SCIENTIFIC ABSTRACT SOKOLOV, M.M. - SOKOLOV, M.V.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001652010020-4
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
August 25, 2000
Sequence Number:
20
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
![]() | 3.01 MB |
Body:
Oxidation of pine,,e end of caren* b I I&
M M. Paviyuclurnk,i irAl M.
PribUd. Khios. t J. Applied Lh@-n.) 21. 1 IM-MINN).
In r1l)(1. under conO. pressure ui (h - 510 MM- Hg. with
flMS j. panene. at 35 . the fate I of consumption, ul Us
increj.@.d with tirse. e.g.. 4. 8, 12, 18 brs.. r - 0.15,
0.2R, 11.34 ml.,Itr. If the run is ;nterrupted. the
Lh evacuated, and the expl. resurned, Is again oltarts at
and inerrawt as previously. 0%idation of As-
felt* prikmll in the %ante way, only ounsewh-st faster.
Vit It I GO vaii,w wlinitte,l at the Iitast. r decteiss,,s dairinst
the l,t 4-5 lim. p.L.xell through a min.. then Inerva-r.,
the @iiue behAiiar is found when the 11&0 vr%wre is kelit
con%t. iltirilig the run. Oxidation of carens. is akvvierated
hv S. %Icl, is unchanged in the Ineselic, of KI.
Fit. PhOll. and I- inhilitell by fs-
C411,0111h. C.11,(Ollh. and 11%,N11. oxillalluts oll
ontne it strongly inhilAted by (C0,11).. NAAA, ADd
MC11,011. although the latter two have bulfly any
eff-toricamne. luthecLutolisinesse.0.01roPKIIIsOl-I
(CChID. skn" down the reaction W20 timesi. After
j 24-hr. interruption. the same efistcts am ohnes an
r-utuption. Turpentine all with 0.(*-0.1% (COJI).
-c p-(2414(010. rentained cakellen 3-4 maintins in the
,I.Ark. but became yellow, owing to entitistion, in the ab-
.-ence of an antioxidant. The effect of antir tillants
prove4 that the reaction takes place in the liellssid, am in
:he gAteptiq pb;s-z. In the presence of (COtH),. the ac.
IMAtitin e"t-tXV for the Glidiltkin Of Pinesse IS 9P&j
By rough rtn.. the no. of effecove collisions
lit the gas phz,@c would be tinsits the mo. of moh.
m-irteA. 7.2 X 101, tnobi. 0,/sec.; hence. a reaction in
the gai phAw would require a considerably higher activa-
j-" energy. and. consequenliv. the reaction tak" place
III flit liquid I,hAe only. Jnder identical conditions.
An't A urf,wr ArrA of the liquid, Is increases with
flit untiAl Aint. 4 ciurne. e.g., with U-3, 0.9. and " g.
cArrne. v - 0.12. 11.24. and OM ml./hr. On the other
Ilund. the inkmase of v with increasing surface am of the
liquid is MUCh -IC M. COCIACCIUCII1117. this reaction t-k-
PI.u-r both at the iUterfACe will In the bulk of the liquid.
The ulcm@w of r wi-.h increamnit (Ji, prewarst is dliusuated
by the dAtA, const. amt. of eArene, pressure cd air It*),
-00, and 500 trun. fig. r - 0-035. U.I.185, 0.12 ml.ibr-
.
In the prrence of strong inhibiton. e.g. (CWI),. r m
in,lel,endrut tif the prr@urr 4 0,. Between Xii anti CV.
r I;t(trt 8 hri.) itictrawi tilive than 4 linies. conorqurritiv.
1,11".n i, n.-t the unir lolt- froin th@
im-w 4 v ith tinit. With A drugnAting 4 toul. of
either pinene or carrue. the inechAni-im of The re-Action can
be rrpre,,ented by the v-berne A - A*; A* + Ot -
-Ath*-. AO,* + A - AO, + A'; AOt - AO + 0; A +
O-AO*; AO* + A -A' + AO.and A' + 01- A(M.
Formation ni Ath uscuri lirrilotilitututlY at the Phase
boundary. whereas the ikuhwquent reactions take place
in the liquid. The total r3te is the sum of :1 rates. r -
+ nxj,. where a - no. of activs: mals.. j - length
::@Ichaia. ubwfipts I anti 2 referring to the primary
(phaw-boundAry) &oil the arvand"y (built) reaction.
lit the licewnce I-( inhibito", there is one single st @.
-r - qj. If file reictiou tt,ok plice only at The phaw
boundary, the no. oi effective coijisiouls of (h with surface
(0.65 sq. cm.) would be 1.8 X 1011/wc., whereas the rate
corresponds to 7.2 X 1011 mols./sec.. in other wards,
over half of the activated mols. are deactivated by the
inhibitor. The efiectivensms of small amt!,. of inhibitors
over prolonged period% of time would indicate that the
chAins am enerigy chains. This ii borne out by (be ob-
_serv-Ation OAt pinene and carette to which some of their
oxidation products h4ve liecti added undergo funkcr
oti4i;;ltion an illumination with a gLuss fig-vapor Lamp
(i.e. in viible light). whereas in the absence of usch
leri%lucts the photachein. othLition is conii,irrAbly slower.
# and is zcrit at the initial stagess. The oxulAtion products
evi'lrotly sexistue the pikotorkent. aridauins. N. Thtm
SOKOLOV,Ei-khail Mak-dynnyl - MASOV A.F- otv. red.@ FOLYAKOVA ,
ch, - 5 - - 2 11-1
red.; KLIMOVA, T., tekhn. red.
[Economics of socialiA..agriculture]Fkonomika sotsialistiche-
skogo sellskogo'- ISoziqjWa. Moskva., Gospolitizdat., 1962.
254 P. (Agriculture-Ewconomic aspects) (MIRA 15:8)
L I - . . !7J-' L e U li 2
ixapr. 'rf, r-radif, t. on ',-f
1-ii, 'A iE!m '@i I nim, croon L! . Atom.
tic). L: 69-1,,C) 65 ("'!IHA 18:2)
a
SOKOLOV, M.M., inzh.
Automation of feed processing operations. Trakt. i sel'khozmash.
32 no.1:21-23 Ja '62. 15:2)
1. Vsesoyuznyy nauchno-issledovatel'skiy institut sel'skokho-
zyaystvennogo mashinostroyeniya.
(Automatic control) (Feeding and feeding stuffs)
89 - 3-6
AUTHORS-, Ochkur, A. P. Fedorov, A. A.
Karabanov, N. I.
TITLE.- The Photo-Electric Absorption of Scattered T.-Rays (Foto-
elektricheskoye pogloshcheniye MS3eyannoGo T -izlucheniya)
PERIODICAL: Atomnaya Energiya, 1958, Vol. 4, Nr 3, pp. 284 - 285 (USSR)
ABSTRACT: The measurement of the @6@-spectrum was carried out by means
L
of a scintillation spectrometer to which a multichannel
pulse analyzer was connected. As T -radiator T1-204, 110-2037
Cr-51, Cs-137 and Zn-65 uere used, and the distance between
the detector and the radiator was varied between 5 and 15 cm-
For the case Cr-51, D = 10 cm, and with sand as scattering
material, which once contained 0,5 0o, then 2 @o, 5 dia of lead
and 10 Ida of copper the measured scattering spectrum is --raphi.-
cally represented.
At about 100 XeV a mini-mum can be observed in the -spectrum
which coincides with theoretical calculations . Within the
range of about 150 KeV a more marked decrease is to be seen
Card 1/2 which corresponds to the sin.-le scattering of T -quanta
','he Photo-Electric Absorption of Scattered '@-Rays
89-3-8/30
with minimum ener- . In theoretical calculation this energy
Lly
turns out to be 145 KeV.
The admixtures of lead considerably change the spectrum, not
only decreasing the number of pulses but causing a depression
which is to be seen within the range of 100 KeV, being de-
pendent on the greatly increased photo-electric absorption
coefficient for the r -radiation,the energy of which approach-
es that of the K-binding energy of lead (88,2 KeV). Analo-
.-Ious pictures are given by all radiators investigated. There
is 1 figure.
