In situ monitoring of the strain evolution and curing reaction of composite laminates to reduce the thermal residual stress using FBG sensor and dielectrometry
- 31 January 2013
- journal article
- Published by Elsevier BV in Composites Part B: Engineering
- Vol. 44 (1), 446-452
- https://doi.org/10.1016/j.compositesb.2012.04.021
Abstract
No abstract availableThis publication has 14 references indexed in Scilit:
- The application of polymer composites to the table-top machine tool components for higher stiffness and reduced weightComposite Structures, 2011
- Design of μ-CNC machining centre with carbon/epoxy composite–aluminium hybrid structures containing friction layers for high damping capacityComposite Structures, 2010
- Thermal residual stresses effects on fatigue crack growth of repaired panels bounded with various composite materialsComposite Structures, 2008
- Design and manufacture of stainless steel/carbon epoxy hybrid shaft for cleaning large LCD glass panelsComposite Structures, 2007
- Reduction of fabricational thermal residual stress of the hybrid co-cured structure using a dielectrometryComposites Science and Technology, 2007
- Smart cure cycle with cooling and reheating for co-cure bonded steel/carbon epoxy composite hybrid structures for reducing thermal residual stressComposites Part A: Applied Science and Manufacturing, 2006
- Avoidance of fabricational thermal residual stresses in co-cure bonded metal-composite hybrid structuresJournal of Adhesion Science and Technology, 2006
- Optimal design of the press fit joint for a hybrid aluminum/composite drive shaftComposite Structures, 2005
- Cure Cycle Optimization for the Reduction of Processing-Induced Residual Stresses in Composite MaterialsJournal of Composite Materials, 1993
- Residual stresses and the optimum cure cycle for an epoxy resinJournal of Materials Science, 1989