SCIENTIFIC ABSTRACT SHATUNOVA, T.G. - SHAUB, YU.B.
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December 31, 1967
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SCIENTIFIC ABSTRACT
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KRESIIKOV, A.P.; KISHLYAYEVA, L.V.; KIJCIIKAREV, Ye.A.; SHATUNOVA T.G.
. ~
Quantitative determination of titanium in organotitanium and
organosilicotetanium compounds. Zhur. anal. khim. 20 no.121
1325-1329 165. (MIRA M12)
1. Moskovskiy khimiko-tekhnologicheskiy institut imeni D.I.
Mendeleyeva. Submitted November 28, 1964.
ACCESSION NR: AP4043302 S/0032/64/030/008/0944/0944
AUTHOR: my*shlyayeva, L. V.; Krasnoshchekov, V. V.; Shatunova, T.G.;
Sedova, I. V.
TI TLE :Determination of iron in ferrocene and its organosilicon
derivatives
SOURCE: Zavodskaya laboratortya, v. 30, no. 8. 1964, 944
TOPIC TAGS: iron determination, ferrocene, ferrocene organositicon
derivative
ABSTRACT: A new rapid method for the quantitative determination of
iron in ferrocene and ferrocene organosilicon derivatives was
developed at the Moscow Chemical Technology Institute imeni D. 1.
I 'cleyev. The method is based on decomposition of the sample with
If d
n mixture of hydrochloric acid and ammonium persulfate followed by
iodometric or complexometric determination Of Fe3+. The method is
claimed to be natiflfactorily accurate and reproducible and consid-
erably to exceed other methods in the rapidity of sample decomposition.
Cord 1/2
ACCESSION NR: AP4043302
ASSOCIATIONt Moskovskiy khimiko-tekhnologicheskiy instil-ut im.
D. 1. 'Mendeleyeva (Moscow Chemical Technology Institute)
SUBMITTED: 00 ATD PRESS: 3084 ENCL: 00
SUB CODE: CC NO REF SOVt 000 OTHER., 000
t. -Cc -4. 2 / 2 - - - -- I
J D., RM
SOURCE CODE: UR/0075/65/020/012/1325/1329
ACC NR: AP6014141
;AUTHOR: Kreshkov, A. P.; Mysblyayeva, L. V.; Kucbkarev, Ye. A.;_ I
!Shatunova, T. G.
1ORG: Moscow Chemico-tecbnological Institute im. D. I. MendeleZe 411;
(Moscovskiy kbimiko-tokhnologicbeskiy institut)
i ~7
RITLE: Quantitative determination of titanium in titanium-organic and
ititanium-silicon-organic compounds
SOURCE: Zhurnal analiticbeskoy khimii, v. 20, no. 12, 1965, 1325-1329
TOPIC TAGS: quantitative analysis, titanium, titanium compound, silicon
compound
ABSTRACT: The article describes two methods for the determination of
titanium., a titration (complexometric) and a spectroscopic method. In
the titration method, a weighed portion of the compound to be analyzed,
containing 10-15 mg of titanium,'is introduced into 5-7 ml of
~concentrated sulfuric acid. The mixture is heated for 10-15 minutes up
Ito the evolution of H2Q0 vapors. The solution is cooled to 90-1000 and
icomplete mineralization ~f the weighed portion is carried out witb
!ammonium persulfate. The solution is cooled and 30 ml of water are
ILC-~d _ 1/2 UDC-: 543-70:543-80
AC~: NR: AP601411~1
cal-efully added and the solution is boiled for 5-10 min to decompose the
!ammonium persulfate. The silicic acid is filtered off and the silicon
11.,3 determined by weirhing In the form of S102. Final titration of the
;;titanium In the filtrate Is done with a 0.05 M solution of ZnSO The
!relative error of the method does not exceed 2 In the spec~r*oscopicl
.5%. i
inwthod, tho tLttinlum Is detarmined in the form of tetra )utoxytltanium~
and silicon In the form or toti-poyY,9110no t In thts method, tho standard
,relative error in the dote m ri~~i-i-on is 2.2% for titanium and 4" for
. 'Llicon. Comparative results by the two methods are shown in tabular
:fcrrn. According to the article, the spectroscopic method is to be
:-nrefarred In practice, since no preliminary mineralization is required,
;!Origo art. has: 2 figures and 2 tables.
~SUB CODE: 07/ SUBM DATE: 28Nov64/ ORIG REF: 010/ OTH REF: 002
ICord 2/2,-.
,., r , A i ~~ , -, I _.-I II - .
KOVAR~~AYA, M.I.-, SHATUNOVA, T.V.; VANCHENKO, A.S.
Scientific and applied conference of the Leningrad teachers of cbe-
mistry. Khim.v shkole 9 no-5:78-79 S-0 '54. (MIRA 7:9)
(Chemistry--Study and teaching)
_1 2972~,~66 E7JPQVF_,~~'T(m) RMAP?,`
(f_R�',_WP6019449 SOURCE CODE: UR/0303/66/000/003/0060/0062
;AUTHOR: Kreshkov, A. P.; Shatunova, T. G.; My Kuchkarev, Ye. A.
IORG: none
TITLE: Accelerated methods for determining aluminum and silicon in organic compounds
containing aluminum and silicon
SOURCE: Lakokrasochnyye materialy i ikh primeneniye, no. 3, 1966, 60-62
~
TOPIC TAGS: at*=
j.'a-leov Cornr~a vAjbj, Coveinlevz- OF_-rrcr-,oAJ.)
IflOPPRAf /4FV/7_/6A/
ABSTRACT: Current methods for determining Al and Si in Al- and Si-containing
organic compounds (ASOC) require complete mineralization of such compounds and are
time-consuming. The authors have developed two accelerated methods for determining
these elements in ASOC. The first method is the determination of aluminum by titra-
tion involving complex ion formation. The -*N'Si-0-"Al I bond is hydrolyzed with a
2N aqueous solution of HCL in acetone or metnam' mB=m Me` ~>Si-C~'-' bond is not af f ected
under these conditions. The organic solvents contribute to the fast hydrolysis by
readily dissolving and stabilizing the hydrolysis products. Titration is conducted.
in aqueous-methanol or aqueous-acetone solutions. The titrant is zinc sulfate; the
indicator is Xylenol Orange or dithizone. The second method is spectroscopic for
simultaneous determination of aluminum and silicon involving spraying of ASOC cumene
solutions into a low-power spark discharge. The two methods were verified with ASOC
Card
ACC NRi AP6019449
of known composition. Both methods give reproducible results which are in general
agreement with those of the gravimetric method. Accuracy of the first method in from
-1.50 to +0.91%; accuracy of the second method is: for Al, from -2.98 to +3.15%; for
Si, from -4.8 to +3.8%. The procedutes.are described-ifi the source. Orig. art. has-'
1 figure and 2 tables. (BO]
SUB CODE: 07/ SUBM DATE: none/ ORIG-REF: 0081 ATD PRESS:15-e /3
Card 2/2
SMIFTOV, A.D. , dotsent; SHATUNOVA, T.Y.
Planned chemistry program requires a serious review. Khim.v
shkole 15 no-1:51-54 Ja-F 160. (MIRA 13,5)
1. Zav. kafoaroy motodiki prfipodavaniyu khImil Loningradtikogo
podtigoglchankoro Inotittita lmoiii Gortsona (for Smirilov). 2. zav.
kafodroy kbimii Loningradskogo gorodiikogo iiigtitutu twovor-
shenstvovaniya iichitaloy (for Shatunova).
(Chemistry--Study and teaching)
SH~.TLUII'OV.-~, Ye.o.
*dor - of P. ~'. 5ulim oa the f oundut ions of m-4 the:rt ical analysis.
Ist.-mat. issl. no.12:179-134 159. (MU-i 13:11)
(II-Lthematical analysis) (Sulirmi, P.A.)
-1 14 HP s
I o
1, r
AA (C Iv ni t
1~ v I) M 0 if
l k J A I It j i
r7
4.
00 renill the Calls of saillivy
of J '4110
so ,
ol'ts and N
Fter
M
1=
f CbIreemas ! V
S
d
l
00 .
.
.
.
an
s o
g
g
Shatunovskaya. Byall. MpQ. B". Jfed~ 24, 241-3
(1947).-rw specimens were examd. by ultra%iolet fluo- loo
00
rescence microomplicallY after immersion (IG-M) min.)
