SCIENTIFIC ABSTRACT KUZNETSOV, K. A. - KUZNETSOV, K. N.
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CIA-RDP86-00513R000928120012-6
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RIF
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S
Document Page Count:
100
Document Creation Date:
November 2, 2016
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June 20, 2000
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12
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Publication Date:
December 31, 1967
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SCIENTIFIC ABSTRACT
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S/117/6f/000/001/002/013
The Gang Stamping of Parts on Automatic Rotor Lines AOO)I/AO01
rotor line takes up only 20 m2, including auxiliary floor space. The line is
attended by only two operators. Some 721,000 rubles are saved by the introduction
of this production line. There are 2 figures,
Card 5/5
~_ MNETSOV, K. A.
- I - - .-
Diaplacement of blanks in the opening of an attacbment.
Priborostroenie no.lOt22 0 162,, (MIRA 150.0)
(Metal cutting)
4 4
X9
Errors in punching and trimming. Izv.vys.ucheb.zav.; prilb. 6,
no.6tl42-144 163. (MIRA 1-7:3)
1. Leningradohy institut, tochnoy maldianiki i optiki.
T ~' I L~I- -.,----
j4, I - - . , !-.A.
Kuznc,-tsov, K.A. "The soils on the right bank of the Galka hiver", Uchen.
zauiski (Tomski-- gos. un-t im. Kuybysheva), No. 11, 19/,E, J.,- 57-77.
j .
5~-: U-3261, 10 Aj%,ril 53, (Latopis 1zhurnal Inykh Statey No. 121, 1949)
I
/r4l" z 17.e, AKA
USSR/Soil Science - Soil Genesis and Geographyi J-2
Abs Jour : Ref Zhur- Biol., No 5., 1958, 2oo42
Author : Kuznetsov, K.A.
Inst : Penzenskiy Agricultural Institute.
Title : The Soil at the Source of the Khoper and Yelank Ri:vcrs.
Orig Pub : Sb. tre Penzensk, s,-khe in-ta, 1956, VYP, 1, 97-116.
Abstract No abstract.
Card 1/1
USSR/Soil Science - Physical and Chemical Properties of Soil.
Abs Jour : Ref Zhur - Biolsp No 5) 1958, 2oo6i
Author : Kuznetsov) Chereraisinova; V#N#
Inst ; Penzenakiy Agricultural Institute.
Title i The Physical Water Properties of the Weakly Leached
Chernozem Soils.
Orig Pub Sba tr. Penzensk. a.-kh. in-ta, 1956~ vyp, 1, 127-13k
Abstract No abstract.
Card 1/1
USSR/Soil Science - Soil Genesis and Geography,
Abs Jour ; Ref Zhur - Biole.. 110 5, 1958, 2003
Author : Kuznetsov, K.A.
----------------
Inst Penzenskiy Agricultural Institute.
Title Soil Distribution (of Chernozems) in Relation to the
Nature of tlu Soil Forming Rocks and the Altitude.
Orig Pub Sb. tr, Penzensk. s.-kh. in-ta, 1956, vyp. 1, 135-14o
Abstract No abstract.
Card 1/1
J-3
J-2
JL
IIUB.
B TRA, C T
FIBiol., Yo. 5, 19,59, No. 20016
their place of origin (nandstone, ailaceons
clay, sands); Chernozests occur in thick heavily
te:xtured diluvial deposits. The deffcribed
soila are distinguished by their acid reaction
and significant hydrolytic acidity. Widt us* ol
phosphate fertilizer is recommended to neutral-
ize these soils. For scientific cultivation
it in desirable to iftroduce potassium fertil
zerx. A brief review in also give:i of the
properties of some river valley soJIne
-- P.V* Shramko
2/2
KUZNMSOV, K.A.
Work of the Penza Branab of the All-Union Society
Pocbvovadenle no.12:98 D 158-
(Penza Province--Soil researeb)
of Soil Scientista.
(MIRA 1211)
z I F.YT -71 -7-7-, Y-I--- -1
Oak
Measure for increasing the proluctivity of oak trees. Les. khoz. 5 no. 4, l9c,~2
2
9. Monthly List of Russian Accessions, Library of Congress, Aue'ust -195j, Uncl.
_L14 WZ I 3CC
USSR/Forestry Forest Culture.
Abs Jour : Referat Zhur - Biologiya, no 16, 25 Aug 1957, 69131
Author : Kuznetsov, K.A.
Inst
Title : Experiment in Steppe Forestry in Rostov District.
Orig Pub : Leonoe kh-vo, 1956, no 8, 41-47
J-4
Abstract : Data are given about the environments and area of forest
cultivation in the Rostov district. The sawing and plan-
ting of forest strips and groves in a linear-alveolar
manner were carried out on areas previously prepared by
the total fallow system and simultaneous plantings of
both the trees and bushes. Groves of sharpleafed and
field maples, simple ash tree, forest peartree thrive
well as accompanying species, as do also the bushes:
tartar maple, smoke tree and tartar honeysuckle. Strips
of green ash trees and yellow acacia are worse in appear-
ance. Those groves excell, on which the soil is treated
Card 1/2 - 53 -
'USSR/Forestry - Forest Culture.
. Abs Jour : Referat Zhur - BiologLya, No 16, 25 Aug 1957, 69131
by the system of 2 years fol.lowing and on vhich care
was maintained from the moment of x)1anting.
J-4
Card 2/2 - 54 -
SHAPOSHNIXOVp Alskuoy Platcnovichl MWARABOV, Sergey Filippovichj
KUR2MRTLSOV-"QnaUptLn ArkhUwicjU_ALEKSSEYEVAj R.L.p red.;
MRM--EFMIq X.A.., red.; SIIVYDGHENKO, L.L., red.;
BOROVIIISKAYAp L.M.j tekhn. red.
[Shelterbelt, afforestation and landscaping in the Don Valley;
from farm practices In Rostov Province]Zashchitnoe lesoraz-
vedenie i ozelenenie n& Donu; iz opyta khoziaistv Rostovskoi
oblasti. Rostov-na-Dom, Roatovskoe knizhnoe i2d-vo, 1962.
269 P. (MIRA 15:10)
(Rostov Province-Windbreaksp sbelterbelts,, etc.)
