Silicon Waste from the Photovoltaic Industry - A Material Source for the Next Generation Battery Technology?
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Selective Separation Using Fluid-Liquid Interfaces
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Carrier Flotation: State of the Art and its Potential for the Separation of Fine and Ultrafine Mineral Particles
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Cues to Greater Recycling Efficiency - Characterization of a Crushed Mobile Phone by Mineral Liberation Analysis (MLA)
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Review: Possibilities of Steel Scrap Decopperization
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Copper-Alloyed PHFP Steel for Energy-Efficient and Distortion-Reduced Production of Cold-Formed, High-Strength Structural Components
p.161
p.161
Corrosion of Carbon Free and Bonded Refractories for Application in Steel Ingot Casting: An Approach for Improving Steel Quality
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Synthesis of High Performance Geopolymers by Wet Milling of Blast Furnace Slags
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Bundling Analytical Capacities to Understand Phase Formation in Recycling of Functional Materials
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Copper-Alloyed PHFP Steel for Energy-Efficient and Distortion-Reduced Production of Cold-Formed, High-Strength Structural Components
Abstract:
This article reports on the development of a hardenable PHFP steel for energy-efficient and distortion-reduced production of cold-formed, high-strength structural components. Based on an alloying concept containing 0.8 wt.-% copper, a technology for the production of screws has been developed to exploit the precipitation-hardening effect of copper for increasing strength by tempering while avoiding final quenching.
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Periodical:
Materials Science Forum (Volume 959)
Pages:
161-165
Citation:
Online since:
June 2019
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© 2019 Trans Tech Publications Ltd. All Rights Reserved
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