Abstract
Directional solidification experiments have been performed on Ni-25at% Si alloy using electron beam floating zone method. A fully regular eutectic microstructures consisting of Ni, γ-Ni31Si12 and β1-Ni3Si have been obtained. The influences of the directional solidification rate on the microstructures and properties of the full lamellar structures have been studied. The results show that the relationship between the mean interphase spacing (λ) and withdrawal rate (v) meets λ=29.9v−0.65. The hardness increases with the increasing of growth rate (v) and decreasing of the interlamellar spacing (λ) which meets the relationship of HV=445.2v0.14 and HV=910λ−0.21. The maximum compressive strength, 2576MPa, for DS samples is obtained by 10mm/h. The average fracture toughness value found for 5mm/h, 7mm/h, 10mm/h is 28.3MPam1/2, 29.1MPam1/2 and 35.9MPam1/2, respectively. The crack bridging and crack deflection/interface debonding are the main toughening mechanism of Ni-25at% Si with full lamellar structures.
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