SUBHITTED: July 22, 1957
AVAILABLL: Library of Congress
1. Scattered-6LRays.-PhotoeLectric absorption 2. _c@"-Spectrum-
Measurement 3. Scinti-11ation. spectrometers-Applications
Carl 2/2
12o
AUTHC' S
!IT LE -i-a o .,.c tr SG-42 (Polevo-SPadiometr -SG-42)
PLitICL,'IC."t-L: IzvefAiya :Li@i 6j"Jit Pizic:ic.-Ika --i, I)j3, -7ol. 22
-I.D.LIA.CT Th-- authors wor@-Ied oat a z)ortable P.;),--,ir,.,tus wit1i a Sci,.-Aillat-
ion couiiLk.r for .-.-.easurinj t-rajs ';.ith at-, encrr',- of froa 5o 11zeV
at.o. iiiore. The apparatus i,; pro(luced by the in, -'ustr.;-- anCl"Or the
,-.---.ie "Field-f-Audiometer CF'-42". A !1aJ-Tl-cr1,--Ft"1 ';;ith U=3o and
1=23 m-i, ans well as a photomultiplier',;)N-19 41:1 a-.,-e a.!eC-- in the
a-ppafatus. Optical contact between tile- cryst-al ar.d the photoi.ial-
tiplier is brou-ht about by ueans of an or-anos-ilicon licuid.
Tile device has 3 scales: 1) 0 z' 5o/.,- hour,@,2) 0 LJOU@
0/
3) 0 ! 70o - Sooe hour-1. Tile first two are linear, 'the third
is TIOLinear. The sensitivit.-threshold of the device at a na-
tu-al bach!rrouzid of 6 17& hour-1 amounts to 2j-t, hour -1. The
7
se;i.,3itivity of the device for the r,adium-source azio-u-.As to about
18o 2oo pulses / min-1 per 1 h -1. The tiMC? COnstants of the
(levice for tile 3 scales are c, 2,2 sec and 1,2 re-
Tho relative error can be Lietermined acuordin- to the
Cart 1/L' fluctuation of tne device -ind icat ions o-@ accor@,inrr to the formula
itaciia7-c-ter SG-L';2.
6ivun The device weighs 5 kg. The stability of indicat-
ion is sufficiently high in the temperatare range of -1o .1. +400.
The device is mainly determined for geological prospecti=. ',,-hen
the ITaJ-Tl-crysta-l is replaced by suitable phorphors the device
can be u.,ieG for the recording of rapid arid slow rieut.-o,.-Ls.
1 t_'5'_)lU alld 1 fi,@'Ure.
AVAIL.ULE: Librar,- o.L" Congress
CD
1. Crystals 2. Neutron counters
Card 2/2
iv)
t
j.3 JIVA
J-1 8 d S 9
-. @I U a2 -"
.3 -jug[:
MEMO,-
3 1" 5) SOV1132-59-8-13118
A 1, -i @ P " 1 OR SOchl-cur, A. P@ , SLkalay,_ M. M. , and Fedorov, A. A.
TIME, Cia -IV-he InterDretation of Diagrams of Ga=ma-Gamma
U,
Core Sw-., pling
PERIODICAL. Razwedica i okhrana nedr, 1959, !,Tr 8, pp 52-53 (USSR)
AESTRACT in the dia-r=-1 obtained from gavw@a-gamv@ta core
sa,-.,iplin-, anoinalies caused by caverns in the bore-
hole are similar to those caused by rocks and mine-
rals of low dcnsity@ A correct interpretation of
such a diaCram can be made, according to the authors,
by c,)mparing the dia--rains obtained iwith sounds of
a different length. If the thus obtained values of
density coincide on a graduated graph of a gamma-
gamma survey, the anomaly is caused by the change
Card 1/12 in density of a rock or miueral. The variation
SOV/132-59-8-13/18
On the In@,erpretation of Diagrams of Gamma-Gamma Core Sampling
of the compared curves indicates that the bore-hole
crosses a cavity. There are 2 graphs and 1 table.
ASSOCIATION: VITR
Ca:?d 2/2
0.0000 78338
SOV/89-8-3-23/32
AUTHOR: Sokolov, M.
TITLE:. Development of Nuclear Energy in Sweden
PERIODICAL: Atomnaya energiya, 1960, Vol 8, Nr 3 pp 270-273
(USSR)
ABSTRACT: The low-grade uranium deposits of central Sweden, the
metal reserves of one of whi ch exceeds 1,000,000 metric
tons, their mining opqrations, uranium extraction
mills, and seven experimental nuclear reactors,
operating or under construction, are briefly described
according to Swedish sources. Since the further
increase of the country's hydroelectric power output
Is expected to reach its limit within 2 to 3 decades,
and the electricity from power stations working with
imported mineral fuels fs 4 times more expensive than
that from nuclear power stationsthe latter's future is
believed to be very bright, There is I figure; I
table; and 20 references, Swedish, or 1bassian and
Card 1/1 German translations from Swedish.
S/08 6o/0808@O
.67,63-0 0 B006Y3063 2 3.1@/10/021
AUTHORS: Fedorov, A. A., Soko-lov, M. 1%,11., Ochkur, A. P.
TITLE: Measurement of the y-Emission Spectraliof Radiative Neutron
Capture in Certain Rocks
PERIODICAL: Atomnaya energiya, 1960, Vol. 8, No. 6, PP. 555-556
TEXT; The gamma lines emitted by various nuclei as a result of their
abSorption of thermal neutrons are characteristic of these nuclei. An
examination of this gamma spectrum makes it possible to analyze complex
chemical compositions. The authors used this method for the first time
in 1956 when they detected certain chemical elements in rock specimens.
(Po+Be) with 2.106n/sec served as neutron source, and the gamma
radiation was recorded by a scintillation spectrometer whose resolution
vias 1201o' for the gamma line of cs'37 (o.66 Mev). The experimental
ar-,.angement is briefly described. Fig. 1 shows a pulse-height spectrum
corresponding to the gamma radiation that occurs in neutron bombardment
Card 1/2 11@
11'easurement of the y-Emission Spectra of S/089/60/008/06/10'021
Radiative Neutron Capture in Certain Rocks B006/BO63 82311
of hornstone (Curve 1) and diorite (curve 2). The former is mainly
composed of silicon and oxygen, the latter of oxygen, silicon, sodium,
calcium, aluminum, and iron. The capture cross sections of the 'thermal
neutrons and the main gamma lines (Ey > 4.5 Mev) of these elements are
listed in a Table. As practically no neutrons are absorbed by oxygen,
only the Si line (4-95 Mev) occurs in the 5-Mev region. Diorite
exhibits additional maxima at 6.4 Mev (Na, Ca) and 7.6 Mev (Al, Fe).
The elements may be distinguished by continuous recording of the
intensity of y-radiation. Fig. 2 shows core sampling diagrams which are
briefly described. There are 2 figures, 1 table, and 3 references:
1 Soviet and 1 Canadian.
SUBMITTED: December 12, 1958
Card 2/2
PHASE 1 BOOK M[PLOITATION ZCjII/55()2
Vse3oyuznoyr-- soveshchaniye po vnedrenlyu radioakt!,,nykh izotopov I
yadoi-nykh izluchenly v narodnom khazyayst;ve SS5R. Riga, 1960.
RadIoa%LIvnyye izotopy I yadernyye lzlucheniya v narodnom
'@--hozVays,.ve SSSIR; trudy Vsezoyuznogo 3ove3hchanlya 12 - 16
aprelya 1960 g. S. 'Ri.-a, v 4 tommalidi. t. 4: Poiski, razvedka
I razrabotica polcznykh i3kopayeraykh (Radioactive Isotopes and
Nuclear Radiation in the National Economy of the USSR, Trar-
sactior.3 on the Sy-mpoaiunm Held in Riga, April 12 - 16, !960 .'n
4 volumoz. v. 4: Pro ape c tins, Surveying, and I.Lining off Iun-
eral De_poaita I; Moscow, Go5toptelchizdat, 19061. 234 P. 3,64o
colpies printed.
