SCIENTIFIC ABSTRACT KASPAROVA, S.A. - KASPER, EGON
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CIA-RDP86-00513R000721030003-5
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RIF
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S
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100
Document Creation Date:
November 2, 2016
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June 13, 2000
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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urdloie type (hichnitt deatrin-). The greatest aceilmills.
tion of wit. carbohydrates at this film takes pIAv in th,
so j nonhardy varkty. As the leave3 axe, there i-t a kiiiarattims
114 the sugars to the foots. The trend of carbohydrate
Of IneivilwAkin Is t6til. by the x01vitY of cillynirs, p*rtk-u-
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KASPAROVA, S. A.
14br., Inst. Biochemistry ims A. N. Bakh, Acad. Sci., -1946-,
"Physiological Significanc-a of Callus Formation for the Resistance of Chicory to
Attacks by Microorganisms," Dok. AN, 55, No. 9, 1947
KASPAROVA, S. A. with the cooperation of KHRISTIFOROV, A. M.
Kola, -cl948-.
Mor., Lab. Biochemistry and Plant Physiology, Kola Sci.
Res. Base im. S. It. Kirov, USSR Acad. Sci., -cl948-.
"Role of biochemical processes in determining winter hardiness of clover in the
arctic," Biokhimiya, 13:5, 1948.
BM Guide,, 2:4, 1949
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Diurnal and seasonal carbohydrate metaboHim in
ArCtic potato pl.&.nts. ,S, A. Kaz
Var.
All-i WS).
inetyun. ItioAkip"iya -11;~;l - C - -The same
diumal rhvthm in the carbohydrate metabolism of potAto
plants 6 observed in the Arctic regionsas in the temperate
Yones. The =x. activity of hydrolytic cnzymcs (luring =00
Me intense fortnation of the wgrtative orpns is at the re 0
mirly mornint, and evening hrs. Potato rArictirs suitable
lot Arctic pUnting are characterized by a high level of 111200
oxidstive processes in the antumn period. If. 11. 21 are 0
k I it. S t A kt?ALLU*GKAL LITERAIMIR CLAUMFKATION
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VOLKOV, Yu.I.. ifizh.; GAFAHOVICH, I.A.. kand.tekhn.nauk; GLADKOV, H.G.,
kand.sellskokhoz.nauk; GORKUSHA, A.Ye., agr.; ZHITFEV, H.F., inzh.;
ZANIN, A.V., kand.tekhn.nauk; 2AUSHITSYN, V.Ye., kand.tekhn.nauk;
ZVOLINSKIY, N.P.; ZHLITSERMAN, 1.M., kand.tekhn.nauk; KAIPOV, A.H.,
kandstekhn.nauk;_P~~F ~ kand.sellskokhoz.nauk; KOLOTUSHKINA.
A.P., kand.ekon.nauk; KRUGLYAKOV, A.M., inzh.; KURIIIKOV,,I.I.. inzh.;
LAVRENTIYEV. L.N., inzh.; LEBEDEV, B.M., kand.tekhn.nauk; LEVITIN,
Yia.I., inzh.; MAKHLIN, Ye.A., inzh.; NIKOLAYEV, G.S., inzh.;
POLMSHCHWO, P.V., kand.tekhn.rLquk; POLUNOCHEV, I.M., agr.; PIYANKOV,
I.P., kand.sel'skokhoz.nnuk; RABINOVICH, I.P., kand.tekhn.nauk;
SOKOLOV, A.F., kand.sel'skokhoznauk; STIMOVSKIY, A.A., inzh.;
TURBIN, B.G., kand.tekhn.nauk; CHABAN, I.V., inzh.; CHAFMIGHp A.A.o
kand.tekhn.nauk; CHERNOV, G.G., kand.tekhn.nauk; SMULEV, B.M.. kand.
tekhn.nauk; KRASNICHENKO, A.Y., inzh., red.; XLETSKIN, M.I., inzh.,
red.; MOTLYUKOV, G.A., inzh., red.; MAGOSKLONOVA, N.Tu., inzh., red.;
UVAROVA, A.F., tekhn.red.
[Reference book for the designer of agricultural machinery in Wo
volumes] Spravochnik konstruktora ael'skokhoziaistvennykh mashin
v dvukh tomakh. Moskva, Gos.nauchno-tekhn.izd-vo mashinostroit.
lit-ry. Vol.l. 1960. 655 P. (MIRA 13:11)
(Agricultural machinery--Design and construction)
A h NIKWINA, L.B., kand.
V
-WE~~O-iheitSisk6khoz. nauk; MILITSEVA, L.,Vsj agronom.
Physical and mechanical properties of potato tubers. Trudy VISKHCMa
no.32:13-35 ~62. (mIRA 18:1)
M.T
KASPAROVA, S.A., sellokoklioz. nauk-loe ceased]; MILITSEVA, L.V.,
Investigating the technological process of hurventing potatoes ky
stages. Trudy VISKHOMa no-32:153-166 162. (Filul 18:1)
_':~ . Ye.V.; KOPSHITSER,
ZAPUSKALOV, V.I.; ~ ~SA~q)VAU S.A.; KONOROVA
I.Z.; LARIONOV, V.P.; WIDLO, V.M.; FOLITS, K.K.; ZOTOV,
V.A., red.
[Exercise therapy in the psychiatric hospital] I-echabnaia
fizicheskaia kulltura v psikhiatricheskoi bollnitse. Mo-
skva, Meditsina.,.1965. 235.P. (MIRA 18:8)
KA;UpAjjOV,k, S.I,,ucbitellaits-A
Trips to an oxygen plaat. 4him. v shkole 15 no.6:60-62 il-D 160.
(MM 13:11)
1. Bredoyaya shkola NO.80, Baku.
(Oxygen--Study and teaching)
KASPAROVA, S.F.; YU.RKOVA, L.A.
One way of more efficient use of seismic equirnanto Raznred. i
promo geofizo noo48:87-91 163 (MIRA 18el)
KA-5F-WVAj S.N.; GRIDASOV, Yu.M.
Vicanomic effectiveness of using the controlled directional
sensitivity method in the Ural Mountain ragion of Akt3n.)binsk
Province. Geol. nefti i gaza 5 no.7:45-47 Jl 16-1- (MMA, 14:9)
1. Vuesovuznyy nauchno-issledovatellskiy institut geofiziches-
kikh metodov razvedki, trest Aktyubnefterazvodka.
(Lktyubinak Province-Seis-mic
prospecting)
I r i r7/
KA-ii-AiO-'TA, T.Yu.
