Accession Number : ADA306361
Title : Fatigue Response of Cracked Aluminum Panel With Partially Bonded Composite Patch.
Descriptive Note : Master's thesis,
Corporate Author : AIR FORCE INST OF TECH WRIGHT-PATTERSON AFB OH
Personal Author(s) : Denney, Jason J.
PDF Url : ADA306361
Report Date : DEC 1995
Pagination or Media Count : 179
Abstract : More and more aircraft, both commercial and military, are being called upon to fly well beyond their economic and structural service lives. Budget cuts and dwindling new aircraft development has forced the United States Air Force (USAF) to look toward more reliable structural repairs. One of these repair techniques, which was the subject of this study, is the repair of metallic aircraft structures using high strength composite materials. This study investigated the fatigue response of a precracked, 508x1 52x1 mm, 2024-T3 aluminum panel repaired with a partially bonded, unidirectional, three-ply boron/epoxy composite reinforcement with ply lengths of 68, 56 and 50 mm and a width of 50 mm. Intentional disbonds were created in the bondline of the repair using teflon inserts to simulate defects seen in real applications due to service conditions or during manufacturing. The repaired panels were subjected to constant amplitude fatigue testing at a peak load of 120 MPa to study the damage and fatigue tolerance of partially bonded composite reinforcements to cracked aluminum panels. The effects of various disbond locations and sizes were investigated and compared to each other as well as to panels repaired with a completely bonded reinforcement and to cracked panels without any reinforcement. Five disbond locations were investigated. Also, the effect of disbond size varying from 5 to 20% of the total bond area for a few cases of disbond location was investigated. It was found that disbonds around the crack resulted in greater crack growth rates and reduced specimen life. The amount of patch efficiency reduction was a function of how much of the crack was covered by the disbond during growth within the patch as well as the size of the disbond perpendicular to the crack.
Descriptors : *COMMERCIAL AIRCRAFT, *MILITARY AIRCRAFT, *COMPOSITE MATERIALS, *CRACK PROPAGATION, *REPAIR, *AIRFRAMES, *FATIGUE(MECHANICS), *ADHESIVES, *ADHESIVE BONDING, METALS, AIR FORCE, LIFE EXPECTANCY(SERVICE LIFE), STRUCTURAL ANALYSIS, THESES, FRACTURE(MECHANICS), HIGH STRENGTH, ALUMINUM, BONDED JOINTS, SHEAR STRESSES, STRESS CORROSION, EPOXY COMPOSITES, TOLERANCES(MECHANICS), AMPLITUDE, FASTENINGS, FATIGUE TESTS(MECHANICS), TETRAFLUOROETHYLENE RESINS.
Subject Categories : Aircraft
Adhesives, Seals and Binders
Laminates and Composite Materials
Distribution Statement : APPROVED FOR PUBLIC RELEASE