SCIENTIFIC ABSTRACT SHTREMEL, M.A. - SHTREZSMAN, YE.
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December 31, 1967
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SCIENTIFIC ABSTRACT
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Catego-ry USSR/Solid State Physics - Mechanical Properties of Crystals and E-9
Polycrystalline Compounds
Abs JL-NLLr Ref Zhur - Fizika, No 2, 1957 No 3971
Author Rakhshadt, A.G., Shtremell, M.A.
on- f -if -t-
Title Internal Fricti n e ili- and Modern Methods for its Determination
Cuig Pub Sovrem. metody ispytanky meterialov v mashinostroyenii. M., Mashgiz,
2.956.1 79-109
Abstract Survey, Bibliography, k3 titles.
16 (3), 18 (7)
AUTHORS: Kidin, I. N., Shtremel;- 1M. A. SOV/10'3-59-2-29/48
TITLE: The Strengthening of Alloys by Accelerated Heating
(Uprochneniye splavov putem uskorennogo nagreva)
PERIODICAL: Nauchnyye doklady vysshey shkoly. Metallurgiya, 1959,
Nr 2, pp 165-172 (USSR)
ABSTRACT: The strengthening of many iron alloys low in carbon (with
Cu, Ni, Mn, etc) is done by hardening, a hard surface layer
forming by a Pcc-conversion. In the papers published in
1956-57 (Refs 1, 2), a new phenomenon was described, namely
the additional strengthening of these alloys by accelerated
heating and an a(.-d-conversion. At present, the influence of
the heating rate within 50-2500 degrees/see on the fine
s ructure and the strengthening of chromium- and nickel-iron
alloys has been investigated. The results are represented in
figure 1. Besides the heating rate, also the temperature of
hardening and the quenching medium (oil, water, lelo soda lye
at 50) were varied. The stresses of second kind (Crii ) and
the block size (D K, ) were deterrmined according to L. S, Moroz
Card 1/3 by measuring ih-~ width of two lines of an X-ray picture.
The Strengthening of Alloys by Accelerated Heating SOV/163-59-2-29/48
Figure 1 shows that the hardness increases more rapidly at an
accelerated cooling than at an nocelerated heating. In spite
of this, the accelerated cooling offers no advantages due
to technical difficulties. The accelerated heatinm leads to
a splintering of the blocks. Figure 3 shows the dependence of
the hardness - I - at different variations of heat,
treatment. The problem as to whether 'he hardening by cold
working follows the same inales has not yet been solved. The
experimental results of M. D. Perkas (Ref 7) represented in
figure 4 Point to a different character of the two hardening
Drocesses. Some features of the mechanism of phase hardening,
which distinguish it from the hardening by cold working, are
8ubsequently described. The hardening by a phase conversion
is a regular three-axis plastic deformation. P. proceeds
uniformly in each volume element by consecutive thi-asts with
intermediate rests. The higher effect of accelerated heating
is explained by the fact that more core of the r-phase are
Simultaneously formed, thus producing a finer structure.
Card 2/3 There are 5 figures and '.2 referencIesq 101of which are Soviet.
.The Strengthening of Alloys by Accelerated Heating SOV/163-59-2-29/48
ASSOCIATION: Moskovskiy institut stali (Moscow Steel institute)
SUBMITTED: November 21, 1958
Card 3/3
S/032/60/026/06/26/044
B010/BO16
AUTHORS:. Rakhshtadt. A. G., Shtremelt. M. A.
TITLE: New Method of Determining the Flastict Limit on Thin Flat
Samples
PERIODICAL: Zavodskaya laboratoriya, 1960, Vol. 26, No. 6, pp. 744-749
TM~T: A method of determining the elastic limit is described, as well
as a device developed and used by the authors since 1953. This device is
applied along with the apparatus for the determination of the micro-
hardness of the 11M'(PhTT)-2, or "P!11(PMT)-3 type. The mode of action of
this device consists in that the flat parts are subjected ".o a
longitudinal bending up to a definite deformation and the -':-flection
which remains after unloading is measured by a microscope jy the method
of focusing. The device used to bend the specimen is described briefly by
the aid of a graph (Fig. 1). The maximum relative increase in length on
longitudinal bending is calculated by the method of Ye. P. Popov. The
equations as well as a nomograph (Fig- 4) which are applied to determine
Card 1/2
New MethIod of Determining the Elastic S/032/60/026/o6,/26/'044
Limit on Thin Flat Samples B010/BO16
the elastic limit by means of the apparatus described, are given. The
total error of the determination is ca 2 per cent. As example, diagrams
Fig. 5j are given concerning the change of the properties of a 13p E;"T-
Br BHT 1.9 beryllium bronze after ageing at 3700C. When determining the
~
elastic limit by tension or deflection, different results are obtained
owing to residual stress. Equations are derived which permit the mutual
conversion of the diagrams of both tests. There are 5 figures and 10
references: 8 Soviet and 2 American.
ASSOCIATION: Vyssheye tekhnicheskoye uchilishche im. Baumana (Technical
Institution of Higher Learning imeni Bauman). Moskovskiy
institut stali im * I. V. Stalina (Moscow Institute of Steel
imeni I. V. Stalin)
Card 211-1
S/032/6o/026/008/006/0'.'i
3015/BO64
AUMORS: Kidin, 1. N., Panov, A. V., Shtremell, M*'A*
TITLE-. An Apparat 6 for Studying Isothermal Transformations ty the
Method of Electrical Resistance
PERIODICAL: Zavodekaya laboratoriyaq 1960, Vol. 26, No. pp. 1009-1012
TEXT-. The p:resent paper describes a device that is used to siudy isother-
mal ph-iss transformations in hardened metal samples after rapid heating up
,o a coastani -vempsrature (Flig. 1). Wire- and lamella.samples are
which are heated by the passage of industrial current, and then a voltage
is applied with the help of a transformer, thich keeps the temperature
0 L/
oon,stAnt. At 500-800 C a constant temperature is reached iA 3-6 Becondsp
nAd thle %emperatara is maintained at +3 to +5cC exactly. Since dirract
measurem,,-~nt of resistivity on a rapid heating is complicated by the in-
accuracy of the recording instruments, an.-.1 ammeter and a differential volt-
metex, as well as a standard reaUtor in bridge circuit were used for this
pu.rpoae. The relative change of the eleotrioal. resistance is detsrained
irom eqva6lion (6) and in consideration of the changing temparature of the
Card 1/2
An Apparatus for Studying Isothermal 510321601026100810061011
Tzansfo-rmatians by the Method of Electrical 3015/BO64
standard resistor and the initial temperaiureeffihe sample. The curv of
the ahange of the elootrical resistance of the XH 80 (Jq2~Ngq)(alloy at
5451 C (Fig. 3) is given for aim illustration. There are 3 figures.
ASSOCIATIONT Moskovskiy institut stali im. I. V. Stalina
(Moscow Steel Institute imeni I. V. Stalin)
Card 2/2
KIDIN, I.N.; �HTREMEL_Ij M.A.
Kinetics of changes oAshort-range order' in binary alloys. Fiz, mete
i metalloved. 11 no. 5:641-649 My 161. (MIPA 14: 5)
1. Moskovskiy inBtitUt~stali imeni I.V. Stalina.
(Rrystal lattices-Defects)
S/lZq/6z/ooo/004/oo4/olo
F-193/E383
AUTHORS: Raklishtadt, A.G. and Shtremel', M-A-
TITLE: Resistance of metals and alloys to small plastic
strains
PERIODICAL: Metallovedeniye i termicheskaya obrabotka metallov,
no. It, 1962, 22 - 27
TEXT: Based on both Soviet and foreign sources, the present
paper is an e---,pos�tion of modern views oil tile beha-triour of metals
under stresses near tile elastic limit. A concept of elasticity
threshold a- is introduced. This is defined as the maximum
0
stress which can be repeatedly applied to a material without
produc4ng residual stress measurable to a given degree of
accuracy (e.g. 0.00020,0"); a stress larger than o,-- will produce
0
a residual strain w-hich -.fill increase on each loading. Deter-
mination of a- durins a tensile test can be rendered difficult
0
by residual stresses of the first type which, under a stress
lower than 01 can cause contraction of the test piece. It should
0
S/12q/62/ooo/oo4/oo4/olo
Resistance of metals .... E-193/E383
al.so be borne in mind that the onset of athermal Plastic
deformation cianot be detected it slow rates of strain since,
once a certain duration of loading is exceeded, -the results
obtained can be obscured by an elastic after-effect, stress
rela.-Ilation, etc.'The role of dislocations in the initial stages
of plastic deformation is discussed in the next paragraph, with
particular reference to factors inhibiting 'the movement and format-
ion of single dislocations. Finally, the part played by grain
boundaries In the process studled Is di-scussed In relatlon to f:Lne
slip, movement of dislocations and movement of grains one
relatlive to the otj-.er. In conclusion, it is stated that in order
to increase t'Lle elastic limit, endurance limit and relaxation
6
stabil--ity of inetals, it is necessary to increase their resistance
_o sr:iall plastic strains. This can be attained by work- or
I
phase transforl:iat-ion-induced hardening and by dispersion hardeninjq
Tiae best results should be obtained by -treatments w1hich combine
all these processes and which are exempldfied by various types
of thermomechanical treatment. There are 6 figures.
