SCIENTIFIC ABSTRACT KASIMOV, A. F. - ROMANOVA, O. A.
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CIA-RDP86-00513R000101920014-3
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S
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Publication Date:
December 31, 1967
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SCIENCEAB
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07 - -
a fl
A A
jf7
IM110
AUTHOR:
TITLE;
R/00 60/000/005/006/014
A231 YA1,26
~rcan, M.
Investigations into the bending of girders with rectangular
cutouts
PERIODICAL: Studii ?i Cercet6ri de Mecanic-a Aplicatg, no. 5,
1960, 1175
1193
TEXT: The author examines the pure bending of girders with an axial
row of rectangular cutouts in function of the influence of this
row of cu.
outs on the distribution of stresses and the ability of
distortions of the
girder. Special attention is given to the influence of the row of
cutouts
on the distribution of theuiitary stresses in front of the webs.
In a fu-
ture paper, he will present the investigations on bending with
cutting folas
The experimental studies have been carried out by the
photo-elastic method
in the laboratories of the INCERC (Institutul de cereetsri pentru
conalrue-
tii Ti. economia construcliilor Research Institute for
Constructions and
Economy of Constructions) in Bucharest. Models, having some
characteristics
have been studied. cXH is the-height of the cutout, in which H is
the height
Card 1/7
Investigations into the bending of...
22247
R/00 601000100510061014
A231 YA126
of the girder and ot varies between 0-15 and o.66. ~H is the
base of the
.cutout, in which 9 varies between 0.01 and 0.5. ~'H is the
base of the web,
vaying between 0.166 and 1.165. K varies between 0-015 and
3.333.
K_ varies between 0.25 and 4.6. Photoelastic tests for the
determina-
tion of isoclines have been made on plexiglass samples and for
the deter-
mination of isochromates on Dinox P-110 samples. Isoclines have
been es-
tablished in white light and recorded by drawing. Isochromates
have been
recorded by photographing in sodium monochromate light. The
device used
for bending tests is shown. The following observations have
been made on
the behavior and participation in distortion of different zones
of the gir-
der: The bases of the girders have formed an isoclinal zone of
00 para-
meter, except disturbances around the corners. The webs have a
similar
trend, not depending on their absolute dimensions for the same,
KI = -L 3atio.
In case of Klaol, the following categories of singular points
could be&ob-
served: a) internal singular points of the attractive type, one
in every
web, located in its center; b) Singular contour points of the
repulsive
type, one at every vertical side of the cutout. They indicate a
change of
the sign of stress on the contour and thus are neutral; c)
Singular corner
points located at every corner of the cutouts, being of II
order. In case
Card 2/7
22247
R/00 601000100510061011,
Investigations into the A231YA126
of K1/_1 two more singular DOil'.--- are formed,.located at the tivo
ends of t.".0
webs, on'their vertical axes. They are sing-ular intci%nal points of
the re
-u~ar internal point lo
.pulsive type. In case of their.appearance, the sinL
cated in the center of the web is transformed into a-repulsive-type
poin 4,
In.this case the singular corner*points become attraq *tivo-typo
points. The
study of isochromates confirms the-observations made on isoclinal and
iso-
static tables. -The isochromatic tables present in the base-bands
parallel
to the girder axis the characteristics of the pure bending of the
band. If
the height of the cavities is relatively small,c6'-0-33, the-behavior
of .
these bands is-not disturbed and their parallelism is maintained
behind the
zones of the cutouts. In case Of"O-33, the influence of the cutouts is
extended to the outer fibers.' If*Kl>l, there appear on both sides of
the
cutouts'zones of very small stresses along the hei ght of the cutouts
and a-
long the length qa,(Fig. 10 b)., The singular internal points are in
the
neutral zones.,. &-the basis of these data, the author was able to
esiablish.
the.typq of distortion of cutout and web. The singular points located
in
the middle of the verticals which limit the cutout, correspond to
some in-
flection points. The formation of.a neutral zope having a 2a height
is vezy
important. The evdluation of-the unitary normal forces in the
vertical sec-.:
Card 3/7
Invastigations into the banding oP..%
2 247
R/008 60/000/005/006/014
A231 A126
tion of the web axis shows a Navier type diagram modified
by.the appearance.
of some hiCh neutral zones. In case of KI-41, the unitary
normal forces in
the external fiber of the vieb's transversal section is
superior to the'uni-
tary notmal stress in the external fibe37 of,the transversal
section in front
of the cutout, which is contrary to expectations. This is due
to the fact
that the inertia moment of the cutout section is smaller, so
that the uni-
tary normal force in the external.fiber is greater than in the
web's see-
tion. A calculation formula,for the unitary normal force in
the most
stressed section of the Yteb can easily be established.
Starting .7ith
t(y - a),, .0),
in ivMch y>,a;>O, and t is a constant of proportionality, the
author deduces
a) .(3):
10 - a80
in which M is the external mopent, 10 the inertia moment of
the active sec-
tion'in relation to the neutral axis and.So twice the value of
the static
moment of one of the active i6etion's half value. The
expression (3)'is a
general form of the Navier's formula for the pure bending. In
case of
Card 4/7
222
R/008/60/000/005/006/014
Investigations into the bending of... A231/A126
V0.75),
(Fia- 15): The force diag--ams are no longer linear, but can be
reprosented
by' two. straight lines (Fig. T6 a, b, o). The peiiks A on the
graphs appear
due to a concentration of stresses produced by tha corners. In
this case*
the unitary normal forces are given.by
M . 'Y Y,.;I~ R1 > (4)
If a becomes 0 and 1, one obtains the classical equation of Navier.
The author finally studies the distortion by pure bending of
girders with
cutoutb. In case of K1>1, the non-stressed zones appear as in
Figure 10 b.
The calculation of these girders is facilitated by the
establishment of a
,..ratio between the e asticity module of a girder without
cutouts, called
y module Ucch, and the elasticity module of a girder
equivalent elasticit
cut6uts E, B" 1
(8)
+
Nomograms supply thd values of the 'ratio in function of K1. On
the'
E
Card 5/7
222h7
R/00 60/000/005/006/014
Investi.-ations into-the bending of... A231%,126
basis of these nomograms the,equivalent elasticity module of girders
with
cutouts and thus the sag*of these gird4rs, due to the constant
bending mo-
ment can easily be computed. These nomograms also show that the
influence
of the cavities on the distortion produced by bending the tested
girders is
low. In case of K14,1, the distortions can be computed on the.basis
of the
following considerations:, the extremities of the webs alone
participate in
the distortion of the bases. Thus, the calculatiQn of distortions can
be
deconplished by considering only.the base sections along the vihole
len~;th of.
3 sets of photos and 8 references$ 6 So-
the girder. there are 15figures
viet-bloc and 2 non-Soviet-bloc.
SUBMITTED: April 23,.1960
0f#
Figure 10 b:
_:1?L
Card 6/7
q, q;~&
AUTHOR:
TITLE:
PERIODICAL:
R/008/62/'013/002/006/009
D272/D3P8
AKc~,n1_ M.-
A method of designing rigidity diaphragms with a row
of holes
Studii si cercetdri de mecanicd aplicatd, no. 2,
1962, 4~1 - 471
T.---,'XT: The differential equation of the shearing forces in
upright
beams is establi8hedv and solutions are given for various types
of
loadings - uniformly distributed load (due to wind), triangular
load with its maximum at the diaphragm extremity (due to
seismic ac-
tion) and concentrated loads at the diaphragm extremity. In
all-ca-
ses the conclusions were verified by photoelastic models. The
method
of calculation is based on the hypothesis that the zone of the
row
of holes can be replaced by a strip with reduced elasticity
modulus,
obtaining thus a beam without holes with an inhomogeneous
structure.
The results are given in the forn of graphs. There are 10
figures.
ASSOCIATION: Institutul de cercetari In construe ii yi economia
con-
strue iilor, Bucuregti (Institute o1 Construction Re-
Card 1/1 searcl and Construction Economics)
V/0
R/0161M/11007/oo4/ool/002
E191/E135
AUTHURS: Nicolau, Ed.
TITLE; Investigations of load carrying building structure8
by means of plastic models
PERIODICAL: Revue de m6canique applique'e, v-7, no.4, 1962,
751-780.
'TEXT: The work of the INC~RC with model's made of plastics
for the stress analysis of building structures is reported. The
diversity of the methods used is emphasised since every method is
limited. Models of up to 1 m size are used in spite of differenpes
of behaviour on account of a higher Poisson's rattio in plastics
and
the unsuitability for destructive testing. Model laws have been
studied to determine the choice of materid1s and techniques and
the
interpretation of results. The conditions of similarity are
obtained from the equilibrium of an elementary slab, the geometric
relations between the deformations and displacements and the
physical relations between the stresses and strains. The
similarity
factors-are hereby determined only in parts the remaining factors
being chosen from the test conditions, including space available
and adequate deflections of the measuring devices.
Card 1/4
Investigations of load carrying ... R/016/62/007/004/001/002
E191/E135
The inexpensive investigation of many design variants is made
possible by model techniques. 1~xamples are discussed, including
several arch constructions, a circus roof structure, a multi-arch
factory roof and a restaurant structure. Distribution of load
carrying in complex statically indeterminate structures is among
the main features discoverable by models. Structural elements made
of composite materials have been examined by model techniques
including reinforced and pre-stressed concrete structural
elements,
pressure distributions when two bodies with a different Young's
modulus are in contact (for instance, a foundation on soil), and
the simplification of models by the replacement of cavities with a
material of low modulus. For example, the neutral axis of
reinforced concrete beams was examined on the assumption of an
ideal bond. Reinforced concrete beams in the condition of
incipient cracking, owing to a loss of bond in the section between
the cracks, have been tested by model techniques. Reinforced
models with artificial cracks were used, made from a material
specially developed at the Institute with a high optical activity,
a reduced edge effect, and a capacity to be bonded with adhesives
Card 2/4
Investigations of load carrying .. R/016/62/007/004/001/002
E191/E135
to the reinforcement consisting of high tensile steel wire. Two
types of crack were tested, namely with and without the capacity
to transmit compressive stresses. For large crack heights it was
found that the neutral axis coincides with-the tip of the crack
so that the crack does not propagate with an increase in the
load.~
Generally, photoelastic models-were found to behave in close
agreement with actual full-scale structures. Pre-stressed
complex
structures, such as the dome of the Bucharest State Circus
building, were model tested with strain gauges. Cavities can be
replaced by a material with a low equivalent shear modulus.
