SCIENTIFIC ABSTRACT LATYSHEV, G.D. - LATYSHEVA, M.G.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000928810014-8
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
June 20, 2000
Sequence Number:
14
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
CIA-RDP86-00513R000928810014-8.pdf | 5.68 MB |
Body:
b-MBYSV, A.G.; XaISYUJC, I.M.; OSTRETSOV, L.A.;
UVMOV, TU.S.; SHIRSHOV, X.R.
Natural breadth of the internal conversion lines of the active
pretipitate of radiothorium. Izv.AN SM.Ser.fis. 20 no.3:
354-362 Mr 156. (MLRA 9:8)
1. Kafedra fiziki Lenigradskogo instituta inshenerov zhelesno-
dorozhnogo transports imeni Y.N. Obrazteova.
(Radiothorium--Spectra)
AND 1-11 AND Y-1
I NAL COXEMMOIN Ll. Lq. L
SU IIL� OF TbC
en, L, A. QsU*LRov..
M. A. Ustepgart 4 A, G, Ze
(Obraztg2~lngjad Ing nr frrAJjctzLcUW=)). I~Vosl.
Fix. 20, 363-6jiSSIS) Mar. (In
Conversion CDOMrAents in LI, L2, and MI. M2 sub-
she-Ils of the ThM11111t) puclear r jran~ijiqn at M.9 W.,
were Investiguted. rnd measurements werv rpoLde on the
"kptmn" speptrometer. To obtain more A~xuratc? results.
az %ttempt was =de to acMeve cmpIde separalion of the
cilrg conver--don Unes. A comparison of expert-
correspen
eje-ally obtair&d rates 1,,- 11-11 with Ih-_ theoretical ratios
In rrLBOU) heLmted
Pot y. 1
A:-l~'l----.~l:_- ~~ .
W ~, - -: :
V- - 1. 1
.iow
7) 2.
L 47- ff V)
USSR MIgnetism. Experimental Methods of Magnetism. F-2
Abs Jour Ref Zhur - Fizika, No 3, 1957, 6831
Author Sergeyev, A.G.0 Latysbev, G.D., Leonov, V.D.
Title Measurement of the Magnetic Field by Using Magnetic Resonan-
ce of Protons in Beta Spectroscopy.
Orig Pub i Izv, AN SSSR~ ser. fiz,., 1956, 20, No 3., 369 - 370
Abstract : A method whereby the intensity of the magnetic field is mea-
sured with the aid of nuclear magnetic resonance was used to
measure the field intensity in a beta spectrometer of the ke-
tron type. The apparatus enployed is conventional for this
methody comprising a high frequency generator and'the obser-
vva~ion of signals with the ai-d of an oscillograph. The fre-
quency was measured with a heterodyne wavemeter with an accu-
racy 3 X 10 5., and also with a special circuit, giving an ac-
curacy 2 x IOL6. The range of fields measured was from 100
to 1300 oersted. The accuracy of the rethod is estimatad by
Card 1/2
USSa'/Magnetism. Experimental Methods of Magnetism. F-2
Abs Jour : Ref Zhur - Fizika, No 3, 1957, 6831
Abstract : by the authors to be 2 x lo~-5 in the range 150 -- 400 oers-
ted and to increase with increasing field intensity.
Card *. 2/2
ZHUNDVUIY, Tu.G.; MUSYUX, N.M.; JATTSHKV, G.D.; SER"M, A.G.
y -
Magnetic aftereffect in Iron-core electromagnets. Izv.Ax S=.
Ser.fix. 20 no.3*371-373 Nr 156. (KLU 9:8)
1. Kafedra fiziki Leningradekogo Institute, inshenerav sheletno-
doroshnogo transport& iment V.N. Obrazteova.
(Electromagnets)
EUSYUK, E.H.; VITMN, A.D.; VOROB07EV, V.D.; LATTS , G.D.; SER(MYRY, A.G.
WEV
Internal conversion electron spectra of active radiothorium deposits.
(Region H 2600 -10300 Gs-cm.). Izv.AN SM.Sar.f12.20 no.8,8"-882
Ag #56.
1. Kafedra fiziki Leningradakogo Inatituts, inshonerOV 2helaznodo-
roz*nogo transports, imeni V.N.Obrazteova.
(Radiothorium-Spectra)
RT ~SH V
MSM, B.M.; VITHAN, A.D.; VOROBIYXV, V.D.; VORCB'UV, I.V.; WIN, X.J.;
IATYSHIV, G.D.; LISMOARTM, N.A., I~TV, A.G.
Internal conversion in the Pb2O8 atom in 2615 kev transitions.
