FOIA
SCIENTIFIC ABSTRACT STULOV, N.N. - STUPAK, L.M.
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CIA-RDP86-00513R001653710002-6
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RIF
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S
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100
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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30753. STLDOV, N. N.
Kristally 11da. Zapiski Vsesoyuz. mineral. o-va, 2-ya seriya, 19L9,
vYp. 3, S. 172-76.
STULOV, N.N.
z,Kireralog.
Twin intergTowthe of cassiterite. Z-apiski Vsesoyu
Obshchestva 82, 22-31 '53. (mLRA 6:4)
(CA 47 no.17:8593 '53)
!I- Jw@ c in'l 1 i Ff'f( 'J-T"fC6@
vrto-' m 1, 4. h h,.
-Vm-
FERSKAN, Alskeandr Yevgenlyevich, 1883-1945; BELYANKIB,D.S., akademik.
redaktor [deceased); SKAMNOVSKIT.I.I.. prof., redal-tor; STUUN.N.N.
redaktor; SMMNOVI,I.V., tekhnicheakiy redn"or - I--" -'. _. @.- @'.
[Crystallography of diamonds] Kristallografiia almaza. RedA kommen-
tarii D.S.Bellankina i I.Shafranovskogo. fMosk7s) Izd-vo Akademii nauk
SBSR, 1955. 566 p. (K12A 9:1)
(Diamonds)
A
@Prr u, hLg!1-t6jUf*r&tMr* CAICIJ1AtICU IAYdi-9rMC-
N- -',I- SpIny. Zapiski
-a-4- -Th
e
ctyst. phases stable above 10.10-1200' are -r-AIA, -r-
USSR
l
l
i
M
F
i
li
i
i
O
ne
ncezstat
l
et
A, enstat
te, c
te, mu
te'.
F,!%O&, sp
s,
j
and framework aluminosilicates. Anhydrous pytopMlite
appears cis a remarkable tueta structure between 000 and
1000*. Thanpinellides are decampa. products off muscovite,
biotite, lep6lomckAue, Slaucot3ite, ruontmarillonite, and
-i
l
i
l
i
k
S
l
h
n in-kAct
ch
ffs; -I-M-.0s Gkppt!.us
n
e.
o.
ae
owever,
t,
p
a.-a not formcd from phloropitc. talc, and pyrophyllite..
All of the s;)ftiel-forminj minerals are characterized by the
groups IAIO,'[ and(or) jl:eO*j iii their layer gtructurei, aad
(FOO41 is changcd to [Fe"'Ool. If intermediate anor-
phous m-etuphases ar! formed, e.g. In kaotinitz or meat-
morillenite, gpinclsart the end products because the (AlOd)
groups are preserved. To pyrcphyl'.ite, however, no antor-
phi-tation occurs, and a real rnrustructure, rot a sp@@Me,
h
M0,1 at-- Lutreduced together wit
j
r1meworks of aluminosilicates or Into
io
er 1, t
to
0@
'I
glas-es; phlogopite is this changed to ellvine glass Li which
the K content Is also contabjed, 81milirly, talc Is ch2nged
to enstatite; algo In chlorites the end product. is alivine,
although in this =m assded. with spi inel. The gpw..,A-
th OAM 140 had
kX; from Veptd's
it is concluded that
8 -nolq. AlA com-
bined Nvith :3 mol% of MRA1104 Ovith ai - 7.P65 M. The
CAIL41, 111.1t of this cqfriptex avin*i crmd, fro@,l 1
0 Oil ni!c-;&, 'I'Di lophi-I hi thg cn;l-
chintio'l pn)&.-(;t1 of hi"flic k 41 ne-afly pun@ maji'lelnito
IYU4 that dtrlv@l ftznm
u-j :Fe" a,
S.82 i IX). P'l-, lit'! cl@ul. of tllt Olivu'.0 aluo'.1i the dt- -
com-1 prodt:eu ( f P141ciopitt- ti'm rmiu-new 6 - 10.470 kx
h .4 rtu6fi- Wr I" Compp. Tll@
Mariesillfel6to froln D-tilly flu, ',I C',
'11 @N)@ Lilt; "KII,
1
i hfgA),C);(u, - 8,10B @X) er'mte. a 111113
uIr.expl-Almd Is tilt! cxcl;frc@tct of sof@tc suo-og Pmts h; the:
powder dbgTarn Milch, ja tAic bid-xln, , ivit-I'
a3 - 14.17 kx tc 1@ dGulAA i'mucturd, but thLi
whier-al couli not b! id@i^U: ,d 41 I-rr,--,r arats. in microacilpl-
examn.; x - 1.631. Tht SpIrIel ill the deccmpu, Froduc"
-capond * .
of chlorite haj di! - C14 V cor. 0
M . br, t
Omfg-$Fd, , )AIgO, @ Mth mne Cf + b 7
Aboat h-MI the n@-,jt, ,f th.. fl:rm b all cl!vizit@ with-
@3 - IOAVO kX-0 f -.F," SiO.- Tilt decvmpa, pmd.
ucti of ta.1c do not e-tilrely cLrmlp-o@d to enitatite or clino-,
ol, CA, 30, 14766*). The mullile
fcrmed from ka Olinitc ut IT-iV @a5 accurittly h-dexvd in
the vtwde@, dia-giurn by osi:.-E the parvnctav cimi b
Bttc*.-,Iltill 1-150 (C.A. 47, VISSe)) - 7.4@;
6 - 7.a,; c; - 5.74 L.Q. b@tt tb@ jiuViczs ruid izA a rcvl.
siru that @4 i5 dou@l@d (- I 1,6:@a kX). A6o a @iuull Uut.
of a-crbt0val4c va-, ulgdl.; f! -Al.0, Ic r=,td
'Pure (with a, 7.S,, kX), cqt,.jj to tll,,It pr@xjucvjj by 'he
udcillati= if NHj alum. PyrcPhyllice Shavii afteir cAlCica-
t; @-:,Jiing cf the clmintary cell
Jan at MO' oulY a sligbt
lbic with d, - 4,410 L-X b tbe trut
With co - V)eg; hz - 8.910; 6 - 18.51 kX; l - IW'
is ideatilled, which at 12,)V ij chatig---d imo inollite, ind
shows at WOO' szrne mtdtite wit% rha rucc@phzse ufxtj@
yrhap,-) -a:11 so@,Q (indicatcdl by enme @ak I-lacs)
W. E, i-:el
I I ft t
Am
M_. -11. U-M
q r at a cia LU.- ULU LK
,
ol
cT
ti -2--l
1
15-
10 M
.
1- ,
MOKIYXVSKIY, V.A.; STUWV, N.N.; TSIGNLIMLN, I.S.
Mineralization in a natural electrical field. Zap.Vsas.mix.ob-v&
85 no.1:39--48 156. (HLBA 9:7)
(Mineralogical chemistry)
Al
1, --S
h"J, Q
STULOV, N.N.; SITAFRAROVSKIY, I.I.; LhZAnWO. Ya.K.
Viktor IvanovIch Mikhoev,- obituray. Hinabor. no.11:403-.406
'57. NlIlk 13:2)
(Mikheov. Viktor Ivariovich. 1912-1956)
TATAUKIY, V.13.; FRaK-KAMIONTSKIY, V.A.; BURAKOVA, T.N.; NARDOT. Y.T.;
PUTROVp T.G.; KONDIL4T'YIIVA, V.V.; KAMNNTSIV, I.Yo.; CHARNTSILEVA,
V.F.; ALIKOYNTA, N.F.; ARTSIBA YA, T.Y.; BABABOYSKAYA, N.I.;
BUSSTI, I.V.; V SKO, I.A.; GIUMSHIV, M.A.; GOTIO, Te.A.;
KOMKOV. A.I.; KOTOVICH, V.A.; LITYUSKAYA, G.P.; MI)MUTA, L.T.;
HOKIJZVSKIY, V.A.; PBTROVA, L.V.; POPOV, G.M.; SAFRONOYA. G.R.;
SCBOLHVA, V.V.; STUWV, N.N.; TUGARINOVA, V.G.; SHAZLOOVSKIY. I,I.;
SEMUMERT, A.A.; YANULOV, K.F.