4iAsmiology of measles and whooping cough. Zhur.mikrobiol.epid.
i immun. 28 ao,8:116-122 Ag 157* (MIRA 11:2)
1. In TSentralinogo institute usovershonstvovaniya vrachey
(MUSLIS& spideniologyp
(WHOOPING COME, epidemiology,
(Ras))
KASPAROVA, T. Yu.: Master lied Sci (diss) -- "Somp. problems in the epidemiology
of whooping cough". Moscow, 1958. 15 pp Olin Health USSR, Central Inst for the
Advanced Training of Physicians), 200 copies (KL, No 8, 1959, 138)
GCRDINA, G.V,; LAZURERKO, I.S.; KASPAROVA, T.Yu.
Duration of immunity in children inoculated with a whooping
cough vaccine. Zhur. mikrobiol., epid. i immun. 33 no.2:33-37
F 162,' (MMk 15:3)
1. Iz Instituta epidemiologii i mikrobiologii imeni N.F.
Gamalei AMN SSSR.
(WHOOPING COUGH-MVENTIVE INOCUIATION)
S/169/62/000/007/063/149
D228/D307
AUTHORS; Kasparova, Ye. A. and Ryvin, D.
TITLE: Results of aeromagnetio investigations in the western
and eastern'parts of the Siberian Platform and in the
part of the West Siberian Lowlands near the Yenisey
PERIODICAL; ReferAtivnyy zhurnall Geofizika, no. 7, 1962, 30, ab-
stract 7A197 (V sb. Sostoyaniye i perspektivy razvi-
tiya gpofliz. metodov poiskov i razvedki polezn. isko-
pay,emykh, M., Gostoptekhizdat, 1961, 523-526)
TEXT: The territory papped on a scale of 1:200,000 covers sections
of the West Siberian Lowlands, the Taymyrskiy Troughq and the Sibe-
rian Platform with its folded framework. A sharply variable magne-
tic field characterizes the platform's westerly part and the Tun-
gusskaya Syneclise; some of them coincide with known ore deposits.
The Yeniseyskiy Ridge's northerly subsided part is outlined.-Alie
depths to the folded basement -- from 0.5 2.5 km in the south to
-3.5 4:0 km in the north of the territory investigated were
Card 1/2
-14, j_
S/16 62/000/007/063/149
Results of aeromagnetic 'too D228%307
determined from the smooth anomalies characteristic of the Siberian
Lowlands. The area of the Norillskoye PlateaU was surveyed on a
scale of 1:50,000. Indications are given about the most perspective
areas for seeking copper-nickel deposits. ~-.kbstracterls note:
Complete translation.
.Card.2/2
VISHENKOV, S.A., kand. tekhn. nauk; KASPAROVA Ye_v_, inzh.; Prinima-
li uchastiye: RYABCHENKOV., J., doktor khim. nauk, prof.;
VELEMITSINA, V.I., Inzh.; ZUSMANOVICH, G.G., kand. tekhn.
nauk; TUTOV, I.Ye., kand. tekhn. nauko retsenzent; KUBAREVI
V.I., in2h., red.; TAIROVA, A.L., red. izd-va; MAKAROVA, L.A.,
tekhn. red.; MEWNICHENKO, F.P., tekhn. red.
[Increasing the reliability and durability of machine parts by
chemically nickel coating] Povyshenie nadezhnosti i dolgovech-
nosti detalei mashin khimicheskim nikellrovaniem. Moskva,
Masbgiz, 1963. 205 p. (MIRA 16:6)
(Protective coatings) (Nickel)
KASPARSON, A.A., doti., kand.tekhn.nauk
Determining the wave pressure on supports of through structures.
Nauch.dokl.vys.shkoly; atroi. no.1:213-218 ' 58.' (MIRA 12.-l)
1. Rekomendovana kafedroy vodnogo khozyaystva i morskikh portov Mookov-
skop invshenerno-stroitellnogo institute. imeni V.V. Kuybyeheva.
(Waves) (Hydraulic engineering)
ORUDZHEV, Sabit Atayevich; MIRCHINK, M.F,, red.; KASPARSOV, A.A.,
red.; PETROVA, Ye.A.., ved. red.; VORONOVA.- V.V., tekhn. red.
[Deep-water large-block offshore rig bases; completion method
for new oil fields of the Caspian Sea) Glubokovodnoe krupno-
blochnoe osnovanie morskikh burovykh; retod ouvoenila novykh
neftiarqkh mostorozhdonii KaopiiBkogo moria, MoAvat Gosto'ptekhm-
Wat, 1962. 190 P. (14IU 15:7)
(Caspian Sea-Oil vell drilling rigs)
L 04166-67 FiT(1) Gl_ T
ACC NR1 AT6025404 SOURCE CODE: UR/3065/66/000/051/004' 5/0048
AUTHOR: Voloshin, Yu. Y 1 XULa;�9_Aj A ICnyazev, V
j S.; FilIppov, E. Ya,
ORG: none
TITLE: A sensor for actual mensummeit of wave velocities
5OURCE: Moscow. Iuzhenerno-stroitellnyy
_j~iptltut. Sbornik trudov, no. 51, 196G
..jslcdovanlye morskikh gidrotokhnichesklldi sooruzhonly (Research on marine structures), 46-
48
TOPIC TAGS: liquid level instrument, fluid flow, velocity measuring Instrument, straJn gage,
test instrumentation , oee'qft) 4)5-1'V1?1nfCS
ABSTRACT: This article gives a deserlption of the design and certain operational characteris-
tics of a new sensor for measuring wave velocities. It consists of a housing (working part),
coupling, end cap, cover, arm, and a disk. The housing is made of a brass cylinder whose
outside diameter and wall thickness are selected for convenience of mounting the strain gages
and Its senoing element. Experimental models of the strain- gage sensor of wave velocities
were tested in the laboratory and under full-scale conditions on a ca.11bratiou stand. The pur-
pose of the tests was to check the ar-tightness of the instrument and to determine its technical
Card 1/Z
L 04166-67
ACC14k Ab~&i~fo
performance: sensitivity, calibration characteristics, and frequency of natural vJbratlons.
The experiment, showed the seasor han sufficient, sensitivity and can be used succeseftuy for
mea,suring fluctuatIons of wave velocities under fidl-scale conditions witbin a wide range (from
0.1 to 10 m/aec). Orig. art. haB.- 2 figures.
SUB CODF.:Of,14,20/ SUBM DATE: none
L 04164-67 EVIM)ZEWT(m)Lf~iRW FDNIRWO,
SOURCE CODE: UR -6
ACC W~~405 7SO6516010 6105116441606~
(N)
P.
AUTHOR: Kasparson. A. A.; Knyazey, V. S.; Filippov, E. Ya.; Furtenko, V.
ORG: none
TITLE: Electrical contact wave graph with a flexible receiving milt
-~SOURCE: Moscow. hizhenerno-stroltellnyy institut. Sbornik trudov, no. 51, 1966.
