SCIENTIFIC ABSTRACT KURDYUMOV, G. - KURDYUMOV, G .V.
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SCIENTIFIC ABSTRACT
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"Temper Brittleness of Construction Steels," by G. V. Kurd.,nimov and R. 1. Entin.
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"Application of 11-Ionocrystalo for the Sbidy of Tompered Martensite StructuTc," Zhur.
Tekh. Fiz., Vol. 16, rio. 11, 1946.
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The Iaboratory of Physical Metallurgy. Acadeaq of Sciences.
Ukrainian S.S.R. Bbor. nauch. rab. Lab. metallofis. no.l:
3-4 148. (MLRk 8:9)
(Ukraine--Metallurgical laboratories)
-KMTUMOV,G.V.
,
Ivan Vasillevich Isaichav;
motallefiz. no-1:5-7 48.
obituary. Sbor. nauch. rab. lab.
(KIM 8:9)
1. Deystvitel'W chlen Akademii nalik USSR, direktor labom-
toril metallofisiki Almdenii nauk USSR
(Isaichav, Ivan Vasillevich, 1901-1946)
KURDYUKOV,G.V.; LYSA.K,L. I.
Use of single crystals for studying martensite structural
changes in tempering carbon steel. Sbor. nauch. rab. lab.
metallofiz. no.1:37-52 148. (KLRL 8:9)
(Martensite) (Steel--Heat treatment)
KURDYUKOV,G.V.; LYSAK,L.I.
Characteristics of blurredness in the interference lines on
radiographs of tempered martensite. Sbor. nauch. rab. lab.
metallofis. no.1:53-65 148. (KLU 8:9)
(Martensite) (X-rays-Industrial applicatior-s)
. . . . . . . . . .
V. and 4~rsvk, L. 1. - IlKinetics of thn Et~ -e !n
Rr 5SR 'To. 5, 191.3, r
,f rprt--isite, 11 Doklr-~ Au". **,k T 3-7.
rew.lvir, III RilBstrill), 131bilog: 5 1 toinu
SO! U-L355, 1~ AuguBt 53, (L-topla 12hurrial Inykh Stntpy. No. 15, 19L9)
USM/Metals Aag 48
Marterwite
Co
pper Alloys
'Nondiffused (Martenalt1c) Type of Conversion In
Alloys," G. V. Kardyamov, 26 pp
*Zhur Telch Fiz" Vol Xv 1, No 8
ON
Discusses: I. Characteristic features of trans-
0 formation of austenite into martensite steels;
_4 Xr. Wrteneltic transformations in s1fudnax, tin
and zinc' &Iloyi 011 copper;* III... Martensitio
transformations on heating. 'Reversibility"of
-tensittc transformations; IV. Nature of
n
A
10/49T94
UM/Metals (Contd) Aag 48
Martensitic transformations. Submitted 8 Mar 48.
io/497Q,4
KUlffl-MOV) Cl. V.
"Regrouping the Azoxy ComPOundBill Zhur- Obshch- KII'm-l Vol- 131 ~~lo- 13-1 191;8'
Ill 4 6-6 a
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USSR/metals Jul 48
Austenite
Mkirtensite
*Xinatice of the Transformation of Austenite to
Martemite at Low Temperatures," G. V. Mardyumav,
Corr Mom, Acad Sol USSR, 0. P. M91mimova, InBt
Of MAtallophyB, Cen Sol ReB last of Ferrous
metals, 4 pp
wrook~AJF Faur- SSM- Vol IXI, No
It Is generally heleL that tzansformation of
auBtenite into marten ite cannot be inhibited by
any available coolIng speeds; the position of
the m3rtensite point does not d6pend on the spead
-=a 8749M
USSR/Metals (Contd) Jul 48
of coollno and austenite mrmot be supercooled
below the martensite point. Authors conducted
appeolall Investigation of lzinetics of austenite-
Aartensite ta-ansformatica below room temperature.
Belov -700 the speed of the process can be measured
and approaches !oiro Ln many cases at the tempera-
ture of liquid nitrogen. It, therefore, seemed
possible to supercool auatmite below the martensite
point and see how the transformation speed varied
vith temperature. Preaent paper gives results
of such experiments. Authors also propound
equations representing kinetics of the process.
Bubmitted 19 Apr 1948.
8/49T92
1-4
2
2-17'
llovcde~.i-.-a I I
ib'---:,
37,
KMrUMOV, G.V.; GROZIN, B.D.; LIZAK, L.I.
Iffect of deformation on the decomposition of martansite in tempered
steel. Dop.AN URSR no.l-.17-21 149. (HLRk 90)
l.Diysniy chlex AN URSR (for Kurdyumov).2.Ghlea-ko"espondeat AN MM
(for Groziu).q. Laborateriya metalofisiki AN URSR.
KURDYDMOV, G.V.
Transformationa (Martensite) not involving diffusion in alloys.
Probl.metallovedti fiz. met. no.[11:132-1'72 149. (MIRA 11:4)
I.Laboratoriya fazovykh prevrashcheniy TS)ntrallnogo nauchno-
issledovatellskogo institute. chernoy metallurgii. Chlen-korrespondent
All SSSR,
(Alloys -Me tallograph;r)
(Martensite)
777777777777777777~
UM/Metals ft.7 49
Martensite
Tempering
'Metics of the FJrst Stage of Martensite Decom-
position," G. Murdyuaov, L. Lyeak, Tab of
Metallophys, Azad Sci W>SR- 7 P-D
- .-) t;- - 31
"Zhur Takh Fiz" Vol =, No 5 10. ,> -
Studied mrtensite decamposition as a function of
tempering time at temperatures of 80, 10C, and
1200 C. Experiments confirmed heterogeneous nature
of Zirst stage of martensite dscomgc-sition.
Curves of decomposition kinetics ehov formation
USSR/ketais (Contd) may 49
speed of carbide nuclei remains constant approx-
imately until sem-Idecomposition, after vhIch it
decreases. Deccupositl= time for temperatures
80, 100, and, 1200 C -was equal to 6 1/3 bre, 45 aim.,
andL 7.5 =In., respectively. SubnItte& 28 Jul 48. -
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PHASE I TREASURE ISLAND BIBLIOGRAPHICAL REPORT AID 334 - I
BOOK Call No.: TN672.v8
uthor: KURDYUMO`V G V , Academician
Full Title: THE.6R~~RTENSITE TRANSFORn%TION IN METALS AND ALLOYS
Transliterated Title: K teoril martensitny'kh prevrashchenly v
metallakh i splavakh
Publishing Data
Originating Agency: All-Union Scientific Engineering and Technical
Society of Machine Builders. Urals Branch
Publishing House: State Scientific and Technical Publishing House of
Machine Building Literature ("Mashgiz")
--~7 Date: 1950 No. PP.: 3 No. of copies: 3,000
Text Data
This is an article from the book: VSESOYUZNOYE NAUCHNOYE INZHENERNO-
TEKHNICHESKOYE OBSHCHESTVO MASHINOSTROITELEY. URALISKOYE OTDELENIYE,
THERMAL TREATMENT OF METALS - Symposium of Conference (Termicheskaya
obrabotka metallov, materialy konferentsil), (p. 4-6), see AID 224 T
Coverage: Transformation of austenite to w rtensite in steels is ex-
plained by formation and growth of nuclei. "Elastic"
crystals are formed which grow at; lower temperatures and
shrink at higher temperatures.
1/2
K teorii martensitnykh prevrashcheniy v AID 334 - I
metallakh i splavakh
Stable and metastable modification of martensite phases in
solid solutions can occur in "no-,Mal" or in marten3ite
kinetics. The martensite phase may be stabl.e modifications
of solid solutions or of pure me~;als, e.g., martensite of
non-carbon alloys of iron, alpha--modificatlon of cobalt,
and occasionally of zirconium and titanium.
Purpose: For scientific workers
Facilities: None
No. of Russian and Slavic References: None
Available: Library of Congress.
2/2
R Ic c,"Iak *, m, sift ph&itio to cormor-filutill
OP-0-h A4w&. Nov+
C C.I. 43, nWk4,--Cj,.Aj.N 1;
,,I .1h," j11 . lift. 14 'or, At.
10% Ni, and 14 4% Al. I ho,;o m writ. two, 1.
