doe 54. (VK. 9 Dee 34)
Survey of Scientific and Technical Dissertations Defended at USSR Higher Sducational
Institutions (12)
Sot SU14 No. 556, 24 Jun 53
ZYGINSON, Lev Solononovich, prof. [deceased]; BELOBORODOY.A. Tat'Yans
IvanoTna;JLWI0T -BoriLRpnovich; FROLOYA, Telena Gavrilovna;
SOKOLOV, IS.' red.1zd-va; OILRDSON, F.G., tekhn.red.
[Thermal principles of glass manufacture] Termicheskie oanovy
formovaniia stekla. Pod red. L.S.Eigensona. Moskva, Gos.izd-vo
lit-ry po stroit., arkhIt. i stroit.materialam, 1959. 267 p.
(MIRA 13:2)
(Glass furnaces)
BREKHOVSKIKHp S.M.; BORISOV9 B.I.
4jees-facing materials. Stek. i ker. 18 no. 1:5-8 Ja-161-
(NM 14:1)
(Glass construction)
BQRISQY,-B-I.; IGNATOVA, V.A.; KABANOV, N.P.; TERMAN, V.B.; SHUMILD4A, V.I.;
NAZAROVA, N.A.; OKALINIK, G.N.; POPOV, 14.1.
Improving the quality of the surface of sheet glass by electric
heating of the air in the chamber under the vertical drawing
machinery. Stek. i ker. 19 no.2:11-1.4 F '62. MRA 15:3)
(Glass furnaces)
SOLINOV, F.G.1 BORISOV, B.I.- TERMAN, V.B,
Design of the working end of a tank for drawing sheet glass
without using floaters (Pennvernon method). Stek. i ker. 19
no.634-9 Je 62. (MIRA 15:7)
(Glass furnaces)
BORISOV I, B.I.
"Prefabricated windows" by K.T.Bondarev. Reviewed by B.I.
Borisov. Stek.i ker. 19 no.4:48 Ap 162. O'ERA 15,8)
(Windows) (Bondarev, K.T.)
MOSHCHANSKIYY N.A., doktor tekhn. nauk; BORISOV, B.I., inzh.
Oxidizing corrosion of building materials. Stroi. mat. 10
no.5:6-8 W 164. (KERA 17:9)
4-
.. .... . ....
O~.6
I
T
AP50C.
-,..squares.- and -:differentiating _Ah6,authar--,derIvjEfh :the- equatioh
7 -'s
D
-A 4400)tsp
ore 4r2b)
h
sks ,A-W -d
ster
5 diinmeter and., thi linqua--yere zz a om p6l~e sins
' ~
A %
1:, *ith.-and, uithbuVtih:~~ddlii4ie
'an Vera- Cod Au'l-8:40 3.c acid bath and. in
-1gater ~ a. room mvslmii~ ad 5_,
-a -,ait additive*'- Table
are given sbowLng -tl~~e:obnerved:-tbiit.~-par=oter values, Th~3 tests yielded tha
diffusion coefficient of p PH wa Tests
olyester renin -1 im- ter and 10% HNO
.
ohowed that 610% H!)S,D, penbtiatii,-_,, 6-1- _6 i-h arts has: I figur e
-IATION;,: non%..
SUMTTEM
SUB CODE t MIN
vmi,,-,~
-.1w, 002..
IST -SOV.,
001
.
cc
anti coatings.
At~';r
In
BORISOV, B.I.
Liquid glass as a binding material in various compositions.
Zhur. prikl. khim. 38 no.3005-510 Mr 165. (MIRA 18:11)
1. Submitted March 5, 1964.
BORIS(JV* B,I.
Quantitative determinaticai of the degree of interaction between
liquid-phase oxidizing agents and anticorrosive synthetic materials.
Zav. lab. 31 no.9:1096-1099 165. (M M 18:10)
1. Nauchno-issledovatellskiy inatitut betona I zhelezzobetona.
L z-
-1 ! ~' k '-" " / t i T (,n t )/ET iI J1 P It C ) - - - 2'i / jl)/~"
ACC NRt AP6007973 SOURCE GODEI UR/0191/66/OWY003/0061/0063
AUTHCR; Borisov, B. I.; MoshchanskiZ._ N. A.