Sponzoring Agency: Gosudarstvennyy nauchno-te;c:rnicheakly-kom4~te.~t
Soveta 1'.:inistrov SSSR. Gosudarstvannry komitet Soveta'FLtni3trov
SSSR po lspollzovanlyu atoranoy energii
Eds. (Title page): N. A. Petrov, L. I. Petrenico, and P. S. Savit5k!y;
ed. of this volume: M. A. Speranskiy; Scientific ed.: M. A.
Speranskly; -Executive Eds.: N. N. NuzImina and A. G. ionell;
Card 1/11
Radloaative Isotcnes and Nuclear (Cont.) SOV/5592
Te@h. Ld.-. A. S. Polwina.
rURPOSIE : Ti,,---- bcor,, is In*;ended for cngineer!! and
d@!alin;; with th,@ problems involved in the applIcaticn o'
radioactive lzotope5 and nuclear rad-lation.
C OT-@ R A C Thi.3 collection of 39 articlec in Vol. 4 of t@-t- Trann-c-
c.@ All-UnIon Confercnce @f the Of Rai.103-
active _Tsotopc-3 and lNuclear Reactlcn3 In tte Nat.,,-nal Ecrncny
of th,@@ USSR. Th,,@ Conference waa called bv thp C-Q@uda:,F-tvennyy
koinitet Sovet NlinistrovSSOR (State
Commi-,tee of the Coutv:1.1 (-," .*-'.I-.,1_ziter.I of
USSR), of USSR, O:o2plan SSSR i ,S'Iatp Plann4ng
Com='_tt,@e of Council of Mln_'@mters of the
nyy komiuet Scvez;a 11,11ni-trov SSSIR po avtGmatiza-@s!_n I manh_:-o_
stroyenira (State Committee of the Council of XLnisters of the
USSR for Auto-ation and Machine Building),and the Council oz'
I-IIIn_!:;ters of the Latvian SSR. The report3 -aurmarized in thll!
publication, 'de'al with the advantages, prospects, and
Card 2/11
Radioactive lootopes and Niciclear (Cont. SOV/5592
develop=cnt of radioactive methods used in sar-
veyJnZ, and 7::Ining of oreo. Tndividual report5 prezent the
.@;Lts of the lat,st acie,ti-He research on the developmcnt
and i"Provem-ant of the theory, methodology, and technolog@j of
radiG@@,etric investigations. Application of radioactive method=
in the -field or engincering Geology, hydrology, and the con-
tvol of ure enrichment procesze2 is analyzed. No peraonalities
ar@-. montlorvi!. There are no rercrencez.
TABLE 01@' CONTENTS:
Aick@eyev, F. A. Pre5ent State and Future Prospeat_r of Applying
th@ @*:t@tncds of Nuclear Geophyaica in ProzipectlnS, Surveying, and
!_'Inlng of I%aneralu 5
BulashevIch, Yu. P., G. M. Voakoboynikov, and L. V. r'1_,zYUkin.
I tron and Gamna-Ray Logging at Ore and Coal a2PC21tS %9
NeU
Cordoyev, Yu. I., A. A. Mlakher.and D. 1-1. Srebrcdollskiy. The
Card _3/11
160tclIC6 and (Cont. S () @V/5 5 9 2
Zolonov, A. V. Critical Dimen3ions of an Arti*LIcial Bad for
the Slmulal.;Ion of Radioactive T-1pthods of Borehole
gation 139
Soirc
A. P. Qc*hkur, A. A. Fedorov, A. Boll@,hakov..
v. Anpliaa@@on of the Methcd of S-@,attere@ 11amma
Radla@,Ion for the InvestIsMon of Ore Holes 146
-@zhiborzk-nya, Kri. B. FadioactIvation (Photozzieutron) Method
for Detc:rmiuing Eeryllium 15L
X. I. Con tiie PoLsibility of Activation by Fazt
:;eutrona Un&.-r Dcrehole Conditions 157
Senlko, A- Y. Photoneutron Method of Prospecting, Expioration,
and Sampling of Peryllium Ore3 16 3
Abdullayev, A. A., Ye. MI. Lobanov, A. P. Novikov, and A. A.
Cari 7A1
"Q!Ack ki@iVj of Pooka ml P;mj br r3l-.;.-j rs,27
ocnttorilla."
SOAXOID7, H. 14., or.,l CC-@---7,MYA, R., E.
fcr qunntitativu &ot@-raluaticn of hia-.7
ok-,,nntli. "
roporta to be sulnittoil for V:,3 Ccafaronce cn Nuoloar Goopbjmico,
Krak-tv,, PolwA, 24-30 GOP' . V962.
11
SOKOLOV, M.M.
Study of the chemical composition of rocks and ores an the basis
of using radioactive isotopes and atomic reactions. Uch. zap.
SAIGIMSa no.8:27-31 162. (MIRA 17:1)
1. Vsesoyuznyy nauchno-issledovatellskiy institut razvedochnoy
geofiziki.
FEDOROVY A.A.; BOL'SHAKOV, A.Y-u.;.SOKOLOV, M.M.; NATSVIN, A.N.;
PAVLYUKOVICH, Ye.A. @
Principal results of work on using the gamma-ray scattering
method in a Central Asian mercury mine. Uch. zap. SAIGIMSa
no.8:53-58 '62. (MIRA 17:1)
1. Vsesoyuznyy nauchno-issledovatel'skiy institut razvedochnoy
geofiziki i Yuzhnyy gornometallurgicheskiy kombinat im. Frunze.
OCHKUR, A.P.; SOKOLOV, M.M.; BOLISHAKOV, A.Yu.; KH17EVt F.Pe
Possibility of determining the nature of selective loggi anomalies.
Uch.zap.JLU no-303:274-277 162. IMIRA 15.3-1)
(Radioactive prospectiA,;)
'SOKOLOVY M.M.@ RLUTSOV, P.P.; FEDOROV, A.A.j KHITEYEV, F@P.
Separate determination of uranium, thorium, and potassium in natural
occurrence using a scintillation ghmma-%pec trome ter. Vopeiudag ofize
0 e
no-4848-57 164. (MJRA 1821)
ICIM MMM SMWGZ@
L- 26914-65 Pu-4 -IJP(c)
?dp JD/DM
EWP(e)/EW(m)/EPF(n)-2/51G(m)/U (t)/EWP(b)
ACC13SSIOU NR: AP5004010 S/0089/65/018/001/0069/0070
AUTIMRS: Gromov, B. F.; Pankratov, D. V.; Solody'ankin, M. A.;
Sokolov, M. M.
TITLEi- Reduction of the capture gamma radiation-from structural
reac )r materials by screening the materials with boron-containing
screens
SOURCE: Atomnaya energiya, v. 18,,no. 1, 1965, 69-70
TOPIC TAGS: reactor shielding, capture gamma radiation,- boron
shielding
ABSTRACT: The authors point out that earlier experimentally deter-
nizid-d __c__ 0--ef f ici e-n-t-is-ex- prds_skhg_'thte.-ddcr- k6_tIie._iht@ensI:Ey
n ease- -of c ap
ture gamma rays from reactor construction-materials.were obtained
C
J_or only one particular casel where the gamma detector was located
at approximately half the mean free path from the surface of the
Card
1/3
J 7 _a@__TMU !7;@
L26914-65
ACCESSION UR: AP5004010
source, whereas the coefficient of reduction of the capture gamma
dose (blocking coefficient.).was reallya function of the thickness
between the source and detector. '17hey have-calculated with an elec-
tronic computer the spatial and-energy distributions in steel screens
and in the reactor shell using an 18-group method in the P2 approxi-
mation, for'the case of a reactor with and without a boron-containing'.
screen. It has been shown earlier that leakage of neutrons gives
rise to capture gammas in the reactor shell, which increases the
'gamma level outside the reactor. The calculations show that the de-
creaige in the capture gamma radiation.is quite rapid until a value
f 4 mean free paths is reached, after which the.coefficient be S,
0 come
independent of the thickness. "The authors thank,S. G..Tsykin and
Yu.--A.-Kazanski -for-interest--in the-work- and- for -@cxiticalremarks
Orig. art. has: 2 figures and-1 formula.