O.M. Ansheles; obituary. Vest, I.GU 12 no-18:152-154 '57.(XM 110)
(Ansheles, OBip Markovich, 1885-1957)
AUTHOR: Shaf ranovskiy, I.I. and_ StUlOv, N.N. - 70-2-1/24
h Mikheev - Obituary
TITLE: Viktor Ivanovlc it (Cry stallo ETaphy) , 1957, Vol.2,
sLajlo fiY-a (U.S.S.R.)
pERIODICAL: 'T-xj- in" No.2, pp- 203-206
professor bLikheev died suddenly in December, 1956 az the
ABSTRAC T ; He became interested at a vey early age in crysta-
age of 45. 1C ccessfully his diss-
In blarch, )@;6, he defended su
liography i I LgS of cast stone minerale, In the
ertation 'Standard Debye rir tf of the Chair of Crystallography
same year, he became '!Dozent hy ELnd X-
and lecturer On the Course of general crystallograp
ion of crystals. Except for his military servl,--
ray investigat ssociated throughout his life with
during the war, he was a
the Mining Institute (Gornyy Institut). He published over ?5
scientific papers and, in addition, he wrote 56 scientific
reports on investigations of individual mineials and their
groups carried out for various scientific and industrial estab-
lishments. For identifying the composition of mixtures and of
mine'rals, the Debye Scb:,'Irrer method was considered the most
appropriate but, for this purpose ) it was necessary to compile
and arrange in their definite order the data calculated from
card 1/2 rainerals to be used as standards. This enormous task was
ma-terialised by publisbing, the "Roendgenometric" determination
Viktor Ivanovich Mikheev - Obituary.
(Oont.) 70-2-1/24
Of mineials
2 the first Dart. Of which contains data for 142,
the second part for 146-minerals; the third part with data
for 905 minerals was put into D1
of Professor LLikheev. nt shortly before the death
ved in compi.,Liv, the In addi@ion to the colossal work invol
d booki Mikheev carried out
'1@oendgenome tric above mentione@'
31vestigations Of individual minerals and
their groups, and Ghe results of this work were published in
individual papers.
S'enome-tric diaenosis It is largely due to his work that roend-
Soviet Union I Of minemis is s
- rom 1950 Onwards, Prof. Mikheev published num-
erous j)apers on homology Problems an So Successfully u ed in the
mOnOi3raph "HomolO67 of d later on he published the
dissertation (in 1952) CZ-Ystals" which also served as a doctor
b - His work on homology was highly valued
,v '@he Sr-'Vi,@ Ac.Sc. and he was awa
O"T Prize for this rded in _19.50 the F
w`rk- 1,likheev Produced 218 ty_ B-S. edor-
Des of homology
and these allOded accurate classification and syste sation of
Crystals vvrith lov, C@egrees mi
enabled solution Of the PI Of symmetry. The work on homology
'MPOrtant Problem of iden_
card 2/2 I-etically
tifYirle; -the Debye rings of low symmetry su
ubstances. In -1953,
Mikheev %vas nominated Professor Of the Crystallography Chair.
Library
of Congres8
AVAIlABIA:
STULOVA., N.H.; SHAYUKOVSKIY. 1. 1.; MOKIUVSKIY, V.A.; POPOV, G.M.;
TIN, A.G.; NIKOLAYBV. V.A.; AN Lzs. O.M.; GRIGORIYET. D.Pi;
YEROPAYEV, B.N.; TATAR Jy, Y.B.; SOWTIYBV, S.P.; NIKITIN, V.D.;
RUMMO, S.A.; DUBININA, Y.N.; ALUVDIN, Y.F.; VLADIMIROV, B.N.;
KAZITSYN, Y@.V.j FRAW-X4MMTSKIY, V.A.; KALININ, A.I.; BALA-
SHOVA, M.N.; SALIDAU. R.P.; DOLIVO-DQBROVOLISKLYA. G.M.; LAT-
Fym I Y3CV 0 M. 1.
Vlktor Ivanovich Mlkheev, Zap. Vaes. min. ob-va 86 no.2:317-320
'57. (HLRA 10:6)
(Mikheev, Viktor Ivanovich, 1912-1956)
STULOV, N.N.; SHAFRANOVSKTY, I.I.
Achievements in Soviet crystallography. Zap.Tses.min.ob-va 86
no.5:595-606 '57. (KIRA 10:10)
(Crystallography)
I ; f - I I - 11 -
i . . . : I ; i"
1
BAW.SHOVA , IM.N.: SALIDATJ, I.P. ; STULOV, N.N.
' @ I
The Fedorov anniversary session. Zap.Vess.min.ob-va 86 no.5:632-639
157. (MIRA 10:10)
(Mineralogy)
SOV/?O-3-5-23/24
AUTHORS: Shafranovskiy, I.I., Stulov, N.N. Tatarskiy, V.B.
and Frank-Kamenetskiy-,-V.A.
TITLE: Certain Observations in Connection with the Article of
Academician N.V. Belov "On a Co@rse of Geometrical
Crystallography for Physicists" (Neskollko zamecha-niy
po povodu stat'i Akad. N.V. Belova "0 kurse geometricheskoy
kristallografii dlya fizikov")
PERIODICAL: Kristallografiya, 1958, Vol 3, Nr 5, pp 63?-638 (USSR)
ABSTRACT: Complaints by Leningrad mineralogists against the
excessive physical bias by Belov in his article.
There are 4 references, 2 of which are Soviet and
2 German.
ASSOCIATION: Leningradskiy gornyy inatitut-L.eningradskiy
gosudarstvennyy universitet.
(Leningrad Mining Institute and Leningrad State
University)
SUBMITTED: May 23, 1958
Card 1/1
SOIDVIYEV, S.P.;_,@Tuw, N.N. rl
- rl_ -
Second all-Union conference on petrography. Zap. Voes. mip. ob-va
87 no-5:618-624 '58- (Min 12: 1)
(Petrolog7)
f !.
- STUIADV N V - SHAFRANOVSM, I.1.
1_:::@
Crystallography and mineralogy in the Leningrad Mining Institute.
Zap. LGI 1+0:22-28 f59. (MIRA 4:53
(L~enInL7rad--Cz7stallography--Study and teaching)
T-le-ningrad-Mineralogy-Study and teaching)
SHAYWOVSKIY, I.I.; MOKIYEVSKIY, V.A.; STULOV, N.N.
.. -
Discussion on the nomenclature of crystallographic forms at the
French Mineralogical Society. Zap.Vses.min.ob-va 88 no.4:492-495 159.
(MIRA 12:11)
1. Deyetvitelinyye chleny Veesoy-uznogo mineralogicheekogo obshchestva.
(Crystallography--Terminology)
STUWV, N.N.; SHAFRANOVSKIY, I.I.
New materials on the active life of E.S. Fadorov; on.the 40th
anniversary of his death, Zap, Vass. min. ob-va 88 noo5:578-582
159. (MIRA 13:2)
(Yedorov, D7grF-f Stepanovich, 1853-1919)
(Crystallography)
STULOV, N.N.
"Zapiskil of the Tajik Division of the All-Union Kineralogieal
-jociety. Zap. Voss. min. ob-va 88 no-6:733 '59.
(Km 13.8)
(Tajikistan-Mineralogy-Perioclicals)
SHAYRANOValY, I.I., prof. Prinimali uchastiye: MCKIMSKIT. V.A.; STULOV,
N.H,; GEND&SY, S.Sh.; PISIMENNYY, V.A.; HAT-ASHOTA, X.N.; XIMM
I.V.; WIDAU, E.P.; KALININ, A.I.; DOLIVO-DOBROVCLOSEATA. G.K.
PIOTROVSKIY, G.L., dotsent, otv.red.; FURMAN, K.P., red.; MALTATKO,
A.V., tekhred.
[Lectures on the morphology of mineral crystals] Lektaii po kristal-
lomorfologii minerslov. L,vov. Izd-vo L'vovskogo univ., 1960.
161 p. (MIRA 14:1)
1. Kafedra kristallografii Leningradskogo gornogo institute (for
Mokiyovski,v, Stulov, Gendelev, Pislmennyy. Balashova, Mikheyeva,
Sal'dau, Kalinin, Dolivo-Dobrovol*skaya).
(Minerals) (Crystals)
89338
S/534/60/000/019/002/005
31 @10 5 7, /d L 2/112,7) D226/D302
AUTHOR: %@_U@@
TITLE: The roentgenometric study of the material composition
of certain meteorites
PERIODICAL: Akademiya nauk SSSR. Komitet po meteoritam.
Meteoritika, no. 19, 1960, 63-84
TEXT: This study was carried out in collaboration with Professor
V.I. Mikheyev, and had two objectives in its first stage: a) to
determine the mineral composition of certain meteorites from the
collection at the Gornyy Muzey (Mountain Museum) and b) to in-
vestigate specially selected mineral parts of meteorites, forwar-
ded to the laboratory by L.G. Kvaaha from the Committee for Meteo-
rites of the AS USSR. By undertaking these tasks the author aimed
at improving the method of identification of minerals and at de-
veloping standard roentgenograms for them, In the last stage of
Card 1112
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The roentgenometric study of ... D226/D302
this study the aim was to work out a series of tables reco-rding
X-ray crystallographic data for all minerals present in meteorites.
Unfortunately the death of V.I. Mikheyev prevented realization of
this project. The present article is an account of those roe'nt-.
genometric studies which were actually conducted with the de-
ceased, Method of investigation:Samples of iron meteorite8 from
the Gornyy Muzey were taken Fy-means of filing or drilling with
a hard bore; samples given by L.G. Kvasha were already pulverized.