Card '2/2
s/i~.-,9/62/000/ocg/cc,-~,/cc,U,
E 19 V E531 3
AUTr,1CL-',S: Lidin, Doctor of Teclinical Sciezzmes Professor,
S*i11-rc:::e1l , ~;.A. and R3,11ni'mv, V.S. , Enrincers
0-
TITLE: Mizise-tranzf rmatiovis as -,ncans of i;-.i??roviii.- thc
strenCtl't of iron-clironiiuri anlloj~s
* E.1 10 D I C i, L: jL"CtC.JjoVCl_jCniyC -j tCrrjiCjjCSj~,-fya obralbotlm rictallov,
no. 9, 196Z, 3 - 13
* E:Cr T:iis article is concerned with iiirdenin~; due to
y ---~ a " -.-,-.ns--ormnt ion in "c;:irbon-f reel' iron-base alloys, i.e.
alloy-, containin- oucii a s;nall proportion of carbon (0-03
it affects, neither the temperature -nor the 7ziactics and
m -- trz-,a----fort;-,-tion. lnrge amount of
,.Cchnni~m: of tile 0~ -)y
&:~tt, 1;oth Sovip-t and foreign, is Cisciusrco and it-is
C021C1'1C1~-&-'1-LZ1t tie. co;isiCcrablc increase in strcn~--th of alloys
of (e.3. 111oY C31>e5 (CDKI-15) cont-nininc 0.02-6," C,
, Z,. -a d i) by
Q VvA N brou~-,ht about a
C.)21
S4 , C
(-,uc-ich1n,: and aoeinl~ at 20C - 300 0 C is associated inainly vrith
the sta.-e of poly~;onization- It is pointed out that
alt?,,ough t:~C 3.nCrCCISC in Stroligth due to WOrk-h,-trdenin~; a-LC. due
Card 1/5
to y->c7 t"a saine,
n Cal(I
nc t
Tiliz; 4 sclue to the basic differe. c 13C 1 n
the fi-a -;truct'urc 017 ~10:1C*Lled
forz-,:,ition brin.~;s a'Llout uni-forin
(!istri, jution of dislc,*C~.Atioil~; in t'le volume of the alloy ancl
al~ t!kc -)I- slip; tac- boundaricz of
con~~;ist of Of V:117i=~ t~'~)OS !:IliC*11,
conscc~-,-, linve -i-o-,: -iobility atncl cannot reaclily trcnns-for...~
i.-,to ~::Obile Thiz (4f-C--CICO 4S
reflec--cc, i.1 t-Lic stability off cucnChc,.,
w~ do:non--' t i-,
alloyr
curvc5 (:,'t-ress, vcsus lo~; time, ;-.1in) for CL110Y
(Sra~)!,, ~~) alle, alloy, 011.,\5j(- (~;raplhs) , .,ae V~ariouz Curves
to specim6hs subj'acted' to t'l-.c followino trcat.,-~ielIts:
0
auncalinc; at 500 C;
7C' i-a rollii,.-- follo,-.,cd by ain-,c,-linG
50c o".
a L The roli-,:a-Lion stability of Oucrched
forritic -.110yr. ~-,t 1!00 OG (under a stres5 of hC -to"
lower "Iiat of pearlitic steels- Similarly, the stref,:3
Card 2/7
RAKIZHTADT2 A.G.; SHTRDELI M.A.
Resistance of metals and alloys to small plastic deformations.
Motalloved.i term.obor.met. no&4:22-27 AP 162. (MM 1514)
(Dislo.cations In metals) (Nbtals-Hardening)
WN !MDUA
I.N.J. doktozo.teldin.nauk., prof.;. SHTREMEL'. M.A., inzh.;
RYLINIKOV, V.S., inzh.
Precipitation hardening of iron-chromium alloys. Yletalloved. i
texm..obr. met. no.9:8-13 S 162. (MUU1 16:5)
1. Nbskovskiy institut stali i splavov.
(Iron-chromium alloys-Hardening)
SIITRIIZIELS., M.A.
Origin of the elasticity threshold. Fiz. met. i metalloved.
13 n-o.6:938-940 Je 162. (MIRA 15:7)
. (Crystal- lattices)
(Elasticity)
5/126/62/014/ool/ol8/ol8
E193/F,383
AUTHORS: Rakhshtadt, A.G. and Shtremell, M*.A.
TITLE: The initial stage of stress relaxation in spring
alloys
PERIODICAL: Fizilca metallov i metallovedeniye, v. 14, no. 1,
1962, 153 - 157
TEXT:' The object of the present investigation was to
determine the rate of stress relaxation g and the residual
strain C in the initial stages of this process for alloys
OCT
listed in Table 1, where their composition is also given.
The experiments were carried out on flat test pieces in the
2
following manner: a given bending stress (in the 26 - 55 k mm
ranSe for Be bronzes) was applied to the specimen for 5 sec,
after which the load was removed and the residual stress
measured this procedure was repeated several times so that
C was measured on specimens held under a given st"ess for
OCT
a tota2 time ranglng from 5 - 1 200 see. The rate of
relaxation.was calculated from 4n~cl.6 t , where
Card 1/4
s/126/62/olVool/618/o18
The initial stage of .... E193/E383
C = Ci+l is the increase in the residual strain attained in
t:Lm e 4t It was found that for all the alloys studied the
time-dependence of E in the log c/log t coordinates
(at cr = const) was linear. Similarly, at any given moment
of t I log E increased linearly with increasing ~r , although
in this case the linear nature of the relationship was less
evident and the results were more scattered. A-general equat-ion
for the stress relaxation (under the conditions employed in the
pr, es ent lnvestlgatlon) was der:Lved on the basis of these results,
in th.e form: 0 C ko,
c - e M
t
or,
kcr t
C C (t + ce 1n - (2)
OCT OCT 0 to
Card 2/4
S/126/62/ol4/ool/ol8A18
The initial stage of .... E193/E383
-&-there t 5 sec . The values of constants C and k
0
for alloys studi-ed after various heattreatments are given in
another table, The expressions derived by the present authors
i-rere used to check the effect of stress relaxation on the
accuracy of data 'on the elastic limit obtained by a method
described by them in Zavodskaya laboratoriya, 1960, no.-6,' 744.
It was found that the error due to this factor was negligible.
There are 3 f1gures and 2 tables.
ASSOCIATIONS.,.~ No~kovskoye vyssheye tekhnicheskoye uchilishche
im. Baumana, (Moscow Higher Technical School
im. Bauman)
Noskovskiy institut stali .(Moscow Institute of
Steel)
SUBMITTED:- -October 31, 1961 (initially)
January 23, 1962 (after revision)
Card 3/4
-W
MIN, I.N.;__~Hl NEL' ~,M.A.~
Conditions for the formation of boundaries with large disorientation
angles. Kristailografila 7 no.6:899-902 IJ-D ~62. (MIPA 16:4)
1. Moskovskiy institut ste-li.
(Crystallization)
KIDIN, I.N.;.SIITREMELI, M.A.; GRUZDGV, A.P.
Kinetics of electric resistance changes in the nickel-chromium
solid solution. Izv. vys. ucheb. zav.; chern. met. 6 no.11:
186-193 163. (MIRA 17:3)
1. Moskovskiy institut stali i splavov.
..S/126/63/o15/oo1/olO/029
9111/9183
AUTHORS i3ernshieyng Mo L,:. and Shtreme-1 1.# '.)1* A&
TITLE: The - 11h,ere'ditary" influence of'work har4ening on the
rroperties of steel
PERIODICAL; Pi-zika metallov i metallovedeniye, v'. 1!;,* no.'l ,1963,
82-90
TEXT.:, Cold plastic deformation often-produce's effects on the
~Of steel w
properties hich '9u*rvive several phaserecrystallinations.
~This qould.Account for- the .'catter of teefrisults characteristic
of'bat'cheii of -Andusiria I st:els. A study -of-tho effect
--Prelim'inary work hardening on the tendency to temper brittlenexi5
of type' 40XW (4OKhN) ateels with addiiionis oflHo', W, Al iind - B
showed that.some-.effects persisted through. a series of' a y -+,ci
changes, and that'work'hardening*of steel in the austenitic state
had a part ictilarly-Marked effect.on the 'temper: brittleness 'afteir-
hardening, on-strefigth, and on fine structureoflthesteel*'
Thermo-mechanically created steels show, pfirsiatent, Ifinheri ed"
t
-effects, for'which the followilig specific feature's of structure-
ana transformation mec.hanisms. in-this treatment. are responoiblet
~Card 1/2
The ')hereditary"- infli6nce of work S/ 126/63/o 15/00 1/0 1,0/tiag
El 'll/EI83
Work har .dening reduces grain size, the fine grains generally
urviving a --jo y transformation unle 'as collective recrystallissition
an occur. . 2) The texture produced by work har.denlng "kes posse
ioperties'anisotropic.1.3).In addition to .-thiti. 'lerystallogrdphicu
exture '.there is *& Aldijklocation't. texture (non-uniform.distribut*on
U dislocations between.crystallographically 'pov~aihle slip sys.te"
ri*each.crystallIte and -a Iso re lative to -'the polycrystal an. W.
ole). .4) Finally:. -therd 'is a. '$pre .cipitatell texture which can
ise if the symmetry of form.,or lattice of,the prvdipitates In
wer.'than that of the matr ix; this. can lead to "inheri-ted" effecta
g...-in allo y.steel where- n6n-uniform- distribution of.-carbovi and'
Iloying elements persists for a -long time' after tl:i6 formatiotl of
stenite., promoting the*reatoration of th.e "precipitate's texture.
ter''hardening. There hre 6 figurei and 5 tables.''
