Journal Publications:
1.
S.R. Agnew, C.N. Tomé,
D.W. Brown, T.M. Holden, and S.C. Vogel, “Study of Slip Mechanisms in a
Magnesium Alloy by Neutron Diffraction and Modeling”, submitted to Scripta Mater.
2.
S. R. Agnew, J. A. Horton, and M. H. Yoo, “TEM Invesitgation of <c+a>
Dislocation Structures in Mg and Mg-Li α -Solid Solution Alloys”, Metall. Mater. Trans. A, 23A, 813-822 (2002).
3.
R. D. Field, K. T. Hartwig,
C. T. Necker, J. F. Bingert,
and S. R. Agnew, “Equal-Channel Angular Extrusion of Beryllium”, Metall. Mater.
Trans. A, 23A, 965-972 (2002).
4.
M. H. Yoo, J. R.
Morris, K. M. Ho, and S. R. Agnew, “Non-Basal Deformation Modes of HCP Metals
and Alloys: Role of Dislocation Source and Mobility”, Metall. Mater. Trans. A, 23A,
813-822 (2002).
5.
S. R. Agnew, M. H. Yoo,
and C. N. Tomé, “Application of Texture Simulation to
Understanding Mechanical Behavior of Mg and Solid Solution Alloys Containing Li
or Y”, Acta Mater, 49, 4277-4289 (2001).
6.
M. H. Yoo, S. R.
Agnew, J. R. Morris, and K. M. Ho, “Non-Basal Slip Systems in H.C.P. Metals and
Alloys: Source Mechanisms,” Mater. Sci.
7.
S. R. Agnew, B. R. Elliott, C. J. Youngdahl,
and J. R. Weertman, “Thermal Stability and Microstructural Morphologies of Nanocrystalline
Metal Compacts”, Mat. Sci.
8.
S. R. Agnew, A. Y. Vinogradov,
S. Hashimoto, and J. R. Weertman, “Overview of
fatigue performance of Cu processed by severe plastic deformation,” J. Electron. Mater., 28, 1038-1044 (1999).
9.
B.-Q. Han, S. R. Agnew and D. C. Dunand, “High-strain-rate deformation of pure aluminum
reinforced with 25% alumina submicron particles near the solidus
temperature”, Scripta
Mater., 40, 801-808 (1999).
10.
S. R. Agnew and J. R. Weertman,
“Low-Cycle Fatigue Behavior of Ultrafine Grain
Copper”, Mat. Sci.
11.
S. R. Agnew and J. R. Weertman,
“The Influence of Texture on the Elastic Properties of Ultrafine-Grain
Copper,” Mat. Sci.
12.
Y.-C. Lu, S. R. Agnew, R. Dieckmann,
and S. L. Sass, “Further Characterization of the Aluminum Peroxide Oxide, AlO2,
Formed by Interfacial Reaction Between α-Al2O3 and Pt”, Acta Metall. Mater., 43, 1885 (1995).
13.
J. H. Schneibel, S. R.
Agnew, and C. A. Carmichael, “Surface Preparation and
Proceedings PApers:
(* invited)
1.
*S.R. Agnew and O. Duygulu,
“A Mechanistic Understanding of the Formability of Magnesium: Examining the
Role of Temperature on the Deformation Mechanisms” submitted to Mat. Sci. Forum
2.
O. Duygulu and S.R.
Agnew, “The Effect of Temperature and Strain Rate on the Tensile Properties of
Textured Magnesium Alloy AZ31B Sheet,”Magnesium
Technology 2002, Ed. H. Kaplan (TMS:
3.
S.R. Agnew, D.W. Brown, S.C. Vogel, and T.M.
Holden, “In-situ Measurement of
Internal Strain Evolution During Deformation Dominated by Mechanical Twinning,”
in Proc. 6th Euro. Conf. Residual Stress,
(Trans Tech:
4.
C.N. Tomé, S.R.Agnew, W.R. Blumenthal, M.A.M. Bourke, G.C. Kaschner and P. Rangaswamy, “The
relation between texture, twinning and mechanical properties in low symmetry
aggregates” Mat. Sci. Forum, 408-412 (2002) 263-268.
5.