ASSOCIATION: None.
Lard
2/3.
I
SOKOLOV, 1-1. N.
Sokolov.- M. N. "On the problen of the development of microbes'", Vrache*L). delo,
1946, No. 12, paragraphs 1037-42.
SO: U-3042, 11 March 53, (Letopis 1zhurnal Inykh Statq, No. 10, 1949).
SOKOLOV, M.11. -
Power Engineering in Island. Energokhoz. za rub. no-5:44-45
S-0 '59. (KRA 13:2)
(Island--Power engineering)
SCKOLOV, M.H.
Development of nuclear energy In Sweden. Energokhoz. za. rub.
no.2:38-41 Mr-Ap 160* (MIRA 13:6)
(Sweden-Nitclear enrineering)
SOKDLOV, M.N.; s@GAL, Ya.ye. . doktor ekonomicheskikh nauk, redak-tor.
,
[Sweden] Shvetsiia. Moskva, Gos. izd-vo geoer.lit-ry. 1953. 85 P.
(HLRA 7: 1)
(Sweden)
15 -57-4 -4122
Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 4,
pp 11 (USSR)
AUTHORS: Tikhvinskaya, Ye. I., Krupin, V. I., Sokolov, rd. N.,
Vi nokurov I V. M. , Veryas ova, 14. P. j,
Grigorlyeva, T. Ye.
'H TLE Stratigraphy and Facies Relations in the Permian
Deposits of the Tatarskaya ASSR (Osnovy stratigrafii i
fatsiallnogo slozheniya permskikh otlozheniy Tatarskoy
ASSR)
?ERIODICAL: Uch. zap. Kazansk. gos. un-ta, 1955, Vol 115, Nr 10,
pp 113-117
ABSTRACT: The Permian deposits of Tatariya are divided into the
Lower Permian (250 m to 300 m thick), represented by the
Schwagerina, Tastuba and Sterlitamak horizons of the
Sakmara stage, and also by the Artinskian and Kungurian
stages. The authors point out the limited distribution
of the Artinskian series, completely developed (80 m)
,ard 1/2 only at the extreme eastern edge of Tatariya, where it
SOKOLOV, tfork Ifikolayevich; POPOVA, V.I.. red.; VILEWSKAYA, B.N.,
--tekhm-red.
[Liberia; geographical study] Liberiia; geografichesk-ii ocherk.
flosk-va, Gos.izd-vo geogr.lit-ry, 1959. 28 p. (MIRA 12:10)
(Liberia--Hcononic conditions]
SOKOLOV) M. N.
"Different Stages of Scandinavian Glaciation as Reflected in the Relief
ot the Russian Plain"
report to be submitted for the Intl. Geographical Union, 10th General Assembly
and 19th Intl. Geographical Congres, Stockholm, Sweden, 6-13 August 1960.
A111DREYEV, Boris Ivanovich; LEDOVSKIKII, Stepan Ivanovich; HABINOVICH,
Isaak Yevgenlyevich; 5Qh
.@OLOY,-,M.N., retsenzent; SHIBANOVA,
A.A., red.; PODOLISKAYA, M.Ya., red.ka--t; EHaS, I.G.,
tekhn. red.
[Essays on economic geography: Austria, the German Federal
Republic, and Switzerland] Ocherki ekonomicheskoi geografii:
Avstriia, Federativnaia Respublika Germanii, Shveitsariia.
Moskva, Uchpedgiz, 1963, 229 p. (MIRA 17:2)
SOKOWV, M.@T., kand. tekhn. nauk, dotsent; TEREXROV, Y.M., inzh.
Expedient regions of the utilization of reactor control for
induction motors. Trud7 MBI no-30:287-293 '58. (MIRA 12:5)
l.Moskovskiy ordena. Lenina energeticheskiy institut, Kafedra
elektrooberudovani.va prozWshlennykh predpriyatiy.
(Blectric motors, Induction)
Linea:@ .:easura-tents in iol@-,-,onometrY '33arried Out 'Jith Accuracy of 1:25,CIDO
,Y). 3tatev I:o 0 0
,eotezii, i@o 8, PP "9-7', 1954
Aesults of investigations concerned with accuracy of measure-ments of
linear lengths in poly.,o-nometry carried out b y the Central 3-Aentif'ic
iesearch institute of Ge6desy, Aerial Survey, and Mapping are presented.
The most- strin.-ent renuirei:ients of accuracy have to be satisfied in pqly-
.-onometric shains -5 km lon,-. For securing the aczuracy of linear measure-
ments of 1:25,C@DO, liscrepancies between separate measurement's should not
exceed 1.0 run. The tension of wires may be -,rovided by dynamometers and
the -Ares s-ould be of invar. (iZhAstr, 'No 11, 10,55)
SO: Sum 812, 6 Fab 19156
3OKOl,OV44f I., kandidat tekhnichoskikh nauk.
I 6ftww"
Geodetic basisof a topographic surve.F on a scale of 1:10,000.
Trudy TSKIIGAIK no.100:19-55 154. (MLRL 8:2)
(Topographical surveying)
SUDLKOV, S.G.; VIROVETS, A.M.; KURYTSIN, S.V.; FAVLOV. V.I.; PODOBEDOV, N.S.;
POPOV, V.A.; RYTOV, A.Y.; SOKOIA)VA, N.A.; SOKOIGV, M.N.; TROITSKIY,
B.V.; SMYDERMLN, B.S.
[Instructions for topographical surveying; scale 1:5000 and 1:2000]
Instr-&tsiia po topograficheskoi sOemke v masshtabakh 1:5000 1 1:2000.
Moskva. Izd-vo geodezicheskoi lit-ry, 1955, 87 P. [Microfilm]
(MLRA 8:2)
1. Russia (1923- U.S.S.R.) Glaynaye upravieniye geodezii I karto-
grafii.
(Topographical surveying)
ISOKOLOV, @ikhail Nikolayevich; YELISEYEV, S.Y., kandidat-takhnicheakikh
I I -@ rmaaktorl KM-FKIN, G.M., takhai-
cheskiy redaktor.
[Theodolites of medium accuracy and less] Toodelitr maloi i srO&Wi
tochnesti. Fad obahchat red. S.T.Bliseeva. Moskva:, 12d-vo geodesiche-
skoi lit-ry, 1956. 96 p. (Kin 9:6)
(Theodolites)
WAM OLOY I Im.ndidat tekhnicheakikh nauk.
Tables of coordinate increments. Good. i kart. no.3:-16-20 Mr '57,
(Geodesy--Tables, etc.) (MLRA 10:8)
I "K - TWITATION @1011@ 4011
W, 42-m-u8
Sokolov., M. N.
Trebovaaiya k tocbnosti topografteheakikh kart i topogmficheakikh soyemk
v mashtabakh 1:2,000, 1:5..000, 1 1:10,000 (Staadards of Accumcy of
Tiopographic Maps and &a-mys at Scales 1:2.000., 1:5,000and 1: 10,000)
Moscow, Geodazizdat, 1958. 167 p. (Series: Hoscov. Tseatrallayy
nauchno-issledovatellskiy iastitut geodezii, aeros"yemki i kartografti,
Trudy, vyp. 118) 1,000 copies pi-Inted.
Sponsoring AS--nay: USSR. Glavnoye upravleaiye geodezii i kartografti.
Ed.: A. V. M%slov; Tlech. Ed.: V. V. Fomnove; Ed. of Pablishing House:
A. 1. Inozemtseva.
PURPOSE: The book is intended for topographers and surveyors. It may
also be used by students of topogmphy and cartogmphy.
card 1/6
UK*G.@'S' n d i d a t e oT e c1in 4- c --I.,
if.