Izv.AN SSSR.Ser.fis.20 no.8:883-890 Xg 156. (MM 9:12)
1. Kafedra f12iki Leningradskogo institute. inshenerov zhelazno-
doroshnogo transporta, iment V.N.Obrasteova.
(Lead--Isotopes)
120-2-1?/37
APT11011: Zhemovoy, A. I., Iatyshev, G. D., and Sergeyev, A.G.
TITLE: Magnetic Field Mea urement by the Proton magnetic
Resonance Method. . (fzmereniye Magnitnogo Polya lMet-odon-
Magnitnogo Rezonansa Protonov.)
PERIODICAL: Pribory i Tekhnika ~Eiksperimenta, 195?, No.2,
pp. 60 - 63 (USSR).
ABSTRACT: In the present article the authors describe an instrument
which measures magnetic field intensities within the range
necessary for P-spectroscopy. The accuracy of relative
measurements of the field, ev4luated from the resonant
absorptlon curve width is 10- in the range 35-100 oersted,
2 x lb7l in the range 100-400 oersted and increases with
the field intensity. The accuracy of control measurements
is determined from the reproducibility of maxima of con-
version lines. The construction of the source elements,
of the high frequency coil element (litz wire I(E7MO 10 x .07
for each layer) and of the radio frequency generator are
given. The latter is based on the standard circuit as
used for investigations of nuclear resonance (Ref. 270
The oscillator consists of RF coil of the source element,
connected through a co-axial cable PK-150, length 2 meters,
CaTd-179 to the variable condenser 0 = 100OPF. The oscillator uses
120-2-17/3?
Magnetic Field Measurement by the Proton Magnetic Resonance Method.
tube 6H15P. The BY amplifier uses a tube type 6 >KITT
with a resistive load. The detector is a diode connected
6>KI[Ttube. The output from the HF amplifier is applied
to a wide band amplifier and to a beat frequency oscillator
giving beats with accuracy t lcps. The block diagram of
the BFO is described in Reference 13. Parts of the
heterodyne frequency meter type 530 were used as the quartz
generator multiplier mixer and detector. Frequency beats
were measured by means of the audio generator type 641
and the harmonics were determined with the heterodyne-
voltmeter type 526. A graph of the dependence of the half
width of the resonant absorption curve of FeCl concentra-
tion in water, schematic drawings of the toroicial and of
the cylindrical magnetic field sourceq,a circuit diagram
of the RF part of the instrument, a diagram of the capacity
filter (Fig. 5) and a circuit diagram of the moclulatIng
circuit with the phase inverter are given. A table of
numerical results is produced. There are 14 references,
9 of which are Slavic
SUBMITTED: August, 2?, 1956.
ASSOCIATION: laningrad Institute of Railway Transport Engineers
imeni V. N. Obraztsov. (Ieningradskiy Institut Inzhenerov
,9 7, - ~; (f-, _~)
120-5-9/35
AUTHORS: Yegorov, YU.S., LatVshev, G.D. and Trulev, Yu.I.
TITLE: Stabilization of the Magnetic Field in Magnetic Spectro-
meters (Stabilizatsiya magnitnogo polya v magnitnykh
spektrometrakh)
PERIODICAL: Pribory i Tekhnika Eksperimenta, 1957, No-5,
pp. 41 - 46 (USSR).
ABSTRACT: An instrument is described which uses the phenomenon of
nuclear proton resonance to stabilize the magnetic field in a
beta spectrometer. The stable point of operation may be chosen
anywhere in the range_140 to 1 400 Oe. The degree of stabiliz-
ation is approx. 2.10 5 for fields greater than 300 Oe and
4.10-5 for fields greater than 140 Oe. Table 1 gives details
of the pick-up coil. :Vor fields up to 940 Oe, the coil is a
toroid of volume 13 cm3 and Q-value about 70. Fig. 1 is the
circuit of the amplitude bridge and l.f. amplifier. Fig. 2
shows the phase-detector and d.c. amplifier. Fig. 4 is the
F-line resonance (HQ =,;L,389). This curve was repeated 5 times
and the position of the maxim Ium. could be located to an accuracy
of 4.10--*. The equipment has been used over a period of four
months for investigating the electron spectrum of RaTh in the
range 140 to 2 600 keV. The stabili ation coefficient of the
(jardl/2 circuit against changes in the current in the main f ield coil
120-5-9/35
Stabilization of the Magnetic Field in Magnetic Spectrometers.
is 100. The main field was supplied from accumulators and had
a drift rate of 0.01%o/see. in current. The dominant time con-
stant in the feedback circuit was 5 see. A note added in proof
reports that the lower limit to the field which can be stabilized
has recently been reduced to 12 Oe, while measurements may
extend down to 5 Oe.