A wider range of materials is called for'wifh Young's moduli
,between 20 and 40 o0o ka/cm2. Practical-hints are given on.
model making including pre-stressed m6dels; method of pre-
stressing with cables and its inspection by sound frequency
measurement; strain and deflection measurements.
'There are 24 figures and 1 table.
Card 3/4
Investigations of load carrying... it/ol6/62/007/004/001/002
E191/E.135
ASSOCIATION: Natichno-issiedovatellskiy institut po
stroitel'stvu i ekonomike stroitell,%tva - INCERC - t1
Bukharest kScientific Research Institute of
building and Building Economics - INCERC - Bucharest) j
Card 4/4
J-NIGOLAU~ Ed.
AKM,-M
Structural strength of buildings studied with plastic
models.
Studii core mec apl 13 no.3s621-649 162.
1. Inatitutul-de corcetaft in constructii A economia
constructiilor
INCERC, B4curesti. 2. )Wmbru al Comitetului do redactie,
"Studii
ai cereetari de mecanica aplicata" (for Arcan). --
ARCAN, M.; NICULAU, Ed.
"Stresses and deformations in the machine parts and
joints" by
N,I.Prigoi-ovskiy. Reviewed by M.Arcan and Ed.Nicolau.
Studii
cerc mec apl 13 no.3:807-808 162.
1. Institutul de cercetarl, in constructil A economia
constructiAlor
(INCERC), Bucuresti, si membru al Comitetului de
redactie,
"Studii A cercetari de mecanica aplicata" (for Arcan).
2 a 9Tj Rl
lora,
Of ltlirtor:, ~.n
ic Val uO o t,~a
in de
. ARCANIN, Blanka, ing.
Pyrethrm, a plant proteative. Kem.ind 10 no.1-121-22
Ja 161.
1. Zavod za zaotitu bilja, Zagreb.
POY,ROVSKIY., A.A.; ARCHAKOV., A.I.; DEVICHENSKIY, V.M.;
SHUMIKINA, O.B.
Materials on the distribution of aldolases,
transaminases and esterases
in liver cells. Dokl. AN SSSR 158 no.2:474-476 S 164,*
(MIRA 17:10)
1. Predstavleno akademikom A.N.Bakulavym.
POKROVSKIY, A.A.; ARCHAKOV, A.I.
Study of the effect of promazine on the
solubilization of liver
acetylesterase (3.1.1.6) as affected by carbon
tetrachloride.
Dokl. AN SSSR 160 no-5:1203-1205 F 165.
.(MIRA 18:2)
1. Vtoroy Moskovskiy gosudarstvennyy meditsinskiy
institut im.
N-1. Pirogova. Submitted October 12, 1964.
PANCHENKO~ L.F.; AMCHAKOV., kjo ,
Aetivity of-acixt phosphatase
(phosphomonoesterase-II) in the
brain of rats in trausatio.shook.-Biul.eksp.biol i
red. 59
no.5t5l-53 165, NIRL Ia.-II)
1. Kafedra biokhimii (sav. - chlen-korraspondent
AMN.SSSR
prof* A.A.Pokrovskiy) II Moskovskogo
gosudarstvennogo medi-
tsinskogo instituta imeni N.I.Pirogova. Submitted
Ju4 12,
19640
ARCHAKOY, B.G.; VASILOYEV, V.N,,!~, NEUSTROYEV, V.D.~,
FOLOZOV., A.I,.-,
PREOERAZM;NSKIY, A.A.
Comparative data on the determination of the
concentration of the
smallpox vaccine virus by, titration in chicken
embryos and tissue
cultures. Vop.virus. 7 no.68731-f34 N-D 062. (MIRA
1684)
I
(VACCINES) (SKULPOX)
ARCHAKOV, N. V., Cand, Med Sci -- (diss) "Morphology
of the
--waamwow .a.,
Medial CutanioZ Bra~qhioq Nerve and Medial Cutaneous
AntAbra-
I N
i_~
chial Nerve _ V ronezh, 1957. 19 pp (Voronezh State
Medical Inst), 100 copies (KL, 48-57, 109)
- 66 -
ARCHAKOV, Yu.I., Cand 'ech Sci -- (diss)
"Study of the
't-J, -~,I
stability of steels-applteek4e in machiY
and dekzides
of the petroleum and chemical industry I-a
high temperatures
andFpressures Len, 1958, 10 pp (Min of
Lq%~ ixed banner
Higher &cation USSR. Len Order of
Tech Inst im Lensovet) 120 copies (KL,
29-58, 131)
- h8 -
69712
ly-11-66 SOV/81-59-9-30466
Translation from: Referativnyy zhurnal. Xhimiya, 1959, Nr 9, P 59
(USSR)
AUTHOR: Archakov, Yu.I.
TITLE: Hydrogen in Steel
PERIODICAL: Tr. Leningr. tekhnol. in-ta Im. Lensovet 1958, Nr 46,
pp 125 - .132
ABSTRACT: The solubility of hydrogen (SH) in some ferrite and
austenite steels
and the effect of the individual alloying additions (W, V, Ti and
Cr)
on SH at a pressure of 100 atm and a temperature of 5000C are
investigated.
An installation is described for saturating metals with hydrogen
permitting
the fast cooling of samples from high temperatures to room
temperature
without reducing the gas pressure, The results obtained are
presented in
graphs and tables, from which follows the. small additions of W
(1.61%)
and V (0.45%) increase SH 5.5 times and twice, respectively,
an.admixture
of 0.48% Ti practically does not affect SH, and the
increase-in--the Cr
content to 13% increases SH only insignificantly. In alloyed steels
of
the wstenite class SH is by 4 times higher,than in carbon steel of
grade 20 and by 6 times higher than in alloyed steels of the ferrite
aw
Card 1/2 class. With the aim of explaining the possibility of
extending the 1 ~/
ARCHAKOV, Yu. I. Cand Tech, Sci -- (diss) "Study of the
strength of steels used
in machines and apparatus of the petroleum and chemical
industr4s under high
temperatures and hydrogen pressures." Len, 1959. 15 pp
(Min of Higher Education
USSR. Len Order of Labor Red Banner Techmologiewl Inst im
Lenso-vet), 150 copies
(KL, 41-159, 104)
-21-
TITLE: Conference on Autoclave Proc.-.30en
PERIODICAL: Talretayye =Otally? lQ59. Nr
7. PP 84-87 (U---R)
ABSTRACT: On 23-26 rebruary 1959 a
conference was hold In Moscow for
summing-up and coordinating work Oa
autoclave ;rocesces
noble m
in the metallurgy of heavy, non-forroun,
rare and
-
k. The conference board imports am
follows:
M
kht
Gl
D
Y
.
u
.
anor,
atoretmet, on progress throughout the to-
world an the use of bydrometallurgic.1,
particularly au
_T_
Glare, methods for non-ferrous mad
rare metal production;
0. N. Dobrokbotov.
Cipronikell , on nickel losebizg practice
Card 1/5
at some Soviet works - N.
_1-0nachkina and S. N. Dobrkh--
on he
thermodynamic& and kinetics of the
selective reduc-
t
tin
by hydrogen and carbon zionoxide under
pressure or
miansi and cobalt fr=
solution, _I -L
u.- Leshch and X._X_
j9pqys, GipronLkell ,
on design decisioin an the appli-
bazlon
of the flawsheate dealt with by 0. N.
Dobrokhotov
at the T-h-ralnUel- and
Caveronikel Combines and the
Ufaxeyakly
(Tjfo) Nickel Works; j._A._Maqleaitak1*,
in
L
i
i
Mi
I
Len
tut (Len
nstitute)
gradsk
y gorcyy lust
ngrad
ning
Go the advantages of a combined
flotation-autoolare
method for
alckel-alectrolysis of all--a3 contalning
platinum-group metals; T__B_ Zhilk-l-,
Severoalkell combine,
Gint3votc:st, on the essentials of the
and V.
n4rutral method of oxidizing
leaching or nickel concentrate
from
onavarter-matte flotation; 1. Sabol$ an
prellssinary
investigations on the
development or-i-bdljhurcu3-
salpharic
sethod for 1ea-31&IAg nickel and cobalt
from
oxidized nickel ores; N. It.
Ueslenitakly, Mevh--Obr, on
the main
results of LmjegFt1g-atjonz" of the
autoolove-fioda
Card 2/5
process for
treating tungsten-ore beneficlation
Products:
T__L_ZaPxmkaylc, Makhanobr, and
_D__A~ MelAkhav, Skopln-
'
blects in the
*Jceya (akoplnsk) TOM separately. an pro
application of an autoolare-soda
flo-shest to schealite
and wolframIts raw
material; G. A. Meyerson, K. Tt.
Shapira.
X. N. Khp,"k$1, R. A.-Pivl~uk "d A. P.
-
tallov
'f-- - y kly mintut taistaykhai
Lr
'
3
G
T
W
r
us Metals Institute) on the treat-
n
1e
r
.jj .
ment Of tungsten concentrates in
bermet-cal, beated bell-
mills with a-ids
or caustic alkalisa; _V. 1. Spiridanors,
S.-I. Soball. Te-_J_GulyAy:%va. Z. I.