Fedosov, i
TITLE: Tacinymetric Tables (11'akheometrich---skiye tablituy)
7T
@.r 7, PP. 41-5:0 (USS-1)
T 2LA C T :@y :--,commendation of the Central -3urenu of `-7urve,.in,@ and
'I Central
---to'---@-)hy an investigation was c&rried out in 'V' e .
7?ese&z-ch In-,ttitute of Surveyinr, -@'erial ----,hoto--.,
@nd Cartogrvphy of the different taciivnet---i1c t&bles
-r to select the most economic ar-1 best uti'liz--ble pnes
-n ordc
M tables 7..hich hcve be-n -ubl4,-'@Od iurin::-
t;-, last .25 years viere examine,". Tile inre@:tigation yielded
the foliol,-.ing results: 1) The nqst iiseful comzut&tions we@e
obt-@,incd -74-th the tables 1, 2 L:.nd 3. 2) The qualif-;cation
h
o' the calculator and his abil-it- to ad@itt-hiimselz' ta tr-e-
use of the table hRve -- more 7--onounced @ha- the
tyte of t.-,ble used- 3) 2he =Dst univers-z-1 table -is sable 1.
-j-
It is, however, too coPious. 4) Table 2 is on (.. analler
Card 1/2 range, it iss hOWeVel, more convenient for drawin,@ terraln
Tachymeti-ic Tables
in a mosaic. 5) TLble 3 is portable and it a st!ffj-
dient performance in comput,@tions.@ 6 For su--veyi-n.7 atto a
lnrse spale and in inountainous regz-,.ons n9cpecial tables
must be Published. 7) tabie2 muzt be cuir'.1jerzonted by
'to be conrAdered the str--ndard
,-u.-iliary 3.1 Trbla 1 -4---
tz:ble. There are 4t.-:bles.
1 , YApozg 2g, Geophysical surveying-Tables
Card 2/2
S/006J60/000/05/10/024
B007/B123
AUTHORt Sokolov, M. N., Candidate of Technical Sciences
TITLE: On the Contour Interval of the Relief of Topographic_�a_ps"'
PERIODICAL: Geodeziya i kartografiya, 1960, No. 59 PP- 40-45
TEXT: This article describes the way of selecting contour intervals
adopted in the USSR, In Germany (principally in Western Germany) and in
the USA. In 1935 standards were set up in the USSR for the contour
interval, considering the demands of engineering projects. The possibil-
ity of a maximum and, at the same time, expedient utilization of the
graphical possibilities of a map on the respective scale is taken into
aizcount. This interval was designated in Soviet geodetic publications a@-
normal cross section. It is calculated from formula (2). In Table i
values are given for topographic maps on scales of 1 s 5000 to -1
a:3 well as the contour intervals fixed by the Glavnoye upravleniye
i kartografii (Main Administration of Geodesy and Cartography), that, ar;.
used also in practice. Formula (2) can be used for determining the contou-s
interval of topographic maps, but not of special maps. For special maps
Card 1/2
On the Contour Interval of the Relief of S/00 60/000/05/10/024
To-ographic Maps B007YB123
.P
fi:rst of all a contour interval is chosen, which guarantees the necessarj
accuracy of engineering calculations, and then the scale for the survey
in fixed. In the USSR additional contour lines are plotted at a distance
which Is a fraction of the interval (1/2, 1/4), or at any distance.
Based on a comparison of the methods commonly used in Germany and the USA,
the author believes that procedures used in the USSR are more efficient.
There are 3 tables and 5 references, 1 of which is Soviet.
Card 2/2
- SOKOWV, M.N., dotsent, kmnd.tekhn.nauk
Torsion of geodetic steel signals. Trudy MIIGAIK no.41:3-14 160.
(MIRL 13:11)
1. Kafedra geodezii Moskovskogo
aerofotoe"yemki I kartografii.
(Triangulation signal
instituta in2henerov geodezii,
towers)
CRE130TAREV, Aleksandr Stepanovich, prof.; SELIKHANOVICH, Valeriya
Georgiyevna, dots.; SPK V,_-Mikhail Nikolayevich. dots.;
__QW
KPROMCHENKOP F.I.J. red.izd-va; SUNGUROV, V.S., tekhn. red.
(Surveying]Geodeziia. Pod obahchei red. A.S.Chebotareva. Mo-
skva., Geodezizdat. Pt.2. 1962. 613 p. (MIRA 16:3)
(Surveying)
E7dP ID M
L 2 1010-65 Eup(e),'DIT (m) IEW(V)ITLI
C SOURCE C1 DE: UR(7~0--Vl-3T66To-66-[6-6-3-X6-9-9-XO19
1AUTHOR: Butomo,_D. G Zedin, N. I.; Sliozberg. S. K Sokolov.-M. P.
ORG: none
TITLE: Alloy for electrodes of resistance welders. Class 21,
No. 178426 [announced by the
of Welding EauiDment (Vsesoyuznyy nauchno-isoledovatellskiy ins
elektroavarochnogo oborudovaniya))
ute
U
SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znakiq no. 39
1966, 39
TOPIC TAGS: alloy, electrode, welding electrode, resistance
welding
ABSTRACT: An Author Certificate has been issued describing an alloy
for electrodes contain ifig _copper, -Pnd maaneslum,.for resista-nce--r-e-1Agz&-,j
In ord.er to in - ase the atrengtt of -t,he electr4-6de in resistance vdld-'
ing of' aluminuc@a
m thd its alloys; the electrode alloy Is supplemented
with -0.1% boron the other compounds are magnesium (up to 0.30%)
and the balance is@Ropper. ILD]
SUB CODE: 11, 13/ SUBM DATE: 04jan65/
Ca,d 1.@l P9- UDc: 621.791.T63.037.2
.3OKOIDV, M.P. (Odessa); YASYUCHFMA, V.L. (Odes-ga)
Water solution of blood for fattening pigs. VeterinAriia 39
no.10:71-72 0 162. (MIRA 16:6)
(Blood an food or medicine)
(Swine-Feeding and feeds)
38044., SOKOLOV, M. F. and ROZIMERG, L. YE.
Voprosy planirovki dendrariya. CGav. botan. sad7. Byulleten- Glav.
botan. sada, vyp. 4, 19L19, S. 13-19
L 13377-63 EWT(m)/BDS AFFTC/ASD
ACCESSION NR: AP3002721 S/0120/63/000/003/0066/0071
AUTHORi Sokolov, M. P., "5
TITLE: Automatic apparatus for measuring radiactivity f a wire
SOURCEs Pribory* i tekhnika eksperimenta, no- 3, 1963, 66-71
TOPIC TAGS: wire radioactivity measurement, reactor neutron flux
ABST@ACT: An automatic apparatus is described for determining distribution of the
neutron flux along the reactor channel. Irradiated wire (up to 5-m long) passes
a radiation detector and is wound by a wire-transport mechanism; the wire length
under study is adjustable within 5-200 mm. Radiation-detector pulses are amplified,
i discrJminated, and fed into a counter unit whose second channel serves for timing
(100-cps pulses). Upon terminating the exposure (10 to 10,000 sec), the stored
inforriation. is fed into a printer. A standardized counter-timer unit may be
operated in several modes and is suitable for various physical- investigations.
A pho-@ograph and simplified connection diagrams are submitted. The apparatus was
exhibited at the Soviet Industry Fairs in London and Paris in 1961. "T.R.Yeremp.Yev,
I. V. N.'aumov, and N 9 _Jqatov t ok part in the d6velopment of the apparatus.
The p:@inter design documentation was carried out by V. N. Kartsev and N. A. 4bC1106/'._
:Cardl/91
ACCESSION NR: AR4020782 5/0271/64/000/002/BO40/BO40
SOURCE: RZh. Avtomat-p telemekh. i vy*chislitel. tekhnika, Abe. 2B253
AUTHOR: Sokolov# M. F.
