The latest advances in multi-physics modelling both using high fidelity techniques and reduced order and behavioural models will be discussed. Particular focus will be given to the application and validation of these techniques for modelling the fabrication, packaging and subsequent reliability of micro-systems based components. The paper will discuss results from a number of research projects with particular emphasis on the techniques being developed in a major UK Goverment funded project - 3D-MINTEGRATION (www.3d-mintegration.com)
Structures of power converters constitute very complex systems, the behaviour of which introduces se...
Microsystems may be characterized as multi-domain systems. Today, they usually comprise two or three...
Reliability and fuctionality of microsystems, i.e. of small scale integrated electronic, mechanical ...
Numerical modelling technology and software is now being used to underwrite the design of many micro...
With increasing complexity of the systems and ongoing miniaturization, structural dimensions cross o...
At present the vast majority of Computer-Aided- Engineering (CAE) analysis calculations for microele...
One of the core tasks of the virtual-manufacturing environment is to characterise the transformation...
The objective of this research is to develop a design framework for virtual prototyping of electroni...
In this work we present a procedure for the construction of 3D networked epoxy moulding compounds an...
The development of a surrogate modelling approach to aid design of 3D printed electronics packaging ...
Numerical modelling is increasingly supporting the analysis and optimization of manufacturing proces...
Additive Manufacturing (AM) is intensifying the digitalization of the manufacturing and generating d...
In the design process of micro systems their heterogeneity is one major issue. This heterogeneity is...
This paper describes modeling technology and its use in providing data governing the assembly and su...
Utilizing 3D design procedures in manufacturing industry is well matured in industrial R&D. The ...
Structures of power converters constitute very complex systems, the behaviour of which introduces se...
Microsystems may be characterized as multi-domain systems. Today, they usually comprise two or three...
Reliability and fuctionality of microsystems, i.e. of small scale integrated electronic, mechanical ...
Numerical modelling technology and software is now being used to underwrite the design of many micro...
With increasing complexity of the systems and ongoing miniaturization, structural dimensions cross o...
At present the vast majority of Computer-Aided- Engineering (CAE) analysis calculations for microele...
One of the core tasks of the virtual-manufacturing environment is to characterise the transformation...
The objective of this research is to develop a design framework for virtual prototyping of electroni...
In this work we present a procedure for the construction of 3D networked epoxy moulding compounds an...
The development of a surrogate modelling approach to aid design of 3D printed electronics packaging ...
Numerical modelling is increasingly supporting the analysis and optimization of manufacturing proces...
Additive Manufacturing (AM) is intensifying the digitalization of the manufacturing and generating d...
In the design process of micro systems their heterogeneity is one major issue. This heterogeneity is...
This paper describes modeling technology and its use in providing data governing the assembly and su...
Utilizing 3D design procedures in manufacturing industry is well matured in industrial R&D. The ...
Structures of power converters constitute very complex systems, the behaviour of which introduces se...
Microsystems may be characterized as multi-domain systems. Today, they usually comprise two or three...
Reliability and fuctionality of microsystems, i.e. of small scale integrated electronic, mechanical ...