There are 6 figures, 1 table and 12 references., 7 of which are
Slavic.
ASSOCIATION: Leningrad Institute of Railway Transport Engineers
(Leningradskiy institut inzhenerov zheleznodorozhnogo
transporta)
SUBMITTED: December 29, 1956.
AVAILABIE: Library of Congress
Card 2/2
7-
IATYSHEV, G. D., and KOVRYGIN, 0. D.
. ........
, "Application of the Photo-Electron-14ultiplier, type Y-19, to the
Scintillation Spectrometry and -type Flaw Detection."
A conference on Electron and Photo-Electron Miultiplier; RadioteRhnika i
Elektronika, 1957, Vol. II, No. 12; pp, 1552-1557 (USSR)
Abst: A conference took place in Moscow during February 28 and March 6, 1957
and was attended by scientists and engineers from Moscow, Leningrad, Kiev
and other centres of the Svoeit Union. Altogether, 28 papers were read and
discussed.
~7
48-7-6/21
AUTHORSs Voroblyev, V.D., IlUin, K.I., Kollehinakaya, T.I., Latyshev,
G-D-j Bergeyev, A.G., Trofimov, Yu.N., Fadeyev, V.I.,
TITLEs The Spectrum of the Electrons of the Internal Conversion o:~ ActiNe
Radium-Containing Thorium Deposits
III(Domain Ej - 1380 to 2700 and 3500tou9OOO Gs. am.) ka radip~a~
(Spektr elektronov vnutrenney konveraii aktivnogo osad ,
III(Oblast' HS - 1380 do 2700 1 3500 do 9000 Gs. am) toriya)
PERIODICALs Izvesti~.a Akad. Nauk SSSR, Ser. Fiz. , 1957, Vol. 21, Nr 7,
PP- 954 - 961 (TJSSR)
ABSTRACTe 1.) The intensities of the conversion lines. In'. the determina-
tion of the relative intensities of conversion lines the fact
was taken into account that a portion of the atoms ThC'falls
down from the source due to the Oe-emission on the.decay
ThCO04 ThC". This circumstance leads to the fact that th intensi-
ty of-all conversion lines developing on the decay ThC'14 ThD
,~~?",decrease by 30 % in comparison with the intensity of the lines
of other nuclei. Therefore the intensities of all lines which de-
0
velop in connection with the decay-ThCOA ThD were determined
Card 1/3 -,with regard to the line L which develops in the same decay. The
The Spectrum of
Card 2/3
48-7-6/?l
the Electrons of the Internal Conversion of Active Radium-Con-
taining Thorium Deposits
III(Domain HS a 1380 to 2700 and 3500 to 9000 Go- am.)
intensities of the other lines were determined with regard to
On I-line ThB-+ThO, In order to connect all intensities with
each other the relation of the L - and I - line intensities to
the source was determined , the latter being covered by a foil
in order to prevent a falling down of the emission atoms. De-
tailed calculations and explanations are given. The authors esti-
mate the aocuraoy.of their measuramtne of the absolute intensi-
ties with 5 - 10 % for the intensive lines.
2.)The conversion s2sotrum in the domain Hg 1380-to 2600 Gs.cm
In the study of thin-portion of the sr.,)otr4m 3 series of measure-
ments wate made. In every series the position and intensities of
the lines were determined. The average values of Hy and of the
intensities are given in table 1, as well as the energy of the
electrons and of the corresponding t-transitioneq.the identi-
ficatibn of the lines and comparative values of earlier-works.
It may be seen that the values obtained by the authors for H
and for the intensities differ markedly from earlier obtainei
val-~est where a phottrepording of the electrons had been employed.,
Pigures 1, 29 3 and-4 represent some parts of the spectra of
48-7-6/21
The Spectrum of the Electrons of the Internal Conversion of Active Radium-Con-
taining Thorium Deposits
III(Domain H 1380 tD2700 and 3500 togOOO Gs. cm.)
T
conversion electrons in the domain Hy - 1350 + 2600 Gs. em.
3.) The-conversion spectrum in the "rigid" domain. Certain lines
discovered by the authors are recorded on figures 5, 6 and 7,
their energies and intensities on table 2. There are 2 tablesp
7 figures and 16 references, 8 of which are Slavic.
ASSOCIATION: Department of Physics, Leningrad L2stitu~e,.o~-Rai:Lropd--M-ransporta-
tion Engineers
(Kafedra fiziki Leningradskogo instituta inzhenerov zheleznodo-
rozhnogo transporta)
AVAILABLEt Library of Congress
Card 3/3
IA-MIIEEV, IG-. D.