TITLE; Output units for a general-purpose memory
CITED SOURCE: Tr. 5-Y Nauchno-tekhn. konferentaii po yadern. radio-elektron.
T. 4. M., Gosatomizdat, 1963,, 125-139
TOPIC TAGS: general purpose memory, pulse analyzerp time selector, charge
storaj, tube, histogram transcriber, computer
e
TRANSIATION: A general-purpose memory has been developed for various types of
analyzers: 1-and 3-dimensional amplitude analyzers, time analyzers, time se-
lectors, etc. A charge-storage tube type LN8 is used in the memory. As basic
parawters the device has 1024 memory channels, a binary counting system, 16
place3, 20-microsec mean input pulse recording time, and a raster regeneration
timeof 170 msec for the entire charge-storage tube. A set of output units con-
sisti-ag of a high-speed printer, a histogram transcriber, and magnetic recorder
1 Card ... 1/2
ACCEMUON 14R.- AR4020782
are provided for information output from the memory. In addition, it is planned
to provide a magnetic tape unit as an input to the computer. The operating modes
of the memory system during output of information on the units described are
examined. Orig. art. has figs. and 3 refs. 0. B.
DATE ACQ-- 03mar64 SUB CODE: SD, CP ENCL: 00
COM
WRISOY) A.A., doktor gt@ogr. nauk, prof.; 71UMITSKAYA, O.M., kand.
googr. nauk; BLAGOI,;IDOV, N.L., kand. sellkhoz. nauk;
NINYAYEV, 1,.A., kand. biol. nauk; SHULITS, G.E., kand.
biol. nauk; RODIONOV, M.A., kand. biol. nauk; MALICHETSKIY,
A.S., prof., doktor biol. nauk; TOMSON, N., doktor med. nauk,
prof., akademik; VE.ItESUCHAGIN, II.K., doktor biol. nauk;
NEYELOV, A.V., aspirant; TYULIPANOV, N.M., inzh. lesnogo
khoz.; KUROVSKIY, G.I., inzh.-parl-,ostroitell; AKOLOVY M.P.,
arkhitektor; SOKOLOV, S.Ya., doktor biol. nauk, -p'r-o'-r-.';-m-Uchn'.
red.; MALICHIKOVA, V.K., red.
[Nature of Leningrad and environs] Priroda Leningrada i ok-
restnostei. Leningrad, Lenizdat, 1964. 249 p.
(MIRA 17:7)
1. Akademiya nauk Estonskoy SRR (for Tomson). 2. Zoologi-
cheskiy institut AN SSSR (for Neyelov).
SOKOLOV, M.P.
2206. SOIKOLCVP M.P. Arkhitekturnaya Strurtura Polyarno- Al'Diysko,7o Botanicheskogo
0
Sada. (Khibinskiye Gory). Byulleten' Glav. Botan. Sada, V`YP. 2, 1949, S. 40-/,5
SO: Letopis' No. 30, 1949
2 @8
_@1000/009/0
-11)91 11-13 S/05 04/014
0g, 2, 1
ISDO 19D9 12 D.
D040 D113
AUrHORS: Sliozberg, S.K.; Ginzburg, S.K.; Sokol.)V, M.P.
Trms The effect of heat on the properties of copper-aluminum welded
joints
PERIODICAL: Avtomaticheskaya svarkat o. 99 19619 20-23
4
TEXT: Results are presented of an experimental investigation carried out
with cold-welded copper and aluminum wire joints prepared at the cold-weld-
ing laboratory of ITNIIESO. It was noticed that a thin light strip, about
1@5 micron deep, formed in unetched specimens2 after a brief heating to
3 000, and that it grew upon increasing the temperature and heating time.
Finally, the light strip reached a depth of 40-45 microneat 500 00. and a dark
strip appeared adjacent to it on the copper side. This dark portion of the
transition layer was heterogeneous in structure and very brittle. Ruptures
of the joints in tests always occurred in this dark strip, or on the bound-
a37*y between it and the light strip. Failures across the light strip were
only observed when the dark strip was absent. M.A.Basalayeva revealed by
CUrd 1/2
KALOSHINI, S.G.; SOKOLCYVP M.P.
Testing new types of bits for rock drilling under working
conditions. Trudy Inst. gor. dela AN Kazakh. SSR 11:73-77 163.
(K[RA 16:8)
(Rock drills---Testing)
KAL06HINP S.G.; SOKOLOV, M.F.
New bits for aix-and-peraussion drilling. Trudy last.gor.dela
AN Kazakh.SSR 8.-92-.101 161. (MIRA 15:4)
(Boring machJ-nery)
;@'/ 5300 66369
AUTHOR: Sokolov, M - P. SOV/120-59-5-12/46
TITLE: Automatic Single-change Amplitude Analyser with a Spectrum
Recorder
PERIODICAL: Pribory i tekhnika eksperimenta, 1959, Nr 5,
pp 54 - 60 (USSR)
ABSTRACT: The analyser operates on the following principle. The
required discrimination level is set and the pulses which
pass through the differential "window" of the discriminator
are counted over a known time interval. After the terminati
of the count, the number of pulses is automatically printed
by a digit printitig typewriter. Simultaneously, the various
units of the device are prepared for the registration at
the next discrimination level and the cycle is then repeated
at the next level. Another type of operation is possible.
Now, a pre-set number of pulses is registered at each level
and the time taken for obtainifig the number of pulses is
registered. This type of operation is employed when it is
necessary to take a spectrum having an identical statistical
error at all points. The analyser consists of a number of
Cardl/6 LK
66369
SOV/120-59-5-12/46
Automatic Single-change Amplitude Analyser ifith a Spectrum Recorder
discrete units (Figure 1). The first it:em is a differential
amplitude discriminator followed by an amplifier; a detaile
circuit diagram of this is given in Figure 2. The unit
comprises a linear pulse amplifier containing a 3-tub@e
feedback circuit and a set of diode discriminators furnished
with capacity compensators. The switch setting the dis-
crimination levels is provided by a uniselector. The
successive contacts of the uniselector form a uniform
potential divider. Two standard voltages taken from two
brushes of the uniselector provide a given discrimination
'IwIndow"; the voltages are applied to the d�scr-Imination
diodes of the circuit of Figure 2. The level-switching is
controlled by suitable signals from the so-called relay
system.(Figure 4). The counting dev3-ce consists of one
vacuum-tube decade and four dehatrons (Figuri 3). The
counter is therefore capable of recording 10 - 1 pulses.
The counter is furnished with an auxiliary relay which
permits the reading of the count and the printing of the
Card 2/6 t-K
66369
SOV/!20-59-1-12/4 6 Recorder,
'I
Automatic Single-change Amplitude Analyser with a pectrUM
information. The next unit of the analyser is similar
to the counting system of Figure 3, except that the count
which can be recorded is adjustable between 40 and
100 000. This unit is employed to determine the "exposure
time", while counting a pre-set number of pulses. The
time markers are provided by an oscillator operating at
100 c.p.s. The equipment also comprises a system of
relays and a digit printing typewritieri a detailed
diagram of this device is given in Figure 4. This unit
is controlled by the signals from the control counter and
it serves to read and print the information stored in the
pulse counter. As soon as the unit comes into operation,
the inputs of both counters are blocked. After the
termination of the reading process, both the counters
are unblocked and the system is ready to accept another
cycle. The equipment is furnished with a suitable system
Card 3/6 41K
66369
SOV/120-59@5-12/46
Automatic Single-change Amplitude Analyser with a pectrum Recorder
of power supply which was defined by Ukhin; some of the
items in this unit are based on semiconductor elements
(Figure 5). The analyser is also provided with a high-
voltage power supply for the scintillation detector. When
the analyser operates over fixed time intervals, the pulses
from the output of the discriminator are applied to the
main counter, while the control counter accepts the
pulses from the 100 c.p.s. generator. By changing the
counting capacity of the control counter, the counting
time can be varied from 0.4 to 1 000 sec. On the termin-
ation of a count or "exposure", the output relay of the
control counter is operated and this results in the
operation of the relay system and the typewriter. When
the measurements are conducted under the conditions of
equal statistical errors, the output pulses from the dis-
criminator are applied to the control counter, while
the pulses from the 100 c.p.s. generator are applied to
the main counter. When the counting (by the control
counter) is completed, its output relay is operated and
Cal:-d4/6 the number of pulses recorded by the main counter is printed
L-r
66369
SOV/120-59-5-12/46
Automatic Single-change Amplitude Analyser with a Spectrum Recorder
by the typewriter; this gives a direct indication of the
duration of an exposure. Several models of the equipment
have been constructed, the latest and the most advanced
analyser being the type AZA-Ts2. In this, the amplitude of
the input pulses can be from 5mV to 40 V; the width of the
differential window can be 2, 4 or 105. of tile maximum input
amplitude, the total number of levels ranging from 10-50.
