1 Lee, "“Viscoplastic collapse of titanium alloy tubes under cyclic bending”" 11 (11): 315-324, 2001
2 Pan, W.F, "“Viscoplastic collapse of thin-walled tubes under cyclic bending”" ASME 120 : 287-290, 1998
3 Pan, W.F, "“Viscoplastic analysis of thin-walled tubes under cyclic bending”" 7 (7): 457-471, 1999
4 "“The failure of tube under combined external pressure and axial load”" 39-48, 1959
5 Pan, W.F, "“The effect of mean curvature on the response and collapse of thin-walled tubesunder cyclic bending”" 45 (45): 309-318, 2002
6 Wu, "“Strain hardening of annealed 304 stainless steel by creep”" ASME 117 : 260-267, 1995
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8 and Yeh, "“Plastic anisotropy in drawn metal tubes”" 303-307, 1988
9 Mech, "“On the propagation pressure of long cylindrical shells under externalpressure”" 675-713, 1993
10 Madhavan, "“On the collapse of long thick-walled tubes under externalpressure and axial tension”" Press 15-26, 1993
1 Lee, "“Viscoplastic collapse of titanium alloy tubes under cyclic bending”" 11 (11): 315-324, 2001
2 Pan, W.F, "“Viscoplastic collapse of thin-walled tubes under cyclic bending”" ASME 120 : 287-290, 1998
3 Pan, W.F, "“Viscoplastic analysis of thin-walled tubes under cyclic bending”" 7 (7): 457-471, 1999
4 "“The failure of tube under combined external pressure and axial load”" 39-48, 1959
5 Pan, W.F, "“The effect of mean curvature on the response and collapse of thin-walled tubesunder cyclic bending”" 45 (45): 309-318, 2002
6 Wu, "“Strain hardening of annealed 304 stainless steel by creep”" ASME 117 : 260-267, 1995
7 and Shaw, "“Response and stability of elastoplastic circular pipes under combinedbending and external pressure”" 957-973, 1982
8 and Yeh, "“Plastic anisotropy in drawn metal tubes”" 303-307, 1988
9 Mech, "“On the propagation pressure of long cylindrical shells under externalpressure”" 675-713, 1993
10 Madhavan, "“On the collapse of long thick-walled tubes under externalpressure and axial tension”" Press 15-26, 1993
11 Corona, "“On the collapse of inelastic tubes under combined bending and pressure”" 505-535, 1988
12 Yeh, "“On the collapse of inelastic thick-walled tubes under external pressure”" 35-47, 1986
13 Park, "“On the collapse of dented cylinders under external pressure”" 38 (38): 557-578, 1996
14 and Shaw, "“Inelastic buckling of tubes under cyclic loads”" Press 169-178, 1987
15 Shaw, "“Inelastic analysis of thin-walled tubes under cyclic bending”" 1073-1110, 1985
16 Arch, "“Fundamental consequence of a new intrinsic time measure-plasticity as a limit of theendochronic theory”" 171-191, 1980
17 Peng, "“Extremal properties of endochronic plasticity Extremal path of theconstitutive equation without a yield surface Extremal path of the constitutive equation with a yieldsurface and application”" 551-581, 1993
18 Nakanishi, "“Experimental study on the effect of axialtension load on the collapse strength of oil well casing”" 387-4108 395, 1981
19 "“Experimental evaluation of the interaction effect between plastic and creepdeformation”" 27-30, 1983
20 of the 1st Offshore Mechanics/Artic Engineering/Deep Sea Systems Symposium, "“Examination of commercial casing collapse strength underaxial loading”" tama : 113-1 118, 1982
21 Pan, W.F, "“Endochronic simulation for muitiaxial creep”" 41 (41): 204-210, 1998
22 Pan, "“Endochronic simulation for finite viscoplastic deformation”" 13 (13): 571-586, 1997
23 Wu, "“Endochronic equations for finite plastic deformation and applicationto metal tube under torsion”" 32 (32): 1079-1097, 1995
24 Pan, W.F, "“Endochronic description for viscoplastic behavior of materials undermultiaxial loading”" 34 (34): 2131-2159, 1997
25 Pan, "“Endochronic analysis for viscoplastic collapse of thin-walled tube undercombined bending and external pressure”" 40 (40): 189-199, 1997189-199
26 Pan, W.F, "“Endochronic analysis for rate-dependent elasto-plasticdeformation”" 36 : 3215-3237, 1999
27 Pan, "“Endochronic analysis for finite elasto-plastic deformation andapplication to metal tube under torsion and metal rectangular block under biaxial compression”" 12 (12): 1287-1316, 1996
28 Wu, "“Cyclic stress-strain response of porous aluminum”" 207-230, 1990
29 Watanabe, "“Constitutive modeling of cyclic plasticity and creep using an internaltime concept”" 107-134, 1986
30 and Ju, "“Bifurcation and localization instabilities in cylindrical shells under bending" 1143-1171, 1992b
31 and Ju, "“Bifurcation and localization instabilities in cylindrical shells under bending" 1117-1142, 1992a
32 Mech, "“An experimental study of room-temperature sensitivity creep and relaxation of AISI 304stainless steel”" 363-375, 1979
33 Corona, "“An experimental investigation of the degradation and buckling of circulartubes under cyclic bending and external pressure”" 229-263, 1991
34 Im, "“A study of two finite strain plasticity models" An internal time theory usingMandel’s director concept and a general isotropic/kinematic-hardening theory” 163-191, 1987
35 Murakami, "“A second-order numerical scheme for integrating the endochronicplasticity equations”" 663-672, 1989
36 Watanabe, "“A new endochronic approach to computational elasto-plasticity Anexample of cyclically loaded cracked plate”" 857-864, 1985
37 Fan, "“A comprehensive numerical study and experimental verification of endochronic plasticity” Department of Aerospace Engineering and Applied Mechanics University of Cincinnati" 1983
38 Kujawski, "-dependent behavior of Ti7Al2Cb1Ta titanium alloy at roomtemperature under quasi-static monotonic and cyclic loading”" 55-63, 1981