SCIENTIFIC ABSTRACT NEKHAYEVSKIY, YE. A. - NEKHENDZI, YU. A.
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CIA-RDP86-00513R001136420012-1
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RIF
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S
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100
Document Creation Date:
January 3, 2017
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June 21, 2000
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12
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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GOLOVINA, Z.O. (Holovina, Z.C.J; NEKUY-VA, M.I. [Nakhaieva, M,I,]; SOKOLOVA,
N. V.
Production of potato -7hips. Khar,-h.From. no.4:53-56 O-D ',)3.
(~flitA 17:1)
CHUMAKOV, Yu.l.; Prinimll uchastiye: ZHIGACH, T.K.; NEKHAYEVA, N.G.;
CHVYRFVA, Y,3.G.; ISKOVSKIKH, N.G. -
Pyridinecarboxylic acids. Mstod.poluch.khim.reak. i prepar.
no.704-'79 163. (?URA 11W
1. Kiyovskiy politekhnicheakiy in3titut.
S/079/62/032/010/008/008
D214/D307
AUTHORS: Andrianov, K.A., Khayduk, Ionel, Khananashvili, L.M.,
and Nekhayeva, N.I. .
TITLE: The synthesis of dimethylcycloeilthioxanes
PERIODICAL: Zhurnal obahchey khimii, v. 32, no. 10, 1962, 3447
TEXT: A description of the synthesis of two examples of a hitherto
unknown class of compounds: cyclosilthioxanes. The treatment of
1,3-dichlorotetramethyldisiloxane with H2S in the presence of pyri-
dine gave a crystalline compound (b. range 116-122OC/2 mm, Hg; m.p.
38-420C). From the quantitative analysis of this compound and from
ir, which showed the presence of Si-O-Si, Si-S-Si and Si-CH 3 bonds,
the structure was found to be (CH 3)2 81 0 Si(CH 3)2S Si((,H3)20 Si
7C-H T. Under similar conditions 1,5-dichloro-hexamethyltrisiloxa-
372S
ne gave a colorless, transparent liquid (b. range 120-172.50C) the
structure of which was shown to be CH 3)2 Si(CH 3)2SS'(CH 3)20.'
ULrd 1/2
The synthesis of ...
S/079/62/032/010/008/()08
D214/D307
ASO"OCIATION: Moskovskiy institut tonkoy khimicheskoy tekhnologii
imeni YI.V. Lomonosova (Moscow Institute of Fine Chemi-
cal Technology imeni M.V. Lomono8ov)
SUBMITTED: May 20, 1962
Card 2/2
N I I ~, ~o , If ~ I "I. ~
JMKRAMSKIT. I.; PAWKIN. N.
What kind of garage equipment is needed by automotive transport
unlts? Ayt.transp. 35 no.11:13-14 N '57. (PURA 10:12)
(Service stations)
W1.11 I I.. " FlISF-1 : , lie. A. ( im, . 1)
" opment -)f a .,-aOlo-Ac I ive Ins * rumer.1 f or Yeasurenent of t he Wei,ht o! : ;.;, ~e r S * r-1p, "
pprer rpnrl atthe Senqlon of 'he Acad. Sci. on Scientifir rrorlems o." ;,,.'orm*Jc
Production, l-20 Octoher 19Y,. -
Avtorntika ' telemokhanika, No. " 0 . 0 11 1: ~-l Q2, 1 IV, ".
90i - 7120
(j
't,iblp Trol-opl:
Tr-ins,et'lons, of the on the 1.r-, of nnd
1A r
P,nd Pndintion Jr, the fintionni Fconoml ,n(!
. I.. P,
Mc3rcoa, 1-~(]-vo AN
jollo%in, V.k., &M T.A. Shw1*vO OM6 1%*ftt L4saooovovs& 911 wAk-
hovo, promilvoltIvnmett - Poscov, state gnivoraltl, limem lamenosov)
Selontifl. Re"arih Inatit.to or the Pur bWuOtrF). Radlommetri.
a.. mInat Ian of t" P,4r Density of reltm 203
Shvyrav. JI.S., A.M. 314ti-oly, an4 K.D. Plan
O= (Tsentrallnry
noucruto-Imaled6vatol' My Th.tttut khlopmhat M. I prostyables-
I Control Solenttfle 80444rh Inottt~ta of the Cotten In.
no:lt Use of Radl.m tl.,* Isotopes In the Teattle Imwitistry 2016
4w r7)
J:ag~ Gotneal. Uss, ~.P R&41aaotlvo Isotopes
Pro
iij'a
trolght of Paper 212
Kardash, To.O. (Towrallnyy nauchro-La.;o4ovatel-okays labor*-
khnadzof. - Co~tPml S lon-,Ifl~ P.1wareh Laboratory
Ile intilla%i.n Pipe Thlohmiess 2amV 117
;qr!FL 0.0 1 and T.Q. Mlaw (Mauchno-I.olodowatellakly Inatitut
Ssionwis us"Grolk
Inotituto for most-pow" rnstrumnt MakirS). ftesuroment; of SO-
lutlaft Comentratlasto Wlta notil 1141411411100, V13
Ves, of jisicksoettert" Of 118t0 VA11116%1011 In tbf
C4StPOI of The ftlakneas of 00o%irge 227
* 0 If. &Mar4tuS for tao IkowArquent of Was lklefteog
Dri:alm 134
ib
21
I
flit
if
Ids
A
stasaplat tells Is
So
is
Ss
eKREW9X_1,
USM/ Physics -tat conduction FD - 1038
Card 1/1 Pub. 153 - 9/23
Author :
Title Determination of the heat capacity and conduc,_iviLy of metals jMder
conditions of regular regime
Periodical Zhur. tekh. fLz., 24, 1428-1440, Aug 1954
Abstract Discusses: problem of the cooling of a sphere; Prof. G. M. Kondrat'.
yev's method for determining the thermal constants of heat insulators;
the determinat.on of the heat capacity and conductivity of metals.
Describes the experimental set-up. Thaaks Prof. 1. S. Gayev. Four-
teen references, 7 USSR (e.g. V. I. Arkharov, Trudy Instituta flziki
metallov, WAN, No. 11, 1950).
Institution - -
Submitted 6 januw7 1953
n (I - i f Yp .Yu
De t,~ r-1, r* t i r,f tne --mi: coyi-, tl nt,- f ,%r,
re~nil:i t-I conrl. ti~)ns. " :Ar, Apavy ;-rich no DuAlrlin,~ n t r;
3r1 He,7 3(Aler rc -ur!"In- ln-t i~nenl 101-linov.
-lc( (711, F-,,rti ti nri p,,r-o )f (~i o
Kn. irmLp_
N C7
SUBJECT USSR PHYSICS CARD 1 il 2 PA - 1279
AUTHOR NECRENDSI, E.4u.
TITLE The An&lysis of the "Two Bic Method" for the Determination of
the Thermal Constants of Metals and Insulators.
PERIODICAL turn. techn. fie, 26, fase. 8, 1857-1861 (1956)
Publ. 8 / 1956 revi4wed 9 / 1956
In the recently published monograph by KONDRANEW the principle of the "Two
Alpha Method" was dealt with, which in characterized by the investigated
ample (insulator) being oooled (heated) in two stages with the heat transfer
:
oefficient a and a ?, From two characteristic equations two unknown thermal
constants o; t~e type. temperature conductivity a. and heat conductivity i X
ore determined. This method was not developed experimentally
similar method, the "Method of the two Balls" was used by the author for
the purpose of determining the heat constants of metals. The general part is
studied as the "Method of the two Bic" for metals and insulators. Experi-
mental results are shown in a table from which it may be seen that the
minimum ratios K - Bij/Bi2 ( on the occasion of the cooling of both balls
in a medium) are attained in the case of vortex-like regime in a free con-
0,8
vecticn and in a turbulent flow at Nu -v Re . For insulators it seems to
be beat if a compulsory flow round the samples takes place from two radii
V
Zurn.techn.fis, 26, fase.6, 1857-1861 (1956) CARD 2 ' 2 P& - 1279
in t .he same medium. The most favorable method for metals seems to be to
measure the characteristic number Bi 2 in a metallic melt and Bi, in some
c-ther medium ao e.g. in a malt melt, the conditions of forced conve-tion
as well as temperature being the same.
