Abstract
The microstructural changes during diffusion bonding of Al 2O 3 fibres with boron-doped Ni 3Al plates by hot pressing were investigated. Particular attention was paid to the conversion of the bonding surfaces to an interior grain boundary and its migration during the hot-pressing treatment. The microstructure changes were found to depend on the grain size of the matrix material prior to hot pressing. Fine-grained matrix material led to a fast migration of the bonded interface in order to establish force equilibrium at grain boundary junctions at the prior surfaces. In coarse-grained material, the bonded interface moved after much larger hot pressing time by strain-induced boundary migration due to the accumulated plastic-strain during prolonged hot-pressing treatment. The fibres were found to strongly impede migration of the bonded interface, which can interfere with the perfection of the bonding process.
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