SOCIATIONs Moakovskiy in.stitutstalil splavow
(Mosirow Institute. of Steei,And. AlloysY
BMITTED: Augtiste.-5, 1962-(initially)il
April 13, 1962 (after revision).,
rd 2/2
ACCESSION !,R: A24039276 S/0148/64/000/005/0124/0129
AUTHORS: Kidin, I.N.; Shtremel', M.A.; Chizhikov, V.Yu.
TITLE: Work hardening of a Ni-Cr solid solution during tempering.
SOURCE: IVUZ. Chernaya metallurgiya, no. 5, 1964, 124-129
TOPIC TAGS: work hardening, solid solution, Ni, Cr, plastic
deformation electrical resistivity, Suzuki segregation, recovery
A
BST-TZACT:., The authors observed the effect of the changes In the
resistance to small plastic deformations on the transformation in
the NI-Cr solid solution. The 100 x 2.5 x 0.2 - 0.4 mm specimens
had the following COMDOsition (19 weight) : 19.82-20.08% Cr; 0.018
0;
0.13-0.25 Al; 0.06-0.610 Ti; 0.08-0.'25 Si; 0.37-0.86 Fe; 0.07 Ma and:
0.09 Co. Water quenching from 900C and drawing with an 88-:"') re-
duction were follol-red by rolling the wire to a 0.4 mm strip and
tempering at 4oo,450 and 5000 for periods ranSing from 5 minutes
to 800 hrs. The elAstic limit, HV and electrical resistivity were
measured by standard methods Electrical resistivity increases
until the elastic limit is r;ached and thereafter, both values
:,-~ahange allelly. The authors assume that the increase In the
Card
'ACCESSION NR: AP4039276
telastic limit is affected by short-range order changes In the
~flrst coordination sphere and that hardness remains almost invari-
.,able. At the same time, Suzuki segregation occurs. Long-range
changes affect the entire deformation diagram but not simul-
~taneously -and not necessarily in the same direction. The probable
icombinations of wo3:14-hardening and recovery processes are evidently t
!greatly influenced by the character of ordering (homogeneous-and
:inhomogeneous), domain sizes, and the type of anti-phase bounda-
wries. The authors recommend further inveStigatiOrL of the kinetics
:of work-hardening alloys during ordering and of the calculation
of the strength sharacteristics in the region of very small and
very larGe plastic deformations. The orig. art. has: 5 figures and
2 equations.
ASSOCIATION: Moskovskly Institut Stali I Splavov (Moscow Steel and
Alloys Institute)
~SUBMITTED; 280ct62
T- ENGL: 00
fSUB CODE: MM NR REP SOV: oil OTHER: 010
2/2
ta ov,i; ~46A~niy,e`
SOURCE: niikai me 11 mcilta 9 '116. ~2.:106s
TAGS:: -austemite chiomitrut ---allpy disla,
TOPIC
n An'. attetVt to del
AlIzat tk.,e~~ wfi~il
A wheth,dr"phade 1-ark
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L'397-
NR'
ACCESSION.,
V115006329
-MSOCIATION:- m6skovskiy~ --df;-SteiA--,'at
liovs)
SLIBMITTED.'~ 3 1J 6
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I
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me bf th6 liiiiti an modulus -of
TITLE, astirement
than 200 on thick
mici
SOURCEi lavWska Iya 3Ab6r-ati V -31 ~-,-'n,o' 2`1~65~,
9r. ya
10
i-:riWid'al: de
MCT- ~Cp9n
olir~
OR
6
397 7~-65~:.
L
ACCESMON M.: -,AP5005481
nthe*strip' The latte iiii A'tic, if dului3
6f
"on the Xncio.4rurs~-,- or
which was,measured.as-s owfi
ticitj
gebmetX7 E 16:9 vGn
V~N~_
4
~J
The~methods ands
appardtoo_,vere Buss vito measure.Ahd 41astid -and
d
eUSt ity'a a functioti':o em, A x
rt M-m a :8a1
ic per,
8 Okijg. -AA. A 9-
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fIlliiw4s.an
7
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NO, Ia SOV-
~l ",A
!l:
~:Cord 2/3,
99 C WTI-
j, Tq6R3-65 E,iT(d)/E,'iT(m)/E;ViP(W)/EPF(G)/U,'IA(d)/E,VP(t)/E~'iP(Y)/ P k
Pf-VPvb HJIV/JD/Wlj/Ell
U
'~Crc.';"ION I(Rt AP5006390 S/0148165/000/003/0157/0160
'9.
Ay~Hoftz AndroZov Yu. G".1 Kidin, 1. H.j
0 V Ahrremal'. 11. A. /;z
TITLZ: HrAt treAtnnnt/
.~y electrical heating ;of th $too
souRcr: IVUZ. CharnAyis metallurgi:ia, n~. 3. 1965, 157-16*0
t
TOPIC TAGSt high strength 3teoA lactrical heating, superstrength
nteal. steel heating, low alloy at(jol, cor3plex alloy steel, steel
t
heat treatnent. conventional heatiag, steel strength,, steel ductilit P,
Stc6l hardness
57171AC~: Conventional heat treatment of large weidad'supe retre
t
Ott
difficulties since the shells require protection
-1 ft- ntion~hnd decarburization. Therafore,an attempt has
12C oxid
~uen anda. to uaa rapid-rato electric heating without a Prot ctive
nt-moaphare VdCUUn. Spocimongl/of cold~rolled. Annealed
louperntrnngth ptoel 3.3 x,9.2 x 320 mm-Were-restst ~C*
with An 41tUrtlating current of 50 cps to 'tampentures 94
1 to 250C at-a. rato of 7SC/soc and aLr cooled at a rate varyJag Ir
se
L "q1588-65
ACUSS 10 UNR I AP5008390
50 to BOC/aoc. The resulting steel structure and properties were
conpared with. those obtained with conventional heat treatment
(austenitizing at 940C for 40 min in a vacuum of 10-2 Tim 11C fq~llowsd
by air cooling). It was found that the surfaca microhiirdnessf%ras
70 11
a 2~Otlower than the core microhardness in specimens ele-c-CrIcally
1
1C ta o 1100CO as compared to 120 11200 in tho ge corventionally
haat treated; but in both cases the decarburizationtextended only to
a depth of 0.04 mm. The hardened specimens were tempaved in &L-r at
200-600C for 1 hr (at 300C, for up'to 4 hr). No significant differ-
ence in the microutructure of electrically and conventionally heat
treated apacimena was observed. Electrically heated (I:o 1100Q
spacirzons, however, had a mean grain diameter of 8 is, its compared
ith 11 P in conventionally heat treated specimens ' The hardness
obtained by conventional hardening from 940C can b. achieved by
electrical heating t& 1100C. Specimens electrically hoisted at a rate-
Vof 75C/sec to 1100C.air cooled and tampered at 300C for 4 hr had
a tensile strength of 192 kg/m.2, an elongation of 3.4%, a reduction,
of area of 342, and a band angle of 33% coupared to 193 k1lifiana,
3.4Z, 33Z, and 26* in conventionally heat treated steel. There are
two groups of nArtenaitic s~Yith a tensile stranglA of up to
'Card 2/3
10
1 -L 39683-b!?
ACC" SS 1011 HR IAP5008390
k -M
200 32-. Th VKS-l is a comparatively low-alloy steel which.
conlain only 07.07% V and 0.50Z Ito and acquires r: high istrength with
tempering below tha temper brittleness range. For steels of this
Croup, tho. uce of electrical heating has definite advanicages. Steels
of the second group contain 1-2Z Ito and less then 0,.5% V and require
tcnpering at about 500C, Electl~'ical heat treatment of is typical I .
ateal of this,group, 40Kh5SI11F '(Vascojet 1000) steal containing t
6, sharply increased-the embrittlemetit in the
0.43Z V and 1.272 V
aKrange and produced a strength 10-30 kg/mm2
lover than conventional h*4t-tr&atmsnt.,:.RrL&. art. hasi 2 figures
and I table. IMS)
ASSOCIAT1011i HookovskLy institut stalt L splavov INgIg!)w Institute.
for,Stoal and Alloys)
SUBMITTEDt 02Jul64 ENCLt 00 SUB COM HN, 19
NO KEY SOV& 002 OTHERt 003 ATD PRE93i 3M
I Card 3/3'
ALEKSEYEVA. Te.A.9 insh.1 ORUZDOV, A*P.0 inab.; WIN, Te.P,O insh,j XONOVALOVA,
I.No. insh*j MAKSIMOVA, OeVe. inzh,; SHTRWI-1, M6A.v inah.
