An instability leading to failure of polyethylene in uniaxial creep
- 1 February 1979
- journal article
- research article
- Published by Wiley in Polymer Engineering & Science
- Vol. 19 (2) , 104-107
- https://doi.org/10.1002/pen.760190209
Abstract
Based on a continuum model, a point of instability is predicted for the uniaxial creep of high density polyethylene. From dead load experiments it has been found that the instability occurs for linear polyethylene at around 10–12 percent strain, depending upon molecular weight and molecular weight distribution. It is shown that in the range of applied stresses for which the specimens neck during uniaxial creep, the time required to reach the critical point is related by a constant factor to the time at which the neck appears. A synopsis of theoretical considerations, as well as experimental work in support of this idea, is given.Keywords
This publication has 4 references indexed in Scilit:
- Creep failure and fracture of polyethylene in uniaxial extensionPolymer Engineering & Science, 1979
- Dynamic mechanical behavior of polyethylene during creep to failure in uniaxial extensionJournal of Applied Physics, 1977
- A Study of Stress Relaxation with Finite StrainTransactions of the Society of Rheology, 1963
- Mechanical behavior of high polymers under deformations of different time function, type, and magnitudeJournal of Polymer Science, 1962