AttAir l1w "eLlific" MASIVOISHIC crysillk jW14110"I toy K.*,
t1toor thnory. T'he a, phaw Of Nl 11 lwr*"vtA fir qoemblill
to rut"ll teffily fit"" ixg)". -r, cor"tl. , c"Jin
fulther to 10" (the P0411L 01c"rhil't tof
lot t'g,111 ternp. pro'lue I
it' phaw. . 14, 'to phaw as woril Got of Intall amt. of
nw njartell,"ic tioint for I is phot"
lf"Ph't Of lh4ws tit Niant, 1. "Moffat warknio; athertemps..
A"'ttialivo-n1d thertsworLisik-
rq
additi. suppwt for the thil,
X. .4 tit,
h4n!sm of n-nensitic Nesikus
Clt-
Work of faMatka of &natensite nuclei. G. V. Kurilvu -
F111ty suff 0. 1'. %fakilitum.a. I)41&4~6:A'QJ *XtIW
N V.N~K, 71. 95 RMAII, cf. C 1 41. RAo I Ile trioj,~ 4
Iwildruct Of the Velocity 44 MithfIlItAl 11-1.
.4 litenite to manemite of &if alloy of Fe with :131 j Ni joil
3.4% Mu was stildved. On c%winuou% rxiotisig at 1(1*, tuto
transformation began at -17', ishich was cilivo its its*-
loarlensfir IXWMI. Kinetic Cllr%es All higher viloo. Irm11%
xhow&I ItattsfivniAtlutt. 'Me vvioriiy tit (.1 14 Ih,
Irt I od ,,
ifunsfowmalkirt wits a mAx. at -47*. A of the IS'.
rithof of the Initial rate of Iraniturtnatioli lij. 1/1 wi.% I
-tralgift line at temps. below -&)*. but devlstod froto thi.
title at higher temps. The activatitm etieffty fill nudemon
"a a tM.A./mok. Vie wtmk Of 1111CIC-11116WHIAlkill WAIIII-I
-if)*. IMCULAM447 at 7111141 -30% AIII1 14-RIAI 11'
I'htjq. martrusite furinalkni is d IVIOVAI J-11,4W 114111144111.
1 Wit. Near I he maltellilif N I*Hll I I fir I c 6 . it v .I , 1.1 14
IJOU IV 'low Iteelf1lifif of The Ififte VAIor of I Ile it,"Ji of 11"Cleti,
furrywiltm A G Oor
d-.1
TrILIMSIORMAUM of dirfocrusid 4viltseliltv into Malten,11v,
Y' Kardyll"ll"', I)- T'- AldlififflOyLl. mild T. V. Tal[unove
444Y Add. Nd.k 73, 3(rj 11K Cl, ('.A. 4j, &1,,
114C tilt, I of 4, [~411' its, 11, 11 ik"'i
in it if A C. 7.1 M if 0 ed *fail fit A ~ N1, ~1 4 M it I I,
twas Nfulwil W test the hvj,Olh,,u' chm this frAcllOn It.-
cred3. by uud-l~,Rj md fif-th. I h, .1-1 tl.d At4.v .-
Qurined by Lunipfenum just tr%t tits in a rit-wirt,on.
rier. The dritwineil ~m-unrii% were then "m4ed to camw
the Owl,rt'"t, 1- It,. 1" 1-~J. M thr 4 1. 4 M4,fpql
woo deN. by . I 1'~ ".Oh. -, f.v
%-tily 411d fill, tOgial'111, mit'lli-4, I it I- I .... I ~J"vuflrtl 1 4 Ill,
&("I Alluord 3 ell" 14. AN,% e 41-11 -1, " d' bAwall.,11 ft.m.
frandulmation ix-cutted diums ond lo.i,flrsf
32% ItAllef"flilill'.11 at Alwill 1w)'.;' d-lotmallon. Tilt
'A 1' 11, 41' 41,11
le$rIC11 Off At 111111 VJIOr At Alk)U1 j(jq I hr
;;RAI tell*itC frAC14011 IWS'Aillr 11111fit-11 In thT, dr1wit'vil qV, I
WOf. I he Wfal Tilt. Of Ill.&) Iriir I ... .... .I .., . j,"ill .4
Wth defurniatic-it aml ~Jing w.R% 441' ~ At 4"r', 'IrflIOR-61-ti.
dectraml to IM'~ at about
.to 3""' :11 10 - 'JilkettlAtin. At al,mit Cdl~~ ift-foinuitim Tits
I...Lcd slavOurns of the alloy winilar. stwice lorit,
tkmltcrd eflectit wwrlif lhAt no lOwrtnic of the SuArtrim,
point wAs olmirry"l. At LNIR, .1clurnuawn ,city almout 0.2:
ild'-firmatiort
The kinetics d the iwill"nul 111AFIVOMIC ICA1711011 At 1411111111
In the range - Urs its - limi" were sludicit (in 91w6jurnit if( IN
mjh,y -l'-forifiril 0'*~ ind I lc;,, At tilt ii-nips. the 14", alloy
6110"C41 All hiW41 rate SIMI W.' 01-111 11, 1 0% f4il A* file 411~,
alloy, litit life final mm. 4.1 l"Clat"I *itt "milulable It'll fill
two specignens. The WiViktil(ln CSITI'SY WA3 WO CAL 11101.
(or both. Thuo. (he camitiAl nAlure olf the cirfaction is twit
ChTing"I ITT RIC-fiW11141pin. A. 6. Cmy
rMDMOT, 0,T,; YAOINOVA, 0,,P., Icande takho, nauk.
Transformation of austenite to martensite at low temperatures.
Probl, metalloyeOt I fix. met. no.2.~64-97 151. (MIRA 11t4)
l.' Mlen-korreepondsi~t AN SSSR (for Kurdywsov).
(Metals at loW temperature) (Phase rule and eqnilibrium)
Al, 7' IF
GWYCHIMO Ta.M.; KMMOVI GoTe
Hicrostrtwtural investigation of the transformation of austenite
to marteneite in steels and alloys at low temperatures. Probl.
metalloved. i fiz. met. no;2:98-118 151. (KIRA 11W
1; Chlen-korrespondent AN SSSR (for KurdyumoT).
(Steel-Ketallography) (Alloys-Metallography)
(Metal@ at low temperature)
KURDMMOV, G*T*; KAKSIXOTA, O.P., kand. tekhn. nauk.
Martensite nuclei formation process. Probl. metalloved. i fiz. not.
noo*2tlZ9-134 151, (KIRA Ilt4)
1. Ghlon-korrespondent AN SSSR (for Xurdyumov).
(Metal crystals) (Martensite)
KUROYUMOV, G.T.; MAUIROVA, O.F., kand. takhn. nauk; TAGUNOVA, T,T,
Affect of plastic deformation on theidnetice of austenite trans-
formation to mrtensite, Probl. metalloved. i fis. met. no'2f
133-152 '510' (W& 31W
1; Ghlen-korresponUnt AS SSSR (for Khrdynmov)
(Deformation@ (Mobaldou)) (Metallography)
KMMXOY# GeV*; PJMXAS# XeDo
i,
"~r'~*AAX 'i;pviv ,
.--7rol -~-Vffeot of alloying elements on the stability of martensite during
tempering. Probl. metalloved. i fix, met no,'2:153-166 151.
(XIRL 11:4)
I.' Chlon-korrespondent AN SSSR (for ftrdyumov).
(Steel alloys-Xetallography) (Tempering)
IMMOTt G*T.; PERKAS, M~D,
Mechanism of austenits dissociation in the intermediate temperature
range. Probl. metalloved. i fis. met. no.2tl67-175 151. (MIR& ll.-4)
l.' Chlen-korrespondent AN SBSR (for Kurdy=ov).
(Steel alloys-Hatallography) (Austenito)
r , ! - -- ~ j, -' ~~ 1, - ! ! ~~ 1, , i - i-
ILI INA, V.A*; KRITSKATA, V.K., Icand. fiz.-mat. wwk; &VRDYUW,-, G.T.
Distorted lattices in deformed metals and solid solutions. Probl.
metalloved. i fiz. met. no.2:222-231 151. (MIRA 1134)
lo Chlen-korrespondent AN SSSR (for Kurdywovy.
(Crystal lattices) (DeformuLtions (Mechanics))
NBSTXMXO, TO.H.; SKYIINOV. A.A.; KMMMOV. H.V., d1yew chlen.
