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Allaer, Klaas
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Publications (7/7 displayed)
- 2015An ultrasonic strain gauge
- 2014A novel ultrasonic strain gauge for single-sided measurement of a local 3D strain field
- 2014A novel ultrasonic strain gauge for single-sided measurement of a local 3D strain fieldcitations
- 2014An Ultrasonic Strain Gauge
- 2014Crack propagation in micro-encapsulated polymer for self-healing: numerical modelling and experimental validation
- 2014Crack propagation in micro-encapsulated polymer for self-healing: numerical modelling and experimental validation
- 2012Experimental assesment of infrared welded bonds using lapshear, double cantilever beam and end notch flexure tests for a carbon fabric reinforced thermoplastic
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document
Crack propagation in micro-encapsulated polymer for self-healing: numerical modelling and experimental validation
Abstract
Self-healing materials are currently in several areas of research, from polymers to cementetious materials. These smart materials have the ability to repair damage caused by mechanical usage, such as cracks, avoiding or delaying the mechanical failure. Although self-healing materials are very attractive for several applications, it is important to know pros and cons. We have studied numerically the crack propagation in homogenous and micro-encapsulated polymers in order to model the behaviour of the self-healing polymers. The results will be used to design and optimize micro-encapsulated self-healing polymers.