Published: Jan 2003
| ||Format||Pages||Price|| |
|PDF (684K)||23||$25||  ADD TO CART|
|Complete Source PDF (8.1M)||387||$108||  ADD TO CART|
The mixed-mode bending test has been widely used to measure delamination toughness and was recently standardized by ASTM as Standard Test Method D6671-01. This simple test is a combination of the standard Mode I (opening) test and a Mode II (sliding) test. This test uses a unidirectional composite test specimen with an artificial delamination subjected to bending loads to characterize when a delamination will extend. When the displacements become large, the linear theory used to analyze the results of the test yields errors in the calculated toughness values. The current standard places no limit on the specimen loading and therefore test data can be created using the standard that are significantly in error. A method of limiting the error that can be incurred in the calculated toughness values is needed. In this paper, nonlinear models of the MMB test are refined. One cf the nonlinear models is then used to develop a simple criterion for prescribing conditions where the nonlinear error will remain below 5%.
delamination, mixed-mode, composite, nonlinear, MMB test, toughness
NASA Langley Research Center, Hampton, VA