AwamwRLISKIY, A.A.; - HEY, G.D. -mmomme"
Wigg the scintillation counter in ga flav detection. Zav. lab.
23 no,.4:430-436 157. (MMA 10:6)
1. Ioningradakiy institrIz, inzhenerov zhelezuodorozhnogo transporta.
(Ghmma rays)'' (Scintillation counters)
(Nondestructive testing)
AU~HOR zmN6vdr,A.i.,KR.rs"fuK, z,'x.;ATrSUV G-D. RaINMUY, A.S., 56-4-V52
A_ .1
F MMEW, A.G. , FATOMV, V. 1.
TITLE spectra of tne inte)rnal*Conversion Electrons of the Active Precipitation
of Radiathorium M
(Spektr elekbronov vnutrenney jconver5ii aktivnogo osadka radiotoriyaII
- Russian)
MIODICAL Zhurnal Bksperim.i Teoret.Fiziki,1957,VO152,Nr 4Ipp 682-689(U.S.S.R.)
Received 7/1957 .1eviewed 8/1957
ABSTRACT Investigation of the active precipitation was carried out 'within the do-
mdn H 500-13tio em magnetic spectrometer (widtn of lines 0,25U/,, angle
of tne spectromater in the horizontal plane 4o', height of diaphrum 16 mm).
The magnetic field was measured by the method of proton magnetic resonance.
Registration of electrons was carried out Dy means of 2 self-extinguishing
GM counters. The position andthe Intensities of K and L conversion electron
energies or tiv3 electrons are computed according to the formula
hKL L z z z+AZ where sZ and J5z denote the binding energies of
- 'j
~ '~ - %
K j
jp
q
p q
P
z+Az
I and Lp electrons in the normal atom, and is is the binding energy of
Lq electrons in the atom in which no Lp elec4ons are present. The decrea-
se of the quality of the shielding effect can be explained by the increa-
se of the charget +Az - Z z+1 z ). Theoretical computation
AZ-(Z' is W - %
S
Lq
Lq jjq
q
of the quantity AZ Is complicated and at present not yet possible. Tne
Card 1/2 spectra of the internal conversion of the active precipitation of radia-
spectra of the Internal Conversion Electrons of the Active 56-4-7/52
Precipitation of Radiathorium II.
tnorium were at first investigated by h;llis and later by .1juryug and Arnu,
who used the method of photographic registration of electrons. The disad-
vantage of this method is a grave error in determining the intensity of the
line.This error is mainly connected with the necessity of introducting a
correction of the spectral sensitivity of the photoplates as Vrell Rs by the
nonlinear dependence of the blackening of the intensity of radiation.Mea-
suring of the internal conver3ion of the active precitpitation of radia-
thorium in the case of a ha.Lf-width of the device of O.,25ulj are acceptab-
le In particular because with this balf-width the greater part ofthe lines
is resolved in a soft domain, and as the device possesses sufficient power,
also rather weak lines can be observed. For an exact determination of li-
ne intensity nigh stability of the effectiveness of the counters is neces-
sary.The voltage of the'counters was generated by.the rectifier NO-16.The
modification of feed voltage in 24 hours after a heating of 3 hours did
not exceed 1 Mor the control of volta?q a galvanometer with scale was
usea. It was established with accuracy that tne intensities of conversion
lines amounted to 3-501u for strong and 2o-3oo/,~for weak lines.
ASSOCIATION Leningrad Institute for Railroad Transport Engineering
PRESENTED BY
SUBUME 24-11o1956
AVAIIABLE Library of Congress
Card 2/2
AUTHORSt Sergeyev, A. G., Krisyuk, E. M., Latyshev, G. D., 56-5-9/46
Trofimov, Yu. N., Remennyy, A. S.-
212 212 212
TITLE: The Deday Scheme of 33. PO (Skhema raspada Bi pc?12)
MIODICAL; Zhurnal Eksperimentallnoy i Teoreticheskoy Fiziki, 1957,
. . Vol- 33, Nr 5, PP. 1140-1143 (USSR)
ABSTRAM That conversion spectram is recorded by means of a semicircle
spectrometer and the following r-lines are found (in KeV):
727,2
785,4
893,4
952,7
Io73,7
10713,5
1512,6
162o,4
18oo,2
The above lines, except the 1078,5 line, can be classified in
a decay scheme in which the following levels (given in KeV) are
formed in thePo-212. (Both spin and parity are given in paren-
Card 1/2 thesis):
212 212
The Decay Scheme of Bi Fo 56-5-9/46
0 0+
727,2 2+~
1512,6 0,1,2)
162o,5 1,2)
1679,9 0,1,2
1800,4 0,1,2~
There are I table, I figure, and 19 referencess 4 of which are
Slavic.