Issledovaniye morskikh gidrotekhnicheskM sooruzhenly (Research on marine hydraulic
structures), 49-63
TOPIC TAGS: electric measuring Instrument, fluid flow, wave propagation, liquid level
instrument', oc),c,9&)
ABSTRACT: A new design. of a ji~~ap~/Wlth a flexible receiving unit which favorably differs
from those existing has been designed, manufactured, rand tested. The receiving part of the
wave graph -consists of wires with a polyvinyl chlorid coating.V' Each wire ends as a contact on
a polyvinyl chloride ring. On the receiving unit are 41 contacts, of which 40 are working con-
tacts and one is a zero contact. The leads from the contacts are connected in a plug. The total
length of the receiving unit can be varied depending on local conditions. To eliminate swaying
of the receiving part during wave disturbance a 15-204% weight Is suspended on a wire to the
Card
L 04164-67
1 ACC NR_2__ATna9.nf_f).k__
lower part which restricts the motion of the receiving unit to 30--60 cm. The total weight of
the receiving'unit with the weights does not exceed 30---60 kg (at an anticipated wave height of
.8-10 m) and enables one person to freely install the wave graph In a working position without
any other attachments. The electrical circuit of the wave graph consists of three basic com-
~onents: a supply unit, relay unit and resistors, and receiving circuit. The wave'graph Is sim-
ple to assemble, reliable In operation, ensures the required accuracy of measuring the ele-
ments of waves of any height, permits processing the oscillographic recording of fluctuations
of sea level on computers, Is easily transported, does not require skilled servicing personnel,
and is cheap to raRnufacture. Orig. art. has-. 3 figures.
SUB CODE:9,14,20/ SUBM DATE: none
Card 2)
DZfIIJNKOVSKIY, Nikolay Nikolayevich, ziml. deyntall nauki i Lekhniki
RST,M, prof., doktor telehn. nauki -.ASP Ava A
Allfredovich, dots.j kand. tekhn. nauk;
III , kand. tekhn. nauk; S)IDOROVA, Aleksandra
Grigorlyevna, dots., kand. tekhn. nauk; Prinimali uchastlye-
ZI-NBLINOV, S.V., doktor tekhn. naWc, prof. ; PANTELEI'M, P.I.,
kand. tekhn. nauk; YAVLaISKIY, S.D., izizh., retsenzent;
SKOBELING~ L.V., inzh., nauchn. red.
rParbors and harbor structures) Porty i portoirle sooruzheniia.
[Byj N.N.Dzhunkovskii i dr. Moskva, Itroiizdat. Pt.l. 1964.
341 P. (MMU 17: 10)
1 Kafedra vodnogo khozyaystva i morskikh portov Moskovskogo
inzhenerno-stroltellnogo instituta in.. V.V.KtWbysheva (for
all except Yavlonskiy, Skobeling). 2. Zaveduyushchiy kafedroy
vodnogo khozyaystva i morskikh portov Mcskovskogo inzhenerno-
stroitellnogo instituta im. V.V.KuyL.7sheva. (for Dzhunkovskiy).
VIKSNE. A.; VIKSNE, J.; DENISOVA, U.[translator]; KASPARSONA G -
I IiTi-O-rTi-
(translatorh LEGZDINA Zh. [Legzdina, Z. I-tr-
'HA, Ya. tPoisa J.J [tranalatorl; TO,.,,YAaTr',5,A,
oil)
F
[translator); AIXM, B... red.; BRUNA, K., red.; SILINSV.0
tokhn. red.
(Riga Zoological Garden] Rizhskii zoologicheskii sad. Rigap
Latvijas Valets i.zdevniecibal 1957. 1 v. (chiefly illw).
(MIRA 14-12)
(Riga-Zoological gardens)
'1'1,z
KASPARSORS, G.
GEMM
PZRIODICALS: VESTIS No. 3, 1958
KWARSONS, G. Method of investigating the food of diurnal birds of prey.
P. 73
Monthly list of East European Acceedone (MI.) LO, Vol. 8. No. 2.
Tebraary 1959. Unclase.
KASPARSON, G.R.
Feeding habits of some diurnal birds of prey In the Iatvian S.S.R.
[with summary in Inglish]. Zool. zhur. 37 no.9o.1389-1396 5 158.
(MINA 11:10)
l.Kafedre. zoologii, bielogichealcoge fakul.1tsta Latviyakage gosu-
darotvennage uni*ersitata, Riga
4etvia-Birds of prey)
(Birds-Food)
KASARIYA14, A. A.
"Concerning the Disintegration Form of the Stationary Field of Short Sound Waves."
Thesis for degree of Cand. Technical Sci. Sub 21+ Nov 49, Sci Res Inst of Mechanics,
Moscow Order of Lenin State U imeni M. V. Lomonosov.
Surm-ary 82, 18 Dec 52, Dissertations Presented for Degrees in Science and Engineering
in Moscow in 1949, From Vechernvaya Moskya, Jan-Dec 1949.
~J
KASPAR2YAN, A. K.; POPOV, V. M~
Apparatus for bending samples during testing of inter-
mTBtalline corrosion. Zav. lab. 28 no.12'ul522-1523- 162.
(MIRA 16.-1)
1. Chelyabinakiy metallurRichookiy zavod,
(Steel, Stainleas-Corroaion)
"A Colchicine Induced Amphidiploid-Upland Egyptian Cotton,, Dokl. AN
SSSR3 26, No.2, 1940
Inst. Plant Industry, Leningrad-PusWkin Iab. Tobacco and Tea and Lab of
Genetics, same inst.
0~'
M"
KASPARY", A.S.
Work practice in tas growing In southern Kirghisia. Trudy Glav,
bat. eada 5:103-121 156. (MLRL 9:10)
(Kirghizistan--Tea)
USPARYAJI, A.B.: ZAYTSIVA, Ye.N.
Overcoming oterili~y'in three lily forms. Biul. Glav. bet. 9&U
ne.31:77-80 158. (MIRA 12:5)
l.Glavny7 botanicheskiy sad AN SSSR.
(Idlies) (Sterility in plants)
VERZILOV, V.2.~-,.XASPARYAN, A.S.
Gibberellin and growth of dual-purpose Triticum-Agropyron
hybrids. Biul.Glav.bot.eada no.37:59-61 160. (MIRA 13;11)
1. Glavnyy botanicheakiy sad Akademii nauk S56R,
(Triticum-agropyron hybrids) (Gibberellins)
777777777777
VERZILOV, V.F.;,IC4.SPARYAN, A.S.
Effect of gibberellic acid on the morphology of some flowering plants.
Zhur. ob. biol. 21 no.4;308-312 Jl-Ag 160. (MIRA 130)
1. Glavnyy botanicheskiy sad AN SSSR.
(GIBBERELLINS) (BOTANY-MORPHOLOGY)
.KAS-PARYAN, A.S.
