SCIENTIFIC ABSTRACT KUZNETSOV, A. R. - KUZNETSOV, A. V.
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CIA-RDP86-00513R000928110018-1
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RIF
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S
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
S/032/61/027/002/022/026
B124/B201
AUTHORSs Arbuzov, G. A., Kuznetsov, A. R., and Pavlov, N. N.
TITLEt Apparatus for the titration of dark-colored solutions
L'O
PERIODICALt Zavodskaya, laboratoriya, v. 27, no. 2, 1961, 225-226
TEXT: A special apparatus (see Fig.) has been worked out for those cases
in which it is difficult to establish exactly the color changes in the
point of equivalence in the presence of intensely colored admixtures or
when the color change of the indicator in the end point of reaction in not
uffioiently clear. A certain volume of the analyzed, dark-colored
olution is poured into the 250-500 ml round and flat-bottom flask 1 which
:
rests upon the electromagnetic mixer 2. The titration takes place by
intensive mixingo and, if necessary, also by heat treatment. A parallel
beam from light source 3 is passed through the titrated solution, and
forms a colored spot 5 on the screen 4. The end point of titration is
determined by the clear change of the color spot, which is by far better
observable compared with ordinary illumination. Contrasts can be
accentuated in the color change of the spot by way of color shifting,whioh
Card 1/3
NO
S/032/61/027/002/022/026
Apparatus for the... B124/B201
in brought about by placing an appropriate light filter 6 in the path of
the light beam. Thus, e.g., it is suitable to use a blue filter for the
transition from red to yellow, whereby the color changes from violet to
green, which is visually easier to detect. When the color change of the
apot is masked by admixtures, color shifting can be attained either by
illuminating the spot on the screen by a secondary light source or by
means of a colored screen. In the latter case, the color of the filter
or of the screen is complementary to the color of the masking admixtures.
If, e.g., the admixtures are blue, filter or screen must be yellow. No
light from other light sources must hit the screen. The procedures
described were applied by the authors to the trilonometric determination
of trivalent ohromium (Hefei), The Trilon excess in the titration of
chromium is bound by a nickel salt, whose excess is titrated with the
&me Trilon B solution in the presence of murexide. The color turns from
ellow over oranget red, and red-violet to violet. The color change of
;
the indicator in masked by the dark-blue color of the chromium complex.
When using the apparatus and a blue light filter, the color of the spot
on the white screen turns from yellow over red to pale blue. The latter
color change is abrupt, which fact simplifies the visual determination
Card 2/3
S/032/61/027/002/022/026
Apparatus for the..~
B124[B201
of the end point of'reaotiong and reduoeethe error of the determination.
The point' of ~ equivalence exactly corresponds to thts transition. When
using the devioe.desoribed it was possible to reduce the determination
error from 5 to about 0.5%. The chromium content in the sample was
.32.3 mg, and the-Trilon consumption was 5-96 ml- *[Abstracter's notes This to
is a full translatioij. . There are I figures 1 tab-lop and 1 Soviet-bloo
reference.
ASSOCIATIONs Moskovskiy takhnologicheakiy institut legkoy promyshlennosti
(Moscow Technological Institute of the Light Industry)
A
Cd
Card-3/3
FAVLOVI N. N.,, kand. tekhn. nauki RUMOVp A. R. 0 inzh.
Nov metbod of trilonometrte dotemination of chroMm
Isv. vyo. uchab. sav#.l teldr; log. prom. no.4,46-48 162.
(MIRA 15: 10)
1. Moskovskiy takhnologiabashy institut legkoy prMshlemetle
Rekammidovana Wedroy neorganichemkoy i analitiaheskoy kb4zli.
(chr,mdun--Analyeigs)
CHESUNOV, V.M.; NAUMOV, V.N.QaZNET OV A.R.; ARBUZOV, G.A.
,_S .L~
Apparatus for gas chromatography in the artificial leather industry.
Ko2h.-abuv.prom, 5 no.10v25-29 0 163. (KRA M4)
pr,
'v?
L 12688-63 ------ tBDS- JOD- -..!
7:
ACCEESSION M AP3001599 3/OUS/63/OW/005/0051/0053
.AUTHOR: Kuznet*ov, A. He G. A.; Yczhova, T. I.
Arbuzov.
!TITLE: Quantitative determinationkf metals in SKS-30-111atex fill--s I
;SOURCE: Kauchuk i rezina, no* 5p 19631 51-53
ITOPIC TAGS: latex, film, metal, polyvalent metal, oloic acid
1ABSTRACT: A new method is proposed, bazed on the ready solubility of SKS-30-1
!latex films in boiling oleic acid. Freshly cast films containing calcium chloride
I
!or magnesium chloride take only 10-15 minutes for complete dissolution, while
14-month old Mms, cast on barium chloride or chromium chloride, require 2-3 hours.
iAfter dilution with chlorobenzol, the solution is extracted with boiling, 3N
;hydrochloric acid. The divalent metals are then determined by trilon titration
!at pH 10, chromium by trilon titration at pH 2-3, and aluminum by back titration
~with zinc chloride or by the dithizone method in acetone solution. Orig. art.
~has: 1 table,
'Association: Moscow Technological Inst. of Light Industry
"Card..
KUZNE -+nzh.; PAVLOV, N.N., kand. tekhn. nauk; ARBUZOV, G.A.,
doktor tekhn. naak, prof.
Use of barium salts for ion precipitation from latexes of
carboxylate rubbers. Izv. vys. ucheb. zav.; tekhn. leg. prom.
no.2t55-59 163. (MIRA 16tlO)
1. Moskovskiy tekhnologicheskiy institut legkoy promyshlennosti.
Rekomendovana kafedroy tekhnologii iskusstvennoy kozhi i plenochnykh
materialov.
PAVU)v E.N. , I-tind. tv-4.,lin. nail!--., rio~n,.-n',;
Trilonometry of Chromium (III) and aiuninuri (11.) irixturE;s.
flauch. trudy il'FIIY no.28:61-65 163.
1. Kafedra neorganichookoy i analiticLeskoy ki~ '-'Osk-uvskogo
tekjinojorrjcj;c3j:oqo instituta legkoy promysh-li~;nnc,,-t;
PAVLOV, N.N.; KUZUETSOV A.R.
Trilonometric determination of CrI+and Al I+ present together,
Zav. labs 29 no.9tlO59 163o (MIRA 17:1)
1. Moskovskiy tekhnologicheskiy institut legkoy prowlahlennosti.
8 S/03.38/64/000/005/0025/OM8-1
i.ACCESSIO., Ms AA03 908
Arbuzov,, Go A*
1-UrHORS1 Pavlov., No N
TITLE: The modifying Off0t of barium and chromium oalts on the properties of
I carboxyl containing latex films
~Souiw?z Kauchuk i rezinaj n0o 50 1964S 25-28
latex film, aaxbwc;~l, barium., chromium, barium chromium fixation
,TOPIC TAGS:
!tannod latex film, physicomechanical film property.. latex SKS 30 1
:A13STERACT; Investigation of latex SKS-30-1 containing 20% solids and 4.23% tree
imathaerylic acid was conducted. Films of this material were prepared in special
~molds lined with heavy kersey tissue- impregnated with aqueous solutions of BaG3
-2
,or Crr,13 and with a mixture of these salts in various proportions. The tissue was
subsequently dried by a fan and an infrared lamp. Latex was poured into the molds
Ao form layers of the desired thicknooo and was allowed to react for 90 aeconds
f
!with the salts from the tissue lining. Nwct,, tho film were placed for one day
ion filter paper and heated for 50 mirpAee at 140L The water treatment of the
;'Cnrd
1ACCESSION NRi AP4038908
films consisted of rinsing them for 10 minutes in tap water and then heating theme
The modifying effect of the polyvalent metal treatment was evaluated by changes
which took place in the values of the relative equilibrium modulus of the film und
a constant load of 8 kg aec/cm2a The Ba and Cr content of the film was estimated
iby the Trilon technique,. ExperimentB with the effect of either BaGl2 or C413
!treatment at pH in the 3.8-21.2 range revealed a nonlinear increase of the modulus
;at the higher pH values. It was also found that while in the BaG12 treatment the
i I
!time of the rinsing of the film did not affect the modulus valueo an early rinse
I I
;of the films treated with CrC13 affected it adversely. The tests involving the
1~reatment of the film with mixed BaG12-CrCl3solutions (in various ratios and at
,various pH values) showed generally higher values of the modalus with higher
ipercontages of CrCl and also with a higher pH* It was also determined that at a
3
BaCl2:CrG2.3 ratio of Oil and a pH of 11,2 there occurs a significant drop in the
1modulus value. This the authors attributed to the formation of macrocrystalline
~Btructures in the film. The role of ions and their mobility in affooting the
'strength of the films are discussed. Orig. art. hans 4 charts.
