Joining of polymer matrix composites, such as carbon fiber/epoxy, to aluminum in order to form large panels in structures by fastening, adhesive bonding or resistance induction welding produces joints that can be the most challenging aspect of preparing such structures. The primary objective of this research is to formulate and customize a room temperature curing adhesive for specific use in mounting composite structures to aluminum. This will necessitate the experimentatian required to achieve a balance between adhesion, structural strength and shock-damping capability. In order to make such an adhesive ideally suited for in-field use, surface treatment evaluation with manual corona discharge preparation of the bond surfaces as well as ultrasonic non-destructive evaluation of such joints will be developed. By yhe end of Phase II, we plan to have a room curing adhesive as well as a customized NDE technique for measuring integrity of the adhesive bonds. This Phase II Project will result in the creation of an application-specific structural adhesive coupled with a surface preparation protocol for the optimization of the bonding, strength, impact resistance and ease of use for both in-field CAV repair and optimal performance. The OEM advantages of this adhesive will be its use in allowing for adhesive joints to be prepared between polymer composites and metals such as aluminum alloys where high impact is an anticipated hazard. This Phase II effort will provide a general methodology for the end-user to apply this adhesive system and simple surface preparation approaches without the constraint of specialized application and curing.