Disturbance of regularity In the crystallio lattice of alloys. Dop.AN UMR
no-3:184-193 051. (KLRA 6:9)
1, Akademiya nauk Ukrayinalkoyi MR (for Lirdyumov). 2. Laboratoriya nots,-
lofisyky Akadvatyi nank Ukrayinalkoyi RSR (for Nesteranko and Srrrnov).
(Ketallography)
famy1m)V, V.
UOSRA,letals Diffusion
1 'e-P 51
"The Influence of Carbon on the Self-Diffusion of Iron." P. L. Gruzinj Yu. V. Kornev,
G.- V. Kurdyumv., Corr flem., Acad Soi USSR, Inst of Metal Sci and Fhys of Metals,
Cen Sci Res Inst of Ferrous Metallurgy
"Doki.Ak Nauk SSSR11 Vol LXXX, No 1; pp )s9-51
Preliminary data touching on the Influence of carbon on the self-diffusion of gama-
iron was obtained during the investigation of the self-diffusion of pure iron. It
was sho-rm that the addn of carbon strongly influences the parameters governing the
self-diffusion of iron. Current article subjects this problem to a special Study.
Concludes that the addn of carbon in iron decreases the enera of t7ne bond of the
austenite lattice. %bmitted 12 July 51.
PA 221T45
USSR/Physics Mkrt4msite Conwasion 1 Dec 51
"Kinetics of Martensite Conversion at Tempera-
tures Higher Than Room Temperature," G. V. Kurd-
yumov, Corz -Me=, Acad Sci, USSR,- 0#, - P. Maksimova,
Inst of Metallophyaj Cen Sci Res Inst of Ferrous
Metallurgy
"Dok~At wa&*.SSSR" Vol LXXXI, No 4, PP 565-568
Investigates: reduced initial speed of conver-
sion of austenite into martensite vs temp
(+1500C to -1500C); martensite curve (quantity
of martensite vB temp) of continuous cooling
taking into account the isothermal effect;
quantity of marteDsite vs bre for various Iso-
tterms starting at beginning of soaking;
202r94
UM/mysics - Martensite Conversion 1 Dec 51
(Contd)
reduced quantity of martensit,6 vs soaking time
for various temps. N. A, Bondarenko assisted
in the computations. Submitted 10 Aug 51-
202T94
I KMYUMOV. G. V.
Austenite
Remarks on A. S. 2.RvIyalov's work I'Machanics and kinetics of austenite transforrmtIon in
ferrocarbon alloys." Zhur. takh. fiz., 22, No. 1, 1952.
Monthly List of Russian Accessions, Library of Congress, I.Iay 10,52. Unclassified.
- 4
US3a/'I-TetallurMr - Steel, X-7-ay Analyjis
1 Atij 52
%$Causes for Decrease in Lim- !.,AenqitY of ','~ar'Uen3lte X-I?j~y '4, A,. illina,
V. K. Krit3kava, 13. V. Kurck,,iriov, corr A~,ad Sci U-73", liist o~' L-,etallo-ra_~hy
Wid 111otal 1"hys of
I'Dok~Ak N=* SSSIVI Vol 85, No 4, w 773-775
Studie3 chamcter of distortions of martensite ciystal lattice ky measurin'~ intensities
of X-ray diffraction of hardwied steel with 0.35 and 0-41 at 2 Itemi-s: +230 wid -1850.
-3tabliolico that martonsite *bittlce is charactorized by consiAjrable jtresoes of 3rd
1--nd, i.e., conoiderable displacement of o3cilt.ation cezit-,,m of at=:;. Presence of
in ooln caujej corijiderable increase in amplitude of th,.,nial oscillations and leads
to of intei-actumc bond in comparison to latti.ce of aLj~h_---iron.
11~ 227T32
FV
I p
Irv k, 1; ~111.nAlav.. V,"'t,u lamn no. 3MI M_
m DokladV Aladmil Sauk v. S5, no. 5. 1952.
p. 99T-999.)
Studies true cause inte ity %-eakncss of certain doublet linm
on X-my olographs a martmisitc- rindwn static deviations
of Fe "tot 3 hol I cal osition in thrcctlon' of tvirogonal Oxis
versill In Tense I amp itudL of thermal vilmitions In this
dircution. able. ref.
V S in th~3 lllo~ tteells during temped,;g
R tlCl_ ~ - "i i w I ~ ~l , N D
t "" Vorazuiti C.. V~ t
T- ~Ilw t-k "I"(;
4o,
.".1p tj I !.,-
tl~t, (3i ~;; F-
nu! chjugj Fufl~ n
iztc~"bir thc
R,(C,t 61,0, Coo') 'Ip'til Mmt, I 6-;~ L.,
fo~'JQWJ. fht: -
vo
RY)", t1to hiqlIef
--77
1! a a 1 7
:~il, L:,Lri
411 tho ta-th-CIA-t-d-ce
~tn;;;ian%RA. 0. Vi Kurdywntiv, V. K. Kcitnskayt, atil IN.
"Art.- Argl~imw 1-datef. w1k,ij. Xi.4
Nodil. piiMeul ~ I
S.S.S.R., SL-rnih 195J, 117-20', R,(,,qs.
No. 47M-A nitill(Al Lf the rcUtivc ir4itjnijt,:-;
of rcdctl~ at 2 tcrnps, was wvtl. Thit, tu,ide it lv,~-~jjijc ttj
Up puise the atteratiou Irt the lattke (juatititativOy ind u
~st;tbiish that the presture of di-Av,d m,m,5
111tuat, LwIds. sted Willi a C Content of 0.0~i u, I V" tNi,
buch teltillwied tud, 111~2 ellarict'n't1c: 1, mp
to 430' and pcictic.411), dhw!~ i,,t diff" f,-t~
thilt for tvglIpcrcd -Fc. with till [tier .. ~ m tht, C (vilt.
a 1ICCMLS-C ill 0 j! ObrA'-rVCd. hf.,rjtm Kon'-f
LL2
GRUZIN, P.L.; KURDYUKOV, G.V.
Use of artificially radioactive Isotopes for the study of alloy diffusion
and self-diffusion. Self-diffusion in iron. Izw. AF SSSR. Otd.tekh,
nauk. no. 3:38)-392 Kr"53. 7- (KI-RA 6; 5
1. Akademiya nauk SSSR (for Kurdyumov). (Diffusion) (Alloys)
LYSAK, L.I.; X&MROS, L.H.; KlJRDYUMOV, G.V -., diisnyi chlen.
(biantitative modification of residual auetenite following the deformation of
U12A steel. Dop.AN URSR no.4:236-239 '53. (MA 6:8)
1. Laboratoriya. metalofizyky Akedemivi arkhitektiiry URSR. 2. Akademiya. nauk
URsr (for Kurdyumov). (Austenite) (Steel-Ketallography)
ALZMAITDROV, L.H.; KMYUMOV, H.V., diyunyy chlen.
Field of stress originating In the decay of auntenite near the pearlitic
kernels. Dop.AU URSR no.5.*337-343 153. MRA 6:10
1. Akademlya nauk Ukrayinalkoyl MR (for ftrdpimov), 2, Artemivs')W
uchytel'allcyy instytut (for Aleksand-rov). (Austenite)
"In-tr, !i)ctory Word, 'I.V. Ki-:rAyiL'-()V
Iz A'- S'JS-Z, Fl-z, Vol 17, :!0
St-itc,- thit thli-a lcs-n f -o-irnal, 'ir, -I-vr)f-l to tr).'Acz- F-,.lrth All-'Inlon
Conference (22-26 Jim 52, Len~,.n,,raj) en Arpli-ca"'ien rl Xlavc, t-
Fir~ll conn-orn-, inplicatlil-crA 'o Ind,istry, seccii; part The
re,port-s are :~.c2t],y of, modern ~ --el I fic
~'
1-7
T
,
~1- --
-Lnlj.- I
~ I'll-
7~ r YTT~- I?
v V
Journal of the Iron and Steel Institute
Vol. 176
Apr. 1954
Metallograp17
IG
on the 11 Pt Nadfalite trvtwx 2f ALMene'd U"Wd
steeft. (M-Kurdyurnav, M. D-I'arkm, and A. E. Hhamov
Pi. (ST--=13W
11n Husslan), The state of mutonsito In it wfles of low-carbon
steels, (quenched from 1000-IOST C. in a solution Or sodium
hydroxide at O'C.) -m Inveetigiit~f LY det*mii '", the
width of the (211) line in chromium ta Italian .the Mmon,
and the coercive f?me. An increase ir. carbon content leads
to a tiontInuous Increase of all thme quantities, indicating an
increasing amount of carbon in solid solut4on. Coneeming
the influence of manganese content on the width of the line
(211) it was found that, In all alloys. the carbon content of
marterisite was the same and that the carbon wea retained
In solid solution. It In coneluded from the data obt&hwd that.
during the rapid qu onching of carbon steel ocintalrilng 0. 10,1,
or carbon, martatu,ita Is not ahle to decompose during cooling
and the carbork remains In solution. This conclusion is vali(i
for eto*ls with carbon ~-' 0- 1%. no main condition for the
retention of all the carbon in a-solid solution is a high quatch.