W
Temperature* dependence of elastic properties of thin-sheet spring
alloys. Priborostroenis noo9t25-27 S 165.
(MIRA 18110)
L 6326-66 EWT(1)/FWT(m)/T/EWP(t)/EVIP(b)/FWA(c-) IJj?(c)
ACCESSION NR: Ap5oi9868 UF/o181/6,r/OQj/668fi468fi4~2
AUTHOR: Shtremell M. A.
TITLE: Kinetics of formittion of Suzuki segregations
6
SOURCE: Fizika tyerdogo tela, v. 7, no 8., 19 5, 2488-2492
21' tay alloy
1; IV
TOPIC TAGS: crystal defectp SM a _aF"TQQ91,W, -p pical diffusion, binary
ABSTRACT: The stacking faults produced by s$litti~g of a dislocation is regarded
by the author as a sink for Impurities; the capacity of the sink'is-,,determined by,.-,'
the known equilibrium concentration.is Suzuki segregations (H. Simuki, Dialocations....:.],
and Mechanical Properties of Crystals, wiley, iqr, 195T; J. Pbys Soc. Japad
po 361,
v. 1T, 322, 1962). Solution of the corierporiding.diffusion equation yields the
dependence of the degree of the, filling of the stacking fault by.. the _ impurity, on.
the time and on the width of thestacking fault.- The influence of the dislocation!
stress field on the rate of formation of.Suzuki segregations, an influence that.
depends on the difference in the atomic radii of the com
ponents,is estimated.
During the initial stage of the process.4 the Cottrell sink, influlariev-s:.the kinetics
of the Suzuki process only in rare cases; during the later stages,as a rule, the
Cottrell and Suzuki processes interact strongly. Hardening dueto Suzuki segreg~
tions can be connected not only with the concentration of the ilqp=ity~ but also I_
Card 112
L 15224-66 EYJrr(M)Zr`,','2L'-_~&Y~) A-/E1.'.Tr.(t
1 AEC-NRT-KP5028963 SOURCEIZ-10D : UR
5/0027
AUTHOR: Alckseyeva, Ye. A. (Engineer); Gruzdov, A. P. (Engineer); Il'inA Ye. P:
(Engineer); Konovalova, I. N. (Engineer); Maksimova, 0. V. (Engineer);
1/121)
Shtremel',_.M A. rngineer)
ORG: none
TJTLE: Effect of temperature an elastic properties of thin-sheet spring alloys
/4
SOURCE: Priborostroyeniye, no. 9, 1964, 25-27
ITOPIC TAGS: spring, measuring instrument, industrial instrument
ABSTRACT: The results are reported of measurements of the elastic limit en, (with
residual strains of 0.01 and 0.00516) and elasti ty modulus E in bending"of 35,!420-
Micron thick m) of BrOF6, 5-0, 15','BrKMTs 3-1' BrB2,
bspeci.piens (I~x 100 Tn
NIS Alloy at t
BrBNT 1, 9 bronzed, _60S2, EI814 steels, nc[-NY6KhTYu emperatures
tKat ranged from -7U(; to +150 or +500C. Also, the ultimb:te strength a. and the
yield point q.., of 0. 1 x 10-mm 57-mm long specimens were determined. All
spe,r~lmens were thermally treated according to specifications normally used in the
upg: bzu. 117., Z&: 0
ACC NRi AP50Z8963
instru ment- making industry. The numerical findings are reported a the form of
curves. It in noted that many specimens suffered brittle fractureol artly due to their
thickness nonuniformity and high width-to-thickness ratio. Orig. art. has: 7 figurea
and 1 table.
SUB CODE; 11, 13 SUBM DATE; none ORIG REY: 004
Card 7/2
LEVYKI111, Fedor Vasillyevich, kand. tekhn. naak; IIATVEYEV, Aleksandr
Nikolayevich., inzh.; SHTR&ER Y ikQ2ayAyjqh, inzb
GUREVICHY A.K., inzh.'~, Metse=zen ;VZUBLEVSKIY, S.I.I., inzh.,
red.; USEITKO, L.A., tekhn. red.
(Flaw detection in locomotive parts] Defektoskopiia detalei
lokomotivov. Moskva, VSes. izdatellsko-poligr. ob"edinenie
1.1-va putei soobshcheniia, 1962. 127 pe (MIRA 15:5)
(Locomotives-Inspection) (Magnetic testing)
(Ultrasonic waves-Industrial applications)
SHTHPIKPL."IR, I.I. (-,. Lentanoll Frunzenskoy oblnsti)
- ~
Simle P-nerimnents 0.1 the thpme "Pro-nerties of ions." Knim. v shkole.
no.2:65-66 Mr-An ' 519. (mr" 11:3)
(ions)
EMYCIW. V.V.; GOLOVIN, G.M.; ZURKOV, P.R.; XLRPOV, A.F.-, XI-
KOLISKIY, N.A.; OGIYBVSXIY. V.M.; POPOV, S.I.; TRIMS, M.N.;
WITOV, I.S.; SEKTRWT, A.A.; ZURKOV, P.'B.. kandidat tekhni-
cheakikh nauk."Fg~i blWASITM, V.P., kandidat tekhni-
cheakikh nauk, retuenzent, VAGABOV, P-V-. kwAidat takhnichookikh
nauk, retsenzent; IKONNIZOV, A.N., kandidat takhnichaskikh nauk,
retsenzent; SAUMT, I.G., k-Awlidat takhnichookikh nauk, reteen-
zent; NIKOLLYIV, S.L. retsenzent.
[Mining iron ore by the opencast method] Razrabotka zheleznykh
rud otkrytyu sposobon. Pod. obshchei red. P.B.Zurkova. *erdlovsk.
Goo. nauchno-tekhn. izd-vo lit-ry po chernoi i tavatmoi metallur-
gii, 1953. 632 p. (KIBA 7:8)
(Iron mines and aiming)
t~p. rE It
ztf!
r, ti JW);~Zryw Apr
'Itl e of Wark gclx~ L
Zurkov, F.E. "The Workin- of Iron Ores Magritogorsk Mining Me t~d-
Popov, S. 1. by the Open Pit Yethod" lurt:ical Institute imeni
Gclogin, G. Y. G. F. Nosov
Kar,volr, A.F.
N ikol I s kily, IT A.
Shitov, I.S.
Bulychev, V.V.
Ogriyevski,r, V.Y.
Treyvus, 1M.N.
Shtremt. A.A.
r
Trof '.-.iov, G.V.
Pushkarev, G. I.
Mz-xka.all, N.Ye.
Tikhovidov, i.I.
15-57-1-1111
Translation from: Referativny zhurnal, Geologiya, 1957, Nr 1,
P 177 (USSR~
AUTHORS: Treyvus, M. N., Shtremt, A. A., Sadchikova, T. A.
TITLE: Technical Normalizing of Drilling Through the Unstable
Rocks with Cable Rigs in the Magnitogorsk Mine Field
(Tekhnicheskoye normirovaniye bureni3ra peremezhayush-
chikhsya porod udarno-kanatnymi stankami na Magnito-
gorskom rudnike)
PERIODICAL: 5b. nauch. tr. Magnitogor. gorno-metallurg in-t
1955, Nr 9, pp 168-184
ABSTRACT: Bibliographic entry
Card 1/1
I.YUTYI, T.P.; KHARITONOV, V.P.; SIITRFI-IT, L.P.
Glass reinforced plastics with a new organosilicon binder. Zhur.
prIkI. khim. 38 no.5:1131-1133 My t65. (M1W. 18:11)
1. Institut khinii sMkatov imeni I.T. GrebenshchLkova AN SSSR.
also-gives lower,water and benzend absorp
im 'll.:Asb
a 6stos--coneentrationAs 30 ~:Ori
t
ASSOCIATION:. Institut:'khimil
(Institute of Silicate Chemistry AN'SSSR)
V
~i'm zssk,
U B- - COD' E
SHTREYS, A.F., mekhanik.
Cleaning the screens of auction valves of circulating pumps.
Inergetik 4 ne.4:17-18 AP 156. OaBA 9:7)
(Valves)
SHTRZYS, A.I., dotsext.
~_-,
Problems of sanitary planaing &ad the organization of-public health
services in Petersburg In the works of A.P. Dobroslavla. Trudy
ISGKI 14:195-'206 053. (MM 7:9)
(Leningrad--Pablic health) (Public health--Leningrad)
SHTRZYS, A.I., dotsent.
~1, 1 -. _... _, -~ -,~L,
History of water supply of the Crimean steppe zones. Trudy LSGKI
14:228-250 153. NUIA 7:9 )
(Crimea--Water supply) (Water supply--Crimea)
SMUTS, A. 1.
Construction of hospitals in Leningrad and its immediate problems.