INSTITUTION:
Prd 1~y
Jour Pcf Zh,ir Fi7lk-,
bW hor 1 Nukhundzl , Y,i Yu
~)r 7
T ~-.c! r- -
)r Fu b
' 'r s 1 r P,! F hc
P ~.x er i- r1ro u-cd ~r -c 7-.. r r
t'Ke lorr f,r uFi Ir
-i n P -~n 1 4y
rs r
Fi :- e c r. s u r.-c ~"t, a
v P r U, r ur 4
Po rc-c r(,-.j: d i
er. c o!- ur, w,-: r
(,,rr( r6 F 'c
; Y. _~ -1 ~~tl T, f1l V, MO I
: - ~, " I, I --
/I
~IiATILI, A.A.; VLXM:KDZI, Te.Tu hwml~ft-
Wire stftim ra-wes a"4 in automtle recordirK of tensica drops.
g
lap. tel&', a-.7 '-5-147 my-.'e #57. ( KljtA 1 a.- 8 )
(Stmin galwes)
AUTHORS: Nekhondzi, Ye. Yu., Tisenko, N. G. SOV/32-24-7-40 65
TITLE., A T*nsoaeter for the Measuring of Static Deformations up to a
Temperature of 4500 (Tensoustry dlya izaereniya staticheskikh
deforastsiy do tesperaturY 4500)
PERIODICAL: Zavodskaya Laborstoriya, 1958, Vol 24, Wr 7, pp. 872 - 874
(USSR)
ABSTRACT: As the design of heat-resistant tonsoueters involves difficult
problems the present paper describes & tensometer for measuring
the static deformations up to temperature ranges about 450'. As
with this type of tensoneter an improvement of the electrical
insulating properties of the tonsoaeter cement must be achieved,
and as on the other hand good technological properties are
required the authors used a mixture of waterglasa cement which
has a resistancet one thousand times greater than the com-
positions already known. Prom the data given may be soon that a
mixture of the composition 1 PbO + 1 Al 203 * I sio2 has the
best filler propertioal good results were obtained in the case
of electro-corundus of the TNIIASh, the softening temperature
Card 1/2 of the cement is mentioned to be t, >12000. The technique of
SOV/32-24-7-40/65
A Tonsoneter for the Meanuring of Static Deformations up to a Temperature
of 4500
the production of the tensometers by means of this cement -s
given. The static evaluation and the determination of the
temperature dependence of the sensitivity to tension was
aarrie4 out on a TsKTI -2 machine for creeping tests. The
tonsonoters were sounted to cylindrical standard samples of
RI 437 steel, and the measurements wort carried out within the
isothermal range. A high reproducibility of the results was
found, with the maximum errors of the deformation measurements
being about- + 3 - 5%1 this agrees with the data obtained by
means of the ';@floating extensonotor according to Martens
(Ref 3). Also a diagram of the working characteristics of the
tonsometer described is given.
There are 2 figures, 1 table, and 3 references, which are
Soviet.
ASSOCIATION: Tatntrallnyy kotloturbinnyy institut im. 1. 1. Polzunova
(Central Institute for Boiler Turbines imeni 1. 1. Polzunov)
Card 2/2
AUTHOR: Nekhendzi, Ye.Y~~.
TITLE: An Investigat.0i",
Various Tensompt, t,-- ~j t w
(Issledovanijf~ 1.!,,
tenzomptr
PERIODICAL: lzmeritel'nayfi N r
ABSTRACT: The ultimate of appiyiro-,
tensometer n s-~a~~c t,-,Sts
by the zero i:-j-- ir.d
the unhalari--
trical tensomeler
's. Some unba-I.-Irt:
I
ed by the imperf'e,,,,.c:, of t,,e tempf-
t i on and the i r,,,3 * -,.b f the
ance of tt.(-. tensom~,tot- w;ro Itre1f. T~.-
the opini on ~h!~ * i - i:j c I i on o f * ~~- ' r
sulation pr,?per'.. 1 f ti.- ~o,mont .7
principal renson 1"',r '.h e z, ro
at high tempf~rri4-u r, :, . 1 -.,: - .., ,'
Card 1/4 bility of' tl.e 1: bridt- -,irc-iits wor~~-
An Inveatigation of tKe r
metric Circuits at
a IATV-1 dc brid,,e -inA n mi.-ror
Terwome ~,- r ! r-ir.od ~j f~ r 3 :%ndo ( f cv:-.wri t -1
compos i t ion vir, rf~ i!,v,,.; t, iga -xam.-
with a wtt-r ass basis or of i- i
o r g ar, i c c om 1I c . r. iT h p au t 1, o r r, s
cement ShO-Ned as a rapa-It.r)r
in a terisori-ter transducer. The Instrit-1.
dc tensometer cir-,i 1,; at high t-mperal j:-!
caused by the qIi,,:I' '.T.(' t.f"Jenre of *h-
yer, bu t bp(- f * ?-i- o. ~ir'. zft
certain
base apparer,"Iy Rn t',K-F
cal I ed ). i g~,. -v,-,: *.:tj- -) -~Iar i,, n ton ~ w~, 1 h
able chtrqc teri., t I. r T-
applic,ltio!. 0'A1 "I
do r'Ot ""!,ow I D n F
t 1, e -v, t 1, c) r 1 r, - -,r r
Card 214 resista,'t s.,
c.
An Investigation of the Cri,Ase~- 1' t,ih I V -i r
metric Circuits at High
61ass
lescribes -i,~,o -u. of 01
Tl,,
inst-,,bility e! n e tr
F i n a I
gated in ac r-,-4 ia'
the dc 'J!
isothermic c-.r, i'~ * c
stablp t-,,er.
balancing ~-,f ",f- t be
insignifican, *P:-.i -h-inee:z, ai!j
cause of the n.,
capacily and 71
of the temp-r;A',:-, te -I'Ways exyf
temperRt-irps, *n- r.dj-,~ ,vil, Fl.-.~.v
i n ac c u r a c : ~- s ~ - b ~ - i F
the author ,n i..q
Card 3/4 tion of -'c Tlr;.~, -oncl, ~-irn
S- V"I-
A.n Investigation of tt.e Causes rf
metric Circuits at High Temperatures
importrince frr Ayna;%.c te--te. )f'
cretes based on water -~t temzpor~tt
to 900 0C. These dynam.ic te--ts are u a uriy r f'-.
ed by using a carr,.er "requency ar,:', tYe nj'Alcr
commends using a d2 circuit. Tl.pr- ir--
and 5 Soviet ref-r-rices.
Card 4/4
80533
w ro 5/126/60/009/05/021/025
AUTHOR: XAkhendzi. Ye. Yu. 9021/9335
TITLE: ~e__at-c~;~duction-rof Nickel and Nickel Alloys in Relation
to the Content of Alloying Element
veden ye, 1960, Vol 9, Nr 5,
PERIODICAL: Fizika metallov i metallo
pp 792 - 794 (USSR)
ABSTRACT: Although there is a great deal of literature on the heat
conductivity of steels and iron-based alloys. there is
not much similar data on nickel-based alloys and yet these
alloys are used at elevated temperatures. In Figures 1-3.
all the data already published on nickel alloys is
collected together in the form of curves of heat conduc-
tivity against nickel content. It can be seen from these
diagrams that, with the exception of cobalt, all the
constructed curves are similar. The addition of cobalt
slightly decreases the heat conduction, evidently because
of the similarity of cobalt and nickel atomH. Copper-nickel
alloys have increased heat conductivity. From remults on
electrolytic and commercial nickel it can be seen that the
Cardl/2 heat conductivity is strongly affected by purity. With
the addition of 3%0 impurity, the heat conductivity at room
e
So 8053V 009/05/021/0-'5
0 R,l,tion to the
Heat-conduction of Nickel and Nickel JYZ~42JA5
Content of Alloying Elements
temperature falls by a factor of 2. In the region 55-80!~
nickel, the heat conductivity is practically unaffected
by chemical composition. This leads to the conclusion t1wit
the heat conductivity of all commer--ial high-temperature
resistant nickel-based alloys is practically the same.
With increase in temperature, the dependence of heat
conductivity on nickel content levels down. There are
3 figures and 22 references. 12 of which are English.
2 German and 8 Soviet.
ASSOCIATION: Tsentrallnyy nauchno-issledovatel'skiy kotloturbinny-~
institut imeni Polzunova (Central Scientific-research
Boiler-Turbine Institute imeni Polzun v)
SUBMITTED: May 25, 1959
Card 2/2
NEKMDZI-. Yev eniy YulianoVich, kand. tekhn. uauk; KHLiITOI.CV I
Nikolay Pavlovich, kand. kbim. nauk; TMOIEVA, S.T., inzh.,
red.; FREGER, D.P., red. izd-va; GVIRTS, V.L., takhn. red.
[Resistance tensicmeters for meosuring static deformations at
high temperatures; stenographic record of reports presented at
the LDIITP scmInar on vibration technology) Tenzometry sopro-
tivleniia dlin imereniia staticheakikb deformateii pri povy-
shenrqkh temperaturakh; stenogra=a dokladov na seL.inare v
LDVTP po vibratsionnol teldinike. Leningrad, 1962. 57 p.
