Add to ORKGCost efficient production technologies for lightweight composite components are the key-enabler for a broad application. The use of laser-assisted tape placement in selected locations in existing composite structures provides the production of thermoplastic multi-material composite parts with the optimum reinforcement, weight and cost profile. Enhanced by the new manufacturing process route the weight of components can be significantly reduced as the combination of different reinforcement fibers in one single structure allows the achievement of an optimized relation between performance and weight. This is developed in the European funded FP7 Project Stellar
Laser-assisted tape laying has the potential to become the most productive and energy-efficient meth...
The automated placement of continuous fiber-reinforced polymer prepregs (pre-impregnated) is a gener...
Technical progress in the area of mechanical and automobile engineering is always connected with pro...
One of the most important factors for the industry today is the energy-efficient production of light...
The aim of Fraunhofer IPT is to fully exploit the potential of fiber-reinforced thermoplastic compos...
The project aims the automatic production of rotational symmetrical components of thermoplastic fibe...
Automated laser assisted tape placement is an additive manufacturing technology for the production o...
This talk gives an overview of the current state for Insitu Laser Automated Tape Placement for therm...
The combination of laser-assisted tape placement and thermoforming enables the production of tailore...
Automated laser assisted tape placement is an additive manufacturing technology for the production o...
In this paper, Fraunhofer IPT's specialists in the field of laser-assisted tape placement describe t...
From a production engineering perspective, the freedom of design with composite materials offers an ...
Thermoplastic composites, such as organosheets and unidirectional tapes, have become more and more p...
Regulatory requirements force automotive OEMs to develop solutions for the productions of vehicles w...
The possibility to manufacture economic efficiently structural functionalized parts using high-volum...
Laser-assisted tape laying has the potential to become the most productive and energy-efficient meth...
The automated placement of continuous fiber-reinforced polymer prepregs (pre-impregnated) is a gener...
Technical progress in the area of mechanical and automobile engineering is always connected with pro...
One of the most important factors for the industry today is the energy-efficient production of light...
The aim of Fraunhofer IPT is to fully exploit the potential of fiber-reinforced thermoplastic compos...
The project aims the automatic production of rotational symmetrical components of thermoplastic fibe...
Automated laser assisted tape placement is an additive manufacturing technology for the production o...
This talk gives an overview of the current state for Insitu Laser Automated Tape Placement for therm...
The combination of laser-assisted tape placement and thermoforming enables the production of tailore...
Automated laser assisted tape placement is an additive manufacturing technology for the production o...
In this paper, Fraunhofer IPT's specialists in the field of laser-assisted tape placement describe t...
From a production engineering perspective, the freedom of design with composite materials offers an ...
Thermoplastic composites, such as organosheets and unidirectional tapes, have become more and more p...
Regulatory requirements force automotive OEMs to develop solutions for the productions of vehicles w...
The possibility to manufacture economic efficiently structural functionalized parts using high-volum...
Laser-assisted tape laying has the potential to become the most productive and energy-efficient meth...
The automated placement of continuous fiber-reinforced polymer prepregs (pre-impregnated) is a gener...
Technical progress in the area of mechanical and automobile engineering is always connected with pro...