Berlin, I. r---_MTe!V
and B. 1. acko,
GintaTetmet, on the treatment Of
prepar
sulphide molybdenum raw material
by
oxid1zlog autoCleve alkaline leaching,.
1. M. Nolen'
and S. I, Scholl on the
kinetics of oxidizing autoQlare
*
N. Zell-an and Z_X..Lyaq1n&. Xrescayarsk
leeching; i:
Xon-F.rro-is otals Institute.
on the results of a study
of conditions
for the selective separation of lower
oxides
of tungsten and molybdenum from
their silt solutions by
hydrogen under
pressure; M_Y, Darblayan, Gorno-
_Card 3/5
notallurgichaskly inatitut
jUjaing-Ustallurgical Institute)
of the
Soymarkboz (ozodomi. touncil) of the
A=yan2k&ya SSR
(Armenian SSR), on his
Investigations of ammomiacal auto-
clays
latching under oxygen pressure of
molybdenum concen-
trat..; an
--ch-i~al-rcoaccic factors of
wmaoalacal
leaching-. A. 1. SlaeLlalkova and 1. N.
Plaksla,
Krasnoyarsk
lion-rarro"~-XViLlai'Tmntltute. Go an
Ox1dLziEj
autocl%Te promeno for
gold-containing raw material; N. 0.
-
TjU.-U, Ur%I1skIy politen--j-haskly
lostitut (Ural
Polytechnic Institute) a=
the "haylour of noble metals
in cridizice
autoala~ leaching it thiosulPtste
solutions;
y
A. I. Tsefl and D. A. Tazawa mud A.
Tu.-Ladsbffi
'
_
_
1T
k&= SSV ;tallurgy
S
Can urgl I I ObZg63hbenlYA
A
and Beneficiatior. Institute of the AS
raz SSR), respectively,
on the
physinoche=iom! fundamea"als and on
works' trials of
autcalave as,!, leacalng
or poly=etallic materials; 1. 7u.
Loshch,
Gig-rcaikell , on the unsuitability Of
autoclave
leaching for lize-con tal nine,
materials; V. A. Beroahteln
"
VXMI, on lad6strIal experierce or a
coc-.i6-u-oUm;-WiE6caT~
leaching process
for bauxites; V. G. Tracer. IC1Xh AN
Card
4/5
3SSR (IONKa AS U=R), on -ompounda of
ocoo rare sl~menta In
various Tolency
states under oxygen and hydrogen pressure
in the presence of anhydrous ammonia; Z.
L. Berlin,
Gintavatmet. on autoclave
domIS2 and operation;
vier, 01pronikelt ,
and 11. Ye. VishnoTakiy, VNII
J&ko rd-
nd the deve-
a
T
b 1 i
l
i
a
a u
o
v a
es
stud
I.M"In, on mode
lopment of mixers: U. A. Polyaaov, K. S.
01reftet. on
the design or an experimental
high-prean-aie julj pump.
r-1--Savarts.
NIIl2L11=ASb. on the selection of steel
for said leachlor of cobalt matte and
matte-flotation
cOccentrate;
VKIX2eftnkblm, on carro-
elan of
trP--IXM2S PT. IZXA:;.T, lVanORD and
IDGND steels
01utlons presence 0f metal
In Ada and .111~.Ilae
salts an-j Oxygen at
5 - Perybinm and
15 V.
:
t 1, or on =ochanical
V. V. xmIcatin. rmrn r k I=. s.p
pr_-ortren c.1 bydrogen-affected teals.
The conf.r.ncs
made retorxm~zlationz al=ai
at the extension ana imp-ove-
18-7100
SOV/8-0-33-i - 17/49
AUTHORS:
Archakov, Yu. I.,
Grebeshko'va, I. D., Teodorovich, V. P.
TITLE:
The Effect of Heat
Treatment on Decarburization and
Cracking of S eels While Under
Hydrogen at 500-6000 C
and 800 kg/cm Pressure
PERIODICAL:
Zhurnal
prikladnoy Ichimii, 196-0, Vol 33, Nr 1, pp 89-94
(USSR)
ABSTRACT:
This study was started under the supervision of
Professor
V. V. lpatlyev. Steel of type 40X (0.41% C; 0.85% Cr)
and melt 7475 (0-18% C; 3.05~6 Cr) were hardened and
subsequently tempered at various temperatures which
allowed the
obtaining of various Cr---ontent in the
carbide phase and solid
solution. The tests were made
in an autoclave under hydrogen
pressure of 800 atm. The
carbon content, structure, and
composition of the carbide
phase before and after the tests were
determined. The
composition of the carbide phase was determined
by
means of the electrolytic dissolution (N. M. Popova,
Card 1/3
Carbide Analysis of Steel--Karbidnyy analiz stal-i--,
The Effect of Heat Treatment on Decarburi- 77508,
zation and Cracking of Steels Whili~ under S OV/8 3 3 -1 - 17/4
9
Hydrogen at F500-6000 C and 800 lig/cin'
Pressure
Oborongiz, 1957) and by means of chemical, and in some
instances, X-ray analysis. It was established that the
amount of chromium in the carbide phase increased with
the tempering temperature, and the rate of decarburiza-
tion decreased. Practically full decarburization was
achieved with tempering temperature equal to 550-7000 C.
Metallographic investigation showed that the size of
microscopic cracks appearing along the grain boundaries
increased with the tempering temperature and with the
chromium content In the carbide phase. It was found
that steel with 0.18% C allqyed with up to 3% Cr resisted
the corrosive action of hydrogen better than steel 40X.
The investigated steels showed low resistance, however,
at 6ooo and 800 atm hydrogen pressure; evidently, the
amount of the alloying elements was insufficient to
bind all the carbon into carbides. Addition of 0.5-
1.0% molybdenum to steel with 0.16% C and 3% Cr did not
Card 2/3 increase its resistance against the action of hydrogen
'The Effect of Heall Treatment on Decarbluri-
zation and Cracking of Steels While
Hydrogen at 500-6000 C and 800 kg/cm-
Pressure
ASSOCIATION:
SUBMITTED:
'7 7OE'
SO VI~D- 33- 1 -
under the above-mentioned conditions. It was also
found that a new phase, a- so-called "carbide precipitate,
was formed in all decarburized steels on electrolytic
dissolution. In chromitm steels, this precipitate con-
tained consider-able amounts of chromium, and in chromium-
molybdenUM steels, considerable amounts of Cr and Mo.
This new phase requ'res further studies. There are 2
tables; I figure; and 3 references, 1 U.K., 1 German,
1 Soviet. The U.K. reference is-.N. Inglis, W. Andreus,
J. Ir. St. Int., 228, 383 (1933).
All-Union Scientific Research Institute for Petrochemical
Processes (Vsesoyuznyy nauchno-issledovatellskiy institut
neftokhimicheskikh protsessov)
January 20, 1959
Card 3/3
S/080/60/033/011/007/014
A003/A001
AUTHOR: Arohakov, Yu, -1.
TITLE: An Investigation of the Rate of Hydrogen Corrosio4
Carbon Steel
Pipes
PERIODICAL: Zhurnal prikladnoy khimii, 1960, Vol. 33, No. 11,
pp. 2547-2552
TM: The work was guided by*professor V,, V. Ipatlyerv and is a
contitWation
of his work in (Refs. I and 2). The effect of external factors
on the decarboni2a
tion, o.f.carbon steel was investigated here. imental method is
given in
The exper
(Ref. 8). Carbon steel of the grades 20 and 30 was used. After
the experiments
thd pipes werecut and the butt sections were ground. The
decarbonization depth
was investigated under a microscope with a magnification of 87
diameters. The
first series of experiments was made at hydrogen pressures from
50 to 800 kg/cm~
and a temperature of 525 0C. The data obtained with stresses
not exceeding the
creep limit of steel form a straight line (Fig. 1). The
dependppee between'the
docarbo'nization depth and the iolmess of the pipe wall was
investigated A
prossui~bs from 50 to,300 kg/cmr, a temperature of 5250C and a
duration of'206
hours. It was shown that the deearbonization depth increases
with the thickness
Card 1/3
S/080/60/033/011/007/014
A003/AO01
An InvIestigation,of the Rate of Hydrogen Corrosion in Carbon Stiel
Pipes
6f the'wall. The relation between the logarithm of the value of
decarbonization
depth and the logarithm of the value of the innei pipe
radius is expressbd by a
straight line. The effect of the temperature
on the decarbonization rate wa3
investigated in samples with an outer
diameter of
Figure 1:
30 mm, a-
wall thickness of 10 mm, within the
.
0
.temperatiire range of 350-6 0 C and hydrogen pres-
sures from 50 to
600 kg/cm-. An exponential de-
pendence qf the constant of thq,
decarbonization
,
rate on t~e temperature was,foufid. The results of
the experipents
show functional dependences betmeen
the decarb~qni~ation depth and the
prossure, the
temperaturo, the wall thickness and the inner
diamete'r,ot the pipes.
n~re -1'- tependence of the ConstAnt of the
De
carbonAzation Rate Kon the Hydrogen Pressure
.
P (kg/enF)
4
Wall thickness (in mm): 1 7, 3 10,'
-4,7- 12
.
Card 2/3.'
a ego 460 coo 8GL7
S/080/60/033/011/007/014
A003/AO01
An Investigation of the Rate of Hydrcgen Corrosion in Car-bon
Steel Pipes
There are 7 figures, 3 tables and 9 refei,-!~,nces- 6 Soviat,
2 English, I American.
A5SOCIATIONs VsesoyuzzW nauchno-issledovat6l'skly, ln'stit.U4
- neftc-khimicheskikh
protsessov (All-Union'Scientific Reseax-ch Institite of
Petrochemical
Processes)
STJBM' ITTED.- January 16, 1960
C ard 3/3
S/080/6r)/033/011/008/014
A003/AO01
AUTHOR: Archak
21,_ Yu. I.