00 1 in petrolatum -*In. of 0.5% 3,4-beazopyrrne; they were
00 then wiped, washed with water, and swqpended in water;
i
i
i
t
d
lit
d 1
6
l log
0 -
-ttt
mmers
on
o re
uce morta
n.
y.
ater "pts. use
Spectrom which were examd. up to IA he,. after im-
-00
040 VICTsion showed sharp dutwesernt- in the stontach but
4
Aft
h
t
i
d
h
d
l
d
l
h -169
---
o
er t
A
an
.
an
jxT
t
e g
none to t
e salivary K
b
di
d
00 ivicecence call
e tea
ly seen
twi-ome infiltrated slid
afirr 2 ties. with the entire proloplaAm lit the cvllt
-
l
d i
n.
rw~ jwt%i,t~ An
utw-
i't effect. After 2 dA" the l
'lu =00
0 des even the intvr~vllulstr sjt4~-vs; ClUtlVi AM[ Chrottid-
O
allies remain dark livid (h, not swrticilxxte. The fluo. 1~0
0
00 res"nee slowly dies out snd after I", d4Y!, JWrItst. in riUP r
.0
0
00 around the nuclear substances and on the external surfare
of the Stands; this penisted for 40 days. G~ W K.
see
400
Ito'!
go I
t zoo
go
*0
00
00 -1 N C
I
, ~N at
00 VI
LR Voo
too
51 10 1~ I K r 4 1
a if A a Aft L 1 4 'W
r it 43 %
"
0 0
00 0 00 00 00000
0 0:0 0 0 0 0 a 0 0 0 0 0 a 0 a 0 0
o;0 0 0 0 0 0 0 0 0 0 * 0 1
0 : io-q- P -0* e 0 0 -* * 0 009 o 4*0
0
0
SHATUNOVSKAYA, Y#5,,G, starshly nauchryy sotrudnik.
Scientific-practical conference of -)hysicians held in Kovrov.
Ortop.t-a". i protez. no.4:84-85 J1-Ag '55 (,qLRA 8:10)
(T.RAUMATI SM)
V, A.Ye.; VOROWSOV, D.V.; LEONT7YEVA, A.A.; TEILESHEVA, N.I.;
SHATUNOVSKAYA, Ye.G.
Problem of the permeability (resorption) of the capillaries in
transplanted skin under experimental and clinical conditions.
Ortop.,travm.i protez. 20 no-11:36-42 N '59. (MIRA 13:4)
1. Iz Gorlkovskogo nauchno-Issledavatel'skogo inatituta travmatologii
I ortopedii (direktor - dotsent M.G. Grigorlyev).
(SKIN TUNSFIANTATION exper.)
(GA.PILILARY PERMEABILITY)
SHAVZOVSKAYA, Ye.G., starsIdy naLichnyy sotrudnik
Tre;7tment of sequelae in burns. (Review of foreign literature).
Ortop., travm.i protez. no.7:68-74 161. WIRA 14:8)
1. Iz GorIkovskogo nauchno-issledovatellskogo instituta travma-
tologii i ortopedii (dir. - dotsent M.G. Grigortyev).
(BURNS MID SCALDS)
SIIATUNOVSKIY, A.Z. (Kharlkov)
Practice in the mechanization of technological processes
and in modernizing equipment. Shvein.prom. no.1:19-20
Ja-F 160. ORIRA 13:6)
(Kbarkov-Clothing industry)
SHATUMVSKIY, G. M. , kandidat tekhnicheskikh nauk.
. , 1" ~~ -,1-,---"--
Labor expended in manufacturirg cast mchiner7 parts and stocks.
Sel'khozmashina no.12:25-29 D '56. (W-iA 10:2)
(Agricultural machinery industry)
(Founding)
GUROV, I.D., dotsent, k~ind.te~6in nauk red - a4L?1iOV Ii.I., 4ot5ent6 t,-,-n
teki,ii.n.,iuk, red,; SIL~TUKVSM G 14' dotsent kan ..ekhn.n i drAd.;
Sff,WKO, M. Cr. ,ot'sent-, -red.; tVJ~AOU, A.F., tekhn.red.
[Desie,n and manufacture of agricultural machinery; collected
articles from Llie ziecond All-Union Scientific-tee'anolo ical
C-Onference in Rostov-on-Don] Konstruirovanie i prt')izvogstvo
sej'skokhozi~jistvennykh aishin; sbornik statei T)o materialam
Vtoroi Vsesoiuznoi nauchno-teklinicheskoi k-onferentsii, sostoiav-
sheisia v Rostove-na-Denu. Pod red. I.H.Gurova i dr. Moskva,
Gos.aauchno-tekhji.izd-vc mashinostroit.lit-ry, 1959. 326 p.
(MIRA 12:11)
1. ILI& (for Shatunovskiy).
(Agricultural machinery)
SWITUEOVSKIY, Grigoriy Mikhaylovich, kand.tekhn.nauk; KORCHAGIN, P.A.,
inzh., retf3enzent; VORONIN, B.G., inzh., red.; IVENSLAYA, N.D.,
red.lzd-va; CHERNOVA, Z.I., teklm.rad.
[Engineering efficiency of the structures of agricultural
machineryJ Tekhnologichnost' konstruktsii sel'skokhoziaistvennykh
mashin. Mosk7a, Gos.nauchno-tekhn.izd-vo mashinostroit.lit-ry,
196o. 367 P. (MIRA 13:6)
(Agricultural machinery)
SI,-'.ATI7-;OVSKIY, GrcLgoriy I-Ilikhaylovich, kand. tekhn. nauk-; IVATIOV, I.S.,
-.N., red.izd-va; GF-EFECIVA, Z.I.,
tekJm. red.; ELIKRID, V.D., tekhn.red.
(Engineering efficiency and economical effectiveness of
agricultural machines]Tekbnologichnost' konstruktsii i eko-
nor,dcheskaia effektivnost' sellskokhoziaistvenrVkh mashin.
Izd.2., perer. I-oskva., Mashgiz, 1962. 443 p.
(IMA 15:11)
(Agricultural iiiachinery)
AU'2"-GRS. Savar-a-1, S.A. Shatui_;~~~~I.O. and Onc~=Jye~-~ko, V.P.
TITLE. T--.e Eval-Aar.-ion of* the PhYs_-_-o-mer_ha_r,_4ca'_ -FToDer-.~ies of
Coe'-'~~- (0`1-senka i'i--i~C-,c-mekhal2f,-,.Les,ci-kh svoys-Gv ko'Ksa)
PERIODICAL., KDks i9159, Nr I, pp 24- - 33 (USSR)
ABSTRACT-, Vali--_s me=~.hc-ds cf de--,ermllning, the physicc-me~~hanical
pll-.,~er-z_Les a--t-al qua.Lizy inaices oi -,oKe anci -,neir
with rhe operation of blast furnaces were
Ti,~_- J'):;e-1,t'- cf' the _in-ve.-t4;atj_,-,rL was -to
paraliel te:~ts at a low and a
ad-:Vi,)- and -c find out which
mo-Ze C t3 t1rie d`egree cf degradation
of a blas-c f_L_-nace arid whic_'o~ o -L the indices of
---mech-lar-i cal p rc ncelt le s- o ~L* z --ke is mere closely
4
vi.1-tI, the c)pera-iionai ind-c-es ef blast-furnace oper-
A t'~~ e df~-ne : n ~,O s;,-,r,.Ies. The tests
w e :r
e ii f :L-~L- ea n. a dr-, m ;n d-ameter and 0.4 m long,
~___71PIF" -1 rpm, The results obtaineJ -wit, this drum
~o_rr-spcnided to che standard
Rii,-~.,:ian in a la-r,-e dr.-m. The dif'Lerent degree of
dec~-zadatio.n was obtained by parallel tests at 1501 225
-f t-',ie drom, Composite sample
d L a' '-c- th- size 12
~_St_C4 bulion of coke) and single
The Evaiuation of ciie P1, P _e ies f Cok
,7 S I -. CM rCFj 1-t o e
size �a.---tIon (80-60 mm) of coke were -vested. T',- A
following indices of" coke quality were ca1culated:
a) the amount left in the drum and the content of
-10 mm fraction, according to the USSR standard;
b) gas permeability index acc.ording to Syskov for samples
whi,:.h passed the test at 150v 225 and 300 revolutions;
0 indices of uniformity and mean size of coke after
testing at a low and a high degree of degradation of
composite ccke samples and samples of 80-60 mm coke
fractio.n.s (at 150, 225 and 300 revolutions of the drum);
) strength indii~'.es ca1c,..L1atinF a~,.ccrding to Graf
Stah_ _ EiSen p 153) from- -cests at 150,
:'22t': an,:-; 71-00 1e-VG1!,:t1;cns c-f -u_',-_)e dram: a-rd e) aerodynamic
index - "5-uffacl- area of de-radation" for. com-Posite
_amp~z-~:: tes-~-_-d -a-, 225J re-o_'-ut.1:jn-s of the d-rZ-M. The
was -1-arried c-.-:t au tne Rog Iron
I
and W,-r'C1-. Cl,kre from c-ne bat--:_r~ was studied.