Sometimes they were ground additionally to give particles, rang-
ing from 0.01 - 0.001 mm. A column of the material was then
preFsed in a Elass tube (diameter: 0.8 mm). Two X-ray photographs
were taken o:-,- each sample, one of the pure material the second
of its mixtu-,e with rock-salt, Distances between symmetric lines
were measured with a 0.5 mm ruler (an average of 3 measurements
were t-aken for every pair of lines). The intensity of lines was
evaluated visually and photographs were taken with a camera 143
mm in diameter in a Haddings ionic tube with an iron anticathode.
Card 2/12
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The roentgenometric study of ... D226/D302
The following wave-lengths were used for calculations:
3,
AIE@i = 1,936012kX; A Y-a-2 @199*12076kX;
AKA = 1,753013 kX,
where kX = Kilo XU. Some modifications of X-ray photography were
used; a) The films were placed in such positions that their ends
did not point toward the incoming diaphragm, but in the reverse
direction; in this way, lines formed by broad reflection angles
were situated ia the center of the film; b) Reflection angles were
measured with a precision of up to 0 .11; c) the calculation of
lattice distances were according to the Bragg-Wulf formula;
d) Considerable quantities of rock-salt were added to the samples
(up to 60 %) to obtail, more definite standard lines for the salt;
these lines were used -for correcting the obtained data. The time
of exposure for iron-meteorite samples was 8 ma. x 4.5 hours.
Card 3/12
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.S/53 6,3/000/019/002/005
The roentgenometric study of ... D226XD302
X-ray photographs of other samples were made with a camera of
68 mm in diameter with an iron anticathode, the radiation wave
lengths being as follows: R Kc@ = 1,934 kX;/j Kp =19753 U;
time of exposition 8 ma. x 2 hours, or 3.5 hours. I. Iron meteor-
ites: The following minerals were found and submitted to X-ray
sFu-Ty-. Camasite and Tenite from Sikhote-Alinski-, Coahuila, Hex
ly
River Mountains, Chestervill, Sao Juliao de Moreira, Carlton,
Tazewell and Bodaybo meteorites. Hydrohetite and Hydrohematite
from the melted surface layer of Tazewell meteorite. Chromiteg
Troilite, Schreibersite and Radbite from tte Sikhote-Alinskiy me-
teorite. For the study of Camasite and Tenite, information given
in the article of A. Bradley, A. Jay, A. Taylor (Ref. 13: "On the
Lattice Spacing of Iron-Nickel Alloys", Philoso-hical Magazine
P
and Journal of Science, 23, no, 155, 547-557, 1937) was used.
V'I. Mikheyev (Ref. 9: Rentgenometricheskiy opredelitellmineralov
LRoentgenometric Determinant of MineraIS7 Zap. *Vsesoyuzn. Minera-
log. obahchestva, part. 86, no. 2, 1957T investigating some iso-
Card 4/12
P9338
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The roentgenometric study of ... D226YD302
morphic series observed that the increase in dimensions of the
unit cell is a linear function of the radius of present cations.
He proposed the following equation for the dependence of the
camasite lattice dimension on its content in nickel:
a = 2,86124 + 0.00041.x, where x equals the atomic percentage of
Ni. For this equation Mikheyev used data from E.R. Jette and F.
Foote (Ref. 14, "X-ray study of iron nickel alloys", Am. Inst.
min. metallurg. Engin. Tec@in. Publ., no.670, Me-Cal Technology 3,
lo 14, 1936). The contents of Ni *.n Camasite calculated from
Bradley's graph and those suggeste.: by Mikheyev, do not agree,
the figures according to MikheyeN being more than 20 % higher.
These discrepancies may be explained by the fact that Bradley
studied artificial iron nickel alloys, whereas Mikheyev dealt
with natural minerals, in which -- apart from Fe and Ni -- some
Co and Cu were also present, as was E,hown by 11,U., DIzakonova,
who carried out the entire chemical analysis of minerals from
the Sikhote-Alinskiy meteorite. (Ref. 2: Khimicheskiy sostav
Card 5/12
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The roentgenometric study of ... D226YD302
Sikhote-Alinskogo meteorita @7hemical Composition of the Sikhote-
Alinskiy hIeteorite7 Meteor]tika, 16.1958), Chemical data for all.
further mentioned minerals were taken by the author from this
study. Tenite was not found in the Sikhote-Alinskiy meteorite,
'but was prescnt in the Chestervill, Sao Juliao, Carlton, Tazewell
and Bodaybo meteorites. To ider,tify it, data from Mikheyev's
tables viere used (Ref. 8f Rentgenomentricheskiy opredelitell mi-
neralov 4/Roentgenometric Determinant of Mineral.27 Gosgeolizdat
1957). Finally, the author expresses the opinion that at present
it is impossible to quantitatively determine in any precise
manner the components of iron nickel meteorites by -anit cell di-
mensions, although it has been found that: a) when the unit cells
of Camasite are small, those of Tenite are large; their dimensims
can be much larger than those of artificial alloys; b) with. the
increase in Tenite content, the lattice spacing of Camasite in-
creases and that of Tenite decreases. However, the author E.dds
that these conclusions are not certain in view of the smala num-
Card 6/12
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The roentgenometric study of ... D226/D302
ber of specimens studied. Therefore further studies are necessary,
A sample from the melted surface layer of the Tazewell meteorite
gave 50 lines on the X-ray film. 22 of these correspond to Hydro-
tite, 13 to Hydrohematite, 6 to Camasite, 5 to Tenite, 10 weak
lines were not identified. The lattice spacing of Camasite and
Tenite in the sample was the same as in the bulk of the meteo-
rite. All other minerals mentioned belong to the Sikhote-Alinskiy
meteorites 1) Chromite, having the chemical composition (weights
given in percentagFT7.--FeO-15.91 %; Cr2o 3_71@23 %; MgO-11.87 %;
(Total 99.ol %). The roentgenogram showed that there was in. this
sample Chromite with a lattice constants a = 8.329 � 0.001 kilo
XU and Chromite, with the formula 3Cr 20 3 'Fe 20 3Y the formula of
the first Chromite being (Mg,,,Fe)Cr203 in accordance with
Mikheyev's study on spinels ' (Ref. 9: op,cit.). k mineral with
a formula 30r203 ' Fe203 has never been found before either on
Card 7/12
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The roentgenometric study of ... D226/D302
earth or in met6orites. Its identification was made on the basis
of data in the first supplement to the American roentgenametric
card-file These data are based on work of P.F. Wretblad, who
studied a synthetic substance having the above composition. (Ref.
15: Z. f. Anorg. Chem,q 189, 3319 1930). 2) Troilite, having the
following chemical compositions for 3 diffei:e-ntsamples (weights
iven in percentage): Fe-60.78 %; Cu-0.04 %; S-36.41 %; Cr-2.08
Total 99-31 % Fe-62.46 @o; Cu-0-05 %; S-34.65 Cr-1.06
Yr!-62-84 %; Cu-0.07 %; S-34-33 Cr-1.
Total 98.22 %@ 08
@Total 98.32 %). X-ray study proved the presence of 2 compounds,
one a p,ire Troilite, the other a mixture of Troilite plus somc-
Chromite, with lattice distances: a = 8.344 � 0.004 kilo XU,
which corresponds to the formula FeCr 0 The lattice constants
of pure Troilite were: a = 5.965 kilo2 4-ju and o = 11.538 kilo XU.
3) Schreibersite was found in another sample of the same meteo-
rite. Its composition is (weights given in e.-centage)-
Fe-69.73 %; Ni-14.64 %; Co-0.18 %; P-15.64 @, (Toial
Card 8/12
89338
S/534/60/000/019/002/005
The roentgenometric study of ... D226/D302
100.19 %), Cristallographic data for its identification were ta-
ken from a work of A.G. Betekhtin (Ref, 1: Mineralogiya 15inera-
logy7 Goageolizdat, 1950), its lattice constants being:
a = 9.065 � 0.002 kilo XU and c = 4.444 kilo XU. The last mine-
ral identified from the same meteorite was 4) Radbite, which be-
longs to the same isomorphic mineral series as-T-eFF-e-lbersite.
Its Ni and P contents are smaller than those of Schreibersite,
being 29.8 % and 15.2 % (weights given in percentage) respec-
tively. The lattice constants of Radbite were determined as:
a = 9.022 � 0.004 kilo XU and c = 4.424 kilo XU. 5) Garbona-
ceous Ohondrites were studied from samples of the meT_eo_r_7_es
"CoTd Bokkeveld". "Staroye Boriskino" and "Orgueil". This kind
of mineral was found in all three meteorites and has the same
lattice dimensions as the mineral found in the meteorite Migei,
described in the work of V.I. Mikheyev and A.I. Kalinin. (Ref.