TITLE: The Derivation of a Formula for Calculating the
Decarbonizationt/Depth
FMODICAL: Zhurnal prikladnoy khimli, 1960, Vol. 33, No. 11,
pp. 2553-2557
TEXT: A general kinatio equation is deriied for the dependence
of the
decarbonization depth in the gorrosion p which takes place in
pipes made of
steel 20 at increased temperatures and high pressures of
commercial hydrogen, on c
the temperature, the pressure, the duration of action, the
wall thickness and the \j
inner pipe radius. The ork is a continuation of Ref. 1. The
basic formula used -
here: lgK = -A "- -1 - 10 + B is identical with Formula (5) in
Eef. 1. The value
A' in this formula is a constant, the value B depends on the
change of the pressurq
the inner radius of the curvature of the pipes and the
thickness of the wall, The
dependence between t,~6 free term B and the pressure P at
temperatures of 350 -
6300C was found. From a graph of the experimental data the
following formula was
derived: B = n - lgP - Cl, where n - 1.12, C 1= 2.04. Using
other empirical
data, the following final formula is obtained:
Al = A - e- 6 - n
P lm - RA (10)
Card 1/2 20
S/080/60/033/011/008/014
AOO3/AOO1
The Derivation of a Formula for Calculating the Decarbonization Depth
where A I is the depth of the decarbonized layer (in mm), T is the
absolute
teperature (in OK), T is time (in hours), P is the pressure of the
gas (in kg/
em ), 1 is the thickness of the pipe wall (in mm), R2 is the inner
pipe radius
(in mm), E is the apparent aotivation energy of the aecarbonization
process for
steel 20 which is 7,200 cal/9-atom.
A - A0 0ok P0n . 10M* 1 .R 2/~
where T I P0 1 and R20 are scales for measuring the 0values. For T -
1 hour,
P0 = 1 f~/c~�, 100 = 1 mm and R2 - 1 mm, A = Ao - 0.0076 (for steel
20), 01- - 0.5,
rr--1.12, rd=0.71,,A =0.58. The dTserepancy between the experimental
and calculated
values does not exceed 20-25%. The empirical equation g1p) is valid
for hydrogen
pressures of 100-800 kg/cm2 and temperatures of 350-600 C.for the
pipe samples
investigated. It reduces the number of tests necessary for selecting
steel used
in the manufacture of apparatus and pipelines subjected to the
action of hydrogen.
There are 4 figures,' 2 tables and 2 Soviet references.
ASSOCIATION: Vsesoyuznyy nauchno-issledovatellskiy institut
neftekhimicheskM
protsessov (All-Union Scientific Research Institute of Petrochemical
Processes)
SUBMITTED: january IET, 196o
Ca~d 2/~_
I t.sno 33835
101SA S/137/62/000/001/171/237
, '21/0 A006IA101
AUTHORS: Archakov, Yu. I., Grebeshkova, 1. D., Teodorovioh, V. P.
TITLE: Hydrogen corrosion of ferroohrome alloys at 400 - 800
kg/om
hydrogen pressure and 6000C temperature
PERIODICAL: Referativnyy zhurnal,-Metallurgiya, no. 1, 1962,16,
abstract 11541
(V sb. "Stall"., Moscow, Metallurgizdat, 1961, 424-435)
T EXT The authors analyze failure of carbon and alloyed steels
under'the
effect of H2 of high-parameters. The mechanism of the.process is
explained. The.
investigation was made at up to 4,000 hours holding time and 400
- 800 kg/cm2
pressure of regularly renewed H2. The authors investigated 15
alloys containing
C 0.05 0.42% and Cr 1.25 - 19.8%; the allo;s had been previously
normalized
(at 900 1,0000C) and tempered (at 600 - 720 C) with
different,times of holding .
Me7C3 type carbide which was previously considered to be stable,
broke down
under the described conditions. The auth6rs studied the
relationship betwe6n.,
the stability of the alloys and their location on the Fe-Cr-C
phase diagram.
Stability is determined by not only a certain C and Cr ratio
(about I : 30) but
also by their absolute content. Under the experimental
conditions corrosion
Card 1/2
3385Y
S/137/62/000/001/171/237
Hydrogen corrosion of ferrochrome ... AOo6/Aiol
was not observed in an alloy with 0.4% C and about 9% Cr, having
a Me 23C6 carbide
constituent. There are 13 references.
[Abstracter's note: Complete translation]
Ye. Bukhman
L~
Card 2/2
23149
S/184/61/000/002/004/008
I 9.&SDO 113g, 14S-4 A11O/'A033
AUTHORS: Arohakov, Yu. I., Candidate of Technical Sciences;
Teodoroviah, V. P.
Candidate of Chemical Sciences
TITLE: On the problem of the beginning of hydrogen corrosion of
steel
PERIODICAL: Rb-imicheskoye Mashinostroyeniye, no. 2, 1961, 35 - 38
TEXT: The purpose of this paper was to investigate the conditions
marking
the beginning of hydrog'en corrosion of carbon and 36XMA(3OKhMA)
steels at temper-
atures of 200 - 3000C. The issue is of great importance as, if it
is known when
deearbonizati4en is due to set in, it is possible to determine
the service life of
equipment and pipes operating under various conditions. The
dependence of the
incubation period on the hydrogen pressure and temperature of 35
steel is expres-
sed by
MLO
e T
To 3/2
p C
Card 1/9
231h9
s/i84/61/0oo/0o2/oo4/0o8
On the problem of the beginning of .... AIIO/AO33
T - temperature in OK; p - hydrogen pressure in atm; C -
constant (1gC = 3.4),
For 30XMM3OKhMA) steel these dependencies are
11 goo
T
TO = t- (2)
3,1
p CI
C - constant (lgC -3.04). Figure I shows incubation values of
carbon and
30XMA (301QM) steels calculated according to Formula (1) and
(2), compared to
experimental data. Due to the effect of numerous other factors
the temperature
limit of the beginning of bydrogen corrosion may vary bY 50 -
1000C. N. Inglies
and W. Andrews (Ref. 3. "J. Iron and Steel Inst." vol. 53, No.
128, 1933) present
results of investigations carried out on 13 mm tubes 56 min in
diameter at 250 -
2700C and 250 atm, after exposure to bydrogen. Steel containing
0.12% C with
15.000/0 grains remained unaffected after 1,200 hours; after 3
200 hours the
depth of decarbonization was 3.8 mm. Identical steel with 500P
grains showed
Card 2/9
231J49
s/184/61/boo/oo2/oo4/oo8
Con the problem of the beginning of .... A1IO/AO33
no signs of decarbonization after 8,800 hours, which confirms
the accuracy of
calculations of the length of the incubation period according
to Formula (1), i.e.
10,000 hours for fine-grained steel, According to the same
formula, the incuba-
tion period of carbon steel is 50,000 hours at 2200C and
800,000 hours at 1700C.
P. S. Perminov (Ref. 4: "Corrosion and its Prevention", vol. 2,
no. 1, 1936)
states that the tendency to fractures grows proportionally to
the increasing
carbon content of steel, owing to differing specific volumes of
cementite and
ferrite. Ref. 4 also contains data on the begin of hydrogen
corrosion of carbon
steel at various temperatures and pressures (Figure 2). From
reports contained
in References 3 and 4 follows, that at pressures up to 500 atm
the lower temper-
ature limit of hydrogen effect on carbon steel lies around
2000C. These results
have been confirmed by tests carbied out by the Gosudarstvennyy
Institut Vysokikh
Davleniy, GIVD (State Institute,of,J 94 s
.JigJIYrA�5 es) in 1 0. Grade "25"
pr teel
pipes were fully decarbonized after 1.5 years of operation in a
nitrogen-hydrogen-
-ammonia medium at 300 atm and 450 - 52500. Similar corrosion
appeared in grade
"20' steel subjects to the same medium at 200 atm. The
unreliability of short-
-term tests is demonstrated by means of results obtained by the
GIVD with grade
"20" steel, and by a non-specified ammonia plant with carbon
steel.Acdording to the
Card 3/9
23114Y
8/184/61/ooo/002/004/008
On the problem of the beginning of ... A110/AO33
author's calculations, the incubation period of grade 1120"
steel should be 10,000
hours at 150 - 250*C and 275 - 300 atm. Data obtained by F.
Nauman (Ref - 5, "steel
and Iron". Vol. 57, no. 32, 1937) is considered unreliable
because of the brief-
ness of pertinent tests (100 hours). Production experiments
confirm the accuracy
of results given in Ref. 4. and established temperature
limits and hydrogen pres-
sure in respect of various steels listed by G. A. Nelson
(Ref. 14: "Trans the
ASMR11, February, 1951). According to 0. van Rossum (Ref.
11:11Chem. Ing. Eng. ug
Teohn." vol. 25, no 8/9, 1953). Inner stresses and
preliminary cold working de-
crease the hydrogen resistance of steel, consequently carbon
steel should not be
used under pressures exceeding 300 atm and temperatures
above 2200C. This state-
ment is borne out by the findings given in References 4 and
14 and appears in re-
speot of smaller machine parts made of fine-grained steel.
