Researchers at Oak Ridge Nationwide Laboratory used additive manufacturing to provide the primary defect-free advanced tungsten components to be used in excessive environments. The accomplishment may have constructive implications for clean-energy applied sciences resembling fusion vitality.
Tungsten has the very best melting level of any steel, making it preferrred for fusion reactors the place plasma temperatures exceed 180 million levels Fahrenheit. As compared, the solar’s middle is about 27 million levels Fahrenheit.
In its pure type, tungsten is brittle at room temperature and simply shatters. To counter this, ORNL researchers developed an electron-beam 3D-printer to deposit tungsten, layer by layer, into exact three-dimensional shapes. This expertise makes use of a magnetically directed stream of particles in a high-vacuum enclosure to soften and bind steel powder right into a solid-metal object. The vacuum setting reduces overseas materials contamination and residual stress formation.
“Electron-beam additive manufacturing is promising for the processing of complex tungsten geometries,” mentioned ORNL’s Michael Kirka. “This is an important step for expanding the use of temperature-resistant metals in energy resources that will support a sustainable, carbon-free future.”
Oak Ridge Nationwide Laboratory
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First 3D-printed, defect-free tungsten elements face up to excessive temperatures (2024, Could 27)
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