ACCES310IN NZI: AA038908
ASSOCIATION: Hookovskiy tekl=logicheskiy institut 18gkoy pronW*shlennosti (Moscow!
TechnoloZical Lwtitute of Light Industry)
SZIBIE,'NL-Bl 00 DATE AGQ3 o5jun64 ENGL: 00
SUB CODE OC NO M7 Sov: 0o5 OTHERs 000
Card 313,-
N~ ~-~L,-R 5D
A,
KUZNETSOV, A.R.; VASENIN, R.M.; FAVLOV, N.N.
Kinotico of swelling of SKS-30-1 latex films* Koll. zhLr. 26
no.6t692-696 W-D 164 (mu 1821)
1e Moskovakiy tekbnologichaskiy institut legkoy promysldennosti.
v, ,t,i(. Styrene rilt"ber In Tsx obtained IV mfans of ior.c der"itlen.
Euuoh. I rez. 24 T10.4313-14 Ap 165. (MIRA 180)
1. PwkovsMy WUmologluheskiy Inl3titIlt Lie
jACC NR___
AF6014715 (W) SOUkE UR/0323/65/000/006/0()73/0082
THOR: Xuznetsova, G. F. (Engineer); Zurabyan, L M. (Candidate of Technical
iences);_Kuknot;ov~#_A,,_R#-.(Candidate of Technical Sciences)
Z: Central Scientific Research Institute of the leather-Shoo Industry (Tsentrallnyy
,uchno-issladovatellskiy inBtitut kozhevenno-obuvnoy promyshlonnosti)
TITTLE: Strengthening the cemented Beam in making shoes without roughing the covered
: IVUZ. Tekhnologiya legkoy promyshlennosti, no. 6, 1965, 75-8z
TAGS: footgear, adhesive, adhesive bonding, chloroprene, leather
JABSTRACT: The formation of strong bonded seams in shoes without roughing the leather
efore adhesive application was investigated using chemically similar polymeric
erials.in finishing the leather and in compounding the new adhesive compositions.
;,!:%,,~~.trength of the bonded seam An unroughed and in surface-roughed leather depends
zarily on the adhesion oif tho'coating to the leathers if the coating has low
~!,Iidhe~;ion, peeling occurs at the coating-leather boundary. Incorporation of latex
1,1MIN-1 in the coating composition to increase bond strength was found less expedient
:than incorporation of a polymeric film-forming material (ohloroprene-containing M-30)
lin the adhesive composition. Adhe5ion of the coating to leather is increased by using
Card
essentially the same polymeric film-forming material in compounding the pigmented
compositions and in leather finishing. Small amounts (10-20% on weight of the
adhesive) of the polymeric film former increases the cemented seam strength. "The
work was done in the laboratory of Finishing and Polymeric Materials of the TsXIIV
and at the Department of Shoo Technology XTILP.11 Orig. art. bast 4 tables and 5
figures.
SUB CODE: 11, 151 SMM DATE% 20APT63/ CRIG PXFI 006
~UMETSOV,_A!Lp kapitan meditsinskoy sluzhby
Treatment of the lumber ischiallgic syndrome. Voen.-med.zhur.
no.9M-81 S 161. (KMA 15:10)
(SCIATICA)
*;IMTSOV, A.S.. otarshiy leytenant maditsinskoy aluzhby
et
Regional novocaine block in\trodft a
Voen.-medo zhur. n0,3-1:76 N 161.
(NOVOCAINE) (NEURASTHENIA)
neurasthenic syndrome.
(KMA 15:6)
KUZNETSOV, A.S.
Icings and spaces of open water among river ice in the northeastern
part of the U,S,SR, Sbor, rab, po g1drol, no,W2-46 162,
(KIRA 15:2)
1. Ko%yiuskoye upravleniye gidrometeorologicheakoy sluzhby.
(Siberia# Eastern-Ice on rivers~ lakes, 6tc.)
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.I:nNKTSOV, A.S~-
Relatt ',etween the present relief of the Tobol tak- rowton with
deep t- ',~o processes, Dokl.AN SSSR 118 no.5:1014-IOl? - IP.'58a
(MIRA 12 1)
1. Inatitut neftl AN SSSR. Predstavleno akademikom $.I.
Mironovym.
(Tobollsk region-Geoloa, Structural)
AUTHOR: Kuznetsov) A. S. 1 20-1184-40/59
TITLE: On the Relation Existing Between the Modern Relief of the
Tobol'skiy Region and Deapseated Tectonic Geology (0 svyazi
soyromennogo reltyefa Tobollskogo rayona s glubinnoy tektonikoy)
PERIODICAL: Doklady kkademii Nauk SSSR) 1958, Vol. 118j, Nr 5.
pp. 1018-1020 (USSR)
ABSTRACT: Several loca]L up3dfts~have been found in the tertiary deposits
of this district, 6 ~Iill holes have reached the granites of the
foundation in a depth of from 22oo to 2300 m. The Ovayannikovan
koye (Toboll9koye) up t ahoya an anticlinal character. The
vaults-,hava broken diiin the entire mass of the Neso-Cenotypal
era. On old sedintents the structures are much steeper. Theq
flatten out in the dDection of the upper horizons. The same rule
holds for the neighbo?!;g Z&vodoukovskaya and Pokrovskaya antin
olinal structures. The direction of strata and the depth position
as well as the width of soveral formations is described by means,
Card 1/3 of the mentioned drill holes . From these) the author draws conn
on the Relation Existing Between the Modern Relief 20-118-5-48/59
of the.Tobollskiy Region. and Deapseated Tectonic Geology
clusion3 as to the velocity of uplifts in different localities.
The small owayannikovskoye uplift is considered to be indepen-
dent. The principal uplift is a greater-one, being located south-
ao0thwest of Tobolsk. All these particularities can be traced
back to a different behaviour of the foundation in the neighborn
hood of the drill holes n 1-a and n 5-R. The above situation be-
comes visible on a structural map (figure 2), which wasi compiled
on the level of the upper durable sand layer in the Lower Oligon
cenes On a mapp compiled on the washed-out-aurface of the Lower
Oligocene, the Ovayamikovskoya;rising is not marked down..Prom
jections in the vault parts of the mentioned structures occur on
the washedout surface of the Lower Oligocene sediments:, This
testifies a further growth of the mentioned structuress even
after the Oligocene. Because of the fact, that the uplifts in
the Meso-Cenotypal era reflect the projections of the foundation
and are expressed by the ground relief, it is possible to speak
of a relation between the ground relief and the foundation or the
depth tectonics, respectively. From the fact, that the Toboll-
skoye uplift. shows a northeastern direction of strata, the .
Abaluq koye, Dubrawninskoye and Ustf-Ishimskoye uplifts, however,
show a northwestern ones it is obvious. that not only the tertiary
Card 2/3 sediments have the same direction of strata, but also the projecs
an the Relation Existing Between the XC6&= Ralielif
of the Tcbollskiy Region and Deapseated 7ectonic. n-,ecloa-
tions of the Palaeocoic foundation, which are their cause. Tm
principal cowluslons can bo drawn: 1) Th* :.v4ttiv* str=t=w
of the Tobollskiy district., which have recently been rerealed,
are linked with the projections of the Palaeozoic foundation.
They are distinguished by an anticlin&I deT*1opoen-t during the
entire Meso-Cenotypal era and their growth is continued up to
present times. 2) the boundary of distribution of the Urallskly
directim of strata passm along tho awridian or Uhe temn et
Tobol'sk.
There are 2 figures, and 6 references, all of which are Soviet,
ASSOCIATIONT Institut nefti Akadeali nauk SSSR (Institute for Petroleum,
AS U334)
FRESENTED: September 16, 1957, by S. I. Mironov, Academician.