The maximum operating speed at the input is 10 000 random
pulses per see. The time for the recording at a given level
is of the order of 8 - 12 sec. The analyser contains 506
tubes, 17 of which are gas-disciiarge devices. The total
power consumed by the device is about 210 W. This equipment
was demonstrated at the Brussels Int ernatior& Exhibition in
1958 and at the Soviet Exhibition in New York, 1959. Addit-
ional modifications and improvements to the equipment are
contemplated in the near future. The author makes ackno-w-
ledgment to A.A. Markov, G.N. Sofiyev and O.A. Ogurtsov
Card5/6 for valuable advice and help in the design of the analyser.
qll*-
66369
SOV/120-59-5-12/46
Automatic Single-change Amplitude Analyser with a Spectrum Recorder
There are 7 figurps and 2 references, 1 of which is
English and I Soviet.
SUBMITTED: August 16, 1958 4-1"'
Card 6/6
I
S
OKOLOV) M.P.
Equipment for the disinfection of sea water. Voen. - med. zhur.
no.1:91-92 4163. (MIRA 17:8)
@j
, G- '0.@@
@kb@.-, in i'--Z Zhur - F101.
Au t'I,. n, 1: Tul chi
no
oil ()f Virul,nt Strain o
Ovi Pu@@ yozh,@:.od-ffE,-. un-t, 1C,)56.
S-.2-1
abstract
Card 11/1
SOKOIA)V, M.P.
Cage for keeping small laboratory animals. Veterinariia. 36 no.11:
85-86 N 159 (MIRA 13:3)
(Iaboratory animals--Equipment and supplies)
3Q09-60 !7-@ a (d) l0elP (1) IJP(c) GG/Dij
ACC NR' AR6021025 SOURCE CODE: UR/0058/66/000/002/AO50/AO50
AUTHOR: Sokoloy, M. P.
TITLE: &Fstem for the readout of Information stored in the memory of a n Achannel
pulse an&Lyzer or in a counter with parallel binary-decimal code
16
SOURCE: ;Ref zh. Fiz, Abs. 2A409
REF SOURC:E: Tr. 6-y Nauchno-tekhn. konferentaii po yadern. radioelektron. T. 2. M.,
Atomizdat, 1965, 102-108
TOPIC TAGS: multichannel analyzer, data readout, aritbmetic unit, computer coding,
computer design/ AI-100-1 multichannel analyzer
40
ABSTRACT: In the proposed data-readout (DR) system, connected to the AI-100-1 ana-
lyzer, the external-recorders used are type PL perforator, a type EPP-09 automatic
chart recorder, and an EUM-23 or EUM-23P electrically controlled typevriter. The an
lyzer operates in the "question-ansver" mode, except vhen the information is fed to
-the chart recorder only. The code call-in pulses are fed from a shaping netvork to
the analyner control unit and cause a change of address in the distribution unit and
of the code in the arithmetic-unit (AU) register, to vhich information from the memo
unit is fed. From the AU register the information is fed to the transistor-relay
SOK-OLOV, Mikhail Petrovich; TSITSIN, N.V., akademik, otv.red.;
- KARPEKIIIA, L.S., red.fzd-va; ZENDEGI, M.Ye., tekhn.red.
[Botanical gardens, principles of their organization and
planning] Botanicheskie sady, osnova ikh ustroistva i pla-
nirovka. Moskva, Izd-vo Akad.nauk SSSR, 1959. 198 P.
(MIRA 12:11)
(Botanical gardens)
Cgusom of Copper lose, dwing C*SCfttmtjan of Dalbeakax
Son are on the awlth"k ONO-dremilmlikst. S.M.1w,11m
And NI At ,k*uWv (Atad. 8d. Kazakh. l*ejImik
k.j.--*X@.-- 4. No. 11, It;
M K.zaki @
are trrA" at Ih6 plant 6 a mixt. of sul&tcs unit uzW",
and mupriws: bornite, Chak%ite, ClialCOpytitC, IndIA
chitc. azurite, sonic thlitt. and very little chryuxvlla
At lx@t only CO-75% of Cu was etillected in the concentratv.
lurxperimentingfirit with intlividnal
min,ial,. then with mi%1%. of sultidic aim] oxiiiiint min-
1-14k, m.1 fim,11y "ith 4% mixt. )I all miner.&L, it %,%,
b"Ind 111.4t N.A'S .1@ dclur.-n at lCu.t trtul."Arily for
sadfi-lic minetak. Addu. of I I.So. ii,creal I he citil. .I C1,
iticatly so, that W.5% of Cu was ext,l. purtlj@ @pi,,. age
@@ntittucd to der. the exact dmage of the flotation reagents.
M. llosell
S@wv,-.M.k.j SKORMINA, R.A.
Obtaining an alumina concentrate from Boshchekull ores. Izv.
AN Kazakh.SSR.Ser.met., obog.i ogneup. no.223-6 158.
(MIRA 1632)
(Boshchekull-Nonferrous metals) (Aluminum oxide)
SOKOLOV, M.A.; SKORMINA, R.A.; KORABLINA, M.P.; BAYSHULAKOV, A.A.
I'll-ospects for the complete treatment of poor molybdenum-tungsten ores
of central Kazakhstan. Trudy Inst. met. i obogashch. AN Kazakh. SSR
2:3-6 16o. WRA 13:10)
zakhatan--NDnferrous metals)
(Ore dressing)
SOKOLOV, M.A.; BORODINA., V.A.; ROMANMO, V.T.
Investigation& on the recovery of thallium from complex ores.
Izv.AN Kazakh.SSR.Ser.met.obogA ogneup. no.2.'3-7 16o.
(MIRA 13: 8)
(Thallium) (Flotation)
S
,OKCLOV,, M.A.
Main results of research and trends in the field of mineral
ore dressing. Trudy @nst. met. i obogashch. AN Kazakh.
SSR 3:16-23 160. (MIRA 14:6)
(ore dressing)
GUTSkLYUK., T@G@; SOKOLOV, M@.; KORABLINA, M.P.
I&tation of chryso-calla. Izv.AN Kazakh.SSR.Ser.met..,, obog.i ogneup.
Ino.10-7 161. (IURL 14: 6)
) i (Flotation) (Chrysocolia)
Iti L
SKORMINA, R.A.; BAYSIIULAKOV, A.A.; SOKOLOV, M.A.
Collective flotation of complex metal ores. Trudy
i obogashch. AN Kazakh. SSR 4:3-7 '62.
(Flotation)
Inst. met.
(MIRA 15:8)
BAYSHULAKOV, A.A.; GLEMBOTSKIY, V.A.; POKOLOV,-X.A,@
Emulsification of reagents in the presence of stabilizers.
Vest.AN Kazakh.SSR 18 no.11:47-54 N 162. (MIRA 15:12)
(Surface-active agents) (Ore-dressing)
GUTSALY'UK, T.G.; KORABLINA, M.P.; SOKOLOV, M.A.