10: Primeneniye rentgenometricheskogo metoda k issledovaniyu
vesh--hestvennogo sostava meteoritov 9se of the Roentgenometric
Card 9/12
89338
S/534/60/000/019/002/005
The roentgenometric study of ... D226/D302
Method for Investigating the Material Composition of Meteorites7
Meteoriiika, no. 15, 1957), It was impossible to determine its
chemical composition, but in the opinion of Mikheyev (Ref, 10:
op.cit,) this mineral is nearest to serpentine of the antigorite
type and contains a fair amount of bivalent iron (Abstractor's
Note: Lattice constants not given). The carbonaceous matter in
these meteorites is apparently amorphous. In the last part of
the article the author discusses the presence of hydrosilicates
in meteorites. He quotes Mikheyev's opinion that these silicates
are formed from olivine, not by action of water, but by the ac-
tion of carbon oxide and methane, and suggests the following
reaction:
3 M92S'04 + Fe"2S'04, + 2CO + 2CH4 @ @"'96(9'4010)ZW +
Olivine Coalgas Methane Serpentine
+ 4-C + 2Fe.
If the ratio of components were different certain minerals could
Card 10/12
89338
S/534/60/000/019/'002/005
The roentgenometric study of ... D226/D302
be formed instead of metallic iron such as magnetite. It follows
from this reaction schemati- that the ratio of water: carbon in
carbonaceous meteorites should be definite: There, in factf must
be 4 molecules of H20 for every 4 atoms of carbon; the ratio of
corresponding weights being 4 x 18 : 4 x 12 = 72 : 48 = 1.5.
G. Boato found that the actual ratios of water and carbon in car-
bonaceous meteorites were in the range: 1.13 - 2.0, i.e. an aver-
age of 1.42 (Ref. 12: "The Isotopic Composition of Hydrogen and
Carbon in the Carbonaceous Chondrites", Geochim. et Cosmochim.
acta, 6, 209-220, 1954). These data give support to blikheyev's
opinion. The author suggests that the above described reaction
should be performed on a laboratory scale -- this, says the au-
thor, should not present any technical problems -- and the reac-
tion products be carefully examined. In conclusion the author
emphasises the need to work out roentgenometric-crystallographic
data tables for minerals. Such tables are of great importance for
the study of ineteorites in view of the minute quantities of ma-
Card 11112
89338
S/534/60/000/019/002/005
The roentgenometric study of ... D226/D302
terial with which the investigator very often has to deal. Labora-
tory technician A.I. Kalinin also participated in the work des-
cribed above. There are 2 figures, 13 tables and 16 referencess
11 Soviet-bloc and 5 non-Soviet-bloc. The references to the Eng-
lish-language publications read as follows: A. Bradley, A. Jay,
A. Taylor. "On the Lattice Spacing of Iron-Nickel Alloys", Philo-
sophical Magazine and Journal of Science, 23, no. 155, 547-557,
1937; E.R. Jette, F, Foote, "X-ray Study of Iron Nickel Alloys,
Am. Inst. min. metallurg. Engin. Techn. Publ., no, 670, @Ietal.
Technology 3, 1, 14, 1936; X. R.D.C. II Am. Soc, of Testing Ma--
terials. First supplementary Card File of X-ray diffraction Da-.a,
1945.
Card 12/12
I',- STULOV. N.11.
Relationship between the crystalline texture, temperature, ani
heat of fusion of simple solids. Zap.Vses.min.ob-va 89 no.2:
143-151 160. (MIRA 13:7)
1. Ileptvitellnyy chlen Voeso7uznogo mineralogichookogo
Obahchestva. Kafedra kristallografii Leningradskogo gornogo,
Pnotituta.
(Metal crystals--Thermal properties)
SHAFRANOVSKIY, I.I.; STULOV, N.N.,_j1OKTYEVSKlY, V.A@
In memory of Viktor Ivanovich Mikbeev. Zap. LGI 38:3-8 '61.
(MIRA llr,"-)
(Mikheev, Viktor Ivanovicb, 1912-1956)
(Bibliography--Mikheev, Viktor Ivanovich, 1912-1956)
STULOV, N.N.
Review of the unpublished scientific works of V.I.Mikheev. Zap.
LGI 38 no.2:9-25 161. (MIRA 15:1)
(Mikheev, Viktor Ivanovich, 1912-1956)
(Bibliography--Mikeev, Viktor Ivanovich, 1912-1956)
ALYAVDI:@', V.F.*, Vi,Sll.,YL'lj', L.F.; VITO:31il%Sk4.yji, M.I.; GRIWli'YLV^, L.N.;
GODLENSHY, M.".J.: Zli&,U,,RjA, ZFEZUKOU, EISLLEV", '";
Y,OZY,1Wb,, Yu.A.-, E,ULIKOV, I-.V.; FAFFENGOPTS, h.N.; POLEVOY, b.F.;
S0101'"YEV, 1.1.
In memory of A.V.Nemilovoi. Zap.Vses.i-in.ob-va 90 no.6:7,'6-7,'?
,6-.. (PURA 15:2)
(N,mmilova, Aleksandra Vasil'evna, 180,2-1961)
s'rULOV, N.N.
"Homology if crystals" ty M.Mikheev teviewed ty U.N.Stulov. Za '
Vses. min. ob-va 91 no.1:123-124 '62. (MIRA 15-3
(Crystallography) (Mikheev, V.I.)
STLULOV, N.N.; SHAFRAINOVSnY, I.I.
V.I. Vernadskii on the aymm--,.ry of nature. Zap. Vses. min.
ob-va 92 no.5:579-586 163. (MIRA 17.1)
S-VJT,OV, N. N.
Correlation of the heat. capacity and the heat of fusion In
elements. Zap.Vses.min.ob-vz.- 93 no. 2:121-125 164. (MA 17:6)
1. Kafedra kristallografii Leningradskogo gornogo instituti,
problemnaya laboratoriya.
1"WI, P.Ml.; -"q"Roz@,NKOI, N,K.; SGII-C-V'T'ir, NA-,
T'@,V' .41. , :.' j -)-- rl "@',
,
Grigorti Sergee-vich Labqzi. 1893--yA@Ili an cbiturary'
zap, lises.minz ob-va 93 no, 2&2.,',5-246 164. (MIR@ 17:6)
." " i:-
Foi--m of ato---fr, Sph.-res and their closes-t nack-ric in crystal
,.:-uctures, ".7ses. m-n. ob-,-r@@ 93 no. 3: -r-2 6.1,
S4 L C
(1411R@!-- 18:3)
1 . Leningraciolkliy gorn, institut, kallf@,,-,ra kr@;stallogralli-;.
coblomnaya I-aboratoriya.
STULOV., N.N.
Work of the editorial board of the journal "'I'apiski Vsesoiuznogo
mineralogicbeskogo obshchestva" in 1957-1963. Zap. Vses. min.
ob-va 93 no.5:506-509 164. (141RA 17: 11)
" @ 7 @J F ti ! 11 (i V --* K @ , I ,
T , . !@!! I VVV , -.; . ,,, . @l I N . I'll .
.. , . . 1 . ; ID I ; I @ I I i1 41 ; S, LOVY
I i-f) t @ @ of t',F. %,-,@ar@ment cf G*a,:)Iogy of the Frankc, Lvov
I I I
93 no.6.735--736, 164.
(MULA 18:4)
STULOV,T.T.; TRUSOV,L.P.
Usa of precast concrete elements in water supply pumping stations.
Vod.i san.tekh. 1 no.1:14-16 Ap'55- (MLR& 8:11)
(Pumping stations) (Precast concrete construction)
BALASHOV. A.I., SZJW T.,T (Moskva)
Water cleaning installation for oil f4eld flooding.Strol.predonaft,
prom. 1 no.9-.6-10 N 156. (KIRA 10:1)
1. Zamestitell glavnogo inzhenera Giprospetenefti (for Balashov).
2.Glavnyy konstruktor Giprospetsnefti (for Stulov)
(011 field flooding) (Water-Purification)
Underground reinforced concrete storage tanks for petroleum products.
Stroi. prod. neft. prom. 2 no.2:1-5 7 157. (XTRA 10:4)
(Petroleum--Storage) (Roixforced concrete construction)
STUIDV, T.T., inzh.
Results of the All-Union, contest on "Standird designs of precast
-reinforced tanks with a capacity of 5000 M for light petroleum
products." Stroi. truboprov. 3 no.7:26-30 Jl '58. (MIRA 12:1)
(Tanks) (Precaut concrete constrnetion)
14(10) SOV/95-59-6-5/12
AUTHORS: St'uiov, T.T. and Trusov, L.P., Engineers
TITLE: Now Designs of Underground Small Capacity Reinforced Concrete Reservoirs
for Oil Products
PERIODICAL: Stroitel'stvo truboprovodov, 1959, Nr 6, PP 15 - 17 (USSR)
ABSTRACT: the Institute 01prospetspromstroy has worked out -standard desiMs for
typical reinforced concrete reservoirs of.joo and 2Do ou m capaelty.