Ear formation in wheat-wild rye hybrids caused by 2y3j,5-triiodo.-
-benzoic acid. Bilil. Glav. bot. sada no. 38t98-100 160.
(MIRA 14-5)
1. Glavnrf botanicheakiy sad AN SSSR,
(Wheat) (Wild rye)' (Benzoic acid)
KASPARTAN, B.N., Inzhener.
~ I
Use of standard metallic fomwork for reinforced concrete storage
structures. Blek.sta. 25 no.10:48-50 0 '54. MRA 7:11)
(Concrete construction-Vormwork)
KASPARTAN, B. N.
The initial stage of building in constr ting electric
power stations should be sharply reduced. Prom.stroi- 38
no.4:30-31 16o. (MM 13-*8)
1. Zamestit3l' glavnogo insheners. tresta Kavkasenergostray.
(31lectric power plants)
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N'5500 AlOA129
AUrHOR: Kasparyan, G. A.
T=,,E- Methods of determination of thermophysical characteristics of heat
insulators
PMODICAL: Akademiya nauk Armyanskoy SSR. Izvftstiya. Seriya tekhnicheskikh
nauk, v. 14, no. 1, 1961, 31-46
TEXT: The author is discussing the thermal transfer based on the heat
conductivity at unsteady temperatureq expressed by
t =
and at steady temperatures,
t
resulting in the differential
9t
J_T ~
f (x, Y, Z' T
expressed by
Z) at 0 (2)
equation of heat conductivity,
aV 2 t (3)
and describes its use for determination of thermophysical properties of insulat-
ing materials. Methods and devices based on steady temperatures have been
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Methods of determination A104/A129
described In a number of pertinent papers (Ref. 5: B. N. Kaufman, "Thermal
Conductivity of Construction Materials"; Ref. 6: M. A. Mikheyev, "Basics of the
Heat Transfer", M.-L., 1949; Ref. 7: B. S. Peshukhov, "Experimental Investiga-
tion of the Heat Transfer Process", Energoizdat, 1952; Ref. 8. D. L. Timrosh,
"Determination of the 'Heat Conductivity of Construction and Insulation Materials"
NKPS, Energoizdat, 1932 and Ref. 9: A. F. Tsubnovskiy, "Feat Exchange in
Dispersion Media", Gostekhteorizdat, 1934). They can be classified, according
to the geometric shape of the sample to be tested, into: 1. plate method,
subdivided in single and double plate and comparation method; 2. globe method;
and 3. tube method. The plate method is carried out by a device (Fig. 1)
consisting of a basic heating plate (1), a lateral and a lower compensatirz
heating plate (2) and a cooler (3). The sample (4) is placed between the basic
plate and the cooler. The heat condu tivity coefficient is expressed by
A = Q I -
F (t 1 - t2T
The globe method is used for powders and fibrous materials, and is performed by
a device consisting of two concentric metal globes, of which the I'nner globe Is
the heater. The sample is placed between -the globes. The heat conductivity
card 2Ai
Methods of determination ...
zoefficient is expressed by (
R2 RI)
4 Y -IL (t 1 -t2)
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A1o4/A129
(5)
where t, and L2 = temperature of the globe surface and R and R, = corresponding
radii of the outer and inner globe respectively. The following devices are based
on the steady method: automatic instrument control (Ref. 10: M. M. Golyand and
B. I. Kernov, "Automatic Devices for Determination of the Heat Conductivity of
Insulation Materials", Collection of Transactions LTIKhP, 1952, no. 4, and Rel". It
James L. Weeks and Ralph L. Seifert, "Apparatus for Measurement of the Thermal
Conductivity of Solids", Rev. Sei. Instrum., 1953, 221, no. 11); instruments
using wider temperature ranges in low (Ref. 12: Gordon Wilkes, "Thermal Condue-
tivity Expansion and Specific Heat of Insulator at Extremely Low Temperatures",
Refriger. Engin., 1946, 52) and high temperature regions (Ref. 13: M. I. Kozak,
"Heat Coaductivity of Nonmetal Powders at High Temperatures, Author's abstract
of dissertation, 1955; and Ref. !4: A. R. Shellman, V. N. Fedorov and M, A.
Shensenvol, "Heat Conductivity of Ammonium Oxide at High Temperatures", Zh. T. F.
191~~2, =, no. 8) and devices for determination of heat conductivity under
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Methods of determination ... A104/A129
pressure, at gas saturation and in vacuum, Common deficiencies of steady methods
are, varying length of experiments, impossibility of investigation of damp
materials, complicated machinery, Impossibility of determining the thermal
coefficient Pf the heat conductivity whiati has to be calculated according to the
heat capacity of the material. The determination of the specific heat capacity
and the heat conductivity coefficient of insulators presents a difficult problem.
T!hese difficulties necessitated new methods of determination of thermal coeffi-
cients based on the established rules of unsteady temperatures. Here the tempera-
ture is a function of time and space, characterized by Fourier's differential
equation op. heat conductivity. In the unsteady thermal state the thermal process
is alwa 11
ys linked with, and deDendent on, the hea" content of the element. As the
velc,:ity of the heat content variations is directly proportional to the heat
Corlductivity coefficient I and reciprocal to the volumetric thermal capacity C,
the to--,al velocity of the thermal process is determined according to the tempera-
ture coefficient of the thermal conductivity ce. If there are internal heat
sources the thermal state meets the requirements of the differential equation
dt :. Pj V2t+ W (6)
7T cj~ 3
where LO = specif Ic power of heat sources in kgcal/m per hour. If W - 0,
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Eq. (6) is transformed into Eq. (3). Unsteady methods reflect most accurately
the time variations and the heating to which materials are subjected under produc-
tional conditions; Purthermore the determination of thermal characteristics
requires a minimum of time. In view of these advantages numerous variants of the
unsteady method have been developed. Technical literature (Ref. 15: B. A.
Shevellkov, "Thermophysical Properties of Insulators", Gosenergoizdat, 1958;
Ref. 16: V. S. Vollkenshteyn, "Velocity Method for Determination of Thermic
Charad'teristics of Heat Nonconductors, Zh. T. F. 1952, no. 6; Ref. 17: A. F.
