A Model for Tow Impregnation and Consolidation for Partially Impregnated Thermoset Prepregs
Conference
·
OSTI ID:1018722
- University of Delaware - Department of Mechancial Engineering and Center of Composite Materials
The formation and transport of voids in composite materials remains a key research area in composite manufacturing science. Knowledge of how voids, resin, and fiber reinforcement propagate throughout a composite material continuum from green state to cured state during an automated tape layup process is key to minimizing defects induced by void-initiated stress concentrations under applied loads for a wide variety of composite applications. This paper focuses on modeling resin flow in a deforming fiber tow during an automated process of partially impregnated thermoset prepreg composite material tapes. In this work, a tow unit cell based model has been presented that determines the consolidation and impregnation of a thermoset prepreg tape under an input pressure profile. A parametric study has been performed to characterize the behavior of varying tow speed and compaction forces on the degree of consolidation. Results indicate that increased tow consolidation is achieved with slower tow speeds and higher compaction forces although the relationship is not linear. The overall modeling of this project is motivated to address optimization of the 'green state' composite properties and processing parameters to reduce or eliminate 'cured state' defects, such as porosity and de-lamination. This work is partially funded by the Department of Energy under Award number DE-EE0001367.
- Research Organization:
- University of Delaware and GE Global Research
- Sponsoring Organization:
- USDOE
- DOE Contract Number:
- EE0001367
- OSTI ID:
- 1018722
- Report Number(s):
- DE-EE0001367
- Country of Publication:
- United States
- Language:
- English
Similar Records
A Model for Tow Impregnation and Consolidation for Partially Impregnated Thermoset Prepregs
Continuous fiber malleable thermoset composites with sub-1-minute dwell times; validation of impact performance and evaluation of the efficacy of the compression forming process. CRADA Final Report
Development of a process and consolidation model for polymer powder prepreg composites
Conference
·
Mon May 23 00:00:00 EDT 2011
·
OSTI ID:1018727
Continuous fiber malleable thermoset composites with sub-1-minute dwell times; validation of impact performance and evaluation of the efficacy of the compression forming process. CRADA Final Report
Technical Report
·
Tue Nov 01 00:00:00 EDT 2022
·
OSTI ID:1899024
Development of a process and consolidation model for polymer powder prepreg composites
Book
·
Fri Dec 30 23:00:00 EST 1994
·
OSTI ID:89906