SCIENTIFIC ABSTRACT KACHALOV, N. - KACHAN, A.A.
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Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000519810016-0
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RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
July 19, 2001
Sequence Number:
16
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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CIA-RDP86-00513R000519810016-0.pdf | 3.35 MB |
Body:
I
rACK&IAN, N.
Important Nource for incroasing the efficisnoy of capital Invest-
ments, Topeekons po.l.,4"6 Ja 159. (NM 12:1)
(Capital Inveotments)
PODaIVALMO, P.D.; BALUK K.I.; RASRIHAIY. S.Y.; IVAHOV, N.A.;
-4424~~X ~N- X~ MOT, G.P.; OMYRIM, I.A.; P=SMIN, V.I.;
RUNrANTWff. A.F.; RUSAKOV, A.N.; SOMOV. I.Ya.; STONAMM, I.Be;
FILUWV, V.7, Prininal uchestip VIROMADOT, K.K. PODGORNOTA* T,#
red.1 TROUVOVZAYA. W., '~Okhn.red.
[Construction economics; textbook] Jkonomika stroitalletva; uchabnoe
posoble. Moskva, Gos.lzd-vo polit,lit-ry. 1960. 534 p.
(Km 14a)
1, tommunisticheskays partiya Sovetakogo Soyana. Vyashaya partiy-
naya shkola. 2. Oblen kollegil ?Sentrallnogo statiatichaBkogo
upravleniya SM (for Vinogradov).
(Construction industry)
PODSHIVALENKO., P.D.; BALINHIN., M*I.1- BASHINSKIrj S.V.[deceased); IVANOV,
N.A.; N .-
j, UQH QQV A , NMOV,, G.P.; ONUFRIYEV, I.S.; PERMLEGIN)
V.I.; RUWANTStY.. A.F.; RUSAKOV, A.N.; MMOV,, I.Ya.,-STOMAKRIN.,
I.B.; FILIPPOV.. V.P.1 PODGORNOVA, V., red.; TROYANOVSKAYA, N.#
tekhn. red.
(Economics of coristruction]Mconomika stroitellstva; uchobnik.
Moskvaj, Gospo3.iti7Aatg 1962, 542 p, (MIRA 15:U)
11 Kommmistichaskeya, partly& Sovetskogo Scquza. Vysshaya par-
tiymya sbkola.
(Construction industry)
KA-CH-ALOV, 0 B-
Formla for calculating Kaolflow tc a well after it hao been
shut downo On. prom, 7 no,9113-14 162, (MIRA 1718)
KAC'I,kl,OVI O.B.
. il
Stressed state of a rock mample in the case of a plane-radial
gas flow. Izv. AN Uz. SSR. Ser. tekh. nauk 9 no-3:87-91 165.
(WRA 18:8)
1. Tashkentskiy politekhnicheskiy irstitut.
KACHALOVp O.B.
Temperature distribution along a gas well bore. Gaz. prom. 7
no.4tll--12 "62 (MIRA 17:7)
-1~ A -e~
L 21219-66 EWT(M)AWP(w)/r/EWP(t) IJP(c). JP/JG
ACC NR: AP6003809 SOURCE CODEV UR/0181/66/008/001/02.65/0267.:.
AUTHORS: Kizhayev,,S. -A.: Bokov, V. A.*; Kachal6v, 0. V.
ORM Institute of Semiconductors AN ~~~,_j~~ningrad (Institut
poluprovodnikov AN SSSR)
gnetic propertie f Wtn
TITLE: Ma
03
RESOURCE: Fizika tverdogo teia v. 8, no. 1, 1966, 265-267
''TOPIC TAGS:. yttr um, compound, ferromagnetism, magnetic susceptibil-.
ity, single crystal, magnetic moment, temperature dependence,
neutron diffract-ion,-antiferromagnetism
ABSTRACT: In view of the lack of convincing data allowing.to con-
clude the existence of weak ferromagnetism and in YMnO , the autbors~.
measured its magnetic properties using single-crystal samples..' at
low temperatures. The magnetic susceptibility was measured with a
magnetic balance by.the Faraday method in the temperature interval
from 4.2 to
300K at a maximum field of 13.6 kOe. The apparatus
employed was described in detail by N. M. Kreynes (Dissertation, IFP,,
Card 1/2
7=77,17 77",
L 21219-66
ACC NR.. Ap6oo38o9
1959). The synthesis
(VTT of the single crystals was described by
1: the authors earlier .~ 5 3607, 1963). The specific susceoti-,:~.
v
_-,.__!__b1l1ty_ deareased -olqwly-with increasing tem erature, and no spon-
- --- --------
_P_
~_M -t7wafF---obaerved,--a-t--71ow--telnperatu _s N T~_
0ii*n re or-were-.-_,~-
ies -observed cbaraoterist'i-6 o-f-Ant ife'r-romagne-tic' - phase
anomal
transitions, on the temperature dependence of~tbe reciprocal mag-
J netic susceptibility.. Neutron diffraction has disclosed, however,
the presence of antiferromagnetic ordering at 4.2K. Judging from
the values of the lattice parameter, the temperature of the anti-
ferromagnetic ordering should lie in the-liquid-nitragen range. It
i5-conclud6d--on-the__._ Eiii~is~-df---thC---.da-ta-,'7-tbLL,YMn -is not~.a~--we_ak
b
O~
ferromagne f bu t d tb
..I I., t,, a ..compensa e - antif orromagnet. The au ors
AI- G. A. 0* -lbj~.:. int6 reisit~:- A.- a:- A
PM lenskiy 6 '-dlr-~Romanov for ~the: oppor
tunity of performing the magnetic measurements at loy temperatur
I. Ye. MX11nikova for supplying the single cryst;ALWT and N. M.
Kreynes,for reviewing the manuscript and valuable remarks. Mi 9
art. b
57s: 2 figuree.
SUB CODE: 20/ SUBM DATE,:,30JU3.65/ ORIG REF: 004/ Ont REF13 007
2h otA
C
_Parl
T,
--KAGHALOY, P.P., starahiy nauchnyy'sotrudnik; PMOT, Ys.P., kond.tekhn.
nauk, otv.red.; RM Sff, LT., takhn.red.
[Investigating the effect of basic factors on lubrication
conditions and the weer of the piston group of heat engines used
in lumbering) Issledovanis Yllienlia oeiiovnykh faktorov ne rexhim
smaski i ismashLybuie porshAevoi grdppy teplovyih dvIgEitelsi, pri-
mniaenykh v lesnoi proWablenno,sti. Leningrad# 1959. 75 Pi
(NBA 14:4
1. Leningrad. TSentralinyy neuchno-jealedoystallskiy institut
lesosplava. 2. TSentrallnyy.nauchno-iseledovatellskiy institut
lesosplava (for Xachalov).
(Lumbering-41achinery) (Gas and oil engines--Testing)
KACHALOV, P. P.
Cand Tech Sci - W88)."Study of the effect of basic factors on
the lubrication condition,and the wear of the piston group in
heat engines used.in the lumber industry." Leningrad% 1961.
25 pp with diagrams; (Ministry of Higher and Secondary Specialist
Education RSFSR, Leningrad Order of Lenin Forestry Engineering
Academy imeni S. M. Kirov); 150 copies; free; (KL, 7-61 sup, 238)
1. KAC14ALOV 3
.
2. USSR (600)
4. Building
7o Organization of labor in the brigade., Sell.stroi., 7, No.5, 1952
9. Monthly List of RUSSISR Accessions# Library of Congress, February 1953- Unclassified.
Analysis of the fulfillment of estimates of institutions fin-an ed
by the budget. BukhR. uchet 15 no,'4:22-27 Ap 158. (MIRL 12:5)
(RDapitale-Accounting)
NACHMAN, S.; ERONIN, W., inzh.
Revise ohip-hour norm. Rech. tramp. 21 -no M12-14
D 162 imin 15:12)
1, Zamestitell Bleha I!nika Yeniseyokogo parokhodetva
(for Kachalw-v'l 0 "r' - - "
(Cargo handling-Production standards)
(Wages.-In.land vater transportation)
I ,
KACHAWV S A*; KOVSH., G.I.
Firing glass furnaces with natural gas. Stek. i ker. 18 no.6:
3-6 Je 161. (Glass furnaces) (Gasp Natural) (MMA 14:7)
P b. r.
(Simple bookkeeping nethOds in'public health.inatitutions) Moskva,
Akadeniia med. nauk.SSSR9 190. 133 P.
X&CHALOY'S.7.
[Coordinated estimates of public health expenditures] Svod-
noe planirovanie raukhodov us, zdravookhranenle. Moskva.
Medgiz, 1935. 31 p. (KML 8:6)
(Public health-ApproprIatlow and expenditures)
MCHAWV. SEMEY FEDOROVICH -N/5
771
. KI
Byudshetnap slatema SSSR (Budget aystem of the USSR) Moskva, Modgis, 1955.
37 P. . tables (Moscow. TsentrallrWy Institut Usovershenstyovardya Vrachey.
Lektaii po organisatall. sdravookhrane niya d1ya vrachey,, no. 1)
At head of title: nnamirovaniya sdravookhranonlya i uchet v modit3inskikh
uchreshdad,vakhe
BiblUgraphical footnotes.