AFiS.OCIATION: Leningrad Institute for Railroad-Transport Engineers (Lenin-
gradskiy institut inzhenerov zheleznodorozhnogo transporta)
SUBMITTED:
AVAILABLE:
May 29, 1957
Library of Congress
Card 2/2
o/t,6
56-5-1
Latyshev G D-
sergeje,vj A. G-t
It B. 14-1 Y. I.
Yxisyu I 1?2.deyevt 208
r3,93P'La& T1 1951t Vol' 53
j%'UTUOILS' -111in7 208 (5y
I)ecay scheue of TI Teoretich~slcoy Fi',""
TIT LZ The periment&llnoY ) Plot,a 'by Me" of semi-
Zhurnal Fks - 1146 ('JSSR roand,
11r 51 pp. 1144 n spectrull, Of TIZOS "s i,,S vere
versio the f ollowing -jut CUB ity -in
The tcon
spectr omet er anl le order
&BSTRACT, circle V UUlt ip 0
Fj t in Y's o,32
1LI ot34
jil s,4
-,33,4 o,5
252,54 2296
277,35 83,2
4B5,9 EZ 2
1510 84 1&1 12,3
583,2 J&i 100
763,2 F,3
86o,5
26140
a 1/2
car
56-5-10146
------ The above line can be arranged in a level scheme of Pb 2o8
Which shows the following level in YeV (spin and parity are gi-
ven in parenthesis):
0 0+
2614 3-
3198 5-
3475 (4-)
37o8 5-)
3961 R-)
Tl 2o8 (5+)
There are 1 table, 1 figure, and 15 references, 6 of are
Slavic.
ASSOCIATION: Leningrad Institute for Railroad Transport Engineers (Lenin-
gradskiy institut inzhenerov zheleznodorozhnogo transporta)
SUBMITTFO: May 29, 1957
AVAIUBLE; Library Of Congress
Card 2/2
v D
.25 6) PHASE I BOOK EXPLOITATION SOV/2555
Nauchno-tekhnicheskoye obshchestvo priborostroitel noy promyshlen-
nosti. Ukrainskoye respublikanskoye pravleniye
Novyy~e-metody kontrolya i defektoskopii v mashinostroyenii i pri-
borostroyenii [doklady Respublikanskoy konferentBiij (New Methods
of Inspection and Flaw Detection in the Machinery and Instrument-
manufacturing Industries [Reports of the Conference Held at Kiyev,
19%1) Kiyev, Gostekhizdat USSR, 1958. 264 p. 4,700 copies printed,
Sponsoring Agency: Akademiya nauk USSR.
Ed.: Ai Amelin; Tech. Ed.: P. Patsalyuk; Editorial Board: I.I.
Greben', B.D. Grozin, A.Z. Zhmudskiy, G.N. Savin (Resp. Ed.), I.D.
Faynerman (Dep. Resp. Ed.), and A.A. Shishlovskiy.
PURPOSE: This book is intended for engineers, scientific workers, and
technicians dealing with problems of inspection and flaw detection.
COVERAGE: This is a collection of scientific papers presented at a
Card'1/9
New Methods of Inspection (Cont.) SOV/2555
conference sponsored by the Academy of Sciences, UkrSSRj and the
Nauchno-tekhnicheskoye obahchestvo priborostroitellnoy promyshlen-
nosti, Ukrainskoye pravleniye (Ukrainian Branch, Scientific and
Technical Society of the Instrument-manufacturing Industry). The
papers deal with modern methods of inspection'and flaw detection
used in the machinery- and instrument-manufacturing industries.
The subjeCtB discussed include the use of electron microscopes
in the investigation of metal surfaces; X-ray, gamma-ray, lumines-
cense, magnetic, and ultrasonic methods of flaw detection; use of
radioactive isotopes; X-ray diffraction methods of metal analysis;
and the use of interferometers for measuring length and thickness
and determining the coefficient of linear thermal expansion. No
personalities are mentioned. References follow several of the
papers*
TABLE OF CONTENTS:
Introduction
3
Semirog-Orlik, V.N., Canc3~date of Technical Sciences, Institut
stroltellnoy mekhaniki ANYSSR, Kiyev (Kiyev Institute of Structural.
Mechanics, Academy of Sciences, UkrSSR). Use of Electron Microscopy
of Surface Layers of Metal 5
Card 2/ 9
New Methods of Inspection (cont.) S07/2555
,Arkhangellskiy, A.A.) Engineer, I.V. Voro~-Iyev, Engineer., O.D.