SUBMITTED* September 12, 1957.
Card 3/3
X741INTSOV, A. S.
Formation, and oil and gas potentials nf the Tobol Uplift.
genl.neftl i C"a I no.8:19~-23 Ag 159. (MIRA. 12:11)
1. Institut geologil I ratrabotki goryuchikh iskopayezqkh AN
SSSR.
(Tobol Valley--Petroleum geology)
(Tobol Valley-Gas, Utural--Geology)
AWZHICTSOV, A.S.
m_
Now data on the geology of Tobol'sk District. Trudy Inst.
geol, t razrab, or. Iskop. 1:52-59 160. (MIRA 14:1)
Nobollsk District--Geology)
VARENTSOV, M.I.j RYABIJKHIN, G. Ye.; GROMEKA, T.G.; KUZNETSOV, A.S.
New oil- and po-bearing arsao of North Africa in Libya.
G6ol. nefti i gaza 5 no.6:56-60 Je 161. (KIRA 14:6)
1. Institut geologii i razrabotki goryuchikh iskopayemykh..
Moskovskiy institut neftekhmicheskoy i gazovoy promyshlennonti
im, akademika Gubkinat i Glavnoye geologo-razvedochnoye uprav-
TleniYe RSFSR. Libya-Petroleum geology)
~Libya-Gas, Natural-Geology)
VARENTSOVO M.I.; RYABUKM, G.Ye..; J~LMM". A~S*--
New oil- and gas-bearing areas in the Algerian section of the
Sahara* Geol, nefti i gaza 5 no-701-55 J1 161. (MM 14:9)
1, Institut geolo0ii i razrabotki gm7uchM iskopayeEfthp
Mookovakiy institut neftekbimichookoy i gazovoy promphlennosti
in. skademike Gubkina~ Glavnoye goologo-ramdochnoye uprayleniye
RSFSR.
(Algeria-Petroleum geology)
(Algeria-Gas., Natural-Geology)
VARENTSOV, M.I.1 RLUWKHINO G.Yee; I;RZKETSC!., A.S.
West African oil and gas-bearing province. Geol. nefti i
gaza 6 no.2:%-59 F 162. (MIA 15:2)
1, Inatitut geologii i razrabotki goryucbilch iskopaysmykh AN
SSSR, Mookovskiy institut, neftekb4micheekoy igazovoy prouToblennouti
imeni akademilm Gubkins. i Glavnoye upravleniye geologii i
okhrany nedr pri Sovete Ministrov RSFSR.
Africa, West-Petrolem geology)
Zrioa., West--Gas# Natural--Geology)
BAGIMAN, 0. V.; GRISHINs G. L.j KUZNETSOV, A. S.1 KARASEV, 1. P.
Sao*rn Siberia is a nev oil- and gas UariW province. Razved.
i olh.' nedr 28'no.613-5 Jo 162, (Km 15t 10)
41(*i6bemkWe uprarlsaiye RUM (for Bagiryan,
Gria An,.linets*V)b' 2..'Gosudarotyannyy treat po geologichaskin
isyskaniyam na neft' v Voatoobnoy Sibiri, (for larasev).
(Siberial Eastern-Patroleta Pology)
(Siberia., Eastern-Cast Na*ral-Gsology)
Snow cover and the river regime in the northea3t of the U.S.S.H.
Trudy SVKNII no.2:56-84 163. C41RA 18:2)
.5"
KOZLOV2 A. L. VO3TtYAVOV2
outiocic ior the development of prospocting operations f cr
r East. Ileftegaz. geol. i
oil uruA gas in Easte.-n Sibo-ia ind thn A-a 0aiuI7.-2-0)
E;eofi-.. no.6-.9-1,.' '4')3.
1. Glavnoya upravle-nir- goologii 4- G~IlranY nGd-- gi Sovete 1-:Iaistrov
RSF,02R.
KUZNETSOV, A.S.; SEVOSTIYANOV, K.M.
Oil- and gas-bearing basins of South America. Ra7ved. i okh.
nedr, 30 no,5158-63 My 164. (MIRA 17110)
1. Gosudarstvennyy geologicheskiy komitet RSFSR.
KUMETSOV, A.S.
Case of effective cure of lumbo-oncral gariglionitis within
a brief period by the use of a mixture of ganglionic blocking
agents. Azerb. med. zhur. 42 no. 7:70-73 J1 165
(1-11PLA 19:1)
BAGIRYANP G.V.; JUM _POV A.S.
Oil fields in the -middle of Ob'Valley. Neftegaz. eol. I
geofiz. no.3!10-12 t64. ~MIRA 17%5)
1. Glavnoye upravlaniye geologii i okhrany nedr pri Sovete
e- a v,
AUTHORSi Shaposhnikovp I*G. and Kuznetaov, A.$.
TITLE: On the General Theory of Relaxation Phenomena (K
obahohey teorii relakeatsionnykh yavleniy)
PERIUDIOAL: Izvestiya Akademii Nauk, Vol. XX, #11, pp 1256-1261
19560 USSR, Serlya fizichaskaya
ABSTRACT: A spin-syetem of dielectric paramagnetic crystal,
isolated from the lattice, with normal spin magnet-
ism,-which-intera,ets with-an-external-magnatic field
d1reated-a-lang-the-Z-ax-is-, is-considered.
Extending the Waller the ory (2), the authors derive
equations for tho magnetization� of a paramagnetic,
in which X1 and X", real and imaginary components of
the complex magnetic susceptibility, are-represented
by periodical functions of time.
Actually, however, experience shows 14hat quantities
%I and 7,11 are independent of time.
Card 113 The authors explain this discrepancy by pointing out
TITLE: On the General Theory of Relaxation Phenomena ( K
obahohey toorii relaksatsionnykh yavloniy)
that relaxationis af4pecifically macroscopic pheno-
menon. They modify the initial equations by replac-
ing the sums by integrals and-making some plausible
assumptions as to the property of some function fp
which ensures the existence of the integrals. These
assumptions are the following: the function f and
its first derivative are continuous in the region of
their determination and the function f has a finite
number of maxima.
i
In case of correctness of the assumptions made, the
theory leads to a conclusion, which asserts the
existence of a relaxation phenomenon in a spin-eyetem
of dielectric paramagnetic crystals, isolated from
the latticag with normal spin magnetism, for all
practically important apane of time.
The bibliograph lists 7 references, of which 3 are
Card 2/3 Slavic (Russians.
0 TITLE: On the General Theory of Relaxation Phonompna fK
obahchey toorii relaksatsionnykh yavleniy)
INSTITUTIONs State University imeni A.M. GoAiy in Molotov
PRESENTED BYs
SUBMITTEDt No date
LVAILABLEs At the Library of Congress
Card 3/3
S-/058/60/000/006/017/040
A005/AO01
Translatdon from; Ref era' ivnyy zhurnal, FizIka, 1960, No. 6, pp. 197-198, # 14312
ATMOR: -Kuznet4ov. A.8.
TTIU: On Certain Questions of the Theory of Relaxaticn Phenomena
PERIODICAL- Uoh. zap. Tadzh._un:7t Vol. 16, pp. 66-69
1958,
Z
TEXTt The author derived a formula to a linear approx1mat1on.wI-.h res-;Oo,
pec,t to the external magnetio field HO, which describes the variability In 1.1me
of the mWietlo moment M of a Spin sXstem/fafter swi*~chln;r off the field Ho. The
existence of the relaxation process LM(f-> ft)---YOJ may be prcved under the follow-
ing conditions: 1) the summation over the matrix ele-ments of the spin-spin pertur-
ba-tion V can be replaced by the integration of the distribution function f (CO)
et the quantum transition frequencies correspordl*ng to the operator V; 2) f (W)
ig ar. integrable funotion in sense of Riemann; 3) the Interac-,don between the spin
system and the lattice Is absent. It Is shown that, 11he expongntial law of the
spin-spin relaxation prooess corresponds to the Debye form of -the f(W ) curve.
U.Kh. Kopvillem
Translator's =-.e-. This is the full translation of the original Russian abstract.