-Kkcxtwv , Serco-y-Pedorovich; 2SXOV, G.I.. rodaktor; C 076 A.P.
-redaletor: TIONANOVA, Z.A., tekbnlaheskly redaktor
(Compiling estimates of expenditures in medical institutional So-
stavlenie smety rankhodov maditainskikh uchrethdanit. Moskva, Goo.
izd-vo meolitsiuskot lit-27, IQ5,;. 49 p. (KM 8:7)
(ftblic health-Finance)
GMOUOVER, Isaak Abravwovich I JAQVAW F otyetetyeaW rodaktor:
_ Ajq-
SHPITALISUYA, I., re&aktor isdatolistva; I&MBY, A., tekhni-
cheskiy redaktor,
[journal-voucher forms of accountiqg for budget Institutions]
Shurnallno-oidernals forma ucbsta Y biudsbotuykh uchrexhdontiakh.
j1oskva, Goefinisdat, 1956. 93 p. (NW 10:3)
(Accounting)
IrACULDT, S.F.
Analysis of the b"VtGrY *ftlmto of a sedieel establishment* $or.
sdrov. 15 no*6:41-45 &D 156. (" 10:1)
lo Glavrwy bukkSalter Ministerstva adravookhromenlyn 655it
(MMITALS
in siesta. baketo ry estlostioun)
7-1
OMOV, V.S.; KAGRALOV. S.Y., red
(Accounting in medical "inftslattaftutrofis] -Bukhgalterskii uchet v medi-
toinskikh ushreshdanitakb. i(oskya. m-vo saravookhrananiia SSSR.
NO-1- 1957. 47 P. (MIRA 11:6)
(Hospitals-Aocounting)
SOV/125-58-11-4/16
AUTHORS: Ol'shanskiy, N.A.# Mordvintseva, A.V., Zorin, Yu.N., and
Kachalov#,V.M.
TITLE: Chambers with Controlled Atmosphere for Welding Active Metals
(Kamery s kontroliruyemoy atmosferoy dlya avarki aktivnykh
metallov)
PERIODICAL; Avtomaticheakaya avarka, 1958, Nr 1114- PP 32-36 (USSR)
ABSTRACT%
Card 1/2
The MVTU and MEI welding laboratories, under the supervision
of Professor G.A. Nikolayev, designed hermetic chambers filled
with inert gas for the fully mechanized welding of zirconium,
molybdenum, titanium, etc. The use of automatic welding heads
inside the chambers ensures a most accurate control of the
are voltage, and the welding process is controlled from a
special. desk. The f6llowing devices are described in detaill
1) an installation for welding in controlled atmosphere con-
sisting of a chamber,. a prevacuum pumps a control desk and a
vacuummeter (Pig.. 1) for welding specimens up to 300 mm length;
2) an installation for the welding, in controlled atmosphere,
of large-size specimens with the use of a movable welding
head and a vacuum line with a pump system. Contrary to foreign
SOV/125-58-11-4/16
Chambers with Controlled Atmosphere for Welding Active Metals
models, the electric motors are placed inside the chamber, thus
simplifying the welding process and permitting the design of
large-size chambers. Zirconium and molybdenum specimens were
successfully welded in the described installations.
There are 3 photos and 1 circuit diagram.
ASSOCIATION: MVTU imeni Baumana i MEI (MVTU imeni Bauman and MEI)
Card 2/2
OLISHANSKIYO N.A* kandetekbn'nauk, dotsent; MDIWVIESEVA, A.V.p laind.
tekhu.~iaj Prinimli*uch""tiyes ZMM,, ru.f.,v inzh.; KACHALOV., VA. I --
insh. -
Fusion velding of comercial-grade molyWomm. [Trudy] MVTU
no.101.-29-48 161. (NnA 1428)
I(MDlyWmuw--Weldiag)
OLISHANSM, N.A.; XACHAIDV, V.M.
CRUS68 Of Vold reinforcement forimation in electron beam
welding. AyWa. avar. 18 no.8t73 Ag 165. (MMA 18: 11)
I-ACC Ms AP6014462 OD 007
SOURCE; C E- UR/0125/65/000/008/
AUTHOR- 011shanskiy, N. A.;
K
OX none
L,* x",
TITM: Causes of weld Seam strenethening in electron-beam wolding`r
SOURCE: Avtomatichoskaya svarka,::no. 8, 1965, 73
.TOPIC TAGS: electron beam welding.butt im1ding, material deformation, welding
technology
ABSTRACT- In 6lectron-beam welding of butt joints with no added metal
there ar~ some conditions under which joints are formed 'With appreciable,
strengthening. The reasons vdq the strengthening occurs have been unclear*.'
assumptions have been made where.some assume that the strength-
ening occurs as a result of driving metal out of the welding crator.0 'While
others assume that there is an increase in volume of the metal in welding
as a result of decrease in density. Howevorp it is easily shown that the
-metal driven out of the orator is insufficient to form a r~intorcementj
while the assumption that there is an increase in.the volume of.metal is
not confirmed by experiments.
We assumed that reinforcement is formed by angular deformation of,the
'sheets., which occurs during.:the welding process.
-S&UL-1 Z M)CI 621.2n"B5.051
1 21940-66
ACC NR, AP6014462
Punch marks (10 mca) wiz4-made aIon COn-tral ~iit of a-.'120 x 240 x 9 mm
plate ofilmsN9T Latainless steellMe distance between the punch marks was
measured exact3,v,, 'and then the base metal between the punch marks was malted
by an electron beam at the following conditionst U 50 kVp I - 25 Ma.,
.V.u 25 Whro
Measurements made after welding -- show ad that .- on. Ahe-upper side o.f the plate
,there is a considerable reduction in the distance between the base punch
marks, while on the lower side it increased only sUghtly. -It was noted
that the plate was deformed,-andthat the area of the metalbetween the
punch mark decreased by approximately 1-2-103 m2 as a result of deformation..
.To determine the area of reinforcement.ofthe joint, macroelides, were made
from the plate, Measurements showed that ~ the' area of reinforcement is also
approxinately equal to 1-2"103 =%29 Thust quite complete agreement was found!,
'between the reduction in area between the punch marks resulting from angular
deformation and the area of the reinforcement produced in the Joint..,
'These expe;Ym;nts~ sujp~ort'the assuziptioif 1~ieiviously, made that reinforcement
of the joint occurs an a result of wNgular.deformation of the plate during
'the welding process. It has been found that del'ormation of the base metal
during the welding process favors pressing liquid metal out on to the surface'
.of the plate so as to form a.reinforcement for the joint,,,The editors suggest that
a reinforcewnt `ms~r also be'formd " the absence of angular deformations --as a
result of transverse shrinkage, Orig.'arto.hast 1 FA gur a "and I table i
SUB CODE: 13 SM DATEs none,
-card. 2L2
SOV/49-58-9-4/14
AUTHORS: A&ab&1*T-j-V--F---j7Pavlenko $ K.A. and Yakovleva, A. V.
TITIZ: The Ultra-viqlet Spectrum of the San in the Region
2471 - 2635 1 (Ull.~rafioletovyy spektr solntsa v
oblasti 2471-2635 A)
PERIODICAL; Isydatiya 1kademii Bauk SSSR, Seriya Geofizicheskaya,
19589 Ar 9s PP 1099 - 1104 (USSR)
ABSTRACT: 14 apeetrograms were obtained at heights to 100 km.
Lists of lines in the region 2471 - 2635 lp have previously
only,been ublished for low disprsion spectrograms
(40 A/ma) fRefe-1-3). Rat 4 gives a list of lines with
wavelengths longer t)Aa~n 2635 X for a dispersion, in the
second,order, of 20 JL/mm. These agree well with the
authors'.
The spectrograph had a cSneave diffraction (600 lines/mm).
The dispersion was 16.7 A/mm and the slit width 0.02 mm. A
moveable hand was included in the spectrograph to
compensate for the precession of the rocket and thus obtain
constant slit illumination. The exposures were for two
se6s. and the dial of a stopwatch as photographed simul-
taneously to correlate the exposure time with height.
Three particularly good spectrograms were chosen from the
~;ardl/4 fourteen taken and they were measured on a comparator, IZA-2,
SOV/49-58-9-4/14 0
The*Ultra-violet Spectrum of the Sun in the Region 2471-2635 A
with a magnification of 40. In order to increase resolution
b.v averaging over the photographic grains seen on the plate,
a special apparatus was constructed which vibrated the
objective at a 50-cycle frequency. .
The resolution obtained was -%..- 0.2 A. The least blended
lines:
2488.143 ~2591.542-
2510.834 2605.656
2545.977 260r-.697
were used to construct a dispersion equation for the
regioia. The correction required to the equation was up to
0.03 A. The correction required in the comparison of the
measured Unes with wateriapour lines in the atmosphere
was of the same magnitude b opposite sign. Average
error in measuring was 0.06ul #
A microphotometer (.MF-4) was used with eaSb-Cs cell. A
full photometric survey has not yet been made and the list
gives visual intensities on a scale of 10.
Owing to the dispersion used, most of the absorption lines
C;ard2/4 were blended. The method of measurement was as follows.