Reservoirs (arch Nr T-1164 and T-1165) for.light oil products and
lubricants consist of a metal lining and gmnite wall. The article
describes and illustratee,this simple design and Inexpensive oon-
.struction. After the metal lining is put in place and welded to the
base plate to form a reservoir, it is filled with water and covered
on-the outside with gunite; tiia necessary equipment is mounted on 4
manhole metal covers. The gunite wall thickness is 6 cm for the 100 cu m
reservoir and 8 cM for the '200 cu m reservoir. - Designs for reservoirs
(arch Nr T-116o and T-1161) for dark oil products provide for prestressed
concrete reinforcement, The npvelty of this method consists in the.tight
winding under streos.-of the wire round the cone-shaped surface of the
Card 1/2 reservoir. The wire does riot touch the reservoir itself but passes over
STULOV, T,T@
Using precast concrete in water supply and sewerage structuros,
Vcdo i san. tekh. no.8:10-16 Ag 1,61. (MIRA 14:9)
(Sanitary
engineering)
(Precast concrete construction)
STULOV, T.T.
-
Determining the bending momsrut in the supporting section of a wan
of piecast reinforced concrete cylindrical storage vessels.
Izv. vys. ucheb. zav.; neft' I, gaz. 7 no.10:105-111 164.
(MIRA 18t2)
1. Moskovskiy institut neftekhimicheskoy 1 ga20VOy promWahlennosti
im. akad. I.M. Gubkina.
BPI
TITLE- Freauency-typ,@ silpervisory- control systems
5 -7.
7 PUU 1 ML A T TC)T I I f, rp
'j U
- -C 16 @57S t_--LT!:'
EM
encoder A-nd ripnrjr.r@r ;irR ;z mn I r- r- Ar-n_2 I aw@dqa
EMNIW t
-f requandy7a-W
the 2-pooket.3 a i The rms -nolas-
DOU -of thiff -type 15-
-
7
1p
d
!-g
L
r-A, Vp P -,C
a t.p.-,n at. @i V@
rr--,r-utq'jon ccd- it can da'Luut a num@er of errors in the c. od e
7";4 f-ll-@ and, I e c e , D a s I e c f @ I -,n e3 A decoder -Pc)r 'Uh-is
-!!,I nl: Orl 0000 LYP3 21-C LrI8
number ol' freanencip-3 ir. the packe'l-, The and the alternaUrg- I
Carl 212
STULOV, V.A.. inzh.
Statcdc interference rejection of changeable transmission
group codes. IzT* vyse uchebs zave; energ. 7 no.2:23-30
F 164. (MIRA 17:3)
1. Kiyovskiy ordena Ioenina politekhnicheskiy institut.
Predsigivlena kafedrey avtomatiki i telemekhaniki.
29213
S/102/61/000/005/00r,7/005
(16 ; it) D274/D302
AUTHORS: Skyrta, B.K., and Stulov V.A. (Kyyiv)
TITLE: 3equential magnetic decoder
PERIODICAL: Avtomatyka, no. 5, 1961, 73 - 76
Tl'!,XT: A decoder incorp"iLating magnetic elements with a rec-,.arigular
hysteresis-ioop is described. It is destined for contactless fre-
quency systems in remote control. The decoder operates on a two-
code signal, having two frequencies which follow each other in ti-
vie. The advantage of such a decoder over other ferrite-diode deco-
ders consists in -that i-@. no longer requiree a special switching
element for signal reception. The decoder incorporates toroidal
ferrite cores. A block diagram of the decoder is shown, Each core
has 5 windings. Winding 1 serves for remagnetizing the core from
stat-- 0 to 1; winding 2 serves for counting, it changes the core
from 1 to 0; counting takes place only when the core is remagneti-
zed from 1 to 0, by means of diodes in the circuits of windings 4
and 5; windings 4 and 5 are output windings which connect the in-
Card 1/3
29213
S/102/61/000/005/0015/005
Sequential magnetic decoder D274,/D302
dividual triggers of the controlled object. The frequency pulse ai--
rives at the filter inputs and after filtering and rectifying --
at the input of the Schmitt trigger (limiter); thereupon, the pul-
se is amplified and applied to the magnetic decoder. The key trio-
des KO and KC are controlled by a univibrator which operates on t
@.ransmission of the first code (indicating the character of the
operation). Thereupon, one of the keys (KC) is opened, and the
other (KO) -- closed. The first code arrives at the corresponding
terminal of the decoder input. The following signal is applied to
the second input-terminal (after passing through the key-amplifier)
The cores of windings 2 (which are placed horizontally) are con-
nected in series with the windings 1 of the cores whick. are remag-
netized. Assume the pulse is applied to the fifth terminal; then
the vertical series of cores (of winding 1) which correspond to
that terminal, are remagnetized from 0 to 1; the horizontal series
w2 does not change its state with the exception of core 4 which
changes from 1 to 0; thereby, a pulse is applied from its windings
4 and 5 to the corresponding control trigger. Af-,er the informa-
Card 2/3
29233
S/102/61/000/005/005./005
Sequential magnetic decoder D274/D302
tion, contained in the code, has been received, conversion takes
place by means of the conversion winding 3 with which every core
is equipped. Aft.er the conversion, the decoder re-assumes its ini-
tial position, i.e state 0 in every core. There are 3 figures.
SUBIJITTED: !@iarch2O, 1961
4t
Card 3/5
KATKOV, F.A., kand.tek@z.nauk; qTUI,0T_V.A.I-Ap:@I-I-
Alternate-message frequency code and its remaization.
Izv. vys. ucheb. zav.; energ. 5 no@10:22-32 0 162.
(MIRA .15: 1-1)
1. Kiyevskiy ordena Lenina politekhnicheakiy institut.
Predstavlena kafedroy avtomatiki i telemekhaniki.
Momote control) (Telecommunication)
SMIDOVICH, V.A., inzh.; ZHAK, V.Z., inzh.; SKIRTA, B.K., inzh.; STUIDV, V.A.,
inzh.
Experience in operating a frequency remote control system and a
sipmalinp system. Elek.sta. 33 no.2t 72-75 F 162. (MIRA 150)
(Telemetering)(Remote control)
Iff,
KATK@-V, Fedor Aleksandrovichp kand. tekhn. nauk. Prinimali ucha-
.gtiye:-,STULCIV,, V.A-, inzh.; POPOV, A.B., inzb.; DIDYK,
B.S., inzh.; SHESTOPALOV, MI., kand. tekJm. nauk,
retsenzent; PISARENKC, M.G., inzh., red.izd-va;
STAWDUB, T.A.J. tekhn. red.
[Teoroticnl principles of remote control] Teleupravlenia;
osnovir teorli. Kiev., Costekhizdnt USSR, 1963. 231 P.
(MI RA 16: il)
(Remote control)
STULOV, V.A. (Kiyev)
Concerning some definitions and classifications of codes.
Avtomatyka 8 no.1:63-66 -a'3. (mnu 16:3)
(Information theory) (Automatic control)
L 105!-66, _EW T (d
@A-=MN NR: AR5006541 S10274/64/000/0l2/A015!A0_f5_'
621.391.15
SOURCE: Ref. zh. Radiotekhnika i elektrosvyazl. Sv. t., Abe* 12A75
1AUTHOR: Stulov, V. A.
TITLE: Code -combination structure
%
'CITED SOURCE- Tr. Kive-vak. politekh. in-ta, v. 42, 1963, 78-85
:TOPIC TAGS; code, code combination, code structure
TRANSLATION: Definitions are offered for several concepts characterizing the
structure of the code cor@abinations that constitute a code. Each combination.
comprises one- or multi-element sendings whose number and sequence are
determined by the code algorithm (the elements are transmitted simultwleously). i
The code element is a distim,t elementary portion of the oending; the element is
active if it carries usable information (which was in the message before its transe-
mission); the element is pasolve if it carries ancillary fiLlormation (which is adde
to the usable information for i3ervice purposes). The sendings are active U all
!Ccrd-.I/Z
MAN WM@M
M@TMMT_ 4
L 1051-66
,:ACCESSION NR: AR5006541
their elements are active; mixed, if only a portion of the elements is active;
'passive, if all their elements art- passive. In a code combination, the sendings
form rows sequentially and cccording to one system of time components. The
;number of used systems determines the number of rows. The total duration of
,;sequential sendings in a row dete:rmines its order. , The first-order row has a
duration and a higher (for equal duration) number of sendings. In the
@general case, the code combination may be represented, in Cartesian coordinates,
by a three-dimensional quantity because it is characterized by its positiorL in time,
Ahe number of sendings, and the number of elements in a sending; the
corresponding averaged numerical characteristics can be easily computed from
- - - --b- -c- --f o- __ 4 --- 111
'the Code - aIg 0--rithm, and the nwm er at oxxilifivitions n the ode. MAtilvies,
i cede combination can be adequately presented in a two-d1mensional or single-
dimensional space. In this sense, many codes in use are single-tUmensional.