Ing specil-T. 0.
.-- ~ L. "'. ., -, - - - i . .
1, w ., - , ~ , " f , I - P, '. I ;
. ~ I .~ ! ., I . I I . - , , I I I . ! ~ . I- I .: .
"Theory of Chan.-es in Martensite.11 p. 52,
(bTR0JNO=KTRXECHNICKY CiiSOPIS, Vol. 5, 11o. 1., 1954, Bratislava, Czechoelovakj~t)
SO: Monthly List of East European Acce8sions, (LEAL), LC, Vol. 1,
No. 5, May 1955, Uncl.
r\!A 2 L) 9 (A PA 0 V
USSR/Physilcs llardeLrZ~~f Vieel FD-903
Card 1/1 Pub 153-12126
Author : Kurdyumov, G. V.
Title :-MV -a,~~nes`s- of drawn steel
Periodical Zhur. tekh. fiz. 241 -1267, jul 1954
"%,1254
Abstract 11lie martensite behavior of transition of a solid solution duringr
drawing of steel can be separated into two types. A new phase
without 3tress relief and typified by microBtructure occurs an
consequence of the martensite formation mechanism. The other
type consists in a diffusionless transition of martensite with
structural changes of alpha-pha3e crystals in microspaces.
Thirty references including one U. S.
IInstitution
ISubmitted March 15, 1954
USSR/Minerals X-ray analysis
Card IA t 'Pub. 22 - 16/44
Kritskaya, V. Y,.; Kurdyumovp G. B., aende-niclan; and Stellets-
Autbore kaya, T. 1.
Title Effect of chromium on tho couplinC forces of the crystals of
0~-iron
Periodical t DokC.AN WSR 98/1, 63-68, Sep 1, 19514
Abstract s Effect of chromium on the bond forces in thecY~iron crystals
was studied experimentally. The expe:rImente were conducted
with the help of X-rays. Scnne renulto are vhown on a diagrm
and tables. Four references (1951-1953).
Institution I Institute of Metallurgy and Physics of Metals of the Central
Scientific Research Institute of the `~we Metals (TsIJIIChM).
Sulmitted S ***.*
V\LkV()Y1kMO1j) (9. V.
USSR/Phyaics - Technical physics
Card 1/1 Pub. Z2 - 16/48
Authors t Bilfdzyukevich, I. A.; Golovehiner, Ya. H.; and Kurdyt=v, G. V., Academician
Title t The nature of coercive force changes during the tempering of hardened low-
carbon steel
Periodical : Dok. AN SSSR 98/3, 385-387, Sep 21, 1954
Abstract : The three factors playing an important role in the intensive development of
coercive for(i:3s, during hardening of stet~l, are listed. It was established
that the Martensite conversion raschanism in itself leads to considerable in-
crease in coercive force as result of tha originating internal hammering.
The effect of other factors on thin changa in coerciv6 force, during the tem-
pering'of low-carbon steel, is explained. Experimental results -show that
tempering., at 2200 results in lesser increase in coercive force than harden-
inv. Fifteen USSR references (1933-1954). Graph.
0
Institution : Central Scientific Research Institute of Ferrous Metallurg7, Institute of
Metal Research and Physics of 14etals
Submitted : Junp 9, 1954
.__v
tA 6
1js,r1j/E1ngjn-,?r!w, -
Card 1/1 I'ub. 22 21/47
Authors N-HY11MOV'-G. Academician; and Travina, N. T.
Title study of interatomic rea~,.tions in solid. solutions wli;n
a nickel base
Periodical : Dok. All SSISR 99/1~ 7'1-80, Nov 1, 1954
AtAract : Experiments, with crystallic solid aolutiots, having a nickel base, are
1-p--cribr!rl. The OX',-.K)riP10nt3 are Intendod to deteri.-iino the strenath of the
interatf-imic bond!i oi' the solutLons. TM3 was ac eomr~l.-- shed by wa3uring
t1v thf3rrral factors of Roew.~;#--nls ray-disrersion. Results are given. Five
refemnice:-, (1951-1954). Tables; -va!,ho,
Institution : Insti.tute of Retallurgry and Thysics of I'letals of TsN'11Ch1-1 (Central
Scientific Research In5titute of Ferrous Eletals)
Submitted : ...
KUIDl7,'07) 7,. 'T.
"InveUlgationt- of Diffunlon -ind ~tmic Inberrictlan in Llloy.-, with the Aid of
- 11
Radioactive Isotoues, n paper pre-cented at the Atoms for i~cacc CorTerence, Geneva,
Switzerlind, 1955
.-..XMTIYUM V,.G,Vv--.
[Using radioactive isotopes for studying diffusion and inter-
atomic reaction in alloys] Primenenie ralioaktivrqkh izotopoy
dlia izucheniia diffuzii i mezhduatomnogo vzaimodeistriia. v
splavakh. Moskvap 1955. 15 P. (MM 14:7)
(Alloys) (Radioisotoloes--industrial applications)
KMUrl'LMV G V , DANnOV.0 V. I., and Others (53)
If-Evaluation of Problema In 1*tallography and Physics of M
K*-tsllurgizdat - 1955 eta
Wanslation 563700
I
r
I;r" t-~,~ V,,j /-I "),/./A
I e ~ I
BIIIDZYUKEVICH, I.A.; ~OLHMR, Yn.M.; MDYUM(IV, G.V.,akAdemik
Coerrive force changes during tempering of bnrdened, 1OW-CArbon steel.
Probl. metRlloved. i fiz. met. no.4:205-208 '55. (KIRI 11:4)
(Steel--Heat treatment) (Perrorungnatism)
KTJRDYUMOV,.G.Y..ak,qdemik; PERKAS. M.D. kand.teldin.nauk; SHAMOV, A.Ye.,krind.
1 1. 1 -f'iz.-mAt.nauk
Stnto of mnrtensite crystals in hnrdenod commercial Jron and low-
enrbon steel. Probl. metalloved. i fit. met. no.4:22E~-238 155.
(Metal crystAle) (Mnrtensite) (MIRA 11:4)
XMYUMOV, G.V..akademik; TRAVIIIA, 11.T.,knndJ1z.-mnt.nnuk
. - --- ~-
-~, ~ -- ,ni
X-rny interference intensity chnnceg durlr4: nickel-chromium.-
tittinium-aluminum alloy aging. Probl. metit1loved. i fiz. met.
no.4:265-472 '55. (MIRA 11:4)
(Nichel-Chromium-Titnnium nlloye---Hnrdeninp,)
V rve-Industrinl aDplientions)
IMYRIOV, G;.;V. , nkAdem Ik
/ ,A;1#1~~,~~.,_..j- Hnrdness prouerties in hent trentment-hardened steel. Probl. metn1loved.
i fiz. met. no.);:321-338 '55. (MIRA 11:4)
(Steel--Heat treatment)
~. 1. - I ~ ~ - .. - ~ , "%,. : - _-,- ~-,- -
__ -.1 -~~ .1 .1 . I ;,
I . -.1 - 1 It . . -
-Category USSF/Solia'State Mysica - Structural cryitallography E-3
Abs Jour Ref Zhur - Fizika, No 1, 1957, No 1073
Author :_&X4r=v, G.V., Illina, V.A., Kritskayn, V.K., Lysak, S.I.
