Skip Nav Destination
ASTM Selected Technical Papers
Effects of Radiation on Materials: 22nd Symposium
By
TR Allen,
TR Allen
1
Symposium Chair and Editor
?University of Wisconsin
?Madison, Wisconsin
Search for other works by this author on:
RG Lott,
RG Lott
2
Symposium Co-Chair and Editor
?Westinghouse Electric Company
?Pittsburgh, Pennsylvania
Search for other works by this author on:
JT Busby,
JT Busby
3
Symposium Co-Chair and Editor
?Oak Ridge National Laboratory
Search for other works by this author on:
AS Kumar
AS Kumar
4
Symposium Co-Chair and Editor
?University of Missouri-Rolla
?Rolla, Missouri
Search for other works by this author on:
ISBN-10:
0-8031-3401-0
ISBN:
978-0-8031-3401-0
No. of Pages:
406
Publisher:
ASTM International
Publication date:
2006
eBook Chapter
Flow Localization Processes in Austenitic Alloys
By
X Pan
,
X Pan
1
Graduate Student
, Department of Nuclear, Plasma and Radiological Engineering, University of Illinois at Urbana-Champaign
, 214 Nuclear Engineering Laboratory, 103 South Goodwin Avenue, Urbana, IL 61801
Search for other works by this author on:
M Li
,
M Li
2
Post Doctoral Student
, Metals and Ceramics Division, Oak Ridge National Laboratory
, Oak Ridge, TN 37831
Search for other works by this author on:
JF Stubbins
JF Stubbins
3
Professor and Head
, Department of Nuclear, Plasma and Radiological Engineering, University of Illinois at Urbana-Champaign
, 214 Nuclear Engineering Laboratory, 103 South Goodwin Avenue, Urbana, IL 61801
Search for other works by this author on:
Page Count:
14
-
Published:2006
Citation
Wu, X, Pan, X, Li, M, & Stubbins, J. "Flow Localization Processes in Austenitic Alloys." Effects of Radiation on Materials: 22nd Symposium. Ed. Allen, T, Lott, R, Busby, J, & Kumar, A. 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959 : ASTM International, 2006.
Download citation file:
Austenitic alloys are widely used for structural component applications in high irradiation environments. In general, they are more resistant to embrittlement than other classes of structural alloys, particularly at ambient and intermediate temperatures. Nevertheless, this class of materials suffers from highly localized flow when irradiated to moderate dose (∼ 1 to 5 dpa) at temperatures between 150 and 400°C. The loss of ductility is normally exhibited by very low values of uniform elongation in tensile tests. The processes that lead to plastic instability are examined here for several face centered cubic materials and alloys. It is found that there is a critical stress level at which necking initiates. This critical stress level is not influenced by irradiation exposure. However, irradiation exposure, which increases material yield strength, does result in proportional reductions in uniform elongation. Most of the materials examined here exhibit a bilinear strain hardening behavior. This leads to direct correlation between the material yield strength and the uniform elongation.
References
1.
Pawel
, J.
, Grossbeck
, M.
, Rowecliff
, A.
, and Shiba
, K.
, “Effects of Low Temperature Neutron Irradiation on Deformation Behavior of Austenitic Stainless Steels
,” Journal of Nuclear Materials
0022-3115, Vol. 233–237
, 1996
, pp. 202–206.2.
Pawel-Robertson
, J.
, Ioka
, I.
, Rowcliffe
, A. F.
, Grossbeck
, M. L.
, and Jitsukawa
, S.
, “Temperature Dependance of the Deformation Behavior of Type 316 Stainless Steel after Low Temperature Neutron Irradiation
,” 18th International Symposium on the Effects of Radiation in Materials, ASTM STP 1325
, Nanstad
R. K.
, Hamilton
M. L.
, Garner
F. A.
, and Kumar
A. S.
, Eds., ASTM International
, West Conshohocken, PA
, 1999
, pp. 671–688.3.
Farrell
, K.
, Byun
, T. S.
, and Hashimoto
, N.
, “Deformation Mode Maps for Tensile Deformation of Neutron-Irradiated Structural Alloys
,” Journal of Nuclear Materials
0022-3115, Vol. 335
, 2004
, pp. 471–486.4.
Maloy
, S.
, et al, “The Mechanical Properties of 316L/304L Stainless Steels, Alloy 718 and Mod 9Cr-1Mo after Irradiation in a Spallation Environment
,” Journal of Nuclear Materials
0022-3115, Vol. 296
, 2001
, pp. 119–128.5.
Maloy
, S.
, James
, M. R.
, Johnson
, W.
, Byun
, T. S.
, Farrell
, K.
, and Toloczko
, M. B.
, “Comparison of Fission Neutron And Proton/Spallation Neutron Irradiation Effects on The Tensile Behavior Of Type 316 And 304 Stainless Steel
,” Journal of Nuclear Materials
0022-3115, Vol. 318
, 2003
, pp. 283–291.6.
Byun
, T. S.
and Farrell
, K.
, “Plastic Instability in Polycrystalline Metals after Low Temperature Irradiation
,” Acta Materialia
1359-6454, Vol. 52
, 2004
, pp. 1597–1608.7.
Wu
, X.
, Pan
, X.
, Li
, M.
, and Stubbins
, J. F.
, “Modeling Tensile Response and Flow Localization Effects In 316SS after Exposure to Spallation And Fission Irradiation Environments
,” Journal of Nuclear Materials
0022-3115, Vol. 343
, 2005
, pp. 302–307.8.
Okada
, A.
, Kanao
, K.
, Yoshiie
, T.
, and Kojima
, S.
, “Transition of Deformation Structure in Ni and Au by D-T Neutron Irradiation
,” Transactions JIM
0544-2540, Vol. 30
, No. 4
, 1989
, pp. 265–272.9.
Edwards
, D.
, Singh
, B. N.
, and Toft
, P.
, “US DOE Fusion Materials Semiannual Progress Report
,” DOE/ER-0313/30, 30 June, 2001, pp. 99–108.
This content is only available via PDF.
You do not currently have access to this chapter.
Email alerts
Related Chapters
High-Cycle Fatigue of Kovar
Fatigue of Electronic Materials
Thickness Effects on the Promoted Ignition-Combustion Behavior of Engineering Alloys
Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres: 10th Volume
Microstructures in Neutron Irradiated Fe-Cr-Ni-P-Ti Model Austenitic Alloys Doped with 10 B
Effects of Radiation on Materials: 18th International Symposium
On the Relation Between Engineering Load-Displacement Curves and True Stress Strain Behavior in Tests of Flat Tensile Specimens
Small Specimen Test Techniques: Fourth Volume
Related Articles
Flow Localization Processes in Austenitic Alloys
J. ASTM Int. (January,2006)
Application of Digital Marker Extensometry to Determine the True Stress-Strain Behavior of Irradiated Metals and Alloys
J. ASTM Int. (April,2008)
Understanding of Tensile Test Results on Small Size Specimens of Certified Reference Material BCR-661
J. Test. Eval. (March,2017)