1~1-.- :.---Test-, gaT,-~Lon (~.hree -uhe cora-Donents
Dar mc ill
c.f ~he c-ena rem-_,-7neri. :cns7an-'. i_Le comi3osition
I f ~Iie -first periol of the investigation
--d2/Ez w a G OS -1-8 aLd during the
-e
t! es
Z:I
d was ofren -w-a-~ed WJ~I--r I jMj -c of 15.
1- :4 j -r-s these
The mj:~e
1 a.~~y required some time.
m e
-,hant-es --n the mechanical
f coke were t-her-r-a-I d- c n s of coking. The
rea(--e-L es (F4c-ures 1
-.-,e-ne -'arried out every four
A- :7-ther- 400 3amnl-s v.--e testel. Statistical
L :, - :~, - --. - - U
-ke 'n--I~:-es and ccking
e av e e ~- 7;- -a
L 3 i W: 2 and
~~re n Tab' e 1. Ali the indices
t v,- ~ t h of the amount
--l-, ---LL (S-.-I.naaf~L .-,-S7) ~;,-,r-re'ated sIg :-n-:L'L ic ant 1y
coefficients for
11'~alces fl-.r s~,-rrjles tested under conditions
o- a
deLx:radat:c.-i -nd'cate-4 that this method
4 ~~ -'- ; =
u a,. ii-,- -~ncllex Lz- a-pp-L.L CL'-- fcr such
6-,~ n's Cf r-z, tI---,:_-S of t'i--e The
- C.n 4
Z. e r e I 1,L- 7~ ~~ I':,- ,-h~- size distribution of
n s -- r. a c~ r -G n e
Ca r d 3, whole year
The Eval-~at_,-.)n cf -~~Le P2,_-periies Of Cn'-;z-e
In _order -c-1, --staol:ish --.vh.!_zh Index of
-ef -,
-ts i~s Drrperties, it
waF, ne e 3 3 (r Mp a:,e tirlem ',V I f~ Soi:e 4M di :_- e s o f b last-
lurna,~e operatic_n It was ~_onsidered that the most
i -r, ab ~` e LrIdex of furna:e cp-~raticn wcuid be the tempera-
L, I-e t'lle. ~"Ses Vt4c,L Te-11 refle-ts the
of t.,-.e E;a_c, strean cn ~i:e 1,criphery.,
Y-- T r. -,ning
_~_ilder-_ndentl:__~i of the .:causes de,-.; tLis distribution.
A,~, fc:, ea-.-.'!~, 'furnace operaTizrz, 1-,,n--e-- a C_iver_ set of
C. 11"; t i, s there is an cu~,imum dis,~ribtition of gas flow
Wh r] an c. e ma.11 d~f'erennes between
r 1, tne meas, rinz -,,ons that
C, an _,2n~;--defed F-3 an "idea_L". T, difference
or~,_a4jir in
given
7.
1h i2 e n r a m e an a tu a r- e f c, g7ver zime
c, he used as a
of the
K Ti-.e the more
,_j:Lij7-rm is the gas ---ream aRnE t 1-, e periphery
- - - .1. -
Cv_' --he f-urnaze. 1~-. -D_~ -uhap-, this
le_a~, ~i!-es not
-L, '~ar re of'
6
The E-i~ f r,-Iie P---- --aip i-- -pert.~ cf Coke
'Lle 0? rr'O
Lr-,z turna~-e- ~--r-A vir~,?, ierE3. F." - se these
i~f1aren-e in c-he teF~erature
dirferen--e's al--.n- perilhery was taken as 25 C
,:~-L n d r. c c e r K a j. at e d f!: r 11~--minute intervals, from
A~'(- -,-ir -eri,,ds werp used. for the
c2e'. a" ica.. Tile :o:7relatlon of other furnace
U
SU'ia as ho-t: blast pressure, pressure drop
a -:2 s 7 a e !I a;~ GO., ~Icn-Fen-z in peripheral gases and
tlie Of CO- aL-rLn- t-t',e throat radius. the
nlat,'-P r e -I r: ature ted by thermocouples
p -f tempei ind-icau
21:az~ rff takes and li-agram c-f :stock descent
wLr-h -01-e ~' ::L- qi-ality indi-~es wpre also tried. It was
~;.SsaBsed f(-Ir :he purpose of f~c.=e`atica that the time
bet-weer. the --oke leaving the 42oke ovens, its
axrvva~1 at the furna-p- bunker and its descent to some
depth In -,-~ha ftirna!:te s-",-azk (when its influence on furnaco
-.,er-;~-.a -eromes amounts 1;o 8 hourR6rjUgm
t. e quali~4.. 2
the of the cok / 1 and
were ---~h,7sen for compari-qcc with furnace operation as during
most qis-Qinzt differenzeii in the coke prcwties
Card:')/B T The- re 1 evaln-~ data
at
Tt-e Evaii-iar~ion of the Prixce~,ties of Coke
~;hafactleris.JnE; quai-ity ~pa---at---rz- -orA.-ii-i-ions and
!LaICP-S oi tne b1j~it 1"irna.ce are given in
TabIes ;~-, The quality of :3.ini~er and the -main parameters
s~f the furna~-.~ Dperaticn during these periods were
pra~~Ili:ally cc=stant. they h--'~Iiest cio-cre.Lation coefficient
wa-= obl--&Lned for indi---es of tLe size distribu tion of
---oke 0.~45 - 0.-:--.) and size distribution
atter testUlng -,-0. a degree of degradation
(r r- 0.51 signifit--a-il:---e level r = 0.32. Less
Dr-n)un3ei ~',c)rrelat,:Lon xa-3 ob-tained v.,-,.th the mechanical
.'.~.-eiigth cf c.:Are -r-tl'afned a"
a hi~y-h degj7ee of
0~33 T."r-s that in
the ieg---ee cfegraiation of coke is
'P r: 'J -a e 7 1 --w. Frcm (:rr,-nelation coefficients for the
:zi~-e f ~Ii~- hi~zh-st was obtained for
7-.-- fl-3 4C.-2- mm w'--'-;ch Indi2ates a
-~gat-
zma, cke frac'ion on
H ig r-,,c U
o n c i e nt s
--..;-La re-i ;--,0-60 MM ('r 0.46) and
--:D '.'40
0'.4-1~). Correlation
r--e-l-wepa K a I-A a", 11 Z of coke strength
a~ a. L.--w rf degra,~~ia~ t ion were
The E~, a I a 'Ie Ph4-i_-,;-_-.::_ --me Coke
t;rtl ilame T, r r "-e --est
q ili,`L~_ x shcu Id ~n -cs degree of
viluh o -.(-~ke i)roduction.
to Graf
cne o_f --he r-O hi. w rk wa
0
j L ~
--P-e simpie:-,, C;~~-,; "I 'e rm-t~ t'r,-.,d (A' tcsting from
L't"A.. nz:d
t ~L,~ fcj.IowJ.i_g -~a-n be concluded:
~I i e I' 1~0 Irc made from a single-size
_100
,-ota',--,i at -r-pm 'i c. r L -150
.2ompaxison of
S a, P~, Tlia
Ie t, ne d '.-.sT,~; of _,--Ei_T-LIes made of
3:_ ct r- 4- s S c Tn i n F _4 gur e s 4
r. L x f following ratio
S -I i a c. :,,3 thar. that proposed
C a r (a/ 8
e
The Evaluazicn of the Physicc ... mechanical prop-_[.ties of Coke
The--e are 6 figures, 4 tabies and 4 references, 3 of
whi.ch a-re Sc-.j-ie+. a-rid I German.
ASSOCIATIONS: UKhIN and Ukrainskiy institut metallcv (Ukrainian
Institu-ue of Metals)
Card -')/8
BERIN, Aleksandr L'vovich; SPTUj40VSKIY, 1.0., otv.red.; LIBERMAN, S.S.,
red.izd--va; ANDIHEYEV, S.P., takhn.red.
[Operator of a casting machine; manual for the individual training
of workers of brigades in industry] Kashinist razlivochnoi mashiny;
uchebnik dlia individualino-brigadnogo obucheniia rabochikh ns pro-
izvodstve. KharIkov, Gos.nauchao-tekhn.izd-vo lit-ry po chernoi
i tevetnoi metallurgii, 1960. 174 p. (MIRA 13:9)
(Blast furnaces--Equipment and supplies)
(Foundries--Equipment and supplies)
YMIZ"GA, Ivan Ivanovich; WTUII-OVSKIT, L.Ta,, otv.red.; RELINA, R.A.,
red.izd-va; ANDRETEY, S.P., tekhn.red.
[Pipe fitter for blast furnace water lines; manual for the
training of qualified workers in industry] Slasarl-yodoprovodehik
domennoi pechi; uchabnoe posobie dlia podgotovki kvalifitairovannykh
rabochikh na proizvodstva. KhBrlkov, Gos.nauchno-takhn.i.zd-vo lit-ry
po chernoi. i tavetnoi. metallurgii, 1960. 199 p.
