Development of yarns from recycled carbon fiber based on friction spinning technology with specific properties for thermoset composites

Abstract: Because of a growing demand and usage of carbon fiber, effective methods to re-use waste and recycled carbon fiber recoverable either from process scraps or from end-of-life components are attracting increased attention. The development of different hybrid yarn structures consisting of recycled carbon fiber and thermoplastic fibers (recycled carbon fiber content approx. 50% by weight) for thermoplastic composites have been reported earlier. Yarns with high recycled carbon fiber content (>90% by weight) requ… Show more

“…Details of the test parameters can be found in. 15 weight. However, the measured rCF content in the yarn is found to be 92% by weight, which can be attributed to the fibre loss during spinning.…”

“…The results of the composite tests are summarised in Table 4. In, 15,16 it is reported, that the yarn strength and compactness increase at high suction air pressure due to improved fibre to fibre cohesion. However, there is also a risk of high fibre damage and low fibre orientation as a result of the high torque acting on the yarn surface during spinning at high suction air pressure.…”

“…Therefore, there is a high demand for the development of yarns with high rCF content (>90% by weight) that are suitable for thermoset applications from both an economic and environmental point of view. 15,16 Although friction spinning technology shows good potential for hybrid yarns for thermoplastic composites, the challenges of producing high rCF (>90% by weight) yarns suitable for thermoset composites based on friction spinning technology are manifold 15 :…”

“…Therefore, the amount and choice of sheath fibre is crucial to the yarn and subsequent composite properties. 15 The influence of the use of different thermoplastic fibres and matrix soluble binders on thermoset composites has been investigated by various researchers. The use of Grilon MS chopped strand interlayers in carbon fibre/expoxy laminates is reported in.…”

“…Therefore, there is a high demand for the development of yarns with high rCF content (>90% by weight) that are suitable for thermoset applications from both an economic and environmental point of view. 15,16…”

Tensile properties of thermoset composites based on yarn structures from recycled carbon fibre and low melting temperature Co-polyamide fibre

“…Details of the test parameters can be found in. 15 weight. However, the measured rCF content in the yarn is found to be 92% by weight, which can be attributed to the fibre loss during spinning.…”

“…The results of the composite tests are summarised in Table 4. In, 15,16 it is reported, that the yarn strength and compactness increase at high suction air pressure due to improved fibre to fibre cohesion. However, there is also a risk of high fibre damage and low fibre orientation as a result of the high torque acting on the yarn surface during spinning at high suction air pressure.…”

“…Therefore, there is a high demand for the development of yarns with high rCF content (>90% by weight) that are suitable for thermoset applications from both an economic and environmental point of view. 15,16 Although friction spinning technology shows good potential for hybrid yarns for thermoplastic composites, the challenges of producing high rCF (>90% by weight) yarns suitable for thermoset composites based on friction spinning technology are manifold 15 :…”

“…Therefore, the amount and choice of sheath fibre is crucial to the yarn and subsequent composite properties. 15 The influence of the use of different thermoplastic fibres and matrix soluble binders on thermoset composites has been investigated by various researchers. The use of Grilon MS chopped strand interlayers in carbon fibre/expoxy laminates is reported in.…”

“…Therefore, there is a high demand for the development of yarns with high rCF content (>90% by weight) that are suitable for thermoset applications from both an economic and environmental point of view. 15,16…”

Tensile properties of thermoset composites based on yarn structures from recycled carbon fibre and low melting temperature Co-polyamide fibre