Kovrigin, Engineer, and G.D. Latyshev, Leningradskiy inst'itut
inzhenerov zheleznodoroz-lffi-o-g-a--Tran'sporta (Leningrad Railroad
Engineers Institute). Pulse-counting Method oP Gamma-ray Flaw
Detection 18
Bogdanov, V.I., Candidate Of Technical Sciences, Novocherkasskiy
politekhnicheskiy institut (Novocherkassk Polytechtical Institute).
Selection of Radioactive Sources for Measuriftg.Eqqipment 25
Movehan, B.A. Candidate of Technical Sciences,.Institut elek-
,trosvarki imWni.Ye.0. Patona, Kiyev (Kiyev Electric Welding In-
stitu,te imeni Ye.0. Paton). Use of Radioactive Isotopes in ~he
Detection of Flaws in Welds 41
Zhmudskiy, A..Z., Doctor of Technical Sciences, Professor, Gosuni-
versitet imeni Shevchenko,. Kiyev.(Kiyev State University imeni
Shevchenko). X-ray Diffraction Method of Inspecting.Finished
Parts 50
Card 3/9
-New Methods of Inspection (Cont.) SOV/2555
Genkin, V.M., Engineer, Go:rlkiy "Krasnoye Sormovo" Plant. X-ray
Diffraction Quantitative Phase Analysis Using Standard X-ray
Photographs 70
Zhmudskiy., A.Z.jand L.M. Pakchanin) C~ndidate of Physical and'
Mathematical Sciences, Kiyev State University imeni Shevchenko.
Problems of Physical Strength and Crack Formation in Case-hardened
Parts 75
Yevgrafov, A.V., Engineer) and P.M. Yelchin, Moscow TsNIITMASh.
Methods and Equipment for Luminescent Flaw Detection 78
Yakovlev, B.M., Engineer, Avtozavod,'g.~ Gor'k-ly (Gbrlkiy Automo-
bile Plant)*~ Experience-Gained at the Laboratory for Soectral
Analysis, Gorlkiy Automobile Plant 85
Yeremin, N.I., Candidate of Physical and Mathematical Sciences,
TsNIITMASh. New Developments in the Field of Magnetic-particle
Flaw Detection and Magnetic Metallography 87
Zhigadlo. A.V., Candidate of Technical Sciences, Institut, P/ya
Card 4/9
New Methods of Inspection (cont.) SOV/2555
126, Moskva (Institute, Post Office Box 126, koscow).Improved
Methods and Equipment for Magnetic Inspection of Ferrottagnetic
Parts io6
Landa, V.A., Engineer, Moscow VNII.. Instruments for a Magnetic
Quality Control Method of the Heat Treatment of Tools Made From
High-speed Steels 114
Entin, S.D. Candidate of Technical Sciences. Moscow TsNIITMASh.
Application.of a Magnetic Method for Investigating Heat-resistant
Austenitic Alloys 121
Eb-imchenko, N.V.., Candidate of Technical Sciences, and V.P.
Prikhod1ko, Engineer, Kiyev Electric Welding Institute imeni
Ye.O. Paton. Ultrasonic Structural Analysis of Metals 126
Gubanova, M.R. Candidate of Technical Sciences, and I.N. Yermolov,
Moscow TsKiiiIE. Ultrasonic Flaw Detection in Metals 134
Gurevich, A.K., Engineer, Leningrad-NII of Bridges. Ultrasonic
Card 5/ 9
New Methods of Inspection (Cant.) SOV/2555
Detection of Flaws in Fillet Welds 143
Khimchenko, N.V., V.P. Yesilevskiy) Engineer, and V.A. Tsechall,
Engineer , Kiyev Electric Welding Institute iment Ye.O. Paton.