(KIRA 14:1)
(Blast furnaces--Equipment and supplies) (Pipe fitting)
I
SHATUNOVSKIY, M.I.
Some characteristics of the feeding of young Baltic herring in
the Gulf of Riga. Nauch. dokl. vys. shkoly; bibl. nauki
no. 1:33-36 161. (MIRA 14:2)
1. Rekomendovana kafedroy ikhtiologii Moskovskogo gosudarstvennogo
universitets. im. M.V. Lomonosova.
(RIGA, GULF OF-HERRING) (FISHES-FUOD)
SHATUNOVSKIY, M.I.
Occurrence of a hybrid of the sea flatfish Platessa platessa (L.)
and the river flatfish Pleuronectes flesus L. in the eastern
part of the Baltic Sea. Vop.ikht. 3 no.1.184-186 163*
t. (MM 16:2)
1. Kafedra ikhtlologii Moskovskogo gosudar3tvenn Pgo universitt-11a
imeni M.V.Lomonosova.
(Baltic Sea---FiaLfis~iins)
SHATUNOVSKIYJ, M.I.
Some characteristics of fat and water metabolism in the river
flounder Pleuronectues flesus bogdanovi Sandeb. in the Kandalaksha
Bay of the White Sea. Zool. zhur. 42 no.6:870-876 10 .
(MIRA 16:7)
1. Kafedra ikhtiologii Moskovskogo gosudarstvennogo universiteta.
(Nandalaksha Bay-Flounders)
(Fishes-Physiology)
jNOVSK I Y., M,J.
Some character1r~r-I.--- -~i- ' -.a:- -'~ - r;'
. . - - - U - .f a V7. a -- - ~ -
the river flounder Nilleurrner-ter, flesus L,). Naitch. doki. vys.
shkoly;- biol. -naukl no.l~--17.--iO '64, (MIRA 17:1)
1. Rekomendovana Vkhtto~ogill Moskovskoi-5-c gogiidarstvennogo
universiteta im, M .7. ova,
SHATUNOVSKIY, M.I.
Materials on the classification of the river flounder Pleuronectes
flesus L. of the White Sea. Vest. Mosk.un.Ser.O'-. B-iol., pr-,chv. 19
no.1:32-38 Ja-F '64. (14IRA 17:4)
1. Kafedra. ikhtiologii Moskovskogo universiteta.
0
KIFER, I. Lz TSEFIXAYETIA, ?*f,S, ~ SHA,UNOVSKIY,, V,L-
Electrical equilibration of fer-romagnetic probes for magnetic.
flaw detection, Zav.1ab. 28 no.1-:105-IX ~62.
01AIRA 15~2)
1. Moskovskiy energeticheokiy institut.
(Magnetic testing)
TSEPLYAYEVA, 14~S.; SHATUNOVSHY, V~L.
5--sign of magnetic modulation transducers, Trudy ?EI no.49.,
85-95 163-~ (MIRA M3)
-91
ACC NR: Ap6o11265 SOURCE CODEt UR/0413/66/000/006/0109/0109
AUTHORS: Gurvich, Yu. A.; Shatunovskiy, V. R.1 Beq~qpyk~~N~.N. Glad,kop L.
Ya.; Sokol, S. I.) Lya~_h~eko. A. A.
ORG: none
'TITLE: Four-pivot Cardan transmission. Class 47, No. 180023
SOURCE: Izobreteniya, promyshlennyje obraztsy, tovarnyye znaki, no. 6P 1966t 109
TOPIC TAGS: mechanical power transmission device, motion mechanics
ABSTRACT: This Author Certificate presents a four-pivot Cardan transmission
consisting of rollersViand hinges. To produce a uniform revolution of a given
machine shaft at any angle of the Cardan bend, the transmission is placed in three
rigid casings (see Pig. 1). These casings are hinged to one another, and the two
.outside casings are rigidly connected to circular ratchet sectors in mesh. These
.sectors move the hinges through equal angles while the machine is working. To
compensate for the excessive length of the rollers as compared with the length of
the casings while the transmission undergoes bending, the roller in the middle
caS3.ng is made to carry a bearing coil with prongs which enter the guides of the
casings.
Card 1/2 ___UDCk__621.85t621,825-6_1
ACC NR: Ap6oi1265
Fig. 1. 1 rigid casings; 2
toothed sectora; 3 coil; 4 guides
'Orig. art. hae: 1 figure.
'SO CODEz 13/ MM DATEI IOAP--64
.Card 2/2
ACCESSION NR: AT4043154 S/2531/64/000/154/0020/0029
AUTHOR: Gushchin, G. P., Shatunoy, 1. A.
TITLE: Atmospheric ozone and jet strewns
SOURC-_:': Leningrad. Glavnaya geofizicheskaya observatoriya. Trudy*, no. 154.
Voprosy* fizild atmosfery* (Problems in atmospheric physics), 20-29
TOPIC TAGS: meteorology, ozone, atmospheric physics, troposphere, stratosphere,
aircraft turbulence, jet stream
ADS TRACT: Since the mass concentration of ozone increases sharply with height up to
30-40 1,an, it is natural to expect that the high turbulence in the jet stream zone leads to
a change in both the vertical distribution and the total ozone content in this zone in com-
parison with the quiet atmosphere. The authors have investigated the relationship between
the total content and vertical distribution of ozone and the position of the jet stream a3ds
(subtropical and extratropical. jet stream at the 300-100 mb levels). The form of the meau
ozone profile in the jet stream zone is relatively independent of season and wind direction.
In jet stream zones there is a high horizontal gradient of the total ozone content.
Card 1/4
ACCESSION NR: AT4043154
Specifically, on the left ( cyclonic) side of a jet stream there is a ma>dmum total ozone
content not coinciding with the a2ds of the jet stream. On the anticyclonic periphery of the
jet stream zone there is sometimes a minimum total ozone content. A minimum of the
total ozone content is also noted on the cyclonic periphery near the jet stream zone. On
the whole, the total ozone content is high in the jet stream zone. The jet stream ozone
profile was also investicrated using 1958 data for 37 stations in the northern hemisphere.
The position of the jet stream axes was determined from pressure pattern charts for the
200-mb surface. The seasonal and latitudinal variation of ozone was excluded by using
the deviations of the total ozone content from the mean monthly values. A total of 2,613
cases of ozone deviations was analyzed, and mean relative ozone profiles were obtained
for winter, spring, summer, autumn and the whole year, as shown in Fig. I of the
Enclosure. The number of cases for each season and for the whole year is indicated on
the curves. Seasonal change exerts no appreciable influence on the general character
of the ozone profile in jet streams. It is shown that the value of ozone density can be used
successfully for determination of the position of zones of aircraft turbulende. The high
total content of ozone in jet stream zones whould be reflected in the mean meridional
Card 2/4
ACCESSION NR: AT4043154
distribution of ozone and this actually is observed, as demonstrated on the basis of data
from 10, 000 observations. It is concluded that jet streams in the atmosphere facilitate the
penetration of ozone from the mesosphere and tipper stratosphere into the lower stratos-
phere and troposphere. The most probable mechanism of such ozone movement is atmos-
pheric turbulence in a vertical direction. The probable loss of ozone at heights of 20-25 km
as a result of its turbulent downward flux is compensated (fully or partially) by an ozone
flux from greater heights (25-35 km) where photochemical equilibrium is established
rapidly. Ozone data are therefore a valuable characteristic of the turbulent state of the
lower stratosphere and upper troposphere. Orig. art. has: 5 figures and 3 tables.
ASSOCIATION: Glavnaya geofizicheskaya observatoriya, Leningrad (Main Geophysical
Observatory)
SUBMITTED: 00 ENCL: 01
SUB CODE: ES NO REF SOV: 012 OTHER; 006
Card 3/4
ACCESSION NR: AT4043154
E
F
ENCLOSURE: 01
VCPIVA M
10~
r
13 /0 7 S 3
G
A0417
257 243.795
lip
13 7 S 3'1
_90C
Ficr. 1. Mean deviations of total ozone content in the jet stream zone in different seasons
and for the year. A - -win, r; B - spring; C - summer; D - left part; E - deviation
of total ozone content, 10 cm; F - autumn; G - year; H - right part; I - Distance
from jet strown axis, in degrees
A
40
7 13'
13 /0 7 5 36~-
2
B
A6,.CHG 140r
.90 eo -26
13 10 7
9
-40[
17emo .4or
1.9 -10
/)7 a
D 79
-~nL -
Card 4/4
ZHAK, S.V., kand. fiz.-,matem. nauk; SHATUNOVSKIY, G.M., kand. tekhn. nauk
Approximate determination of optimum values for technical and
economic calculations. Vest. mashinostr. 44 no.6:78-82 Je 164.
