Susan C. Mantell scite author profile

Models were developed which simulate the processing of thermoplastic matrix composites. The models relate the applied temperature, pressure, speed, and time to the temperature, crystallinity, consolidation, interlaminar bonding, and residual stresses and strains inside the composite. The formulations follow the models proposed by Springer, Loos, and their coworkers for manufacturing plates in a press or in an autoclave, but were extended to include cylindrical geometries, variations in the applied temperatures and pressures with position and time, and rapid bonding. These extensions make the models applicable to the manufacture of plates by tape laying and to filament winding of cylinders. These models were incorporated into a user friendly computer code which can be used to generate numerical results and to select the appropriate processing conditions for processing thermoplastic composite plates 1) in an autoclave, 2) in a press, or 3) by tape laying, and 4) for filament winding thermoplastic composite cylinders.

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Dynamic response of a cantilever in liquid near a solid wall

Naik

Longmire

Mantell

2003

Sensors and Actuators A: Physical

165

101

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Design and simulation of an implantable medical drug delivery system using microelectromechanical systems technology

Cao¹,

Mantell²,

Polla³

2001

Sensors and Actuators A: Physical

163

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The effect of fiber volume fraction on filament wound composite pressure vessel strength

Cohen

Mantell

Zhao

2001

Composites Part B: Engineering

109

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Susan C. Mantell

Manufacturing Process Models for Thermoplastic Composites

Dynamic response of a cantilever in liquid near a solid wall

Design and simulation of an implantable medical drug delivery system using microelectromechanical systems technology

The effect of fiber volume fraction on filament wound composite pressure vessel strength

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