Add to ORKGIn this paper, a variety of optimization methods, e.g. Levenberg-Marquardt Algorithm and evolution strategy, are presented to estimate kinetic parameters of thermoset resin based on DSC experiments. Modified cure models are suggested by regarding the degree of maximum conversion to account for diffusion effects. A 3-dimensional FE-model is built in order to simulate the curing process of pure thermoset resin. Cure models and cure shrinkage models are implemented by compiled subroutines. Stress and deformation development during the curing process are demonstrated, which are induced by temperature and degree of cure gradients
A physically-based small strain curing model has been developed and discussed in our previous contri...
Thermosetting polymers are used in building materials, for example adhesives in fastening systems. T...
The effect of existing cure cycles and processes on the quality of thermoset composite parts with an...
ABSTRACT: The curing of an open mold composite consisting of three laminated thermoset layers is sim...
This study presents the cure kinetics and the cure modelling of an ambient curing unsaturated polye...
The curing of thermosets is a complex process involving the transition from a fluid into a (visco-) ...
The efficient production of component families of small batch sizes and high diversity requires nume...
Producing precision parts requires good control of the production parameters. When casting thermoset...
Chemical shrinkage and simultaneous build-up of mechanical properties in curing thermosets leads to ...
A multi-physics coupling numerical model of the curing process is proposed for the thermosetting res...
Manufacturing a composite part to a certain shape can be challenging because of the distortions whic...
Thermosetting resins are converted into threedimensional networks via a polymerisation reaction kno...
The curing behavior of a thermosetting material that influences the properties of the material is a ...
This contribution presents a newly developed phenomenological model to describe the curing process o...
A physically-based small strain curing model has been developed and discussed in our previous contri...
A physically-based small strain curing model has been developed and discussed in our previous contri...
Thermosetting polymers are used in building materials, for example adhesives in fastening systems. T...
The effect of existing cure cycles and processes on the quality of thermoset composite parts with an...
ABSTRACT: The curing of an open mold composite consisting of three laminated thermoset layers is sim...
This study presents the cure kinetics and the cure modelling of an ambient curing unsaturated polye...
The curing of thermosets is a complex process involving the transition from a fluid into a (visco-) ...
The efficient production of component families of small batch sizes and high diversity requires nume...
Producing precision parts requires good control of the production parameters. When casting thermoset...
Chemical shrinkage and simultaneous build-up of mechanical properties in curing thermosets leads to ...
A multi-physics coupling numerical model of the curing process is proposed for the thermosetting res...
Manufacturing a composite part to a certain shape can be challenging because of the distortions whic...
Thermosetting resins are converted into threedimensional networks via a polymerisation reaction kno...
The curing behavior of a thermosetting material that influences the properties of the material is a ...
This contribution presents a newly developed phenomenological model to describe the curing process o...
A physically-based small strain curing model has been developed and discussed in our previous contri...
A physically-based small strain curing model has been developed and discussed in our previous contri...
Thermosetting polymers are used in building materials, for example adhesives in fastening systems. T...
The effect of existing cure cycles and processes on the quality of thermoset composite parts with an...