Authors
August Noevere, Craig Collier, Ramy Harik
Conference
SAMPE Conference & Exhibition. Charlotte, North Carolina, US.
Abstract
Automated fiber placement provides many advancements beyond traditional hand layups in terms of efficiency and reliability. However, there are also a variety of unique challenges that arise with automated fiber placement technology. In particular, steering of tows over doubly-curved tool surfaces can result in material overlaps and gaps due to path convergence/divergence, fiber angle deviation, as well defects in the tows themselves such as puckers and wrinkles. Minimization of these defects is traditionally considered a task for the manufacturing discipline. Manufacturing specifications are often created for these defects based on laminate testing and can be inflexible to avoid more tests. Recent efforts have been made under the National Aeronautics and Space Administration (NASA) Advanced Composites Project (ACP) to develop software tools and processes that provide automated coupling between design and manufacturing disciplines. The objective of this coupling is to provide information to the design discipline on the manufacturability of a laminate while the laminate is being designed. A variety of software tools, both existing commercial tools and research tools under development, will be used to achieve this objective: Hyper Sizer for laminate optimization, the Computer Aided Process Planning module for selection of manufacturing process parameters, Vericut Composite Programming for tow path simulation, and COMPRO for deposition and cure defects. The newly developed “Central Optimizer” tool will be used to tie the modules together and drive the design for manufacturing process.
Citation
August Noevere, Craig Collier, & Ramy Harik. (May 2019). Integrated Design and Manufacturing Analysis for Automated Fiber Placement Structures. SAMPE Conference & Exhibition. Charlotte, North Carolina, US. doi:https://ntrs.nasa.gov/search.jsp?R=20200002674.
Link: https://ntrs.nasa.gov/search.jsp?R=20200002674
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