:Bibliography: 5 titles.
i,SUB CODE: DP. ENCL: 00
cc
rd-2/2-
L 40-31t-65 Firr (d '11 P a
-E -,3: ON S RAR-4-- @ I
'A0541AO54
SOUR'F- Ref. th. A,;- -na-ka, --,@I@@.,nckr.anika i v--rchislitel'na:ra toldinika.
8vodiiyy tom, Au5. 6kln@
7v-
@kv
AUTHOR: Katkov, F. A.; Stulov, V. A.
kqt n -echanical ;3ySt%-I-q
q 3,11v--nal;na-Pscl odas fcr telerr.
K'I-re,@, Gcs*.elk@,.Iz@lal- lll@@,IiR, 1--,163, 124-126
(A.PC' for trawmlitt-
E) C 8
-.f Tislnr alternatin a,,-k t od. s
4
,e C,)T
ing 1-1-if ormation @-i Lelemecnan-Lua-L
ed n @@ertna 3 s-lon.. wri thcut dAviding time i-ni.ervalB.
a eT'qL1-3 r a comDina-
wrule -in t-h o c c n dcase -A-mre m and k ar othe nimbei-o frequm,.ies In
Card
SIP
L 40319-65
AC(,',ESSION MR: AR4044802
the packet and code, respective1r; n is -the nurmber of pack-sts in the code
coribInation (CC). In the i_nc:ciq)1e1e A.PC -.rhere the adiacent packets have ro
r@s an,@ combination.-I w-'-! be-
.'e.-1 IS "@";Vlber of
-f e:e:ren@,; Ar. @iacand and subsequent packets.
('Yin Vr Tr' 1 n;j("Ice '.5 '_11e &'3ffe Lfri!q@ienclea ,
:C e le',,! -, F1_ s '-.a .,@ r.a E-c, i @n -_ ar, be os*1 1-mated
fr-uM tfl-1-6 LfW7'1@.I@ A Y11, t6,._H, -fit-3., e 14-A M7 , . - . , Lhe ri @imt@e r 2, mb'_na-
1--tior-s' in -the -ftrst,-aacozid,mid7_t@-th
7- - I - - ___ _ - ___
"o -analyz _ ahf I V --------
leation & 6 W4401-
any_
er.
group is composed only of those passible packets ch @44 jiot@__us@ ir@-dth
@:r-uus, is equal
751
s exa.- + 1,7 di,l-,sible by I
can ber selected by tha freqaerx@saL_aqnt
The number Of CC, when the gr
neously, is-equal to
_V__%MdeV_ thO -&Mntlon Utat k
Card TIO
S
6 imp
1 N 910M - -619 11M
AFETR/ESD(dp)
T -0Q7_(,C: ZJT(d )/E.0-2/FS (b) Pac-l+/Pae__?p. 1,
A
C r- 7-,S =1, 1, ;@R AR4044VS01 sffo2 Ml"00%0 C-Of," 05VAO-4
SC'JACE, Ref. zti, A-,- tekhnika. S'@bdny%'f
t-cm, Abs. @@AY)5
AUTHOR: Stulov V. A.
TITL-- 5@( me allorn@ifi!,g qiaality ccde@used ir.
CIM SOURCE: Sb. Texhn. kibeirrietiJca. Kiyev, 1963, 128-AA3
TOPIC TAGS: telemechanics, code
TMISIATION: A-1terneting qaality -codes (Acc) can be u!ied in te-lemp-chanical systems
as error-detection codes, the freqr_@.lnq@r be-Ij-'r uSed as- a Ll- ty. s- le@ AQG -can de-
tect, in a code aurbLnati-non, i-.*,e p1resence o C an adjacen-t f req,-tenay instead of --the-
correct frequency. An arrangement -t-.Irpe JI&C .-perxits- datec-ting- tne. Wrong f r8q7-len_-Y_
ro.,,i I @e same code cr@mbinatirjn. A p@Irmutati-e AQ%! permits detecting, in a code
C 0 mt) @,n p tIi,)n, any wr-orig frequency -whi_ch correspcnds to a i-,ub_.e detection. Relative
effilc@ericy teitng a ratio cf
7,:I@Trer in a Da@:e
ode
Card 1/2
Motu awmvmmmawwm@
L -00.17-65
ACGES5ION HIR: AR4044601
that h--s the same number of frequencies, packet-5, and frequerm;ies per pac@cpat _in_
F i7-,"' .1@ 1f-r@r: Emd
SU3 CODE: EC EN',',Li 00
Card 2/2
L 3278-66 1!-V4r (d)/FSS-2
ACCESSION NR: AR5014345
621. 398,001,.621.391,13
SOURCE: Ref. zh. Avtomatikit telemakhanika i vVc1dsl1tel'naya tekhmika. Ik
Svodnyy tom, Ab a. 5A I I I
AUTHOR:
TITLE: Principles of selection
'CITED SOURCE: Sb. Ustroystva I elementy prom. telemekhan. layev, 1964, 5-1 li,
.AGS: signal transmission
TOPIC T
TRANSLATION. It Is suggested that allprinciples of cielection (PS) be reduced to
these four categerieo: quality, division, distribution, and combination. With the
quality principle, the signal division depends on various values of the parameters
of the information carrier. The signal consists of a single-element packet and
liffers from other signals qualitatively ox quantitatively. Simultaneous trans-
mission of several values of the game sig@na]_ indicant is excluded. Tho signal
indicant raeans a qualitative Indicant of the information. carrier and also presence
L 6434-66 SWT(d)/L,,',-.T (v)/E'dP (k)/F,W.P(h)/E'5FP (1)
ACC NRi AR5014352 530URCE CODEt UR/0271/65/000/0()5/i6~.';/AI)43
SOURCE: Ref. zh. Avtoxatika, telemakhanika i vychislitellnaya tekhnika.
Svodrkyy.tom, Abs. 5A303
AUTHOR: Skirta, B. K.; Stulov, V. A.
TITLE% Frequency selectors used in remote-control systems
CITED SOURCE: Sb. Ustroystva I elementy prom. telemekhan. Kiyev, 1964, 63-68
TOPIC TAGS: frequency selector, telemetering, remote control system
TRANSLATION: Selectors are described which consist of paral-lel or series resonance,
circuits, electromechanical. 1- and 2-reed vibrators, synchronous filter generatoreg
and W differential filters whose operLtion depends on parametric resonance. One
and 2-reed vibrators have passbands of 1 and 3%. A reed vibrator combined with a
transistor is used as a generator. The synchronous filter generators and differen-
tial filters are the most economical. devices among all selectors used in remote-
control systems. The first operates on the principle of synchronous reception.
They include a semiconductor LC-oscillator, a comparison circuit,and a Schmidt
trigger. The on-off operating transistor acts as a controlled coaductance. The
t
Card 1/2 UDCt 621.398.626
0 1?0/ Ae@
7=_
_L 6434-66
.ACC NRs AR5014352
:synchronous filter generator is used a3 a filter or @9 a generator. The filter
@generator produces a signal when the frequencyof an arrived wave coindMes with
,or-is -very -close- to the-frequency of tho local. oscillator. 3%. 6j figs. 7-
.SUB CODEt IF
nw
Card 2/2
L 3334-66 S',!T (1)/EWA (h)
ACCESSION NR: AR5014344 UR/0271/65/000/00.5/,A~b'iS'/-;'Ai o16
62 1. 398. 3: 62.1.39 1. 15
SOURCE: Ref. zh. Avtomatika, telemekhanika i vychislitel'naya tekhaikao
Svodnyy tom, Abs. SA109
AUTHOR: Stulov, V. A.
and noice-ampUtude analyzer
CITED SOURCE: 5b. Ustroystva i elercenty prom, telemekhan. Kiyev, 1964,
114-116
TOPIC TAGS-. noise analvzei.uolse aaalysis
TRANSLATION: The noise immunity of a code can hardly be evaluated without
knowing the duration and amplitude distribution of noise. A noise analyzer
consisting of threshold devices, exponential selectors (ES), coincidence circuits,
inverters, axid counters in proposed for determining noise having various
amplitudes and durations. For simplicity's sake, an Analyzer with two
levels and three duration levels is described-. The noise signals pass t1w
card 1/2
L 3334-66
ACCESSION NR: ARSO 14344
threshold device whe:re they are segregated according to their levels, then an E
S
where they are subdivided according to their durations, then they are applied to
the coincidence circuit, and after that - via suitable inverters - they go to the
counters which count the noise signals of specified levels and durations. The
threshold devices consisting of semiconductor inverters have, at their entrance,
diodes wii,,h different thresholtin. Unlike conventional circuits, Inverters are
connected to the ES outputs. Only those pulses pass ES whose duration (at the
pass level of the final threshold device) exceeds the delay time set for the
dje'
corresponding ES. By selecting a definite number of threshold vices and EWS,
the required noise &ialyzer can be constructed. Fig. 1.