AMOR: Kuzneteovo K. F. 2o-n4-4-55/63
TITLE: Geochronite in Ores of the Yekaterino-Blagodatskc~e Deposit
(Geokranit v rudakh Yekaterino-Blagodatskoge mestorozhdeniya)
PERIODICAL: Doklady Akademii Nauk SSSR, 19579 Vol- 114, Nr 4,
PP. 880 - 883 (USSR)
ABSTRACT: On the occasion of his studies of the ores of the mentioned
poly-metal deposits in Eastern Transbaykalia the author
discovered the wide distribution of a new mineral. According
to its diagnostic properties in polished cuts it is similar
to some Pb-oulphoareenites. The chemical properties, however,
are essentially different. The mentioned deposit forms a series
of metasomatic tubular bodies which are lying in quartzed and
dolomitized limestones. The ore body consists of compact sul-
phide ores. Their formation went through 6 stages: Quartz-
pyrites-, sphalerite-, galena-,quartz-arsenopyrites-, geochro.!,,
nite-galena-, and quartz-dolomite-oulphoantimonite-stage. Be-
aides these also other minerals occur here. The mineral described
here is one of the main minerals among the primary ores. Its
Card 1/4 diagnostic properties are given. Its diagnosis on the occasion
2o-114-4-55/63
Geochronite in Ores of the Yekaterino-Blagodatakiy Deposit
of the mineralogic study is difficult. According to its entire
crystallographic and optic proporties it differs scarcely from
jordanite and hitermanite ("gitermanit") for which it can
easily be mistaken in polished cuts. The differences also from
Boulangerite are given as well as radiograms. The spectral ana-
lysis shows the presence of the main components: leadl anti-
mony, and arsenic. Permanent admixtures are: silver, thallium,
tin and copper. The chemical analysis is given in table 2. Thus
the mineral in question can.be counted to the Pb-sulphoantimono-
arsenites. Its structure and chemical composition corresponds
to geochronite. The empiric formula of the latter according to
Douglas is: 27 Pb Sb; As) S . Furthermore the chemical com-
position of geochNni(te froi Krious deposits is compared. 2
geochronite varieties are indicated in the deposit in question;
they correspond to two final stages of the mineral formation:
to the geochronite-galena-Tand to the quartz-dolomite-antimony
stage. Earlier geochronite usually occurs together with galenal
either as tablelike crystals or go conglomerations of granular
Card 2/4 particles in association with galena, tetraedritep quartz, and
pyrites. Later geochronite is as a rule associated with boulan-
2o-324-4-55/63
Geochronite in Ores of the Yokaterino-Blagodatslqe DePoeit
geritel galena, dolomite and barite. They are small tablets
and solid aggregate of irregular grains which are usually
concentrated in dolomite and in the interstices of "shesto-
vatyy" quartz. It is known that geochronite is rather rare and
found only abroad in paragenesis with barite, quartz, fluorite,
pyrites and tetraedrite. In the USSR it becAme known also
as -mineral in. the- Smirmovskoye deposit offl,,1953. Furthermore
the author found unimportant eliminations of geochronite in
the Ivanovskoye *deposit ores, together with boulangerite and
others. All this is an evidence for the rather wide distribu-
tion of geochronite in the Nerchinsk ores and that it is by
no means a rarity. Further finds in Eastern Transbaykalia are
probable. Finally the practical importance of geochronite has
to be pointed out# since besides lead it has increased silver-
and thallium, concentrations. Some units of the polymetal ores
of Transbaykalia can therefore be considered as complex
thallium-polymetal ores. There are 2 figuresq 2 tables,and 5
Card 3/4 referencest 3 of which are Soviet.
2o-.u4-4-55/63
Geochronite in Ores bf the Yekaterino-Blagodatslqe Deposit
PRESENTED: December 13, 1956, by D. I. Shcherbakov, Member, Academy
of Sciences, USSR
SUBMITTED: Decamber 12, 1956
Card 4/4
KUZNETSOV, K.11.
Rare and trace elements in ores of some complex metal deposits
of the nerabinskiy Zavod group (eastern Tranabaikalia). Trudy
Inst.min., geokhim.i kristalokhim.red.elem. no.2:49-73 '59.
il 'I.-i,- . (MIRA 15:4)
(Transbaikalia-Trace elements Y. .'t " - I t. 1 1 - ", - -. I
(TransbaWgia..i'Metals, Rare and'minor)
VOLIFSON, F.I.; KUZNETSOV, K.F.
Regularities in the distribution of lead and zinc mineralization
in the Argun Valley complex ore belt of eastern Transbaikalia.
Zakonom. razm. polezn. iskop. 2:308-332 '59. ~ (MIRA 15:4)
1. Institut geologii rudnykb mestorozhdeniy, petrografii, mineralogii
i geokhimii AN SSSR i Institut geologii, mineralogii i geokhimii
redkikh elementov AN SSSR.
(Argun Valley--Lead ores) (Argun Valley--Zinc ores)
- - - -- - ---- ---
KUZNETBOV, K.F.; MEYTUVI G.M.; CHITAYEVA) N.A.j LIZUNOV) N.V.
Regularities in the distribution of rare elements in complex ori~ - --I-
depouits of eastern Tr-m baiksaia. Trddy Izwt. min.p geokhIm. i
kriotal.lokbim, rsd, elem. no. 3t162-179 159, (KMA140)
(Tranabaikalia-Chamioal elements)
VOLIFSON, Y.I.t LUKE, L.I.1 DTUXOV, A~Io; KUSHUM, I,P.; PBX, A.T.;
RTBALOV, B.L.; SONTUS"T , Te.P.;- XHOROSHILOV, L.V.; CHMWSM,
V-7.; BIRTUXOT, V.I.; GAMUSH, A.A.; '110 IININ, A.V.; KARWAN,
K.A.; KUZNZSOV, X.F.; LOZOVSXIT. V.I.; HALINOVSKIT, Te.P.;
N.V.; ROMMSCN. B.K.; SAKONOV, I.Z.;
SIDCMMO# A.V. [deceased); SMO, P.F.; CHINAKOV, S.V.o, 7UDIN.
B.A.; X13TM,,V.K.#.doktor geologo-mineral.nauk; reteensentl
XOTLTAR$-V.N.,,doktor goologo-mineral.nauk,.Toteenzent; GRUSUVOT,
Y.G*j doktor gsologo-4ineral.nauk, rotsenvent;* NAXOVNIX,,N.I.#,doktor
goologo-mineral.nauk, retwis~t,- mm, N.N.j, doktor geologo-mineral.
usuk. retsenzent; LIOUNIKIT, S.M., retsenzent; SUTALOT. TO.T., daktor
geologo-mineral.naukq red.; KRISTALIM, B.V., red.; SHROMAO Y*Aas
red.izd-va; GUROYA, O.A., takhn.red,
[Basic problems and methods of studying structures of ore provinces
(Continued on next card)
VOLIF , V.I.---(continued) Card 2,
and deposits] Oenovnys voprooy i wtody izucheniia struktur
rudnykh polai i motorozManil. Koakva. Gos.nauchno-tekhn.izd-vo
lit-ry po geol. i okhrene nedr, ig6o. 623 P. (MIRA 13:11)
1, Akadsmiya nauk SM. Institut geologii rudnykh motoroshdaniyl
petrografft, mineralogii i gookhimii. 2. Koskovskiy institut
tavetnykh metallov i solota (for Dynkov, Biryukov, Druzhinin, Ku2-
noteov). 3. Institut mineralogii, geokhimil i kristallokhimil redk1kh
elementov AN SSBR (for Garmash). 4. Akademiya nauk Armyanakay SM
(for Karamyan)o 5o Baleyzoloto (for Sidorenko). 6. Inatitut geolo-
gii radnykh mestoroshdoniy, petrografii, mineralogii i gookhimii
AN SM (for Kalinovskiy, Nevskiy. Pavlov, Gharnyehev). 7. Mookovskiy
goologorezvedochnyy institut Im. S.Ordzhonikidze (for Ronenson).
8. Veasoyuznyy nauohno-looledovateliskiy institut minerallnogo Byrlya
(for Samonov). 9. Voronezhskiy universitet (for Sopko). 10. Kol'skly
filial AN SUR (for Tudin).
(Ore deposits)
KUZNIBTSOV I.P.- KUZNBTSOV, L.I.
Rapid genersl overhaul of an electric furnace. Metallurg no.12:13-
16 D 1560- (MLRA 10:1)
l..Pomoshchnik nachallniks slaktrostaloplavillnogo teekha no.1 po
oborudoyantya (for X.7.1nzaetsov). 2.Inzhoner-konstruktor proyektne-
go otdols, Chellabinskiy metallurgicheakiy zavod(for L.K.luzustsov).
(Chelyabinsk-Ilectric furnace*)
AoCESSION NR: AT4028286
AUTHOR: Kuznatsov, K. F.
