| 1. | Ceramics are still surprising us - Eutectics - Zoom in the Lab |
| | Organic composites can't withstand these temperatures and titanium alloys, which are also expensive, have a limit of 600 °C. " So we are trying to develop low cost ceramic composites ", said Michel Parlier.... |
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| 2. | - ONERA / DMPH |
| | The two masses are made of two different materials, Platinum-Rhodium and Titanium alloys, and the fine measurement of the monitored electrical potentials creating the electrostatic fields which control the relative motion of the masses leads to the expected test signal in particular when the experimentation symmetry is broken.... |
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| 3. | Silicon Carbide Fibres bedded in a Matrix of Titanium Alloy - ONERA's Science Pictures |
| | Silicon Carbide Fibres bedded in a Matrix of Titanium Alloy - ONERA's Science Pictures... Silicon Carbide Fibres in a Matrix of Titanium Alloy copyright © ONERA 1996-2006... Polarized-light optic micrograph of silicon carbide fibres bedded in a titanium alloy matrix.... |
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| 4. | Silicon Carbide Fibres in a Titanium Alloy - ONERA's Science Pictures |
| | Silicon Carbide Fibres in a Titanium Alloy - ONERA's Science PicturesWho are we ?Science Pictures... Silicon Carbide Fibres in a Titanium Alloy copyright © ONERA 1996-2006. Micrograph of an SiC / titanium alloy composite fabricated using the PVD process (). Pictures. |
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| 5. | Carbon-Coated Silicon Carbide Fibres - ONERA's Science Pictures |
| | Carbon-coated silicon carbide fibres are blended with a titanium alloy matrix to create a composite material, the thermal and mechanical properties of which are of particular interest in turbomachines of aeronautical engines.... The fibres are blended, at high temperature, with a titanium alloy matrix.... |
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| 6. | TA6V Titanium Alloy - ONERA's Science Pictures |
| | TA6V Titanium Alloy - ONERA's Science Pictures... TA6V Titanium Alloy copyright © ONERA 1996-2006 x400 optical micrograph of a TA6V titanium alloy after anodic stain etch.... |
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| 7. | Turbomachines (TURB3) |
| | In particular, TiAl (titanium - aluminium alloy) is stiffer and lighter than conventional titanium alloys.... |
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