Add to ORKGThe certification experience for the primary, safety-of-flight composite structure applications on the F-16 is discussed. The rationale for the selection of delamination as the major issue for damage tolerance is discussed, as well as the modeling approach selected. The development of the necessary coupon-level data base is briefly summarized. The major emphasis is on the description of a full-scale fatigue test where delamination growth was obtained to demonstrate the validity of the selected approach. A summary is used to review the generic features of the methodology
A reliability based certification testing methodology for impact damage tolerant composite structure...
The residual strength of specimens with damage and the sensitivity to damage while subjected to an a...
The overall objective is to identify and understand, via directed experimentation and analysis, the ...
Objectives of customer mandated aircraft structural integrity initiatives in design are to guide mat...
Commercial transport aircraft operating in the United States are certified by the Federal Aviation A...
Durability and damage tolerance may have different connotations to people from different industries ...
Delamination is one of the most significant and unique failure modes in composite structures. Becaus...
Any composite aircraft structure exposed to impact has to be designed accounting for damage toleranc...
Aerospace structures comprised of composite materials are traditionally certified empirically via th...
In aerospace engineering, a structural design has to account for Damage Tolerance (DT). A flawed str...
Damage tolerance consists of analysis and experimentation working together. Impact damage is usually...
Damage of composite materials is studied at a coupon level from both a fracture mechanics and a dama...
Aerospace structures comprised of composite materials are traditionally certified empirically via th...
Fracture control requirements have been developed to address damage tolerance of composites for mann...
The damage tolerance (DT) allowables for the design of a composite structure are typically determine...
A reliability based certification testing methodology for impact damage tolerant composite structure...
The residual strength of specimens with damage and the sensitivity to damage while subjected to an a...
The overall objective is to identify and understand, via directed experimentation and analysis, the ...
Objectives of customer mandated aircraft structural integrity initiatives in design are to guide mat...
Commercial transport aircraft operating in the United States are certified by the Federal Aviation A...
Durability and damage tolerance may have different connotations to people from different industries ...
Delamination is one of the most significant and unique failure modes in composite structures. Becaus...
Any composite aircraft structure exposed to impact has to be designed accounting for damage toleranc...
Aerospace structures comprised of composite materials are traditionally certified empirically via th...
In aerospace engineering, a structural design has to account for Damage Tolerance (DT). A flawed str...
Damage tolerance consists of analysis and experimentation working together. Impact damage is usually...
Damage of composite materials is studied at a coupon level from both a fracture mechanics and a dama...
Aerospace structures comprised of composite materials are traditionally certified empirically via th...
Fracture control requirements have been developed to address damage tolerance of composites for mann...
The damage tolerance (DT) allowables for the design of a composite structure are typically determine...
A reliability based certification testing methodology for impact damage tolerant composite structure...
The residual strength of specimens with damage and the sensitivity to damage while subjected to an a...
The overall objective is to identify and understand, via directed experimentation and analysis, the ...