The longer the soak-
ing of samples in hydrogen, the lower the temperatures and
pressures at which
fractures take place. The use of carbon steel in the shape
of coarse-gr&ined
large billets is particularly dangerous. Temperatures up to
1500C are considered
safe for carbon steel equipment used in hydrogenation
plants. For short-term
operations at higher temperatures, the strength of machinery
and pipe walls should
be :selected taking into account hydrogen corrosion. The
effective power of the
ca--d 4/9
23149
3/184/6i/ooO/002/004/008
On the problem of the beginning of .... A110/AO33
activated decarbonization process in respect of chromium and
molybdenum alloyed
steels increases from 7,200 cal/g-atom ("20"steel) to 15,000
cal/g-atom
(30KhMA'steel). Figure 4 shows the dependency of decarbonization
depth Al on
pressure p for various pipe walls: Yu. I. Archakov, (Ref. 15:
flJournal of Ap-
plied Chemistry", vol. 33, no. 11, 1960) developed an equation
linking the depth
of deoarbonization with pressure, temperature, wall strength and
inside radius
of a "20" steel pipe
E
RT
Al - depth of decarbonized layer; T - absolute temperature in OK;
L- duration in
hours; p - hydrogen pressure in kg/cm2; !E- strength of walls and
machinery
casings in mm; R2 - inside radius of pipe in mm; e - base of
natural logarithms;
E = 7,200 cal/9-atom effective power of activated decarbonization
process;
Rft 1-987 cal/g-atm Oc, gas constant; A = 0.0076; a = 0.5; n =
1.12; m = 0.71;
A= 0.58. Equation (3) is applicable only after completion of the
incubation pe-
riod, i.e., during the decarbonization process. The empirical
equation applies
61 = Ae ra pns m (3)
Card 5/ 9
23149
S/184/61/000/002/004/008
On the problem of the beginning of .... A110/AO33
to 4, 7, 10 and 12 mm pipes with inside diameters of 4, 8, 10, 16 and
18 mm.
According to V.V. Ipatyev at al (Ref. 1: Zhurnal prikladnoy khimii,
vol. 31, no.
12, 1958) the kinetic aspect of decarbonization of 30XMA (30EhMA)
steel is ex-
pressed by
1gK 15,000 + oxo34 p + 1.13 (4)
2,3RT
K showing the ratio of the decarbonization rate of 30 %"k(30MM)
steel pipes to the pressure and temperature. Equation (4) makes it
possible to
determine the rate and depth of decarbonization of 24 x 7 mm 30XMA
(30KhMA) pipes
and the approximative computation of their service life, depending on
operating
conditions. All equations are applicable to hydrogen affected steel
pipes. Under
production conditions the steam-gas mixture contains 50 - 80 %
(volumetric) hy-
drogen; the rest are hydrocarbons which delay hydrogen corrosion. The
resistance
to hycIrogen corrosion of carbon steels exposed to high temperatures
and pressures
can be improved by addition of strong carbide-forming elements, of
which the in-
crease of chromium content proved most effective. Tests proved that a
slow de-
Card 6h
2310
S/184/6i/0Oo/0o2/oo4/0O8
On the problem of the beginning of AIIO/AO33
carbonization process takes place already at 200 - 2500C,
consequently the safe
operation range for carbon stools in hydrogen media at 300
kg/cn,2 pressure In
limited to temperatures not exceeding 1500C. 30XMA(30)QiMA)
ohromium-malybdanum
steel can be used in hydrogenation plants and subjected to 300
1'.9/anip hydrogreri
pressures at 3000C. There are 6 figures and 16 roforenaco: 10
OuvlcL-bloc and
6 non-Soviet-bloc. The reference to the aglish-languagre
publication reads as
follows: G. A. Nelson "Trand the ASME, February 1951; Oil and
Gas Journal, vol. 57,
no. 22, 1959.
Card 7A
26864
1418, 2gog Ll 01~ S/080/61/034/004/005/012
I DAD A057/A129
AUTHORS: Arohakov, Yu. I., Grebeshkova, IN., Teodorovioh, V. P.
TITLE: Determination of the rate of lkydrogdn diffusion through
I%IBH9T
(lXhl8N9T) steel at high temperatures 6d pressures
PERIODICAL: Zhurnal prikladnoy.'khimii, v. 34, no. 4, 1961, 821 -
825
TEM A method was developed for determining the hydrogen permeability
of IKhl8N9T (AIS1 3211 steel under high-temperaturit (up to
1,OOOOC) and high-pres-
sure (UP to 300 kgloe) conditions. It was found that the pressure
dependence of
the hydrogen diffusion rate in parabolic and the temperature
dependence is exponen-
tial, having p~ temperature coefficient of 21,650 oal-s-1,atom-1 .
The method
allows diffusion ratesthrough metals at high temperatures and
pressures to be de-
..termined with sufficient accuracy. It is essential that welding
joints can be X
avoided and the amount of diffused gas can be measured. The present
investiga-
tion was necessary since literature data refer only to tests at
high temperature
and low pressure or vice versa. No data are available for
high-temperature and
high-pressure conditions. In the method presented tubular samples
(Figure 1) are
used without welding joints and temperature and pressure were kept
constant during
Card 1/5
26M
s/68o/61/034/oo4/bo5/b12
Determination of the rate .... A057/A129
the test. The testing assembly contained the diffusion unit, placed
into an elec-
tric oven, a high-pressure system and the device for measuring the
amount of dif-
fused-,hydrogen. In all experiments technical grade hydrogen gas was
used. The
sample (Figure 1) was instal-led into the diffusion unit by welding
the hydrogen
gas inlet-tube at point E to the sample and inserting the sample
into a vertical
cylindrical tube which was placed in the vertical electrical oven.
Hydrogen gas
thus entered into the sample and diffusion occurred through the
walls between
C-D (see Figure 1). From the cylindrical tube the diffused hydrogen
passed thralgh
an outlet-tube to the gas-measuring device. The high-pressure
assembly used in
the present experiments was-described in a previous paper (Ref. 10:
Tr. LTI. im.
LeAsoveta, Goskbimizdat,- XXXVIII, 2o4-215, 1957; Ref - 11: ZhPXh,
32, 12, 2667,
1959). The temperature wa's regulated during the experiments by
means of a3An-17
.(EDP-17) electronic potentiometer and registered by a3nn-og
(EPP-og) automatic
electronic potentiometer. The amount of diffused hydrogen was
measured in a de-
vice containing for smaller gas amounts a 2 Cm3 mioroburet
calibrated in 0.01 cm3,
while for greater gas quantities a 100 om3 buret graduated in 0.2
cm3 was used.
Measurementswere carried out in certain time interval and the amount
of diffused
gas was estimated per time,unit and for normal conditions. The
observation made
by P.L. Chang et. al. (Ref. 3; J. Iron and Steel Inst., 3, 170, 205,
1952) that
Card 2/5
Determination of the rate ....
26864
S/080/6,1/034/004/005/012
A057/A129
stationary gas.diffusion in quicker attained by cooling the sample
was proved in
preliminary experiments in the present work. Thus diffusion
charaoteristios were
estimated starting at high temperatures. The present tests were
carried out on
6 tubular samples made of 1Xhl8NqT steel. 0 following,temperatures
and 6rea-
sures were investigat%ld:.5000C and 300 kg/3, 600 - 8000C up to
200 kg/cm , at
9WC up to 100 kg/cd , 9500C up to 75 kg/cm2, and at 1,OOOOC up to
50 kg/om2.
The maximum difference in the results between the six imestigated
samples was
5 %. The results shown in Figure 3 and in a table indicate a
phriibolic diffusion
rate. In Figure 4 the temperature dependence of the diffusion rate
is demonstrat-
ed. Since all isobars in Figure
be expressed by V - k - e-21650. /j are parallel to each other,
the dependence can
. Thus the ayparent activation energy, estimat-
ed from the inclination angle, is 21,650 cal-g -atom-1. H. Bennek
and G. Klotz-
bach (Ref . 1: Stahl und Risen, 61, 8, 597, 1941) found for the
diffusion of hy-
drogen at high temperature and 1 atm, pressure through 18 % Cr,
8.9 % Ni steel an
.activation energy.of 18,850 cal-g-l.atom-1. There are. 4 figures,
I table and 11
references: 4 Soviet-bloc and 7 non-Soviet-bloc.
ASSOCIATION: Vsesoyuznyy nauchno-issledovatel'skiy institut
neftekhimicheskikh
protsessov (All-Union Scientifio Research Institute of Petrochemi-
cal Proceoses)
Card 3/5
-:'Hydrogen corrosion of f6rrochrofiiium allo
S/737/611000'/.66*0/003/010.'.~l.:
ys.
2..
ec .-o n c
A the allb~cbmpdsitioripi th -H-corrosion process was that- of Yu 1.
Ar ha-
no. 38, G' skhina-
_ikiy-tekstil hyy ins at: im. nsoveta. Trudyl, Q,
Leningrad
Le
7 6x e0t. for-a, thei~r'ii~o'6tatitally.,-c6-ntrolltd.~eledtric
furnace in. which
C
'inOD,';18-rnm',ID,-ttibe6tf~~:ikl6H9,T (lKhl8N9T) steel-was set to
serve as a
*-d-,r actibatank. -Y eshK
-press Up
H- :e r was circulated from one end of.the :reaction
tube 'once -a day to replace'any H that 9 e and to
mi ht. have diffused through the tub
~elilmina'te any tr*aces of ~.methane that might have formed. - The
degree of . H -c.orro-
sion -was. judged before and after soaking by micro copic,e aminatio
mechanical
X n
te6ting, an&chemical.an~alysis, for~C.--_Tbe pre-te:t heat
trleatmentbi,vario.us FC-1.1
_%sjs abulated. The-ca'rbide phase.was
alloy -speci r 0 ei t analyzed chernica Ily andby
f tlk-,I'it~dlche
X-ray be. oiq ''Ueztest.' Th6'precloitate was separ4ted
electrolytica" MI-
n e i an ents Were d 'dnd in the
.cally,:,a d th"W-61* d Fe,~Ont etermined in the precipitate
separate carbide components. A -tabulation -oi the data obtained .by
N. M.,Popova I s
method .(Karbidnyy analiz st.a'li-- - Carbide analysis of steel. .
Oborongiz, 1957) and
by N.A.Saverinal s.method (TaNUTMash, book 36, Mashgiz, 1950) is
adduced for
9 alloys.. and the tw o methods~ are briefly defined. X-ray analysis
revealed the
presence ofthe ' - with hexagonal lattice the Me Ct. phase, and some
weak
M67C3
lines of an unkno wn phas T o soaking
e. The changes in mechanic properties after H
are tabulated for the two:series of tests performed at increasing H
pressures and
longer soaking time s. FC alloys with 'an initial C-.Cr ratio of
1-.25 and 1%29 were
Card 2/3
0
P. ill 6)
AUTHOR:
TITLE:
1907)~
S/080/62A63V006/009/013
D204/D307
Archakov. Yu. I.