Title : X-ray D-i-fMaMon Inytstigation of the Strains and Binding Forces in the
Crystal,Lattice of 14^-t&16 sad Alloys
Orig Pub : P~obl. metalloved. i fiz, rv,!tallov, sb. 4, 1955, 339-3q9
Abstract : Extensive experimental material is reported on the study of x-ray diffraction
of strains and inttratomic-interactibn forces in the erystal lattice of metals
and alloys. Ths, cLaractsristic features of -the live crystalline structure
of metals and alloys in etrengthened state arz cutxamin,~d. An analysis is
made of metals foi d-~t~,rmining the various changes in the fine crystalline
structure and of tht properties of the crystals La the micro regions. Bib-
liography, 28 titles~
Card
KMTUHOV, G.V.,nkndemik; 'ENTIN, R.I.,doktor te~hn.-anuk; ROZENIM.M, Y.M.,
~ - kand.tekhn.nnuk
Raintion of the kinetics of wenkening during the nging, -process to the
componition of the hnrdening phnse. Probl. metnlloved. 1 f12. Met.
no.4:160-376 155. (MIRA 11:4)
(lletnlti--Hnrdmning) (OryHtnl lAtUdOO)
KM'TWOV, G.V.,al;ndamik; TRAVINA, H.T.
X-rny lnventip,"tion of interAtOMiC internction in nickal-bnee solid
solutions. Probi. mntnlloved. i fiz. met. no.4:402-407 155.
(Solutiona, Solid) (mMA 11:4)
(X rays--Induntrisl npplientions)
F
KRIT3KAYA, B.X.,knnd.fiz.-mnt.nauk; KURDrUHOV, G.V.,nkndenjk: S7FUJOTSKATA, T..I.
Effect of chre,triun on the binding nnerpy in -iron crystAla. Probl.
witplloved. i fiz. met. no.4:40F~-411 '55. (MIRA 11:4)
(Iron--Metallography) (Chromium)
KMYUMOV, G.V..akademik; KRITSKATA, V.K..kand.fiz.-mat.nauk; NODIA. N.M.,
-- knnd.fiz.-mnt.nauk.
Bffect of cnrbon on binding energy and stntic distortion in crystals
of martensite. Probl. metnlloved. i fiz. me'.. no.4:455-460 '55.
(Crystal lattices) (Mnrtensite) (MMA 11:4)
(Carbon)
GRUZ111, P.L.,kand.fiz.-mat.nauk; KMHFTSOV, Ye.V.; KURDYUMOV, G.V.,nkndemik
Effect of the intergranulnr structure of austenite on the self-
diffusion of iron. Probl. metnlloved. i fiz. met. no.4:494-497 155.
(Diffusion) (Iron allOYS--MetAllogrnphy) (MIRA 11:4)
(Austenite)
USSR/Physics Distortion
Card 1/2 Pub. 153 1/23
FD-3032
Author Kritskaya, V. K.; Kurdyumov, G. V.; Nodia) N. M,
Title Binding forces and distortions in martensite crystals
Periodical Zhur. tekh. fiz., 25,"February 1955, 177-181
Abstract The essence of tempering of steel consists in the formation of
supersaturated solid solution of carbon in the alpha phase (mar-
tensite) as a result of diffusionless conversion of austenite, the
considerable change in the steel's properties as a result of tem-
pering being due mainly to those changes in the state of -the alpha-
phase lattice which cause the presence in it of carbon a,.-.oms dis-
tributed among the iron atoms; therefore for an understanding of
the nature of the properties of martenzite and their variations :n
the annealing process it is important to know the characteriotllc~;
of the structure of Its lattice, hence binding forces and distor-
tions. The authors conclude that the great resiGtence of marten-
site crystals to plastic deformation cannot be due to variation in
the binding forces in the lattice, since it is not only not h1oher
than in alpha-iron crystals but even significantly lower; and that
Card 2/2 FD-3032
the cause for the hieh elastic limit of deformation in annealed
steel is the greater ttatic dit-ttortion of the martensite lattice
caused by the presence of carbon atoms dissolved in it. Nine
references.
Institution : --
Submitted * July 19, 1954
UITJ tal.,j 'W,1n6
Caru 1/1 Pub. 153 - 2/23
FD -3033
Author Kurdyumov, G. V.; Travina, N. T.
Title Variations in the intensity of x-ray intcrfer~nces during: aging
of nickel-chromium-titanium-aluniiiiz;i alloy
Periodical Zhur. tehh. fiz., 25, February 1955, 182-187
Abstract The authors confirm the notion that in the supercooled solid Golu-
tion even before the bvi~innirkf of decay proper of the solid solu-
tion with the fori-vition of _,econd-phasc particlez- there occur witl in
the solid solution -rocejse~; Lbat chanGe the distribution of
in the lattict! of Lhe cry3talL; of th,--- soliO solution ~,hlch
coherently scatter x-rayo :;ii.Lilarly to a homogencou-7 solid solu-
tion, this process in aluminum alloys beii-C called natural aging
in an much It proceeds at room teinperature; in the investigated
alloy it proceeds at a coasiderably hijiQr ~eiapcrature (500-6coo)
in correspondence with the stronger bondi3 and conse-
quently with the less; mobility of the ato-,.L;. ~uven referencei.
Institution -W
Submitted July 19, 1954
usst~/Physics
Card .1/1 Pub. 22 - 21/59
Authors I Kritokayd, V. K. Kurdyiz!ov, G. V. , jlc~-.dciieian; and Til-honov, L. V.
Title I Effect of nachini;,~on the conpling forces in the ci-ista'-Ls of an
solid solution of iron-nickol alloy
Periodical I Dok. All SS,,-,R 102/21, 271-2740 11--y 11, 1955
Abstract I Studies are described of the harding and tempering effect on tho coupling
forcoG of the plastic deforation of iron-nickol aUoys of the follouring
conpo-und: 4% Ni; 0.015% C; 0.04"1 Si, and 0.001""j, F. Intensities of the
Speotrnl lines ware ativIi0s. Fourtcon U-55,R reforences
Diagram; table.
Institution : Central Scientific Research Instituto of Ferrous Vetalls, Inatitlite of
Metallography and Physics of Vatals
Submitted t February 27, 1955
DANILOY, Vitaliy Ivanovich. prof essor,doktor fiziko-mateuntichaskikh anuk,
laureat Stalinakoy premii;.1a akademik, redaktor;
DANILOVA, A.I., rodaktor.- Mi6, A.M. .'redaktor; KAMEIM-SXAYA. D.S.,
radaktor,, LASWCO. A.S.. retlaktor; OVSIYEKKO, Me., redaktor; SKRY--
SHEVSKIY. A.F., redaktor; 3PMOR, Ya.Z.,.redaktor; KAZANTSEV, B.A.j
redaktor izdatalstya; RAKHLINA, H.P.. takhnicheskiy redak-tor
[structure and crystallization of liquids; selected articles]
Stroente i kristallizataiia zhidkosti; izbrannye statit. Pod red.
G.Y.Kurdiumova. Kley, Izd-yo Akademil nauk Uk5SR, 1956- 566 p.
(MLRA% 9:10)
1. Deystvitallnyy chlen AN USSR (for Dantloy)
(Liquids) (Gr7stallization)
th~~
Getegory : UCSF/~','olid Strto Hiyulco - Yochr,nicrl Iropertli.,s of
Crystala rnd Crystc.11illo Cc:,ipounds
Abs Jour : Rof Zhur - Fizilm, No 1), 1957, Ao 6013
Author : :Wrdywov, G.V,, E.Z., Rozrjriberr,, V.,"i.
Titlo n tionce of 1rXQrw,.1 ~%ruct-,iru of the ImAcnito rjrrin on
tho C-trcnrtli with Incrov.-Ing, Tci~pornturo
Orig Fub Dokl. !'ill SSSR, 19r..'), 107, No 1, M-1-7
Abatract A study wav, -,irdo of the influonco of t~,c irtrcZrc-nulr,.r
structure of nuotenita on thu 2trcnp,,th vt 700', as P. function
of tho crood of the forr ,ction. Variour jtructurc.-s werc. rc-
r,civ,jd b . " (4iract end rcvcrsc- -.,.rrtonsitic
y phcoc hrrdonin,
tronsforr-ption) and ~aatin,- rt wricus tarperrturac ebcvQ
tho to-mrorpturc of tho ond of the ruvorse :-ri-tonsitic trrnq-
fornetion. It w--v er-trblishrid that the prasoncc cf n thin
submicroscoFic Inbo-op-,;n(Aty in the otmicture of the grrinr,
duf., ta tho lrirgo nu.,bar of intrerr-nulnr seprrntion 3ur-
f-ccoa, lcr~dc to en im:rc,~ue Lr,. Lho rcc-i::trncc to drfor7ation
I
high dufoml-tion rpac-4 rnd to a radvet-ion in the rcsic-
trncr to dcfor-,,.~otton ~t bpooja -6ausVh~ Vailura zftcr 1C0
Card 1/2
SUBJECT USSR PHYSICS CARD 1 / 2 PA - 1245
AUTHOR KUDRJUMOV, G.V., KAMIBSKIJ, E.Z., ROZENBERG, V.M.