SOV/49-58-9-4/14
The Ultra-violet Spectrum of the Sun in the Region 24?1-2635
For each wavelength, lines were chosen from tables
(Refs 5 and 6) of elements widely distributed on the sun,
which agreed within the measurement error. The majority of
lines could have arisen from a variety of ions. Many could
be excluded by straightforward oomparison (e.g. by con-
sidering number and intensity of multiplets). When the
superimposed lines had an intensity ratio of 30% or
greater, both lines were included in the table in brackets.
The measured wavelength is placed opposite the basic
contributor to the line.
Elements which are uncommon on the sun, e.g. boron,
mercury and phosphorus coincided generally in line position"
with more common, elements, but BeI was observed.
The authors append a list of the lines with the following
notation: r - sharp bands.
d - dif fused AwAs,
h - iqide B&M&,,
fik [f and k-s - bands with distorted contours tozF,-,rd
the violet and red ends respeotivei7._
Card3/4
SOV/49-58-9-4/14
The Ultra-violet Spectrum of the Sun in the Region 2471-2635
Insufficiently resolved lines are in round brackets and
multiplet numbers from C.E. Moore's tables are given in
round brackets after the element.
There are 1 figure, I table and 6 references, I of which
is Soviet and 5 English.
ASSOCIATION: GoBudarstvennyy opticheskiy institut
(State Optical Institute)
SUBMITTED: October 3, 1957
Card 4/4
M
sov/49-59-8-10/27
AUTHORSt XaShalAY-16 V P. Pavlenko, N. A. and Yakovleva, A.
TITLE: The Ultraviolet Sglar SDec;r Oin the Region of
263C--2937 A \'IV
PERIODICALs Izvestiya Akademii nauk SSSR, Seriya geofizicheskaya,
1959, Nr 8, pp 1177-1185 (USSR)
ABSTRACT: The data were-calculated by means.of photographs obtained
with a spectrograph having a concave diffracting mesh.
The results are presented in a table where the following
data are included:
Column 1 - wavelength,
Column 2 - intensity and character of line,
Column 3 - probable identification.
There are I table and 4 references, 2 of which are Soviet
and 2 English.
ASSOCIATION: Gosudarstvennyy opticheskiy institut
Institut-e)
SUBMITTED: October 14, 1958
Card 1/1
(State Optical
AUTHORS:
TITLE:
PERIODICAL:
404514
3/035/62/OW/009/017/060
A001/A101
Kachalov, V.P., Yakovleva, A. V.
Ultraviolet spectrum of the Sun in,the band 2k7O 3100'A.
Re~erativnyy zhurnal, Astronomiya' I Geodeziyd, no, 9, 1962~ 53,
abstract 9A383 ("Iz4.;Kr~msk. astrofiz. observ.", 1962, v. 27,
5 - 43)
TEXT: The records of-the solar,spectrum are presented on the basis of spec.
altitude
trograms.taken at an
of-100 km with resolution of 0.15 A for the band
AX27OO - 3100 and 0.3 Afor the bandXX2470 - 2700. The distribution of absolute
energy was found by comparing~with the emission of a carbon are crater. The equ1--
valent w1dth of absorption by resonance'lines of i6nized magnesium has been deter-
mined, which is equal to 66 A atX 2800. The list of th~ mea6ured Fraunhoferslines
is presented with their identificaticni and visual -estimation of intensity for the
bandXX2632 Y,)OO There are 12 references.
From -author's summary
(Abstracter's note: Complete 'translation)
Card 1/1
L1276
S/035/6Z/000/0 10/024/128
A001/A101
AUTHORS: KLch&jQy,_YPjk_Xhokhlov M. Z., Khokhlova, V. L.,
Yakovleva, A. V.
TITLE: Ultraviolet lines of Be I Ln the Sun's spectrum
-PERIODICAL: Referativnyy zhurnal, Astronomiya I Geodeziya, no. 10, 1962, 45,
abstract 10A329 ("Izv., Krymak. astrofiz. observ.", 1962,'v. 27,
44 - 51)
TEXT: Equivalent widths of lines of Be I 2651.and )S, 2494 were obtained
from rocket spectrograms. The authors discuss the problem of oscillator strength
for three berXlllum multiplets,XX3321, 2651 and 2494, which have a common low-
er level 2s2p3P. Relative values of E gf for these multiplets are experimentally
determined. A comparison with the theoretical ones, calculated by means of Bathe-
.-Damhaard's tables, Indicates the indacuracy of the latter. It is most probable
that a more precise determination of f absolute value must lead to a reduction
of beryllium abundance on the Sun, determkned by Greenstein and Tandberg-Ranasen
(RZhAstr, 1955, no. 3, 1073), Goldberg,.Muller and Aller (RZhAstr, 1961, 11A411).
Card 1/2
3/035/62./000/010/02VI28
Ultraviolet lines of Be I in the Sun's spectrum AOOI/A1Ol
The relative variation of the observed equivalent widths of Be I lines in the
solar spectrum indicates a decrease of continous absorption coefficient from*
~,3321 towards shorter wavelengths. There are 14 references.
Authors' summary
(Abstracter's note: Complete tfanalation]
S/033/62/639/006/005/024
B032/E514
AUTHOR: 1(achalov, V.P.
TITLEt Sensitive Bil lines in the solar spectrunt
PERIODICAL: Astronomicheskiy zhurnal, v-,39, n0'.6, 977-980
TEXTi A survey of ptiblished inforinntion on lines in the
ultraviolet of the solar spdctrum is reported. The re-sults are
compared with the known se~rong.est BJI,Iines. It is conclu 'tied
that the most suitable line for estimating the abund. of Bi
in the solar photosphere is the line X 3o67.69 A. Detailed
calculations for this line indicate that the number N of Bi
ions per grain of solar matter is given'by log N = 12.8 and the
ratio of the number of Bi. atows to the number of hydrogen
atoms is give n by log NIN -IO.B.' It is noted thnt the result
-ind
for ,cosmic space is log N 11.1. There are 2 tnbles
1 figure.
ASSOCIATIONt Optichaskiy institut imeni S. 1. Vavilova
(Optical Institute inieni S. I. Vavilov)
SUBMITTED: September 14, 1961
Card 1/1
45121
S/71P-/62/027/000/001/01.5,.
A00VA101
AUTHORS: Xachalov, Y. P.,~ Yakoirleva, A. V.
T=-: The.ultraviolet solar.dpectrum'in the region 247o-3100 A
SOURCEi Akademiya npuk SSSR, Krymskaya astrQfizicheekaya observatoriya.
I,zvestiya. ..v. 27, 1962, 5 43
In 1959 five speotrograms of.the Suh were taken at heights of
-be-
about 100 km with a spectrograph of normal incidence of rays, the resolution
ing 0.15 R at 2700 - 3100 X and 0.3 X at, 2470 - 2700 The calibration of
films was made under laboratory-conditions on an MCII-28 (ISP-28) spectrograph
A carbqn are was used as a standard source of light. -A spedtrogram with.best
resolution was selected for plotting the curve of relative energies in the solar
spectrum. Miorophotograms were obtained on a.-recording microphotometer Mo *4
(MF-4). A specially designed device was used.;to transform the curves obtaiiied
into intensity curves. The distribution of absoluts'energy was foufid by compa-
risen with a carbon ar6.crater,radiatioh 'it N 2930 where both spectrawere~of.`..
the same density. At this wavelength the energy of,the Sun above th6 Earth' s
Card 1/2
44833.
S/560/62/000/014/9OV01i:.
AOOI/A1OI
3,11 0
AUTHORSt Yakovleva'I A..V., Kudryavtseva, L. A., Britayev, A* So, Gerasev,
V. F., Kathalov, V. P., Kuznetsov, A. F.i Pavlanko, No A.,
IozenaiT A.
TITLE: A speotromttric.:Lnvestigation of the oz6ne layer up to 60-km alti-
tude-
SOURCE: Akademiya n~uk SSSR. Iskusetivennyye sputniki Zemli. no. 14, 1962,
57 - 68
TEM The vertical distribution of ozone can be determined from the. seat-.
tered ultraviolet radiation of the Sun, using reversal effeut discovered W
G8tz, or by direct measurements from the ground surface and from balloons or.
rockets. In order to compare these indirect and direct methods, simultaneckis
measurements of altitude ozone distrlbution,with a spectrograph,liftod by
a of ultraviolet.i
rocket and with a ground spectral,equipment for observation
light scattered from the sky zenith,..were'earried out in the USSR on June,l!~
1960o. A photoelectric speotrop4otometer'with double light.decompoaition in
Card 1/
S/560/62/000/014/004/01I..
":-A spectrometric investigation of the.'.. A001A101
quartz prisms was used for observations from the ground surface. The amount*of
ozone In various atmospheric loets, total amount and the altitude of the gravi-'
ty center of the ozone layer frdwthese observations are shown in Table 1. The
first ascent of a rocket for ozone measurements took pl&oe on July 19, 1955i It
turned out that all ozone stas concentrated in two laye-s; 13 - 26 km and 50
.64 km,.between which no ozone was:deteoted. The secohcf.rise was on October 1,
'1958i at a Sun's declination of 190. The third attempt'was made on June 15;
1960. A diffraction spectrographiprovided with a tracking device was lifted on
a geophysical rocket. The results of Soviet measurements are compared with
American ones and presented graphically in Figure 5- -comparison between in--
direct determinations and measurements from rockets is'shown in Figure 6; the
agreement between them war found to be satisfactory, bA the final answer on
their equivalence can be obtained only .after further Investigations with rook-
eta. There are 6 figures and 3'tables.
