AEROSPACE (3D Additive Manufacturing & Radiation Damage)
| |
go to QR-CODE |
|
WS.VI AEROSPACE (3D Additive Manufacturing & Radiation Damage)
September 22
|
||||
| Co-organized with: | ||||
  |
||||
|
WORKSHOP COMMITTEE:
Marco DI CLEMENTE, ASI |
||||
|
Aerospace is definitely one of the fields where the impact of innovation is the most important. This is the direct consequence of the need for excellence related to the extreme conditions of operation, the very demanding specifications, the complexity of the equipment and the need for high level of reliability (very low rates of failure). In this session we will present and discuss two of the key technologies for the so-called “: New Space”: a) the use of COTS (components on the shelf) in electronic systems for space applications; b) the extensive use of metallic parts made by additive manufacturing for aerospace.
The New Space denomination indicates a change of paradigm within the business model of the space industry, characterised by a continued democratisation of space technology. This is mainly achieved with a constant decrease of the cost of the launching and of the satellite constellations and a consequent growing need for components with novel functionalities at lower costs. In this configuration the interest for COTS, i.e. components that are not especially conceived to operate in harsh radiative environments (RadHard), is growing considerably. As a consequence, the fact of properly characterising and understanding the limitations and the performance of standard components in a radiation environment gains momentum, with respect to the intention to design specific components dedicated for space. In this kind of perspective, the development of novel testing methodologies and the possibility to have access to opportune nuclear physics facilities to carry on some testing campaigns become strategic. A complete picture around this topic will be provided in the first part of the workshop.
Complementary to the aspects related to embedded electronics, the advanced manufacturing is another topic of primary importance for the future of the race for space. In this respect, Additive Manufacturing (AM) is the absolute game changer. AM offers the possibility to obtain unique shapes that can implement outstanding mechanical performances with reduced weight. Furthermore, AM is ideal when small series of pieces with very high added value are conceived, and when a continuous product development is envisaged. For these reasons, the second part of the workshop will be dedicated to the AM of metallic parts. The challenges related with the manufacturing will be discussed, but also the characterisation methodologies. |
||||
| September 22 | ||||
| 09:00 - 10:30 Introduction to the electronic solutions for aerospace applications WS.VI.1 - TT.I.H |
||||
| Co-organized with ASI & ESRF Chair: Ennio CAPRIA, ESRF, Grenoble |
||||
| WS.VI.1.1 TT.I.H.1 |
Silvia NATALUCCI - CV ASI Usage of COTS EEE Components in ASI Space Programs |
 |
 |
|
| WS.VI.1.2 TT.I.H.2 |
Gianluigi CASSE - CV FBK Radiation hardened sensors and electronics: studies and guidelines |
|
 |
|
| WS.VI.1.3 TT.I.H.3 |
Francesco PINTACUDA - CV STMicroelectronics Design strategy for RadHard components |
|
 |
|
| 11:30 - 13:00 Testing of radiation hardness of electronic components WS.VI.2 - TT.II.I |
||||
| Co-organized with ASI & ESRF Chair: Ennio CAPRIA, ESRF, Grenoble |
||||
| WS.VI.2.1 TT.II.I.1 |
Jan BUDROWEIT - CV German Aerospace Center, Germany The use of irradiation facility for the testing of electronic components for space |
|
 |
|
| WS.VI.2.2 TT.II.I.2 |
Giovanni CUCINELLA - CV IMT Electron Beam Radiation Tests - The eRAD Project experience |
|
 |
|
| WS.VI.2.3 TT.II.I.3 |
Salvatore FIORE ENEA RADNEXT: the widest network of facilities for the testing of radiation hardness of electronic components |
 |
 |
|
| WS.VI.2.4 TT.II.I.4 |
Ennio CAPRIA ESRF, France A competence center on irradiation for electronic components in Grenoble |
|
 |
|
| WS.VI.2.5 TT.II.I.5 |
Rita CARPENTIERO - CV ASI ASIF initiatives in support of Italian irradiation facilities |
|
 |
|
| 14:00 - 15:30 The strategic role of additive manufacturing for aerospace applications WS.VI.3 - TT.III.C |
||||
| Co-organized with ASI & ESRF Chair: Marco PIZZARELLI, ASI |
||||
| WS.VI.3.1 TT.III.C.1 |
Mariangela LOMBARDI - CV Polytechnic of Turin Additive Manufacturing of metallic parts: essential paradigms and trends |
|
 |
|
| WS.VI.3.2 TT.III.C.2 |
Francesco LUMACA - CV Thales Alenia Space Additive Manufacturing for the Space Components: Present And Trends in TAS-I |
|
 |
|
| WS.VI.3.3 TT.III.C.3 |
Pietro TADINI - CV AVIO Attività ALM in Avio: Programmi di Ricerca, sviluppo del combustore M10, evoluzioni e sviluppi futuri |
|
 |
|
| 16:00 - 17:30 Advanced imaging characterisation of metallic parts manufactured via additive manufacturing WS.VI.4 - TT.IV.C |
||||
| Co-organized with ASI & ESRF Chair: Marco PIZZARELLI, ASI |
||||
| WS.VI.4.1 TT.IV.C.1 |
Bianca Maria COLOSIMO - CV Polytechnic of Milan Additive Manufacturing and big data mining: opportunities and challenges of in-situ monitoring and qualification |
|
 |
|
| WS.VI.4.2 TT.IV.C.2 |
Rosario BORRELLI - CV CIRA Metallic Additive Manufacturing at the Italian Aerospace Research Centre |
|
 |
|
| WS.VI.4.3 TT.IV.C.3 |
Romaine ISAACS - CV ZEISS Nanotomography characterization and phase identification of high temperature 3D printed Al-Ce alloys |
|
 |
|
| WS.VI.4.4 TT.IV.C.4 |
Julio Cesar DA SILVA - CV CNRS & ESRF, France Characterization of an ultrafine eutectic Ti-Fe-based alloy processed by additive manufacturing via Near-Field Ptychographic Tomography |
|
 |
|
 Back to Overview |
||
