Adams, W., Yang, D., and Thomas, E.L., Direct Visualization of Microstructural Deformation Processes in Polyethylene , J. Mater. Sci.21, 2239-2253 ( 1986 ).
2.
Allen, S.R., TensileRecoil Measurements of Compressive Strength for Polymeric High Performance Fibres, J. Mater. Sci.22, 853-859 (1987).
3.
Andersson, C.-H., Frictional Properties of Some High Performance Fibres (in Swedish ), TEFO Report TTT 889005.
4.
Barham, P.J. , and Keller, A., Review of High Strength Polyethylene Fibres from Solution and Wet Spinning, J. Mater. Sci.20, 2281-2302 (1985).
5.
De Teresa, S.J. , Porter, R.S., and Farris, R.J., Experimental Verification of a Microbuckling Model for the Compressive Failure of High Performance Polymer Fibres, J. Mater. Sci.23, 1886-1894 (1988).
6.
Ladizesky, N.H. , and Ward, I.M., ShearStrength of Highly Drawn Linear Polyethylene Sheets, J. Mater. Sci.23, 72-83 (1988).
7.
Schwartz, P. , Netravali, A., and Sembach, S., Effects of Strain Rate and Gauge Length on the Failure of Ultra-High Strength Polyethylene Fibers, Textile Res. J.56, 502-508 ( 1986).
8.
Van Hutten, P., Konig, C.E., and Pennings , A., ThePlastic Deformation of Ultra-High Molecular Weight Polyethylene, J. Mater. Sci.20, 1556-1570 (1985).
