Toward the efficient recycling of alloying elements from end of life vehicle steel scrap

Iron and steel scrap have been reused to produce new steel and cast iron in the steelmaking and foundry industry for more than 150 years, but the accumulation of tramp elements contained in steel scrap such as copper, tin, antimony, and arsenic is a major concern. This is primarily because these tramp elements are difficult to remove in conventional steelmaking processes. In particular, the presence of copper during the recycling of steel scrap can cause severe surface cracking during hot rolling (hot shortness), inhibit recrystallization during hot forming, and reduce ductility in deep drawing. For these reasons, considerable efforts have been made in recent decades to develop a technology that can remove copper from ferrous scraps[1-3].

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Distribution Analysis on Steel Alloying Elements in the End of Life Vehicle Scrap Recycling Process

Tetsu-to-Hagane ◽

10.2355/tetsutohagane.100.788 ◽

2014 ◽

Vol 100 (6) ◽

pp. 788-793 ◽

Cited By ~ 5

Author(s):

Kazuyo Matsubae ◽

Yousuke Iizuka ◽

Hajime Ohno ◽

Takehito Hiraki ◽

Takahiro Miki ◽

...

Keyword(s):

End Of Life ◽

Alloying Elements ◽

Distribution Analysis ◽

Recycling Process ◽

Steel Alloying ◽

Scrap Recycling

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Development of Efficient Recycling System for Steel Alloying Elements in End of Life Vehicles

REWAS 2013 ◽

10.1007/978-3-319-48763-2_47 ◽

2013 ◽

pp. 414-422

Author(s):

Hajime Ohno ◽

Kazuyo Matsubae ◽

Kenichi Nakajima ◽

Shinichiro Nakamura ◽

Testsuya Nagasaka

Keyword(s):

End Of Life ◽

Alloying Elements ◽

Recycling System ◽

Steel Alloying

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Alloy information helps prioritize material criticality lists

Nature Communications ◽

10.1038/s41467-021-27829-w ◽

2022 ◽

Vol 13 (1) ◽

Author(s):

T. E. Graedel ◽

Barbara K. Reck ◽

Alessio Miatto

Keyword(s):

End Of Life ◽

Periodic Table ◽

Metals And Alloys ◽

Alloying Elements ◽

Critical Metals ◽

Product Life ◽

Low Concentrations ◽

Critical Materials ◽

Recovery And Reuse ◽

Regional Governments

AbstractMaterials scientists employ metals and alloys that involve most of the periodic table. Nonetheless, materials scientists rarely take material criticality and reuse potential into account. In this work, we expand upon lists of “critical materials” generated by national and regional governments by showing that many materials are employed predominantly as alloying elements, which can be a deterrent to recovery and reuse at end of product life and, likely as a consequence, have low functional end-of-life recycling rates, among other problematic characteristics. We thereby single out six metals for enhanced concern: dysprosium, samarium, vanadium, niobium, tellurium, and gallium. From that perspective, the use of critical metals in low concentrations in alloys unlikely to be routinely recycled should be avoided if possible. If not, provision should be made for better identification and more efficient recycling so that materials designated as critical can have increased potential for more than a single functional use.

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