Trudy LSGKI 26:213-230 156. (KIRA 10:6)
1. Kafedra kommunallnoy gigiyeny Isningrodskogo sanitarno-gigiyeni-
cheskogo meditainskogo institute. Zav. kafedroy - prof. P.K.Aggeyev.
(HOSPITALS,
construction in Russia (.Rua))
SHTUY~;, A. 1. . dot a a zit
Sant ation in Petersburg; on the 250th annivera6r-j- of the foundation
f the city. Gig. I san. 22 no.9:42-46 S 157. (MIRA 10:12)
1. 1z kafedry kommunallnoy gigiyerky Leningradskogc sanitarno-
gigiyeatcheskogo meditsinskogo instituta.
(PUBLIC HEALTH, hist.
mad. & sanite serv. in Russia In Petersburg)
SBTRSYS, A.I., dotsent
Sanitary work in Leningrad during the forty years of Soviet rule
(1917-1957) Gig. i san. 22 no.11:49-54 11 '57. (MIRA 11:1)
1. Iz kafedry kommunallnoy gigiyerV Leningradskogo sanitarno-
gigiyenicheskogo meditsinskogo institute.
(SANITATION
in Russia (Rus))
SHTREYS, A. oc Med Sci -- (diss) " Historical survey
A
OL /,',Y tk~
of hosp.- in Lenin,,,-,rad andgap&4.,vr~r evaluation
of Um hospital fre4ee4e." Len,1958. 34 pp (Mim of Health
RSPSR. Len Sanitary W=Med Inst). 200 copies.
(KL, -12-58, 101)
_72-
SHTREYS, A.I., dots.
. - - am"
Role of S.P. Botkin in the development of the hospital systems-
Zdrave'Roe.Fed. 2 no,9:39-40 S'58 (MIRA 11:10)
1. ,z kafedry kommunallnoy gigiyeny Leningradskago sanitarno-
gigiyenicheakogo meditsinskogo inotituta.
(BOTKIN, S'SRGF-I PETROVICH,, 1832-1889)
(HOSPITALS)
SHTREYS. A.I.
Oldest hospital in Leningrad; on the 250th anniversary of the founding
of Leningrad* Sove-zedo' 22 noo7:151-153 J1158 (MIRA 11:10)
1. Iz Icafedry kommunallnoy gigiyeny Leningradskogo sanitarnogo
gigiyenicheskogo meditsinskogo inatituta*' .
(HOSPITALS,
O'bukhov Hoop., Leningrad (Rus))
SHTREj�,,._Aj,., dotsent
Views of II.I. Pirogov on the hospital layout. Gig. i san. 23
no.11:43-45 N 158 (HIIA 12:8)
1. Iz kafedry kommunallnoy gigiyeny Leningradskogo sanitarno-
p,igiyenicheskogo meditsinskogo instituta.
(HOSPITAIG--COMT.RUGTION)
SHTRRYS, A.I.
Principle of individual isolation in hospital desiga [with
summary in English]*' Trudy LBGXI 44t86-98 158 (MMA 11:12)
1. Kafedra kommunallnoy giglyeny Leningradskogo saaitarna-giglye-
nicheshogo meditsinskogo instituta (zar. kafedroy -,prof. P.K. AgeVev),
(HOSPITALS ADKINISTRATION
principle of individual Isolation in hoop'.design (Rua))
~HT.Rxmlj.,41., dotsent
Hospital hygiene in the work of A.P. Dobroslavin, Gig* i san. 24
no.4-.37-40 Ap 159. (NIBA 12:7)
1. Iz Imfedry kolmmnalftoy gigiyeny LeningradBkogo sanitarno-gigi-
yenicheakogo meditsinskogo instituta.
(HOSPITAIS,
contribution of A.P. Dobroslavin (Dis))
(BIOGRAPHIM,
Debroslavin, A.P. (Ras))
SHTREYS, A.I., doteent (Leningrad)
Standard designs for municipal and rural hospitals. Sovadray. 19
no.1:30-36 160. (MIRA 13:4)
1. Iz kafedry kommmmllnoy gigiyany (zaveduvushchiy - prof. P.I.
Aggeyev) Leningradskogo sanitarno-gigiyenichoskogo maditainskogo
institute. (direktor - A.Ya. Ivanov).
(HOSPITALS--CONSMCTION)
SHTREYS., A.I., dotsent
P3~pblems of sanitary practtice in the work of G.V.Khlop-*. Gig.i
san. 25 no.8-33-35 Ag 160. (MIRA 13::Ll)
1. lz kafedry kommunallnoy gigiyeny Leningradskogo sanitarno-
gigyenicheskogo meditslLskogo institut4L.
(SANITATION) (KHLOPINp G=ORII VITALIEVICHY 3,86.3-yl9271
SHTREYS A.:~.
- . - - y- _
Hygienic problems in connection with the new design plan for the
development of Leningrad. Trudy LSGMI no.68:8-15 161.
(MIRA 15: 11)
1. Kafedra kormmmallnoy gigiyeny Leningradskogo san'Ltarno-gigiyeniche-
skogo meditsinskogo instituta-(zav ' kafedroy - prof. A.I.Shtreys)i
(LENINGRAD-CITY PLANNING) (PUBLIC HEALTH)
GORWOSOV, M.S., doktor med. nauk; DANTSIG, N.M., prof.; KYUPAR,
A.I., sanit. vracb; MINKH, A.A., prof.; PROKOFIYEV, A.P.,
dots.; SILIVANIK, K.Ye., doktor med. nauk [deceased];
UVAitOVI M.M., kand. mod. nauk; SHAFIR, A.I., prof.;
SIITRLYSP A.I., prof.; KIIOTKOV, F.G., prof., otv. red.;
SEERSKE=T-l'.G., red.; i(OMANOVA, Z.A., tekbn. red.;
MIRONOVA, A.M., tekhn. red.
[Manual on communal hygiene] Rukovodstvo po kommunallnoi
gigiene. Moskva, Medgiz. Vol.3.(Hygiene of residential
and public buildings] Gigiena zhilykh i obshchestvennykh
zdanii. Red. toma Goromosov i A.I.Shafir. 1963. 486 po
(MIRA 17.2)
1. DeystvitelInyy chlen AMN SSSR (for Krotkov). 2. Chlen-
korrespondent AMN SSSR (for Minkh).
;cup 0 Is it 0
! '
' ! ? It ! TV ON &T 0
2 c 0 Ef G Is X L a 0 0 1. 1 S T IN ~
-I , I I
WD ttfftl V.
AIMHALI M64I
lanIV1111,11 111ISS"ITIM TIVINST
eels
00 ?
Marleveit. N. G., and Sktt*W N. JL DA LIMBS: U(A~
PALMOZOIC HAMMES OF THE SAiMERM SLOPE OF TUB URALS
AND TH! STRATIGRAMY OF TUB Wictosmc; Sam Tram.'
o6z All. 11mow Sei. Rejearch ]out. Econ. MixeraL (U.S.S.R.).
002 \o. 112, 3-47 (1937) (in Rnqlish, 47-50).-The narrow
t
i
f
hi
i
I
sob nter-
w
t o
wil
mentary Palcotoic formation, stretc
ng
i
h
h
k
h
f
f
TEe7CMil,"__`pTWxes
ffeliii~Wtment by effusive rocks
I s o
m
ttently t
rough t
e field o
grectuitone roc
e
t
wasstudied
The deposits of the sectionsexamined
region .
for any given horizon always remain constant. Dauxit
.
. deposits occur In the upper Ludlow
ortiou and
hiefl
J
th
%howed highly uniform stratigraphic succession. Within e
c
n
p
y
D
" f
l
IL 041
eon the same section some local sudwe alterations occur
with ower
evon
ormAtions. The bauxite bed proper can
002 petrographic changes of limestones. or. more rarely, with besubdivided into three parts: (1) the boti&OU underlying
"
" !J ^*6
9= the Ore-bearing stratum of
bauxite bteecia.
which is
coo'
fined to the lower portion of the de
it
in th
coo
40 0= pos
;
e upper Part
of the weathered sone a crast-like bauxite is developed;
= 9 (2) the ore-bearing horizon of uniform basteitc beds of the
red variet
h
i
(3) th
d
l
h
00 or
e
zon un
et
y;
e me-bearing
ying t
*OR strata. consisting of alternating layers of clan bawites
and dark bituminous limestones. Thus. the deposits of
the entire region show a number of common realize , the
chief of which are their occurrence sunong the beds sizogge,
00- strat hically 2nd lithologically (with the only exception
oo~ ofth Elkino deposit of an older age) and the similarity of
th
o
t
t
h i
hi
f
h
d
00. e
n s
ruic
ure. w
s o
c
e
t
weted Led oslitic nature
.
00- containing coral fauna. The data c6tained
coo&=
M =
the Arkhan
elsiLif th
f
h
di
;
00- eory o
t
e it
mtst
g
ormation of
F
hausites in the region as the result of normal marine dep-
O11tlOG. Ir
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if the lillp'ttit, tvp~
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nYVE, A V SHTR~E.. ~,.A.,,red.