011Gt none
TITI-Es Diffusion of corrosive/liquids through polymerio materials
7-~
SOURGEt Plastichdskiya massy, no* 3, 1966p 61-63
TOPIC TAGSs chemical stability, corrosion resistance, epoxy plastic polyisobutylene
I I
ABSTRAM The diffusion of corrosive liquids through the epoxy resirs sD-6 with and N
without a filler) and polyisobutylene were studied to determine the chemical stability
of these polymers. The diffusion coefficient (D) was determined using the sorption
method and'tha equations
Cra2/r'G-0
"4W
where 1=thickness of a sample (in cm), )L=a coefficient determined bf the equations
i YJ Wmax:
[Card- 1/2 UDGs 678o643142'5,019.34+678.,742.4.019.34
ACC NR: AP6007973
"where IWI= gain in weight, (in ;6) of the sample during a specific time tL (in hr)., and
Umax;=gain in weight (in%) of the sample in the equilibrium state, which Is defined
'~y the maximal saturation of the sample with the liquid. Discs from polyners 55 mm
diameter and 3 mm thick were submerged in a liquid and the increase in Viair weight
was determined. For ED-6 without a filler D*107 em2-/seo was 0.012y 0.028,, and 0,016,
and for ED-6 with a filler (diabase powder) it was 0.017, 0 038p 0.039 for water,
15 25% H004, respectively. For water D was 8.1;H 0~2/860 for poly-
01'n
iso!'burtylene rhe increased permeability for 15% HNC~ and 25% H2SO4 In ED--6 with a
filler was explained by the presence of an increased number of channels formed between
the particles of the filler and at the cohtaej points between the filler and the reain.'
With 50% H2S04v D was 0.0095o167 and 0,058*107 cm2/aeo for ED-6 with and without the
filler# respeotivelye Apparently, the saturation of the samples with 50% H2S?4 wan
accompanied by a chemical-reaction andt.duato it9'a partial decompositioa of the
material.. the resin.,.and'the-filler. OrIg. sA*- bass 1 fig. and 2 tables.
SUB CODE: 07,-il)SUBM DANEs none/.'-MIG13S?s*1. 002/-:7~OM RUs 001
Card 2/2 qj,-
--r 02.452--67 1r7EW1tt)jSTI___1JF~0) - - - -
ACC NR: -AP6008270 SOURCE CODE: UR/0080/66/039/00,!i'0338/0344
AUTHOR: Borisov, B. I.
ORG: Scie ntific-Research Institute of Concrete and Reinforced Concrete Ofaucbno-is- ~3
sledova-te-lTs-My institut betona i zhelezobetona)
TITLE: Classification of building materials according to their degree of Elusceptibi-
lity to various kinds of oxidizing corl"osion
SOURCE: Zhurnal prikladnoy khimii, v. 39, no. 2, 1966, 338-344
TOPIC TAGS: corrosion rate, corrosion resistance, construction material )oK1,Dr17'.-C1A)
ABSTRACT: The purpose of this work is to review in a systematic way the various types~
of oxidation processes that occur in building materials. From the point of view of
oxidizing corrosion ail building materials can be separated in the following manner:
I. Non-oxidizable materials (ionic-physical corrision) and II. Oxidizable materials
(A. Oxidation involving oxygen. 1. Self-oxidation and self-reduction. B. Oxidation
in the absence of oxygen). Materials of Class I include natural and artificial mine-
rals, cement, brick, and ceramics. Interaction of these materials with liquid oxidants
usually result in physical changes such as leaching, volume increase or in chemical
changes such as formation of soluble salts and double decomposition react~'.ons. Ozone,
oxygen, gaseous fluorine and chlorine do not react with these materials under dry con-
1/4 UDC: 691+620.193
ACC NR: AP6000270
ditions but do react in the presence of moisture. Materials of Class II can be divid-
ed into three groups: (1) inorganic materials (elemental sulfur, carbon and its vari-
ous forms, pigments), (2) metals, (3) organic materials (polymers, organometallics).
Except for metals, the mechanism of corrosive destruction of these materials has been
little studied. Oxidations of Class II materials which involve oxygen can lead to the
formation of water as in the sulfonation of polymers. Table 1 shows that the strong-
est oxidizing media are the acid oxidants in the liquid phase in high concentration.
Chromic acid is also an oxidant of this type. Another type of oxidation involves self
-oxidation and self-reduction as in the action of caustic potash on sulfur cement:
S +.6k+(OH)- + 2S = (S03)" + 3H20 + 6k+ + 2S"
The sulfur is partially oxidized to sulfate and partially reduced to sulfide. Organic
materials can undergo similar reactions such as the disproportionation of an aldehyde
in the presence of KOH to give one molecule of alcohol and one molecule of acid for
every two molecules of aldehyde consumed. An example of oxidizing corrosion not in-
volving oxygen is chlorination and other reactions with halogens. However, these re-
actions are of less significance than those involving oxygen. Orig. art. has: 2 tables
9 formulas.
Card 2/4