Strain rate effects on the thermomechanical behavior of polymers
暂无分享,去创建一个
[1] M. Boyce,et al. The effects of thermomechanical coupling on the cold drawing process of glassy polymers , 1992 .
[2] Daniel Rittel,et al. On the conversion of plastic work to heat during high strain rate deformation of glassy polymers , 1999 .
[3] Geoffrey Ingram Taylor,et al. The Latent Energy Remaining in a Metal after Cold Working , 1934 .
[4] Guruswami Ravichandran,et al. Critical Appraisal of Limiting Strain Rates for Compression Testing of Ceramics in a Split Hopkinson Pressure Bar , 1994 .
[5] Shun-Chin Chou,et al. The effect of strain rate and heat developed during deformation on the stress-strain curve of plastics , 1973 .
[6] G. Taylor,et al. The Heat Developed during Plastic Extension of Metals , 1925 .
[7] C. Ruiz,et al. Thermomechanical properties of polymers at high rates of strain , 1997 .
[8] R. Farris,et al. Latent energy of deformation of bisphenol A polycarbonate , 1988 .
[9] F. Incropera,et al. Fundamentals of Heat Transfer , 1981 .
[10] Sia Nemat-Nasser,et al. Determination of temperature rise during high strain rate deformation , 1998 .
[11] Mary C. Boyce,et al. Effects of strain rate, temperature and thermomechanical coupling on the finite strain deformation of glassy polymers , 1995 .
[12] John Lambros,et al. Determination of the dynamic response of brittle composites by the use of the split Hopkinson pressure bar , 1999 .
[13] Ares J. Rosakis,et al. Partition of plastic work into heat and stored energy in metals , 2000 .
[14] James J. Mason,et al. On the strain and strain rate dependence of the fraction of plastic work converted to heat: an experimental study using high speed infrared detectors and the Kolsky bar☆ , 1992 .
[15] M. Boyce,et al. The large strain compression, tension, and simple shear of polycarbonate , 1994 .