Enhancing the Performance of the T-Peel Test for Thin and Flexible Adhered Laminates

TL;DR

This paper introduces a mechanical fixture for T-peel tests on thin, flexible laminates that reduces gravitational effects, leading to more accurate interfacial fracture toughness measurements.

Contribution

A novel test fixture and procedure are developed to improve the accuracy of T-peel tests by minimizing gravity-induced errors in vertical testing setups.

Findings

Fixture reduces parasitic loads during peel tests

Improved consistency in peel force measurements

Enhanced accuracy in interfacial toughness estimation

Abstract

Symmetrically bonded thin and flexible T-peel specimens, when tested on vertical travel machines, can be subject to significant gravitational loading; with the associated asymmetry and mixed-mode failure during peeling. This can cause erroneously high experimental peel forces to be recorded which leads to uncertainty in estimating interfacial fracture toughness and failure mode. To overcome these issues, a mechanical test fixture has been designed for use with vertical test machines, that supports the unpeeled portion of the test specimen and suppresses parasitic loads due to gravity from affecting the peel test. The mechanism, driven by the test machine cross-head, moves at one-half of the velocity of the cross-head such that the unpeeled portion always lies in the plane of the instantaneous center of motion. Several specimens such as bonded polymeric films, laminates, and commercial tapes were tested with and without the fixture, and the importance of the proposed T-peel procedure has been demonstrated.