Ultrasonic Detection of Flaws in Electro-slag Welds .149
Trushchenko, A.A., Engineer, Kiyev'Blectric Vkding Instit.ute.-imeni
Ye.O. Paton. Testing Welds for Permeability 161
Romanova, M.F., Doctor of Technical Sciences, Professorj Leningrad
VNII imeni Mendeleyev. Ways of Improving the Accuracy of the
Interference Method of Measuring Length 173
Kostyshin, M.T., and A.A. Shishlovskiy, Kiyev State University
imehi Shevchenko. Use of MII Microinterferometers for Detel-min-
ing Thicknesses and Refractive Indexes 180
Volkova, Ye. A., Candidate of Technical Sciences, Leningrad
VNII imeni Mendeleyev. Interference Method of Measuring tne
Coefficierit of Linear Thermal Expansion of Solid Bodies 188
C drd 6/ 9
.New Methods of Inspection (Cont.) SOV/2555
Lisitsa, M.P., and N.G. Tsvelykh, Engineers, Kiyev State Univer-
sity Imeni Shevchenko. Use of the MII-l Interference Microscope
for Measuring Very Thin Coatings and PhbLse Displacement 198
Gidell A.Yu., Candidate of Technical Sciences~ Leningrad VNID
imeni Mendeleyev. Method of Determiang the Shape of Spherical,
Conical)and Pyramidal Vertexes of Different Bodies 203
Yeremin., D.M.., Engineer., Khar'kovskJy institut inzhenerov
zheleznodorozhnogo transports imeni Kirova (Kharlkov Railroad
Engineers Institute imeni Kirov). Photon Counters Sensitive to
Ultraviolet and Visible Radiations 209
Tsukkerman, S.T., Professor, Leningradskiy institut tochnoy
mekhaniki i optiki (Leningrad Institute of Precision Mechanics
and Optics~ Pneumatic Oscillograph 214
Shmarts, V.D., Engineer, Dnepropetrovskiy zavod, P/Ya 186
(Dnepropetrovsk Plant Post Office Box 186) MT-DA3 Magnetic
Thickness Gage 226
Card 7/9
New Methods of.Inspection (Cont.) SOV/2555
GUshcha '0.1., Engineer, Kiyevskiy institut gornogo dela, AN USSR
(Kiyev Mining Institute, Academy of Sciences, UkrSSR). Instru-
ments, for Checking the Condition of Hoisting Wire Ropes 235
Samarin, F.A., Technician, K&linin Oblast!, Podberez,ye . Device
for Determining Type of SteLl by a Thermoelectric Method 242
Grigulus, Yu. K., Engineer, Laboratoriya mashinovedeniya, Riga
(Riga Laboratory of Machine Construction). DescriDtion of TGP-1
and 2 Measuring Instruments 246
Kestellman, N.Ya., and L.I. Kotlyar, Candidates of Technical
Sciences, Politekhnlcheskly Institut, Odessa (Odessa Polytech-
nical Institute). Autoi-liatic Recording Device for Checking
Macroroughness of Surfaces 249
Oriyent, I. V1., Engineer, Moscow. Description of Physic,71 Methods
of Investigation in the Magazine Zavodskaya Laboratorlya
(Plant Laboratory) 254
Card 8/9
-New Methods of Inspection (cont.) SOV/2555
Decisions of the Ukrainian Republic Conference on Problems
of New Methods of Inspection and Flaw Detection in the
Machinery- and Instrument-manufacturing Industries -257
AVAILABLE,. Library of Congress
Card 9/9
GO/bg
11-20-~-59
ZH9MVOY, A,.I..; YEGORDV, yu.s.; L&TYSHEV, GPD.
Using proton resonance in measuring and stabilizing weak
uniform magnetic fields [with summary in Inglishj. Inzh.-fiz.
chur. I no-8:95-97 Ag 158. (MIRA 11:8)
l.Institut inzhenerov zheleznodorozhnogo transporta, leningrad.
(Magn;tic fields-Measurement) (Nuclear magnetic resonance)
SOV/120-58-2-36/3?
AUTHORS:Zhernovoy, A. I., Yegorov, Yu. S. and Latyshev, G. D.
TITLE: Measurement and Stabilisation of Weak Magnetic I
Using Proton Magnetic Resonance (Izmereniye i stabilizatsiya
slabykh magnitnykh poley na osnove magnitnogo rezonansa
protonov)
PERIODICAL: Pribory i Tekhnika Eksperimenta, 1958, Nr 2, P 115
(upper half) (USSR)
ABSTRACT: Up to the present time the method of nuclear resonance
has only been used in the measurement and stabilisation of
strong and intermediate magnetic fields. In the case of
weak fields the application of the method was difficult
because of a small signal to noise ratio. The authors
have considerably reduced the dependence of the amplitude
of the signal on the magnitude of the measured field by the
use of a preliminary magnetisation of the current of water
in a subsidiary magnet giving rise to a strong field. In
this way it was found to be possible to measure and stabil-
ise ma-netic fields of a few oersted with small volume
specimens. The accuracy of measurement is limited only by
the accuracy with which the frequency can be measured. The
Card 1/2
SOV/120-58-2-36/37
LIP-asurement and Stabilisation of Weak Magnetic Fieldr. Usinf_,~, Protx:
Magnetic Resonance.
coefficient of stabilisation for the scheme described in
Ref.1 is 300. A full description of the work will be
published in the future issue of this journal. There is
1 Soviet reference.
ASSOCIATION: Loningradskiy in3titut inzhnnorov xho In V,11 00,0ro:..'] III 01~.;o
'u- - J F~ -A
trr isporta (Leninr, ad ffit
C,r U
SUBIJITTED: October 31, 19,57.