Card 1/1
S/058/60/000/006/019/040
A005/AO01
Translation from: Referativnyy zhurnal, Fizika, ig6o, No. 6, P. 215, # 14428
AUIHOR- Kuznetsov, A.S.
TIIU-. A Method of Finding Out the Distribution Function of the Energy
Levels of a Spin System of Normal Paramagnetios
DICAL- Uch. zap. Tadzh. un-t
FERIOA .1958, vol. 18, PP. 70-72
TEKT.- The author shews that the distribution of the spectrum points of
the spin-spin-interaction operator can be considered as the Gaussian distribi4tion
with its center in zero and with very small,dispersion; his method is analogous
to the method of qualitatave Investigation of the energy spectram nature of the
a-tom nucleus, which was applied by Bethe (Fizika yadra 2. GiTrL., 1948).
U.Xh. Kopv111em
q 4-
Translator's note. 'rhis is the full translation of the origInal Ruesian abstract.
Card 1/1
P/O 4 5~ROY0319 /02/10/013
000 B006/BO I I
0
AUTHORS: Helfer, H 0 Kuznetsovl A* S,p Yeshcheryakoys M- r--. -
6wistk2wokis i'.. Y volienicot V.-Pt
TITLE: Energy Spectra of Charaed Pions Produced in p-d-Colli io a
at 660 Mov /Y
PERIODICAL: Aota Physioa Polonical 1960, Vol. 19, No. 2, pp. 227-234
TEXT: In the present paper the authors describe the measurements of energy
spectra of charged pions produced.in pd- and pp-collisions, and discuss
the results of theseinvestigations with the aid of diagrams* By means of
a magnetic spectrometer thGy determined the energy spectra of pions of the
a
reactions p+p( X+ + p+n+(n), p+n+(p) - x+ + n+n+(p), P+n+(P) -. X- +P+
+p+(p), and p+d + + 3ffe, and for comparison, the energy spectrum of
positive pione produced In free pp-collisions* Prom these comparisons
one can derive conclusions as to the pion production process and the
nature of nucleon bindings in the deuteron. Experiments were conducted with
the 6-meter eynchrocyclotron of the Joint Institute of Nuclear Research
(Dubna); Fig. 1 shows the experimental arrangement. Figs. 2 and 3 show t
Card 14
81123
Energy Spectra of Charged Pions Produced P/04 60/019/02/10/013
in pd-Collisions at 660 Mev B006YBOII
energy spectra. By integrating the spectra over the energy (in the center-
of-mase system) the differential production arose sections were found to
be dcr/dS'~ (p+p --- 7t' +.) - (6.7 + 0-7).10-28 cm2/steradianj
dd/dg(p+d + + (5-9 � 0.6)-10-28 cm 2/0 teradian;
dd/dQ (p+d n- + (0-57 � 0.08) -10-28 0m 2/st eradian. The differential
arose section for positive pion production in free pp-collisions at
660 Mev (900 in the o.m.s.) is close to the value
(6.8 + 1-5)- 10-28OM2/0 teradian obtained by B. So Neganov and 0. V. Savohenkot
but i7s smaller than the value obtained by A. Meshkovsky. The ratio of
probabilities of positive meson production in collisions of protons with
free and bound protons is equal to
Card 2/s
Energy Spectra of Charged Pions Produced
in pd-Collisione at 660 Rev
81123
P/045J60/019/02/10/013
B006/BO11
d6
rs, a 0,79 � 0,08* Generally speakingg this ratio
dd (P + P + + 00 4')U
T-q-
can differ from unity only if the interference between amplitudes of
possible mason-nuoleon states is different. It follows from the data
obtained that at 900 in the c.m.a. the ratio of the number of positive
pions to that of negative pions from deuterium is equal to 10.3 -+ 1.3.
Prokoshkin is mentioned. The investigation under review was submitted
in a lecture before the 6th Session of the Scientific Council of the
Joint Institute of Nuclear Research on June 19 1959. There are 3 figures,
I tableg and 10 referencess 5 Soviet, 2 American, and 2 British.
ASSOCIATION: Joint Institute of Nuclear Research, Dubna
41Z
Card 34
88428
S~026/60/039/006/015/063
B 0 /B056
AUTHORS: Vovchenkot V. G., Gelffer, G., N~I~soT-pW. S.,
Mashoheryakov, M. G., Svyatkovakiy, V.
TITLE! Effect of Nuclear Binding of Nucleons Upon the Shape of
Pion Energy Spectra
PERIODICAL: Zhurnal eksperimentallnoy i teoreticheekoy fiziki, 1960,
Vol. 39, No. 6(12), pp. 1557-1570
TEXT: A description is given of experiments which were carried out
with the aim of obtaining quantitative data on the effect produced by
nucleon bindings in deuterons and carbon nuclei upon the production of
charged pions. Conclusions are drawn with respect to pion production
processes on the basis of comparisons of the energy spectra ofpions
produced in collisions of protons with free protons and with nucleons
bound in deuterone and carbon nuclei. The experiments were conducted
in a way ensuring strictly equal conditions in taking the spectra and
separating the pp- and pn-collisions. The experiments were carried out
on the six-meter synohrooyolotron of the Joint Institute of Nuclear
Card 1
88428
Effect of Nuclear Binding of Nucleons 3/056/60/039/006/015/063
Upon the Shape of Pion Energy Spectra B006/BO56
Research. For the pp- and pd-oollision experiments, thin-valled cylindri-
cal vessels (4 am X 12 am) filled with liquid hydrogen and deuteriumf
respectively, were used as targets. The densities were 0.0708 and
0.169 g/cm3f respectively. In the experiments with carbon a 3 mm thick,
5 X 5 am2 graphite plate was used as target. In the target center, the
proton energy in all oases was (654,.+-5)Mev, the aloving-down losses in
hydrogen and deuterium, respectively, were 1.4 and 1.7 Mev, and in
carbon they were 1.9 Movi the slowing-down losses of the 150-Mov plans
were 0.7, 0.8, and 0-5 Mev, respectively. The proton flux in a beam
of 2 X 3 Om2 cross section was 2-108 P/OM2,seo. The energy spectra of
the charged pions were measured by-a magnetic spectrometer with two
thin scintillation counters at the input, which was described by L. S.
Azhgirey at al. The pion recording threshold was about 35 Mev. The
results obtained had, after a number of correctionst whiob had an error
of 7% for the differential cross sections Af/dwdg. The differential elastic pp
scattering cross sections at 654 Mev a3j for 56 in the laboratory system
(1.s.) were taken to be (6.7+0.35)-1o- cm2/steradian, so that for 120 0
in c.m.s. the value (3-4i+o.T3).j0-27am2/steradian was obtained. The
Card 2/ ~
88428
Effect of Nuclear Binding of Nucleons S/056/60/039/006/015/063
Upon the Shape.of Pion Energy Spectra B006/BO56
difference found to exist in the spectra of mesons from deuterium and
carbon is said to be due to the following reasons: a) a higher. degree
of pair correlation of the nucleons in the carbon nuclei than in deu-
terons, b) differences in nucleon momentum distribution in these nuclei,
and a) effect of eec8ndary pion-nuoleon interactions in carbon nuclei.
For an angle of vqO in the c.m.s. of the two colliding nucleons, the
following ratio of differential cross sections was found:
d a + p + d a + p -4 n : ~La + P -4 it 1:0.79:0.40.
rw Ip R rw Ip +1 D d 6) Ip I C
The n--meson yields from deuterium and carbon per nucleon of the target
nucleus were found to be approximately the same. The nl-n--meson yield
ratios for deuterium and carbon mere found to be 10.3 � 1.3 and
6.0 + 0.8. The decrease of this ratio on the transition from deuterium
to carbon is explaineg by the considerable fraction of secondary ex-
change interaction (n + n -Pon- + p) in the n--meson yield of carbon.
Be S. Neganov, 0. V. Savchenko, A. G. Meshkovskiy, Yu. D. Prokoshkin,
L. Be Parfenovq and Me S. Kozodayev are mentioned. There are 4 figures,
Card 3/
88428
Effect of Nuclear Binding of Nucleons S/056/60/039/006/015/063
Upon the Shape of Pion Energy Spectra B006/BO56
3 tableal and 31 references: 14 Soviet, 14 US, 1 CERN, and 2 British.