TITLE:, Indium in sulfantimonite of lead
S/2677/63/000/010/0092/0099
SOURCE: AN SSSR. Institut mineralogii, geokhimii L kristallokhimii radkikh
elementov. Trudy*, No. 10, 1963. Redkiya elementy* v sul'fiduy*kh mestorozhdeniyakh,
92-919
TOPIC TAGS: indium, sulfantimonite, lead, deposits, sulfo salt, rare earth elements,
boulangerite, sphalerite, bournonite
ABSTRACT: In this paper the author discusses the discovery of an increased 4ioncen-
tration of indium, in sulfostannates of lead. Reference is made to many works which
vere conducted in the past. The paper concentrates on ores found in Eastern
T-ransbaikal in the USSR. The distribution of indium,in sulfantimonite of lead of
various regions and in various ores are presented in a series of tables. 00e of the
main reasons for the range of indium concentrations in sulfantimonites of lead is
obviously the local change of the physical chemical state of solutions directly in
the places of origin of the ore formations, but its abnormally high concentration
in a specific number of these minerals is most likely caused by an increased
Card 113
ACCESSION NR: AT4028266
sorption capability of the gels which lead to a sharp increase in the rare earth
mixture content in metacolloid formations. The.author describes the redeposition
of indium in a sphalerite substitution process. The sharp change of concentrations
of indium in sulfo antimonites~of lead in the Eastern Transbaikal is caused to a
significant degre~_,by the difference in geological conditions of the formation of
most recent lead-Antimony ores and its high concentrations are characteristic mainly
for the collomorphic differences of sulfo salts, as well as for the fully crystalline
aggregates of boulangerite and bournoni.te which were formed by means of the sub-
stitution of high indium bearing zinc blends. In telescopic deposits where the
development of sulfo salts of lead and tin. are accompanied by dissociation and sub-,
stitution of previously deposited high indium bearing zinc ores, a large portion of
indium included in the minerals of the sulfo salt-group is derived in the process.
of sphalerite substitution. This may explain the unexpectedly high concentrations
of indium in boulangerite which develops Along with sphalerite and the decrease of
its content to infinitesimal amounts in the varieties of this material which were
formed by filling cavities or even the substitution of pyrite and other nonindium
bearing formations. Orig. art..has:_5..tables.an0 2 figures.'
.Card 2/3
ACCESSION NR: AT4028286
ASSOCIATION: Institut minerologii, geokhimii i kristallokhimii radkikh elementov,
AN SSSR (Institute of Nineraiogy, Qaochemistry and theAmmistry of Crystals)
SUBMITTED: 00 DATE ACQ: 16Apr64 ENCL: 00
SUB CODE: NL, EL, NO RPT SOV: 008 OTHER: 00 1
W-
BMW.,,
KUZIIETSOV, K.F.
Basic characteristics of the geology of the Nerchinskiy Zavod
region, Trudy IGEM no,83j319-339 1630
Ivanovskoye lead-zinc deposit. . .340-358 ,
373-391
Yokaterino-MAgodatak lead-zinc deposit. (KIRA 16:1.1)
KUZNFTSOV, K.F.; BOGOLYUBOV, A.S.; KUROGHKIN, S.S.
Transistorized logic elements for electronic apparatus. Nauch.-tekh.
sbor.Gos.izd-v,a lit. v obl. atom. nauki i tekh. no.4t7-15 162.
Transistorized matching and shaping elements for electronic apparatus.
16-24 (HM 16slo)
BEDOUS, A.L.1 KUZNUO.GVO K.F.; KUROCHKINI S.S.; PASECHNIKOVAI I.P.;
PETROVA, L.F.
Characteristics of a set of transistorized elements of a magnetic
memory unit. Nauch.-tekh.sbor.Gos.izd-va lit. v obl. atom. nauki i
tekh. no.4t25-43 162. .(MMA 16:10)
KUZNFrSGV, K.F.-, ABUZINA, I.N.; BOGOLI'JBOV, A.S.; VOIXOVA, R.G.
Design and analysis of transistorized triggering circuits. Nauch.-
tekh.sbor.Gos.izd-va lit. v obl. atom. nauki i tekh. no.4t44-57 162.
(MIRA 16:10)
ROGUSHIN, I.I.; KUZNETSOV, K.F.; KOZYRI, A.I.-
Simple 50-channal pulse height analyzer. Nauch.-tekh.sbca;.Gos.izd-va
lit. v obl. atom. nauki i takh. no.4:7Z-88 162. (MIRA 16tio)
AN4008910 BDOX MWITAWON
Bolov, A. Tol Belouse A@ Lj Kusnotgov, K. Fel Kurochkin, 3. Set it
Salichko, Ve Ns
The Al-2048 digital storage system and information processing
(Tsifrovaya slot*=& nakoplonlya I obrabotki informatoll /AX-204811
Moscow, Gosatomindat, 63, 0143 p. illus., biblio. Errata slip
insorted. 3,100 copies printed.
TOPIC TAGSs multichannel digital system, multichannel digital
instrumant, amplitude coding, duration coding, ferrite memory,
rectangular hysteresis loop, arithmetic unit, program unit, Input
unit, readout unit, statistical distribution instrument
PURPOSE AND COVERAGE: The book is devoted to tho AI-2048 multi-
obannol digital system, which Is used for moasuroment and data
reduction in nucloar physics, IhG 3y8t0M comprises specialized
input units (pulse height Into digital code converter, time inter-
val into digital code converter, 'codIjg units), a forrito-core
rectangular hysteresis loop memoryfor 2048 eighteen-digit numbers
.designed on the coinciding.half-ourrent principla, an arithmetic
.Card
.Am4oo8glo
.unit, a program control unit for 1024 commands, and a series of out-
.put devices. All blocks and units of the system except the fast
input units are transistorized. Tho system can be used to measure
:statistical distribution of olectric-signal parameters (i.e,, as a
~pulso analyzer), for control of some commercial objects, etc. The
~output of the computer is displayed in analog form as well as in
idigital form. The Al-2048 was dovelop4d under the guidance of
S. S. Kurochkin, aided by A. I. Bolov (control unit),, A, L, Bolous
(operative memory)- and V, N, Salichko'(arithmetto unitle
,Chapter I was written by Kurochkin, Soo, 4 of Ch, 11 by Bolous,
Kurochkin, and Nuznotsov, Soo. 3 of Ch. 11 by Xurochkin and Sali~ohkoo
:Soo. 6 of Ch. II by Belov and Kurochkin, and Ch, IV by XurooWLin,
.Belov, and Salichko. 7he remainder was written jointly,
TABLE 02 CONTENTS Cabridged]s
Foreword
Ch. 1. General description of AX-2048 system 7
.Ch* 11. Blocks and units of the AX-2048 systm 18
Card 2/3
Am4oo8no
Ch. III. Description of individual elements (blacks) of the
system - - 97
Ch. IV. Operating procedure and programming 120
Conclusion 143
Appendix 144
lAteraturo 147'
SUB COM CPO NS SUENITTEDs 17Apr63 NO RU SM Oll
OTHERs 008 DATE AM 30NOT63
.Card
ACCESSION NRs AR4023770 S/0274/64/000/001/AO82/AO83-
SOURCEt RZh. Radiotekhnika i alektroavyazl, Abs. 1A543
-,AUTHORS: Xurochkin, S. S.; Krasheninnikov, I. S.i Kuznetsov,-K. F.