1. Magnetic fields--Stabili-zation 2. Magnetic fields--
Measurement 3. Nuclear magnetic resonance--Applications
4. Frequency--Measur~ment
Card 2/2
SOV/12U-58-2-37/37
AU-THORS:Zhernovoy, A. I., Ye-orov, Yu. S. and Latyshev, G. D,,
TITIE; A New Method of Measurin.- Uniform and
Fields Using Proton Magnetic Resonance (Nov-jy metod izmereniya
CD
odnorodnykh i neodnorodnyhh magnitnykh poley na. osnove magnit-
nogo rezonansa protonov)
0
=IODICAL: Pribory i Tekhnika Eksperimenta, 1958, Nr 2, P 115
(lower half) (USSR)
ABSTRACT: A method has been developed for the measurement of
ma-netic fields using the phenomenon of nutation of the
0 CD
total marrnetic moment of nuclei. The measurement was
carried out using a continuous current of water which in
Uurn passes through a magnetising region in an auxiliary
stronr-- field, the region where the field is to be measured
(with a superimposed high frequency transverse field which
-produces the nutation), and then enters the usual set up
for the observation of nuclear resonance. If the frequency
of the high frequency field is equal -to the frequency of
precession of the nuclei, the phenomenon of nutation -takes
place in the measured field and the nuclear resonance
signal disappears or changes polarity. In practice fields
L,
between 0.17 and 500 oersted with non-uniformities of up
Card 112
SOV/120-58-2-3?/37
A New Method of Measurin- Uniform and Non-Uniform Ma.---netic Fiei(is
C>
Using Pooton LTaggnetic Resonance.
to 200 oersted/cm have been measured. A full descri-ption.
will be given in a paper to be published in a future issue
0
of this journal.
ASSOCIATION: Leningradskiy irst-I.tut ii-.tzhonorov
turansporta (Leninlr,ra6 IUI IW," v ut"
tute
SUBMITTED: October 31, 1957.
1. Magnetic fields--Measurement 2. Nuclear magnetic resonance-
Applications 3. Frequency--Measurement
Card 2/2
USCO'" -DC-35889
6OV/120-58-5-17/32
AUTHORS:Zhernovoy, A. I., Yerrorov, Yu. S., I*a-tyshev, G. D.
TITLE: A New Method of Mleasuring Uniform and Non-Uniform ffia-gnuti-e-
Fields, Using Proton Magnetic Resonance (Uovyy metod
U
izmereniya odnorodnykh i neodnorodnylch magnitnykh poley na
osnove magnitno-o rezonansa protonov)
Cj
P-DiRIODICAL: Pribory i telchnika eksperimenta, 1958, Nr 5, pp 71-72
(USSR)
ABSTRACT: A met",od is suggested for measuring magnetic fields b3-
-1 C-1 Q
tween 0.1? and 500 oersted with non-uniformities up to
200 oersted/cm. The method is based on the phenomenon of
nut-tion, which consists in the change in the precession
cone of the total ma-netic moment of nuclei under the action
0
of a transverse field oscillating with a frequency (0 = yH
where H is the magnetic field in which the nuclei are
placed, and y is the gyromapetic ratio. The apparatus
is illustrated diagramatically in Fig.l. The flowing water
from a magnetisin- field enters into a nutation element which
is placed in the measured field and then passes into an
,.,ard 1/5
SOV/120-58-5-17/32
A New Method of Measuring Uniform and Non-Uniform Liagre'Jc Fields,
Using Proton Magnetic Resonance
absorption element placed in a uniform field and which
serves as the detector of nutation. The nutation element
is in the form of a coil of a few turns placed on a glass
tube. If the frequency of the generator w / wo , where
Wo = ypHo , y p is the Syromagnetic ratio and H 0 is the
measured field, then the absorption signal is given by:
0
Atvmoexp(- VT/QTl) ~ (1)
where V is the volume of the connecting tube between the
absorptiL and nutation elements, Q is the water flow,
Ti is the longitudinal relaxation time, and 110 is the
total magnetic moment of protons per ait volume of water
passing through the nutation element. If the frequency of
E'
the generator is w = wo then, due to the nutation of
the vector M 0 from the direction of HO I transverse
.comDonents Mx and My appear in the nutation element
lume V. In that case the signal will be given by:
Card 2/5v0 0
SOV/120-58-5-17/32
A New Method of Measurin- Uniform and Non-Uniform Mag-netic Fields,
0
Using Proton Magnetic Resonance
A
[Mz2 +-k~) exp(- 2 1/2 (2)
v zexp (- 2K,,/qTl) VT/QT2]
where T* is the transverse relaxation time. Since
2
Tl;~~ it follows that A"M. . When V,/Q-&',