SUBMITTED: December 12, 1961
Card 2
L 4
45122
S/71P,/62/027/000/OOZ/01
AOOlAlol
AUTHORS: Kachalov. V. P.. Xhokhlov, M. Z., Khokhlova, V. L., iukovleva, AX
TITLEs -Ultraviolet-Be.1711nes in-the solar-spectrum-
-SOURCE: Akademiya nauk SSSR. Krymskaya astrofizicheskaya observatoriya.
Izvesti'ya. v. 27, 1962,44 - 51
TEXT: The problem of beryllium abundanoe*is of importance in connection
with the problem of origin of elements and intermixing of substance in stellar
interiors. Two multiplets of Be 1, X 2651 andA 2494 were identified in the
solar ultraviolet sp~otrum obtained by rockets at heights of about 100 Ian. Tiese
multiplets, as well as multiplet X3321, have a common lower level 2s2p3P0 1 2
with excitation potential 2.71 ev. The problem of oscillator strengths of'
these multiplets is considered. The relAtive valutB of Z gfexp for thdse multi-,.
plets are determined from absorption spectra in a King furnace by comparing
equivalent widths of these lines in the region of rectilinear portion of the
curve-of growth. Absorption spectra were obtained for various temppratures
from 2,300 to 3,OOOOK and the pressure in theSing furnace of the order of
Card 1/2
S/.712/6P,/027/000/OOWO15
Ultraviolet Be I lines in the solar spectrum A001/A101
100 mm Hg. -The comparison of experimental 'Zgf with theoretical ones shows a
considerable difference. Calculations by the Bates-DamSaard tables for Ca I
leads' also to results diverging from experimental values. Therefore the use of
these tables for calculating absolute f of the Be 1-multiplets considered is
not justified. The introdiaation~of a corresponding o6rrection will lead to r6-
duction of beryllium abundance In the solar atmdsphere and to increasing dif-
ference between its abundance-there and in the Earth"and meteorites., Analyzin&
the relative variation of the,"obse4ed equivalent'.widths of Be.1 lines in the
solar spectrum, the authors conclude that the coefficient-of continuous ab-
sorption decreases from % 3321 towards shorter wavelengths. 'However this prob-
lem calls for a further study from both expepim6ntal and theoretical viewpoints.
There are 4 figures and 3 tables.'
SURMI May 1961
Card P,/2
D
I
YAKOVIEVA, A.V.; KUDRYAVTSEVA, L.A.; ERITAYEV, A.S.; GERAM, V.F.;
KACHALOV VP KUZ14ETSOVf A.P.; FAVLENKOO,N.A.f- IOZENAS, V.A.
$ Lti
Spectrome trio inves'tigation of the ozone-layer up to the
altitude of,60 km. Iskasput.Zem. no.14-0748 162.
(MMA 15:11)
(ozone)
(Atmosphere) Upper-Rockat observations)
KAC~~
Sensitive Bi I lines in the solar spectrum. Astron.zhuro
39 no.6:977-960 N-D 162. (MIRA 15:11)
1. Opticheskiy institut im. B.I. Vavilava.
(Spectrum, Solar)
YAKOEOCNI, G.P.; KikCiLk"OV, Y116me
Mathod for calculating the reduced pressures of formation umtors
in wuter drive syutom3. Geol. nofti i gaza 0. no.6:4~-58 is 165.
(MIR& 18:8)
J-* Vsesoyu?,nyy nauchno.-issledovatellakiy geologora-wedochnyy
Tieft"pancy :U,,stitut,, Mosk-m.
----------
'R L9=A (47W) A M to-] kiln,
S S R _hf
O*wt~ OkOw 124 No
~~AN AM
Om car botio, Y hum) JzJ. 'It" &i;~Q 105). E~Cwh are f3ell
15' ft-' ~~atji 'o k- Ofuck 3 7 fl ons um - fntcynM vpfdt 7 -2 A., F"V
chmi~;. 6", ns-tam C j6O rL flzl"n tOtAl knSth, 3i~) ft (ent ,
fL)- Tbe of [L
Emd O'n ccgj CPP&-ii We charnbr,
g co"'
.c 87 ft
0 GMA opftttdatl,zc. (3fiso' 10flS. 7be Is
KACIA
JAQYA+J,,E., Cand tech Sci __ (diss)" d f t i
N U ,j,,e r a n
%AAA"xk PV
materials of km#W""id Wi~i-", bowedwow z rconium
7 --- - --- -- -1
dioxide-" Len,,1958P 15 PP with illustrations (Min of Higher
E&acation USSR. Len Order of Labor Red Banner Tech Inst im
Lensovet) 130 copies M., 32ft 32-58., 108)
- 28 -
5(2)
AUTHORS*.
I
TITLE:
PERIODICAL:
Kachalova) L, Po, Avgustinik, A. 1,
S01/153-58-5-12/26
Investigation of Xermet Based on ZrO,-Cr (Issiedovaniye
kermets. na o9nove ZrO 2-Cr)
Izvestiya vysshikh uohebnykh zavedeniy. Khimiya i khimicheskaya
tekhnologiya' 19581 Hr 5t PP 70-75 (USSR)
ABSTRACT: As, according to.the opinion of some scientistel there exists
the possibility of stabilizing ZrO by means of titanium
(Ref 1) it was interesting to cheof if metallic chromium can
be used for this purpose. A kermet produced in this way could
combine the properties of a highly refractory oxide with the
high thermal conductivity of the metal component. The vibration-
ground components mentioned in the title were carefully mixed
at a ratio of ZrO2 : Cr - 90 : 10 to 30 : 70 (Table 1). Bars
were pressed from it (pressure 1000 kg/oM 2) . These bars were
burned in eleatro-vacuum furnaces TVV-2 at a temperature in-
crease.of 5000/hour up till 17500, and then were cooled for
10 minutes* To explain the usability of the said kermet for
Card 1/3 the production of the terminals of thermocouples for the
SOY/153-58-5-12/28
Investigation of Kermet Based on ZrO 2-Cr
temperature measuring of molten metals the bars were immerged
into molten steel at 16500 as well as brass at 10700 for
0&5 minutes, and then were quenched in air or cold watera The
properties of the samples in dependence upon the composition
are given by table 2& The ex erimental results make possible
the following conclusions! 1~ Kermst of high mechanical strength
can b6 pr6duoed from ZrO2 in a mixture with chromium powder
(20% and more). The reason is to be found in the fact that the
metal component compensa testhe change in volume formed in
polymorphous transformations of monoolinic ZrO2 at high tempora-
A.
v res. This causes a stabilization-like effect* 2) A previous
partial ox1dation of chromium in the Bmples as well as an
addition of 3% Cr203 promoted the strength in the samples with
10% chromiumi the mechanical strength, however, not the thermal
stability, is increased (Table 3). 3) A microscopic (Figs 1-3)
and radiographic analysis (Table 5) proved in kermet no other
formations than the two phases of monoclinic ZrO2 and metallic
chromium- 4) The individual kermet compositions (Table 1) prove
Card 2/3 to be thermally stable in steel (up to 20 temperature changes)
lj4
Investigation of Kermet Based on Zr02-Cr
~iOV/153-58-5-12/28
and brass ( more than 20 temperatur'e changes) melts at 1650 or
10200,,resPectivelY, 5) Kermet from ZrO -Cr is not wetted by
2
the molten'metal. Its solubility in the metal depends upon it.,3
composition:' at a chromium content of more than 50% the solublh-~y
is conaiderably,inareased. 6) Compositions Kh-40 (60% Zr02)
and Xh-50 (50% ZrO2) displayed the beat mechanical strength and
the highest thermal stability; they may be recommended. for
industrial use. 7) Metallic chromium is evaporated on its burn-
ing in vacuum. For this reason the burning in vacuum must be
carried out without any time of stay or under protective gas.
There are 5 figures, 5 tables, and I reference.