Chudnovskiy, "Junction Method for Determination of Thermic Properties of Heat
Insulators", Zh. T. F., 1946, no. 2; and Ref. 18t H. Hahnemann, "The Problem
of Heat Transfer", VDJ, 1955, 7, no. 34) stresses their suitability for deter-
mination of thermophysical. characteristics. G. M. Kondrat'yev (Ref. 4: "Steady
Thermal Conditions", Gostekhizdat, 1954) developed 4 variants of the steady
temperature method based on the exponential dependence of temperature variations
of materials on the time under steady conditions
U - t = t - AUe_m" (7)
graphically presented !n Fig. 2. The determination of values a and ~ with the
finite and infinite heat emmission coefficient is based on the relation OC - m,
where m becomes proportional to the coefficient of the thermal conductivity (a)
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Methods of determination ... A104/A129
and results in 2
M
a = K mO
me (8)
where K = coefficient for simple solids computed by Kondratlyev. The heat
conductivity coefficient is obtained on the basis of the value a and the coeffi-
clent M is determined according to value m. The second variant called
Kondratlyev's A-caiorimeter is of little Interest as experiments depend on a
number of specific and cumbersome requirements, This was avoided in the third
variant, called the "two-point" method, based on the relation of excess tampera-
ture at two different points of the sample being cooled at IX = const and tM -
const [Abstracter's note: subscript m (.dean) is a translation of the original
OP (srednaya)] is simultaneously the constant value independent of time and
relevant to point coordinates, shape and dimensions of sample and to Blo's
criteria. [Abstracter's note: may be Blot-Savard law]. The forth variant
deals with a steady cooling process of a composite system, I. e., globe-inside-
globe. The idea, called bi-calorimeter, was pursued further by Begunkova,
Chudnovskiy, Simonov and Kazanskiy. The main advantage of the steady tempera-
ture condition method is independent of calculation formulae from coordinates.-
(with the ex~~eption of the two-points method); a drawback consists in the
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impossibility to determine all thermal coefficients in one experiment and diffi-
culties in creating proper limiting conditions, which affects the cooling process.
(Experiments by Levin, Malkova, Semenova, Shurygina). These methods are unsuit-
able for damp materials. The relative method of heating at a steady rate was
proposed by Professor A. V. Lykov. It seems that from F = 0.5 (Fourier's
theorem) onwards the temperature at any point becomes a Tinear function of time.
This method is used for powder insulators and can be adapted to objects of any
shape. The temperature coefficient of the heat conductivity.is determined
according to
a b~R2 - ~ 2 m2/h, (10)
_n tn - t(~ M
where b = heating rate of the mean OC/h and n = constant value for unlimited
plates = 3, for unlimited globes = 6 and for unlimited cylinders = 4, and the
volumetric heat capacity according to
a (t a - tn) n
CV --2 b R
This necessitates a preliminary determinationaf the heat exchange coefficient.
Shurygina discarded the complicated machinery used by Lykov and developed a
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A104/A129
relative method of heating-at steady velocity, which eliminated the determination
of the heat exchange coefficient 06. Analytic calculation formulae were obtained
for the determination of the heat installation and the possibility of obtaining
all thermal coefficients by one test are definite advantages, whereas difficultLm
in regard to regulation of the heating velocity and damp-proofing of samples -is
a disadvantage. The unlimited standard method developed by Krasovskaya is based
on the cooling according to Laplace's law of limitless plates in an unlimited
medium. This method can be used in flour, sugar, cocoa etc. The equipment
consists of a concrete calorimeter fitted with measuring instruments. Tests
showed that the temperature rises until reaching its maximum, then it drops again.
The temperature coefficient of the heat conductivity can be obtained by one test
if the time needed for reaching the temperature maximum (V ) and the value of
latter (tmLj) is known. The influence of heat-damp conducTivity can be ignored
in view of low drops of temperature (5 1 100C) between sample and the calorimeter.
Advantages of this method are: promptness (20 - 30 min), simplicity of the
device and the technique. Disadvantages are lax execution of limiting conditions
causing loss of heat; also the fact that concrete is water-absorbent and there-
fore thermophysically unsteady. The method was further developed by ShevelIkov
I
tcooling of cylinder in unlimited medium) for the purpose of establishing thermo-
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Methods of determination ... A104/A129
physical coefficients of insulators in relation to temperatures. By measuring the
tomperature of unlimited media in points of various distances from the sample,
Shevellkov was able to determine the effect of the temperature on the thermal
properties of the material. The absolute method with instantaneous heat source
was worked out by Chudnovskiy and Bogomolov for determination of the thermal
coefficient of dispersed material (soil-ground), in the nature and in laboratory
conditions. A preheated thin brass plate (30-400C) over the soil temperature is
driven into the soil and temperature changes are measured by a thermocouple, The
method is quick and requires only one experiment for the determination of all
thermal coefficients. Its basic fault is the non-adherence to the basic condition
due to the delayed effect of the heat source. M. N. Kulakov developed a new
relative method for determination of thermal properties-of'solid insulators under
laboratory conditions. It is based on the cooling of limitless samples in un-
limited media under the effect of a plane, instantaneous heat source within the
sample. However, this method does not take into account a number of errors which
results in distorted data. Tests carried out on damp materials in positive
tempe.-atures should employ methods ensuring briefly a thermal effect upon the
damp sample. For these reasons the unlimited medium and instantaneous heat source
methods are preferable to steady condition methods. The relative (instantaneous
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A104/A129
heat source) method was improved by K. R. Kanter who decreased the distance
between heater and the hot junction of differential thermocouple. This improve-
ment resulted in following advantages: sharper temperature maxima ensuring a
more accurate calculation of jo~, and X according to simplified formulae and
redu --ed durat'i6ri of tests (2 10 min). Thermometers are most advantageously
placed on the boundary between standard workpiece and sample. Finally, calcula-
tion formulae were rendered accurate by Kaganov who paid due consideration to
necessary corrections (end heating time of source) which were omitted by Kulakov
and Kanter. Kaganov suggests that calculation formulae should be compiled accord-
ing to the actual effect of the heat source (eliminating impulse heating of
samples) rather than on the basis of activity of the instantaneous heat source.
7n'.s methods based on unsteady condition equations received a theoretical appro-
'.'tIcn, because they are quick and make possible the determination of thermo-
ph,7slcal characteristics by one device and one experiment, They offer the possi-
0- ity of conducting experiments under pressure, in vacuum and at high and low
temperatures. For tests taking only 5 -' 10 min with negligible temperature drops
wLthin the samples, these methods can b~ used with damp materials. There is no
dou'~t that future development of methods used for the determination of thermo-
p~qsir~al ih&racteristics of various construction materials will still be linked
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76057
Methods of determination A104/A129
with the'. Investigation of unsteady condition laws. There are 211 references-
19 Sovie~-bloc, and 5 non-Soviet-bloo.
SUEMITTM: August 5, 1960
Fig. 1: Fig. 2-
irregular conditiohff-,-
i &e ml I"
Ku'.ar c
egS 0 '2
Teglj=g of the
g
~,frr;6-yfa-f -c-ondition
ar
rr
gy m const
M
PHc. 2.