',TITLEt Multichannel analyzer for large scale production
ITED SOURCE: Tr. 5-y Nauchno-tekhn. konferentaii po yadern. ra-
oelektronike. T. 2. Ch. 2. M., Gosatomizdat, 1963, 53-61
V
TOPIC TAGS: multichannel analyzer, pulse code converter, interval
code converter, analyzer storage unit, analyzer data processing
unit, analog analyzer output, digital analog output, mass produc-
tion analyzer
TRANSLATION: The development and technical data on four types of
analyzers and their transmittal to the plants are reported. The
greater part of the input and output units are common to analyzers
Card 1/3 .. ....
ACCESSION NR; AR4023770
of any one type. The differences between analyzers are determined
essentially by the parameters of their storage and information pro-
cessing units. The input units of the analyzers convert either
pulse amplitudes or time intervals between pulses into a digital
code. Standard pulses corresponding to the appearance of a signal
in a definite pickup can also be converted. A summary table of
the.technical specifications of the input units is presented: the
largest number of converter channels is 512, the pulse repetition
frequency reaches 4 Mc, and the smallest channel width of the time
converter is 1 nsec... The output units of the analyzers are designed
to provide either analog (on an oscilloscope or automatic recorder),'
or digital signals (on a dekatron counter, punched tape, or number-
printing mechanism). Depending on the number of channels, the ana-
i lyzers come in three groups: AI-50, Al-100, and AI-2048. The latter
group of analyzers has 2048 channels for 18 binary digits each.
Two-dimensional and multi-dimensional analyzers were also developed.
Work is being done on transistorization of the analyzer circuit
Card 2/3
ACCESSION NR; AR4023770
'blocks. many of 'the most important units are constructed in minia
.:turized-block form. To ensure efficient production of the analyzerso!
the technological tolerances of their parameters are specified.
'Bibliography, 4 titles. 1. B.
DATE ACQ: 03Mar64 SUB CODEt ZE, SD ENCL: 00
Card 3/3
KUROCHKIN, S.S.; BELOV, A.F.; BELOUS, A.L.; SALICHKO, V.N.; ABUZINA, I.N.;
KIIRKOV, Ye.V.;-XU2UETSGY,-Ka.; STERLIGOV, D.A.
Principle.transistorized components of multichannel measuring
systems. Mnogokan. izm. sist. v iad. fiz. no.5:87-116 163.
(MIRA 16:12)
'1'0
ACCESSION MI M40207% 0/02pa/64/000/002hokh/whk
SOURCE: RM. Avtowt.p telemekbe I vy*cbIslIte1* tekbngws Abe* 2B280.
i AUTHCRt Rogushinp Is1o; 10nnetsov, K. Fo; Mny*rlp A@ L
-----------------
TIM: Date output untt for a tnm Ar-5o adtlebannel enal7zer with a dywale
delay-line memory
CITED SOURCE: Tr. 5-y ftueboo-tekhn. konferentall po, yedern. radio-olektron.
T. 4. M.p Gosetomizdatp 1963.. 94-100
TOPIC TAGS: AI-50 multichannel analyzer, data output unit,, beam storage tubep
binary-to-decimal converterp binary counterp decimal counter, miltichannel
analyzer, channel selection, channel selector, histogram output, binary e(Ae out,
put, dynamic delay line
TRANSLATION: Date in the type AX-50 pulae-amplitude analyzer with dynante
memory is'displayed on the screen of a beam storage tube in the form of a b1sto.
gram of the spectrum or In the form of a binary code* The simplest aiA wet vide-~
1y used method of binary-to-doolmal conversion Is by multiple subtraction of units'
'Card
'rn
V -
ACMSXON MR1 ARhOM84
from the nusiber being converted, To do this a number from the selected chaiwal Is
placed in the external binary cmter,, and then pulses are fed from an oscillator
to the input of the counter. The some pulses are also fed to the input of a
decimal counter. The binary counter "subtracts" end the decimal "adds." As
soon as all the Information in "subtracted" from the binary counter, the oncillatox
is svitched out and the nu*er being converted Is recorded in the decimal counter.
A block diagram Is described of a simplified date output device using the analyzer
recording system and memory. During each cycle (or after a cycle), the channel
selector circuit forms a pulse vhich coincides vith the pUse of the selected
cbennele After passing through a switcho vhich is normally open, this pulse
reaches the arithmetic unit of the analyzer and subtracts a unit and simultane-
ously appears at the Input of the decimal counter. When the selected channel Is
"filled", the circuit of the arithmetic unit is blocked, The desired channel Is
selected by the Input unit of the analyzero A d-a voltage is supplied to the in-
put of this unit from a precision voltage divider. Channels are evitched by
chan -
ging the voltage amplitude vith a step selector* Periodic switching of the
blocking circuit into the input unit changes the d-c voltage into a stei? voltages
The step voltage to analyzed as usual and the add-unit pulse is producea for the
2/3
Card
ACCESSION NR: AR4020784
desired channel. A more reliable chamel selector circuit is examined, using the
counter cbannels, The channel wimber is displayed by Indicator 1&Vs. The en-
tire data output circuit# excluding the stop selector control eircuitp uses ,
transistors, The output Use Is 12 sea per channel, OrIgo arts has 4 figs. ad
3 refs.,
DAM AM 03K'%r64 SUB COM 8D" OP nM: 00
-3/3
ACCESSION NR: AT3012187 S/2963/63/000/0()5/0117/0127
AUTHOR: Kurochkin, S. S.; Belous, A. L.; Kuznetsov, K. F.; Kurkov,
Ye. V.
TITLE: Sectionalized variant of magnetic operating memory for 2048
numbers
SOURCE: '.',-iogokanallny*ye izmeritelIny*ye sistemy* v yadernoy fizike.
Nauchno-tekhnicheskiy sbornik. Moscow, no. 5, 1963, 117-127
TOPIC TAGS; memory, magnetic memory, operative memory, sectional-
ized memory, memory cube, address selection unit, transistorized
current generator
ABSTRACT: The structure and test results of a memory u.-it consist-
ing of standard elemants are considered from the point of view of
operation of the magnetic memory as a unit and the performance of
the standard elements used in the memory. The design is sectional-
Card
ACCESSION NR: AT3012187
ized so that the memory consists of 8 memory cubes each for 256
numbers, an address selection unit. a unit for reading and writing
the number codes, and transistorized current generators for reading
and writing. The operation of the memory and the test results
are described. Although this memory is not the most economic from
the point of view of equipmentutilization, its~ advantage is that
it can operate with low-power transistorized current generators.
The reading system ensures high signal to noise ratio and some of
its features may be useful in the construction of large size mem-
ories. Orig. art. has: 9 figures.*
AS.SOCIATION: None
SUBMITTED; 00 DATE ACQ: 160ct63 ENCL: 01
SUB CODE: NS,- SD NO RtF SOV: 003 OTHER: 000
Card
-..J IMP 5 Van ~"IVI
ACCESSION NR: AT3012189 S/2963/63,,'000/005/0151/0157
AUTHORS: Rogusbin, 1. 1.; Kuznetsov, K. F.; Kozy*r', A. I.
TITLE: Arithmetic unit for type AI-50-2 analyzer with subtration
operation
SOURCE: MnogokanalIny*ye izmeritel'ny*ye sistemy* v yadernoy fizike.
Nauchno-tekhnicheskiy sbornik. Moscow, no. 5, 1963, 151-157
:TOPIC TAGS: arithmetic unit, sequential arithmetic unit, pulse
'height analyzer, addition of unity, subtraction of unity
ABSTRACT: A sequential arithmetic unit, capable of realizing the
operation of addition and subtraction of unity, is described. It is
intended to extend the capabilities of a type Al-50-2 pulse-height
analyzer and operating tests showed it to be satisfactory. The uni-
.ty is added to a number wri,tten in any channel of the oulse height
analyzer. Orig. art. has: 5 figures.