ASSOCIA110: Leningradskiy tekhnologicheskiy institut imeni Lensoveta,
Kafedra tekhnologii keramiki (Le'ningrad Technological Institute
imeni Lensovet, Chair of the Technology of Ceramics)
SUBMITTED: November 4P 1957
Card 3/3
66003
6100 SLTr/81-59-8-28191
Translation from: ]ReferatlvW zhumal., Milmlya, 1959, Nr 8, P 374 (um)
AUTHORSz Kaohalova, L.P,. Avgustinik, A.1
-~igation Of a Ceramlo Metal
v6st~~ ZE92-IL -
PERIODICAL: Tr. Leningr. tekhnol. in-ta im. Lenevvets, 19,r-8, Nr 46, pp 94 - 102
ABSMACT: Som6'properties of oaramio metals based on Zr02-Ti have bean studied
with the aim of manufacturing from them endpieces for ther-mo-bouples
applicable to the measuring of temperaturas of molten metals. Samples
of various compositions with a Ti conteret., of 2 - 20% wer6 preparad from
masses with a humidity of 6% by the method of dry pressing at a specific
pressure of 1,000 k&G2. The burning of the samples up to a 't6mperature
..7000C was carried cut in the e, otrovacAm fur-aace with a tungsten
of 1 A&
heater. It has been established that Insignificant additions of titan4um
metal make it possible to obtain.8amples with a high mechanical resistance
(a T1 addition in the amount of 4% and more makes It possible to obtain a
ceramic metal with a bending resis.tan:%& of up to 2,500 kg/em2). It has
been establishedi by roentgenographic investigation that the partial formation
Card 1/2 of solid solutions of TiO In ZrO2 of oubic structure does not prevent
66003
An Investigation of a Ceramic Metal Based on Z SOV/81-59-8-28191
rO2_T'
"eversible inversion of ZrO taking PS4,.* in the "ramia met%l within the range of
11.100.- 1120000. As a res2t of the Ionglasting thermal treatment the disintegration
of the cubic structure was detected, The prevanidon of the inversion disintegration
of.produots made.of Zr02 in the'presenoe of Ti differs-from the oommon2j, adopted
stabilization of ZrO2 by additims of Cao, Ago., * It Oonsists in the compensation Of
volume changes, accompanying the Inversion of ZrO during heating~ by volume changes
of the metal. It Is noted that in view of the w;ik rasistanoo agilzat oxidation, the
use of the oeramic metal as material for the endpisats of thsmo6ouples is possible
only in the case of short-time temperature massurings in a. brass malt.
0, Maelamikova.
Card 2/2
KACHALOVAA Z.P., kand. sellkhoz. naukj KH'MTONOV, D.M. Prinimall
uchastlyst MAMAYEVI-K.A,;, agrono'mj NINIFOROV, A.M., agronom;
CHELYSHXIN, Yu.Gi, red.; DEYEVA, V.M.,, takhn. red.
(cont4viling posts and diseases of field crops) Bor'ba s-vre-
diteliami i bolesniami polevykh.kulitur. Moskva, Sellkboa-
izdat, 1963. 207 p. (MIRk 16:5)
(Field crops-Diseases and posts)
777
KACHALOVA, 0.
Materials on freshwater oligochaetes in the Iatvian S.S.R.
Izv. AN latw. SSR n'o.5185-90 163. (MIRA 17:1)
1. Institut biologii, AN Latviyekoy SSR.
Foo,I basis oP I-erthos-feedinC- fishes in the Rezra, 3iver, and r0re-ifta
lakcs. p. 147.
BIOWGICIMMIA WYKA; SEI'mm L LM.3TTIMII (latvil-a-i P31t
LIP-atnu akademija. B-Iolo,,;ijas zinatnu rodnl,,~ L-jtviaj M~-J- 3~ 19.57.
Monthly list of Er-~t Em-opean Accessions (!7,-AI)j Y,, Vol. 8) ?1-;. 6)
,!,tLust 1959.
USSR/General and Specialized Zooloa - Insects* P.
Abs Jour : Hof Zhur - Biol., No 9, 1958, 40015
Author : Kachalova, 04.
Inst
Title ~rvae ~of tieCaAd ~s ~oa Rhyncophila obliterato YcLe
(Trichopturcks ftacolihilidao).
Orig Pub Entomole obozreniye, 1957, 36, No 1, 175-178.
Abstract The mode of life of R. obliterata in Latvia, and some
details of the mrpholoCy of the larvae of this species)
were discussed.
Card 1/1
17
KACHA
PZRIODICALS: TISTIS No. 2. 1958
KACHAL017A, 0. lrpnrtance of caddis flies in food of f1sh. Tn Russian. -D. S3
Monthky list of East European Accessions QFAT) Lr, Vol. 8 No. 2
February i~59, Unclass.
KAC!UkLCVJ., O.L., Crmd llio Crtddi
r -Nufiii of tho rnd f1m7in!- of thc
lop,
(Vin of USSR. st~ te i'. P.
101)
KAGHALDVA, MRiga)
NutAtion of some:water ineectal larvae, a fish food object,
Vestis Latv ak no.6:347-152 160.
(=I 10-.9)
19.AkWoulya nauk Latviyokoy SSR# Inatitut bialogii.
(Fishes) (Larvae) (Insects)
Kamm. -- r~---,
~ - "-P
Occurrence of a*peculiar larva of the mayfly Prosopistoma
foliacaum Foure. (Ephmeropteirap Frosopintomatidae) In the
W'eatezhDv,ina Riyer in Latvia. Pht. oboz. 44 no. 0827431
165 (nu 19 11)
1. Ihstitut, biologii AN latvi"koy SSR, Riga.
KACAL9VA,_O1za---L
j -AWQYBO, Ruta; SKLENVIKS, C.,, red.; BITARS, A.,,
tekhn. red.
[Food supply for fish in the lakes of the Latvian S.S.R.)
Zivju baribas base Latvijas PSR exeros. Riga, Latvijas PSR
Zinatnu akademijas izdevniecibap 1961. 103 p. (MIRA 15:3)
(Latvia-FisheS--FIDod)
I&WILOVA.. J,, N.A.
_Qj,; SLOr
Draissena polymorpha Pallas in the Daugava River basin. Trudy
Inst. biol. vnutr. -vod no.7:47-54 t64.
(MIRA 18:2)
1. Institut biologii latviyskoy SSR i latviyskiy gosudarstvennyy
universitet.
IABUTIN A.L,; KALINIGHEVA, N.A.; KAGIIALOVA.-- TREITKE -K-M
New organic solvents and their poosib2s application to the
lacquer and paint manufacture, Iakokras, mate i ikh prim.
no.3%2$-26 161. : (KERA 14-6)
1. Vaesoyusnyy nauchno-issledovatellskiy institut sinteticheskogo
kauchuka imeni S.V. Lebedeva.
(Solvents)
(Paint industry)
-K-,',!aH a WA. Ye. -K.. _KON Ya. - a. --and -g,
1948, "Air Foam as a Larvaciddlis iled. Paraz. i Paraz. Bolez., Vol. 17, No. 2, pp 184-S!
XONS U.S.; MCHALDVAl Te.t.
JW (G-17) Insecticidal moke pots in controlling bloodsucking
insects. Ned.parssA param.bol.supplemeont to no.1:53 157.
(min l1a)
1. 1z TSentralinoy nanchno-insladovetallskoy laboratorii g1glyeiW
I apidentologit Minieteretva putey soolishohaniya SSSR.
(3MNZIN EVACM60RIDS)
(INSICTS, IWMIWS AND BIMPICIAL)
q- Ji ~x,
I V", r, i~
-K-ACR.'1,OVAj P.
USSR/Wericulture -Seeds
Card 1/1
Author i Duninp H. S,# Prof. and Xachalova$ Z. Poj:Cand. in Agri. Sci.
Title Hoist boating of needs
Periodical Nauka I Zhizat 21/4 19-20,, April 1954
.Abstract Exporiments conducted at the K. A. Timiryazov Agricultural AcadenW
In Moscow on planto revealed that bymoist heating of the seeds their
reviatance to diseases could be increased and a larger crop would be
-produced. This Is duo to the fact that plants are susceptiblo to
dicaaaes at two pariodo, at the boginning of their life and near ths
end Details of how wheat grains are infected bv spores are given.
At ;no farm oate were sou-n in 1952 after the secd had bien subjectcd
to moist.hoatine. Theny in 1953j, grain from this crop vra3 town
without molat heatin&, but it still yielded 3.1 hundrcdw~i&-ht Ptr
hectare above the avorago. Illustratiorw.
Institutionot
Subritted
r
-v r A4 t/Y if r7
j
COU"TRY
CATXORY oiLica'.'eh. ut ~%Ittivatcd
ABS, JOUR. t ftZhBio1j, Hot, 21 1952s ro.
AUVIOR viij-
P'ST. :T'i'AiYWIjkev AcIriCuitural heik6ewy
TITLE ortain wentorus ol' vie ro.,tri of :v"Ieat un6or uotcil-
I')t;S of an 1jifecri:;.ts 01 TilLutAa tritica
ORTC,. PU'Ll. 1.4517, '--o-"'
A PS TTRA C T ;C-Pou :rAroducim-, tnt: ciiiawydozoores of T. triticu -into
iwmnu uctore pk-titiuv, ulu-Rt,it varned )ut t.~at a ao-je
of of, Axm-~thj arj,;
tinips genoir-atitmi,nri-wetli there was iw- :Ljicrca;.-c in*
size anc, an acceleratino of tw-- covelopme4st of tne
w"Jeot plaklt~q. lncrev-ir,~'.- the rize tol.5-2.v-, reCucca
tae c. ergy of gex-Wu-n7Liunj anti a doac of 2.:5-3-0,- of
the wei,lat of t.-.e sasid cauped vrryin;.. degrec-Li of loss
of t:erxia.atitAj; ability of the need. i-Ita Agit uo.:~cs
cArUD: 1/2
nOMOVA, Z.P., kELnd. nauk.
