Application of Grain Boundary Engineering in Lead-free "Green Steel"

C. I. Garcia; M. J. Hua; M. K. Miller; A. J. Deardo

Journal ArticleOPEN ACCESS

Application of Grain Boundary Engineering in Lead-free "Green Steel"

Garcia C
Hua M
Miller M
et al.

ISIJ International (2003) 43(12) 2023-2027

DOI: 10.2355/isijinternational.43.2023

15Citations

17Readers

Abstract

The development of a non-leaded free-machining steel has used atom probe tomography to measure the concentration of tin atoms at the ferrite grain boundaries. Comparing to lead-containing 12L14 and 1215 steels, 12T14 has proven to be equal or superior in terms of machinability. Atom probe analysis has revealed that grain boundary segregation of tin is responsible for the improved machinability performance.

Author supplied keywords

Grain boundaries
Machining
Segregation

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APA

Garcia, C. I., Hua, M. J., Miller, M. K., & Deardo, A. J. (2003). Application of Grain Boundary Engineering in Lead-free “Green Steel.” ISIJ International, 43(12), 2023–2027. https://doi.org/10.2355/isijinternational.43.2023

Application of Grain Boundary Engineering in Lead-free "Green Steel"

Abstract

Author supplied keywords

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