Effect of nano-ZrC powders on microstructure and properties of 90W−7Ni−3Fe alloys

Effect of nano-ZrC powders on microstructure and properties of 90W−7Ni−3Fe alloys

To effectively inhibit the growth of tungsten grains during the liquid phase sintering, the ZrC dispersion-strengthened heavy tungsten alloys (WHAs) were prepared by liquid phase sintering at 1500 ℃. The effects of ZrC mass fraction (1% and 2%) on the microstructure and properties of WHAs were analy...

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Bibliographic Details
Main Authors: SU Xuwen, HE Zhi, YAN Shuxin, DONG Longlong, SUN Guodong
Format: Article
Language:zho
Published: Editorial Office of Powder Metallurgy Technology 2025-02-01
Series:Fenmo yejin jishu
Subjects:
tungsten heavy alloys
liquid phase sintering
nano-zrc powders
mechanical properties
nanocomposite powders
Online Access:https://pmt.ustb.edu.cn/article/doi/10.19591/j.cnki.cn11-1974/tf.2023040009
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Summary:To effectively inhibit the growth of tungsten grains during the liquid phase sintering, the ZrC dispersion-strengthened heavy tungsten alloys (WHAs) were prepared by liquid phase sintering at 1500 ℃. The effects of ZrC mass fraction (1% and 2%) on the microstructure and properties of WHAs were analyzed. The results show that, with the increase of ZrC mass fraction, the relative density and W−W contiguity of WHAs decrease, and the tungsten grains are refined to a certain extent. When the ZrC mass fraction is 1%, the strength-ductility matching effect of WHAs is the best, the relative density reaches 98.4%, the tungsten grain size is 22.17 μm, and the yield strength and compressive strength (40% deformation) reach 791 MPa and 2179 MPa, respectively, which are increased by 8.35% and 38.70%, compared with WHAs without ZrC (730 MPa and 1570 MPa).
ISSN:1001-3784

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