Improvement of Tensile Property of Ni-Based a Single Crystal Superalloy by Ru Addition

Zhen Xue Shi; Jia Rong Li; Shi Zhong Liu; Mei Han

doi:10.4028/www.scientific.net/MSF.788.477

Paper Titles

Coarsening Behavior of Precipitates in a Conventional Cast Nickel Base Superalloy during Long Term Thermal Exposure
p.452

Deformation and Damage Features of a 4.5% Re Nickel-Based Single Crystal Superalloy during Creep at Medium Temperature
p.459

Creep Behavior of a Re-Free Nickel-Based Single Crystal Superalloy at High Temperature
p.466

First-Principles Investigation of the Site Occupancy and Elastic Properties of Y in γ-Co₃(Al,W)
p.473

Improvement of Tensile Property of Ni-Based a Single Crystal Superalloy by Ru Addition
p.477

Effect of Mo on As-Cast Microstructure of a Modified 718 Alloy
p.483

Composition and Mechanical Property of DD6 Superalloy Revert
p.488

Heat Treated Microstructure and Mechanical Properties of K492M Alloy
p.493

Effects of Re on Microstructure of Ni₃Al-Based Single Crystal Superalloys
p.498

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Improvement of Tensile Property of Ni-Based a Single Crystal Superalloy by Ru Addition

Abstract:

Two experimental single crystal superalloys, the Ru-free alloy and the Ru-containing alloy with [001] orientation, were prepared in a directionally solidified furnace, while other alloying element contents were kept unchanged. The effects of Ru on the microstructure and tensile property at 25°C, 760°C, 980°C and 1100°C of the single crystal superalloy were investigated. The results show that the size of γ′ particles became uniform, and the cubic shape of the particles turned a little regular after Ru addition. The yield and ultimate tensile strengths of the single crystal superalloy increased with variant degree at different temperatures. The fracture elongation and area deduction decreased at the testing temperatures of 25°C and 760°C, but those increased at 980°C and 1100°C. The tensile fracture mechanism of the single crystal superalloy at different temperature did not change. Finally the relationship between the improvement of tensile strength and Ru addition was discussed.