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Low-cost and low-temperature 3D printing for refractory composite inspired by fused deposition modeling and binder jetting

Longchao Zhuo, Changgen Liu, Enhuai Yin, Zhao Zhao, Shujie Pang

2022Composites Part A Applied Science and Manufacturing23 citationsDOIOpen Access PDF

Abstract

Inspired by two subsets of additive manufacturing , a novel method of low-cost and low-temperature 3D printing for net shape refractory products has been proposed and validated in the present work. Taking the typical refractory composite of tungsten-copper as an instance, the feedstock for printing was made of 97 wt% W-Cu composite powders and 3 wt% binder. The resulted W-Cu composite was printed on a desktop 3D printer at room temperature, followed by designated degreasing and hydrogen-reduction sintering. Characteristics including phase constituents, microstructure, mechanical and electrical properties of the resulted composite have been identified. The revealed neat and intact interfaces between the constituent Cu and W after fully degreasing ensured sufficient loading transfer and deformation coordination, contributing to excellent mechanical properties with high electrical conductivity . This work extended the feasibility of fabricating refractory alloys without molds and expensive equipment, providing a new solution and scheme for refractory materials with intricate structures.

Topics & Concepts

Refractory (planetary science)Composite numberFused deposition modelingDeposition (geology)Materials science3D printing3d printedComposite materialProcess engineeringManufacturing engineeringEngineeringGeologySedimentPaleontologyAdvanced materials and compositesAdditive Manufacturing and 3D Printing TechnologiesAdditive Manufacturing Materials and Processes
Low-cost and low-temperature 3D printing for refractory composite inspired by fused deposition modeling and binder jetting | Litcius