The effect of alloying elements on the stability of
steels to hydrogen
PERIODICAL: Zhurnal prikladnoy khimii, v. 35, no. 6, 1962,
1280-1285
TEXT: The stability of steels containing 0.15 - 0.23 C, 0.14 -
0.38 Si, 0.38 - 0.50 Mn, 0.18 - 0.25 Ni, 0 - 0.*11 Ou, 0.022 -
0.036 S and 0.001 - 0.022~ P, alloyed with Or, W, V and Ti was 2
studied at 6000C under pressures of H 2 equal to'400 - 800 kg/pm
over 1000 - 4000 hours. The stability was assessed by
microscopic.
examination, measurement of mechanical properties and C contents,
before and after the experiments. Phase analyses for carbides
were also carried out. 4000-hour tests at 80O.kg/cm2 showed'that
steels containing -,*0.2% C were unstable to H 2 if the Or
contents
-were 3.0, 4.5 or 5.4%, but Vere stable if Or >8.4%. The
important
Card 1/3
3/080 62/03570406/009'/013
The,effect of alloying ... D204YD307
factors in this context are the nature of the carbide phase; thus
cementite containing Or increased the stability whilst increasing
the Pe in (Cr, Pe) 7 C3lowered it. The greatest stability was
shown by steels containing (Or, Fe)23 C6* In the case of W, V or
Ti additions, steels containin5 0.16% C and 1.97% V dr 0.94% Ti
were stable in H2 at 800 kg/cm over 1000 hours, whilst those con-
taining 0.4, 0.7, 1.54% W or 0.45% V were largely decarbonized.
Partial decarbonization took place in steels with 0.48% Ti and
0.98% V under the same conditions. The carbide phases in the W
steels were (Fe, W)3 0 and/or (W, FE)23 C6 and in the unstable V
steels (Fe, V) 3 and (V,..Pe)4C3' The stable V and Ti steels
contai-
ned (V, Fe 4C3 (alone) and TiC respectively. In these steels ce-
mentite loweres, therefore, the stability towards H20 There are 1
figure and 4 tables.
_-ASSOCLUION: Vsesoyuznyy nauchno-issledovatellskiy institut
Card 2/3
- ---------- -
. . 39074
S/080/62/035/006/009/01'3
. The effect of alloying ... D204/D307
neftekhimicheskikh protsessov (All-Union Scientific .
Research Institute of Petrochemical Processes)
SUBMITTED: June 22, 1961
~X.
Card 3/3
L 19303-63 17,ejP(q)1FWT (m)/BDS ASD/AFFTC JD
ACCESSION- M: A330069o6 S/03-37/63/000/007/.TO-' 53/1033
SOURCE: Rzh. Mletalurgiya, Abs. 71363.
AUTHOR:. Arch,3.kov.,.L6-LL6r-lrobeshkova2 1. Do
TIME: corrosion of a3-loyod steel
Rkona_
CITED SOURCE: lVestn. tokhn. i ekon. inform. N-4. in-t tekhn.-okon.
issled Goa.
62P 26-31
kbm-~ta Sov. 1-1in. SSSR po khimiip noo 12j, 19
TOPIC TAGS: corrosion, hydrogen corrosion', alloyed steel#
ferro-chromium steel,
hydrogen stability, carbide, interstitial carbide
TRJUISIATION: The influence of C "If."VI and Ti on th e stability
to hydrogen
n of ferro-chromium steel was studied, with Cr (1-45-18.8%') and C
corrosio
(0-11-0-72;4~.) contents in.va-rious ratios. Heat-treated sam-oles
were tested une-er
the influence of H2 for 1000-4000 hours at pressures of 40b-800
kg/cr-2 and 60G".
The deciding factors responsible for the hydrogcn a 'tability of
the steel are the
hase of the steel, the presence o-' other elements _dissolved-'
nature of the caekde p,
in the carbide component, and the -absence of cementitii in the
steel. The greate-A.-
Card 1/2
L 19303-63 ..... ...
ACCESSION IRI AM,006906
hydro&cn stability is possessed by stools with carbides of the
"interstitial"
i type (TiC and VC)., as well as with chromium.carbides of the
typC~f 6.
BibliograpVl of 13 titles. No Lukashina*
DATE ACQ: 12Aug63, SUB CODE: 'IS ENCL: 00
Card 2/2
ARC.HAK.Ov,,Xu.;I.; GREBESHKOVA, I.D.
Effect of addition alloyd on the p?,91onged hydrogen
resistance of steel.
Issl. po zharoproch. splav. 10:30~-3b 163. (MA 17:2)
ACCESSION NR: AT4013970 S/2659/63/010/000/0305/0313
AUTHOR: &,.rchakov YM,j,.; Grebeshkova, 1. D.
TITLE: Influence of alloying elements on the long-term hydrogen
stability of
steel
SOURCE: AN SSSR. Institut metallurgii. Issledovaniya po
zharoprochny*m splavam,
v. 10, 1963, 305-313
TOPIC TAGS: hydrogen stability, alloying element, hydrogen,
chromium, tungsten$
vanadium, niobium, titanium, steel, steel stability
ABSTRACT: Steel strength drops significantly under the physical
and chemical
action of hydrogen penetration, leading to the dissociation of
the carbide phase F
and to decarbonization. The present investigation considers the
influence of
separate alloying elements (cr, W, V, Nb, Ti), and also of the
combined action of
Cr and Mo, Cr and W. Cr and Nb, Cr and V, Cr and Ti on the
hydrogen stability of
steel at a temperature of 600C, hydrogen pressure of 600 atm and
test duration of
1,000-4,000 hours. It was shown that under conditions of high
temperature inter-
action with--hydrogen, steel with 0..15%C is not dec4bonized when
it contains 8.47.
Cr, while steel with 0.47.C remains unchanged with 9.5% Cr, i.e.
when all carbon
---------- ------
ACCESSION NR: AT4013970
is in a carbide of the (Cr, Fe) 23C6 type. Second, under a
hydrogen pressure of
800 atm and temperature of 600C for 1,000 hours the steels are
completely de-
carbonized (content: 0.27.C, with addition of 0.47.W, 0.75%W,
1.577.W, or 0.487.v).
Under the same conditions steel with approximately 0.27.C and 37.
Cr is decarbonized:l
with up to 0.48%V, 1.5% Mo and 1.57.W. Third, under the influence
of hydrogen,
the carbon content is not lowered in steels containing
approximately 0.2%C with
additions of 0.98% Ti and 1.977.V or in steels containing 0.27.C,
3% Cr, 1.5%V,
2% Nb, and 27.T; Fourth, the main factor ensuring the durability
of the hydrogen
stability of steel is the typ6 of carbide phase. Steel in not
decarbonized
when the entire carbon content is chemically united in TiC and VC
carbides or
chromium carbide (Cr, Fe) 23C6- Orig. art. has: 1 chemical
formula, 4 figures,
and 3 tables.
ASSOCIATION: Institut metallurgii AN SSSR (Institute of Metallurgy
AN SSSR)
SUBMITTED: 00 DATE ACQ: 27Feb64. ENCL: 00
SUB CODE: MK NO REF SOV: 005 OTHER: 603
C.,d 2/2
ACCESSION NR: AR4041619 S/0137/.64/000/005/1071/107i
SOURCE: Ref. zh. Metallurgiya, Abs. 51410
AUTHOR: Arch.akovP YIu. I'
TITLE: Hydrogen corrosion of steell
CITED SOURCE: Sb. Vliyaniye vodoroda na sluzhebn. 'svoystva stall.
Irkutsk,
1963, 6-21
TOPIC TAGS: steel, steel corrosion, corrosion, hydrogen corrosion
TRANSLATION: Questions of beginning of hydrogen corrosion of steel,
influence of
thicluiess of wall, stresses and alloying elements on hydrogen
stability of steel are
con-sidered. Results are presented which allow us tentativelyto
calculate magnitude
I.of incubation period f.or steel 20 and 30.KW at 200*- 600-0"and
with preosures of-
of 100 - 500 kg/cm2. increase of thickness of wall of pipes
increases speed
of decarbonizing of steel, With stresses,, causing plastic flow of
metalp the..
Card 112
ACCESSION NR: AR4041619
fs*eed of proce3s of decarbonizing sharply increases. It was
determined that steelt
p
with content of 8% Cr and 0.15% C is.hydrogenstable at a temperature
of 600* and A
with pressure of H2 Of 800 kg/cm2 and is decarbonized with smaller
content~of Cre
Lowering of strength and ductile properties of steel in given
coiYAtions is
~observed only with its decarbonizing. It was shown that under
pressure of H2 of
.1.800 kg/cm2,, temperature of 600" and duration of experiments of
1000 hours, steel
with 0.16 - 0.18% C and additions 0.4-0-74; 1.57% W and 0.45% V
turned out to be
completely decarbonized,, and steel with 1% V~ 0.48% Ti and 0. 58% Kb
- partiallys
-Steel, with content of 0,16% G and additions of 0.94% Ti and 1.96% V
in the given
'conditions turned out to be stable to hydrogen influence.
BibliographY, 34-
Ireferences.
;SUB CODE: MM ENCL- 00
I
Card 2/2
AV
L 15176-%
Ac-'_ f)-2,7ASD(rp,)-',/AFI-EC/At-T(-(,~J SSD/
ACCESSIDN NR- AT4045964 s/oooo/64/oomoo/oO19/0043
AUTHOR:- Archakov, Ytj.'I.; Grebethkova, I. D_.
