Add to ORKGA lightweight containment was developed for turbofan engine fan blades. Subscale ballistic-type tests were first run on a number of concepts. The most promising configuration was selected and further evaluated by larger scale tests in a rotating test rig. Weight savings made possible by the use of this new containment system were determined and extrapolated to a CF6-size engine. An analytical technique was also developed to predict the released blades motion when involved in the blade/casing interaction process. Initial checkout of this procedure was accomplished using several of the tests run during the program
FAA fan blade-out certification testing on turbofan engines occurs very late in an engine's developm...
The fan case in a jet engine is a heavy structure because of its size and because of the requirement...
The results of impact tests on large, fiber composite fan blades for aircraft turbofan engine applic...
The development of containment concepts for use with large composite fan blades, taking into account...
The use of composites in fan blade containment systems is investigated and the associated structural...
With a goal of reducing jet engine weight, simulations of a fan blade containment system with an alt...
The catastrophic failure of fan blades in turbofan engines, referred to as fan blade-out (FBO), can ...
AbstractThe potential hazard resulting from an uncontained turbine engine rotor blade failure has al...
An effective design methodology was established for composite jet engine containment structures. The...
This work develops a methodology for full engine FEA simulation of the fan blade off containment tes...
The aerodynamic and structural viability of composite fan blades of the revolutionary Exo-Skeletal e...
Application of polymer matrix composite materials for jet engine fan blades is becoming attractive a...
Triaxial braid composite materials are beginning to be used in fan cases for commercial gas turbine ...
An integrated team of NASA personnel, Government contractors, industry partners, and university staf...
Parametric type data were obtained on advanced lightweight containment systems. These data were used...
FAA fan blade-out certification testing on turbofan engines occurs very late in an engine's developm...
The fan case in a jet engine is a heavy structure because of its size and because of the requirement...
The results of impact tests on large, fiber composite fan blades for aircraft turbofan engine applic...
The development of containment concepts for use with large composite fan blades, taking into account...
The use of composites in fan blade containment systems is investigated and the associated structural...
With a goal of reducing jet engine weight, simulations of a fan blade containment system with an alt...
The catastrophic failure of fan blades in turbofan engines, referred to as fan blade-out (FBO), can ...
AbstractThe potential hazard resulting from an uncontained turbine engine rotor blade failure has al...
An effective design methodology was established for composite jet engine containment structures. The...
This work develops a methodology for full engine FEA simulation of the fan blade off containment tes...
The aerodynamic and structural viability of composite fan blades of the revolutionary Exo-Skeletal e...
Application of polymer matrix composite materials for jet engine fan blades is becoming attractive a...
Triaxial braid composite materials are beginning to be used in fan cases for commercial gas turbine ...
An integrated team of NASA personnel, Government contractors, industry partners, and university staf...
Parametric type data were obtained on advanced lightweight containment systems. These data were used...
FAA fan blade-out certification testing on turbofan engines occurs very late in an engine's developm...
The fan case in a jet engine is a heavy structure because of its size and because of the requirement...
The results of impact tests on large, fiber composite fan blades for aircraft turbofan engine applic...