(MIRA 17:8)
DAVYDOV, A.S., polkovrdk3 KORSIIUNIOV, %.N., polkovnik; KOZLOV,
N. podpohcovnik; LUKANIN, Ye.A., polkovnik; NESIN,
A.A.. polkovnik; POZVIOGOV, A.S., polkovnik; PUTINTSEV,
A.I., podpolklovnik; SIDOMIKOV, F.I., polkovnik; SYTOV,
L.G., polkovnik; FEDD, G.R., polkovnik; CIIEREDNICHENKO,
V.T., polkovnik; CHERNYSHEV, F.I., kontr-admiral zapasa;
SHATURM, A.N., polkovnik; ROMANOV, I.M., red.
[1..ethodological materials for politicdl-instraction] Me-
todicheskie materialy k politicheskim, zaniatiiar. Mo-
sk-va, Voenizdat, 1965. 240 p. (MIRA 18:7)
1. Russia (1923- U.S.S.R.) Glavnoye politicheskoye upravle-
niye Sovetskoy Armii i Voyenno-11-lorskago Flota. Upravleniye
propagandy i agitatsii.
L 97:77.1-6h FW P 1 j ) / ENT ( m.) RM
ACC Mi AP60185&' SOURCE COM UR/b079/65/035/011/1984A988
AUTHOR: Fedorova, G. K.; Shatursh&,. Ya. P.; Kirsanovo A. V.
ORG: Institute of Organic.'Chemistryp ik -bjii~SR (Institut organicheskoy khimii
AN UkrSSR~-
yl-2-chlorostyr
TITLE: Derivatives of s~yr ylphos and bia-phenylacetylenyl-
phosphinic acids
SOURCE: Zhurnal obshchey khimiip vo. 35, no. 11p 1965P 1984-1988
TOPIC TAGS: phosphorylation, eater, phenol, aminev chlorinated organic
compound, organic phosphorus compound, hydrolysisp nonmetallic organic derivative
ABSTRACT: Phe !acetylene( pboapboi7lated by''styrylte'treeblorophoiph6i7iig
rorming styryl-2-chlorostyi~liltrlcbloropbospborus. Styryl-2-chlorostyryl-
trichlorophosphorus. to hy4rolyzed to the corresponding acid, and reacts vith
:sulfur dioxide togive the chloride of atMI-2-chlorostyrylphosphlule acid.
jTreatment of styryl-2-chlorostyrylpboopblnic and ble-2-eblorootyrylphoophinte
4acids vith alcoholic.potassium hydroxide results in the formation of
i-styrylphenylacetylenylphosphinic and bia-pbenylacetylenylphosphinto acids..
Under the action of phenols and aromatic anines, the chlorides of styryl-2-
leblorostyrylphoophinle and ble-phenylseetylenylphosphinic acids are converted -.~f
Ito the corresponding eaters and sallides. Tieldej melting pointej cryoUl
type, and analytic date ore given for all the reaction products# Orig. art.
SUB CODE-. 07 SUBM DATEt 3ONov64 ORIG REF: OOV
Card 1/1' UD6, 546.185-547.341
7/-
ar,:.C~', Coy
13-
C-Lo~-O-
3 DU !LZ ca 1. C--,. 0
proc~-,:Ozs u-.,Lo-- go lnycro-L- 5-..s
6 sul'ur d-o' "D Convert's
-o aciCs. '2h clon I s Of
cs',~ro ancl a-,allcos
:3 0'. sph--c and p,-.,;.-iy--
anl~ Lao
BA.:-,BUYOVA, V.I., kc-rd. ist, nauk; DEMILOVI, Z.F,,,, hcand. ist. naUk;
C.K.1 1:anr-. ist. nauk; SUr,,, Yu,,I,'., I-arid.
ist. nauk; SL~~,k, naul-;
V.I.; 11"~!,; SHVJLTS~ 'I.Ye.94 -TOROPMIN.';'!N~Sis~
-,OCk1A,.11X,,, ~ekhn. red.
tea, IV
~vnamze
Lhrasnyi Aksay; fra. the 1--i-story of the
Plant of ,'~Criculltural Ak-sai; iz istorii
Hastovskogo zavoda. sci~s1cokhoziaistvc-,=ogo mushinos~~i-oeni-
ia ir-cmi ':.V,F,--unze. .'.octov-m-Donu, :-,ostovskoe '.-.rizhnoe izd-
-.;o, 196-2. '-r-,2 p. (EMA 15:9)
1. Prepodavateli .*.os!,-:),.,:~'~:o,~~o ,-oEudOrst.%.rcr;nor--o univei'siteta
(for Barbukova, Dc.7iduvn, Poo;:31ytmina. Sorin, Shatvorova),
mmogrotiraziuioy
--a-zety "Krasn,,-;,
2. Cjtvet.,;Lvcp-ri:,-y se',:-etarl
aksa-lets" (for ;,hrushchev). 3. Zaveduyushchiy kabineton., po-
liticheskogo pcosveshcheni.ya p~xtkyno.f~-o kor.iteta ..ostovskogo
zavoda cel'skokhoz--.-a:ystvcnnogo rcshinoSt--,o,.--Cniya "Krasnyy
Aksay" (for Starodubtsev), 4. Rabochly remoutno-mekhanicheakogo
tsel:ha Rostovokogo za-voda -el-"sko',-.Iionyaystvr-,r-iiogc, i-ashino-
stra-eudyr, "Ki-asny, kkmy" (for Shj-ets
(;-,,c)stov-or-DO'-,---AErJ culturcLI machinery)
SRATVORYANq E.P.; LYAKHOVA, N.D.
DiagnOBtiC significance of the agglutination reaction in bacillary
dysentery. Zhur. mikrobiol. epid. i immun. 31 no. 5:117 My 160.
(MIRA 13:10)
(DYSENTERY) (AGGLUTINATION)
GUSEYNOV, G.M., kandidat sel7skokhozyaystvannykh nauki SHATVORYAN, O.R.,
inzhenar.
Water losses by filtration in temporary irrigation systems of the
cultivated furrow ty-pe in Northern Mugan. Gidr.1 mel.9 no.2:11-19
F '57. (ba-RA 10:3)
(Mugan Steppe--Irrigation)
SHATVORYAH, P.V.
Effect of the removal of stones on the productivity of Alpine
pastures on the southern slopes of the Gegam Range. Izv. AN Arm.
SSR. Biol. i sellkhoz. nauki 11 no.1:99-102 Ja 158. (MIRA 11:2)
1. Torevanskiy zooveterinarnyy institut.
(Armnia-Past-ares and meadows) (Clearing of land)
SPAVORYAN, 11,V, rnlad,3hiy naliclinyy sotrudnik
Effect cf mineral Certilizers on the productivity of p'-Istures in
the ilpine Lelt. Trudy Arm. nauch.-issl. inst.zhiv. i vet. 4:
191-11)7 160. (MIRA 1c:5)
(Armenia-Pastures and meadows--rertilizers and imanures)
SHATYLOVA, 0.
Electronic consultant. Nauka i zhyttia 12 no.9:38 S 162.
(MIRA 16:1)
(Yalta--Electronic apparatus and appliances)
SHATYHKO, A.S.
Use of water from the KislT
y Klyuch mineral spring on Kunashir
Island. Vop. kur., fizioter. i lech. fiz. kul't. 26 no.3:257-258
llf~~Je 161. (KOASHIR ISLOD-MIDERAL WATERS) (MIRA 14:7)
:.'A.; ~11' ,lv,.r iv:.n,,v-lch,; *Iel.se-, "- '-,-T - UE "
.
lrrj-~. - I ~.,. L: .517 1.
I I ,,I ,-~ v F; '!j~if - I - C I., - A I ~ : ' ~
If-1, s k y j
0-11AYYMO, I., IjaL*-hZIlInik sluzzliby perovozok (Stavropol'
?roblom.,: Involving morej thw, ju:it orin airly)rt. Grazild.av. 18
(:4:U LA Ir : r '
no.10:-~~,-29 0 16.1.
(Aeroruiut~lcs, Commercial)
611ATIRKO, I ~
Karachaevsk airport. Grazhd.wr. 19 no.?,IJ+-15 Jl 162.
(I~MU 15 - G)
1. Nachal',-qik- otdala perevozok Stavropol:skogo aeroporta.
(Stavropol2 Terrltox7-Airports)
SHATYUNKOV, A.L., i,nzhener.
Device for a centralized feed of lacquer to sprayer booths. Der.
prom.-'-,5 no.11:26 N '56. (MLRA 10:1)
1. Moskovskaya mebellnaya fabirka no.5.
(Spray, painting) (Lacquer and lacquerinp-)
I.SgATZ, A.U., provizor
Recollections of the first strike of the first strike of St.
Petersburgh pharmacists. Apt.delo 9 no.2:55-58 Mr-Ap 160.
(MIRA 13:6)
(LININGRAD-STRIKES AND WCKOTJTS--FHARMAGISTS)
7070TC-TCH, SIIA-.'Zy M.". G.F.
an' leae ir th "tectites."
