Automated Fiber Placement Manufactured Composites for Science Applications

Abstract: Science instruments with large collecting areas that maintain dimensional stability, such as James Webb Space Telescope and Wide Field Space Telescope, help achieve next generation science advancements. Composite materials often used for science applications include high modulus fibers in cyanate ester matrices to result in dimensionally stable structures with low contamination. Hand lay-up fabrication is the most common approach for science instrument structures. Automated Fiber Placement (AFP) using intermed… Show more

“…In particular, these loads trigger more RSs inside the composite laminate, which, affect the mechanical properties, dimensional stability, and structural integrity of the composite parts. 15 Accordingly, quantifying and characterizing the induced RSs in the composite structure, are essential to minimize their adverse effect on the composite components. Measuring RSs in composite laminates is a challenging issue due to their amorphous and anisotropic nature.…”

Evaluation of robotic fiber placement effect onprocess‐inducedresidual stresses using incrementalhole‐drillingmethod

“…In particular, these loads trigger more RSs inside the composite laminate, which, affect the mechanical properties, dimensional stability, and structural integrity of the composite parts. 15 Accordingly, quantifying and characterizing the induced RSs in the composite structure, are essential to minimize their adverse effect on the composite components. Measuring RSs in composite laminates is a challenging issue due to their amorphous and anisotropic nature.…”

Evaluation of robotic fiber placement effect onprocess‐inducedresidual stresses using incrementalhole‐drillingmethod

Optimization of process-induced residual stresses in automated manufacturing of thermoset composites