ASSOCIATION; Ob"yedinemrjy inatitut yadernykh issledovaniy
(Joint Institute of Nuclear Research)
SUBMITTED: July 9, 1960
Textto Fig. 4 : Comparison betweenthe energy spectra of the charged
pions 1) n+-mesons, emitted in free pp collisions. 2) n+ from [PPID;
3) n+ from DPJ,; 4) n- from HDI 5) n- from [prj. All spectra are
normalized on a uniform area.
Text to Table 1: Differential cross sections for charged 8ions in pp-
pd- and pC-collisions-at 654 Mev. Angle of observation 56 with respect
to the2~rotgn beam (rv90o in the c.m.s.). 1) Differential cross sections,
in 10- am /ateradian; 2) Process# 3) Nucleonal 4) 1-6-1 5) c-m-s-
Card 4/~
2o6go
S/120/61/000/001/028/062
2Ed 0 E194/ci84
AUTHORS: Akimov, Yu.K., and Kuznetsov, A.S.
TITLE: A 20-Channel Amplitude Analyzer
PERIODICAL: Pribory i tekhnika eksperimenta, 1961, Noel, pp,92..95
TEXT: This article describes an impulse amplitude analyser
based on scintillating counters using organle scintillators.
The operating principles and preliminary developments were
described at the Third Scientific-Technical Conference on Nuclear
Electronics in Moscow, March 1957. The particles to bo recorded
pass through a number of scintillation counters, one of which is
a spectrometric counter. The impulsos from this counter pass
through a preliminary amplifier to a transmission circuit
controlled by signals from a coincidence circuit to which the
outputs from the other scintillating counters are applxed. After
linear amplification the impulses pass to a threshold device which
acts as follows. If the amplitude of the impulses is below the
threshold the impulses pass through it as through an ordinary
amplifier; when they exceed the threshold amplitude the impulses
are reduced by a constant amount. As a result of this the
Card 1/7
&7e"W( I
S/120/61/000/001/028/o62
A 20-Channel Amplitude Analyser E194/El84
amplitude of impulses for the llth channel is equal to that of
Impulses for the first; for the 12th the amplitude is equal to
that for the 2nd, and so on. Simultaneously, by means of an
additional signal the distribution device is reconnected from the
first to the second decade of channels of the counter. An
impulse generator whose output alters linearly with time is
provided for adjustment of the instrument. The spectrometric
counter consists of a plastic scintillator, a light guide of
transparent plastic and a photomultiplier type 13'f-11 (FEU-11).
The shape of the scintillator was such as to compensate the
difference between the amount of light reaching the photo-cathode
from the lower and upper parts of the scintillator because of
increased light flashing in the upper parts. The pre-amplifier
is based on a double triode 06v1 (6N6P) and is intended to
transmit impulses from the photomultiplier to a cable through
which the impulses are delivered to the transmission circuit.
The threshold device is described. Impulses of positive polarity
are applied to two inputs; to a discriminator and,through a
Card 2/7
20690
S/120/61/000/001/028/062
E19VE184
A 20-Channel Amplitude Analyser
delay line of 0.5 jisec to a valve which is normally shut to a
current of 50 liamps. If the amplitude of the impulse is below the
threshold of the discriminator the valve acts as an ordinary
amplifier. If the discriminator operates, the valve is
additionally blocked by the amount of impulse voltage reaching its
cathode from the discriminator. The amplitude of the impulse from
the discriminator is formed by a diode giving an impulse of
rectangular wave-shape equal in amplitude to the initial current.
The resultant impulse that acts on the valve at the end of the
delay line is the difference between the amplitude of the input
and the formed impulses. The value of this difference is such that
impulses of amplitude somewhat greater than the threshold value
pass through the first channel of the distributor device. An
anti-coincidence and a coincidence circuit are used to convert the
first channel to the Ilth, the second to the 12th and so on.
These circuits are briefly described. In the distribution device
the input impulses pass through a delay line consisting of 11
elements, connected by tappings to dividers which reduce the
Card 3/ 7
20690
S/120/61/000/001/028/o62
E1911/EI84
A 20-Channel Amplitude Analyser
amplitude of the impulses according to a pre-determined law.
The impulses are connected to a common mixer on the output of which
there appear a series of impulses at regular time intervals
diminishing in amplitude. The discriminator, passes only those
impulses of amplitude above the threshold value. The impulses that
pass the discriminator follow two paths, one direct and the other
with the delay to the anti-coincidence circuit, the undelayed
impulses being restrictive. Thus there appears on the output of
the anti-coincidence circuit only one last impulse which is passed
further to the special device. From the output of the threshold
device signals are applied to one of the inputs of the coincidence
circuit; the other inputs of this circuit receive signals from
tappings from the delay line. As a result coincidence occurs in
only one of the circuits 1-20. Consequently the number of the
channel corresponds to a definite range of amplitude of input
impulses. The bandwidth of these channels is the same. The last,
20th, channel records all impulses with amplitude greater than that
of the 19th channel. Tests wore made with a proton beam ifith a
Card 4/7
21 90
s/iw/6ij 001/028/062
E194/E184
A 20-Channal Amplitude Analyser
mean energy of 670 MeV. A polyethylene target was irradiated.
The deuVons and protons with an impulse of 900 MeV6s leaving the
target at an angle of 100 pass through a system of collimators
and magnetic field and were recorded by the scintillation
counters. Under these conditions the specific ionisation loss of
deutrons is 2.2 times greater than that of protons. The
resultant characteristic is given in Fig-7, In which the count is
plotted against the channel number. The first peak corresponds to
protons and the second to deutwons. The somewhat high count in
the tenth channel occurs because the threshold of the first
discriminator was set somewhat higher than necessary. Both peaks
occur against a certain background ofparticles. The relative
,0 The
half-width of the experimental curve for deutrons is 200'.
relative half-width of the calculated curve of ionisation losses
in a scintillator for deuLrons with an impulse of 900 MeV/s is
about 1091 and the scatter of the actual mean loss (that result
from the deutwons not being monochromatic) can also be about 1091').
Card 5/7
20690
S/12o/61/000/001/028/o62
E032/E114
A 20-Channel Amplitude Analyser
Recently, a group of Italian authors have described a single
channel analyser with logarithmic scale constructed on a similar
principle to that described here (A. Alberigi et al. Ref*5).
The author thanks O.V. Savchenko for assistance and A.N. Sinayev
for useful comments.
There are 7 figures and 5 references: 3 Soviet and 2 non-Soviet*
ASSOCIATION: Oblyedinennyy institut yadernykli issledovaniy
(Joint Institute of Nuclear Research)
SUBMITTED: December 12, 1959
Card 6/7
27"'~'93
S/120/61/000/003/002/041
.26,.2.24 Ll E194/E155
AUTHORS~. Yef1mov, B.V., Danallin, L.S., Kuznetsov, A.S. and
Pevzner~ M.T.
TITLE-. A mechani,zal neu:ron monochromtL~;or for the energy
region 0.00-~ - 2 eV
PERIODICAL4 Pribory ekap-ac:,manta, 1961, No-3, PP-32-39
TEXT- Mezhanl:al n?utron monochr.-.ma-,-~-rs have been des-,ribed
in Soviet and foreign literature, the; are useful when fairly
powerful beams of mono-c-hromnt,.: neu-.r~-nr- ire required. The7 ha-re
the advantages over ~ris,.a.L `3jPO.-;"(~M:3"ex-s of gLvinS a larger
neutron flux without izv,.ezfprsn~-~ due t.) hgha!r----rder reflection,
but they are usually of power in the energy
range 0.1-10 zV~ This t%rt.':ie -Jsd*.r.1Le3 the cunstru~ction and
properties of' a methani,;al mcn3ahrorviatcr- rhe inAtrument was
required to separato (with a c-~ '30-30)6) neutrons of the
same ener gy I evel tip to itn iir gt ?s tif 21 e ~ ;nd to achi eve the
greatest possible flux thr~,,-,gh the ro~,ijx :)f the monothroinstor to
ensure satisfaztory raf-ic of dti-srf-d r-'Ve--t to background, The
construction is iI.Lurira-:ed in ilg:-. it, whtch zhe numbera have
Card 1/8
A mechani--al neutr,:;r- monoz-h-ccmator Sl~.2~6/61/000/00 3/002/0 41
E19VE155
the following maaningt., I .. protective rings 2 - tubet 3 -- rore;
4 - bearing block., 5 - wad-X-eb: 6 -- bundles of sheets forming the
slots. The slet wa-%lv were sheet 0,,34 mm thi~,k separazed by foils
to give a slot width of 0~3! '&7 mm. The sl-~ts were 700 mm long and
slots could be turned at "Irlous angl',as to the beam. The to:al
thickneas of metal !.n "tie. p&th of the beam Is 30 cm, which weakens
by a factcr cf abeut.- 10 000 the 2.ntensity of' neutrons in the
energy range 0.002--1 MeV, 1-. also appreclabiy z;reens g&mma
radiation, whi,:h I ! vary ccinveri"i: if the nAul:ron deltector is
sensitive to garnma radiat;.ar- W-Ith at-~aight slots the amount of
rotor end surface that ~an ba uced is ras'-r:.~tad, and for any given
peripheral spetd it is aivanta.;,eoui to hai-e the diameter as large
as possible. The rore is a .axbon stee.-L 'cubs of 225.2 mm external
diameter fitted with endbeils :;~rrying the ball bearing journal.3.