KASPARYAN G.A*
I_
Effect of the heating rate on the kinetics of mineral 41-4--0
Inzh.-fiz. shur. 6 no.6:85-93 Je 163& (MIRA 16W
1. Institut teplo- i massoobwana AN BeloruBskay SER, Minsk.
(Kilne) (Minerals-Thermal properties)
lch cco Grad~ngv
SortinE tobacco. Tabalc 14, 110. 1, 1953.
Month1v List of Russian Accessions, Library of Congress
Jime 1953. UNCL.
KASPARIYANt R.M.2- ARAKELYANP S.S.
Ganglioneuroma of the posterior meditastinum. Vest. rent. i rad. 36
no. 1:68-69 Ja-F 161, (MIRA 14:4)
1. Iz gospitallnoy khirurgicheskoy klimild (zav. - prof. I.Kh. Gevorkyan)
Yerevanskogo meditsinskogo instituta Irentgenovskogo otdeleniya
(zav. R.M. Kaspa0yan) 2-y klinicheakoy bollnitay.
(14EDIASTINUM-TUMORS)
DRAMPAYN, F.S.; 4USPARYAN., R.M.
Changes in the osseous tissue in systemic soYaroderma. Doklo AN
Arm. SSR 34 no.3-.129-133 162. (MIRA 15:5)
1. Yerevanskiy meditsinshy institut. Propedevtichookaya
terapevtichaskaya klinika i rentganologicheskoye otdoleniye
Il klinicheakoy bollnitay. Predstavleno akademikom AN Armyanskoy
SSR L.A. Oganei3yanom.
(SCLERODEM)
KASPARYMI, R.M.
Nmeous term of P-anthomatosis and its treatment (Hand-
SahuUer- Chrlotian disease). Zhur. ekspe i klin. med. 3
no.4t'r7-43Ot63 16:12-)
I '~,4itallnaya khirurgiaheskaya klinike. Yerevanskogo medi-
t;i cb
. go instituta.
KASPARYAN RJI.
Case of wiltiple myeloma. of the bones (Kahler-Rustitskii's disease).
Zhur. ekap. i klin.med. 4 no.l-.61-66 164. (141Rk -'719)
1. Kafedra propedevt1ki vniitronnikh bolezney Yerevanskogo
irteditsinskogo instit,ita.
15 (2) SOV/1 31-53-2-13/16
A UT HOR Karklit, 41. K
TITLE: External Meeting of the So ient if ic -Technical Council of the
All-Union Institute of Refractories at the Borovichi Kombinat
of Refractories (Vyyozdnaya sessiya flauclino-tekhnicheskogo
soveta Vaecoyuznogo inatituta ogneuporov na Borovichs1rom
kombinate ognouporov)
PERIODICAL: Ogneupory , 19 59, Ur 2, pp 93-103 (USSR)
APSTRACT: In jovember 1958 a joinf meeting of the ITTS Vsesoyuznogpinsti-
tutao,,-neuporov (NTSAA11-w-Union Institute of Refractories),
of the Takhnicheskiy sovet-kombinata (Technical Council of
the Kombinat and the Institute) took place. It was de7oted
to the discussion of the prospects of the development of
the Kombinat for the years 1959-1965- Ya. fit. Zetserov reported
on the prospects of development of the production and auxiliary
dep~&rtm.orLta~j-.-_I.-_KasRar---on --the pronny'dtd, in mining in-
dustry, ahd K. A. Shalkov on new technolo,-Iical methods of
producing dense refractories containing a high amount of
fireclay. Engineers and technical collaborators and leading
Card 1/3 workers of the Kombinat as well as scientists of the All-Union
SOV/131---9-2-13/16
External Meeting of the Scientific-Technical Council of the All-Union
Institute of Refractories at the Borovichi Kombinat of Refr8ctories
Institute of Refractoriest representatives of the Leningrad
Sovnarkhoz and public organizations took part in the dis-
cussion of the reports. Z. L. Dobrin spoke about the necessity
of improving the production technology of pantiles. M. 11.
Bluvshteyn reported on the development of the Ceat=a IA-
boratory of the Kombinat, and Z. 19. Rutman on the construction
of pyrometric test. plants. S. V. Glebov emphasized the
necessity of increasing the burning temperature of the prod-
ucts. A. K. Karklit pointed to the necessity of carrying out
a number of scientific research - in the field of technology
and automatim of production. A. I. Yakovlev underlined
the necessity of an improvement of quality of the products.
The secretary of the Borovichskiy gorodskoy komitet XPSS
(Rorovichi Mumbipal Committee of the CPSS) I. V. Smirnov pai:.ated
~t-dn3- - the Importance of comprehensive solutions in the
planning of the further development of the Kombinat by taking
into account the interests of the economic district ag'a whole.
The director of the Institutell. P. Gordeyev and the director
of the Kombinat M. U. Konarey summarized the results of the
C--rd 2/3 reports. The meeting passed a resolution on the further
SOV1131-59-2-13116
External Meeting of the Scientific-Technical Council of the All-Union
Institute of Refractories at the Borovichi Kombinat of Refractories
development of the production departments of %'he Kcmmbinat.
.Jie start'of ~ operation of the OVe Mille, "Klyuchenkall
With t
the Kombinat will receive a yearly~,amount of about 60,000
tons of local aluminous raw material. The resolutions were
submitted to the Leningrad Sovnarkhoz.
ASSOCIATION: Vsesoyuznyy institut ogneuporov
(All-Union Institute of Refractories)
Card 3/3
Cf H Princ
fak. Odo,-::;*'--
sOnic field in an infiiiit() Ma~;COUs ::,,edium b~, .-~iyej, of ronic
SOUrCOS Or, a cortain closed Lyapunovi surfac i0 allJ,,zcd. 4:0-urce act-on hcs
u e LL L,.:.
stopped at ~~:, cej,',jin jnct~,_n+, t*,Io vlocit~T
6 a . 11 in :in '~-ry j-,oint of space is
de temined. ',jo lc~r~) SCi:
SOV/124-57-5-5315
Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 5, p 31 (USSR)
AUTHOR:~ Kasparlyp~
TITLE: The Non-stationary Problem of the Diffra,~
,In of Acoustic Waves
(Nestatsionarnaya zadachk diffraktsii zvu vykh voln)
PERIODICAL: Tr. 3-go Vses. rnatem. s"yezda. Vol I. Moscow, AN SSSR, 1956,
pp 203-204
ABSTRACT: Bib.liographic entry
Card 1/1
USPARYANTSY A. A.
