Anisotropic Constitutive Model and its Application in Simulation of Thermal Shock Wave Propagation for Cylinder Shell Composite
In this paper, a plane-strain orthotropic elasto-plastic
dynamic constitutive model is established, and with this constitutive
model, the thermal shock wave induced by intense pulsed X-ray
radiation in cylinder shell composite is simulated by the finite element
code, then the properties of thermal shock wave propagation are
discussed. The results show that the thermal shock wave exhibit
different shapes under the radiation of soft and hard X-ray, and while
the composite is radiated along different principal axes, great
differences exist in some aspects, such as attenuation of the peak stress
value, spallation and so on.
[1] W. Tang, G. Zhao, and R. Zhang, "Thermal Shock Wave Induced by
Impulsive X-ray (Periodical style), " Chinese Journal of High Pressure
Physics, vol. 9(2), pp. 107-110, 1995.
[2] R. Zhang, W. Tang, and G. Zhao, "Several Influential Factors on
Numerical Simulated Results for the X-rayThermal Shock Wave
(Periodical style), " Chinese Journal of High Pressure Physics, vol.
12(3), pp. 161-167, 1998.
[3] N. Zhou, and D. Qiao, Material Ddynamics under Pulse Beam Radiati,
(Book style). Beijing: National Defence Industry Press, 2002, pp.
207-210.
[4] P. E. O'Donoghue, C. E. Anderson, Jr., G. J. Friesenhahn, and C. H. Parr,
"A Constitutive Formulation for Anisotropic Materials Suitable for Wave
Propagation Computer Programs (Periodical style), Journal of Composite
Materials, vol.26(13), pp. 1860-1884, 1992.
[5] C. E. Anderson, Jr., P. A. Cox, G. R. Johnson, and P. J. Maudlin, "A
Constitutive Formulation for Anisotropic Materials Suitable for Wave
Propagation Computer programs II (Periodical style)," Computational
Mechanics, vol. 15, pp. 201-223, 1994.
[6] A. A. Lukyanov, "An Equation of State for Anisotropic Solids under
Shock Loading (Periodical style)," European Physical Journal, vol.64, pp.
159-164, 2008.
[7] Y. Li, F. Tan, and L. Yao, "Thermo-viscoplastic Constitutive Relation of
Damaged Materials with Application (Periodical style)," Explosion and
Shock Waves, vol.24 (4), pp. 289 - 298, 2004.
[8] B. Jiang, and R. Zhang, "Strain Rate-dependent Tsai-Hill Strength
Criteria for a Carbon Fiber Woven Reinforced Composite (Periodical
style), "Explosion and Shock Waves, vol.26 (4), pp. 333-338, 2006.
[9] B. Jiang, "Research on dynamic constitutive model for an orthotropic
woven fiber-reinforced composite and thermal shock wave," Doctorate
Degree Thesis, National University of Defense Technology, Changsha,
China, 2006.
[1] W. Tang, G. Zhao, and R. Zhang, "Thermal Shock Wave Induced by
Impulsive X-ray (Periodical style), " Chinese Journal of High Pressure
Physics, vol. 9(2), pp. 107-110, 1995.
[2] R. Zhang, W. Tang, and G. Zhao, "Several Influential Factors on
Numerical Simulated Results for the X-rayThermal Shock Wave
(Periodical style), " Chinese Journal of High Pressure Physics, vol.
12(3), pp. 161-167, 1998.
[3] N. Zhou, and D. Qiao, Material Ddynamics under Pulse Beam Radiati,
(Book style). Beijing: National Defence Industry Press, 2002, pp.
207-210.
[4] P. E. O'Donoghue, C. E. Anderson, Jr., G. J. Friesenhahn, and C. H. Parr,
"A Constitutive Formulation for Anisotropic Materials Suitable for Wave
Propagation Computer Programs (Periodical style), Journal of Composite
Materials, vol.26(13), pp. 1860-1884, 1992.
[5] C. E. Anderson, Jr., P. A. Cox, G. R. Johnson, and P. J. Maudlin, "A
Constitutive Formulation for Anisotropic Materials Suitable for Wave
Propagation Computer programs II (Periodical style)," Computational
Mechanics, vol. 15, pp. 201-223, 1994.
[6] A. A. Lukyanov, "An Equation of State for Anisotropic Solids under
Shock Loading (Periodical style)," European Physical Journal, vol.64, pp.
159-164, 2008.
[7] Y. Li, F. Tan, and L. Yao, "Thermo-viscoplastic Constitutive Relation of
Damaged Materials with Application (Periodical style)," Explosion and
Shock Waves, vol.24 (4), pp. 289 - 298, 2004.
[8] B. Jiang, and R. Zhang, "Strain Rate-dependent Tsai-Hill Strength
Criteria for a Carbon Fiber Woven Reinforced Composite (Periodical
style), "Explosion and Shock Waves, vol.26 (4), pp. 333-338, 2006.
[9] B. Jiang, "Research on dynamic constitutive model for an orthotropic
woven fiber-reinforced composite and thermal shock wave," Doctorate
Degree Thesis, National University of Defense Technology, Changsha,
China, 2006.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:49527", author = "Xia Huang and Wenhui Tang and Banghai Jiang and Xianwen Ran", title = "Anisotropic Constitutive Model and its Application in Simulation of Thermal Shock Wave Propagation for Cylinder Shell Composite", abstract = "In this paper, a plane-strain orthotropic elasto-plastic
dynamic constitutive model is established, and with this constitutive
model, the thermal shock wave induced by intense pulsed X-ray
radiation in cylinder shell composite is simulated by the finite element
code, then the properties of thermal shock wave propagation are
discussed. The results show that the thermal shock wave exhibit
different shapes under the radiation of soft and hard X-ray, and while
the composite is radiated along different principal axes, great
differences exist in some aspects, such as attenuation of the peak stress
value, spallation and so on.", keywords = "anisotropic constitutive model, thermal shock wave,X-ray, cylinder shell composite.", volume = "5", number = "9", pages = "1695-6", }