"KF,TFZR,l'rFA" ("ateorites-Studies) 7S:IU8 no. 20 - 1961, sponaored I` the
"Go-umitten on i,fateorites" of the Sovist Academy of Sciences - YOE(,c 1- 1961,
208 pagest une contninIng Collected Works(Trmdy") of the i: Ita Conf-are
OrUnizeO byr the C2&n Aqt r1t&g and
Hold in KIFT on 2-4 June 1960.
SFIATZ, R.S., inzh (Moskva)
Gasoline-proof concrete. Stroi. pred. neft. prom. 3 no.2:13-16
F '58. (14IRA 11: 4)
(Tanks) (Reinforced concrete) (Gasoline--Storage)
SHkUB, V.I., zasluzheanyy uchitel'
Training of students in the process of agricultural work.
Biol.v shkole no.4:48-51 Jl-Ag 160. (14IR& 13:7)
1. Srodnyaya shkola RSFSR No. 14, Uzhura, Krasnoyarskogo
Icraya. Delegat VaerosBiyalcogo s"yezda uchiteley.
(Agriculture--Study and teaching)
15 -19bJ 7-3-3676
Transl~ition from: Referativnyy zhurnal, reologiya, 1957, 11 3,
or
p 171 (USSR)
AUTHOR: Shaub, Yu, B.
TITLE: An Attacliment to the Potentiometer EP-1 for Increasing
the Sensitivity of the Receiving Circuit When Ground
Connections are Poor (Pristavka k potentsiometru, EP-1
dlya povysheniya chuvstvitellnosti priyemnoy tsepi pri
plokhikh usloviyukh zazemleniya)
PERIODICAL: Sb. nauch-tekhn inform. M-vo geol. I okhrany nedr, 1955,
Nr 1, pp 87-92
ARS TR AC T: In the potentiometer a grid and a cathode tube 1P2B are
used in place of a galvanometer, but a galvanometer is
included in the anode circuit of the tube. A compensa-
tion for the initial current in the tube Is supplied
when the input potential is zero. The supply for the
attachment to the potentiometer is produced from dry
batteries. The internal resistance of the recording.
Card 1/2 device, through the use of the attachment, increases
15-1957-3-3676
.An Attachment to the Potentiometer EP-1 for Increasing the Sensitiv-
Ity of the Receiving Circuit When Ground Connections are Poor
from 300 ohms to about 108 or 109 ohms. The sensitivity of the
device reaches 2.5 scale divisions for 1 mv. To increase the
sensitivity, several tubes in parallel may be used. Inasmuch as
the potentiometer without the attachment may have a high sensi-
tivity, it is expedient to use the supplementary device only
when ground connections are poor,
Card 2/2 N~ I, V.
SHAUB, Yu.B.
Use of amplitude, phnse, and frequency measurements in electric
prospecting. Izv. AN Kazakh.SSR. Ser.geol.no.3:96-128 157.
(MIRA 10:10)
(Prospecting--Geophysical methods)
SRAUB, TU.B.
Field of the spherical porphyritic ore body polarized by uniform
alternating current. Vest. AN Kazakh. SSR 14 no-5:45-54 My '5R.
(MIRA 11:7)
(Polarization (Electricity)) (Electric conductivity) (ores)
SISHAUB,
lity
with
er
and
Drice
Yu. _k., Cand Tech Sci -- (diss)
of generating oscillatory contour
audible frequencies." Leningrad,
C~
and Secondary Specialist Education
of Labor Red Banner Mining Inst im
not given; (KL,, 17-60, 161)
"Research into the applicabi-
for aerial electrical survey
1960. 14 pp; (Ministry of High-
RSFSR, Leningrad Orders of Lenin
G. V. Plekhanov); 250 copies;
87972
S/049/60/000/010/008/oi4
E133/E414
AUTHOR LZ ha 2
TITLE The Use of a Rotating Magnetic Field Method Ln
El4ctro~Mapping
PERIODICAL Tzvestiya Akademii nauk SSSR, Seriya geofizicheskaya..
ig6o. No 10, PP 1485-1489
TEXT The author considers the method normally used in these
sur,rtys with two aircraft, one flying behind the other2 both
equipped with a pair of mutually perpendicular antennae, The
antennae in the first aircraft produce a rotating magnetic field
which is transmitted. The antennae in the second aircraft act as
r,t~ceiverq The value of this method is that no deflection is
r*-:oy-ded j_n the second a1rcraft if there is no conducting stratum
b-elow., independently of the distance between the aircraft (Ref-1).
The author considers the variation of the signal components as a
funrtion of the specific resistance of a semi-infinite,
homogeneous Earth Expressions for the components of the
secondary magnetic fields produced by Lnduct)Lon currents in the
Card I/IV
87972
s/o4q/6o/ooo/oiO/008/014
E133/E414
The Use of a Rotating Magnetic Field Method in Electro-Mapping
Karth are taken from Ref.2 and 3. Fig 2 and 3 show the variation
of the reai and im,&g1nary parts of T with B (these are defined
in Ref 3) for six different aircraft altitudes, The graphs
Lndi-c.ate that a zero deflection -can be obtained for the reai and
imaginary components by varying the altitude and distance apart
of the a?.rv-raft These null deflection points can be used to
increase instrumental sensitivity, so that regions of anomalous
conductivity can be detected and surveyed, The author gives
graphs of the real and imaginary parts of the deflection as functi-ans
*f P (the specific resistance) for an aircraft altitude of 50 W
and distance betwesn a)rcraft of 100 m (Fig 4a), 150 m (FLg.45)
200 m 1Fzg,4B) and 300 m fFig;4 2- ). It is thus shown that th~e
distance apart of the aircraft can be varied to give optimum
mapping c-ond-itions, and hence it is possible to make a
d;,ff,-rential survey of variously condurting strata by thLS method
Ther-e are 4 fxgures and 3 references- I So-viet and 2 non=Soviet-
Card 211
87972
s/o4q/6o/ooo/o1O/OO8/0l4
E133/E4i4
The Use of a Rotating Magnetic Field;Method in Electro-Mapping
ASSOCIATION: Vsesoyuznyy nauchno-isaledovatel'skiy institut
metodiki i tekhniki razvedki (All-Union Scientific
Research Institute for Prospecting Methods and
Technology)
SUBMITTED: January 26, 1960
Card 3/#
2- 0 0
29~u6
S/049/60/000/011/007/012
D2,17/D305
AUTI[Cli: ..Sliaub.-Yu. B.
Lii'ectional reception of secondary signals in electrical
st,uriding ivith the aid of a rotating magnetic field
11'~K101)[CfIL: Akademiya nauk SSSR. Izvestiya. Seriya geofizicheskaya,
no.. 11, 1960, 1608-1611
'M_T: lhroctional reception and radiation is only easily applicable
at mifficiently hip'li radio frequencies. Obviously this method could also
be of gi-eat IMI-ort'ance in electrical sounding, increasing its resolving
lower and ;tccuracv. 'ro determine the position of a conducting body, it is
nevessary W measuve the phase of the balancing-out signal, or its active
and retictive component. To obtain the directional graphs of differently-
fflea~survd paranieLers, it is necessary to investigate the distribution of
seconditry stirnals by a deviation of a disturbing spherical body from the
aintriv the line of flight of the airplanes., The author
vertical plalle Cont V
fot theie secondary signals
Card 1./3
295 Ob
S/049/60/000/01 1 /0071/012
Directional reception of D247/D305
cos (3)
_Y1
H ~4 II- If
Mio f'0 I tit.- i t!f'-' 1 -11 A s the fo rmu I ftV C11
I 2Z !)z LAI
%'. I Cil Who C is the coll"itnt of the receiving loop, To
21 2 a
t'nall ~. 11.~a I f, the V- tl;Ad. on.- riu.,:0900 to the total signal of the
wid su h t, ai~ t. i t. f rom tho to tal signal of the verti-
C;Ll fr,mtv Y ohl;tiued blilancint-out signal -.N V - VY - IVz contains
110 COMFOIWIIL~ OL tho l1;-1f1't:ry Field and is determined by the electric con-
(111(tivit.y ar th,: 1)okk' 11"~ rii-dius and its location. Usinfr the above
fori'milw., tho ;.-Ilthoc doriv~s -ju,itions for the V , active component,
rCaCtitv Modu]Wi i!11d UIP phas(2 of /AV-. Directional diagrams
illre plotti;d -.~Jui Ill, ;:14i -i' the-f, C-quations In the author's opinion,
Card _.. ~j
29506
S/049/60/000/011/007/012
Directional reception of- D247/D305
the existence of such dingrams proves the possibility of realizing the
directional reception by the method of rotating magnetic field in surface
and well-somidinly, There ;'.re 3 figures and 3 references, 2 Soviet-bloc
ond I non---)ovioL-bIoC. The reference to the English-language publication
Ils follows~ G To'rnqvist, Some practical results of airborne
proipecting in Sweden, Geophys. Prosp.,6, no, 2, 1958
[!('r(-.'vdo'.' '.'c .~5 f~ldl ~.610% (Collection of translations, No, 25,
'.13 MG I ON U.";S10 -
'~U HM I TIE D: January 26. 1960
Card 3/3
AUTHOR: Shaub, Yu.B.