[Tectonics of the bauxite belt in the northern Ural Mountains]
Tektonika Severourallskogo boksitovogo poiaza. Moskva, Izd-vo
Mosk..ob-va isp7tatelei prirody, 1947. M P. (Materialy k
poznaniiu geologichemkogo stroaniia SSSR, no.4). (MIRA 11:4)
(Ural Mountains--Geology, Structural)
(Bauxite)
SHTREYS, N.A.; KOLOTUKRINA, S.Te.
Geological structure of the Ortau and Kos4hwun Hills in the
Zhana-Arka District of Karaganda Province. Trudy Inst.~$.49nauk
no. 101:69-124 148. j (KIRA9:12)
(Zhana-Arka District-Geolog7, Structural
SHT,,I-;-'YSQ, N. ,r.-
I'Stratigraphy and Tectonics of the Middle Section of
the Ural Mountains." Thesis fcr degree of Dr. Geological-
i-lineralogical Sci. Sub 3 Jun 49, Inst of Geological
Sciences, Acad Sci USSR.
Summary 82, 18 Dec 52, Dissertations Presented for
Degrees in Science and Engineering in Moscow in 190.
From Vechernyaya Hoskva., Jan-Dec 19TI-9. 1
') r-, i .-I" I I ,-.
Geography & Geol-og-
. y
(Stratigraphy anA tectonics of the greenstone Delt of the mirldle Urals) Moskva, Izd-vo
kkademiya Nauk SSSR. Vol. '), 1951.
9. "VINTHLY LIST OF RUSSIAN ACGESSIONS, Library of Congress, -Tuiv 1952,.- Uncl.
,VCZ IT
qUr,T7~A-
The Cawdttee on Stalin Prizes (of the Council of Ministers USSR) In the fields of
science and Inventions announces,that the'tb1lowing scifttifie vofts, popular scien-
tific books., and textbooks have been submitted for competition fcor Stalin Prizes for
the years 1952 and 1953. (Sgvet!~W raltars. Moscov., So. 2240, 20 Feb- - 3 Apr 1954)
Nam Title of Work Nomilm Lt"
Shtcoys, U. A. ~_,_i(t Tectonic,3 Institiite of' Ge6lo6ical Sciences,
of the Greenstone Belt of the Acaclemy of sciencen USSR
Cent-:al Urals"
SO; W-306D4s 7 JWv 1954
Em V, M.P.; 9 B.M.; SHTRM. N.A.
Geological fornations (results of the confe7ence on for=tions held in the
Western Siberian Branch of the AcmienLy of Sciences of the U.S.S.R.). Izv.
AN SSSR. Ser.geol. no.4:147-150 Jl-Ag '53. (HLU 6:8)
(Geology-Congresses) (t;ongresses-Geology)
PMYVE,A.V.; KHERASKOV,N.P.; SHTRSYS,N.A.; YANSHIN,A.L.
Nikolai Sergeevich Shatskii; on the occasion of his 60th birthday.
Izv.Ml SSSR. Ser.geol.20 no.5:3-13 S-0'55- (MLRA 8:12)
0
(Shatskii, Nikolai Sergeevich, 1895-)
MASLOV. V.P.; SHATSKIY, N-S., akademik, glavnyy redaktor;
otvetstvennyy redaktor; IL'INL, N.S., redaktor izdatellstv&;
DYCHUK, L.P., redaktror izdatelletya; WHIM. P.S., tokhnicheskiy
redaktor.
[Fossil calcareous algae of the U.S.S.R.) Iekomape" isvestkovys
vodoroali SM. Moskva, Izd-,vo AWemii nauk SM, 3.956. 300 P
(Akademiia nauk SSM. Institut geologicheekikh nauk. Trudy, no:1.60)
(Algae, Fossil) (KWA 9:12)
SH.hTSKIY, N.S.; BOGDAITOV, A.A.;BELYAYEVSKIY, N.A.; TE]RESHCEAGIN, V.I.;
ZAYTSEV, N.S.; KOSYGIN, Yu.A.; KROPOTKIN, P.N.; MURATOV, M.V.
NAGIBINA, M.S.; OGNXV, V.N.; PAVWVSKIY, Ye.V.; PEYVEE, A.V.;
PUSHCHAROVSKIY, Yu.M.; SALOP, L.I.,; SOBOLEVSKAYA, V.N.;
IUIRITONOV, L.Ya.; KHMUSKOV, N.P.; SHEYh-MLN, Yu.M. SaTRFIS.,N
YANSHIN, A.L.; VERSTAK, G.V. redaktor Izdatel'stva; GUIOVA, O+A"
tek-hnicheskiy redaktor
[Tectonic map of the U.S.S.R. and adjacent countries ou a scale of
1:5.000,000; explanatory notes] Tektonicheskaia karta SSSR i
soprodellnykn stran v masshtabe 1:5,000,000; ob"iL%snit,9l'naia
zapiaka. Moskva, Gos. nauchno-tekhn. Izd-vo lit-ry po geol. i
okhrane nedr. 1957. 77 P. (MLRA 10:5)
1. Akademiya nauk SSSR.
(Russia--Geology--maps)
SAIPIANO, Tat!yana Alekseyevna; KORZHINSKIY, D.S.. akademik, redaktor;
BMfEMAN, I.D., doktor geologo-mineralogicheskikh nauk, redaktor;
VAKHRAMEYJCV, V.A., dokior geologo-mineralogicheekikh usuk,
redaktor; GROKOV, V.I., doktor geologo-mineralogicheskikh nauko
redaktor; KNI-TAR. B.N.. doktor geologo-mineralogicheEkikh nauk,
reda kt or ;INBEDIV, A.P.. daktor geologo-mineralogicheakikh nauk.
redaktor; MAIN. V.Ye., doktor geologo-minerelogicheakikh nauk,
redaktor; N.A., doktor goologo-mineralogicheek-ikh nauk,
redaktor; YABLOKOV.--T-.r.. kandidat geologo-mineralogichaskikh nauk,
redaktor; KCRMN. R.L., kandidat biologichpokikh mauk, redaktor-,
VAYSHAN. L.S., nauchnyy sotrudnik., redaktor; SIAVYAUCIVA, N.Y.,
nauchnyy sotrudnik. redaktor; IAMHINSXAYA. Te.V.. re&ktor:
TUMMINA. N.A., teldinicheskiy redaktor
CEnglish-Ruasian geological dictionary] Anglo-russkii geologicheskii
slaver'. Pod red. D.S.Korzhinakogo i dr. Moskva, d6a. izd-vo
tekhniko-teoret.lit-ry. 1957. 528 P. (XL'RA 10:7)
(Nnglish language--Dictionarieo-4tussian)
(Geolom-Dictionaries)
KHOM.ENTOVSKIY, Ysevolod Vladimirovich; SHATSKIT, N.S., akadezrdk, g1vanyy red.;
otv. red.; XOTLYARIMMA, P.S., red, 12d-va; RYLINk.
TU.V., tekhn. red.
[Geological structure and development of the ]hot-Ural anticlinorium
in the central Ural region] Geologicheskoe stroenle i istorila
razvitiia Tostoahno-Ural.lskogo antiklinoriia,na Bredrom Urile. Nookwa,
Izd-vo Aked. nauk SSSR, 1958. 68 p. (Akademlia nauk SOR. Geologiche-
skii institut. Trudy, no.7).. (NM 11:5)
(Ural Mountainxegion-Geology)
FOKROVSKAYK, Nina Vasil 'yevnEq-SOR~YS. N.A.,otv.red.; CMIPIKOVA. I.M.,
red.izd-va; MAJONI, YE.V.,tekhn.red.
[Agnostidae of the middle Cambrian of Takatial Agnostidy atrednego
kembriia IAkutii. Moskva, Izd-vo Akad. nauk SSSR. 1958. 95 p. ,
(Akademiia nauk SSSR. Geologicheskii inatitut. Tnidy no.16)
(MIRL 32:11)
(Takutia-Trilobites)
SMEYS, A.I., dots.
An old hospital for treating communicable diseaso; on the 75th
anniversary of the S.F.Botkin Hospital in Leningrad. Sov.med.
22 no.3:138-141 Mr 158. (MIRA 11:4)
1. Iz kafedry kommiln l1noy gigiyeny leningradskog-o sanitarno-
gigiyaniche5kogo meditsinskogo institute.
(HOSPITALS
S.P.Botkin Hosp., Leningrad (Rus))
SHATSKIT, U.S., akadamik, otv.red.; KELLER, B.H., dokto2.- geol.-min.nauk.
red.; HANNZR. V.Vv, prof.. red.; RAABEN, Me., kand.gool.-min.
nauk, red.; MURSTS N.A., doktor gaol.-min.nuWc. red.; CHXPIKOTA,
I.M., red.izC-_ia; MAIM6fi-61H. S.G., tekhn.red.
(Late Pro-Cambrian and Cambrian stratigraphyl Stratigraftis
pozdnego dokambriia i kambriia. Koskva, Izd-vo Akad.nauk SSSR.
ig6o. 207 P. (Dokledy sovetskikh goologov. Probleds 8).
