Load-Bearing Increase and Damage Progression in CF/PEEK Thermoplastic Laminates Under Repeated Low-Velocity Impacts
Jiezheng Qiu, Chunxing Hu, Zhonghai Xu

TL;DR
This paper studies how repeated low-velocity impacts affect the strength and damage in carbon fiber-reinforced PEEK composites used in aerospace.
Contribution
The study reveals new mechanisms of load-bearing increase and damage progression in CF/PEEK laminates under repeated impacts.
Findings
Repeated impacts cause matrix plastic deformation and compaction, leading to increased peak load.
Initial impacts cause internal damage that worsens during subsequent impacts.
Fiber failure becomes significant at higher impact energy levels.
Abstract
Carbon fiber-reinforced polyetheretherketone (CF/PEEK) thermoplastic composites are increasingly applied in aerospace structures due to their outstanding mechanical and thermal properties. However, their strengthening mechanism and damage evolution under repeated low-velocity impacts remains inadequately explored. This study systematically investigates the mechanical response and failure mechanisms of CF/PEEK laminates subjected to sequential single and second impacts at energy levels of 10 J, 20 J, and 30 J. Through comprehensive analysis of impact parameters (peak load, energy absorption, residual displacement), optical microscopy and ultrasonic C-scan, this study reveals that the load-bearing increase under repeated low-velocity impacts results from the combined effects of multiple mechanisms, including matrix plastic deformation, local compaction, matrix damage, and interlaminar…
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Taxonomy
TopicsMechanical Behavior of Composites · Polymer crystallization and properties · Fiber-reinforced polymer composites
