Add to ORKGThe objective of this investigation was to characterize the pure mode 1 delamination growth in metal to metal adhesively bonded joints under static and fatigue loading conditions, using FM 73 adhesive. Double cantilever beam specimens (DCB) were used for pure mode 1 tests. Aluminum 2024-T3 adherends were bonded with FM 73 adhesive. Delamination was introduced during fabrication by inserting a Teflon film between the two adherends. The mode 1 strain energy release rate G sub I sub c was obtained directly from static DCB tests conducted in accordance with the ASTM designation D1876-12. Constant amplitude fatigue tests on DCB specimens were conducted to determine the relationship between delamination growth rate da/dN and strain energy release...
Strain energy release rates were used to correlate cyclic debonding between metal sheets and composi...
The mean load of a cyclic loading has a large effect on fatigue crack growth rates in metallic mater...
A geometrically nonlinear finite element analysis of cohesive failure in typical joints is presented...
Symmetric and unsymmetric double cantilever beam (DCB) specimens were tested and analyzed to assess ...
A combined experimental and analytical investigation of an adhesively bonded composite joint was con...
The fatigue de-bond growth studies have been conducted on adhesively bonded lap joint specimens bet...
The fatigue damage mechanism of composite to composite adhesively bonded joints was characterized. T...
The fatigue de-bond growth studies have been conducted on adhesively bonded lap joint specimens betw...
An experimental study of cracked-lap-shear specimens was conducted to determine the influence of adh...
The fatigue behavior of a simple composite to composite bonded joint was analyzed. The cracked lap s...
A combined experimental and analytical investigation of an adhesively-bonded composite joint was con...
Various NDE methods and techniques have recently been developed to characterize adhesive bonds. Thes...
Quasi-static and fatigue crack growth tests of metal-metal adhesive bonds. Tests were performed on d...
Bonded lap joints were manufactured and tested under static and fatigue loading. Specimens were desi...
Adhesive joints are normally subject to static and fatigue loadings in their entire service-life dur...
Strain energy release rates were used to correlate cyclic debonding between metal sheets and composi...
The mean load of a cyclic loading has a large effect on fatigue crack growth rates in metallic mater...
A geometrically nonlinear finite element analysis of cohesive failure in typical joints is presented...
Symmetric and unsymmetric double cantilever beam (DCB) specimens were tested and analyzed to assess ...
A combined experimental and analytical investigation of an adhesively bonded composite joint was con...
The fatigue de-bond growth studies have been conducted on adhesively bonded lap joint specimens bet...
The fatigue damage mechanism of composite to composite adhesively bonded joints was characterized. T...
The fatigue de-bond growth studies have been conducted on adhesively bonded lap joint specimens betw...
An experimental study of cracked-lap-shear specimens was conducted to determine the influence of adh...
The fatigue behavior of a simple composite to composite bonded joint was analyzed. The cracked lap s...
A combined experimental and analytical investigation of an adhesively-bonded composite joint was con...
Various NDE methods and techniques have recently been developed to characterize adhesive bonds. Thes...
Quasi-static and fatigue crack growth tests of metal-metal adhesive bonds. Tests were performed on d...
Bonded lap joints were manufactured and tested under static and fatigue loading. Specimens were desi...
Adhesive joints are normally subject to static and fatigue loadings in their entire service-life dur...
Strain energy release rates were used to correlate cyclic debonding between metal sheets and composi...
The mean load of a cyclic loading has a large effect on fatigue crack growth rates in metallic mater...
A geometrically nonlinear finite element analysis of cohesive failure in typical joints is presented...