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Microstructure and properties of K648 superalloy additively manufactured by extreme high-speed laser metal deposition

Kaiming Wang, Wei Liu, Dong Du, Baohua Chang, Guan Liu, Yongle Hu, Yonggang Tong, Mingjun Zhang, Jian Zhang, Jiang Ju

2024Transactions of Nonferrous Metals Society of China15 citationsDOIOpen Access PDF

Abstract

In order to improve the manufacturing efficiency of high-chromium superalloys, an innovative extreme high- speed laser metal deposition (EHLMD) process was used. The growth behavior of precipitated phases, high-temperature mechanical properties, wear resistance, and corrosion resistance of EHLMD K648 superalloy were investigated and compared with conventional laser metal deposition (CLMD) using transmission electron microscope, tensile tester, wear tester and electrochemical workstation, respectively. The results reveal that the precipitated phase size in EHLMD K648 superalloy is significantly smaller than that in CLMD K648 superalloy. Moreover, EHLMD K648 superalloy demonstrates higher tensile strength at 700 °C, superior wear resistance, and excellent corrosion resistance compared to CLMD K648 superalloy. Consequently, the K648 superalloy manufactured through EHLMD technique exhibits favorable comprehensive properties.

Topics & Concepts

SuperalloyMaterials scienceMetallurgyUltimate tensile strengthMicrostructureCorrosionDeposition (geology)LaserComposite materialSedimentOpticsBiologyPhysicsPaleontologyAdditive Manufacturing Materials and ProcessesHigh Entropy Alloys StudiesHigh-Temperature Coating Behaviors
Microstructure and properties of K648 superalloy additively manufactured by extreme high-speed laser metal deposition | Litcius