Add to ORKGBonded lap joints were manufactured and tested under static and fatigue loading. Specimens were designed to fail in the bondline, and all fatigue tests included monitoring the crack growth to failure. Test specimens included aluminum details joined by two different adhesives. Specimens also included titanium and boron-epoxy details joined by an epoxy laminating resin. Additonal program variables included bondline thickness, adherend and spice plate thickness, specimen width, and specimen fabrication procedure. Adhesive aging was found to be generally detrimental to the lives of most of the specimens bonded with one adhesive system. Adhesive material was found to have a major influence on debond rate. Co-cured titanium/boron-epoxy specimens ...
The fatigue de-bond growth studies have been conducted on adhesively bonded lap joint specimens bet...
Symmetric and unsymmetric double cantilever beam (DCB) specimens were tested and analyzed to assess ...
This work focuses on developing new adhesive formulations based on epoxy/nanostructures carbon forms...
Static and fatigue loading tests of bonded lap joints were conducted. The specimens were designed to...
The fatigue behavior of a simple composite to composite bonded joint was analyzed. The cracked lap s...
The fatigue damage mechanism of composite to composite adhesively bonded joints was characterized. T...
An experimental study of cracked-lap-shear specimens was conducted to determine the influence of adh...
Cyclic debonding rates were measured during constant-amplitude loading of specimens made of graphite...
A combined experimental and analytical investigation of an adhesively bonded composite joint was con...
Strain energy release rates were used to correlate cyclic debonding between metal sheets and composi...
A combined experimental and analytical investigation of an adhesively-bonded composite joint was con...
The objective of this investigation was to characterize the pure mode 1 delamination growth in metal...
Various NDE methods and techniques have recently been developed to characterize adhesive bonds. Thes...
Experimental and analytical results indicate that cracks can initiate, grow, and coalesce more rapid...
Eighteen bonded joint test specimens representing three different designs of a composite wing chordw...
The fatigue de-bond growth studies have been conducted on adhesively bonded lap joint specimens bet...
Symmetric and unsymmetric double cantilever beam (DCB) specimens were tested and analyzed to assess ...
This work focuses on developing new adhesive formulations based on epoxy/nanostructures carbon forms...
Static and fatigue loading tests of bonded lap joints were conducted. The specimens were designed to...
The fatigue behavior of a simple composite to composite bonded joint was analyzed. The cracked lap s...
The fatigue damage mechanism of composite to composite adhesively bonded joints was characterized. T...
An experimental study of cracked-lap-shear specimens was conducted to determine the influence of adh...
Cyclic debonding rates were measured during constant-amplitude loading of specimens made of graphite...
A combined experimental and analytical investigation of an adhesively bonded composite joint was con...
Strain energy release rates were used to correlate cyclic debonding between metal sheets and composi...
A combined experimental and analytical investigation of an adhesively-bonded composite joint was con...
The objective of this investigation was to characterize the pure mode 1 delamination growth in metal...
Various NDE methods and techniques have recently been developed to characterize adhesive bonds. Thes...
Experimental and analytical results indicate that cracks can initiate, grow, and coalesce more rapid...
Eighteen bonded joint test specimens representing three different designs of a composite wing chordw...
The fatigue de-bond growth studies have been conducted on adhesively bonded lap joint specimens bet...
Symmetric and unsymmetric double cantilever beam (DCB) specimens were tested and analyzed to assess ...
This work focuses on developing new adhesive formulations based on epoxy/nanostructures carbon forms...