Eight ribs are pre3sed ino s-i-),ta on the tube surface and on these
a tube of high tensile chro;mJ--NaTL&dIUM Atebi is shrunk. Between
the internal diacneter of cht, of 2?0.6 nun, and the
external diani~ezer of the -,;ube there rema;.ns an annular space
divided into equal pa~.-Ls by tht, -Ibs~ The slots are buil%;
up as bundles sf sheets spa~,iid wit-h aiumI*.r-,Aum foil to give a mean
Card 2/8
A mechanical nsutr*n monochromito-- S/120/61/000/003/002/041
E Ighlic?.55
slot width of 0.30 mm. The pl-sliss arv 7odgid In place. The totak
weight of the rotor was 27D k;r anl Al vta dsaign*4 to opervAe at
speeds up to 12000 & hyd-n%-altz vas I&Lna"Uy select-ad
in order to minimize vibrattom. Tha of the driving
turbine, in d*strtbsd; it tan 0Pb!-&'i& 6.1 'Peada up to 13 000 r-P.S.
On leaving the sour-&* lh* bes.:n p6.;*,xra ih,-**
before reaching the rolar. The 11w,a *utsj-- tcl!Amatars go-ysrn the
angle of d1wergenc,% of the nvrtr.on he&m iLvi the Lniermadiale one
reduces the batkground *f s1r.o."I nvvtitlr~te. in Iho plans
parpendi.--ular to the slol walla ths bos,m to of constant width and
in the plane parallel ** the tIoIx tA -.Ln-rbrSoa from 100 mm at 'the
luminous surface A* 15 mm alt the Jr'jQ"t0j!% 'The ~-_roao-seztion of the
boalm and hence Ahe rsoolluttoa may 4jih bj &djusting the
first- collImator wh:irh to of vid'sh. A graphizal
method was used to dviermine tho apa.~,nre_. I.Ant -,f mznothramaitc
noutrona- &nd the protediarLe fo 81tause the slots
move -in a -tircumfor*n-tv 11ho spvt h~e:~', rre not quite the same
as they would be f~cr a attraw-ahap,ed ,alcov -z.r for slals with parallel
walls movAng Ln a stratZh% Itwo. aye,ttre.l Itn*v
determined graphitally by the ms,1+7,el v-� shown Ln Fig.8
Card 3/8
A methanical a*utron monosthr,c-m&toir S/4"WiV000/003/002/041
E1?4/R-,55
for two T&Iuss ef the &ngjl~g 0 bstwtvr. the Itna of the been and
the cantre It=* of the rotcr. In the&& A~,-Aphs the -;urvo marked 1
corresponds to the tentr&L V&TT *T-Tht o1alt. FIS.5 shows graphs
of the optimum resolution tor %rartwas snargLs-a with the rotor
priate -ralues of 0.
running at a opted at 9000 with &yrzr~ai
The risolutlon m&f be Impr.97,.vd- 't,~F 1,ioti-fing the hotght of the slot
used. The intenott-1 of the monci-broviatLt nvul:ronji may then be
increased without Impefr-ing ripeo'lution by using a
wider beam of &pp--r*priPt#-- In srdtr to test the
quali,;y of assembly of 1h# baffd1as -c~f ;rhas,141 nndf to determine the
rotor position carresplandtng to 4) a 05 p"'tria vvrt made of tho
counting speed *.T d, ntult-P,7n dtA%b--tvr ltypk 1" 'kBFI) as function of
the angle 0 wLth ths raizz VtS.Lrj shows typizal
curves. The dattrad ~ur-ri 7 to the epe~:trtl lineq
the eirtles 2 zorir-sspvr.d Itt- mtaisurtmanlx viAhowl a -,admium filter,
and the crosses 3 Iva Itht not cf a. cadmium ftlis-- it will bv
seen that there Ls excollent a-S7.f-&vmvmt 1,,6%*Avs*,L thrjM7-y and
experiment when & (radmium filtur Ya ~mxvd tnd c,f,,,nsLd*ratb1*
,hpulc !r&-c-ilor was -&lculat d fo
div*rgance if it Ls not. 7.,11t %hj-c,,jf
0 a 0 and compared with th-& tzpax-Lmantal -v-vA%a3 tA wits f ound
Card 4/8
2709)
A mechanical neutron monochromator..S/120/61/ooo/oo3/002/04l't
Z194/Z.155
that when a cadmium filter was used the average experimental factor
was o.86 of the calculated value, and when no filter was used
considerably exceeded it. The effect is obviously due to extra
neutrons-passing through the slot by total internal reflection
from-the slot walls. The effect of internal reflection in
noticeable for neutrons with an energy of about 0.001 eV. For
investigations in the range of 0.001-0.0001 aV, a second rotor was
made of similar construction but with the platen made of plexiglass
(perx-pex). in order to suppress reflection the platen uere
covered with a layer of polyinobutylene.. Satisfactory results wer*
obtained with this rotor. Numerous tests have now been made with
this monochromator and they have confirmed its suitability for
measuring various neutron sections and gamma ray spectra.
V.1. Mostovoy in mentioned in the article.
There are 11 figures and 4 references: 3 Soviet and I English.
The English language reference reads an follows;
Ref.2o. J.G. Dash, H.S. Sommers. Rev. Scient. Instrum., 1953, V-24,
2, 91.
Card 51')
) 76'~ -,
5/12o/6i/000/003/002/041
A mechanical neutron monochromator ... B194/F,155
ASSOCIATIONt Inatitut atomnoy anergii AN SSSR
(Institute of Atomic Energy, AS USSR)
SUBMITTEDt August 20, 196o
Fig.10
Card 6/8
RYZlllKC,V$ A.k,, dcJ.t,:,r Kil"'INITSOV, A.S.,,
',Omy-1,3z fcr thi.:i preparation of cast lr-~n w-W: sfhAroidal
grephite, UL. prc~';.zvc no. 1'.25-26 ZI 1165.
r (MIRA 1818)
KULNETSOV, A.S.
Case of a grave antirabies postvaccination meningoencephalo-
myelitis. Azerb. mad. zhur. 42 no.9:70-71 S 165.
(MIRA 18:11)
1. Submitted July 6. 1964.
KHTTEMSOV, A.S. (Moskva)
Venospondylography in the diagnocis of herniated intervertebral
disks. Vop. neirokhir. 27 no.6:23-28 11-D 163.
WIRA 17:12)
1. Ilauchno-isaledovateliskiy ordena, Trudovogo Krasnogo Znamenj,
Institut neyrokhirurgii imeni N.N. Burdenko (direktor - prof. B.G.
Yegorov) AMN SSSR.
1. KUME-TSOV, I. T.
2. U13JR (600)
4. Proteins
7. Changes inthe group of mcbile proteins in the process of reasting and pres-Ang
cottonseeds in screw presses. Masl. zhir.prom. 17 no. 2. 152.
9. Monthl List of Russian Accessions, Library of Congress, February 1953. Unclassified.
F- 1. KUZICHIN,-G. I.:-KUZNtTSOV, A.-T. ----
2. USSR (6oo)
4. Power Presses
7. Starting and operation of MP-21 screw presses in the oil extraction plant in
Yangi-Yull. Masl. zhir. prom. 17 no. 3, 1952.
