Add to ORKGThis work presents the progress in the development of a finite element model capable of predicting resin pockets occurring in composite structures with embedded sensors. The F.E.- model is built using standard tools in ABAQUS software, avoiding the need of specialized coding. Both progresses in material characterization as well as finite element modeling are shown. The model will eventually be used to optimize the shape of an embedded optical fibre interrogator used within the FP7 ‘SmartFiber’ projec
SMARTFIBER is a EU funded FP7 research project, aiming to resolve technological and practi- cal issu...
SMARTFIBER is a EU funded FP7 research project, aiming to resolve technological and practi- cal issu...
SMARTFIBER is a EU funded FP7 research project, aiming to resolve technological and practi- cal issu...
This work presents the progress in the development of a finite element model capable of predicting r...
This work presents a finite element technique allowing the accurate prediction of resin pocket geome...
This work presents a finite element technique allowing the accurate prediction of resin pocket geome...
This work presents a finite element technique allowing the accurate prediction of resin pocket geome...
This work highlights some of the achievements obtained within the EU FP7 SmartFiber project, aiming ...
This work highlights some of the achievements obtained within the EU FP7 SmartFiber project, aiming ...
In this paper, a finite element method is presented capable of predicting the influence an embedded ...
In this paper, a finite element method is presented capable of predicting the influence an embedded ...
This work highlights some of the achievements obtained within the EU FP7 SmartFiber project, aiming ...
Advanced finite element (FE) techniques are used to analyse mechanical stress and strain concentrati...
Composite materials are increasingly used in many industries due to the high strength and low weight...
Composite materials are increasingly used in many industries due to the high strength and low weight...
SMARTFIBER is a EU funded FP7 research project, aiming to resolve technological and practi- cal issu...
SMARTFIBER is a EU funded FP7 research project, aiming to resolve technological and practi- cal issu...
SMARTFIBER is a EU funded FP7 research project, aiming to resolve technological and practi- cal issu...
This work presents the progress in the development of a finite element model capable of predicting r...
This work presents a finite element technique allowing the accurate prediction of resin pocket geome...
This work presents a finite element technique allowing the accurate prediction of resin pocket geome...
This work presents a finite element technique allowing the accurate prediction of resin pocket geome...
This work highlights some of the achievements obtained within the EU FP7 SmartFiber project, aiming ...
This work highlights some of the achievements obtained within the EU FP7 SmartFiber project, aiming ...
In this paper, a finite element method is presented capable of predicting the influence an embedded ...
In this paper, a finite element method is presented capable of predicting the influence an embedded ...
This work highlights some of the achievements obtained within the EU FP7 SmartFiber project, aiming ...
Advanced finite element (FE) techniques are used to analyse mechanical stress and strain concentrati...
Composite materials are increasingly used in many industries due to the high strength and low weight...
Composite materials are increasingly used in many industries due to the high strength and low weight...
SMARTFIBER is a EU funded FP7 research project, aiming to resolve technological and practi- cal issu...
SMARTFIBER is a EU funded FP7 research project, aiming to resolve technological and practi- cal issu...
SMARTFIBER is a EU funded FP7 research project, aiming to resolve technological and practi- cal issu...