Dressing oxidized Dthezkazgan copper ore. Trudy Inst. met. i
obog. AN Kazakh@. SSR 6,:3-10 163. (MIRA 16:10)
L 18417-63 BDS
,ACCE3 )SIOV NR: A.P3005803 S/0136/63/000/008/0083/0084
AUTHoRS: FLitin., I* I*,* Sokolov,, He A*
TITM: lVdroct7iamic ultrasonic emulsifier -ji
SOURCE: Tsvetriy*ye metal3y*, no. 8, 1963, 83-84
TOPIC TAGS: metallurgyo emulsifier, bydro*namic emulsifier
ALISTRA.CT: Authors describe a new type of hydro4ynamic, ultrasonic emulsifier
which was developed at the Institute of metallurgl and Pre beneficiationg
Acad(my of sciencesp Kuz SSR* It emDloys a multiple-unit whistle* Magram 13
sHo,,ni Tm @te @Bnclosuree Orige art* has: 1 figure
ASSOCIATION: none
SUEKITTED: 00 DUE ACQ: O6Sep63 ENCL: 01
SUB CODE: M NO REF SOV: 000 OTHER: 000
Card
3,/2
1 7' T- @ I" V
a ing t h a Pf
rea?,ev Li f mpt.
-lk
GUTS.@LYUIK , T.G. ; N't"t , 14.1- . ; Z*O"@OLOV , 'I!- A.
- -1 -; -- fro:i
@@ew rea-en-'s f3r t-Le Of M; xc-'- cr@ `
1; ..@l R 9: 3 7 '6-! -
deposit. Tru@:-Ily Inst. met. i obog. L I.T Fazakh.M _;-
17:9)
ACC NR; ARG018979 SOURCE CODE: UR/0271/66/000/002/BO58/---058
AUrHOR: Sokolov, M. P.
TITIZ: Access-to a system ,car data stored in the memory of a multichannel pulse
ian.alyzer or in a parallel binary-decimal code counter
;SOURCE: Ref. zh. Avtomat telemekh i vychisl tekhn, Abs. 2B417
iREF SOUR,'@': Tr. 6-Y Nauchno-tekhn. konferentsii po yadern. radioelektron. T. 2., 9.,
I
.Atomizda:t, 1965, 102-108-
!TOPIC TAGS: 'pulse height analyzer, punched paper tape, memory access technique
ITRANSLATION: In the proposed system for data access, attached to the analyzer AI-100,
the following output devices are used: PL tape punch, EPP-09 recorder, and EVell-23
land ETYM-23P electric typewriters. The analyzer operates in the query-answer mode, ex-1
cept when feeding the recorder. A coded query signal is fed into the control unit of
the ainal,
yzer causes an address change-in the distributor unit and transfer of the
-word into the register which accepts information from the memory. From the register,
Ithe data is transferred into a transistor-relay unit, where all relays assume a state
1whida co::-responds --a the word being processed. Serial scanning of the decoding logic
I
;by a stepping scanner follows and the information is fed inta the printing register
land the punch.' The wiper of the scanner'serially connects the outputs of the decoder
.UDC: 681.142.343
Card 1/2
ACC NR: AR6018979
@to the slEgnal forming unit which drives the printer and the electric magnets of the
lpizich. '.,he cligital-to-analog converter for-the recorder is designed using weighted
I
iresistors and current summation at the output resistor. When data are fed into the
I-
:racorder alone, the analyzer operates in the."automatic recording-slower output rate"
Mode; the rate of information shift in the register corresponds to the recording speed
,:of the BIT-09 recorder. 2 figures. V. L.
SUB CODE:; 09
T, nb6VI-67
85/66/020/005/043VO438--l
A NR: AP6o1836o SOURCE CODE: UW60
AUTHOR: Yefanov, A. I.; Konstantinavy L. V.; Postnikov, V. V.; Sadikov, I. P.,
Sokolov, M. P.
ORG: none
TITLE: Installation for oscillator measurements on a nuclear reactor A'
SOURCE- Atomnaya energiya, v. 20, no. 5, 1966, 437-438 /1
TOPIC TAGS: nuclear reactor control equipment, reactor transient, nuclear reactor.
characteristic
ABSTRACT: The authors report an oscillator installation, intended for physical re-
actiVi.L measurements in the reactor of the first block of the Baloyarsk Atomi Energy
UY
Statio*a im. 1. V. Kurchatov. This installation, used in conjunction with the perma-
control _iTy_st_j-:n_@nd with an ionization chamber, was employed to measure the
differential and integral efficiencies of manual-control rods, under different oper-
ating ,-onditions, and also to determine the frequency characteristics of the reactor.
The installation could be joined by means of the relay system to the drive of any of
the maaual-control rods, so that it was very useful for large scale measurements of
the efficiency of a large number of rods within I - 1.5 hours without disturbing the
normal operation of the reactor. The apparatus consists of an oscillation generator
and aharmonic analyzer (Fig. 1). The oscillation generator contains a frequency
divider and a -two-position relay controlled by the output pulse of the frequency di-
Card V2 Lw : 621-039-5 16.2: 621-039-564
-L 04674-
ACC NR:
Fig. 1. Diagram of oscillator installa-
tion. I - Ionization chambero 2 - block
of band. filtersp 3 dc microhmmeter,
4 - dc amplifier., 5 u(t) multiplier..
6 - v(t.) multiplier., 7 - integrator 13..,
8 - integrator 12, 9 - master oscillator,
10 - signal for control of manual re-
gulators.
vider. The operation of the apparatus is briefly described. The authors thank B. I.
Bazun , V. Ya. Mizik., V. Yu. Kammerer, and V. K. Gladkav for constructing and ad-
justing the installation. Orig. art. has: 1 figure and 5 formulas.
SUB CODE: 18/ SUBM DATE: 07JU3.65/ 0-1 REF: 002
kh
Card F2
I
SOKOLOV) m. 3. Cand. 14ed. Sci.
Dissertation: "Phlegmans in the Vicinity of the Jaws." Moscow Stomatological Inst. .1
Ministry of Health, RSFSR, 19 May 47.
SO: Vechernyaya Moskva, May, 1-947, (Project #17836)
SOKOLOV. M.S., dotsent; ODER, L.A.
Characteristics of surgery of the stomach and duodenum in severe
kyphosis of the thoracic portion of the spine. TestAhir. 77 no.5:
80-82 My 156. (MIaA 9:8)
1. Iz 1-go khirargichemkogo otdelaniya (sav. prof. B.A.Linberg)
Hoskovskogo oblastnogo nauchno-iseledovatellskogo klinichaskogo
institute. (dir. P.M.Leonanko)
(KYPHOSIS, complications,
duodenal & stomach 4is.. Burg. (Rus))
(STOMACH, surgery,
in kyphosis (Rua))
(DUODBNUM, surgery
in kyphosis (Rua))
130-8-9/20
AUTHOR: Sokolov, 4.P.7 Candidate of Technical Sciences and
Semenenk6, Engineer.
TITLE: New Method of Lining the Bottoms of Basic Open-hearth
Furnaces (Novyy metod kladki podin osnoynykh martenovskikh
pechey)
PERIODICAL: Metallurg, 195?14 No.8., pp. 23 - 26 (USSR)
ABSTRACT: After a brief account of the properties of melted-on and
brick parts of the lining of basic open-hearth furnaces and of
some attempts at improving brick joints the authors describe
work at the imeni Serov (imeni Serova) Works where a "welding"
composition was used. This consisted of magnesite with a
proportion of mill scale which(bpended on the location in the
furnace bottom of the joint to bi3 made. They mention that a
bottom laid in this way lasted for @ years and 2 months melting
a wide variety of'steels. Later (1955) tests at the same works
confirmed the advantages of this technique, which reduced metal
penetration and gave an se )nomy of about 0.2-U.3 kg of magnesite
per ton of steel melted. A diWam of temperature distribution
in the bottom of this furnace (found from electical analogues)
is shown (Fig.4). The authors go on to give extracts from an
American article describing a similar type of bottom
Cardl/2 construction and suggest that on the basis of experience at
SOKOLOIV, I.,. S.
"Sore w