"The Propaation of Ultrasound in a Van der Walas Gas."
report presented at 6tb Sci. Conference on the Application of Ultrasound in
the Investigation of Matter, 3-7 Feb 1958, organized by Kin. of Education
PSM and Moscow Oblast Pegagogic IuBt. im. N. K. Yxupskaya.
kUTHOR, KasparlyantE,, A.A. SOV/46-4-4-5/20
fiITLE Propagation of Sound Waves -in Van der Wauls - Gases and Liquids
(K voprosu o rasprostranenii zvulcovykh viln v "gatakh i zhidkostyakh
Van-d~r-Vaalsall) -
Pk;RiODIML: Alawticheskiy Zhurnal, 1958, Vol 4, Nr 4, pp 3115-3342 (USSR)
ABSTRiXT: It is assumed that the medium in which the souM mavez are propagated
obey3 the Van-der-Waals aquation of state. The propagation of sound
is studied using ITavier-S to Ices I linearized equations. Theoretical
values of the velocity and the absorption coefficient of sound are
obtained for Van-der-Whals' gases and liquids in a form convenient for
calculations. The differential equations of acoustic wave propagation
may be aimplified and used, outside a thin boundary layer, to study
the space distribution of the sound field allowing for the viscosity
and thennal conductivity of the medium. The rApor is entirely theoretical.
Ga rd 1/2
SOV/46-4-4-5/20
Propagation of Sound Waves in Van da- Waals' Gases and Liquids
The author thanks A.S. Fredvoditelev and Ye.N. Ovehinnikova for
their valuable advice, There are 9 reforontes , 3 of which are
Soviet, 3 translations, 2 German and I American.
ASSOCIATION: Odesskiy gosudarstvennyy universitat (Odes,~a State University)
SUIMTTED- March 27, 19r26
Card 2/2
9
'too
I in
1 4 s .1
Id
Id
�
14
v v
n
31C
J, A4
I-S
3,W'd
fit
so Bill qjg
iq I J!,
all
ell
KASPARIYANTS, A. A. (Odessa) -- -_ -
"On the Hydrodynamic Theory of Bound Wave Propagation in Fluids."
report presented at the First All-Union Congress on Theoretical and Applied
Mechanics'. Mmcow., 27 Jan - 3 Feb 1960.
S/046/60/006/01/08/033
BOO8/BO11
AUTHOR. Kasparlyants, A. As
TITLE: Unsteady Sound Em sion by a Piston
PERIODICAL: Akusticheskiy zhurnal, ig6o, vol. 6, No. i, pp. 52 - 56
TEXT: The following unsteady problem is dealt with: A piston trans-
mitter begins to actat the instant t = 0, in an unbounded primarily
resting gas, according to the time-harmonic law. This transmitter con-
sists of a disk vibrating in a flat screen. The solution of this pro-
blem was given in Ref. 4. In the paper under review, the acoustic
short-wave field is closely examined. In this connection, the character
of motion in the period (t1i tk) is given special consideration. In
this period there occurs an unsteady motion which may be regarded as
a stabilization process of the steady field. The formulas written down
here for a circular piston can be extended to pistons of arbitrary
shape, which are delimited by partly smooth contours. The motion
ascertained during the stabilization process ha8 the character of a
Card 1/2
Unsteady Sound Emission by a Piston S/046/60/006/01/08/033
BO08/B011
pulse whose form corresponds to that of the tran5mitter and whose in-
tensity depends on the phase E (initial phase of vibrations) when
switching on the transmitter. The pulse motion may be regarded as a
consequence of the action exerted by running sources. It is finally
noted that the changes occurring after switching off the transmitter
somehow occur in an inverse succession, as compared to the stabiliza-
tion of the steady field. The respective formulas characterizing this
pr)ocess may be obtained by asymptotic estimates in formula ( 1.12)
from Ref. 4. The author thanks L. N. Sretenskiy for his advice. There
are 1 figure and 9 references: 8 Soviet and I Italian.
ASSOCIATION: Odesskiy gosudarstvenayy univer6itet
(Odessa State University)
SUBMITTED: August 25, 1958
/C_
Card 212-
KASPAHIY'AN-1-1-),A_.A.;(Odessa)
"Hydrodynamic equations with transversal fluidity"
rerort Dresented at the 2nd All-Union Con,,,ress on rheoretical
and Applied Mechanics, Moscow, 29 Jan - 5 Feb 64.
AKMV, Vyachealav FilipRovichq inzh.; VINCGRAWV, Yuriy Ivanovich,
inzh.;.GINZBURG., Mark YakDvlevich, inzh.; KASPARIYANTS
K~20~ ~ inzh.1 FRANKFURT, Yakov rono ' hp
insh.1 MAMIKONOV,,A.G., red.; NOVICHKOVA, H.M.,, ved. red.;
VQRGNOVA~ V.V.,, tekhn. red,
(Automation of field petroleum processing and gas transporta-
tion]Avtomatizataiia promyalovoi podgotovki nefti i transport4
gaza. [By]V.'F.Akimov i dr. Moskva,, Gostoptekhizdat, 1963. 166 p.
(MIRA 160)
(Oil fields-Equipment and supplies) (Automation)
(Gas, Natural-Pipelines)
MAIAEDNIYAZOV, O.N.; SOLOVIYEVA~ N.V.; KULLYYEV, P.; KASPARIYANTS, L.R.
Comparative study of the chemical composition of different mulberry
varieties growing in Chardzhou District, Turkmen S.S.R. Izv. AN Turk.
SSR. Ser. biol. nauk no.5:68-72 161. (I'Ma 14:12)
1. Institut zoologii i paxazitologii AN Turlanensko SSR.
(CIIAIWZHOU DISTRICT-MULBMM-VARIEIIM~
MLWMIYAZOVP O.N.; SHULIKA, M.N.; GLADISHEVA, L.Ye.
Data on the content'of nucleic acids in silk glands of different
varieties of silkworms. Izv. AN Turk. SSR. Ser. biol. nauk
no.1:67-69 162. (MIRA 15:3)
1. Institut zoologii i parazitologii AN Turkmenskoy SSR.
(Simmm)
(NUCLEE ACIM)
MAMEDNIYAZOV, O.N.; KASPARIYANTS, L.R.; KULLYYEV, P.
Conte nt of nitrogen compoundo inthe hemolymph of varioug m1barry
productivity. Izv. AN Turk.
SSRAe' W
r. 'bf hiWk 46'. s69-73 162. (MIRA 17:4)
~a
1. Institut zoologii i parazitologii AN Turkmenskoy SSR.
WZARIYANTS, S. _inzh.; KIRAKOSYANTS, M.p inzh.
I-
Uso of latex in the leather indubtry. Prom.Arm. 4 no:6:38-40
-Te 161. (MIRA 14:8)
(Latex) (Armenia--Leather industry)
_KA,5PARIYANTS S.A. aspirantp doktor te'~hn. nauk; SH&STAKOVA, I,S... Prof.;
N.G.p inzh.