Card 1/11
R03USHIN, I.I.o KUMMOV JK F - rOZYRI, A.1.1 3,14OLEVSKAYA, L.A.
k _,. I~ I . 11-0 1 -!-*J,
llutomttiza',--~--)n of the progra",ing and outleL of information in
r."Illtichannel pulsr height araly7,ors. ''.Ad, prLb. no.lill3-117 164.
O,URA 18s5)
GORN; L.S.j KOVONOVV
,_~.F.
11
(Nuclear instrument manufacture) lAdernoe priborostrooniel
nauchno-tekhnicheokii obornik, Mookyaj Atomizdatp 1964,
(MIRA 18slO)
delay I I r1 0 7, "vf
SOURE-Et Yadernoye priborngtr4yetilyn;
logi c , -memory a arati, it. (qj
~v4uwiuu uL zeroes and o-,fs of binary Cque
aLaa iu-"-Awiruu)~Lsly irt a lalosed c-tricuit f t . the outpe. of a ci,3!Rv Tirm tt-rough
1~~nt then again to the 3oltn, -1r.-
~:MCR thAO ~4 -L L7 r
13
LA,
A~C
C
tl 2 SOURCE CODE: UR/OO58/66/OOO/OO2/AO5O/A050
F
1 AUTHORS: Kozyrt, A. I.; Kuzneteov, K. F.; Rogushin, 1. 1.
(3
TITLE: Units and apparatus for analyzers vith-amquential t"e-registration
SOURCE: Ref zh. Fiz, Abs, 2A4O8 I I
REF SOURCE: Tr. Boyuzn. n.-i. In-ta priborostr., vyp. 1, 196h, 10h-113
TOPIC TAGS: multichannel analyzer, computer storage, computer memory, computer com-
ponent, circuit delay line
ABSTRACT: A brief description is presented of the features of construction of units
!F
for multichannel analyzer (MA) vith sequential time memory. The use of MA in radio-
chemistry, nucleax geophysics, biology, etc. has brought to the forefront problems of
Yeliability, simplicity of construction, and of control. MA vith delay-line memories
most completely satisfy these requirements. The article describes the functional eir--
cuits and the operating principle of a registration system and a memory block vith a
sequential time recorder, the pulse-height input blocks, and the data readout circuits.
It is noted that under commercial production conditions the recording density for a -
memory using a magnetostriction delay line does not exceed 700 1000 mm/sec. There-
fore sequential type recorders should be used in analyzers vith lov input-pulse count..
ing rates. The investigations made have led to the development of a memory block
Card 1/2
-1V
ACC NR. AR6021024
measuring 120 z 120 x 20 mm and an approximate capacity of 1000 bits. The average
power consumption is 0.25 v. The timing frequency is TOO kcs. The block can with-
stand an impact with acceleration up to 300 g. Special attention is paid to the au
matization of the measurement processes and to the data readout from the MA. The d
cribed MA delay-line units have been developed during the course of design of two
domestic regular production instruments. V. Kolganov [Translation of abstract)
SUB CODE: 09, 20
2/2
14 7~ ~7j-' 7-~Tr-' 1-T-:r---
ACC NRt AT60OZ990 SOURCE CODE:
AUTHOR: Ioffe, A. F.j Kuznetsov, K. F.
ORG: none
TITLE: Transfluxor -type shift register
UR/0000/65/000/000/OZZO/0231
12-
SOURCE: Y!.SSOU~_nffc_~~jesjj
I '~jpq inn nitnym clementam aytomatiki i
only
no tekhniki. 9th, Yere -6- menty
y0*8_14-el van, 19 i, _-
7 (Magnetic digital elements), "doklady soveshchaniya. Moscow, I:kd-vo Nauka, 1965,
220 -Z31
TOPIC TAGS: shift register, tranefluxor, magnetic element, computer
ABSTRACT: Based on American sources (D. R. Bennion, H. D. Crane, N. S.
Prywes, V. F. Gianola, et al.), generally known information is presented on trans-
fluxors: principle of operation, size, characteristics, circuits. A theory of
tranefluxor -type shift.register is get forth; information-transmis Sion cycle, priming
cycle, and reve roe -information blocking are analyzed. Formulas for currents,
info rmation-trans mi a a ion optimality, time of operation, and coupling resistance are
Card 1/2
~x ;k-
L 39483-66
ACC NR- AT6002,990
developed. For experimental verification, a laboratory hookup of the shift register
designed with 5-hole tranefluxors was tested. It exhibited stable operation at a
supply-voltage variation of !15% and within a temperature range of -10+ 40C. The
high reliability of this slow-operating circuit Is noted. OrIg.- art. has: 18 figures
and 40 formulas.
SUB CODE: 09 SUBM DATE: 23Apr65 ORIG REF: 00 1 OTH REF: 004
2121121'~
Card
KUZNETSOVP K,F,
Indium In oulfoantimonites of lead. Trudy 1MGRE no.10i
92-99 163. (KMA 17: 5)
P2 /v i
V
ACCESSION NR- AT4014061 0/3072163/000/000/0066/0069
AUTHOR: Voyler, S. Ya.; Likhtman. V. 1. t Petrov&, N. V. -. Vaell'yova, Ye. N.; Basova,
j._G.;jLu~znet#ov Y~]Lj Livanov, V. A.
TITLE: Effect of cooling and lubricating fluids upon the quality of the sheet surface during
rolting of aluminum alloys
SOURCE: Fiz.-Ithim. zakonomornost! doystviya smazgk pri obrabotim metallov davlonlysm.
Moscow, lzd-vo AN LSSR, 1963, 66-69
TOPIO TAG$t aluminum, al uminum alloy. aluminum shoot, aluminum rolUng, shoot railing.
cooliarnuid. lubricating fluid, orudsol
ABSTRACT: The normal water-emulsion lubricants head during the rolling of aluminum
alloys prove unsatisfactory under tachnbl-ogical conditions because they produce water stains
on the surface of the rolled motal andbecome impure after a few days of service. Therefore,
Card 1/2
ACCESSION MR: AT4014061
in the present work, a now improved type of lubricant has been developed to prevent the
formation of surface failures. Also, a procedure for regenerating the emulsion has been
worked out. Emulsol, containhig 84% kerosene, 10% olele acid and 6% triethanolamine.
was tested and proved satisfactory as a lubricant. Especially good results were obtained
with a lubricant emulsion containing W40% of the above-mentioned amulsol. Using this
lubricant, *., zurface of the rolled aluminum sheet became smooth, brighter and froo of
surface defects, and rolling was simplified. This lubricant was also used successfully
in the cold extrusion of aluminum tubes as well as In the cutting of aluminum and its
alloys. The service life of the emulsion was prolonged up to six months. Desaldng with
sodium chloride, calcium oblorlde and karnalit and separating the sedimented emulsion
--vwas found to be an effective method for regenerating the emulsion. Orig. art. haas I
-chemical equation.
ASSOCIATtONs none
SUBMITTED- 00 DATE ACQ, 19Dec63 RNCIL: 00
SUB CODEj MM NO R ZF SOVs 002 OTHERs 006
Z/2
137-1958-2-2683
7/r~za~c._Ial tion from: Aefer'ativnyy zhurnal, Metallurgiya, 1958. Nr 2, p 69 (USSR)
v
AUTHORS: Malltsev,MN., Livanov,V,A., Kuznetsov,K.I., Glazov,V.M.