26983 S/049/60/000/012/007/011
D214/D305
TITLE: On interpreting the results of measuring the angle of
inclination of the plane of polarization of the natu-
ral alternating magnetic field
PERIODICAL: Akademiya nauk SSSR. Izvestiya. Seriya geofiziche~kaya,
no. 12, 19609 1771 - 1777
TBXT; The author has investigated theoretically the effects of sub-
terranean spherical and cylindrical conducting bodies on the angle
of inclination of the plane of polarization of the natural alterna-
ting magnetic field. This problem is of particular interest in view
of the recent development of prospecting using this effect.(Ref. 7:
S.H. Ward, Prospecting by use of natural alternating maglietic
fields. Canad. Min. and Met. Bull., 51, No. 556, 1958; R'Ef. 8: S.H-_~_
Ward, AFMAG - airborne and ground. Geophys., 24, No. 4, 1959). Con-
sidering first a spherical conducting body, let the profile, along
Card I/P,,-
983 S/049/60/000/012/007/011
On interpreting the results of ... D214/D305
which measurements are made pass at height h over the center of
such a body radius a and with specific conductivity y, (Fig. 1). At
a point M and frequency f, the 2 normal components of the natural
alternating field in the absence of the body are
Hix ~ Hox eiWt9 (1)
and Hly = H 0y ei(wt+cp) , w = 21t/f, (2)
where yo the phase shift, is unimportant, so that H ox Hoy. The
angle of inclination a is given by
tg a = Hzo (3)
H
X0
where H zo = /H 2z /, (4) and HX0 =/Hlx + H2x/ (5)
Card 2A
26983 3/049/60/000/012/007/011
On interpreting the results of ... D214/D305
and H2x and H 2z are the components of the secondary field due to
the conducting body. This field is equivalent to that from a magne-
tic dipole, and neglecting H 2x which is small by comparison with
Hlx' it may be shown that
tg a = I a' lh- /D/, (10)
2 r5
where D = 3vJ-y2(v)2- (3 + v 2)JY2(v) (7)
v JY2(v)
i�V2 are Bessel functions of order 1/2 with argument v = VTTWTIO a
VIp a, and ~o is the magnetic permeability. The function F(I)j
expressing the variation of tan a along the profile, is shown in
Fig. 3, and it has extremes at 0.5. Hence, the depth of the
Card 3/A'
26983 S/04 60/000/012/007/011
On interpreting the results of ... D214YD305
sphere h is found to be equal to the distance between these two ex-
tremes, a relation independent of any parameters of the body and of
the working frequency. When P is so large that /D/-, 1, the radius
of the body, a, may be found from the value tan a0 at 0.5,
when
3
a L x V_Tgao -
(16)
-The radius may also be determined from the tangent to the x vs. tan
a curve at x = 0. If x1 is the point of maximum tan a, and yj the
corresponding value of tan a on this tangent, then
3 2
a = 1.75 ~ ~Xy'v (17)
1 1
To determine the electrical conductivity of the body, measurements
must be made at 2 frequencies. The ratio of the maximum values of
Card 4/0
26983 3/049/60/000/012/007/011
On interpreting the results of ... D214/D305
tan a gives a function from which, knowing the frequencies, the con-
ductivity may be found. For a cylindrical body of infinite extent,
as shown in Fig. 7, the primary field is as before, and now
2
tg a a- F'(5) /D'/, (26)
h2
where FIf9i) 2 Ij (27)
k + 52)2
and D' = J 2(v)IJO (v), with v and t as before, and the J's are Bessel
functions. The variation of FI(I)twith ~ is shown also and in this
case, the maximum and minimum o an a occur at g = � 11-VT giving
a basis for the determination of h. The radius may be found, for
/DI/o--z:61 from the maximum inclination by
a = 0 . 7 6 x V T9_ _30 (30)
Card 5/4P
26983 S/04 60/OOU/012/007/011
On interpreting the' results of ... D214YD305
and also from the slope of the tangent to the x vs. tan a curve as
before a = 1.22 Vxl Yle (31)
The conductivity may be determined as for the spherical body. For
terrestrial measurements, when a/h is not too small, a0 may be up
to about 100, but for airborne soundings, with smaller a/h, it is
limited to a few degrees. There are 10 figures and 10 references;
7 Soviet-bloc and 3 non-Soviet-bloc. The references to the English-
language publications read as follows: L. Cagniard, Basic theory
of the magnetotelluric method of geophysical prospecting. GeophyB.,
no. 3, 1953; S.H. Ward, Prospecting by use of natural alternating
magnetic fields. Canad. Min. and Met. Bull., 51, no- 556, 1958;
S.H. Ward, AFMAG - airborne and ground. Geophys., 24, no-4, 1959.
SUBMITTED: May 30, 1960
Card 6/6 ~
Len..
1; e, r a
S/.lEi9/62/000/009/052/120
D228/D307
AUTHORz Shaub, Yu. B.
TITLE: Using measurements of the generating cimuit's loop
parameters for audio frequency electric prospecting
PERIODICAL: Referativnyy zhurnal, Geofizika-, no. 9, 1962, 40, ab-
stract 9A265 (Tr; Vses. n.-i. in-ta metodiki i tekhn.
razvedki, coll. 3, 1961, 1*18-130)
TEXT: For electric mapping with the aim of prospecting it is in-
teresting to study the change in the resistance of emission of the
electric or magnetic dipole on radio or audio f:r~equencies. Changing
from an electric to a magnetic emitting dipole allows the prospec-
ting depth to be increased. It also permits the supply generaior's
power to be decreased from hun~dreds of watts to parts of a watt.
The solution of the direct and the converse problem for spherically
shaped bodies is given together with tile results of trial fjights
in an LIM-42(IL-12) aircraft with a coil of 18 turns, 100 m in
area4 It is noted that frequency-measurement units can be protected
Card 112
Using measurements of ...
S/169/62/000/009/052/120
i D228/D307
from the whole spectrum of interf.erence. Z-Abotracter's note: Com-'
plete translation.-7
Card 212
AUTHOR; Shaub, lu.
6/'169/62/000/009/051/120
D228/D307
TITLE: Equipment for electric prospecting by the method of
measuring-the generating circuit's resonant frequency
PERIODICAL: Referativnyy zhurnal, Geofizika, no. 9, 1962, 40, ab-
stract 9A264 (Tr-. Vses. n.-i. in-ta metodiki i tekhn.
razvedki, coll. 3, 1961, 131-137)
TEXT: It is rather difficult to measure the frequency on audio
frequencies with a definite, preset degree of rapid action. In this
connection it is expedient to turn to the. measurement of the phase
difference of two oscillations. In the described circuit the cir-
cular scan of the signal being measured is achieved by supplying
900-displaced voltage to the 6scillograph's deflecting plates. The
.brightness is modulated by a pedestal frequency signal from a spe-
cial oscillator, as a result of which a moving arc appears on the
oscilloigraph screen * Two ~CK-f (FSK-1) photoresistances, glued to
"the screen, track the arc s movement. The error signal, induced by
Card 112
S/169/62/000/0001/051/t20
Equipment for electric ... D228/D307
'I
a change in the photoresistances' illuminance when the arc moves, V/
controls the pedestal modulating voltage's frequency. The oscilla- ' '
tor's frequency is modified so that the luminous arc flashes at
the same place on the screen. /-Abstracter's note: Complete trans-
lation.-7
Card 2/2
IB, YU.B.
of furris-ed bry methods of ~-iz~riLl
electric c,.~ _-~!c, I nL;. izv. Ser. geo-fiz. no. 3:36-C-361E,
WIRA 14:2)
A.
1. V:-;eL:u-,l:zr-YY in--titut metodiki i
, 11 - - .-
oc' ro-, o, tir::~ (Lororautics in --eolo;---'
Vow
AUTHOR: -Shaub,.Yu. B.