(x, i:,A
(Strain gauges)
3 313"
6 1 G 11 14 S/115/62/000/001/00-VOO-
El )4/LP355
AUTHORS. Nlvkhendzi , Yr.Yu and Kharitonov, N.P.
TITLE Strain auSes (if Constantan wiro for hi-h
teiii.,eratures
PERIODICAL- Izmejitel'naya teldinilia, no. 1. 1')6~-' 2"1 7
TEXT D%irin~, 1956-l')58 the Tsentrallny) 1'.ot lot urbinn%
institut (Central Boiler Turbine Institute) studied thf~ U.,(, of
-oxi-,:tantan wires as strain auges for L'ie tp~.-vrati;rv zan_r.
of 20 to 250-300 'C. A y-ifmiatic ::itudy was .iade ~)f t'iv
electri.cal ,roperties of v:rious brand.-3 of Constantan i-,,ire
suitable for strain gauges as functioni of tvi.i,~erat-jrv, timp
arid heat-treatment. The adhosive used was heat-resistant
cp~,.ietit, ;rade 5-58 (V-58). prepared by the In.,titut 1,himi
4ilil.atov AN SSSR (111.9titute Of Silicate Chemistry -f the
AS USSR) This material ca~i be polymerized by nodexatf, 'ioat
so that the properties of the an.iealed CDnstantan -,*rip str.,In-
gauges are not afrerted. Soviet grades of C,3nstantan
MHMFrS O"Wits) 110-1.5, enanjel-insulated grade n)K (PEK)
hard grades without enamel KT and Kopel Mwts 43-0.5 were
Card I/-
131 A3
S/115/62/OOC/O')I/CC-/,,~'-
Strci.;i ,,au,;c-s EIA/E355
st,idl.cd, also wires i.iade by the Ai.iel-ictiji liri.i. Di-iv.,r-Harl-I
(11.3rd Con tantan, Advanco (VIlaill(Illed) ind C;ipron
All the wiros had a minimum diameter of 0-0- i .:,
Cupron wire ,rhic'i was (.02~,) mm T!ic wires cu t re~3-,ozi,led io
ros istai,c and rinc :iarlcal stron~~t:i t ) standard (-OC-T ( WST
07 7 - -; i ,, ~- ~ i, ; i L: ,-1, 1 y~; 1 t. 1i - S ~,v I , t w) z v ,n-3 A.
i (I Co:i ~, 11 ant an c tor. ed t o t a i i k~',i r 'A fS T '1 71 _2
Arl va,i o
-i:id Cuprorl
~C
r,L an;~ea ii 'i,mr t:ie kn;ieol i i _ a t o
f C c.,rcl in noutral I I .I I I
all.' at t 1 45-C - 70C 0 C
~-to(l a, str'l. I, S
9 c- C 1,-~ r i t t
t e c )lid I t Lorl )I, I V-1 -"
-I I I t IL (',-I -,t 1:~
:i u r f4 11 L S I V i ;IC t
o - 0( A es 1-1 L we, e s lm. ar
~i L' I C- S Or
33133
5/115/62/000/001/00VO07
Strain gauges E194/LP355
duration of annealinj~; tho .1auges were anne a le(l Is u I !ieL----,a I I y
at tej:iperatures of 370, 390, 420 ,d '1 150 0C. The an. ealin
was carried (jut in s tages of 1 - 1i liours for a total tirie 'of
12 - I) hours. The following properties I-lore determined from
the tests. the mean value of the temperature coefficient of
resistance a in the ranges 20 - 50, 20 - 200 and 20 - 300 0 C.
the relative change of electrical resistanc 9 during isothermal
annealing at a given temperature above 0300 C, the relative
change in electrical resistance at 20 C after heat treatment.
It was found that the v:,.rious )roperties measured are mostly
interrelated and the curves are of similar form for all the
Constantan wires tested. For wires with an irdtially nogative
value of a , in which the curves of a as functions of
annealing temperature twice cross the zero line, it is recoi-.U:ieii-
ded to use heat-compensating annealing .-.,ith two series of
conditions: in a region of holding at a temperature below
400 OC and in 0 the region of recrystallization at a toi~peratUre
of about 450 C. Constantan %-rirns can be annealed at te,:ipera-
tures below 400 C, for times of tho order uf 1 hour in air .
and this can be used to .-roduce thormally-compensated strain
Card ~/~
33133
S/115/62/ooo/oc1/00-,/0n7
Strain -nuges El')'I/E355
~,auges for the temperature ran,;e 20 - 270 0C.
The tests showed that only wires iaith a ne.ative val~ie uf
in the condition of delivery can be tlienaally componsatel by
annealing. The manufacturers should be recommended to make
liard Constantan wires with a stable value of a 11 tile
temperature range 20 - 200 OC of -10 to -20 x 10- 6 ( f ur
enamelled wires) and about -50 x 10- 6 (for hard %-;ire-) in t:~,-
unannealed condition Thr-e tempera tare ranges ~,f service uf
thermally-com-,)ensated Constantan strain gauges are diqt1n.1A1i-:'e''
1) from 20 to 220-270 0C. III this temperatur( ran,~e the st ~ . ill
_cauges arn thermally com.-ensat e(I thf- readi r 10 not 1 ('11.1
,)n ter,., Prature. e 0_. d t f
the art b,-ln.,. invesLi ated.
2) from 220-270 L, 30~ 0C. Ill tjji~z L:". t
the part inust be mensured and corrections made from. an exper I
mental curve of ch,-~nfe of r(-_q!qtance wit:i -)tllrf.
instability of t'-P Ci ,.-icl z-!,;? ic . c.-i ---lect
Stj -1 1., ki-cf,
El "1/E-555
~ ) -!)~,Ve -00 0 c tu 400-500 Oc, Iii t:iib t,-.. '.,,. ., ir, ; i o
e it ~i, I cuu,lcnsatin~; cirLilit s:ltlfit ')0 11SOd or I lf~ 111f'111,-:1c
t v L t t ~ t r (, a n d t I m e ims t 1) v a 11 o w o d for by [n.%kt ri!~ n t :% -I
1. ti I A, x 1!1:.Il) - I c ons t 111 5 t ra i n au g rs i ., i ti
t erii~cr-it-,irr, c,,)jidi t iun.- I :i t ) , ! ) f 1, " (- a c t u a I t s t !;
D i f f e r c- I i c e s o f t cm,) f, r ;i t x 1 r and d if t- e I- ~ -ic es of r .; t I c s
I)et%,re(,Tl the actual coll''CrisatiII6 thermocouples !Iav('. th'.11. C.f'r~ct.
The ure of compensating circuits- witliout ~,rcliminary !,(21(-c! 1 '11
-ain -au -i np- reci able errt)r!-, III iof~iv.
.~,f the sti
ges can I to
calles it waz, fuund c to roli.-iblo strz,ixi
C)
casure:ierts up ~O 500 C.
T~ierf~ are 4 f ig-ures aml 7, Sovi (-t-blc)c referonc es
C-)r-r' 5/5
3/'''! ',/~-, " '41"'. 1-1 - '
D2C 2,1DiOL
AUTHCR: Nekhendzi, Ye.Yj.
-TLE:
A search for neat resistant cemen.s wit:.
electrical insu.';Iting .,,roperties based -)n via'er F-laSS
PERIODICAL: Zhurnal prikladncy knimil, v. '., n'..
2615 - A22
T EX 'P The author investigated ~%any factors, whict. %-ffe,7! he re-
sistivity p of water eaq - cements, 9,,.ich as the rat--- of S,,')- t-
the aixali oxide, ~modulus M) anl the e,fects of different, a xa-!r~-
ions, the moisture absorption, different fliters aiA the effec, of
emf paiarization. Other ,jropertlelq such as ~~ardneBs, 1--irabl'Ityp
adhesion and thermal i-~x-,~,,,.nsion, in the temperature )f
7-OOC were also st.died.~'u.. exp-:ri7-~ental de~a:',s of *he -es-~r:E
installation are given. Samp,.es of water giass ce7nent, 7XI In
diameter and 2-5 mm thick, were slow-'y dried at ro.ishe-!
and fitted In the middle with grap).ite or sliver electroles, The
resistivity was measured on three installations: :'he meFo~.mneter
M110i an electronic megohmmeter Y.Uhl-2M and on an
Card 1/4
-r. t. . . 1) 2 0 2,,,"D 5 0
m:.ne to VOCT 64)5-52 (GOST b47)-52), in alicases ~he ree-ts
ned being practically identical. P.B. Knopov took -,~;rt :n 11"ese
measurements. Preliminary results showed that same, '.-s vii
te and silver contacts nad the same resistiv4 ty vi~.~ --h vi~iq
o vi r e
lei by the initial viater contpn", in t,.e cements. rer~l.
reproducibie. The e'fect of moisture absor7tion fro,-. ,ir
:."V~.,d oniy up to 150OC; at 'nat temperature saml-es neeie,,!