TITLE The Influence exeroiaed by the Interior Structure of the Austenite
Grain on Strength at Increa.ied Temperature.
PERIODICAL Dokl. Akad. Nauk, j02, fasc.1, 65-87 (1956)
Publ- 7 / 1956 reviewed 9 / 1956
In the present work a solid solution on an iron base containing about 29%
nickel and 1% titanium is examined. The direct martensite transformation of
this alloy takes place below room temperature, but the inverse transformation
0 0
ceases at 640 . The samples were homogenized for 8 hours at 1000 after
melting and forging. After the aforementioned treatment the samples had
austenite structure, and their state depends on working temperature. The en-
durance strength was tested at 700 0 in an argon atmosphere by tension. An a
result, the dependence of endurance strani3th on the connected tension and on
the temperature during preliminary treatment is obtained, and herefrom also
the tensions necessary for a fracture of the sample after 100 hours. Further-
more, short testa of breaking strength were carried out at 7000, on which
occasion the following results were obtained: The higher the temperature of
annealing after the martensite transformation, the lower is the strength
limit and the larger the endurance limit of stress, i.e. the tension necess.-
ary to bring about a fracture after 100 hours.
X-ray examination supplied information concerning the atate of the crystals
Dokl.Akad.Nauk, 109, faso.1, 85-87 (1956) CARD 2 / 2 PA - 1245
of the solid solution after corresponding treatment. Some X-ray pictuxes
ta)(_ rih-manganese radiation are attached; they permit a qualitative de-
scription of the state of the crystal lattice of the austenite after an in-
verse martensite transformation and following heating. The broadening of the
lines in a radial direction is due to tensions of the 2. kind, and to thei re-
duotion of the domains of the coherent scattering of X-ray radiation. Tho de-
scription of the interference spot in azimuthal directionindicates a mutual(?)
or opposite (?) rotation of these domains. These states of the crystals (grain)
of the solid solution are conserved up to very high tem 9eratures and recrystal-
lization begins only at 10000. After annealing at 1100 and 12000 reflections
of new recrystallized grains become noticeable. Each austenite grain is a
total of small domains with a proper crystal lattice, and this lattice is
interrupted at the boundaries of the grain. The higher the annealing tempera-
ture after the inverse martensite transformation, the more completely will the
destructions of the crystal lattice be removed, and the more will the 3trength
of the solid solution be reduced. At high temperatures and low tensions a
treatment that removes (or increases) defects of the lattice will increase
(or deteriorate" resistance against plastic deformation,
j
INSTITUTION: Institute for Metallurgy and Physics of Metals of the Central
Scientific nesearch Institute for Iron Metallurgy
W4 t- V Ku
SUBJECT USSR / PHYSICS CARD 1 2 PA - 1657
AUTHOR KUDRJUMOV,G.V., PERKAS,M.D.
TITLE On the Hardening of Not Alloyed Carbonless Iron.
PERIODICAL Dokl.Akad.Nauk, L11, fasc-4, 818-820 (1956)
Issued: I / 1957
At first some previous works are discussed. The impossibility of hardening
carbonless iron, i.e. the impossibility of the production and the growth of
the germE of the a-phase above the martensite point is due to a disturbance
of the oryjtal structure of austenite, and consequently by the high mobility
of the atoms. Heating up to 10000 and more diminishes the production velocity
of the a-phase in a higher range of transformation temperatures and makes
undercooling of the austenite down to the domain of martensite transformation
possible. If these assumptions are correct the possibility of hardening pure
iron by increasing the temperature of heating will increase. For this purpose
a heating temperature of more than 11000 is taken, because in that case the
dependence of the diffusion coefficient on temperature takes a normal course.
The iron examined in this case had the following chemical
0'01~ C1 OtO5% Mnj 0902% Sil 0,008% Pi 0,03% 51 0,041% 02 j
01004% H20 The samples consisted of 20 x 10 x 1 -,= plates.
chilled in a 10% aqueous NaOH solution at 50. The state of
various forms of processing was estimated by measuring the
ing to UCKERS) and the breadth of roentgen-interferences.
composition:
0,009% F2;
The samples were
the iron after
hardness (accord-
For the samples
Dokl.Akad.Nauk,111.fAsc-4, 818-820 (1956) CARD 2 / 2 PA - 1857
annealed at 6000 80 H. was obtained for hardness, and for the breadth of the
line (220) 9.10_~ radian was 0obtained in iron radiation. After hardening of
the samples from 980 to 1020 , hardness increasod to 100 - 120 11V. The inter-
ference lines were somewhat washed-out on this occasion, but the doublet Ka
of the line (220) did not fuse completely. In the course of hardening which
proceeded from 13500, hardness amounted to from 190 to 210 HV, and the doublet
Ka fused into a broad line.
The data at present available concerning the strength and the roentgen proper-
ties of carbonless iron show that the solidification attainable by martenaite
transformation has a similar strength as solidification attainable by cold
plastic transformation. By comparing the resulta of chilling and cold deforma-
tion of iron it is possible to conclude that on the occasion of chilling pro-
ceeding from 13500, the traiasition J'--:> a (at least with respect to the
greater part of the volume), takes place according to the martensite mechanism.
However, chilling proceeding from 10000 caused only partial hardening. A pos-
sibility of undercooling the r -phase of iron (and therefore its hardening
properties) depencb largely on the inner structure of the grain and on the
quality of the crystal structure.
INSTITUTION: Institute for Metallurgy and Physics of Metals of the Central
Scientific Research Institute for Iron Metallurgy.
r,. V.
-c- - Ut"R
A.
"The lfi4ture of Rartensite Transformatlon,"
imper oresentiA It tile -letaUurgica! Congress in Chicago, 6 llov. 1957
Eval. and Ab5t. B-3095, 520, 6 Nov 57
C-71
137-58-5-10592
Translation from: Referativnyy zhurnal, Metallurgiya: 1958, Nr 5. p 246 (UE,SR)
AUTHORS: Gruzin, P. L., Kurdyumov, G. V., Tyutyunik, A. D.. Entin, It. 1.
TITLE: On the Role of Diffusive Displacement-; ofAtoms in High-temp-
CrZit,Lll V Strength (0 roli diffuzionnykh pererneshchemy atomov v
zlia roproclinosti)
PERIODICAL: V sb. : Issled. po zharoprochn. splavam. Vol 2. Moscow,
AN SSSR, 1957, pp 3-8
ABSTRACT: Some results of investigations of diffusion (D) in metals and
alloys relative to the problem of high-temperative stren(,,111 (H)
are examined. It is noted that the special fCOLII-V~~ 01 111(. be-
havior of metals at high temperatures Linder load -, re ( on'-oloned
by the existence of rather frequent diffusive shifts of t-toln..; (A)
in the crystal lattice of the phases constituting the alloy. There-
fore, along with the shear mechanism of plastic deforniation, a
diffusion mechanism beconies active. The number of ator-lic dis-
placements, increasin,-'j with temperature, fends to limit the
temperature zone in which hardened alloy phases -nay be em-
ployed, owing to the reduction in the resistance to plastic de-
Card 1/~ formation due to the shear mechanism. The relatively higher A
J37-58-5-10592
On the Role a'" Diffu~,ive (cont.
inability atthegrainboundaiyortht- intr;,-grain interface, as against that
within the body, means fli,tt ',hc grain boundarics cons!ItUtC t,hC %%-eak spot in
the resistance of a metal to deformAtion and failure ai, high !,~niperatures. A
reduction in the mobility of the A 15 rCCILli red to itic re~: se the lc% c1 a,- H. It is
demonstrated that an identical level of mobility o~ the A c-m bu eitt.vizied e.,i, di(-
ferent temperatures with different metak. The temperaWre )t. which a given
level of diffusive inability of A is attained is determined prinizirily by the
energy of activation. Jn some inetals ~Iic le~~el of mobil,tv of !ht A is also ;ig-
nificantly shifted by the change in the magnitude of the factor Do prece(~ing
the exponent in the expression for the relationship bet-ween the coetfu .~nt of'
diffusion (CD) and the temperature. Ac(.:umulat.ed experinieWai dat-_i show thal
a variation in the CD may occur owing to changes in either parameter o,, the
temperature dependence of the CD. At elevated energies of activa,.ion (due to
alloying), there is Usually an increase -n the multiplier Do, wish be result
that at temperatures that are high for the given alloy base nief.;il .here
little change in the CD, whiie at low temperatures fbey may cliange by a full
order of magnitude or even more. Addition to the alloy w element'i that
strengthen the bond in the solid solution causes a shiff. I.o%%-.3rd li;gher temper-
atures for the onset of the diffusive ductility mechanisin.