Nfect of the presoving treatment of winter wheat on susceptibility
to oovered smut.Dokl. TMOiX. no,'27t:120.128 157, (KIRA-11:4)
(Wheat-Diseases and posts) (Smte)
iA
KAUCHALOVA Z P kand.sel*skokhozyaystvennykh nauk
Professor Mikhail Semenovich Dunin. Izv. TSXhA no.4:201-203 '61.
(Dunin, Mikhail Semenovich, 1901-) (HIM 14:9)
GORIENKOp FI.V.,- DR41MIYEVA,
(Mikhail Semenovich D=,n. Moskvas, 1961. &7 P'l
(MIRA 1518)
I* 140scow., Moskovskaya sellskokhozyaystvennaya aWemiya
Im. K.A.Timiryazova.
(Bibliograpby-Dimin.9 ~Mail Smenovioh., 1901-
XACHALOVA, Z.P. kand.sa1'9kokhozyayetv9nnykh nauk
Some results of using the anti-incitant serum at the
Experimental Station of Plant Protection. Izv. TSKHA
no,3:214420 . 162* (MIRA,15:9)
1. Direktor Opytnoy otantaii zashchity rasteniy Moskovskoy
ordena Lenina seltakokhozyaystvennoy akademii im. Timiryazova.
(Virus diaeaaes of plants)
(Serum diagnosis)
KACHAN, A. A.
PA
k A* s
004 9
flog still at* Illorlo"It Mille
a
00 Ph""m to 60 104mg6a W quadri- p1mr, Ill.. .11, 0 th.-
afv~ $"a vr- 1. '41 ISS01-.1 . Imstv
it'lly 4404, 1,4,1, It, its Alto %1.11161o, .4 Alto ltviol, MJ411 lit
so i toy ctraw. ", 11, Slill'sve 11191141411 Imikint,1114k It-$ ritect. 00
90 411 AM amt. of % molArvd. 00 9111KWAM to WIMIriulet ON 310 At lowrf conctm. light It AI~IOKA 41-~ the Ivulk 4 thit
mj4 sbows a 11wird affeseffmi. with elivilution Ad 0 1"00
00 it I a dower rate, after reffilaval W the IiAl A Mi' stlin., but The twWrivoill take PIRVe t"lly If
zimea WUMV. Purism b Pnoolithril alal I the hoolk; hence the notice
A, r =led fiftitift and evittivatka of On Wit. msfktd effete, ,j parking jAI" Art "Mwns. U,it A light.
00 lint1wilArkunicalothe 1.1 )"so
It has on catalytic elyect, in Iju-kt4j vestris. the 1100
00'r pbotorbm. nwtkxt bao taken place Momhond, The effect is almost, The q1tionAtin, rilicitivey it it-;
13 ii Slo" zoo
00 11014201IMMIS 1111111M 411 the MACAW WrA dMonStntril U%. At a
th 1 0 "A At I in3I3ntpjt4.(i.o. rhaheirm-
fly 4131PM lit Parked ar"I lit rNialinclot4l Almittot vorpeli. itittl4ml In file activIditil
It I I he v"1 tit (to k Am momr; the milo P 44 tile Atel"t"' oturl*v a
*Oil roe
fire in the
mell 11,411 Alto UnAl letlij-~ -4w(l ~ 0 J~. inall Oct At
09 yorhis Ill file 2va TIVIN.W. .1th Inivr4.Ju 41-ifelf.; Ill"- ..let , .4 it. tjol. M. No. Awl No . tile 41111. .4 At, rV111%,rd
sit no "'1" 0,412. 1. 1. ." 11':I A#.
Ott M little -fe J)PI, 31". :1.11, 'I'll, and VV un .01 Woo
00 11"t the IV4. to.-It lit .,tdhqty I.- Ilvv N-14 44 I-v I! m:::, -00
I&J. NJUA S.Ak K. Nrl. A_ 11, '"'Ut %111410,
41, Imioll. the "Ilylklition Mop 1% 6*111U149ftl as A idles
1,11114 toll' the vlet-l"I" ehowl Its tile 1101411A on"JAPoi , CV41
11011 - Cc, 1. 110111. 164UOO441 fly - Cc, I -f It - 4. oil
urdl 2 ()If - IIAI 4- 0. with the latter "wiltme Wnill woo
8 Ildt'"WOMROY rntatylott At tile 411SAItS %UtIAKV. Thi
00
s jostrit4nimis dmoo i%-1, howv%vr, v%j,Wti the aftetrifect. WOO
.N. Tbon
400
iti
114W -it 04T aft
~b U %v 10 a 4 1 1 ; a Ag-'r. lire ~t "WW-1 'A I A a ,w 0 to 'g- I v 06 9 a 4 3 4
e 4 10 1 1 0
0111, 0 0 0 0 0 0 a 0 0 : : : 0 0 0
ot
limp
< tic
&J. k1ki. 81 R., Kiry). 170kha
Y
d* .113(11M CMIR$ Islas$ -
"Win in %1= temp- OW A-Mutw toeff, its the 1v%1
of elslorapfiyll (a + III in win, in R1011
.a a
(0. g./I.) Inclressirs; twokmvd Imashatim with
viidble ~Wwlth use-attraviolet liKht (hish1wrtnurr Ifig Isnip),
uilinn. Si4itv .,f C
lwfttucrs no furtla-ir Chaviv 4 Ab:t
chlorophyll In a 1*3 "litt. 1(10 h RIAO %how thr
--ni- J.Cftg.- of aboorption Is the rcil on CIVIlins to lhjul'l-
uktamP. In"Olilrdsoirmt.kTadiation with immurultv-
vk*t at liquisil-air tenip. PrOum a dtvm-~& 4 the absorp.
I ion Ito the red. Ohich peirstists on stianding in the (WA at t1w
liquid-*k Imp, but III= an Martilisix lip to M.14
temp. TbechaWtokiag on Ultraviolet ill"S~mj at
iquill-sir temp is attributed in disixim. into a pos. elthisrit-
:)b!fll ion mW an 4ft-tm. It two assassinvis. with Ttmitirs,
that the poll, Ift oplits off a Ivolimij the stability of #)lei
wwrin at HquW-#k temp. In she inilird HIM + 10,I)
wAirrist %ppftm to be due to a listatim of liar I",lon list
10,0, its the hwinottlwolionluni, U"i HipOll 0. Ths%prv%rr%,%
liars not take plaft in'solo. in R1011 silimit. N1.110-114111
Ulm am 104sliffik4mt to Twolloft icalitolkin. ;Ind V-An give
Irl. only to Unstable excited lat" which iisAr Intirrare
with the X. TbM
A.A., kandidat kbimicheskikh nauk
Now son@ tive indicator of-ultraviolat radiation, Gig. I eans 22
no*lt69-70 is '57,. (MIRA 10:2)
1., In kafedry noorganichookoy.t. avellUohokor ithimil Beloteorkov-
skago sellskokhospystyannago institute.
(UMAVIOINT RATS, determination
ul0evensitive photooban. method (Rus))
/
73-3-7/24
AUTHOR: Kachan, A. A.
TITLE: Spectrophotometric Investigation of the Interaction of
Methylene Blue with Copper Chloride in Aqueous Solutions.
(Spektrofotometricheskoye Issledovaniye Vzaimodeystviya,
Metilenovo o Golubogo s Khloristoy Medl;yuv Vodnykh
Rastvorakh5
PERIODICAL: Ukrainskiy Rhimicheskiy Zhurnal, 195?, Vol. 23, No. 3,
pp. 325-332 (USSR).
ABSTRACT: In the presence of a platinum or palladium lamina hydrogen
reduces methylene blue to its leuco-base, The author.
observed that the reduction of methylene blue by mono-
valent copper ions in aqueous solutions l.eads to the
formation of a colourless product which has different
properties from those observed in the.--Ieuco-bases. The
author gives the results of comparative spectrophotome-
tric investigations of solutions of leucobase of methylene
blue and of aqueous solutions of dves which underwent
reduction with copper chloride. Synthesized and commer-
cial chemically pure 01-salt of methylene blue (without
zinc) were used after repeated recrystallisation. The
Card 1/5 purity of the methylene blue was tested by paper
73-3-7/24
Speetrophotometric investigation of the Interaction of Methylene
Blue with Copper Chloride in Agaeous Solutions.
chromatography, as well as by spectral analysis. Solu-
tions of the leuco base of methylene blue was obtained
by the reduction of the dye solution with hydrogen on
metallic platinum* Gommiercial copper chloride (X4) was
used in the experiments* Admixuures of divalent copper
were separated by repeated washing with a 5% solution of
HC1. 'The concentration of the copper chloride solution
was determined by titrating the same with potassium
permanganate. Golour changes during titration were
checked with a photoelectric spectrophotometer which was
assembled on the lines of the Y"M - 2,monochromator. The
spectral curves in the ultraviolet region were measured
on a C9 - 4 speotrophotometer. Figure 1 shows the appa-
ratus used for elimin ting the influence of dissol-ved
oxygen, the test tube containing a known quantity of
methylene blue. Figure 2 shows the influence of the H01
content on optical density of the solution the latter
containing equim-olecularquantlties of methylene blue and
copper chloride, 2 x lU ", mole/litre. The temperature
was maintained at 20.+ 10C. The discoloration effect
Card 2/5 of methylene blue sol7u-tion by zonovalent copper ions can
?3-3-7/24
Speetrophotometric Investigation Of the interaction of Ilethylene
Blue with Copper Chloride in Aqueous Solutions.
also be obtained if a metallic copper plate is immersed
in the acidified dye solution.. Figure 3 shows the rela-
tion between the quantities of rea.eted =ethylene blue
and the composition of the solution in a system with
constant dye concentration and concentration of copper
chloride (6 x 161 mole/litre) and constant volume. T4~
HU content was 0.8 mole/litre, the temperature 21.� 1 0.
