Phosphorus and Boron Segregation at Prior Austenite Grain Boundaries in Low-alloyed Steel

Grain boundary segregation of metalloid impurity elements such as phosphorus and antimony is known to induce temper embrittlement of low-alloyed steels. Fracture in temper embrittlement takes place mainly along prior austenite grain boundaries, which are formed in austenite at high temperatures and...

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Published in	ISIJ International Vol. 42; no. 6; pp. 676 - 678
Main Authors	Suzuki, S., Tanino, M., Waseda, Y.
Format	Journal Article
Language	English
Published	Tokyo The Iron and Steel Institute of Japan 01.01.2002 Iron and Steel Institute of Japan
Subjects	Applied sciences Cross-disciplinary physics: materials science; rheology Exact sciences and technology Materials science Metals. Metallurgy Physics Solid solution hardening, precipitation hardening, and dispersion hardening; aging Solid solution, precipitation, and dispersion hardening; aging Treatment of materials and its effects on microstructure and properties Grain boundaries Boron Reviews Segregation Austenite Phosphorus Low alloy steels Steels Temper brittleness Microstructure Heat treatments
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Abstract	Grain boundary segregation of metalloid impurity elements such as phosphorus and antimony is known to induce temper embrittlement of low-alloyed steels. Fracture in temper embrittlement takes place mainly along prior austenite grain boundaries, which are formed in austenite at high temperatures and remain in the martensite or ferrite/pearlite microstructure after phase transformation. Numerous studies on segregation at prior austenite grain boundaries have been performed, and these results suggest that metalloid impurity elements are segregated at prior austenite grain boundaries in low-alloyed steels. In order to reveal grain boundary segregation of impurity elements, segregation at grain boundaries in ferritic iron and steel has also been characterized. Grain boundary segregation of phosphorus and boron are focused in this work. The microstructure in the center part of samples in which austenite was decomposed was observed by a conventional optical microscope. Vickers hardness was also measured to evaluate mechanical properties of the samples.
AbstractList	Grain boundary segregation of metalloid impurity elements such as phosphorus and antimony is known to induce temper embrittlement of low-alloyed steels. Fracture in temper embrittlement takes place mainly along prior austenite grain boundaries, which are formed in austenite at high temperatures and remain in the martensite or ferrite/pearlite microstructure after phase transformation. Numerous studies on segregation at prior austenite grain boundaries have been performed, and these results suggest that metalloid impurity elements are segregated at prior austenite grain boundaries in low-alloyed steels. In order to reveal grain boundary segregation of impurity elements, segregation at grain boundaries in ferritic iron and steel has also been characterized. Grain boundary segregation of phosphorus and boron are focused in this work. The microstructure in the center part of samples in which austenite was decomposed was observed by a conventional optical microscope. Vickers hardness was also measured to evaluate mechanical properties of the samples.
Author	Tanino, M. Waseda, Y. Suzuki, S.
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Title	Phosphorus and Boron Segregation at Prior Austenite Grain Boundaries in Low-alloyed Steel
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