8COr, lryine -,,Ias
:iours to iose the whoie moistire;
-ete and the dependence of p on the 1.
effect o1' the cor,.~oslt.on wLLs studied on IC' qtr npel; r.
experimental series tne )0 % T),~tassi*im *a,~er 'JI:*!.
bein6 usej. The followin,,- vierc- 'es'ej f~: .,J-
A 12'1 as corundum ~-.nd a-a L umina) -uartz, mui I i -Yang , e
aluninosi i icates, ',"iu,, ~*O, J1,u . From The above i -r!l - n.y
and the al--iminosilicates improved the resistivity ,,b:),., .,)r'
::i,)re t an other fillers. B 0 had a f%vorable e:'e-* -n
vIty, but made very
the cement 7 bri ttle, wi*.1, poor Fr,
j~-rties. In another series of experiments the effl-
was studied; this effect %vs discovered by S~anav-, In~
Card 214
S/~'8 " , 6 - / S -, .' , -- I ~-- - - -' - I -
A search for heat reEistant D20"'//D30,5 ,
snov (Ref, 51 ZhTF 9, 11, 1959) and cor.81stB of fir incre-se in tne
glass resistivity by partially exchanging the alkaline Ions; It N;~G
also studied by L.Yu. Kurts. The author studied the neutra.-Lization
effect on cements from the following water glassesi K-Na, Na-LI. K-
-Li and K-Na-Li. The alkali oxiies being used in n-arly ejuimolar
ratios. The cements were prepared with 910 as *he only th,-
K-Na-L1 water glass having a substantial e.ect on tne resistIvity.
The author tried to introduce Ba and Pb ions into water glass solu-
tions, but failed to obtain satisfactory results. Only by alling
Pbo to the filler (e.g. PbO: S10 Al 03 = 1:1:1) did he -brain an
21
outstanding increase in the resistivity of the cemen-.. If Al 0, is
2 ,
used in ti,e form of corundum the thermal exmsion c(,effllcient of
6
the above cement (a) 20-4000 = 11.2 , 10- , a)20-500c
and its softening point is higher than 12000C. The resistivity of
this cement is affected neither by M nor the kind Of 3102 and A120,'
used, and no neutralization effect was observed in Its case. The
effect of water glass modulus 18 different wish different fillers,
having no effect on a Pbo cement, the in.,re.,,se of Y -. --e,-,,en,,s
Card 3/4
S', 08C/ b, "-; 4,
D202 'D5~1
A search for heat resistant ...
Witt, SIO or aluminosilicates improves their resistivily t,;* :ause~4
some brl~tleness. Better results may be -.btained wner, 2, % whter
glass solution is used with M 4. The author a-so tes'el *.~#- e~-
fect of sorbentsi silica eel KSK and alumina i-,e, bul ~nff~v~-
rable results. The value of emf po-'~-.rIzati:).r., giver, by 'ne rqt'-o
pT/pO decrease with rising temperature wni~h is believei to be due
to the increase in the thermal mobility of the Ions; the pcia~-iza-
tion depends not on the res~stivity, but oil the nalure )f 'he Ions
present. There r,re 6 figures, I table and 7 Soviet-bloc rpferences.
SUBMITTED: i95) (initially)
August 2,1-1, 1961, (after revisi,,n)
4/ 4
AMIDZIP Ye.yu.
......
Measurement of creep deformations at 7000 C by means of strain
gauges, Zav. lab. 29 no.10ilZI.1-1246 163. (MIRA 16:12)
1. TSentrallnyy kotloturbinnyy institut imeni I.I. Polsunova.
N FY H,FN-, - , ye - yu - , , '~- 1 - . - ~ -. I- , . ..
!-left -, .1 --s- n t0. ,'~#. , , , " , - . ,
~ ".~j , , -
u.qlnj-y hlph-',~ ""
n. . 5 ~ 1(4- 1.. My It ,
I . - . . ,
p -, , rl I . - - , , -, . -~ : r. . f .
.. .
" - ~ . 7 . ,- - -. -. . I - . ~ " , ~ "
m . " )
LEVCHENKO, B.L., inzh.; NEKHENLVI, Ye.Yu., inzh.; ROMAIC'111K, K.K.,
inzh.; KHASINA, E.A., inzh.
Study of tightening stresses In turbine pine uBing high-
temperature banstometers. &ergomashinostroonle 10 no.5:37-
39 W 164. (MIRA 17:8)
*goat
ots
6 a a F4 1 1 A I S amass
A I '. "Off$
0
:0
000
of
0 0 0, o
no unpolew OW
aw -- A. f4tibmift mad
1 Vt&,iw M-LWU;C 09". No. 3, f7'-klfftM,,-
As "Am%. W dua w a, pkM SbM# UW lt~
lvlwffv cow" Sol teneft at'" h is 619M by l1w
M + 63C + if% WC It W. a.
00
:00
400
'00
'00
.00
too
of
1,Al CLAIMMIE&IM8 cl
too
TV, w,:
w A 0 a 1 0 %f 0 0 1 a a a
0 0" 'a 0" "0 0 0 0 0 0 0 000 Go 0 go 10 90
r mr - - - - - - - -
till ti M4.0.2 T !
00 00
*MZWdafiis Nos
io: IWOMMM IdObObAmiL
(MW. IM go, 64, pp. W-M). (in Nummian). WtwW-Fy -Fvp"~m -00
a invem4plam 160 - th" the &VOlopmornt of a steel froatAnt to -90
sulphistic &W shouM be tKimmeW towarda AWninc an mastertitic
w9&4 with a b*h nichel atinteng with mulklitions of fitolylilenum and ISM11
copper. no tho ium-nichal stewls invemigused with vamins
00 carbon, sibron, amar4anese, elmomium. nickel. inolybilenum acid
4-OPM contentit fail hato, thm grou (1) Stseim of the 114,4 typo
o0 Clenlim and fqn*m whiph wo-re
with and without Immit ions of mol.v
-dZ olf for atimparmoon purpexam in the mwrosion testA. (2)
the ti~
NJ a gyp at ot&kLbn steelim with semi without lodditi-Wia of
moiybdomon mmil co"vir, mW (3) the WIS 1,vis olf ~WA Tr4a an
an thme Oftups int, I 1 16 faudy of their comoung pri"im. deser.
minative at storchaniciAl propes im In the moo-c" ami bot-finam
Do
vormlithwo SW on Investigation of the tempeftsurre
and their Wbd an the corrosion rmmimttancv-~ The loss in wrwht
so was cle tried in malphuric, hydrochloric, phosphoric and arctic
acids. " woll ma in molutioum of vWK'W 1110110111C 16111t& at diffeirtit
temperatwims and in mm~water. A aullit tl v high enmamitin
resistance for puctleal purpmrs for use in contact with oil uri..
locod jup to 4116/9) is obtained only with the torur 8 In stowr-0.1th
3-5- a red - I m and 4110 ot copper This steel rmtst- thr
moctim 4 bwhw suipituric, acid (up to &)*,) arml coki hvIlruchictric
acilf (up to 3(r,,.). Do ordinary 18/8 steel dnro rupt rv,~imt I"Itne
xulphuric acid; ita re is lowrml by raumne the
carbon content but improved by ailditiom of molvim*irnum abime
SCULLURGICA.P.So. and prefirably to 4%. T& V1,11 stmi has matisfact4wY
-Corr"MWO rimmistanot a amichanical properties ntul can br um"I
to-oat q-
U 0 AV a ifIr F-T--r-r 0 contact with" pbomphak" at clevated trTjm-:%~urT.
, a & ID W 0 4 a ii a 11 a is x
006006669046600006466
" ur*2 ; ;!:oo o o o's 0 t6 0 0
010000000000000000000'000000000*oooe
'go
'00
It
r
410
100
v0
too
700
too
too
too
as*&
9&H-INDZI, ~aian Arkad~vlch.