T
TITLE: 'Hydroggo rest'stant stebls of low scarcity
SOURCE: N6vr'rqe'mat6rIaIy* 'v'mahhInostroyenI I (New materials
In machiiiery
manufacturing). Moscow, lzd-vo Mashlnostroyenlye,'1~64, 19-43
TOPIC TAGS: steel, alloy stW, hydrogen resistance,
embrittlement, corrosion,
decarb ilzatioh stainless steel carbon diffusion
ABSTRAcr: Processes taking place under hydrogen pressure are
usually carried out
at elevated temperatures, so that both heat resistance and
hydroger resistance
have to be considered In evaluating materials working In a
hydrogen-containing
enviromnent. The two main problems are hydrogen corrosion
(decarbonizatlon) and
hydrogen embrlttlemen~, the former being the most harmful. in
the present paper,
luence of alloying elements on the hydrogen resistance of steel
was InvestV
gated on specimens subjected to hydrogen at various pressures
at 600C, and for
various test durations. Mechanical tests performiad before and
after heatlng In
hydrogen sh&od the idorretponding'changes In physical
prbpertlev. Four s6ries
of tosts wgre'Wrl6d out:"(1) "vhriatl 2n-of thb'ch~bihIOM
cbntelit In chromium
iteel's (hydr6g6h Oregsurd 400-'~-800 kg/cm for ~ TWO-A000
hours),, ~(2) 4101fitlan
~,ad J13
t ~-_
~-4L:451-76rW
WWI& NR.,-: AT4045964''
of the*-tueaACD, 4~91 Itanitim-cotitent (800 kg/cm 1000
jumblum,,kyanadium, and t
hours); (3) variatibn of 'th~7_mil)~Winum ~fitTnTi_te-n columbluT,
vanadium, and
titanium content In steeI-wItW'V_.2%_T, 3q'Cr (400m'750 kp1cm ;
1000--2000 hours),
(4) variation of the silicon, wlybdenum, iungsten, vanadium, and
titanium con-
tent In steel with 0.2% C,'6% Cr'(800 kg/cm ;'4000 hours). From
the obtained test
rtsults It Is concluded that ho hydrogen res1stante of steel is
determined malnlyl'
by the t)q)e of carbide i5ha~2the character of tl~e Interatomic
ties between carbon
and the alloying element, and secondar;ly by the velocity of
carbon diffusion In
chromium-containing ferrite. Taits showed that additions of Cr,
Mo, W, V, Cb, and
71 Increase the stability of the carbide phase; at the same time,
the velocity
of carbide phase coagulation decreases. The degree of dispersion
of the carbide
component Is apparently not Important. To stabilize steel with
0.2% C, 3-6% Cr
against hydrogen corrosion (at 600 C), the addition of stronger
carbide-forming
elements such as V, Cb, and TI, or the addition of more than 9%
Cr, Is required.
However, at the present time, the authora are limiting their
recommendations for
the conditions 600C and 800 k9/cm2. Under such conditions, not
less than 8.4%
Cr should be added to steels with 0.2% C (or lessl and not less
than 10% Cr
should be added to steels with 0.2-0.4% carbon. There are not yet
sufficient
data available to establish a quantitative correlation between the
temperature i
and pressure, on the one hand, and the maximum hydrogen resistance
on the other.
Orig. art. has, 12 figures and 12 tables.
;'C-rd 2/3
ACCESSION NR: AT404-5-964
ASSOCIMON: none
suBmiTTED: 16may64
NO REF SOV: 009
Card.--313-
SUB CODE: MM
L 7054-66 EW(m)/EWP(w)/94A(d)/T/EVIP(-t)/ENP(z)/EWP(b) IJP(c)
MJW/JD/90~
ACC NRs
APS0213iOl SOME COIZ: MV0334/65/000/009/0026/po?$~'I'I
AUMOASv-
(Candidate. of technical sciences); Grebe Is Do
jT
ORG: none
TITLE.- Investigation of the tendency towards carburization 9f steels
in methane t
elevated texperatures and pressures
SOURCE: Kh1micheskoye i neftyanoye roshinostroyeniye, no. 90 1965p
26-28 yl
TOPIC TAGSs carburization,, alloy steel.. methanep steel., iron/
l2Kh1W steel.. M
steelt-.7475 80084
ABSTRACT: The tendency of a number of chromium and carbon
steelj~towa~ds carburiza-
:tion in methane at 6000 and 50-200 atm pressure was investigated.
The experimental
procedure.followed was that of Tu. I.-Archakov., I.-D. Grebeshkova)
and V. P.
Teodorovich (Sb. uStall". M.t Metallurgizdat, 1961). The chromium
st*04n-vesii
ted contained from 1.25 to 14% Pr. The carbon stools were of ty n ~'
'if-
pe 10j 201 and 30,
In addition
., the.behavior of technical. iron containing 0.05% C was also
investigatedo.
The elemental analysis of the steels is tabulated, and the
erperizental results are
presented graphically (see Fig. 1). It was'found that carburization
of steel 7475
decreases the ductility but increases the strength of the steel.
Carbarization of",
other stools (containing 6.9-14% Cr),-caused an insignificant
decrease in the a 4 rw
t4 On
Card 1/2 Was 66.046.560,47.211
ARCHAKOV, Yuj.
- Protection of metals from the effect of hydrogen.
Zashch. met. I
no.5:587-590 S-0 165. (MIRA 18:9)
1. Vsesoyuznyy nauchno-issledovatell,;kiy institut
neftekMiricheskikh
protsessov.
L 57735-65 Errf(m)/EWP(w)/FPF(c)/EWA(d)/EPR/T/EWP(t)AWP(b)/EWA(c)
Pr-4
IJP(C) --VABAR
ACCESSION WHS AP5017o96 UR/OD3?/65/03-1/007/0873/08751.
1 620.194
Arnm: Arclaakov, Tu. I~j GoUbo"kiy, D. B.; Wichev, V. 1.
TMZi Method of investigating the effect of stresa on the gas eorro
eel
2i at
SOU31CE: ZavodskaY& labOratori", V. 31., no- 7. 1965, 873-875
0~ L
TOPIC TAGSt stressed staAV volumetric stress, plane stress, stress
test, corro-
sion test, dece.Aurization rate, decarburized steel, steel
corrosion, gas corro-
sion, corrosive sedi='
,pd in the literature any information on the af-';
ABSTPACTI The authors could not fi
feet of atreaz on the rate of the kbevilcal, gas carrosi of Metals
(in particular$
on the rate of the decarburizationlof steel by = n the presence of
high
tarperatures and pres To fill this gap the authors tried to
develop tech-
niquen of irrestigating the effect of stresaefli on the
dec&rburization rate of steel
at temperatures of up to 500*C and hydrogen pressure of up to 500
kg/=2. The ex---
perizents vere performed in a specially designed not-up ( ng. 1).
Clamped I-etveen
tvo nipples 1 is the speciBeu 2 (a plate of pre-annealed steel 50
= in diameter,
5 1, 0.1 = thick), with the aid of flaWas 3 and 1~olts 4. The
vorking diameter of
[C-rd -1/5
~W
L 57755-65
A=BB.TON RRt AP5017096
the region of contact betvaen the gas and specinen Is 30 m. Washers
5., inserted
in the nipple grooves, serve to improve the clamping tigbtness. One
nipple is
linked to a high-pressure hydrogen system and the other, to a
high-pressure nitno-1
gen system. Pressure in both parts of the apparatus Is measured
vitb the aid Of
stardard manometer 6. Chromel-alumal tbermocouples 7 and portable
potentiometers
8 serve to measure the test temperature and are regulated by means
of electronic
potentiometer 9 connected to the circuit of beating furnace 10. The
setup Is pro-
vided witn cocks 11 for regulating gas pressure. Commercial
hydrogen at a fixed
preasure of 200 k&/cm2 is used as the corrosive-aggressive medium,
while nitrogen
at the same and higher preasures is used to prodvce stresses In the
investigated
plate. The whole setup is -placed in an electric furnace d heatd to
5006C. Each
one 0
experiment lasted 24 br. After each experiment micro2ecti the
specimens
were examined and found to display a distinct decarburized zoneKn
the region of
exposure to hydrogen. The material on the specimen surface in
contact with the
aggressive medium (H_,) experiences tuvo forms of stressed state:
volumetric (due
to the pressure of hydrogen and the counterbalancing pressure of
nitrogen) and
plane (due to bending of the plate by the excess pressure of
nitrogen); the bend-
ing causes tangential and radial stresses vbAcb can be campAed from
the corres-
pon6ing formLl". The px-incipe-1 stresses in the material of the
specimens equal
the algebr*ic sum of the rated conditional stresses produced 'by
both form of
com 2/5
L 577:35-55
ACCESSION NEI AP5017o96
St vts~t~ :and- -tbd.~r4tetj ~-cc#~4W. cIU dp because in the course.
~,cf-ex-o-
recced-
periietit the atressenp ch=Ige t the decarb-arization of
zteel)--i;~i6szesCan
bc determined from tb= on the basis of different ctrength theories.
Testz nhor--'~d
thet, as the -ond--l-tiamal otreseca increase the =easured depth of
the decarbuxizod
layer increases also. -rig. 2 presents a curve of the depth 5 of
decarburized la~-
i er as a f~mctio-- of atressea u . As can be seen from this curve,
Increase in th,~
stresses tctelvyat~)n thg; proceH of corrocion, thus accelerating the
decarbyriza-
tion rate of oteel. Orig. art. bast 2 figures.
ASSMIATIOM I-e-ningradski-y tekbnologichoskiy institut im. Lensoveta
4!nins-rm
1 Technological xUatitVte); Veenoyuzmyy nauchno-issledaystel'skiy
inatitut nefte-
MtQy (All-UrAon Scientific Resew-ch Inatitute of Petroch-mic-a-1
Processes)
SUMTMi OD ZNCM 002 SIM CODE: HM, HT
IM MF SM ODS OTHERI 000
L 1610-66 FdIT(M)/DIP(W)/34A(d)/T/P-Wp(t)/oalptz)/-W( )I&IA(c)
ACCESSION NR: AP5021666 UR/0080/ 65/038/00811754/1760
621.0-419
AUTHOR: Archakov. Yu. 1.