1. Metals--Diffusion 2. Alloys--Diffusloi 3. Vleta~:--
Card 2/2 4. Metals--Mechanical properties
KURDJIAOV G.V. fKurdy=ovs, GOV91; XMWy H.B. (Neyman, M.B.1; FRANK, G,14,
Use of radioisotopes in the Soviet Union. Jaderna energie 3 no.3-1:389-
399 N '57.
AUTHORSt Kurdyamm, G. V., Neyman, U. B., Frank, G. M, 89-11-9/9
TIftEt The Use of Radioactive Isotopes in the USSR ( Primeneniye ra-
dioaktivnykh izotopov v S3SH)
PERIODICAL: Atomnaya Energiya, 1957, Vol. 3, Nr 11, Pp. 465-478,(USSR)
ABSTRACTt Only some of the*most important uses of radioactive isotopes in
chemistry, biology, medicine and agriculture are describedt
I. Radioactive isotopes in chemistry.
1) inorganic chemistry.
a~ Mechanism 60 the isotope of complex compounds of Pt, Br.
b Mechanism of the formation of thiosalphate.
c Establishment of the diffusion exchange theory for the
systems solid body-gas, solid-liquid, etc.
2) Analytical chemistry.
a~ Use of indicators.
b- Absorption of carbon for the separation and purification
of radioisotopes.
9') Chromatographic separation of salts and gaseous mixtures.
3) Physical chemistry.
a) Determinations of the vapor pressure of metals, salts and
oxidee,
b) Rapid method for the determination of solubility.
fl Chemical kinetics
Card 1/3 5 Organic chemistry
The Use of Radioactive Isotopes in the USSR. 69-11-9/9
a) Determination of the rearrangement of closed groups,ringst
etc.
b) Determination of the place where the splitting of a lar-
ge molecule or ring etc. takes place
c) Participation of oxygen in catalytic oxidation processes
11. Radioactive isotopes in engineering.
I~Gammadefeotosoopy (samples with a thicknes of up to 300 mm)
2 Control of working processes (CO, IrJ90, C:137, TM170)
3 Employment in the current thickness measurement without dis-
turbing the working process, but on the contrary to control it
4JSearch for new ore and oil deposits
5 Use in mining and in foundries
III.Radioactive isotopes in biology and medicine
1)Determination of the exchange of phosphorus 14he sick tis-
sue, in the lungs, in the central nervous system
2~Determination of the exchange of iodine
3 Use in therapeutics (internally and externally appliee-)
4 Determination of the speed of an exchange process in depen-
dence on the functional state of the central nervous system
5Me use labelled microorganisms for determinatibns of immunity
6 Gam.masterilization
Card 2/3 IVI Radioactive isotopes in agriculture
The Use of Radioisotopes in the USSR. 89-11-919
1) Determination of the actual course of photosynthesis
2~ Determination of the actual process of nutrition in plants
3 Biosyntheeis of chlorophyll
4 Improvement of fertilizers
There are 3 figures and 98 references.
AVAILABLE: Library of Congress
Card 3/3
126-3-5/34
Osiplyan,YuA.
AUTHORS: Illina, V.A., Kritskaya, V.K. Kurdyumov, G.V.,
and Stelletskaya, T. I.
TITLE: Study of the dependence of the bond forces on the state of
crystals in metals and solid solutions. (Izucheniye
zavisimosti ail Bvyazi ot sostoyaniya kristallov V
metallakh i tverdykh rastvorakh~.
PERIODICAL: "Fizika Metallov i Toletalloyedeniyf," (Physics of Metals
and Metallurgy), 1957, Vol.IV, vo-5, pp.417-431 (U.S.S.R.)
ABSTRACT: Numerous studies revealed that -the interzitomic bond forces
in a metallic crystal lattice can be iafluenced by alloyir4,.
Depending on the nature of ttie alloyin~~ elerjent,the bond
forces can be increased or decreased. Earlier work of the
authors (3) and of Iveronova, V.I. and Katsnellson, A.A.(4)
have shown that the concentration of the alloying component
is also of great importance, the heat treatment and Dlastic
deformation was also found to influence the characteristic
temperature of the solid solution (2,3,5,6). In recent
years a considerable arjount of viofk has buen published
inside and outside the Soviet Union in which anomalies are
Card 1/ 5 reported in the changes of certain properties as a result
of heat treatment and deforaiatiou of nwaerous solid solutions.
On the basis of experimental data of various authors it can
126-3-5/34
Study of the dependence of the bond forces on the state of
crystals in metals and solid solutions. (Cont.)
be considered as an established fact that certain properties
of the solid solution can be chan-ed sp:)reciablyby heat
treatment and deformation without cny change occurring in
the chemical composition of the investigated -ohase; this
phenomenon (change in the characteristic temperaL;ures,
electrical resistance anomalies, change of the lattice
period etc.) was detected only in solid solutions but not
in pure metals. Analysis of results of otder authors
permits the assumption that the anomalies in the properties
observed by various authors can be attributed to a general
cause and are the result of the same process taking place
inside very small volumes of the crjstal lattice of the
solid solution. The most likely assumption is that the
observed anomalies in the properties are due to changes in
the distribution of the atoms in the lattice of -the solid
solution and on that numerous authors are in agreement
but, on -the other hand, various authors disaorce on the
character of the redistribution of thu ,_Ltoms inside the
lid and on the nature of this phenomenon; however, there
Card iss no direct confirijit..tion of this BSSUMDtiOn r-Rd the problem
requires further study. In the here described work the
126-3-5/311
Study of the dependence of the bond forces on the state of
crystals in metals and solid solutions. (Cont.)
influence was investigated of differing treatments on the
interatomic interaction in crystals of solid solutions and
of some high melting point metals and the influence was
studied of the plastic deformation and heat treptment on
the bond forces. The investigations viere effected by X-ray
methods and by measuring the resonance frequency of the
lonEitudinal elastic oscillations (determination of the
modulus of elasticity). The investigations were carried out
on iron alloyed with chromium, manganese, W, Ni, Ti and
also on pure Cr, 17 and Tn. For meltinG the metals a 50 kg
capacity high.11,equency furnace was used and -U'-Iie material was
cast in-to 25 kg ingots. The ingots were subjecued to
diffusion annealing at 1200 C and then forged into a square
of 40 x 40 mm cross section and into rods of 15 mm dia.
Forging was begun at 1000 to 1100 C and,after forginG 'the
material was cold rolled with a total reduction of 62.5%,
-the specimens for determininS the modulus of elasticity
were cut from the rolled strip in the direction of rolling
and were 100 mm long and 10 mm dia. Tho chem-ical analyses
Card 3/5 of eight of the investigated melts are given in Table 1,p.419.
The results are described in some detail which were obtained
126-3-5/34
Study of the dependence of the bond forces on the state of
crystals in metals and solid solutions. (Cont.)
for the characteristic temperature of the solid solutions,
Fe-Cr, Fe-ldn, Fe-W, Fe-Ti and for the bond forces in the
pure metals Cr, W, Ta and also for the YounG modulus of
iron and the alloys Fe-Ni, Fe-W, Fe-Cr, Fe-Iln after various
types of heat treatment. It was found that the character-
istic temperature of the pure metals Fe, Mo, V1 and Ta does
not change after heat -treatment and deformation of these
metals. In chromium an increase was observed in the
characteristic temperature after heatinE deformed specimens
to 600 C; after heating deformed chromium ut 800 C its
characteristic temperature did not chauEe; it was found that
the effect of changes in the characteristic temperature as
a function of the heating temperature is reversible. There
is a bond force during heat treatment and deformation of the
solid solutions Fe-Cr, Fe-W and Fe-h1n: the characteristic
temperature increases on heatingwithin a given temperature
range and decreases as a result of plastic deformation and
hardening (Fe-Cr, Fe-Mn). It was established that there is
full correspondence between the direction of the change in
card 5 the characteristic temperature and the Young moduUq, resulting
from heat treatment and workino of the solid solutions
126-3-5/34
Study of the dependence of the bond forces on the state of
crystals in metals -and solid solutions. (Cont.)
