High-strength 91 W-6Ni-2Co-1Fe tungsten heavy alloys prepared by laser melting deposition using granulated powder

Chun Li; Yichao Cheng; Jiajia Zhang; Zaoming Wu; Xiaoshan Yang; Yuzhao Zhou; Jiupeng Song; Huimin Liao; Yubin Zhang; Guomin Le

doi:10.1016/j.ijrmhm.2024.106680

High-strength 91 W-6Ni-2Co-1Fe tungsten heavy alloys prepared by laser melting deposition using granulated powder

Chun Li
, Yichao Cheng^*
, Jiajia Zhang
, Zaoming Wu
, Xiaoshan Yang
, Yuzhao Zhou
, Jiupeng Song
, Huimin Liao
, Yubin Zhang
, Guomin Le^*

^*Corresponding author for this work

North China University of Technology
China Academy of Engineering Physics
Xihua University

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

This study introduces a new approach for fabricating high-strength 91 W-6Ni-2Co-1Fe tungsten heavy alloys (WHAs) using laser melting deposition (LMD) with a specially formulated granulated powder, characterized by near-spherical particles and a dense structure with fine W grains (2.6 μm). Thin plate samples were prepared using laser powers from 500 W to 900 W, revealing increased density at higher laser power, while the W grain size remains relatively stable. A near-fully dense sample (99% density) with the finest W grain size of 2.8 μm is obtained at a laser power of 900 W, while the highest hardness of 482 HV is achieved at 700 W. The contributions of the high cooling rate of LMD, the Co addition, as well as the use of fine-grained granulated powder to enhance the high strength are discussed. These findings offer significant insights into optimizing WHA fabrication using LMD, highlighting its potential in advanced materials engineering

Original language	English
Article number	106680
Journal	International Journal of Refractory Metals and Hard Materials
Volume	121
Number of pages	6
ISSN	0958-0611
DOIs	https://doi.org/10.1016/j.ijrmhm.2024.106680
Publication status	Published - 2024

Keywords

Fine grains
High dense
High strength
Laser additive manufacturing
Tungsten heavy alloys

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10.1016/j.ijrmhm.2024.106680

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MicroAM: Microstructural engineering of additive manufactured metals
Juul Jensen, D. (PI), Tiedje, M. S. (Other) & Laursen, J. V. (Project Coordinator)
21/03/2023 → 30/09/2029
Project: Research

Cite this

@article{1ba75ac08aa6485f8456855fc8ad7af0,

title = "High-strength 91 W-6Ni-2Co-1Fe tungsten heavy alloys prepared by laser melting deposition using granulated powder",

abstract = "This study introduces a new approach for fabricating high-strength 91 W-6Ni-2Co-1Fe tungsten heavy alloys (WHAs) using laser melting deposition (LMD) with a specially formulated granulated powder, characterized by near-spherical particles and a dense structure with fine W grains (2.6 μm). Thin plate samples were prepared using laser powers from 500 W to 900 W, revealing increased density at higher laser power, while the W grain size remains relatively stable. A near-fully dense sample (99\% density) with the finest W grain size of 2.8 μm is obtained at a laser power of 900 W, while the highest hardness of 482 HV is achieved at 700 W. The contributions of the high cooling rate of LMD, the Co addition, as well as the use of fine-grained granulated powder to enhance the high strength are discussed. These findings offer significant insights into optimizing WHA fabrication using LMD, highlighting its potential in advanced materials engineering",

keywords = "Fine grains, High dense, High strength, Laser additive manufacturing, Tungsten heavy alloys",

author = "Chun Li and Yichao Cheng and Jiajia Zhang and Zaoming Wu and Xiaoshan Yang and Yuzhao Zhou and Jiupeng Song and Huimin Liao and Yubin Zhang and Guomin Le",

year = "2024",

doi = "10.1016/j.ijrmhm.2024.106680",

language = "English",

volume = "121",

journal = "International Journal of Refractory Metals and Hard Materials",

issn = "0958-0611",

publisher = "Elsevier",

}

TY - JOUR

T1 - High-strength 91 W-6Ni-2Co-1Fe tungsten heavy alloys prepared by laser melting deposition using granulated powder

AU - Li, Chun

AU - Cheng, Yichao

AU - Zhang, Jiajia

AU - Wu, Zaoming

AU - Yang, Xiaoshan

AU - Zhou, Yuzhao

AU - Song, Jiupeng

AU - Liao, Huimin

AU - Zhang, Yubin

AU - Le, Guomin

PY - 2024

Y1 - 2024

N2 - This study introduces a new approach for fabricating high-strength 91 W-6Ni-2Co-1Fe tungsten heavy alloys (WHAs) using laser melting deposition (LMD) with a specially formulated granulated powder, characterized by near-spherical particles and a dense structure with fine W grains (2.6 μm). Thin plate samples were prepared using laser powers from 500 W to 900 W, revealing increased density at higher laser power, while the W grain size remains relatively stable. A near-fully dense sample (99% density) with the finest W grain size of 2.8 μm is obtained at a laser power of 900 W, while the highest hardness of 482 HV is achieved at 700 W. The contributions of the high cooling rate of LMD, the Co addition, as well as the use of fine-grained granulated powder to enhance the high strength are discussed. These findings offer significant insights into optimizing WHA fabrication using LMD, highlighting its potential in advanced materials engineering

AB - This study introduces a new approach for fabricating high-strength 91 W-6Ni-2Co-1Fe tungsten heavy alloys (WHAs) using laser melting deposition (LMD) with a specially formulated granulated powder, characterized by near-spherical particles and a dense structure with fine W grains (2.6 μm). Thin plate samples were prepared using laser powers from 500 W to 900 W, revealing increased density at higher laser power, while the W grain size remains relatively stable. A near-fully dense sample (99% density) with the finest W grain size of 2.8 μm is obtained at a laser power of 900 W, while the highest hardness of 482 HV is achieved at 700 W. The contributions of the high cooling rate of LMD, the Co addition, as well as the use of fine-grained granulated powder to enhance the high strength are discussed. These findings offer significant insights into optimizing WHA fabrication using LMD, highlighting its potential in advanced materials engineering

KW - Fine grains

KW - High dense

KW - High strength

KW - Laser additive manufacturing

KW - Tungsten heavy alloys

U2 - 10.1016/j.ijrmhm.2024.106680

DO - 10.1016/j.ijrmhm.2024.106680

M3 - Journal article

SN - 0958-0611

VL - 121

JO - International Journal of Refractory Metals and Hard Materials

JF - International Journal of Refractory Metals and Hard Materials

M1 - 106680

ER -

High-strength 91 W-6Ni-2Co-1Fe tungsten heavy alloys prepared by laser melting deposition using granulated powder

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Keywords

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MicroAM: Microstructural engineering of additive manufactured metals

Cite this

High-strength 91 W-6Ni-2Co-1Fe tungsten heavy alloys prepared by laser melting deposition using granulated powder