Effect of the unhairing methods on the properties of the Ixoducts
ofthe solute of sheepskin derma. Nauch. trudy MTILP no.30:3-9 164.
(ICRA 18:6)
1. Kafedra tekhnologii kozhi i mekha Mbskovskcgo tekhnologicheskogo
instituta legkoy promyghlennosti.
,KWAR.IYAJ4P, S.A,y aspirant; SHESTAKOVA, I.S., doktor tekhn. nauk, prof.;
SAFONOVA, N.V., inzh.
Effect of some electrolytes and enzymes on the synthetic fibers
obtained from the products of the solute of sheepskin derma.
Nauch. trudy MTILP no.30:10-17 164. (143RA 18:6)
1. Kafedra tekhnologii kozhi 1 makha Moskovskogo tekhnologicheskogo
instituta legkoy promysblennosti.
USPARIWIS, YU.P.
'aberrational vignetting in systems with a telecentric
passage of the rays. Izv.vys.ucheb.zav.; prib. 5 no.3:1(Y7-110
t 62. WIPA 15--8)
1. Rokomendovana Icafedroy optiko-zekhanicheskikh priborov
Leningradskop irwtituta tochnoy mekhaniki i optiki,
(Optical instruments)
I.B., inzh.
Studying the thermal and technological qualities of covering
materials cooled by water evaporation. Trudy MIT no.173:84~
103 163. (RIRA 17:9)
Z~~ ,jr: kil
KASPE Mikhail Inaakovich;PHOFEWSOV D.P., red.; BOGINA, S.,
~z-v`a;lf REIA, Ye.,, tekhn. red.
[How to deterndne whether a construction organization is
doing good work or bad] Kak- opredelitlp khorosho, ili plokho
rabotaet stroitaltnaia organizatsiia. Moskva, Gas. izd-vo
lit-ry po strait.., arkhit. i strait. materialam, 1961. 51 p.
(IAIRA 15:2)
(Construction industry)
ANPILOG(WI R.G., retsenzent;
OGANESOV, I.S.;JJASU
KOLTUNOVA, M.P., red.; BOBROVA, Ye.N.) tekhn. red.
(Planning, business accounting and the analysis of the
production and administrative operations of transporta-
tion construction enterprises] ilanirovanie., khoziaistven-
rVi raschet i analiz proizvodstvenno-khoziaistvennoi de-
iatellnosti organizatsii transportnogo stroitel'stva. Mo-
skva, Transzheldorizdat, 1963. 330 p. (MIRI 17:2)
-1-KASPE, Mark Isaakovich; OGANESOV., Ivan Sogomonovich; KOLOMEYETS,
.V.1 kand.-fliekhn.nauk
red.
(Analysis of the production and administrative operations
of construction organizations] Analiz proizvodstvanno-
khoziaistvennoi deiatellnosti stroitellrjykh organizatsii.
Moskva, Transzheldorizdat, 1960. 125 P. (MIRA 17:5)
Y,AS-r-zPy E.
"Planning Technical and Organizational Yeauures is the Post Irportant
Instrurent in Fulfilling the Plan for Decreasinr, Frire Costfly ~. 7,
(TO-nBTL-I,:-r,LES,, Vol. 8, ITO. 1, Jan. 1954, Pudarest, Furic-ary)
SO: Ponthl,%r List of East Elurorean Accessions, (EF.AL), LC, Vol. 4,
I'lo. 1, Jan. 1955, Uncl.
LISK. -R" E.
"SAtch to Production of Articl6s of Px~ime Ifece-'sity in the ifetal Furnitdre iiac-
tory." p. 9 (TOBB71WIEMS. Vol. 8, No. 12, Dm. 1954; Budapest, Hungary.)
So: ~Ionthly List'of: East Europemi Accez;sions, (FEAL), LIC, Vol. 4, 116. 14,
April 1955, Uncl.*
11 U~~, ~Ou_
Machinery renewal in one and one-half yearB. Musz.olet. 15 no.5:12
Mr 160. (XRAI 9:5)
(Ikngarr-Yachinery)
r.fflff.m~
KASPER, Egon
4
How would it be possible to give a greater satisfaction to the
need of machinery? Nuez elet 15 no-M Mr 160. (EW 9:7)
(Hungary--Machinery industry)
I ". MPER, Egon
What is the state of industrial development In the provinces? Masz
elet 15 no.8:10 Ap, 960, (EM 9:8)
(Hungary--Industries)
KASPER, Egon, dr.
How can the work of the machine tool commerce be improved? Mlsz
elet 15 no,9:2 Ap 960o (EEAI 9:8)
(Hungary"' Machine tools)
KASPER, Egon
For better material supplies at construction works. Musz elet 15
no-10:3 My 160. (EFAI 9:8)
0(lingary-Building materWs)
KASPER, Egon
Control of the quality of electric apparatusea is increased. Musz
elet 15 no.13:7 JO 160. (2w 9: 9)
(Hungary-Eleetric equipment)
KASPER,, 4
ton.
How can the supplies of electric equipment be improved? Musz alet
157no.12.*2 Je 160. (EM 9:9)
(Hungar7--Electrio equipment)
KASPER, Egon
Problems of casting supplies. Masz elet 15 no.14:11 Jl 160.
(MI 9:
(Hungary-Founding) (Steel) (Iron)
,,.. KASPER, Egon
What we can do to utilize our machine tools better. Musz elet 15
no.15:6 J1 160. (EEAI 9:12)
(Hungary-Machine tools)
;7~ -- - '"'
~ -V
Bin
KASPERp Egon
Technical and economical problems in the manufacture of qualitative
steel sheets. Musz elet 15 no-17:5 Ag 160. (MAI 9:12)
(Hungary-Sheet steel)
JASPER, Egon
What should be the future of the investment bank's credits? Ymsz
elet 15 no-1915 5 160. (EEAI 9:12)
(Hungary--Investment banking)
KWERg, Egon
Let us consider the prerequisites for the continuous operation of
equipment. Masz elet 15 no.2-i:4 0 160. (ERAI 10:2)
(Hungar7--Industrial mmgement)
C-14~11 ~On
Production or services? Musz eliA 15 no.22:3 0 160. (EM 10:3)
(Hungary-Industrial management)
'~WPER, Egon
Old errors and new tasks in the work of technolegists. Musz elet 15
no.22:5 0 160. (EEAI 10:3)
(Hungary--Technology)
.777=
KASPER9 Pgon
What meaourvo have been taken to solve the inatrtzent problems?
Musz elet 16 no.4:4 161. (EM 10--7)
(Hungar7-Precision methods and equipment)
KASPER, Egon
On the margin of an old decree. 14usz elet 16 no-5i2 Mr 161.
(EEAI 10:4)
(Hungary--Industrial management)