Stool casting; a textbook Moskva, Goa. nauch.-tokhn. izd-wo lit-ry po chernai i tavetnot
metallurgil, 1948. 766 p. (48-26876)
TS320.N46
WMIN&WA - fteel, O"t"ge -a" %
-Obtaining Bound TberMl Joints In Steel O"t-
ljzgx," Dr Tech Sel, Laureate of Sta"I" ftise,
TU. A. Xekb9zmUi, F. D. Obolent&*V Cana i*ch 6819
taningrad rolytech. Inst Immi U. I. Nallails
*Litey Proizvod" so 6, pp 15-19
Conducted expts to establish conditions for
obtain, sound natal in X, T, L, I and T-
shaped joints or steel castimp, maim metal
chI12A, Also -studled influence or dimmlons
and material of chills on their effecti so*'
19"
UWYAt&lf - StAPOI, CONUMS (COUtd) Jus
Discuss*a dir*ctional solidification, as a out
essential tactor in fabrication of gaot ametWov
band outlines mathoda for controIllng, with tbe -
aid of natal cWIls, solidificatton of intriWAS
eastiW.
loom
4
t4
smammi, Yu;L; somm. P.v.
Iffect of tho t*Woratur* rarefactioa &&d of a sold upon steel
liqmldity. Lit.prolov. no.8:17-20 5 154. (KLNA 8:1)
(Pounding)
T I
~:i, V4j
f Wilt W"W"
Al.
.............. ........ ..
Ll
-,c oF.6
ww.
!ivp
1J.
W.,:k
41~
ThIs to o6 "W-4no
ix
t mom grith tho Wd
xi r I
ws
4
V~ -M,
jt,
GIRBHOVICH. N.G., doktor takhnichealrikh nauk; NzIrgy zi. Tu.A. , doktor
tekhnIcheeklich n-u . -
Analytic solution of simple problems on the molIfIc&tioL of
various configurational castings. Lit.protsy. no.6:14-18 Je '56.
(KIJA 9 - 8)
(Solidification) (Founding)
zz
Af, t 1
rv t,:- r), H E (V i_ I l-, /~' t / I'
GIRSHOTICH. N.0.; NIKHENIZI, Tu.
-..-
- --
Foundry practices in Leningrad. Lit.prolsv. no.10:13 0 '57.
(KIU 10- 12)
(leningrad-Founding)
NEKHMMI, Ya.A.
- ,
Stool easting at the 23d International Foundry Congress. Lit. prolty.
no.11:27-32 N IV. (MIRA l0il,2)
(Germany, West-Founding-Congresses)
I IA,I /I"! t i~ ", / .- , , / /,,
UEKHM= 1, Yu.A. .
.Pqr-, r
---U=" TwWr-C 4 the 23d InternAtionAl Congress of Founders
(to be continued). Lit.proizv.no.12:21-?7 D '57. (MIRA 11:1)
(Stee: cogtings)
MHis Yu. A., FILTIM, Yu. I., PM079 M. I., BMI-IM, L. V.
Leningrad Polytechnic Institute.
ObdImonce of the Tocumm end the Protective Atmosphere 11alting on the Titaidam
Casting Froperiteseg
paper presented at the Second Symposium on the Application of Yocum J.n Notallurgy,
Flosoew, 1-5 July 1958.
".17, HORS i r 3 :. o v 1 '.'e e 1 e I f,
TITLE: of Tr,)r,-Carl,,,.):i Alc,vi
;-.,,e _i.- I arod i s tyke-, s L i,i oa
I,ERIODI-AL:
ye ior, :t ly v,,.,;. ;p s k~) L-1 . !,'P*.a 1 r
P;
APSTRACT: he resi.3tan, e t L, - r,i,-, x i n r u % i- r r, o .9 wa:i w-,
I fA 1 1 Vf-'- y 11. V e a 1, i ~~a t u I . A s - ec I a I !:~" o I ~: a f3,, - '. -.- e
germ iwi or. t ie e i o- . c re s 1 9 t Fin' 7 p yra 3 s
va 2 t i,,b e res Li,n,-e 1:~ -rack ~ n;, A 11 E
1 , ~ I. ~ , cl r e j i rii E- j a u n F! A t
r F,,, k zi
lk~ . -Y,5 *,e n ua i t , r. t. o e
e ar i.
f
A. )~,.q w t:. a C i~r n a r e - i, a r a r ~,.e
Li ni,l.er rp3i. t-in-e -he lecreage ul' t,', q C, a r L,,~ r.
cc,ntent tt.ere' ore -wi3ej .9har; le,:reasf? in t~.,, reflistan-e
c r ri,7 k i nT I r or. a I ', oy 9 w I t~ a ~7ra I h -l' t e c j s t r- r~ ',~u v e a 1. i x-h e r
Card 2 t~, r,.t- a ementite syst-ai:_
lie Rp.9, atance t - ra-:x r,,; ), :rcr. C r',nn Alloys
r e a Lat a r, c e r a 7: k 0 J
e
f t `1 w. d -i(2 ti t t. e s J, a t P:T~ o ivl
o- ra !. x 0 7 -If I, ell
r F. n p t e n I !I TI a 71 1~ j
n v r It s tera,,Ie --n: s? r c,:i FA
t j ti, -
c )nterL T r L (!~q WT.
the a D fj r 7 on t t t :,r,
~'Mlt 1 a tc tit ~he! n I'ir t ~ p !I,. ry r Y 3 t it lie
w s a de-rea e t e .~itoi rital
i ne 9 r er ~,t., r r e ii w. t j a r n
-~) r,_i u tr, n c f rRcks
i e i n v e 3 t i i;ru *, 1 , r. c, i' e r, c r a 9 i n t p m - e r a tur s
Qn the refliatan:_e t ,ru s:~ W~, z. t w s? ri e- t
em e r a t i i r e !j ~.r ra 13 ~ I r P .9 i -- t it r. r a s
I r a r e r e.~ e 3 . a: r r ~i
Card 2/2
ASSOCIATION: Len n,-.:- dq.~iy I . e t' e ~3 I r, 3 t : t
I Le -. i ri j -r a i P -, -,- :.n 1 5 tt ; t p
SUMTTED: October 4, 1957
MMM=1,i1u.Ak*
Stool meting at thp ?3d
prolsv. n0-2127-30 Ir 158.
(GermRny.
International Foundry Gonurress. TAt.
(KIRA 11:3)
West-Younding-Congrossos)
AUTHORS; G' reh - N. 3 N~-krnnd 7 , Y. - A. 507"
TI'LE: D--.P-n'r,rv , n.~ Dur a t If
S f go t r,)d -f R- F3,?ar -I 'C; 7-1~
za* . pi ' ' ' 7 A k ax n-. -1 r j
PERIODICAL: Nau -n-,.yy- 4 klady k-y5g-.Aj ~~ik MP ~' 3. N
pp. (,WSSR)
A.BSTRACT: T~r- a-ialy~, :a' tv~i x~xp-r~mq-q' :1, * r~
a r, I t h -~ ks ~: f t Y, e na r d P rg-n a,3 g
of grF-at tIr--~-.re' ' ~a' arid ~, acti a"Ia'
pr ~~p -r-- :f ~%- -.as- T- 'it
of the duraticr. -f hardening may be sel as a m-lY I f. r 'r,-
'nvs~stigatio-, and from thp resu'*s
p?,yal' -~sta-~, f h., %-.1
v~~-isp d- --g7am, 'v~- YurA-,pr-' 9-: --i~ -f
'-J!4 n,'~Yq ard s:q-, 4 ma me,~han' -al
QV
Card 1/3 e2
sov,
Datermiring ,he ai-i- f *r,,
Cit iq %g P:
Mpthod of
f
Fig It pr I
du -a f 4 7;4,
haric-
f F;...N C - C C, C
c -i~ a', t
p f F-
f
T
f
Pt
v
:-d r S
A r
Ka r I - Wa_
Carl 2
sov.
f * r - Ha rdi, - r -~,F P7 -. e f-
Vpth3d cf Resear~h
ing). The reau'.toj obtained and the oall.~ullati-.rnfne duratler,
of hardening shiv that a new ancl 7%!,udr.- mAr.,-d w-iq
which &uppli em sef-al Irif cormat -- n as .a
e p hvt a a g hm
n 3 t a r Is r m - a - 1~ re -
T h e r " a r-fg I f -
ASSOCIATION- Lor-i-gr;A~ik y j k
SUBMITTED:
A --THAS:
e r
Iee:"
SOV/ 1 17- 58- 10- Z I t,17
Translation from. Referativnyy zhurnal, Metallurgiya, 19~8. Nr 10, p lt,b (USSR)
AUTHORS: Nekhen V~a;.,nikov, N.F-, Yermakov, S.S.
