Follow
Ashok Saxena
Ashok Saxena
Distinguished Professor, Universsity of Arkansas
Verified email at uark.edu - Homepage
Title
Cited by
Cited by
Year
Review and extension of compliance information for common crack growth specimens
A Saxena, SJ Hudak
International Journal of Fracture 14 (5), 453-468, 1978
7271978
The science and design of engineering materials
JP Schaffer
Irwin Professional Publishing, 1999
5041999
Nonlinear fracture mechanics for engineers
A Saxena
CRC press, 1998
4321998
Stabilizing nanocrystalline materials with dopants
PC Millett, RP Selvam, A Saxena
Acta Materialia 55 (7), 2329-2336, 2007
2492007
Low cycle fatigue, fatigue crack propagation and substructures in a series of polycrystalline Cu-Al alloys
A Saxena, SD Antolovich
Metallurgical Transactions A 6 (9), 1809-1828, 1975
2271975
Creep Crack Growth Under Nonsteady-state Conditions
A saxena
Fracture Mechanics: Seventeenth Volume, ASTM STP 905, 185-201, 1986
208*1986
Computer-controlled decreasing stress intensity technique for low rate fatigue crack growth testing
A Saxena, SJ Hudak, JK Donald, DW Schmidt
Journal of Testing and Evaluation 6 (3), 167-174, 1978
1621978
A model for fatigue crack propagation
SD Antolovich, A Saxena, GR Chanani
Engineering fracture mechanics 7 (4), 649-652, 1975
1531975
Development of standard methods of testing and analyzing fatigue crack growth rate data
SJ Hudak Jr, A Saxena, RJ Bucci, RC Malcolm
Westinghouse Research and Development Center Pittsburgh Pa, 1978
1441978
Molecular dynamics simulations of grain size stabilization in nanocrystalline materials by addition of dopants
PC Millett, RP Selvam, A Saxena
Acta materialia 54 (2), 297-303, 2006
1232006
Evaluation of C* for the characterization of creep-crack-growth behavior in 304 stainless steel
A Saxena
ASTM International, 1980
1191980
AFM characterization of the evolution of surface deformation during fatigue in polycrystalline copper
L Cretegny, A Saxena
Acta materialia 49 (18), 3755-3765, 2001
1072001
Increased fracture toughness in a 300 grade maraging steel as a result of thermal cycling
SD Antolovich, A Saxena, GR Chanani
Metallurgical and Materials Transactions B 5 (3), 623-632, 1974
1011974
Atomistic simulation of grain boundary energetics–Effects of dopants
PC Millett, RP Selvam, S Bansal, A Saxena
Acta Materialia 53 (13), 3671-3678, 2005
982005
Enhanced surface hardness by boron implantation in Nitinol alloy
DH Lee, B Park, A Saxena, TP Serene
Journal of endodontics 22 (10), 543-546, 1996
921996
Evaluation of the Ct parameter for characterizing creep crack growth rate in the transient regime
JL Bassani, DE Hawk, A Saxena
ASTM International, 1988
911988
Effects of load ratio and temperature on the near-threshold fatigue crack propagation behavior in a CrMoV steel
PK Liaw, A Saxena, VP Swaminathan, TT Shih
Metallurgical Transactions A 14 (8), 1631-1640, 1983
861983
Characterization of creep-fatigue crack growth behavior under trapezoidal waveshape using C t-parameter
KB Yoon, A Saxena, PK Liaw
International journal of Fracture 59 (2), 95-114, 1993
841993
Creep crack growth in high temperature ductile materials
A Saxena
Engineering fracture mechanics 40 (4-5), 721-736, 1991
821991
Crack growth behavior of 9Cr− 1Mo (P91) steel under creep–fatigue conditions
SB Narasimhachary, A Saxena
International Journal of Fatigue 56, 106-113, 2013
812013
The system can't perform the operation now. Try again later.
Articles 1–20