(MIRA 13:10)
1. International Geological Congress. 21st, Copenhagen. 1960.
(Geology. Stratigraphic-Congresses)
PSM, A.V., otv.red.; DEWUSOV, V.V., red.; FADYNSKIT, V.V., red.;
MD1, V.Ye.. red.; SHATSKIT, X.S., red.;
red.; TMSHIN. A.L.. red.; PMCHAROVSKIT, Tu.K., red.izd-ve;
VOLKOVA, V.V., takhn.red.
[Structure of the earth's crust and the deformation of rocks]
Strukturs zemnoi kory I deformateii gornykh porod. Moskva.
Izd-vo Akad.nauk SM, 1960. 239 p. (Doklady sovetskikh goologov.
Problem 18), (MM 13:10)
1. International Geological Congress. 21st, Copenhagen, 1960,
(Geology, Structural-Congresses)
PAVLOVSKIT, Ye-V.; BETREYS, N.A.
Fourth session of the International Association for'the Study of
Crustal Subsurface-Zones. Izv. AN SSSR. Ser. geol. 25,no.2:125-128
F '60. (KIRA 13:10)
(Geology)
SBATSKIY, II.S.; KORZHIIISKIY, D.C.,Ji YANSHINj A.L.; MITE, A.V.; -- SRTRWS,
-,N.A.; YABIDMV, V.S.; TMOMIROV, V.7.
N.V.P.rolova (1907-1960); obituary. Izv. AN SSSR. Ser. geol.
0 25 no.9:135 S 1606 (MIRA 13:9)
(Frolova, Ratallia Vasil' evna, 1907-1960)
MARKOV, Mark Solomonovich; SHMEB F.A. otv.red.; TUGOLFSOV, D.A., red.
izd--va; YEGCRGVA, N.F.,, takhn--.-r-ed-.
[Tectonics of the southern part of the KarBakpay synclinorium)
Tektonika iuzhnoi chasti Karsakpaiskogo sinklinoriia. 140skva,
Izd-vo Akad.nauk SSSR, 1962. 138 p. (Akademila nauk =R.
Geologicheskii institut. Trudy, no.72). (MA 15:7)
(Karaganda Province-Geology,, Structural)
KNIPPER, Andrey Llvovich;,~~ S, N.A., otv.red.; PEYVE, A.V., glavnyy red.;
MARKOV, M.S., red.; MEIFn~~,-'V.V., red.; TIMOFEYa, P.P., red.; AN-
DREYEV, Yu.K., red.izd-va; RYLINA, Yu.V., tekhn.red.~
[Tectonics of the RAykonur synclinorium (central Kazakhstan).]
Tektonika BaikonurMwp mInklinoriia (TSentrallnyi Kazakhstan).
MoskvB, 1963. 202 p. (Akademiia nauk SSSR. Geologicheskii insti-
tut. Trudy, no.90). (MIRA 17:2)
1. Chlen-korrespondent AN SSSR (for Peyve).
HL'Y,AYEVSKF--", N.A., otv. red.; I-EYTES, A.M., otv. red.: SHMT,1WU4,
BOGD'A~ov)
Yu.i.l., otv. red.; BELOUSOV, V.V., red.;
A.A., red,;
Gk,'V - IY, R.G., red.; GUBII'.*, I.Ye., r J.; LROPCTYJ1~, P.N.,
T,)K ea
red.; 11AZAi-tOVICH, O.A., red.; MUHA`TOV,".V.,
red.-;,44 ri
red.; FIKOLAYEV, N.I., red.; PAVLOVSKIY, Ye.V., red.; PEYVE,
A.V., red.; PETRUSEVSKIY, B.A., red.; PUSHCMOVSKIY, Yu.M.,
red.; YANISHIL, A-L., red.
[Tectonics, igneous activity and distributicit of ore deposits;
materials] Tektonika, magmatizm i zakonomernosti razmeshche-
niia rudnvkh restorozhdenil; materialy. Moskva, Nauka, 1961f..
237 P. (MIRA 17:8)
1. Soveshchaniye po problemam tektoniki, Moscow, 1963.
MURATOV, M.V., otv. red.; PUSHCHAICOVSKIY, Yu.M.p red.; KHAIN,
V.Ye.., red.; MAZAROVIGH, O.A., red.; BELOUSOV, V.V.p
red.; BEIYAYEVSKIY, N.A., red.; BOGDANOV, A.A.: red.;
GARETSKIY, R.G., red.; GUBIN, I.Ye., red.; K-ROPOn-IN
P.N.9 red.; LEYTES, A.M., red.; NIKOIAYEV, N.I., r2";
PAVLOVS-KIY, Ye.V., red.; PEYVE, A.V.. red.; PETRUSHEVSKIY,
B.A., red.; SHEYNMANN, Yu.M., red.; SHTREYS, N.A., red.;
YANSHIN, A.L., red.
[Folded areas of Eurasia; meterials] Skadchatye oblasti
Evrazii; materialy. Moskva., Nauka, 1964. 375 p.
(MIRA ~ 17.11
1. Soveshchaniye po problemam t-ektoniki. Moscows, 1963.
PAIILOVSKIY, Yevgeniy Vladimirovich; YESKIN, Andrey Stepanovich; SHTRETS,
N A. otv. red..; PEM, A.V., glavnyy red.; KUZMSO'VA,
MENNER2 V.V., red.; TIMOFMV, P.P., red*
(Characteristics of the composition and structure of the
A~rchean of the Lake Baikal regionl. Osobennosti sostava i
struktury Xrkheia Pribalkaltia. Moskva, Izd-vo "Nauka".. 1964.
125 P. (Akademiia nauk SSSR. Geologicheskii institut. Trudy,
no.110).
(KUU 17:7)
1. AN SSSR (for Peyve).
00POTKIN, F.N., otv. red.; BELOUSOV, V.V., red.; BELYAYEV5CPY,
N.A., red.; BOGDANOV, A.A., red.; GARETSKIY, R.G.,, red.;
GUBIE, I.Ye., red.; I-EYTES, A.M., red.; MAZAROVICH, O.A.,
red.; MURATOV, I.I.V., red.; NIKOLAYEV, N.I., Ired.;
PAVLOVSKUY, Ye.V., red.; PEYVE, A.V., red.; PETRUSIEVSKIY,
B.A., red.; FUSHCWOVSKIY, Yu.M., red.; SHEYNIWill, Yu.E..,
red.; SHTRFYS,.N.A., red.; YANSHIN, A.L., red.
[Structure and the development of the earth's crust;
materials] Stroenie i razvitie zemnoi kor-y; materialy. Mo-
skva, Nauka, 1964. 199 p. (MIRA 18:2)
1. Vsesoyuznoye soveshchaniye po Problemam tektoniki. 2d,
Moscow, 1963.
GARETSKIY, R.G., otv. red.; YANSHU, A.L. akadEmik., ctv. red.;
BELOUSOV, V.V., red.; BEIJAYDISKIT'. N.A., red.; BOGD.01OV,
A.A., red.; GUBIN, I.Ye., red.; KROPOTKIN,P.N., red.;
LEYTES, A.M., red.; MAZAROVICH, 0,A., red.; MURATOV, M.V.,
red.; NIKOLAYEV, N.I., red.; PAVLOVSKIY, Ye.V., red.; PEYVE,
A.V., red.: PETRUSHEVSKIT, B.t - red.; PUSHCHAROVSKIY, Yu.M.,
red.; SHEINI.IANNYu.M., red.~SHTREYS _~ N.A., red.
[Young platforms, their tectonicay and pro5pectz for find-
ing oil and gps,- materials] Molodye platformy, ikh tektonika
i perspekti-vy neftegazonosnosti; materialy. Moskva, Nauka,
1965. 223 pe (MLIRA 18.3)
1. Soveshchard-ye po problemam taktoniki, Moscow, 1963.
41, -
SHTREYS, R. I , i CAND AGR 304 f lf,~~~14AC AND ECO-
NOMIC APPRAISAL OF HOTHOUSE aflo p/R OTATIOd* ON THE i4~01
OF THE LENINGRAD HOTHOUSE COMBINE*" LENINGRAD-PUSHKI,49
1960s (MIN cp AGR RSFSR9 LENINGRAD AOR INST), (KL9 2-61,
216).
-229-
A/ 7- 8 E y S., I Y19. -E -
SHWA V, A.A.; SEjMp.,j FOGZLI, A.A., kandidat tekhnicheakikh
nauk, redaktor; BLIHOV, B.T., inzhener, retsenzent; SOKOLOVA, L.V.,
tekhnicheakiy redaktor.
[Smelting in coreless-type induction furnaces] Plavka v besserdech-
nikovykh induktsionnykh pechakh. Pod red. A.A.Fogelia. Moskva, Goa.
nauchno-tekhn. izd-vo mashinostroit. i sudostrolt. lit-ry, 1954.
29 p. (Bibliotechka vyeokochastotnika-termista, no.14) (NIM 7:11)
(Induction heating) (Smelting)
7-~ y
Call Nr: AF ii4o766
AUTHOR: Shekalov., A.A., Shtreys, Ya.I., Blinov, B.V.