TITLE New Types of Steel for Nlanafacture of Cutters of Drilling Bits
and Methods of Their Investigation (Novyye stali diva sharo-
shek burovykh dolot 1 rTictodika ikh issledovariiya)
PERIODICAL Materialy Mezhvuz. nau(hn. soveshchaniya po vopr novov
tekhn. v neft. prom-sti, 1958, Vol 3, pp III-IZ7
ABSTRACT. Factors affecting the destruction of catters of drilling bits
(CDB) were investigatEd and a number of requirements which
must be satisfied by steels of which the CDB are made were
developed Comparative impact-strengti tests were performed
on I I different types of steel It was established that the in-
c rease !n impact strergth, produ(. ed du -ing surface hardening
of the CDB by meanb of cementation, is decisively affected by
the strength of the carburized layer (CL), rather than by the
magnitude and nature of distribution of the residual and surface
stresses It is therefore essential that such alloying elements
at; Ni, Cu, etc , which tend to reduce brittleness and increase
Card 1/? the strength and plastcity of the CL be introduced into
SOV/ 137-58- 10-Z I t)17
New Types of Steel for Manufacture of Cutters of Drilling Bits (cont.)
carburized steels employed for the manufacture of the CDB. The greatest
increase in impact strength as a result of carburizalion is observed when the
ratio of the depth of the CL to the radius of the spe( men amounts to 0 IH-
0.22, and the ratio of the surfac e of the CL to the surfa( ~ of the entire spe, -
imen amounts to OA6-0.38. It is found that the fOlIO-VITIg t~'PVS of StVVIS ( OVFI
bine optimal mechanical propertieE, with high impact strength 1)
25Kh2GN2DZF steel containing O.Z-0.2b% C, OA-0 4'"'0 Si. 0 8- 1 150 Mn. I
1.81o Cr. Ni. 0.15-0 2% V. and 1.9-221/6 Cu. Rc 44- 37, S, 1 ;18-
141 kg/MM2. 169- 152 kg/mmz o , 48 3 - 5 1. 6%. 6, 7 9 5 - 10 1ak,
7.6-13 kgm/cm Z) 25KhZGNZT veel containing 0 2-0 28016 C, 0 1-0 4% Si,
0.8-1.1% Mn, 1.5- 1.8% Cr. N), 0.8 0.15% Ti. 11c. 44- 38. is. 1~0_
138 kg/mm 2; ab' 163- 15Z kg/rnmz, 14J. 48 8-52.6%. ~. 8 8-9 9%. ak, 7. 5-
9 kgm/cm? ' 3) Z5KhNFR steel containing 0,2-0.28% C, 0.3-0.4% Si, 0.6-
0. 80/a Mn, 0. 9 - 1. Z01'r, C r, 0. 9 - 1. 2% N 1, 0. 15 - 0. 2% V, 0. 00 1 - 0. 004% 11, RC 139 -
32; (T13, 147-134 kg/mrnz. t7b, 156- 14r) kg/rnrn2. 42. ~-49.h%, h. 7.5-
8.7%; ak, 8-9.38 kgm/cmz.
1. Dril-s-Production 2 f"it t i rig t ool, --% te. r- a,'..-,
propert:-es
Card Z/2
A
:;~w 'r", 8 3 :1 r r V., 5, t a V.;
A A n W49 a r ri ~j,i % K~ at,, rR to riya
t ra c y a L!, Lab~,ratory for
'7 , r ~i ~_i r i - ii k % r.,zr-_k1 polytechnical
.,ii Fi r. , T,,vP i t 1 w~t r. t Firin rd a tee I s
1 Pi K I i K! Tn 1 y i i!i fu r n, I rig cuttPro), and
n. w ng j teel s nugge s ted by the authors
a r I ~ I K123,i-T and
Y: .! r, w t s, i :-P rK~
Kr, -n r r t'-al oints, the
f
m f- ha n a I r 1:
v - a r. ofthe steelfor repeated
a , , , h, ,
r,v i ~,i * I r. I ~.,- i nf nce o!' ritrdening layer
t 'I U n 5 ~:).q i - n r. t ~ g,~iv ; mi -i- '. qtrength, the
1- -n~a I 9t ir. ii r and
CFirl
N,w 7, -,ns :a !/A 7
v.-!- . ~-n,: -' rv ~-3 n sh-,w- I
triat the
f.,~ an I i , pj,c, r nt,,,) h -aseh a r(JR- n. i ng s t,,(-'
-,-un. ,!' -!is,~hariening,
Ih r th~, naron ng -i, "he 1~t4mum
1; .t ta rii~ I a I a ra of C. I ~3-0. 2 2
r Y,~.! n r,,ie j t wFi t i , n )f the
j, n 1 s4 npi:7 'r,r,Arth in lijuii
re si s- n
n a r t a
ri rt~ tat ips, and
AS SC,' A
A "T'T'R 'A z
Y9
ry e vY j r va~ ny q
py!
I I. C T Fh a -jy a r i e s
turb r- xi i r: r i f a r, r c t,. e d . r.,- inl ro r~, r)r,
r. .9 a a t r, -i -,m a r. e rF.- y r ol a n 1. a q r -m i e
ng .1 f.
T. p
F S. a rA I te s T p -
e r arj ~r, v a n
r I r k. a re va a x
I-. va r -. v.1 w n a 7 'v
r ;h 9
r a 31 .:E a r,~ rt,. r a n I r,~ n iw t. a s, '.'a4 -
sim-v F1 t :1. 1?a
ard 112 masneva er!70"llye-va and i r z t rg
!nat - -~q mp .3 n ar. a- i. -no -.eg nc, lp P r -
m,, rp ; ! s va up - r. f. na, us,- rj,; t 9 19 o r. E, t r- ~ r. - p ! 7 a I
trpntmen~ '",a, to indorg,, . r f ~ -j I nv r. dl- s , vp fi-
t,:~rs as spepa, 1,_;rsitor. -1 - -i ~r% anl
9hr-.-King -,,i _,, - -, r.-, T - 9 1 i cn s a a 3 are I.c- i r,,j . T -
ve s - : pa t s? ur. r 4, 1 vp rp P :;)n~ ' f i cns c, treatmprt and !r
,; h a p e nas teen f~,.nl -~.at some Plements 7an I~p PX_
,!!banged ~tqr-r elemert.9 wit*.out cnargir.~! t.,.p 19lue -~f
he a o.,, V - r,~ c, x p,~ r : m P r. . 9 m~) 9 -~ b p Tn a e.11 - e a y
w -, t ~~ ow r~ i r-s s -a n t a ys rg sa :-,7- - .9 -8 C_.
n! _;q r . i'_ 'i ! ~ r - a n t, r. (~ q r e r ~q
I:agrims, p,~.toH and ? '-cv-e! rpf-ref.-es
1. AllcyLi---P-ocp!3Sin9 Alloys--.aLting
'ard
A-1
fteow- So A. In',
L 2
n
tv a
v
its
53
-ti -4 -S
42
fir
lit fir
I..
1.9
r.
04
j-*Uo.!!jjol
1,\-i 130
-'.91 faV! Is :0: "'o,
Ag
8 z
t
i
0 Q.
F
.I
lip.
as
00
ai
l
ga
04
10a
NKHIMZI, Yu.A.. doktor takhn.nwak iprof.; KAL1VDT, V.P., inih.
lffect of hydrogen on the ninchanical prop"rti"s of cast
carbon steel. 1xv.vys.uch"b.zav.; chern.ant. 2 no.7:
101-101 11 159. (KIRA 13:2)
1. Limningradsiriy politalchatch"Rkiy institut.
(Stfvql castiTwq) (Steel-Hydrognn contont)
NIMBUDZI. Tu.A., dokt.takhn.nauk; K,,ILENOV, V.P.. inzh.
Iffact of ranganese content In steel on hydrogen absorption
4uring th#v process of pourine, into foundry molds. Is7.vya.
ucheb.sav.; chorn.met. 2 no.8:123-126 '59.
~KIRA 13: 4)
1. Ioningradskiy politakhnichankly inatitut.
(Hawnese steel--Hydrogen content)
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PHASE I BOOK EXPWITATION SOV/4199
Leningrad. Politekhnicheskiy InBtitut
Sovremennyys doettzheniya liteynogo proizvodstva; trudy
mzhvuzovskoy nauchno-tekhnichealcoy iwnferentall (Recent
Achievesients In Founding: Transactions of the Scientific
and Technical Conference of Schools of Higher Nucation)
Moscow,, Nashgizv 1960. 336 p. Errata slip inserted.
4#000 copies printed.
Reap. Id.t Yu. A. Neldiendzi,, Doctor of Technical Sciences
Professor; Zds.: N. 0. OIrshovIch# Doctor of TechnIM
Sciencest Professor, and L P. Lebedsvp Docent; Managing
Ed. for Literature on Heavy Machine Building (Leningrad
Departsent,, Mashgiz): Yo. P. Nausov,, Ingineer; Tech. Zda.t
Ye. A. Dlugokanskayam and L. V. Shchetinina.