TITLE: Modifying the Structure of Ingots of Industrial Alum~num Alloys
(Modifitsirovaniye struktury slitkov promyshlennykh alyuminiyevykh
splavov)
PERIODICAL: V ab .: Metallurg. osnovy lit' ya legkikh splavov. Moscow,
Oborongiz, 1957, pp 140-154
ABSTRACT: A detailed study was made of the effect had by modification on
the mechanical and technical properties of Al alloys. Tested
were a D16 (aircraft Duralumin) alloy composed of 4.5 percent
Cu. 1.52 percent Mg, 0.6 percent Mn, 0.15 percent Fe, and
0.25 percent Si and an AMts (aircraft aluminum) alloy composed
of 1.62 percent Mn, 0.26 percent Fe, and 0.2 percent Si, the
rest being Al. The alloys were prepared from industrial Al waste
(mark AO), electrolytic Cu. Mg, and an Al-Mn alloying element.
Ti was added as the modifying agent. The smelting was done in an
SAN-type electric furnace with a capacity of up to 2,000 kg. The
ingots were semicontinuous-cast The basic tests were made on
Card I /Z round ingots 170 mm in diameter - The following emerged from
137-1958-2-2683
Modifying the Structure of Ingots of Industrial Aluminum Alloys
the tests: 1) the most intensive size reduction of the grain was
observed with Ti concentrations of 0.05 - 0.1 percent; for better
assimilation of the Ti by the alloy the former had to be introduced
as a diluted alloying element (with a 3-4 percent Ti content) at
the beginning of smelting, along with the basic charge; it was not
desirable to superheat the modified alloy to temperatures
> 740-7600 ; 2) as a result of the double smelting the Ti content
dropped by more than 0.01 percent; 3) the modification interfered
to some degree with liquation within the ingot; 4) the greatest im-
provement in the mechanical properties was observed when Ti
concentrations were such as to produce maximum size reduction
of the grain (i.e., 0.07 - 0.1 percent) .
G.S.
1. Aluminum alloys-Modification
Card 2/2
KU724ETSOV, K. 1.
"Improvements in the Techniques of Rolling Allmninum Alloys"
Light A110YB- DO- 1-- MV2109a X*t&Uu2W# Heat Weatments Casting, and leormingr
Principal Reports of the Conferenco.. moscow, rrA-vo AN MM, 1958, 4n P.
9.u C,.,,~, , L11 k-4 411(1-1p, (?j-) -)
SOV/137-58-11-22363
Translation from: Referativnyy zhurnal. Metallurgiya, 1958, Nr 11, p 74 (USSR)
AUTHOR: KUZA4s9.V""'K- I.
TITLE: Experiences in Improving the Technology of Rolling Aluminum Alloys
(Opyt uluchsheniya tekhnologii prokatki alyuminiyevykb splavov)
PERIODICAL: V sb.: Legkiye splavy. Nr 1. Moscow, 1958, pp 439-446
ABSTRACT: Measures to improve the technology of hot rolling (R) of 200x800-mm
ingots of D16 alloy on a 4-roll mill are described. Measurements are
made of loads in R ingots of D16 and DI alloy, and of Al. It is found
that the number of passes can be decreased. Reduction flowsheets are
changed. Hard alloys to be rolled to 1200, 1500 and 2000 mm were
done in 11, 13, and 15 passes instead of 13, 15, and 17. Further
increase in the output capacity of hot R mills is inhibited by the fact
that the ingot is of inadequate weight and the R speed (S) is low.
Although the maximum linear S of the mill is 3.4 m/sec, the true
average R S is 1.2 m/sec for the 1200 mrn width, 1.1 for the 1500,
and 0.9 for the 2000. When the very longest strip is rolled, linear S
attains a maximum of 2.4 m/sec instead of 3.4 m/sec and declines
Card I/Z noticeably toward the end of the strip R procedure. Reconstruction
SOVII 37-58-11-22363
2xperiences in Improving the Technology of Rolling Aluminum Alloys
of the rolling department in, connection with installation of a second hot-rolling mill
permits R to 4.5-5 mm (instead of 6 mm), and this doubles R S from 1.2 to
Z.5 m/sec. A 300xl560-mm ingot will be used for hot cross R of hard alloys,
accompanied by coiling. A shortcoming of the cross R method is the limited
length of the hot rolled strip. An increase in the output capacity of the rolling
equipment is attainable by installing continuous R mills permitting hot rolled
strip to be rolled down to 3.0nux and equipped with the requisite control and
measuring equipment.
P. B.
Card 2/2
ROZHKOVp V.Me; SHOFMAN, L.AV ROZANOV, B.V.; KUZIKO, Yu.P.; PONGILISKIY, N,?,;
LIVANOVt V.A.4 LUCH 11, M.; KUZNETSOV, K.I.; TSYPER, V.A.;
CHMOSHTAN, OKO
4-6
it
Pointe for pipe presses. Biul.TSIICHM n0.9:52 MA 15:4)
(pipe vnj I I -Equipment and supplies)
66414
YJ L; SUV/20-126-6-io/63
AUTHORSt Gurevich, G. 1.9 Nersesov, 1. L., Kuznetsov, K. K.
TITLE: On the Law of Earthquake Recurrence in Consequence of the Rules
Governing the Deformation and Comminution of Rocks
PERIODICALt Doklady Akademii nauk SSSR, 1959, Vol 128, Nr 6, pp 1163-1166
(USSR)
ABSTRACTs Yu. V. Riznichenko and I. L. Nersesov Ref 1) proved the uni-
S
E
versal character of the relation lg
, where
Y lg
7-E7- - T1
N
S
N,(E) denotes the small-centered earthquake recurrence (it@, the
annual number per unit or the seismic zone), E their energy,
IS
E* one of the values of E; furthermore, Y " 0-4 - 0.45 holds.
The above relation holds true in nearly the e-Aire range of the
measured E (107 _ 10 25 erg). Only in the proximity of the
largest E of the zone for which the above equation is set up,
y strongly increases with rising E. The comminution of solid
Card 1/ bodies is correlatod with a similar relation lg N(V) a
N(
4 V mid 4/
66414
SOV/20-128-6-18/63
On the Law of Earthquake Recurrence in Consequence of the Rules Governing the
Deforvation and Comminution of Rocks
Ig vv , Where N(v) denotes the number of those sample
min
frAgments whose volumes v are placed between v and 10 v, and
vmin the smallest among the v considered. Furthermore,
j 'n' 0.6 - 0.7 holds under the condition of a moderate
degree of comminution, and that v Mi. be larger than the volume
of those particles which are rubbed off from the surface of the
fragments. The above relation is practically determined only by
the rule governing the sample straying through the separation
plane. A diagram shows the summed results of experiments made
on 20 samples of cement, colophony, and on various rocks. The
second equation written above can be provisionally explained by
considering that the new separation planes are formed mainly
between the closest of the earlier thrown up separation bound-
aries. Energy E is computed as that energy which separates on
the surface of a sphere having the chosen radius R. This radius
is assumed to be the same for all earthquakes. For the various
Card 2/4 seismic zones, the largest among the three main tangential
66414
SOV/20-12e-6-18/63
On the Law of Earthquake Recurrence in Consequence of the Rules Governing the
Deformation and Comminution of Rocks
2
stresses is of the order of magnitude 1 - 10 kg/cM . Hence, E 0
may be stated as being proportional to the volume of the hearth
v0 . (ft/3)r3. Within the scope of the problem under investiga-
0
tiony the macroscopic characteristics of the state of the
seismically active region of the earth crust (seismic zone) may
be computed by means of the sole quantity'r max - ~~, e denoting
the largest among the three main shearing rates of the remanent
(irreversible) zone deformation, ~ the mean value of the ef-
fective toughness in steady rock currents. The autbors also in-
vestigated the typical case of earthquakes originating from the
contact zone of two geological massifs moving with relative
velocity F. For the recurrence of earthquakes the relation
1 L3 2/3 is found) which may also be expressed by
v01
rr. E and E. L denotes the zone width with the volume V LS,
Card 3/4 max 0 0&1",
66414
BOV/20-128-6-ia/63
On the Law of Earthquake Recurrence In Consequence of the Rules Governing the
Deformation and Comminution of Rooks
where S is the surface area of its section with the shearing
plane. The formula derived here is in general agreement with
seismological data. There are 1 figure and 3 references, 2 of
which are Soviet.