SUB CODE: 9C -ENCL: 100
C.,d
L
SOURCE CODE-- --T6
Z-OR-i-AR6014184 UR[02
WC 71 5/000/011/A&22TA022
AUTHOR: Stulov,___K,_ A.,_
TITLE: Formation of channel components with alternating-packet codev,
1)
SOURCE: Ref. zh. Avtomatika, tolemekhanika i vychislitel3naya tekhnika, Abs. IIA151
REF SOURCE: Vestr. K In
Venk. politekhn. ' -ta. Ser. aytomatiki, elektropribarostr.
i radioelektron.,no. 1, N964,742-44
TOPIC TAGS: telemetry, telemetry system
AMTRACT: Sequentiql components in the alternating-packet codes are time formed,
usually, by alternating the frequency packets or by changing the code elements that
have various values of the same or different parameter of the elementary signal.
The sequential components of a channel can be formed, too, by changing the
elementary sinusoidql signals differing in their amplitudes or phases. The
sequential components of a channel can be time formed by changing the values of one
or several signal characteristics. Five figares. Bibliograpby of I title.
V. M. [Translation of abstract]
SUB CME: 09
CWd 111
ACC NR: AT6022308 -SOUkCCCODE~:-UR~/0000-/667000-/000/0053/0056-,
AUTHOR: Stulov, V. A.
ORG:
'TITLE:
none
Combinatorial properties of codes in remote control
SOURCE: Vsesoyuznaya nauchnaya sessiya, posvyashchennaya Dnyu radio. 22d, 1966.
Sektsiya telemekhaniki. Doklady. Moscow, 1966, 53-56
TOPIC TAGS: coding, coding evaluation, combinatorial analysis, signal coding,
remote control
ABSTRACT: In the limiting case a code combination may consist of a single unit. The i
minimum number of code elements in the latter is one. If the code consists of such
combinations only, then its capacity is equal to the number of different code elements.'
.Each code element possesses d attributes which may assume g values. In the case con-
sidered, code combinations are obtained by combining the values of attributes. Con-
.sequently, in the limiting case, the values of attributes and not the code elemc:nts are
taken into a code combination. The number of values of the attributes serves as the
A
coo-e base, because various code combinations are obtained when they are combine6.
co-@e Qo-mbination may consist of a single multi-clement unit. In this case Several code
eiements are transmitted simultaneously. Alphabets for all parallel components can be@i -
both identical and different. In the case considered, the code has a common alphabet
Card 1/2
-ACC NR.. AT6022308
'only when the alphabets of all its parallel components possess identical elements, gen"!
erally, a code combination consists of several units. Then -various code combinations 1
.ar-2.obtained by combining units in them. In codes which are at present most widely
lknown, basically those code combinations consisting of single-element units or a single.
unit are used. In such a code the number of code elements serves as the base. Orig.
,art. has: 8 formulas.
:SUB CODE; 09/ SUBM DATE: 24Mar66/ ORIG REF: 002
AU MOR
rITLE@ t,@-",idaz@
duL
28963
!;/17q/6i/ooo/oO3/Ooi/oi6
9131/E435
(Moscow)
layer on a flat plate taking account of
to ratle of dissociation
P E R.1 0 D I C-4- 1- Al@:@riEn.--Iva ;niuk SSSR. Izvestiya. Otdeleniye tekhnicheal-il-b
n"-k. K:khar.-Ike. i mas hino a troy en.-Lye, 1961, NO-3, pp.5-12
TEXI'., n- fc-z- a laminar boundary layer on a flat plate
L-1 @h,@@ binary m-'xture are successively
t) of Mxr,@:;dnitz and Blasius
-iar-'ables,, The velocity
J.a assumed' --onstant. Two type-s of
uzv -,.)nsJ.Aered. -the first corresponding to the
-y @@-nd thermaily La3lated nd the second to the
N@,11 ha6 a given conslant temperature and
on @he is also oonstant. Both
system of n.-,r. '@Inear partial
whi@.h :-an bt simpli-fied by assuming that
-h, the -:hara.;`--erist-4,-- time of the chemical
rr 't: --,npar-@3,c-n w@'.--h the characteristic time of the
fi@;- z-rd grad"@izrk-s are not greater than of
, , I / 3
S11 7 9/628963
1/000/003/ooi/oi6
n E03!/E,435
d& than be derived by
C:,nEldering the first problem,
1) ";I.-Aty p:-,,fl-7? i-a given by the well-known
B1 a -ie ii determined by the
;,@,i zaTt)--w. o2,d;--: approximation). In the
the imbalan,:,e has no effect on the
:-.:Z-;-e for the deviatic-i
q -u _''
1@lbr@um -@ralue is a hyperbola for
cf -the wall at the nose corresponds
-h- -:)f :he incident flow sloi-.@-ed
Pdrtl
Th6 temperature falls downstream
lh tha- of the slowed
The temperature of a
A-.an @.he o:-rEzponding to equilibrium
-3_'L_--w1'ng down cf the dissociation
t- --,@,nslaticn en@irgy of the molecule is
The sef:ond problem iff'46alt
h t In --hp firs,: approxiMation the perturbation In
E f f e on i h.:@ h-vat f low. There are
0. 3000 S/179/61/000/006/002/011
S-0 0 1) E032/135i4
AUTHOR., Stulov, V.P@ (Moscow)
TITLF@ Heat transfer in the laminar boundary layer on a plate
with allowance for the absence of chl-mical equilibrium
PERIODIC,ki- Akademiya. nauk SSSR, f7ve--3tiya Ot.dPlt-niye
telchnicheskikh nauk. M#,khanika i mashinostroyeniye,
no-fi, 1901, 11-111
T E XT This paper is a continuation of' previous work reported
by the author in Ref.1 (lz,,r.AN S.SSR WIN, Mekhanika i mashino-
strovenive. 19bl, No.3) The beat transfer to tile wall in tile
boundarv Layer of a reacting atomic-molecular mixture depends on
tile change in the viscosity-density product, the Prandtl number
and tile Lewis number across the boundarv laver. The author
derives approximate formulae which may be us'ed to calculate tile
effect of changes in the physical parameters on the heat flow,on
the assumption that the changes are small in the boundary layer.
The calculation takes into account binary diffusi.on and is applied
to the special case of oxygen and nitrogen. It is shown that the
calculations are in good agreement with experimental results over
Card 1/2
@W.
AUTHOR:
TITLE:
S/179/62/000/003/001/015
F-031/E335
Stulov,_V D (bloscow)
The flow round a convex angle of an ideal dissociationg
gas takin- account of disequilibrium
PERIODICAL: Alcademiya nauk SSSR. Izvestiya. Otdeleniye
telchnicheskikh nauh. Mekhanika i mashinostroyeniye,
no. 3, 1962, 4 - lo
TEXT: The flow round an ancle nearly equa-t-Ito 1800 of an ideal
dissociating gas was studied by Clarke (J. FIdid Mech.,'196o',
v-7, p.. 4). In this paper an.approximate solutio-zi is given for the
problem, for an arbitrary angle and the change in the discontinuity
of the normal derivatives of the gas-dynamic variables along the
c1haracteristic separating the uniform incident flow from the
e:zpansion fan is studied. Disequilibrium occurs because-of the
transmitted by t nert
finite velocity with which energy is he i
degrees of freedot-ii of atows and molecules. The characteristic
tiizie Q'L flow can become equal to the characteristic time to
establi8h equilibrium. The system of equations of motion of an
inviscid gas must be supplemented by the equa-tions describing the
Card 1/2
L Z
_rannic fjow nonequiltbrium f Ivw, air
N
a LI t,
ara I'R t@j ee 0 CL e3 C,
Ot + es
ea t n
25
Ie3s tha M,2 c1)
r a -
aa a aa as Cer when the
though the velocity of the Secana CC;IxeLl@
Card 2 f 3
iTED 3 - 11 a .5
NO REF SOV: 005
00 SUB CCDE HE
OTHER: 002 ATD P P-E 9 S
card 313
L o8o66-67 NWT(d) T"-wT(1)/E7"1TLM)
LFd@
TCC NR-. AP6034531- SOURCE CODE: UR/0421/66/000/005/060-3@00077
AUTHOR: Stulov, V. P. (Moscow); Turchak, L. 1. (Moscow)
iORG-. Institute of Mechanics, Moscow State Universit (Institut
imekhaniki MGU)
j\'0
!TITLE: Supersonic air flow past a spherd'with vibrational relaxation
I
itaken into account
@SOURCE: AN SSSR. Izvestiya. Mekhanika zhidkosti i gaza, no. 5, 1966,
3-7
TOPIC TAGS: supersonic aerodynamics, supersonic flow, shock wave,
vibration relaxation, relaxation process, stagnation point, degree of
freedom
1
!ABSTRACT: A numerical solution of the problem of supersoLic air flow
iover a sphere when there is nonequilibrium excitation of vibrational-
,;degrees of freedom of the molecular components is obtained by the
,method used in a previous work (Izvestiya AN SSSR, Mekhanika, no. 1,
@1965). The laws of conservation of mass, energy, and momentum on the
;shock wave and the condition of impermeability of the sphere surface
,are taken as boundary conditions. Calculations were carried out for
@flows over a sphere of 0.75 cm radius in the Mach range from H,. - 4 to
i Cord /2
STULOVA, A. F.
