Descripción
|
|
---|---|
The combined use of computer-aided design & engineering resources and of additive manufacturing technologies for salid freeform fabr cat on, allows for the precise control of material properties and enables the development of devices with complex geometries. The possibility of defining both material features and device geometry, even from the design stage and with a relevan! degree of precision and complexity, promotes the incorporation of advanced functionalit es and the integration of functions. The employment of an adequate design methodology, aimed al taking into account the potentials of salid freeform fabrication, can prove lo be very adequate for the straigthforward development of solutions for improved heat transport and heat dissipation and for obtaining materials and devices with predefined structural and thermal performanceslinked lo complex specifications. In this study we present the interest of using materials and devices wilh complex geometries (i.e. porous structures, lattice networks, functionaUy gradad structures) for controlling mechanleal and thermal propert es within complex devices and lhe relatad development methodology. Such methodology is iDustrated by means of real applications linked lo heat exchangers and heat dissipators with direct application in energy engineering. | |
Internacional
|
Si |
Nombre congreso
|
Materials Science and Engineering Congress MSE 2016, Darmstadt, |
Tipo de participación
|
960 |
Lugar del congreso
|
Darmstadt |
Revisores
|
Si |
ISBN o ISSN
|
0000-0000 |
DOI
|
|
Fecha inicio congreso
|
29/09/2016 |
Fecha fin congreso
|
29/09/2016 |
Desde la página
|
356 |
Hasta la página
|
365 |
Título de las actas
|
Design and additive manufacture of complex geometries for heat transfer management in energy engineering" |