9. Monthly List of Russian Accessions, Library of Congress, February 1953. Unclassified.
XMIGNOT, A.T..inzh.; TLYUCHU, V-V-,inzh.
Oil and fat Industry of Tajlkistans Haol.-Olropromo 25
no.1:11-12 159o (MIRA 12:1)
1. Sovnarkhoz Tadzhikokoy SM.
(Tajikintan-Oil Industries)
UTIKAGAI(MOV, K.Hap kandogeogr.nauk; BMMYAND, T.G.v kand.geogr.nauk;
BAUMMITO Sh.A,p kanddiz.-matem.nauk; BAYDAL, K.Kh.p kande
pogr.nauk; kand.geogr,.nauk; CHMOTp L,.Aoo
doktor geogr.nauk; TV.G., mladshiy nsuchiVy storudnik;
UTISM, A.S.9 kand.geogr.nauk; GOLITSEM, I.A., doktor geogr.
nauk; IMIKOVA, Z.D., starshiy nauchnyy eotrudnik; MISHUOTA9
TO.A., mladshiy nauchM sotradnik; GELIKGOLITS. N.7., starshiy
nauchnyy sotru"ik; PRMOROV, I.I., starshiy nauchnyy sotradnik;
TKAGHIMEO, N.G. , m1adshly nauchn" sotrudnik; 73MA OVA, L.P.,
red.1 ZRAYNINA, X.L. takhn.red.
[Climate of Xazakhatan] Klimat Kazakhstana. Pod red. A.S.Ute-
shave. Leningrad, Gidrometeor.izd-vo, 1959. 366 p.
(MIRA 13:5)
1. Russia (1923- U.S.S.R.) Glevnoye upravleniye gidrometeoro-
logicheskoy sluzhby. 2. Kazakhski-v pedagogichaskiy institut
(KazPI) (for Utimagambetov). 3. Glavnaya geofizicheekaya observe-
toriya im. A.I.Voyoykava (GOO) (for Borlyand, Golitaberg). 4. X&-
zbkhskiy nauchno-inaledovateltakiy gidromateorologicheakiy insti-
tut-KazNIGKI) (for Bezverkhniy, Baydal, luzneteov, Uteshev, Xly-
kova. Mentehikova. Gellogolits, Prokhorov. ftachanko). 5. Insti-
tut geografii Akadenii nauk SSSR (IG AN SSSR) for Shvyreve).
(Kazakhstan--Climate)
KUZNZTSOV, A. T.
Climatic features of Kazakhstan. Truo Otd. geogs All Kazakh. SM
no.7:108-135 160. (MM 13:12)
(Kasakhotan-Glimate)
Studying the mow cover in K&smkhstan. Tray Otd. pog. AN Kasakh.
SSR U041177-183 160. (XIIA l3il2)
(Usakbstaa.-Snow)
XUZNETSOV, A.T.
Characteristics of the formation of snow covering in Kazakhstan
plains. Trudy Otd. geog. AN Kazakh. SSR no.P,:147-161 '61.
(M1RA 14t8)
(Kazakhstan--Snow)
S/169/62/000/012/082/095
D228/D3O7
-1'.uznetsov, A.T.
TITLE: Question of a method for snow cover observations
in Nazahhstan
,Wforativnyy -hurnal, Geofizika, no. 12, 1962, 56-57,:
nastract 12V355 (In collection: Snezhn. pohrov, yego
rasprostr. i rol1v nar. 'kh-vc, M., Ad4 Oki
-SSR, 1962,
T-','X'2: The application of combined research methods is most
proniuaing for c.-.,posing the mode of occurrence and dynamcs of the
snow cover in the cork)lex orographic and climatic conditions of Kaz-
al-distan. Coordination of data characterizing the snow cover- of Kaz-
aklistan with the results of climatic research shows that the nateri-
als of snow cover observations at zoral points can De expediently
processed by reducing them to the data of reference points. Ulion
using the combined method of snow cover observations, the reference
points and, if possible, the zonal points are lirlted up on the net-
Card 1/3
S/169/62/000/012/082/095
Question of a method D228/D307
work of local air-routcs, on which observations are made monthly or
at least 3 times a winter (in the pcriod of stable snow-covcr forma-
tion;.when._thc_dcpJ-11 a at.the ~egin-
ning of the thaw). The networl. of temporary snow-mcasuring areas,
where a lightened route snow-mrasuring survey is made, is chosen 'if
the distances between refercnce points are large. 'sjr-routc obser-
vations, conducted synclironously with ground observations at refer-
ence points, provide opportunities for foriming a sufficiently relia-
ble idea of. the degrac,, to. whiqli_a_terr~tory is covered by snow, and
for crtiznatiiv,' the mode of occurrence, structure, depth, and state
of the snow cover, and the sites of snow removal and accumulation.
Visual air-route observations are supplemented by photoerra-..)Iiing the
individual, most substantial, and typical sections of the snow
cover; places from which snow is being bloi-M....away; accumulative
forms of the anow cover; etc. Tho proposed method, whereby snow
cover observations at reference points are combined with air-route
observations, enables the results of all previous observations to
be used by introducing ap?ropriate conversion factors. It also
?rovides opportunities A-or establiahing the relations of snow cover
Card 2/3
Question of a method ...
S11691621000101210821095
D228/1)307
dynxAcs to the synoptic proccoses influencing it. Under the com-
paratively' stable wind conditions of Kazakh-stan systematic air-route
and ground observations will allow the migration of snow to be
fixed. They will also allow quantitative indices of the influence
of individual topographic and vegetation features to be ex-posed for
a snecific territory. Detailed-yearly field*inveotigation of the
sno;7 cover and the synontic conditions of its formation and disap- V
pearance will permit thic exposure of regularities in the dynamics
of snow cover Oistribution and, thus, an approach to the solution
of a problem that is'most important practically; to predict the
individual stages o-JI! formation of the snow cover and'its character-
istics. 3 references.
f7i~bstractcr's note: complete translation_7
Card 3/3
Vl
KTJ?NE'T',3')V A.V. (Jromu-nr~c--vr, '07-NFT-,(JVA, (K=unar6k,
- ~-7;- - ~-, 1,
l,uRanakq.ya
NintogravhIn soluhor- of P. Wning p-,,blom, Nom. sb(-,r. 1650
(MIRA --,80.0)
KITZHETSOV, A.V. (Kc=unarsk, Luganskaya oblast')
Nomograpbing of constructions of illuntrative Images without using
points of convergence. Nom. abor. no.3t23-30 165.
Method of construction of axonometric drawings by means of super-
position of the image field above the binary nomographic field.
Ibid.:32-1+0 (MIRA 18;10)
KUZNETSOV, A.V.
Unsolvability of the general completenesav resolutiont and
equivalence problems for propositional calculus. Aig. i log. 2
no.4147-66 163. (MIRA 17:8)
'Ord
ACCESSION NTR- AT4048801
'T 11 ~ n 'L i n the
I !lit
1-1, H
KUZNFTSOV. A.V. .(Leningrad)
Air and air collectors in heat-supply systems. Vod. I san.
tekh. no.3:30-31 Mr 159. (MIRL 12:2)
(Hot-water heating)
laj 2-N.FTSOV ~. AV.
.Analog.q of "Sheffer's sLrokell in constructive lovic. Dokl. AN SSSR
,160 ;io..2:274-277 1-65. (1111U 18:2),
1. SNbmitted June 2-9p 1964.
VLASOVP V- V*,- KMNETSOV; A. V.
Melanterite and the products of its alternation. Zap. Vses.
min. ob-va 91 n0.4:490-492 162. (MIRA 15:10)
I. Kazanakiy filial AN SSSR.
(Tatar A.S.S.R.-Melanterite)
(Udmurt A.S.S.S.-Helanterite)
KUZIIETSOV, Aleksey Vasillyevich; ZIMBIMIA, D.I., red.; TIKHOCHOVA,
IXTY-1;kIn. red.