TITLE: Melting in Small Coreless-Induction Furnaces
(Plavka v malykh besserdechnikovykh induktsionnykh
pechakh)
PUB. DATA: Gosudarstvennoye nauchno-tekhnicheskoye izdatellstvo
mashinostroitellno literatury; Moscow-Leningrad.,
1957'(2-nd,edit,onf, 53 Pp. 10,000 copies.
ORIG. AGENCY: Leningrad Division of Mashgiz (State Acientific and
Technical Publishing House of Literature on Machine
Building).
EDITOR: Fogel', A.A., Candidat* of Techn. So.; Reviewer: Don-
skoy, A.V., Professor, Doctor of Techn. So.;
Editorial Staff: Fogel', A.A., Candidate of Techn.Sc.,
Card 1/4
Call'Nr: AF 1140766
Melting in Small Coreless-Induction Furnaces (Cont.)
Chief Editor of 2nd ed.; Spitsyn, M.K., Candidate of
Techn.'Se.; Slukhotskiy., A.Ye., Candidate of Techn.Sa.;
Glukhanov., N.P.J, Candidate of Techn.Sc.; Bimuner, A.V., Eng.,
Edito.b of the Leningrad Division of Mashgiz: Bol
Eaitor-in-Chie:r
of the State
shakov M.A., Eng.;
Scientific and Technical Publishing House of Literature
on Machine Building: Simonovskiy, N.Z.; Tech. Ed.:
Sycheva, O.V.; Proofreader: Khoroahk6vich, V.M.
PURPOSE: The present brochure is cne of thd'Pocket Lib:rary of the
High-Frequency Furnace Operator!' (13iblioteahka
v-ysokochastotnika-termista) series publications. The
purpose of this series Is to present the latest achieve-
ments in the field of high-frequency practice, the
scientific findings of the High-Frequency Power Institute
(Institut tokov vysokoy chastoty) Im. Professor V.P. Volc-
din, and the practical findings gathered in this field
of technology in the Soviet Union and abroad., in order to
further the wide introduction of high-frequency melting
methods and advanced metallurgical production methods.
The brochures are written for the rank and file workers
card 2/4 of the metallurgical industry.
Call Nr: AF 114o766
Melt;ing in Small Coreless-Induction Furnaces (Cont.)
COVERAGE: Tfte AX&cv9 explain the basic principles of the careless-
induction furnace melting practices with access of air,
in a vacuum, and in various protective media. They
describe the consti-uctlon of various melting furnaces,
the preparation of the crucible,, and different meltingmeth-
odh. Sor~qqf the data refer to the smeltI4 l'urnaoes
which have been developed jointly by the Elektrik"
Plant and the laboratory of Professor V.P. Irologdin,
a Soviet pioneer in the field of induction atelting.
These furnaces range in capacity from 10-3,000 kg.
They have been installed at many Soviet industrial
plants by the "Elekt:i1oprom" Organization. The authors
list no bibliographical references.
Card 3/4
Call Nr: AF 1140766
Melting in Small Coreless-Induction Furnaces (cont.)
TABLE OF CONTENTS-
Foreword 3
Introduction 5
1. Melting furnace construction 6
2. Lining 12
3. Melting process 26
4. Vqcuum melting 33
5. Hydrogen-vacuum melting 46
6. Zone melting 49
7. Melting without crucible 51
Conclusion ~54
AVAILABLE: Library of Congress
Card 4/4
129-4-6/12
AUTHORS: Shekalov, A.A., Candidate of Technical Sciences) and
Shtreys, Ya. I., Engineer.
TITLE: Investigation of the mechanical and the magnetic
properties of Fe-Ni-Al alloys intended for permanent
magnets. (Issledovan-iye melchanicheskikh i magnitnykh
svoystv Fe-Ni-Al splavov dlya postoyannykh magnitov).
PERIODICAL: Metallovede " e .Obrabotka Metallov, 1958, No.47
pp. 29-38 (USSR .
ABSTRACT: Relatively little attention has been paid up to now to
studying the mechanical properties of Fe-Ni-A! alloys.
Published information relates to a small number of
compositions and, therefore, does not bring out fully
the changes in the mechanical properties brought about
by the differing compositions used for manufacturing
permanent magnets. The authors of this paper studied
systematically the mechanical properties of the ternary
system Fe-Ni-Al alloys and of quaternary alloys with
copper. Further-more, they investigated the influence
of admixtures of sulphur, titanium and lithium on the
mechanical and magnetic properties of these alloys.
For the investigat;Lons alloys of 21 compositions were
Card 1/5 chosen with concentrations corresponding to those used
129-4-6/12
Investigation of the mechanical and the riacnetic propertie,,:; of
Fe-kTi-Al alloys intended for permanent magnets.
lor manufacturing permanent magnets. Thus, the Fe angle
of the diagram of state of Fe-Ni-Al system was used for
compositions located on five cuts of the diagran passing
through the Fe angle and correspandin., to the Ni/Al
content-ratios (in a'u.%) of 1.73; 1.26; 0.96; 0.78; 0.33.
The influence of copper was studied on an alloy into
v,.,hich up to 12% copper was introduced instead of iron
maintaining constant the con-tents of Ni and Al. The
chemical compositions of -the investigated alloys are
entered in Table 1, P.30. The influence of sulphur was
investigated on three alloys containinS: 25016 Ni7 15% A17
rest Fe; 2% Ni 7 11% A17 10% Cu, rest Fe; 25/1'o Co, 15~', Ni7
9% Al, 3% Cu, rest Fe. The sulphur addition was varied
up to contents of 0.50%. The influence of Ti and Ni
was studied on the last mentioned alloy by introducing
up -to 2% Ti and up to 0.3% Li. The alloys were produced
in a high frequency induction furnace from comnercially
pure metals. The author deals in some detail with the
results obtained relating to the mechanical and magnetic
properties and these are entered in tables and diagrams.
Card 2/5 They arrived at the following conclusions:
129_L~-6/ le"?
Investigation of the mechanical and the magnetic properties of
0
I
Fe-Ni-Al alloys intended for permanent magnets.
1. Nickel improves the strength of Fe-Ni-Al alloys
and also the impact strength in the as cast and in the
hardened states. An increase in the aluminium content
brings about a reduction of the strength and the impact
stren.--th of the alloys.
2. Introduction of up to 6% copper reduces the bending
and torsion strength but increases the impact strength
of the alloy; with higher copper contents the effect
of copper seems to change into the opposite direction.
An increase in the copper content above G%o involves
practically no change in the torsion strength.
3. Variation of the contents of Ni, Al and Cu does not
solve the problem of obtaining alloys with a satisfactory
combination of magnetic and mechanical proper-ties; for
obtaining optimum ma6netic properties of alloys with
good mechanical properties it is necessary to apply
high heating temperatures and rapid cooling zhich may
lead to crack formation and higher reject percentages.
4.'Sulphur increases the bending and torsion strength
and improves greatly the grinding properties of Fe-Ni-Al
Card 3/5 allQys; the highest i!- act strength is obtained for
129-4-6/12
Investi-ation of the mechanical ana%agnetic properties of
C) CD
Fe-Ni-Al alloys intended for~permanent ,~riagnet-s.
Card 4/5
0.2 to 0.3% S. The magnetic properties. remain practically
unchanged for sulphur additions up to 0.2% but drop if
the sulphur content is higher. The best combination
of magnetic and mechwlical properties is obtained for
alloys containing 0.2016 S. Sulphur should be introduced
in such materials for improvinG the mechanical properties
and the machineability.
5, Addition of 0.5 to Ti improves -the strength and the
impact strength of one of the tested alloys (AHKo-4).
A further increase in the titanium content leads to a
deterioration of the mechanical properties. Titanium
increases the coercive force, reduces residual induction
and the maximum magnetic enerl-,,,y of the alloy. Titanium
addition should be utilised for cobalt containing alloys
(AHKo-l and AHKo-4) for the purpose of obtaining alloys
with various combinations of the coercive force and the
residual induction.
6. Addition of lithium improves the strength and to some
extent also the magnetic properties cf one of the alloys
(AHKo-4). The best combination of magnetic and mechanical
properties is obtained for alloys containing 0.0,1-% Li.
C)
The advisability of adding lithium to coaaercially
12-9-4-6/12
Investigation of the mechanical and the magnetic -0-.-ODE'rties of
Fe-Ni-Al alloys intended for permanent ma..'nets.
produced Fe-Ni-Al alloys requires further study.
7, Torsion is a reliable method of mechanical testing
of Fe-Ni-Al alloys since in Lhis case the scattering
of results is lowest
There are 12 figures: 3 tables and 4 references
3 Russian, 1 English.
ASSOCIATIOU: Scientific Research Institute of High-frequency Current
imeni.V. P. Vologdin
(NII t.v.ch. imeni V. P. Volobdina)..
AVAILABLE: Library of Congress.
card 5/5
I I-T-JRESOVSKE( V.; 5HT GZSMAH., Ye.
.:..ocics foniatf,--.. ir. "!:(: t~vhsp-i: chaln n:' t~-' --Z'-c--
=-up rerr4.!-,- los3c-.-r
ly Ural. -,01-,' --.c .-':' :?9-11
(Gurl