PURPOSRi This book is intended for the technical personnel
of foundries. It may be used by students of the field.
COVERAGE: This collection of articles discusses problem In
founding processes. Zndividual articles treat the salting
Card 1/9
Recent Achievements in Founding (Cont.) SOV/4199
of metals and their alloys, mechanization and automation
of canting processes, aspects of the manufacture of steel#
cast iron,, and nonferrous metal castings. No personalities
are mentioned. References accompany Individual articles.
TABI OF CONTENTS:
Foreword 3
I. GENERAL PROBLENS, IN THE THEORY OF POUNDING
1. Nekhendzi, Tu.-k. Recent Achievements In Founding 5
2. Gulyayev, B. B., and L. I. Kovaleva. Supercooling of
Ketals 13
3. Kamenetakaya,, D. S. Application of the Crystallization
Theory to the Study of Solidifying Casting* 21
4. Magnitski-, 0. N., and B. B. Gulyayev. Investigation of
the Reglon of Solidification In Castings 25
Card 2/9
Recent Achievements in FoundIng (Cont.) sov/4199
31. Trubitsyn, N. A. Investi-a"'on of Some Factors Affecting
the Fo-nuation of Hot, Cca,~Ks In Stee. Castings 228
32. flr-uznykh, I. V., ~-io Yu. A. Nekhend7.1. Acid Resistant
Cast Steeis 235
33. Gruznykny 1. 17. Effect of Processing Fictors on the
Forma~l -)r, of ff t -,racka In Steel Castings 242
34. Gon,1,,&-,:j '). ~.. :X R'Itiers or Steel Castings 247
35. Yermolayeva, N. P . Some Problems of Creep In
AustenItic Ca!t S tee'.F 252
VT. MON CASTINGS
36. Landa, A. F. S-,rv ,- Pr-)b,em8 -,!' Improving the Quality
of Cast Iron 259
37. Shapr9nov, I. A., and E. V. Petrova. Specific Features
of Scildiftcation of Magneslum-Modifted Cast Iron 265
Card 7/9
Recent Achievements In Founding (Cont.) SOT/4199
44. Korotkovo V. 0. Degassln,-; of Aluml.-im Alloys by a Direct
Current
45. Dubitskiy, G. K. Design of Orpting Systems
Alloy Castings
46. Butalov, L. V.0 Yu. A. Nekhendzi and Yu.
j
Titanium and ItE. AITO-y Shaped Castings
47. L-anav, A. A. 1:1'.1lization of Solid Carbonic
Making NonA'e-.-,)us Metal C-stings
AVAILABLE: Library of Con6ress
Card 9/9
314
for Nonferrous
321
A. Pilin.
326
Acid In
332
VK./dwm/ec
9-12-60
MKIIEM9I. Tu.A.; BDGVAMV. K.T.
Method of maJdag specimens
of castings prepared by the
no.2:2-6 F 160.
(Precision casting)
for the mechanical properties control
welti Wont process. Lit.prolsy.
(MIRA 13:5)
IK
20516
5/128/60/000/005/061
A105/Al 33
AUTHORS: Nekhendzi Yu. A-1 Butalov, L. V.; Perov, 11. 1., and Filin,
~u._ A-.
TITLE: Casting proportion of low-alloyed titanium
PERIODICAL: Liteynoye proizvod.4tvo, no. 3, 1960, 2-4
TEM Investigations showed some chemical changes of titanium at tem-
peratures of 1,OOOOC causi.ng a deterioration of the mechanical properties.
New processes are being employed in the production of argon shielded arc
welded bars, pipes and various rolled goods of titanium and its alloys. In-
tricate casts, free from (.asting defects have been achieved lately. High
melting temperatures (1 725o) and a low heat conductibility (0.04 cal/cm aacl:o
affect the hardening time and fluidity of titanium. The casting properties
of titanium melted in induction furnaces, containing 0.8 - 1.c~~- carbon, have
been tested by the Chikell test (Chikel', 1. - Ref. 1: "Liteynoye proizvod-
stvoll, no. 1, 1959). The testing device consists of a 25 mm thick disk with
vertical channels I - 10 i= in diameter. The filling-up conditions of the
vertical channels are analogous to the filling up of vertical sections of
Card 1
20516
3/1 28/60/000/0o ~/(,() 1 /007
Casting properties of low-alloyed titanium A105/A135
thinwalled casts. All channels more than 6 - 7 mm in diameter were filled
up to full height. At 1,8500C the vertical channels of 10 mm in diameter
fill up to the full height, 5 - 6 mm diameter channels fill up to half thoir
height. The temperature effect on the fluidity of carbon titanium is
shown in Figure 2. The best filling of forms is achieved with vacuum smelt-
ing and pouring. Figure 1~ shows tnat, the overheat being the same, the flu-
idity of titanium and steel are close. Channels of smaller diameter fill up
better with steel because of a less intensive heat transfer; wider channehs
fill up better with titanium -,han with steel due to the low heat conductivity
of titanium. The linear shrinkage of titanium is similar to that of steel;
therefore patterns for steel casting may be used for titanium casting. The
smelting method and gas content of the metal affect the quantity and location
of blowholes. Vacuum smelted titanium does not show more blowholes than
steel. At identical smelting conditions the structure of titanium casts Is
finer. Figure 4 shows dependence of primary crystals on the cross section of
castings and overheating temperature. Higher temperatures increase the grain
size. Titanium hardens fauter than steel; therefore the filling of molds
has to be accomplished faster to reduce the time of interaction of titanium
Card 2/5
2 UM
S/1 2a/6o/uuu/uo ,/uo i
.sting Proportivu if luw-alloyed titanium A105/Al 113
and gas-pha3e. The elimination of blowholes may be achieved by dei~iLssin,_,
during the smelting or by fillint; the furnace with inert gas producing a lc'--v-
cr presjure. Both systems secure good casts. In contrast to zteel, titan.;,;n
r.~oijtens the aalls of ceramic molds forming over the meniscus thin, Solidify-
in -
metal "ton[,-uos" affecting the origination of a thin crust. The right po-
tion of the mold is of creat importance during the pourin,,,; a minimum c'
--izontal surfaces-should 'uo ensured. There are 7 fibures and
uroncoo.
IOU
04
0 j
1j,d IJU 14fl 160 160 109'1
) lennepamirpe ne-Peepeov
Figure 2:
(1) height of specimen;
f2) overheating temperature.
Card 3/5
Casting properti-i of low-alloyed titanium
~~166
T
all
Zoo IIA08.0 a ~~/_
34-01*0
120
rufflem 5)
do 110 Iraq ble
Id IWe Mug
40- .1 to" 1018-IF
J, logo 00
2) 1- V-efl),7 flood"
20516
S/128/60/000/003/001/007
A105/A133
Figure 3:
he' Ch of specimen;
a pe ci! en diameter;
131 steel with 0.1'1'o C;
4 smelting and pouring in the air;
5 vapor;
6 smeltings a) in vacuum, b) in argon, c) in
vacuum, d) in vacuum;
(7) pourinat a) in helium, b) in argonv c) in
argon, d) in vacuum.
Card 4/5
20516
Oftn# prop, r 1. 1 .- uf I 0v,/-,. I
A105/Al33
Repe (1) croos-Oection diameter;
U, 30-
Joj ~
(2) overheatingg;
(3) g-rain 3ize.
JO jo--,o
Card V5
__yZUM=j,_1u.A.. GIMHOVICH, N.G.; GRUZNM. I.V.; BILYKH. V.Ya.;
KUPTSOV. I.V.; 3111NOVSKIT, M.P.; ANTIPOV, N.Y.
Foundry Properties of heat-resistant alloys. Isal. po sharopr.
splay. 61308-313 160. (MIRA 13:9)
(Heat-resistant alloys) (Founding)
UNKHOWIp Tu.A.; KALXNOT, V.P.
Methods of determining the amount of hydrogen evolved from alloys
at room temperature. Zsv.Iab. 26 n0-3:314-316 '60. (MIRA 13:6)
1. Leningradmkiy polltekhnicheskiy institut.
(Nato Is-Hydrogen content)
'~WHOVICII, N.G. (Leningrad); Ni;1:11LNDZI, Yu.A. (Leningrad)
Isotherms or linen of equal overheating? Izv. AN. SSSR. Otd.
tokh. nauk. Met. i topl. no.3s.140-1.42 My-Je 161. (MIRA 14:7)
(Metals-Thermal properties) (Curvos, Isothermal)
KALENOV, V.P.; IMKHENDZI, Yu.A.
