Add to ORKGDelamination is one of the most significant and unique failure modes in composite structures. Because of a lack of understanding of the consequences of delamination and the inability to predict delamination onset and growth, many composite parts are unnecessarily rejected upon inspection, both immediately after manufacture and while in service. NASA Langley is leading the efforts in the U.S. to develop a fatigue life prediction methodology for composite delamination using fracture mechanics. Research being performed to this end will be reviewed. Emphasis will be placed on the development of test standards for delamination characterization, incorporation of approaches for modeling delamination in commercial finite element codes, and efforts ...
Thesis (Ph.D.)--University of Washington, 2017-06Laminated composite structures convey tremendous be...
A life prediction methodology for laminated continuous fiber composites subjected to fatigue loading...
This paper evaluates the capabilities of the recently developed CF20 cohesive fatigue model, which c...
Delamination is the most commonly observed failure mode in composite rotorcraft dynamic components. ...
A methodology that accounts for both delaminaton onset and growth in composite structural components...
Fracture mechanics has been found to be a useful tool for understanding composite delamination. Anal...
A tension fatigue life prediction methodology for composite laminates is presented. Tension fatigue ...
The certification experience for the primary, safety-of-flight composite structure applications on t...
The growth of delaminations in polymer-matrix fibre composites under cyclic-fatigue loading in opera...
Two progressive failure methodologies currently under development by the Mechanics of Materials Bran...
A fracture mechanics damage methodology to predict edge delamination is described. The methodology a...
The durability and damage tolerance of laminated composites are critical design considerations for a...
Composite materials are becoming popular in almost all industries. Carbon-fiber and glass-fiber comp...
Advanced composite materials have been commonly used in aerospace engineering, because of their good...
Composite materials often fail by delamination. The onset and growth of delamination in AS4/PEEK, a ...
Thesis (Ph.D.)--University of Washington, 2017-06Laminated composite structures convey tremendous be...
A life prediction methodology for laminated continuous fiber composites subjected to fatigue loading...
This paper evaluates the capabilities of the recently developed CF20 cohesive fatigue model, which c...
Delamination is the most commonly observed failure mode in composite rotorcraft dynamic components. ...
A methodology that accounts for both delaminaton onset and growth in composite structural components...
Fracture mechanics has been found to be a useful tool for understanding composite delamination. Anal...
A tension fatigue life prediction methodology for composite laminates is presented. Tension fatigue ...
The certification experience for the primary, safety-of-flight composite structure applications on t...
The growth of delaminations in polymer-matrix fibre composites under cyclic-fatigue loading in opera...
Two progressive failure methodologies currently under development by the Mechanics of Materials Bran...
A fracture mechanics damage methodology to predict edge delamination is described. The methodology a...
The durability and damage tolerance of laminated composites are critical design considerations for a...
Composite materials are becoming popular in almost all industries. Carbon-fiber and glass-fiber comp...
Advanced composite materials have been commonly used in aerospace engineering, because of their good...
Composite materials often fail by delamination. The onset and growth of delamination in AS4/PEEK, a ...
Thesis (Ph.D.)--University of Washington, 2017-06Laminated composite structures convey tremendous be...
A life prediction methodology for laminated continuous fiber composites subjected to fatigue loading...
This paper evaluates the capabilities of the recently developed CF20 cohesive fatigue model, which c...