ASSOCIATION; Institut fiziki Zemli im. 0. Yu. Shmidta Akademii nauk SSSR
(Institute of the Physics Of the Earth imeni 0. Yu. Shmidt of
the Academy of Sciences, USSR)
PRESENTED: June 11, 1959, by A. F. Ioffe, Academician 1K
SUBMITTEDt June 8, 1959
Card 4/4
IWZIT--T30V, K.K., inzh.; 1011POPORT, P.I., inzh.
New standard mine cars and electric loco=tives. Gor. zhur.
no.706-40 JI 164. (tMRA 17: 10)
1. Vaesoyuznyy toentralinyy oosudarstvemirr institut po proyektirovaniyu
1 tokhniko-okonomicheakim obosnavanipwa rLovitiya ugollnoy proqyshlemioati
Moskva.
'K.U-Z.ITETSOV) K.K,..; MITEYKO, A.I.; MARIAM, E.B.; SEREZHINI.K0'v',
Detarmining efficient cross sections of a mine working- netwiDrk
in the designing ol coal mineB using an electrri&~ cc:,rnpuLar.
U9011 39 no.12144,50 D 164. (MIPA 1822)
1. Vsesoy-uznyy tsen.trallnyy gosudaratvannyy instItut po )Troyektirova--
niyu i tekhniko-ekanone-chf,3kim obonnovaniyam ruzvillya Ggolinoy
promyshlennosti.
K.K.; SUBBOTIN. A.A*
Advantages Of the expansion of coal mining in the Moscow Basin,
Ugoll 40 no.9:49-51 S 165. (MIRA 18:10)
1. Direktor Veeaoyuznogo teentrallnogo goaudaretvannago inatituta Po
proyektirovaniyu I tokhniko-okonomicheakim oboanovaniyam -azvitiya
ugollnoy pronyahlennoati (for Kusnetsov), 29 Naohallnik kambinata
Tulaugolt (for Subbotin)o
sl!'T,
I . ,CV, K. K. , Fin.
2. USS-R (60))
4. Coal Mines and Mining
7. Improving the quality of con.1 mining plans, Uf-ol' 20", no. 3, 1953.
9. Monthly List of Russian Accessions, Library of Congress, YaY 1953. Unclassified.
MUNTSOV, K.K.. gornyy inshener.
Lot us avoid excess In the design and construction of installations
for the coal industry. Ugol' 31 no.2:1-6 7 156. (tam 9:5)
(Coal mines and mining) (Industrial buildings)
FIALKOVSKIY, Alekeandr Hakarovich, FERBEROV, leonicl Takovlevich,
K.K.. otv. red.; SUROVA, V.A., red. izd-va,; SHKLTAR, S,TA.,tekha.-red.
[Handbook of materials regulsting the establishing of standards
for the determination of estimated costs of construction in the
coal industry] Spravoobnik datetvuiushchikh normativWkh dokumentov
dlia opredelonita ametuoi stoimosti strottellstva v ugolinoi
promyahlemosti. Moskva, Ugletakhiadat, 1958- 47 P- (MIRA 11:12)
(Coal)
(Building--Estimates)
I KUZNrsov, K.K.
Coordinating council on coal preparation, briquetting and coal
grading. U9011 35 no- 12:51-52 D 16o., (KIRA 14:1)
(Coal ressarob)
KUZII&TSOV, K.K., inzh.; FIALKOVSKIY, A.M., inzh.
Simplfying documentation of estimates and costs for work
completed. Shakht. stroi. 5 no.7:7-8 Jl 161. (MIRA 15-,6)
1. Vaesoyuznyy toontrallnyy gosudarstvennyy institut po
proyektirovaniyu i tekhnJ o-ekono-aicheskim obosnovaniyam
razvitiya u oltnoy promyshlennosti.
&ning industry and finanace-Accounting)
BOYKO, AeAe; KUZNL-Tsovp K.K.
Tenth anniversary of the Minerls in Hungary, Ugolt 36 no.4s
62 Ap 161. (KEU 342 5)
liungiry--~,oal miners)
KUZFZT50V; K.K., inzh.; BRAGIBSKIY, N.G., inzh.
In the Coordination Council of the All-Union Central Desir;n
and Plann1ng Institute for Mine Construction in the Coal
Industry dealing with the problems of coal preparation,
briquetting and grading. Ugoll 36 no,WO-61 Je 161.
(MIPA 14-.7)
(Coal preparation)
KUZNETSOVP K K prof,,- YASTREBOV, A.I., inzh.; PODERNI, Tu.S.0 inzh.;
fti;li~ , L.N., red.; TRETIYAKOV, K.M., inzh.; MKRTYCHYAN, A.A.,
inzh.; SALIKOV, I.A., inzh.; FISH, Ye.A., inzh.; MASTEROV, A.K.y
inah.; HELINIKOV, N.V., akademik, red.; BYKHOVSKAYA, S.N., red.
izd-va; OVSEYENKO, VA., tekhn. red.1 SABITOV, A., tekhn. red.
(Standard plans for mine development and transportation systems]
Tipovye proekty sistem rasrnbotki i transporta na karlerakh. Pod
obahchei red. N.V.Mellnikova. Moskva, Goagortekhizdat, Vol.2.[The
transportation system in mine; the justification and calculation
of standard layouts, elements, and technical and economic indiewl
Transportnaia sistema razrabotki; oboanovaniia i raschety tipo-
vykh skhem, elementov i tekhniko-ekonomicheskikh pokazatelei.
1962. 462 p. (MIRA 16:2)
1. Moscow. Voesoyuzny7 tsentrallnyy proyektnyy institut po pro-
yektirovaniyu, shakhtnogo stroitel'stva kamennougollnoy pro-
myshlennosti.
(Mine haulage) (Strip mining)
KU=SOVj K.K., inzh.1 EMINSKIT, M.G.,, insh.
in the- Coordination Counoil of Coal Pralwationp Briquetting and
Classification attaohed to the A2.1,.VAion Design and Planning
Institute for Mine Construation in the Coal Industry. Ugoll
37 noo2s37-58 F 162o (MIU 15s2)
Coal preparation) .
al ressaroh)
M
KUZUETSOVO K.K., inzh.; BRAG'LNSKIY, M.G., insh.
In the Coordination Council of the All-Union Central DemAgn
and Planning Institute for Mine Construction in the Coal Industry.
Ugoll 37 no,8t58-59 Ag 162. (MIRA 1519)
1. Vaesoyuznyy teentrallnyy gosudarstvennyy institut po
proyektiorvaniyu i tekhniko-ekanomichaskim oboanovaniyam
razvitiya ugollnoy proaWshlennosti.
(Coal preparation)
MCBETS inzh,; RAPOPORT, P.1.1,iiazh,
ag= 4j-Z"
F
Parametrio series of mine cars. Ugoll 37 no-9:33-41
s 162. (MIRA 15:9)
1. Vaosoyuznyy teentrallnn gooudarstvenW institut
po proyektirovaniyu i takchmiko-ekonomichaskim aboanovaniyam
razvitiya ugollnoy omyshlennosti.
