The Effect of Molecular Weight on the Physical and Mechanical Properties of Ultra-Drawn High Density Polyethylene.
Abstract
A study has been made on the effects of molecular weight on the physical and mechanical properties of cold-extruded high density polyethylene, HDPE. Prior data indicate that such ultra-drawn strands contain a significant fraction of extended-chain crystals. Four HDPE samples, spanning the molecular weight range of 59,000 to 147,000 were cold extruded under the same conditions and were examined with respect to their melting point, degree of crystallinity, linear expansion coefficient, Young's modulus and tensile strength. The degree of crystallinity, linear expansion coefficient and modulus did not change significantly with molecular weight. The melting point and tensile strength do increase with increasing molecular weight. This leads to the conclusion that the amount of extended-chain crystals may increase with molecular weight. Higher molecular weight polymers are thus seen as providing a greater number of tie chains to give the fiber a higher tensile strength.
Document Details
- Document Type
- Technical Report
- Publication Date
- Aug 01, 1975
- Accession Number
- ADA015698
Entities
People
- Numa J. Capiati
- Roger S. Porter
- William G. Perkins
Organizations
- University of Massachusetts Amherst