Maxima on the curve a peared when the ratio of methylexxe
blue and copper chlogde was approximately 1;1, Figure 4
gives the results of measurements of the absorption
spectra of aqueous acidified H01 solutions NP to I mole/
litre) containing equal quantities 1.8 x 10 -' mole/litre
of methylene blue, 1-euco base methylene blue, reduced
CuCl dye solution, of a solution of the latter after
addi?-iorl reduction with hydrogen on a platinum plate.
2 x 107 mole/litre Ca01 was in the solution during all
experiments, Figure 5 gives the absorption curves up
to exposure to ultra-violet light and after'30 sec,
exposure (with a Hg-quWz lam CBATII - 250 of a
solution omtaining 10 mole7litre leucobase -methylene
Card 3/5 blue at pH 2.56. The influence of changes in temperature
73-3-7/24
Spectrophotomati-1c, Investigation of the. Interaction of Methylene
Blue Ydt h Gopper Chloride in Aqueous., Solut.ions..
on theI optical dens .it x 10-5
y, (when =.670-mg) on a 2.1
m0le/litro solution~.o '~et :Lone biue ith ad:ition of
2.2 x 107-" mole/litr6 nd O?~4 mole/litx Hol M;
2 x lC75 mole/litre GUOM mole/litre Raj (II).
2 CuO1 d
4:5 x 1075j&ole/litre OaG1 and 0.4 mole/litre HCl (1115
and 0.4 mole/litre HM (IV). A 40 - 50% regeneration of
the dye is obtained on increasing the temperature when
twice the amount of copper chloride to methylone blue is
used for the preparation of the investigated solution.
When the first 3 additives (I - IM) are used complete
regeneration occurs when the solution is exposed to the
influence of oxygen. Table 1 gives temperature data
obtained during heating and cooling of the,investigated
solutions in ampoules. The obtained data verified the
formation of semi-gainone form of methylene blue during
the interaction of ions of the dye and copper chloride.
There are 6 figares, 1 table and 12 references, 4 of which
are Slavic.
SUBMIMD: November, 10, 1956
Card 4/5
AUTHORS% Kachan A. A.--,-Sherstoboyeva, M. A. 78-3-5-5/39
TITL'b: The Influenae.of Inhomogeneitieo on,the Dark =d Photo-
.chemical Dooompositionof the Permanganate-Ion (Vliyaniye
geterogennositi n'a temnovoye i fotokhimicheakoye
razlozheniye permanganat-ionov)
PERIODICAM Zhurnal Neorganicheskoy Khimii; 195B, Vol 3, IIr 59
PP 1089-1094, (USSR)
ABSTRACT z Comparative investigations were conducted on the
behaviour of aqueous potassium permanganate solutions
under dark operating conditionslas well as under the influence
of photons.
The speotrophotometrio investigations show that the in-
stability of'th6 Mno4-' n: 7'e
0 9 connected with the reduction
prooesses,.which depend on the hydrogen-ion concentration of
the solutions. The decomposition of the MnO -ions in
neutral solutions proceeds slowly; in acid ineag however,
it proceeds faster,,and fastest in alcaline solutions in
darkness. By the influence of photonsit is destroyed very
quickly.
Card 1/2 The presence of a solid surfaoe,especially of a glass wall)
170)
AUTHORSt Kachan, A. I., SherstoboXaval k. A. SOV/20-124-3-61/67
TITLEs Effect of Light on the Electroconductivity of Potato Leaves
(Deystviye eveta na elektroprovodnost' listlyev kartofelya)
PERIODICALs Doklady Akademii nauk SSSR, 1959, Vol 124, Nr 3, PP 707-710 (USSR)
ABSTR&M The illumination of the filamentous alga Clodophora and of the uni-
cellular alga Chlorella with an electric bulb reduced the electro-
conductivity of the system. Itincreased again with subsequent
darkening (Bet 1). This fact mainly reflects the change in the ion
concentration of the culture solution: during illumination, the
algae absorb ions from the solution, after the switching-off of the
light, part of the ions from the cello are returned into the
soluti on. In view of several important conclusions arrived at by
L. G. Yaglova (Bet 1), the authors considered it an interesting
task to obtain direct test results on the nature of the change of
the conductivity of the green plant parts both during illumination
and immediately after the switohing-off of the light. The electro-
conductivity was measured in an eleotrode.oell (Fig I). Newly picked
potato and Echeyeria leaves were washed in aqua destillata and dried.
A 500 watt projector bulb served as a light source. The light was
card 113 directed onto the cell by means of a large condenser. Infrared rays
Effoot of Light on the Electroconduotivity of Potato Leaves SOV/20--124-3-61/67
were absorbed through a filter from a CuSO4 solution. Figure 2
shows the changes in the specific conductivities in an old (1) and
a young (2) potato leaf. DAring the first few seconds of illuminatica
the electrooonductivity of the leaf rises rapidly. Men it ceases
to increase and remains constant. After the switching-off of light
.the conductivity decreases. The ohlorophyll-free subsoil vegetables
(beetroot and carrots show no changes in conductivity. Typical
ferment toxins (Hof 5~ that are directly related with photo-
synthesis (hydroxylamine hydrochloride, o-phenanthroline copper
sulfate) suppress the change effect of the conductivity ?Fig 3).
Thus the considerable role played by ferments in the photosynthesis
of the potato leaf can be demonstrated. Figure 4 presents the
results of control testm with Echeveria. leaves. It can be considered
a proven fact that light, during the first few seconds after its
action, is the chief-factor responsible for the rise in the electro-
conductivity of the potato leaves. L. G. Yaglova (Ref 1), however,
could not notice this fact in her experiments. Further studies of
the effect of light on the leaves of various plants may be of im-
portance, not only for theory but also for practical application.
Card 2/3 There are 4 figures and 5 references, 2 of which are Soviet.
Effect of Light on the Eleotrooonduotivity of Potato Leaves BOV/20-124-3-61/67
ASSOUIATION.- Belotserkovskiy sellakokhozyaystvennyy institut
(Belaya Tserkovl Agricultural Institute)
PRESENTED: September 24, 1958, by A. L. Kursanovt Aosdemioian
SUBMITTEDs Key 8, 1958
Card 313
KACHAN, A.A.; MJKHOVKA., F.F.
Photochemical reduction of caric sulfate in aqueous solutions
of aulfurio acid..Zhur. -Iftz. khim. 36 ilo.3:526-532 Mr 162.
(MIRA 17:8)
1. Balotserkovskiy selIskokbozyayntveiuW institut.
KORNVI K.A. E-Kornievp K.A. 1, doktor khime naukL KACHAN, A.A., kand.
khij6. nauk; IDKH4ACHOV V.F.j 'VOYTSEKHi7gvK.T-
[Voitsekhivotkyi, R.V.I# kand. khim. nauk ,
Using ultraviolet speotroscopy for the investigation of the
photodisintegration of polyeaprolactam. Khim. prami [Uk-r.]
no.lt65-66 Ja-Mr$63 KMA 17 z7)
1. Institut khimii polimerov i monomerov AN UkrSSR. 2. Chlen-
korrespondent AN McrSSR (for Korner).
74'
ff. S/073/63/029/001/008/009,
A057/A126
AUTHORS-. Kul'skiy,~!L.A., Kach,an,' A.A., Sherstoboyeva, M.A., Timoshenko, T.'Kf;*-,,
TITLE:. The cataly~ia activity -,of silvei?- Water upon'the oxidation of indigo-
carmine by hydrogen peroxide
PERIODICAL: Ukrainskiy khimicheskiy zhurnal, v. 29, no. 1*-1963, 166 7 108
The peroxidaze activity of silver viater (Agw) which is known a$ a
strong bactericide. was,investigated:at the Institut obshchey i neorganicheskoy
khimii'AN USSR, Belotserk6vskiy inatitut-(Institute of.General and Inorganic
Chemistry AS UkrSSR, Belotserkov Institute) using as a-.model the reaction between,
'or Agw was compared with
H gocarmine (IC),' The peroxidaze activlty~
202 and indi
the activity of silver ions, and solutions 'containing dispersed.silver,'%O and.
AgCl. The effect of casein wag also attidied. The experiments,were carried.out
with 5 - 10-4 M IC solutions at pH -5.9, and the reaction was controlled by..
measuring,the optical density (605 mfx) of the solution) *It was observed,'in
agreement with literature data, that the reaction of IC decolorization with H202
oediirs by the first order in relationtD IC. The obtaAiied,values of the reaction
Card 1/2
GI.Ty:-,:, N.F. FHnjp, N.P.1; XULIK, N.V. [Kul- k. A u-
y , J, -r,3.