ZLU
TITLE: Hydrogen resistance of bimetals
SOURCE: Zhurnal prikladnoy khimii, v. 38, no. 8, 1965, 1754-1760
permea-
TOPIC TAGS: bimetal, steel, stainless stee,i hydrogen embrittlemen
j bility measurement, gas diffusion/ E1496,sleel, IKhl8N9T teel
ABSTRACT: Bimetals with a protective layer of steels E1496 and
1Khl8N9T are
widely used in the chemical and petroleum industries. It is known
that penetra-
tion of hydrogen into thee steels starts at 300 C. With increased
hydrogen
pressure the hyArogerilstarts penetration at a lower temperature.
This article
is a theoretical study of the hydrogen permeability of bimetals in
which mathema-~;---
tical. deductions are compared to the experimental data of othe4
investigators. It I
is concluded that at high temperatures and pressures, a jMeri"of
stainless steel
decreases the hydrogen pressure at the welding boundaries of the
individual com
IL :L61o-66
ACCESSION NR: AP5021666
ponents of the bimetal and constitutes a barrier to elimination of
carbon from the
metal. An equation is derived which permits calculation of the
pressure at the
boundary of the two metal layers as a function of change in external-
pressure, them
hydrogen permeability constants of the individual components of the
bimetals,
and their thicknesses. Orig. art. has: 18 formulas, 2 figures and 3
tables
ASSOCIATION: None
SUBMITTED: OBAug64 ENCL: 00 SUB CODE: MM
NR REF SOV: 009 OTHER: 007
Card 2/2 C
ARCHAKOVP YU.I.J. kand.tekhn.nauk; GPMF.SHKOVA, I.D.,
inzli.
-------
Studying tbo tendoncy of steel tovard carburizing in
raet~viril
ot incrensed temperatures and pressures. aim. i neft.
Ynaehftostr,
no.9:26-28 S 165. (MIPA 181lo)
ACC NR: AP6028096
SOURCE CODE: UR/O3l4/66/ooo/oo6/0027/OO32
AUTHOR: Archakov, Yu. I. (Candidate of technical sciences);
Grebeshkova, I.
(Engineer')---------"~
ORG: none
TITLE: Hydrogen resistance of two layer steels
SOURCE: Ehimicheskoye i neftyanoye shinostroyeniye, no. 6, 1966,
27-32
X k1l)
TOPIC TAGS: hydrogen embrittlement gas diffusion, metal cladding
ABSTRACT: Three main methods are presently employed for the
protection of two layer
metals from the effects of hot hydrogiv
mr 1) the introduction of
oprespu~fl
strongly carbJde forming elements (Cr,' V? M:) MY" 2) a reduction
in the working
parameters (temperature and pressureY; 3Y ci~ddl~g-~r,,lining
with metals which have a
high resistance to hydrogen penetration. The pros At article
explores the possibility
of protecting metals from the action of hydrogen by the formation
of barriers on the
surface of the metals. The article gives a mathematical treatment
of the subject,
based on the first law of diffusion in the differential form:
v ac
ox
Card
ACC NR- AP6028096
ere v is the rate of penetration of hydrogen through a unit of
surface of a two layer
tal, with steady state flow and a concentration gradient of 3
c/b x. Based on
terature data, the article gives extensive tables showing the
rate of hydrogen
netration into a large number of steals and alloys. It is
concluded that a cladding
yer can protect the base metal from hydrogen penetration. This
takes place in the
llowing manner: the stainless layer of the two layer steel,
havin a smaller
ffusion capacity, reduces the hydrogen pressure (its
concnntration~ at the boundary
tween the metals, and promotes the removal of the production of
reaction, that is,
promotes the process of decarbonization. Orig, art. has: 8
formulas, 5 figures,
d 6 tables.
CODE:. 11, 20/ SUBM DATE: none/ ORIG REF: 014/ OTH REFt 007
2 /2
ARCHAKOVA. E. V.
Treatment of angina in children through district-wide medical
ser7ice. Pediatriia no,8:82-84 :61. (MIRA 1439)
(TONSILLITIS)
FLORINSKIY, F.V., prof;; VOLOSHINA, L.P., dots,; LYAKHOVITSKIY, S.L.
kand.
tekhn.nauk; SHIROCHENKOY Ye.V., dots. (deceased]; ARCHAKOVA, L,A,,
inzh.; GVAY, T.B.p inzh,; MURZINA, Z.I.., inzh. " -
Results of rqsearch on screen vibrating in the horizon horizontal
plane. Izv.vys.ueheb.2&V.; gor.zhur. no.2:167-170 1 0.
(MIRA 14:5)
1. Dnepropetrovskiy gornyy institut, .
(Screens (Mning))
ARCHAXOVA,_~.A., luzh.; KRYUKOV, B.I., kand. tekhji.
nauk; RYFdirLtSKIY, Yu.A.,
kand.t--khn. nauk
Dynamics of vibratory machines with pla:net-ary-type
binarmonic vibrators.
Izv.vys.ucheb.zav.;gor.zhur. 7 no.9:140-143 164.
(MIRA 18:1)
1. Drepropetrovskiy ordena Trudovogo Krasnogo ZnaMeni
gornyy iristitut
i-eni ArteTma. ReRomendovana kafedroy teoreticheskay I
stroitellnoy
mekhaniki.
ARCHAKOVA,... L,.I.
- - 1
Further analysis of the myenteric reaction. Dokl. AN
BSSR 7 no.3:
208-211 Mr 163. (MIRA 16:6)
1. Institut fiziologii AN BSSR. Predstavleno akademikom
AN BSSR
I.A.Bulyginym.
(Intestines)
ARCHAKOVA, L.I.
Intramural mechanisms of the myenteric reaction of
the small
intestines. Vestsi AN BSSR.Ser.biial.nav.
no.3:98-106 162.
(MIRA 15-12)
(INTESTINES-INNERVATION)
ARCHAKOVA, L. I.
-
Comparati-ve characteristics of the reception of
the serous and
mucous membranes of the jejunum in dogs. Vestsi AN
BSSR. Ser.
biial. nav. no-4:103-107 162. (MIRA 17-.*8)
1--i, r
KITAYGORODSKIY, I.I., doktor tekhn. nauk, prof.;
ZHITOMTRSrAYA, B.Z.;
ARCHAKOVA, R.A.; MIKUYLOVA-BOGDANSKAYA, Z.A.; BARINOTA, A.Y.
Investigating methods of reducing the ~61-u'mstric weight of
foam
glass. Trudy VNIIStekla no-37:3-11 157. (MIRA 11:1)
(Glass, Cellular)
GORYUSHINA, V.G.; ARCHAKOVA,
Rapid volumetric determination of beryllium in alloys.
Zav.lab. 22
no-5:532-535 156. ()MRA 9: 8)
(Beryllium.-Analysis) (Titration)
5(2) SOV/32-25-7-5/50
AUTHORS: Goryushina, V. G., Archakova, T. A.
TITLE. New Volumetric Method for the Determination of Uranium (Novyy
ob"yemnyy metod opredeleniya urana)
PEiIUDICAL: Zavodskaya laboratoriya, 1959, Vol 25, lir 7, ?P 789 -
790 (USSR)
ABSTRACT: The new method of determining uranium ras elaborati-d in
much
the sa:~ie ray as the determination of berylliai-i (Refs 10, 11).
The method is based upon a precipitation of uranium in the pre-
sence of trilon B with sodiuiA arsenate and a nubsequent i(;do-
metric titration of the
As03-_ ion bound Yith uranium. It ras experimentally determined
4
that the crystalline precipitate -,.hich is precipitated to acetic
uranium solution by addition of sodium arsenate (pHrsj3) possesses
constant composition (U02:AsO 1:1). The results of the iod,~-.
metric arsenic titration and ~Znversion into uranium (Table 1)
confir.-ned the applicability of this r3ethod to the determination
of uranium. The method described has a high selectivity since
the elements such as the bivalent metals FE;, Al, Bi, and V, Th,
Card 1/2 Mo do not disturb the determination, and Ti by addition of
Per-
New Volumetric Method for the Determination of Uranium
SOV/32-25-7-5/50
hydrol and Zr by addition of fluoboric acid (Table 2) can be
bound. By addition of a lar.-er quantity of precipitant the
in-
fluEnce of the phosphates can also be eliminated. A process of
analysis is described. There are 2 tables and 1 Soviet
reference.
ASSOCIATION: Gosudarstvcnnyy nauclino-isoledovatellskiy
institut redkikh i na-
lykh metallov (State Scientific Research Institute for Rare
and Minor Metals)
Card 2/2
S/032/61/027/007/001/012
B110/B203
AUTHORS: Goryushina, V. G., Romanova, Ye. V., and Archakova, T.
A.
TITLE: Colorimetric method for determining zirconium in alloys
PERIODICAL% Zavodskaya laboratoriya, v. 27, no. 7, 1961, 795-797
TEXTs The methods, much improved recently, for determining
zirconium, e.
g., with pyrocatechol violet, xylenol blue, and Arsenazo III,
are subject
to the effect of various elements contained in the alloys
(Table 1). Tin
can be used as a reducing agent, particularly in strongly-acid
media in
which hydroxylamine and ascorbic acid are poorly efficient. In
the Arsenazo
III method, the presence of larger amounts of elements usually
admixed to
Zr is permissible. In strongly acid medium (2 N HC1), the
effect of all
bivalent, and many other, elements is eliminated. At a Zr
content ~0.1%,
Zr may be directly determined with Arsenazo III without removal
of Ti
(Table 2). The results obtained agree with control tests
performed with
pyrocatechol violet. The Ti content may be