~ ) 58 1
S/049/61/000/006/010/014
0239/D306
TITLE: Separation of geophysical anomalies from an intense
noise background
PERIODICAL: Akademiya nauk. Izvestiya. Seriya geofizicheakaya,
1961, no. 6, 898-904
TF_XT: The separation of signals considerably less than the amplitude
of the noise background has assumed considerable importance in almost
all branches of geophysics. The methods used for it must be capable
of simulation by electronic elements which virtually limits the mathe-
matical operations involved to addition and subtraction. The method
proposed in this article consists in generating the function
Y(-)k ?1(~k--21 + Y(xk-1) Y(Vk ~1) - NXk+2)
where the y's are the values of the measured quantity oV signal at V
Card 1/ 2
S/049/61/000/006/010/014
Separation of geophysical.*. D239/D306
the discretely spaced points x1 x2 ... Xk-2' 'k-l'xk's" etc. It can
easily be shown that the signal-to-noise ratio is doubled in this in-
stance. By taking the values of y at e.g. four points before and four
points after x the improvement would be as -fB and so on. Some
examples are Al'ustrated. A schematic diagram of a suitable electrical
arrangement employing only resistors, capacitors and vacuum tubes is
given together with an easily-followed elementary explanaiio.1 of its
operation. Actual circuit details are not given nor any results ob-
tained with an actual apparatus. Its application to aeroelectric re-
search is suggested as a potenti-al field of use. There are 8 figures
and 3 Soviet-bloc references.
ASSOCIATION: Vaesoyuznyy nauchno-is8ledovatellskiy institut netodiki i
tekhniki razvedki (All-Union Scientific Research Institute
for Methodology and Practice of Prospecting)
SUB111ITTED: January 17, 1961
Card 2/2
SHAUB, Yu.B.
Experimental study of the specific features of the method
magnetic field. Izv.AII SSSR. Ser. geofiz. no.7:1015-1021,Jl
(MM
1. Vsesoyuznyy nauchno-issledovatel'skiy institut inetodiki
tekhniki rezvedki.
of a rotating
161.
14:06)
i
(Electromagnetic prospecting)
A
AUTHOR: Shaub, Yu,B_._
"1 21 6 h
S/785/61/ooo/008/002/005
E194/E155
TlTLE: All instrument for the accurnte measurement of
alternating-current amplitude ratio
SOURCE: USSR. Ministerstvo geologii i okhrany nedr. Osoboye
konstruktorskoye byuro. Geofizicheskoye
priboro.gtroyeniye. no.8. 1961. 66-69
TEXT: The instrument is designed to measure the amplitude
ratio of two signals which may differ in phase or frequency. it
is based on the comparator principle and its special feature is
the use of transistors for input switching. Signals with an
amplitude of about 50 microvolts are applied through a portable
amplifier giving an input to the switching system of 50 millivolts-
A change in amplitude ratio of 1% causes full-scale deflection of
a recording instrument type CK -100 (SK-100). The two input
switches are built up of four transistors. Individual windings for
each pair of transistors apply a 30 c/s sinusoidal switching
voltage between the base and collectors of each pair so that they
Card 1/2
An instrument for the'accurate ... S/785/61/000/008/002/005
E194/EI55
open and close in turn at a frequency of 30 c/s. Thus the two
input signals are alternately applied to the input of a selective
amplifier. The output is a 30 c/s signal proportional to the
amplitude ratio of the two input voltages. A phase-sensitive
detector determines which of the voltages is the greater, and the
differential featx~re is found to give better results than the
usual half-wave arrangement. Zero is set by applying the same
voltage to both inputs. The zero drift and temperature variations
are small. There was no need to make the instrument specially
stable, but both sensitivity and stability could readily be
increased.
There is 1 figure.
Card 2/2
S/785/6l/ooo/oo8/oO3/oO5
E19VE155
AUTHOR: shaub, Yu-B.
TITLE: Automatic compensation of electre-magnetic and
vibration interference in electrical prospecting
SOURCE: USSR. Ministerstvo geologii i 6khrany nedr. Osoboye
konstruktorskoye byuro. Geofizicheskoye
priborostroyeniye. no.8. 1961. 70-75
TEXT: The sens itivity of electrical prospecting from the air
is limited by the noise level arising from vibration of the
antenna loop in the earth's field, and from atmospheric and other
interference, which gives spurious readings of field change.
In the arrangement described the primary.field (produced by an
anterina wound round the aircraft fuselage) is impulse-modulated.
In intervals between the applications of the primary field the
receiver input measures the noise. its output is applied to a
voltage difference recorder so that the interference is
automatically cut out. An expression derived for the error of
measurement shows that during a single switching cycle the error
depends not on the actual noise level but on its rate of change.
Card 1/2
;.s/785/61/000/008/003/005
Automatic compensation of ... ElO/E155
The error diminishes as the switching time is reduced.
Examination of the most unfavotirable case 'of stepwise change in
the interference as-the switch operates indicates that by
suppressing noise the error of measurement may be reduced by a
factor of 10 or more, the improvement being appreciably greater
for less unfavourable types of interference change.
There are 2 figures.
Card 2/2
SHAUBY YU.B.
Stabilized generator of orthogonal voltages with magnetic
frequency divider. Geofiz.prib. no.8:102-106 161. O-MUI 15.7)
(Electric generators)
AFANAS'YEV, YU.V.; GOLIDREYER, I.G.; KHVOSTOV, O.P.; SHAIJB, YU.B.
Compensated automatic measurements on alternating current.
Geofiz. prib. no.9:37-45 161. (MIRA 15:11)
(Electric prospecting--Equipment and supplies)
_SHAUB, Yu.B.
Way of eliminating nonstable phasemeters witn narrow.-band
discriminating filters. Geofiz. prib. no,9:87-89 i61,
(MIRA 15:11)
(Electronic measurements)
SHAUB, Yu.B.
Automatic Dnclusion of corrections in continuous geophysical
measuring. Geofiz. prib. no.10:25-34 161. IMA 115:3)
(Electromagnetic prospecting-Electronic equipment)
S/169/61/000/0-1 1/0241,,*-1_)05
D228//D304
A UTHOF. Shaub, Y1j.B,
Iii-LE; Some questions of aeroelectric prospecting by the
rotating magnetic-field method
PERIODICAL: Heferativnyy zhurnal, Geofizika, no.11, 1961, 29,
abstract IIA258 (V sb. Prikl, geofizika, no, 29, Y,,
1961, Z-0 - 71)
TEXT. A method consisting of the creation of an alternating magne-
t~c field with a vector rotating circularly and the study of the
"isturbing influence of good-conducting bodies is described, A solia-
t.ion is gAven .:or the direct and the converse problem of a
, grod con
ducting sphere and thin vertical sheet (an orebodyls analo situa--
ted in a rotating magnetic field. The obtained correlations are ana-
lyzed from the viewpoint of rationally choosing the best- fiel~d com-
ponent3 for measurement purposes and tile optimum dispersions of the
ge-nerator arid receiver casings in order to guarantee the maximum
prospecting possibilities and depth-potential of the method. It iz-
I-Lb 111 ~~,4 that 'he bes' Darameters for measurement are Tne nha-_:,e
Card
69 , I
C) i i ID f,
)me questJons of
D228/D304
of the signal ~.)f the baiancer and its active component, ana that
tbe ma~jt. rationa'l -p-sing di-sper2ions shou2d on -an a-verage b= TI-Nice
-ne value equ--.1 rc, the depth of the sought objects plus the I gh
..i I t: i I: u A aircraft w-.--th the apparatus.. The existen..e
MCMt?nt of the -eneratcr, casingE~ whi,"
~i~e 01 the coils and the power of the ge-ne-r*aL,,-.r,
the zra-,n req-zirement for the apparatus. The most suitabie a--,-
"h's raer."'od ar-e the V11 (IL-2) and AA4 a N ~ 2
a i t i i m u Lr, 11,ght a-Ititude of ab.---uT, 50 m). in whicn it is pc;ss,~t.l&
r.,~ ensuri- Lrjagneti-: r..-,.-,menr of abouz 10-~'amj), coil, M2 for ti.:-- -as
I t is ni-~ssible to obtain a magnetic:: moment of abou-c )0
amps
M:) ro r, th ~= c as., n j- s -1 n. the I L 12 ) and 14 ( 1 L 4
u h e n i mu m f I 1g, h t a i r -.4 d e o f t b e s e air-raft
r ab 1 y -re-a7.er-,. 'In mea~~,jring the signal ~)f the balancer of fi e
e,l ve r *-raTie3 rec~-177P7 measuring appara,.us mast have a senz--,-r
0, at a --~DmDensaT~: onal err:Dr of no mr, e
a n, 101 n n.,~u r e h. e C. --"5 i 1, 1 t y c 'f e t e i n a r e W -
1.
:j,. r
n
d -,g 010 -00 rp from The
Th- "WIM E! 1` by tl-
e v b,,- the e'ectro-con~LlCt-'Vlty) C1 T-
C,
d yan d 1h y 1s~Iimr-nslons- A set of
-:i'~ ~-aLCJ~ 20u 20")0 C/s is fou O.-'Q
environments. It is esuabiislied thra- roo
~iuencies are strongly absorbed in the host-rocks wh",
abiv weaken the primary field and create anomalies of a n~'t,
origin. 'Abstractor's note; Complete trarslaticni.
1~ L 1,