L.-!,
kb--*=. nauk; CHFRVYATSOVA, L.L. [ChervIiatsova, "-i
Lightuproofing of polyamides by means of graft copolymerlAzatlon.
Khim. prom. no.4:9--10 O-D 164. (WRA ISO)
I ~ ~ - -.- ~ :- I
771--..
fill
tian
a~a ~~Ea
g pi
ROA."
I ~ , Y. MOM,
g1
L 2,5 2 -6,-
ACCF"FinN NP'
"'ACCESSION NR: Ap4oloo6l 5/0021/64/0001001/0082/0084
1~9 14
AUTHOR: Guty*rya, V. S. (Academician); Xachan,,,O?,,,.d
Polak, L. S.; Nizells1ky4y, Yu. M.; Kolbanovs'IW*y, Yu. A.;
TITLEs Radiolyols of cyclohoxane adsorbed by synthetic zoolites
SOVACE: AN UkrRSR. Dopovidis no. 1, 1964, 82-84
TOPIC UGSt radiation chemistry, radiolysis cation-exchanger, molecular sieve,
zeolite, synthetic iseolite, type X molecular sieve
ABSTRACT:- The present work was done to determine the influence of the chemical
composition of the adsorbents on the composition of the radiolytic products of
cyclohexane. Synthetic meolites (commercial CoX, NaCaX and NaNix) were used
to adsorb cyclohexane, which was irradiated.with CoQV garma-radiation. The
radiolytic products were analyzed by gas chromatography. 7he results indicate that
the presence of twD cations in the zeclite, one of them of variable valence, is
important for the formation of an adsorbent actively affecting radiolysis. Orig.
art. has 2 figures and I table.
Card 1/2
ACCESSION XR: AP4010061
ASSOG,IATION: Insty*tut khimiyl polimeriv i monomeriv AN UkrRSR (Institute of the
Chemistry, of Polymers and Monomers, AN UkrRSR)-, Insty*tut naftokhimichnogo
sy*ntezu AN SRSR (Institute of Petrochemical Synthesis, AN SRSR f5krainian oquiva-
lent of sssf)
SM1ITTED. 20jun63 DATE ACQ-. 1OFeb64' ENCL: 00
'SUB COIZ.- CH, NS NO REF SOV: 001 OTMI 003
Card
ACCESSION Mi: AP4012391 S/oo2l/64/000/ooi/022.4/0226
11 4
AUTHORt Kornyevs Ke A. (Corresponding member) t GWp, N. P.; Xachan,
Chervyatsova, L. L.
TIW.t Photochemical initiation of graft copolymerization of acrylonitrile to
kapron fiber
SOURCE: MI UkrRSR.. Dopovidi, no. 2,- 1964, 224-226
A'
TOPIC TAGS! kapron, acrylonitrile, nylon, graft copolymer, polyamide fiber
copolymer, polycaprolactain
ABSTRACT: P~otochemically initiatid graft 'copolymerization -was carried out with
acrylonitrile in the vapor phase to avoid formation of the homopolifter. The fiber
was irradiated with unfiltered light 6f a mer~=7-quartz lamp at a distance of 20
cm for 1 hour at ZVOC, It was found that the grafting continued after the irradi-
ation was discontinued. A kinetic eqbation derived for the graft copolymerization
was used to calmaate the activation energies of the process and of the growth and
breaking of the chains. Orig. art. his 1 forkula and 1 figure.
Card 1/2
ACCESSION NRi AP4012591
ASSOCIA71ON: Insty*tut kh1mV1 polimeriv j monomeriv AN UkzWR (1pstitute, of the
Chemistry of Polymers and Monomers. AN UkrRSR)
SUMITMD: 21Jun63 DATE ACQ: O.'.-.%Iar64 SINCL: 00
SUB CODE: CH NO REF SOVt 002
OMM: 014
Curd 2/.2
ACCF-SSM';
K,,;r-,)(-v K-A Kamm, A A. Chervyatsov,,
SOLIRCE: Ukrainskiv k-himicheskiy zhunial, v. 30. no 12, 1964.
L 2523845
ACCESSION N-R: AP5007750
vapor pressure led to an increase in the quanUty of copolymerized polyacryloaArile.
An inerp~ir~e in -emporn'ture kiecre-ased the aTnokint of
In rdGla*UL'~-. -",;F~,:P aLJ,;"e -~ MT.W, ~,iiG ~111,v
PeLf Uul;~~auug w Lav uvtuuauuu vi We fU25u1L.'5 ~Jrifz. al..
4 fig-ures an-J iorinuia
ASSOCIATION: Institut vysokomolekulyarnyl-th soyedineniy AN' SSSR (High polyrner
institute, AN &;-SR)
SLIBAIT'rTED: 25Dec63 ENNCL: 00 SUB CODE: OC
A
NO REF SOV.- (103
OTH ER. 005
Card~- 2/2
L 2306h-65 1;!qTtn) 'IFT"'r-) !vP-`r
S CK12
AMMOR: Kosty~~a,,_~,. (Kor-tyleva, Z.A -nev,
yev I K.A Kor
lo r rs no -id i n -- i, .,- ri be r 'Uk r SS Rcn
T
T-je ra(Lation c-;,enical t me; by Unidnig &gentz
Oz
SOUPCE! AN UkrTGR. Dopovidi, .0 C)6r 64
TOPIC TAr.,:,- triallyl ioocya-nux-te, irrad'atim -1z alr, 6i'lite cross
-UL&PLIng
ABSTRACT: The efficacy of usiDg t#a334 el(TATC) in xradint'onal
LAsoeyanurat +
'6f polystyrene vat e9iib-1-is-h-eT. It is shown that. r~oly-
chemical cross linIdng'
styrene--i-:-fr-ceu,~Vny completely linked cm adding 20 p.c. TAIC and lr---ac-, at-n.;,
in air vith a dose of 50 megaxad3. Tne cross-limked polymer
elastic state u-~ to Fk ----:-mpg~ratture z) f7~W Orig, ort.
ab I e
AMUTMITOM -T"t)?Vut -khizi:~-V-V-;,ok=o1eku2y&rny!h spoluk (Institute of.-Cheazis-
try of Higb Molecula3r Cumpowide)
r c>i,
iuKp &3v OTHER C02
C-0 2/2
KORIIEV, K.A.j glave red.; SHEVLYAKOV, A.S., red.; CHERVYATSOVA,
L.L., red.; SMETANKMA, N.P.,, red.; YEGOROV, Yu.P...
red.; ROMANKEVICH, M.Ya., red.; KUZITETSOVA, V.P.j red,;
PAZENKO., Z.]N.,# red.; 1LQ1AN,-A.A..,, red.; VOYTSEKHOVSKIY,
R.V.., red.; GREKOV, A.P., red.; DUMANSKIY, I.A.y red.;
AVDAKOVA) I.L,O red.; VYSOTSKIY, Z.Z.p red.; GUMENYUK,
V.S., red.; HELINIK, A.F., red.
[Synthesis and physical chemistry of polymers; articles
on the results of scientific researchj Sintez i fiziko-
khimiia polimerov; sbornik statei po rezul'tatam
naucbno-issledovatellskikh rabot. Kiev, Naukova dumka,
1964. 171 P. (MIRA 17:11)
1. Akadewdya nauk URSR, Kiev. Institut khimii vysokomoleku-
lyarnykh soyedineniy. 2. Institut fizicheskoy khimii im. L.V.
Pisarzhevskogo AN USSR (for VisotakiY). 3. Institut khimii
vysokomolekulyarnykh soyedineniy AN USSR (for Romankevichs
Chervyatsova, Voytsekhovskiy).
RM
T
.)nn,
A. Fct l,"
RRIkh racor
f jbpr 7avor PIM-
c opoi wteT Ca?T'OT'?
L 16011-66 EWP(J)/ZWT(u)/T/z WP.(v)
iACC.NR-. AT6006235 --,.,SOURCE COEE:~ UR/0000/65/000/000/0005/0008
1AUTHOR: Gn N. P.1- Xachan A" A.;,Xulik, N. V.; Chervyatsova, L. L.
_yp
'10M. Institute of Chemisla of High'14olecular Compounds, M UkrSSR,' Kiev (Institute
Ahimil vys_NomoleFu-1yamykh soyedinenly AN URMS93-
'TITLE, Nonadaltivity of properties of the constituents of a graft polymer
~ISOURCE: AN UkrSSR. Modifikatsiya svoystv polimerov i polimernykh materialov (14odi-
fication of the properties of polymers and polymer1c materials). Kiev. Naukova
dmka, 1965, 5-8
~TOPIC TAGS: synthetic fiber,'graft copolyzer,polyaMlonitrile, polyvinyl acetate,
~adhesion,caprone
1ABSTRACT: The-effect of a grafted layer on the prm-oppe 0 of modified caprone fibej
rt
lwas' investigated. The properties of graft cop were studied by ing
2iiT6T_qfl
'the dyeability and adheai ness of the fibers. Expe nts with'an acid dye (acid
ve
!blue) and a basic dye (fuchein) showed that caprone,fiber containing 6% of grafted
polyacrylonitrilzinc_r9ases the sorption of acid blue by a factorof 1.5,'and that
!Card 1/2.