7mins rai].roada-Caro)
-I___
BGYKO, A.A., inzh.; DRUKOVANYY, m.F.1 kand. tekhn. nauk; BABOKIN,
I.A., inzh,; ZAYTSEV, A.P.p inzh.1 POLESIN, Ya.L., inzh.;
SOBOLEVp G.G.p inzh.; ZIRIKOV, V.V., kand. tekbn. nauk;
TOPCHIYEV) A.Vop prof#; VEDERNIKOV, V.I., kand. tekhn.
nauki OURIKENK01 V.A., kand. takhn. nauki RELAMED, M.Z,j
kand*tekhn. nauk; KUZNETSOV,,K.K., in".h.; RABINOVICH, LA.;
YASNYYj V.K.p inzh.,- LIVSHITS, I.I., kand. tekhn. nauky
rersenzent; BARANOV, A.I.p inzh., retsenzent; LOMILINA,
L.N., tekbn. red.
(Brief handbook of a coal minJng engineer] Kratkii spra-
vochnik gornogo inzhenera ugollnoi shakhty. Moskva, Gos-
gortekhizdat, 1963. 639 p. (MIRA 17:3)
KUZNETSOVp K.K.
Economio efficiency of expanding the use of Pechora coal for the
production of coke. Ugoll 39 no.1%6-9 Ja 164. (MIRA 17:3)
1
1, Direktor Voesoyuznogo tsentrallnogo gosudarstva-,mogo instituta. po
proyektirovaniyu i tekhniko-ekoziomicheskim oboanovaniyam razvitiya
ugollnoy promyshlennosti.
KUZNETSOV, K. K.
i"Plarming collieries and opencast vorkings for high productivity."
report submitted for 4th Intl Rining Cong, London, 12-16 Jul 65.
KUMETSOV)j~.K.j MITEYKO, A.I.; SHOPIN, V.G.; MARIAM, E.U.; SFFUE,-HNIKOVF O.S.
Selecting banic parnmotors for planning coal minna, by the optrA-
tions research method. Ugoll 39 no.10:35-14.3 0 164.
WIRA 17:12)
"O'NI-5,;
,KU?,NETSOV, -.K.K.; BURSHTEYN, M.A.; PEYSAKHOVICH, G.Ya.; BAZER, E.Ya.;
'- SALATSINSKIYY V.V.; DREEGOLENKO, A.S.; RASSOLOV, I.A.
Hopper train with bottom unloading. Gor. zhur. no.4M Ap 165.
(KRA 1815)
KUZNETSOV, K.K.; RAPOPORT, P.I. inzh.
I
Greater use of scheduling charts in mine building. Shakht,
-- stroi. 9 no. 12:1-4 D 165. (MIRA ISM)
1. Direktor Vaesoyu=ogo teentrallnogo gosudarstvennogo
institute, po proyaktirovaniyu i tokhniko-ekonomicheskin
oboonavaniyam razyitiya ugollnoy promyshlonnosti (for KuznetaOT).
Him we reorganized the work of the division. Plat' i put. khes. ".2;
24-25.7 1.57t..
(mm lot4)
1, lachallulk Ketevokoy distanteii puti Odeaskey darogi.
(Railroads-Ylaintenance and repair)
KUZNETSOV, K.M.
Machnnization ... on paper. Put I i put.khoz. 8 nr).~- :1,2 1 U.
(MIRA 17:9)
1. Nachnllnlk Odeaskoy distnntsit puti dorogi.
BOTVINNIKOV, V.I.; KOIDBKOV, M.1R.; KUZNETSOV X H * SRAXANSK37, I.L.;
DERBIKOV, I.V., red.; MATIS r *;~-va; rYANOVA, A.G.
tekhn. red.
[Mineral raw material supply for building materials in Western
Siberia; geological, technical, and economic ebaracteriBtical
Minerallno-pyrievais, baza stroitellrqkh materialov Zapadnoi Si-
biri; geologo-tekbniko-okonom~icheekaia kharakteriatika. Yoskva.,
Gosgeoltekhizdat, 1961. 102 p. (MIRA 15:6)
(Siberia, Western-Building materials)
Ar
BOTVIOINOV, Vasiliy Ivancnrich; NOLOi%OV, Mikhail Vikola7evlch;
, KUZIiETSCV, KonBtwitin Nikhayloyich; P31"ROCIZENKO, V.,
-.,Mjxmcft---V,- ---
I ., red.
[Rock products ofthe Kuznetsk Basinll.'erudnoe ByrIe Kuzbasoa.
Kemerovo -.orovukoe knishnoe izd-vo, 1961. 63 P.
., KeL (MIRA 15:12)
(Kuznetsk Basin-Sand and gravel induntry)
KNI[ETSOV, K. N. Cand Tech Sci -- (diss) "Study of the sooondnry processes
occurring during a bombardment of surfaces by a tive ions." Etbq, 1957.
't ' IFO.!~
11 pp (-%we ;:n of Radio Nngineering IndustrxruSSR. State Union -Sci Rea lust),
100 aD pies (KL, 11-58, 117)
-68-
USSR/Physical ChL try~-' crygud B-5
Abs Jour Referat Zhur - Khimiya, No 1, 1958, 231
Author 4.!
Inst Scientific Research Institute of Ministry of Radio Enginee-
ring Industry of USSR.
Title Luminescence of Luminescent Substances at Their Bombardment
by Positive Ions of Little Energy.
Orig Pub : Tr. N.-i. in-ta, M-vo radiotekhn. prom-sti SSSR, 1957, vyp
208), 54-66.
Abstract : The luminescence of luminescent substances ZnS-Ag M,
ZnS.ZnSe-Ag (11), CaW04 (III) and ZnO (IV) at the bombard-
ment by V He"-, N"" 0-", W, Ar+ Xe+ H* N" 0"' Ne24,
Ar2 4- )24- 1 ?) 2)
and Xe ions of little energy (1-5 o 3 kevilvas di)s-
closed and studied. Screens with a surface resistance un-
der 105 ohm. per cm, possess an inertialeae luminescence
Card 1/3
USSR/Physical Chemistry - Crystals
Abs Jour Ref Zhur - Xhimiya, No 1, 1958, 231
B-5
(ILL), and screens with a resistance LTeater than 105 ohm
per cm possess an inertial luminescence (IL) (slow rise
and slow drop of the luminescence). IM is attributed to
the excitation by ion impacts, and IL is attributed to the
excitation by the field of the positive charge of the sur-
face of the luminiscent substance. The intensity order of
I is greater by 2 or 3 in case of IL than in case of ILL.
For both the luminescence kinds, I - AiVn, where A is a
constant of the luminescent substance, i is the density
of the ion current, V is the accelerating vnltage, and
n = 1 in case of III and is greater than 1 in case of I or
II. The dependence of ILL on the mass of bombarding ions
at a constant V is described by the equation Io;t:a/V_m,
where a is constant. In case of IL, I depends little on
m, vhich is attributed to the prevailing excitation by the
surface field. The dependence of I on m at a constant ion
velocity is described by the approximate equation I~:~ bm,
Card 2/3
USSR/Physical Chemistry - Crystals
Abs Jour : Ref Zhur - Khimiya, No 1, 1958, 231
B-5
where b is constant. At a constant i in case of ILL, the
molecular ions produce a lesser I than the atomic ions,
and in case of IL, the I-s are the same.
Card 3/3