Geese - Gorlkiy Province
Hatching gooF@e eggs at the Pavlovo Incubator Station, Ptitsevodstvo No. 2, 1953.
9. Monthly List of Russian Accessions, Library of Congress, May -1953. Unclassified.
.-..STULOVA,_",Fe j SHUTOV, Nikolay Ivanovich
- @ --l- -N @
[aading poultry farmers] Peredovye ptitsev,ody. [Gorikii]
GorIkovskoe kn-vo. 1954. 36 p. (KIBA 9:10)
(Poultry)
STULOVA, I.L.,r3fnront.
Crushing oporations at the Gatokumpu Plant (from a report at
the World Congress on Hineral Dressing hold In Stockholm).
Obog.rud 3 no.4:38-42 '58. (HIRA 12:2)
(Outokumpu--Ore, dressing) (Stockholm--Ore dreseing-Congressee)
Aff ..,
"A 'I.,
MAEDVSKIY, N.D.;-STULOVA-, I.L.-
Now trenda in the field of crushing, and grinding. Met. met. 33
no.10:92-94 0 160. (MIRA 13:10)
(United States--Ore dressing)
NOVIKOV, A.Y.; GAIIIIIA, A.Z.; 00GINA, A.K.; ro L*.U.L.,AZAROVA. L.A.;
DANIKOVA, M.N.; OPOWHENTSEVA, T.D.: SHIBAYEV, D.P.; ZHABYKO, Ye.G,,-
MIRKIIIA. A.G.; OVSYANKINA, Ye.I.; SAYMOV, F.S., red#; SUMIN,
A.A., red.;.YOHICHEV. P.M., tekhn.red.
[Rconor7 of Kaluga Province; collected statistical No-,odnoe khoziai-
stvo Kaluzhakoi oblasti; statiatichaskii abornik. Moskva, Gosestat.
izd-vo, 1957. 142 D. (HMA 11:6)
1. ]Caluzhokaya oblast', Statisticheskoye upravlenie. 2. Statisti-
chaskoye upravlaniya Ialuzhsko7 oblasti.(for all except Savenkov,
Slemzin, Yomichev) 2. Yachallaik Statiaticheakogo upravleniya
raldzbskoy oblasti (for, Savenkov)
(Kaluga Province--Zoonomic conditions-Statiaticg)
STULOVA, M.V.j inzh., otv. @m vylyask; VOFDTNIKOVA, L.F., tekhn. red.
[Factory regulations for repairing multiple-units of d.c.
trains; chRnge in the regulations of 1955 for the general
overhaul &ad minor repair of multiple-unit cars) Pravila
zavodskogo remonta sektsii elektropoezdov postoianwgo toka;
vzamen Pra-vil kapitallnogo i arednego remontov elektrostan-
tall izd. 1955 g. Moskva, Transzheldorizdat, 1963. 390 p.
(MIRA 16:5)-
1. Russia (1923- U.S.S.R.)Glavnoye upravleniye lokomotivnogo,
khozyaystva.
(Electric railroads--Maintenan-,e and repair)
.-STULOVA., M.V., insh., Otv.za vypuakt MEDVEDBVA, M.A., tekhn. red.
[Regulationis governing the-m-pair of multiple-unitirail care
of d.c. trains in railroad repair shops; superceding the
regulations for the maintenance and repair f waltiple-unit
rail cars approved by-the..Hinistry of Railroado on May 21,
19551 Pravila depovskogo remonts. sektaii elektropdUzdov po-
stoiannogo toka; vzamen Pravil tekushchego remonta, ukhoda i
soderzhaniia elektrosektaii. MPS ot 21/V 1955-g.. Moskva,
Transzheldorizdat., Moskva, 1963, 426 P. (MIRA 16:4)
1. Russia (1923- U.S.S.R.)qavnoys upravleniye lokomotivno-
go khozyaystva.
(Electric railway motors-Maintenance and repair)
(Electric railroads-Maintenance and repair)
GURKO, Z.V.; STULOVA, O.V.; BARTKINA, O.A., otv.red.; LUCHKINA, A.N., red.
izd-va; ASTAPIUVA, G.A., tekhn.red.
(Development of Soviet science during 40 years; a bibliography of
anniversary literature published in 1957 and 19581 Razvitie so-
vetskoi nauki za 40 let; ukazatell iubileinoi literatury 1957-1958
gg. Soat.Z.V.Gurko i O,V.Stulova, Hoskva, 1960. 87 P.
(MIRA 13:6)
1. Akademiya nauk SSSR. Aindamentalunaya biblioteka, obahchestvennykh
nauko
(Bibliography--Science)
LIJKOMSKAYA, A.I.; REMIKOVSKIY, M.M.; ORLOVSKIY, P.N.; STUKALOVA, A.F.
Prinimall uchas-44-iye: GORM, A.K.; STUM, T.
Efficient laboratory method for determining the tendency of
rubber mixtures for pre-vulcanization. Trudy Nauch.-issl. inst.
shin. prom. na.7:154-161 160. (NIRA 14:8)
(Vulcanization) (Rubber, Synthetic--Testing)
LUKOMSKAYA, A.I.; ORLOVSKIY, P.N.; WREZBANNYYP S.B.; STUKALOVA, A.F.;
Prinim-ii uctastiye: SAMOKEODKINA, K.G.; KALINOVA, L.T.;
GORMAY A.K.; STULOVA V T.
Effect of the surface-to-vol!=e ratio of a test piece in the
evaluation of the processing qualities of rubber blends. KaucIT.
i rez. 20 no, 4%36-42 Ap 161,. (KIRA 14%5)
1. Nauchno-itisledovateltakiy institut shinnoy promyshlennosti (for
LukomBkaya, Orlovskiy, Merezhannyy, Stukalova).
(Rubber) Testing)
STULOVA, Ye.A.
Clinical aspects of acute ir-dustriia intoxication with dibrommethane.
Trudy GIGT no.9:79-82 t4-2, (,'!IPA 17:9)
PASCUIZSGU,T.; BLIDA.RU,P.; STULOVSKY,A.
A new procedure for the treament of total rectal prolapse.
Ramaitian M. Rev. 3 no.4-62-64 o-D lig.
OWTUM,eurgery)
L 3503 E!dT(m)/EW(b)/ZWP(t) JD 4?s
ACCESSION MR: AP5008155 6/0286/65/000/005/0074/0034 Sy
A=OR: rnton. B. Ye,, Dudko, D. A Medovar, B. I.; Latash, Yu. V ; MaksizolriC
Shevcher j, A. 1-; Stank, Gancharenko, V. P. , Grigor Inv; b. 'F.
77e Lui._bov, G.' K. ;
, Chudin, ff'.-X Yartsev, M. A ; Keys, N.-V.t
Tvain. N, A Knipellnijakly. V. Q.; pElvaloy, Fielmennov. V. S., Kholodoy
-Yu, A,; Rys&roy, 6,.H ; Bnatrakov, N. Y.; Donets, 1. D.; Silayev, A. Ya.
TITLE: Method of alectroslag castlimoof Ingots. Class 18, No. 168743
SOURCE: Byulleten' izobreteniy I toyarnykh snak(m, no. 5, 1965, 34
TOPIC TAGS: ingot casting, Ingot electroolag ctwitings electroslag melting, steel
melting, &13.oy melting, metal melting
ABSTRACT: This Author Certificate introduces a method of electroslag casting of
Iingots in an open or protective atmosphere or in vacuum, in vhIch slag in first
melted In a mold vith a nonconsumable or consumal.)le electrode are or plasm jet.
To improve the metal quality and the ingot surfa,:@ and to raise the yield, the
molter, metsa or, if needed, the slaq to poured lato the sold through a hollow con-
sumable or nonconsumable electrode (set YIg. 1 of the Enclosure.).. Orig. art. has:
1 figure. (ND)
Card 11/3 -
L 3503i-6.5
ACCI:@-,.710,-l IJR: AV5008155
VCOCTATION: Chaljabin-skiy metallurgichookly savod (Chelyabinsk Met&llurgical'
pl@-.n
SMUTTED: 00rcb63 ENCL; 01 SUB PODS: Wi, 19
, il
flo Rm- sov! 000 OTHER: 000 ATD PRMS 3215
Card w
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