Fe-Cr, Fe-W and Fe-Mn. It is as3umed that the revealed
phenomenon of a change in the bond forces during heat
treatment and working of various solid solutions is due to
a redistribution of the atoms in the crystal lattice and that
an increase in the bond forces corresponds uo an increase.of
the degree of the near order.
There are 10 figures, 6 tables and 24 references, 17 of which
are Slavic.
SU13MITTED: December 4, 1956.
ASSOCIATION: Central Ferrous MetallurLj Scientific Research Institute.
(Tsentrall~ Naucluio-Issledovatellskiy Institut Chernoy
Card 5/ 5 Metallurgi. .
AVAILABLE: Idbrax7 of Congmss
-b Y k",
126-2-33/35
AUTHORS: Il'ilial V. A., Kritskaya, V. K.) a-rid, Kurdyu-liov, G. V.
inten.,dties
TITLE:
On the chmiGe of the absolute
intorferencos of cold deformed iron. (Ob
absolyutnykh intensivnostey rent,enov-kikh
kholodnodeformirovannogo zheleza~. -
of X-ray
izinenenii
interferentsiy
PERIODICAL: Fizika Metallov i Metallovedeniye, 1957, Vol.5, No.2,
PP. 379-381 (USSR)
ABSTRACT; In X-ray investigations of deformed i,,ietals and alloys
(Refs-1-7, 10) it was found that there is a weakening
in tho intensity of the linen of radiogrwiis obtained
from deformed specimens as compared to the intensity of
the same lines obtained from non-deformed specimens;
the degree of weakening is the more pronounced the
higher the order of reflection and complies with the law
-BL'h2
e i The work described in this paper aimed at
verifying the correctness of this law and was carried out
by means of an ionization method using YPC-50A equipment
which incorporated additional equipment for controlling
the change in the intensity of the pl'iTllary beeii of X-rays
Card 1/2 (I0). The investiCations were carried out on deformed
126-2-33/35
On the change of the absolute intensities of X-ray interference-s
of cold deformed iron.
(filed off) and annealed iron powders. The obtained
results are entered in a table, p.380 and a Creph, K6.1.
Usino the ionization method of measurinrr the absolute
intensities, i6 was L--ain proved that cold -nlastic
deformation brings about a weak-3nin-1. of the intensity
of -the reflection of the X-rays in accord,,mce with the
expontential law -brh2
e i
There are 1 figure, 1 table and 10 references,
4 of which are Slavic.
SUMUTTED: September 6, 1957.
ASSOCIATION: Institute of Metal Technology and Physics of Metals,
TsNIIChA1. (Institut Metallovedeniya i Fiziki Metallov
TsKIICWA).
AVAILABLE: Library of Congress.
Card 2/2
126-2-34/35
AU.U116YRS'1 Il'ina, V. A., Kritokaya, V. K.) and Kurdyix-nov, G. V.
,TITLE: On the weakenin3 of X-ray reflections of cr-iron as a
result of extinction. (Ob oslablenii rent enovskikh
otrazheniy (x-zheleza za schet ekstinktsiiK
']PERIODICAL: Fizika Metallov i Metallovedeniye, 1957, Vol-5, No.2,
pp. 381-383 (USSR)
AB8TRACT: Determination of the static distortions of the crystal
lattice (third order distortions) is usually effected
by comparing the absolute or the relative intensities
of X-ray reflections from equal crystalloFraphic planes
of deformed and of annealed metal. It is thereby assumed
that a change in the intensity should be due solely to
one cause 7namely, the existence of a disordered
distribution of the dis lacements in the deformed
specimens. The second Mnealed) specimen is used as
a standard. The preliminary heat treatment of this
specimen must be so carried out that there should not
be an intensive coarsening of the crystal structure which
would lead to a weakening of the intensity of X-ray
reflections (extinction). In order to determine the
nnealing temperature of deformed iron povider at which
Card 1/3 a weakening of the intenEity of the X-ray as a result of
126-2-34/35
On tho weakening of X-ray reflections of u.-iron as a result of
extinction.
extinction takes place, the followinG experiments were
made: defor;4ed iron powder was annealed at 500, 650,
700 and 750'JC. These powders were used for producing
cylindrical specimens of 0.9 mm dia. The X-ray
investigation was effected using molybdenum radiation.
The X-ray patterns viere photometrically evaluated by
means of a recording micro-photometer which recorded the
curve of intensity distribution on a self-recording
electron potentiometer. Each half of the radiograph
was photometered twice. The intensity was determined
of X-ray interferences from crystallographic planes
with the following sums of the square values of the
indices: 6 14 26 62 Obtained experimental data
are entereA in'Table 1: After annealing at 500 and ?OOoC
-the relative intensity of all the measured interfegence
values did not change; only after annealing at 750 C was
a weakening observed of the intensity of the X-ray
reflections from the planes (211) and (321). The
intensity of the rame X-ray interference from the planes
Card 2/3 (510) and (732) remained practically unchtn-ed. In Fig.1
Lj
. ....... ..
126-2-34/35
On the weakening of X-ray reflections of a-iron as a result Of
extinction.
the effect of 'the extinction for the various crystallo-
graphic planes is graphed. The effect of extinction
was also studied in a solid specimen. One of the
investigated specimens of hardenSd iron was tempered
successively at 450, 550 and 600 C for two hour s and
the intensities viere measured of the X-ray reflections
from the planes with the sum of the square values of
the indices 61, 141 26 and 62 and in the hardened state
161 141 26. The experimental results arc ontered in
Table 2. It can be seen that the effect of extinction
in a solid opecimen of hard8ned iron manifests itself
even after tempering at 600 C. It can also be seen
that type III distortions do not occur during
hardening.
C6Lrd 3/3 There are 2 tables, 1 fi6ure and 1 Slavic reference.
SUBMITTED: September 6, 1957.
ASSOCIATION: Institute of Metal! Technology and Physics of Metals,
TsNIIChM. (Institut hletallovedeniya i Fiziki Metallov
ToNIICIA,I).
AVAILA,BLE.. Library of Congi~ess.
GOUJBKOV, V.M.; WINA, V.A.; XRITSKAYA, Y.K.; KWTUMOV, G.V.; PXWS,
M.D.
Studying physical factors determining the hardening of alloyed
iron. Fix. met. i metalloved. 5 no. 3:465-483 157. (MIRA 11:7)
1. Institut metalloyedeniya I. fiziki, metalloy TSentralinogo
nauchno-issledovatellskogo instituta chernoy matallurgii.
(Ir'on alloys-Hardening)
(De formationa(Machanics))
AUTHURS:-Kurdyumov, G, V. and Maksimova., 0. P. (bloscow), 24-6-2/24
TITLE: Regularities in the kinetics of martensitic transformations.
(0 zalconomernostyakh Icinetiki martensitnyk1i prevreshcheniy).
PERIODICAL:"Izvestiya Akademii Nauk,Otdeleniye Tekhnicheskikh Nauk"
(Bulletin of the Ac.Sc., Technical Sciences Section),-
1957, No.6, pp.4-11 (U.S.S.R.)
ABSTRACT: In earlier work (1 and 2) the authors have shown that at
sufficiently low temperatures the speed of martensitic
transformations is measurable. Researches carried out by the
present authors indicate that in some steels with a low
martensitic point T (temperature at which martensitic
transformation beginW ) the transformation of austenite
into martensite can be completely halted by rapid cooling
in liquid nitrogen, and isothermal transformation of
austenite into martensite can be observed at temperatures
above thia boiling point of liquid nitrogen (3 and 4).
It was shown that a definite energy of thermal vibrations of
atoms is necessary for the formation of martensite nuclei,
At insufficient energy the speed of formation of nuclei is
practically zeroi as the enerSy of vibrations increases the
Card 1 5 sDeed of formation increases proportionally to exp(-U/RT),
wiiere U can be considered as 'V-Iie enerGy of activation of