Boron Influence on Structures and Properties in Nickel-Based Alloys

Chuan Hui Chen; Yang Bai; Wei Chen; Xu Chu Ye

doi:10.4028/www.scientific.net/AMM.395-396.251

Paper Titles

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Cyclic Hardening Behavior of Extruded AZ31B Magnesium Alloy during Low Cycle Fatigue Process
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Comparison of Oxidation Behavior of Binary Co-10X (x=Al, Si, Cr) Alloys at 973 and 1073K
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Effect of Hydrogen as a Temporary Alloying Element on the Microstructure and Mechanical Properties of Ti-6Al-4V Titanium Alloy
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Boron Influence on Structures and Properties in Nickel-Based Alloys
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The Influence of Ti on d-Electron Occupancy of Fe in Fe-1.7%Ti Alloy
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Simulation of the Effect of Sintering Pressure on Microstructure Evolution in Nanocomposite Ceramic Tool Materials
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The Application of Magnesium Alloy in Automotive Seat Design
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Effect of Cooling Rate on Oxidation Behaviour of Microalloyed Steel
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 395-396Boron Influence on Structures and Properties in...

Boron Influence on Structures and Properties in Nickel-Based Alloys

Abstract:

Nickel-base alloys with different boron contents were prepared by vacuum arc furnace. The effect of the boron contents to metallography was characterized simultaneously by XRD and SEM with EDS part. The thermal behavior was analyzed by DSC curves which mainly represents the eutectic temperature of alloys. The Vickers hardness and ball-on-flat wear test were carried out to reveal the relationship between metallographic phase formation and wear resistance. The results indicated that main composites are eutectic Ni-Cr as matrix and CrB, Ni₃B as precipitated phase. A considerable amount of dislocation and stacking faults exist in the specific orientation (200) of Ni₃B. 2.0~4.0%B alloys melt at 1060oC, while the boride-poor alloy melts at 1085oC. 3.0~4.0%B alloys performed the best on wear resistance. Wear volume reduces along with increasing hardness at the beginning, and then keeps invariant. Borides are main reinforcing phases, which affects hardness and wear resistance greatly.