*S. R. Agnew, L. Chen, G.
M. Stoica, and P. K. Liaw,
“Equal
Channel Angular Extrusion Processing of Magnesium Alloys”, Ultrafine
Grained Materials II, Eds. Y.T. Zhu, et al. (TMS: Warrendale,
PA: 2002).
6.
S. R. Agnew, “Plastic
Anisotropy of Magnesium Alloy AZ31B Sheet”, Magnesium Technology 2002, Ed.
H. Kaplan (TMS:
7.
*S. R. Agnew, “Plastic
Anisotropy of Magnesium Alloy AZ31B Sheet”, Plasticity 2002, Ed. A. S. Khan and O.
Lopez-Pamies (NEAT:
8. *S.
R. Agnew, “Measurement and Simulation of Plastic Anisotropy of Magnesium Alloy
AZ31B Sheet”, Modeling the Performance of Advanced Structural Materials II,
Ed. D. R. Leseur and T. S. Srivatsan
(TMS:
9.
S.
R. Agnew, T. M. Lillo, J. Macheret,
G. M. Stoica, L. Chen, Y. Lu, D. Fielden,
and P. K. Liaw, “Assessment
of Equal Channel Angular Extrusion Processing of magnesium alloys”, Magnesium Technology 2001, Ed. J. Hryn, (TMS: Warrendale, PA: 2001)
243-248.
10.
E. A. Payzant, S. R. Agnew, Q. Han, and S. Viswanathan,
“ Mg17Al12 Phase Precipitation Kinetics in Die Casting
Alloys AZ91D and AM60B”, ibid, 183-188.
11.
Q. Han, E. A. Kenik, S. R. Agnew, and S. Viswanathan,
“Solidification Behavior of Commercial Magnesium Alloys”, ibid, 81-86.
12.
S. R. Agnew, S. Viswanathan,
E. A. Payzant, and K. C. Liu, “Tensile and
Compressive Creep Behavior of Magnesium Die Casting Alloys Containing
Aluminum”, THERMEC'2000 - Proceedings International Conference on Processing
and Manufacturing of Advanced Materials, Las Vegas, USA, December 2000:CDROM,
Section A1, Vol 117/3.
13.
S. R. Agnew, S. Viswanathan, E. A. Payzant, Q.
Han , K. C. Liu, and E. A. Kenik, “Tensile and
Compressive Creep Behavior of Magnesium Die Casting Alloys Containing
Aluminum”, in Magnesium Alloys and Their
Applications, (Werkstoff-Informationsgesellschaft:
Frankfurt: 2000), 687-692. Also Advanced
Engineering Materials, 2001.
14.
S. R. Agnew, M. H. Yoo and J. A. Horton, “Texture Analysis as a Tool for
Wrought Magnesium Alloy Development”, ibid., 119-124.
15.
S. R. Agnew and M. H. Yoo, “Using Deformation-Induced Texture as an Alloy/Process
Optimization Tool,” Magnesium Technology
2000, Eds. H. I. Kaplan, J. Hryn, and B. Clow (TMS:
16.
S. R. Agnew, K. C. Liu, E. A. Kenik and S. Viswanathan,
“Tensile and Compressive Creep Behavior of Die Cast Magnesium Alloy AM60B,” ibid., 285-290.
17.
S. R. Agnew, “Texture
Development During Equal Channel Angular Forging of
BCC Metals”, Proc. ICOTOM-12, Ed. J. A. Szpunar (NRC Reseach Press: Ottawa: Canada: 1999) pp. 575-580.
18. S.
R. Agnew, B. R. Elliott, C. J. Youngdahl, K. J. Hemker and J. R. Weertman,
“Structure and Mechanical Properties of Nanocrystalline
Metals--With Opportunities for Modelling”, Proc. 19th Risø Inter. Symp. Mater.
Sci., Ed. J. V. Carstensen et
al., (Risø National Laboratory: Roskilde,
Denmark: 1998) 1-14.
19. S. R. Agnew, U. F. Kocks,
K. T. Hartwig, and J. R. Weertman,
“Texture Evolution During Equal Channel Angular Forging and Dislocation
Boundary Misorientations After Severe Plastic
Deformation”, ibid., 201-206.