Zffect of carbon content and the temperature of casting an gas
content in cast iron,-carbon alloys. Lit. proizv. no. 4:19-21
Ap 161. (KIRA 14:4)
(Iron fowWing) (Ganes in metals)
3/128/61/000/006/002/C)04
Ao54/AI2*7
AUTHORS: Oruznykh, I.V.j NekhendZI, Yu.A.
TITLEi Technological testing or hot cracks in steel castings
PERIODICAL. Litey'noye proIzvodstvo, no. 6, 1961, 7 - 9
TEXT: The technological tests generally used to determine the development
of hot cracks do not fully meet the requirements, because they principally record
the effect of the metal quality and the casting temperature within narrow limits
The technological test suggested simulates the conditions of industrial casting
adequat,i!.'y, while, moreover, the effects of various factors Involved In the cast-
ing process can be studied as well. A ring is used as test specimen which has a
cylindrical part, 100 mm In height and a conical part, 50 mm in height, and walls
of 6 and 20 mm, respectively. The Inner hollow part of the ring is formed by a
core, which ensures the required degree of shrinkage delay, actually causing the
hot cracks. The upper part with a thicker wall which Is connected to the thinner
wall of the lower part ensure the conditions necessary for thermal delay of
shrinkage and consequently for hot cracks at the bend where the thin and thick
wall sectors meet. The upper tapered part can also be made cylindrical in order
Card 1/3
S 128/61/W;'(X)C/002~004
'rec~mological testing of hot cracks In steel castings A054/A127
to increase the capacity of the specimen. The runner system consists of a stand
pipe and a feeder. There are two dead heads at the top of the specimen, each 25
mm In diameter. Some 15 kg of metal are fed tangentially into the cylindrical
part.. The size and shape of the runner system ensure that pouring takes a lorg V
time, so that a high temperature Is obtained In the specimen In the zone where
the metal enters. All this increases the sensitivity of the test to a number o.r
external factors affecting the crack formation. The feeder widens upward towards
the stand pipe In order to prevent solLdification. Hot cracks usually form in
the cylindrical part of the specimen andat the bend where the thick and thin wall
sectors meet. The tendency of the casting to cracking Is usually assessed by the
degree of Its crack resistance. However, the parameters Indicating this degree
do not give an Indication of the size of the cracks that form. Nor Is It suffl-
cient to assess the tendency of the casting to crack formation to the length of
the cracks. The "cracked" condition which should be applied for completing the
parumter of crack resistance takes Into account both the length and the width of
the cracks formed. Therefore, It is suggested to use the area of cracks on the
surface of the casting as quantitative parameter of Its crac)wd condition. Tests
carried out with carbon and alloyed structural steels prove the method based
on the area of cracks Is reliable. The results obtained with this method corres-
Card 213
3/126/6 1 IX-01 r'-061OC2, x!a
~e-nnologlcal testing of hot cracks In steel castings A054/A127
pond tr, those received for crack resistance by conventional methods. By calcu-
Ial~lng the crack area in the! ~astlng, the steels investigated cculd be arranged
11-,-:)rcLing to their crack resistance. Other casting factors such as the core mix-
'lure were a-so studied In the laboratory of the lAningradakly polltekhnicheskly
institut (Leningrad Polytechnic Institute). When a composition of 94% quartz
sand, 6% refractor- having a strength of
j clay and 6% liquid glass (density 1.5
~).40 - 0.50 kg/cm2 In moist condition and 3.0 - 3.5 kg/cm~lwhen dry, was used. no
cracks formed at the wall lAnd of carbon steel castings, most probably due to the
slight difference in the thickness of the wall sectors for the given casting con-
litIons. By changing the ratio of thickness of thin and thick wall sectors in
the specimen It is possible to determine the critical wall thicknes., which for V
given local circumstances Is necessary to prevent crack formation. As It is eaEd-
Y ti, modify ,hp vsr1cus factors of ,asting in the test suggested It is
s-jitatle f,r t4p determination of the effect of these factors and of stppl zom
pcall~lon on crack formation. There are 5 figures, 3 tables and 4 references.
3oviet-bloo and 2 non-Sovlet-ti7c The references to thr- English-langiiage publi
caltions rpad as f7,'-Icws
H.F. Hal,, "Iron and Steel". no. 15, 1936, 61i - 93, K.
Baklus, "Foundry Trade Journal", v 104. no. 2156 and 2159, 1958
,ard 3/3
tit) C)
_j.A.VU.L
3/598/61/000/006/032/034
D217/D303
AVTHORSt Nekhendkifi Yu.A., Butalov, L.V., Perov, N.I., and
Ymn, Yu.A.
TITLE: Casting properties of low-alloyed titanium and
mechanical properties of castingQ made in this
material
SOURCEt Akademiya nauk SSSR. Institut metallurgii. Titan i
yego4Wavy. no. 6, 1961. Metallotermiya i elektro-
khimiya titana, 240 - 250
TEM The casting properties of Ti, containing 0.8 - 1.0 % C,4&-
ted in the graphite crucible of an induction furnace, were investi-
gated. In order to determine the dependence of fluidity 'on various
factors, Chikel's probe was used; this consists of a stand and
disc with vertical channels of various diameters made in it along
it's circumference. The influence of aupe4pating temperature (dif-
-erence between casting temperature and melting p%int of Ti) and
atmosphere on the fluidity of Ti was investigated and the mechani-
Card 112
31041
S/598'61/000/006/032/034
Casting properties of low-alloyed ... :)303
cal properties of Ti castings and their microstructures were stu-
died. Some aspects of the manufacture of, and defects encountered
in, T1 castings are discussed. It is concluded that the mechanical
and castirgproperties of Ti are close to those of special steel
and enable completely satisfac44ry castings of considerable comple -
xity to be obtained, in spite of some difficuities encountered.
There are lu figures, i table and 4 referencest 3 Soviet-bloc and
1 non-Soviet-bloc. The reference to the English-language publica-
tion reads as follows: Van Thyne and H.B. Kessiert J. Metals, USA.
1954, 6/2, 03.
Card 212
GIRSHOTIGHP UrG.; NE,KHENDZI, Yu.A.
Iffeet of inoculatioc on the crystallization of alloys. Lit. proisy.
no.5al'9-25 Vq 1424 (KIRA 160)
(Crystallization)
(Founding)
KRI34, Eri , V, . A . ; N E K ~ I: I i r,. I , Y,,j . ; . , i o k t,,, r ! t- , %. . Y, a i ~k , r o t3 a D 7, ~ ..
I ;rafcKJ f s, - , -,, E *- e e ' ' F a.~i -, nn,.) e ~ ' t 1 -3 . z
I
lepJr.,vumykf s*fl.,) . ',~ --- h , .1 as ~ 4. no. t r ~., fj n i a p ~ f ~ - .
(?I,TRA 18:1)
22~, P.
3/) 28/62/00-0/010/001/001
A004/A 127
AUTHOR: Nekhendzi, Yu.A-.---
TITLE: The effect of vacuum treatment on the casting properties of alloys
PERIODICAL: Liteynoye proizvodstvo, no. 10, 1962. 24 - 32
TEXT: The author starts with*& survey on the development of metal vacuum
treatment In the ladle and during pouring, enumerates a number of Soviet and
foreign vacuum processes and points out that vacuum treatment in the primary
ladle under slag Is the most easy to carry out, ensures a sufficiently high de-
gree of degassing and purification of the steel from non-metallic inclusions,
etc. Treatment of the metal in the ladle in a vacuum chamber takes 10 - 15 min
at a residual pressure of 5 - 15, up to 30 mm Hg, while vacuum treatment during
overflowing takes 5 - 8 min at a residual pressure under optimum conditioni of
1 - 5, often 10 - 20 mm Hg. The author gives a detailed description of instal-
lations for vacuum treatment during overflowing and In the ladle, and offers a
nwaber of graphs, figures and tables showing the test results. Both standard
mid other alloys with special physical and chemIcal properties were tested. It
Card 1/2
S/128/6Z/000/010/001/()Ol
The effect of vacuum treatment on the .... A004/A127
was found that vacuum treatment practically does neither affect the liquidus and
solidus temperatures, nor the solidification duration of a number of alloys. al-
~pough a more protracted vacuum treatment causes such structural changes of some
alloys In the liquid state that the fluidity improves. Generally It can be said
that vacuum treatment affects the alloy fluidity in various ways. depending on
the conditions of the vacuum treatment proper and Its effect on the liquid met-
al. The lower the residual pressum, the grOater is tkw effect of vacuum treat-
ment. There are 18 figures and 3 tables.
Card 2/2