Environmental Engineering Reference
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117. Review of Fuel Failures in Water Cooled Reactors, No. NF-T-2.1, STI/
PUB/1445 ISBN 978-92-0-102610-1 Printed by the IAEA in Austria June 2010.
118 .
T. Hayes , M. E. Kassner and R. S. Rosen , ' Steady state creep of Zr at temp
upto 850°C',
Metall Mater Trans
,
33A
( 2002 ) 337 .
119 .
I. M Bernstein , ' Diffusion creep in zirconium and certain zirconium alloys ',
Trans
AIME
,
239
( 1967 ) 1518 -1522.
120 .
S. R. MacEwen , R. G. Fleck , E. T. C. Ho and O. T. Woo , ' Deformation of
α
-zirconium in the vicinity of 0.5Tm',
Metall Trans A
,
12
( 1981 ) 1751 -59.
121 .
A. J. Ardell and O. D. Sherby , ' The steady state creep of polycrystalline alpha
zirconium at elevated temperatures',
Trans
AIME
,
239
( 1967 ) 1547 -1556.
122 .
N. Prasad , G. Malakondaiah and T. Rama Rao , ' Low stress creep behavior of
zirconium ',
Trans Indian Inst Metals
,
42
( 1989 ) S165 - S174 .
123 .
O. A. Ruano , J. Wadswoth and O. D. Sherby , ' Low temperature creep of а-Zr
at intermediate temperatures',
Mater
Sci Eng
,
84
( 1986 ) L1 - L6 .
124 .
M. Pahutova , J. Cadek and V. Cerny , ' Steady state creep rate of Zr-Nb alloys
in a temperature interval 350-550°C',
J
Nucl Mater
,
61
( 1976 ) 285 -296.
125 .
H. G. Kim , Y. H. Kim , B. K. Choi and Y. H. Jeong , ' Effect of alloying ele-
ments (Cu, Fe, and Nb) on the creep properties of Zr alloys',
J
Nucl Mater
,
359
( 2006 ) 268 -273.
126 .
M. Pahutova and J. Cadek , ' Effect of molybdenum on some basic creep char-
acteristics of alpha zirconium in a temperature interval of 350° to 600°C',
Mater
Sci Eng
,
20
( 1975 ) 277 -285.
127 .
K. L. Murty and J. Ravi , Wiratmo , ' Transitions in creep mechanisms and
creep anisotropy in Zr-1Nb- 1Sn-0.2Fe sheet',
Nucl Eng Design
,
156
( 1995 )
359 -371.
128 .
Y. Zhou , B. Devarajan and K. L. Murty , ' Short-term rupture studies of
Zircaloy-4 and Nb-modifi ed Zircaloy-4 tubing using closed-end internal
pressurization ',
Nucl Eng Design
,
228
( 2004 ) 3 -13.
129 .
J. R. Theaker , R. Choubey , G. D. Maon , S. A. Aldridge , L. , Davis , R. A. Graham
and C. E. Coleman , in: E. R. Bradley and G. P. Sabol (eds),
Zirconium in
Nuclear Industry 10th International Symposium
, ASTM-STP-1245 ( 1994 ) 221.
130 .
W. Goll , H. Spilker and E. H. Toscano , ' Short-time creep and rupture tests on
high burnup fuel rod cladding',
J
Nucl Mater
,
289
( 2001 ) 247 -253.
131 .
N. Rupa , M. Clavel , P. Bouffl oux , C. Domain and A. Legris , 'Impact of hydro-
gen on plasticity and creep of unirradiated zircaloy-4 cladding tubes', in: G. D.
Moan and P. Rudling (eds),
Zirconium in Nuclear Industry 13th International
Symposium
, ASTM STP 1423, ASTM International, West Conshohocken,
PA (2000 ) 399-405.
132 .
D. Setoyama and S. Yamanaka , ' Indentation creep study of zirconium hydro-
gen solid solution',
J Alloys Compounds
,
379
( 2004 ) 193 .
133 .
R. Kishore , ' Effect of hydrogen on the creep behavior of Zr-2.5wt%Nb alloy
at 723K',
J
Nucl Mater
,
385
( 2009 ) 591 -594.
134 .
R. Kishore , S. Banerjee and P. Rama Rao , ' First report on observation of
abnormal creep in Zr-2.5%wt%Nb alloy at low stress',
J Mater
Sci
,
44
( 2009 )
2247 -2256.
135 .
M. Griffi ths , J. F. Mecke , J. E. Winegar , in E. R. Bradley and G. P. Sabol (eds),
Zirconium in Nuclear Industry: 11th International Symposium
, September
11-14, 1995, ASTM STP 1295, West Conshohocken, 580.
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