(Communist labor will triumph; from the experience of com-
munist labor groups in Leningrad industries] Kommunistiche-
skii trud pobedit; iz opyta raboty kollektivov kommunisti-
cheskogo truda provqohlenrqkh predpriiatii Lenfagrada. Im-
ningrad,, Lenizdat 1961. 101 p. (MIU 15:2)
tLeningrad-Socialist competition)
GIMAMV, YU.V., kand.tekhn.nauk; KVASNITSKIY, Ye.A6.0 inzh4
KUZUETSOV, A,V., inzh.
Controlling stresses during the creation of prestiessing in
steel elements, Prom. otroi. 39 no#7.40-45 161.
(MR& 14:7)
1. Stal-inakoye otdeleniye Zapadno-Sibirskogo filiala
Akademii stroitel'stva. i arkhitektury (for Gaydarov, Kvasnitskiy).
2. Treat Mostoatroy-2 (for KU2netsov).
(Stalinsk-Prestressed concrete)
MELIK-PASHAYEV, V.S.; KOCHETOV, M.N.; KUZNETSOV, A.V,; DOLINA, L.P.;
Prinimali uchaotiyes BELYAYEVSKIY, A.A.; LISUNOV, V.R.;
NEYMANP V.Ye.j CHERNOGLAZOVA, T.Ya.; MAMUNA, V.N.; ZHDAKOV,
M.A., prof., red.; PERSHINA, 79.0., ved. red.; YAKOVLEVA..
Z.I., tekhn. red.
[Methods for determining the parameters of oil. and gas pools
for appraising their reserves in platform-type fields using
the volumetez-1c nethodl-Metodika opredeleniia paraw*trov za-
leahei nefti i gaza dlia podscheta zapasov ob"emnym metodom;
na mestorozhdeniiakh platformennogo tips. [By] V.S.Melik-
Pashaev i dr. Pod red.M.A.Zhdanova. MoBkva, Gostoptekh-
izdat, 1963. 269 p. (MIRA 16:5)
(Oil reservoir engineering)
KUZNETSOVo A.V.
Widening of roentgen lines due to the affsot of veamdaz7 am-
tination. KristallograMa 8 no.12202-204 T&-F*63
(MM 17 97)
la Petrozavodekiy goeudarstvmnly utniversitet.
KUZNETSOV, A.V.; NIFASHEVA, I.F.; GAVRILOVA, L.A.; DANIIDVA, V.M.
Frontal sections in the Arctic Basin and 1heir relationship
with the types of synoptic processes. Trudy AANII 255:192-
212 163. (MIRA 17:6)
1. A. V. KUR%T_501.
2. USSR (600)
4. Agriculture - Study and Teaching
7. Work practice of three-year crop and animal husbandry courses on Crimean
collective farns. Dost. sellkhoz. no. 12. 1952.
9. Monthly List of Russian Accessions, Library of Congress, April -1953, Uncl.
3V%MW2z- Q,
M
i~ 'i W"A
-X'U~ZSOV. A.V-4 LWP~q.-M-A.; IXKOXTSZV, A.S., SKRIMOV, B.F., SHELEST,
VCR uz. P. I
'Gi m, radaktor; GUREVICH, M.N., takhnicheskiy re-
daktore
[composite crave on collective
brigady v kolkhosakh. Moskva,
(Collective farms)
farms] lomplakenys proisvodetvannys
Goe,izd-vo sellkhoz.lit-ry, 1956.172 p.
(nu io; 6)
KUZSETSOV, A.V., kandidat ekonomic4askikh nauk
Bonuses as an important factor In increasing the productivity of
labor. Nauka I pared.op. v sellkhoz. 6 nooll:70 N 156;
(Bonus system) (Collective farms) (HL'RA 10:1)
USSR/Cultivated Plants - P-jtat;)cf3. Vc(,etables. Melons. M
Abs Jour : Ref Zhur Diol., No 12, 1958, 53622
Author : Kuznetsov,. N.
Inst :
Title : I.V. Michurin's Doctrine Applied to the Selection of
VeGetable and Melon Crops in Kuban'.
OriG Pub : Michurinsk sb. Krasnodar "Sov. Kuban"', 1957, 230-242
Abstract : This article describes the selection work with the ve-
G-etable and trailinG cultures at the Krasnodar Vegeta-
bla-Potato Experinental Stationp at the Experimental
Selection Station of the All-Union Institute of the
Canning Industry (Crimean Station and the Maysk Selec-
tion. The followinG tomato varieties were obtained at
the above mentioned stations by hybridization of the
local varieties vith the varieties of forciUi selection:
Pervenets 190, Chernomorets 175, Mayak, OPolclic',Iets 534.
A local onion variety, the Rozovyy Kabardinaskiy,
Card 1/3
- 45
USSR/CultiVated Plants - Potatoes. VeCetables. Melons. M
Abs Jour Ref Zhur Biol*, tic) 12, 19580 53622
doubled its yield after hybridization with the follow-
inL; mr1liamialneous varieties: Duii_,=iskiy (KazSSR)
and Vertyuzhanskiy (Moldavian SSR). On the basis of
the crossing of aL:Uplant varieties of geoLTaphically
distant oriLan, lonC; Italian x New York, a pupulation
of drou(,;ht resistant eZWlanta with variously shaped
fruit was obtained4 the radish variety Krasnaya Sosullka
764 jbtained by intervarictal hybridization of Ledynnaya
Sobttl'ka (Moscow) x Sans Parail (France) - was crossed
with Indian raustard (Drassica juncea) oriCdnatinG in
Japan. The result was radish variety Gorchichnyy 766
distin&,aished by a wique punGent flavor. By crossinG
0 Chinese radish C7_7 with radish, a variety with larGe
roots, Kousamol'skaya 857, was obtained; red and violet
surxier radishes) the Pervamyskiy, was also obtained.
Intervarietal hybridization is also used in the selection
of potato, pumpkin, ate. 11.1r. Tkachenko produced the
Card 2/3
.. . USSR/Ctltivated Plants - Potatoes. VeLptables. Melons. m
Abs Jour : JRGf Zhur - Diol., Wo 12, 1958, 53622
0 cueunber variety Posrednik 97 zh which chiefly bears
femle flowers. -- G.N. Chernov
Card 3/3
- 46 -
EYZNWSOVp A.Vo; SAGALOVICH, Yolisavota laumovua
[Tagetable gardening in China] Ovoshchavodstvo v Kitae. Xoskva,
Goo.izd-vo sallkhoz.lit-ry, 1959. 359 p. (KIRA 13:7)
(China-Ugetable gardening)
KUM TSQ"-,Jcand.ekonomicheskikh rimilk
Make use of all capacities in the agriculture of the Amur Valley.
Zemledelie 24 no.5:32-15 MY 162. (MIM 15:7)
1. Bla&veshchenskiy aellskokhozyaystvennyy institut.
(Amur Valley-Agriculture)
NIKOLISKIYv L.N., inzh.; KUZNETSOV,, A.V.? inzh.
Rol.l. forging of blank an preliminary operation to press for "', -
[Nauch. trudy] SHIMWHa 3:11-37 '60. (KM 14: )
(Forging)
S/182/62/000/012/001/005
D040/D112~
AUTHORS: Rebollskiy, A.V. (Deceased)) Protopopovp O*V#j Kuznetsovp AN.,
Polyakov,~ I.S., and Hybakov, Yu.1.
TITLE; Press forging in sectional dies
PERIODICAL: Kuzncchno-ohtampovochnoye proizvodstvo) no.12, 1962, 3-8.
TaT: i;NMUSh and the Noskovskiy avtomekhanich63kiy institut (Moscow Automechani-
cal Institute) jointly studied the sectional-die forging process by forging two
types of automotive universal joints. The universal joint was chosen because it
is a typical automobile jart with long protrusions,that can be economically fabri-
cated by the sectional-die forging method. The article gives a detailed descrip-
tion of the two experimcntal dies sets, observations of metal flow in the the and
the transition radii, gaps between the punch and the the container, and the forg-
ing outline giving proper filling of the die without burrs. Engineering reco=an-
dations are given. Studies have yet to be continued to find the necessary techno-
logical data for the forging of parts other than universal joints. The recommenda-
tions concern the outline of the forging, the use of one-stage and two-stage forg-
ina for different forgings, the types of special Presses to be developed. Reference
Card 1/2