Mechanical Properties and Microstructures of Melt-quenched Al-Fe-Ti-M (M=V,Cr,Mn) Alloys

Ribbons of Al-Fe-Ti-M (M=V,Cr,Mn) alloys were prepared by melt-quenching (MQ) and their bulk alloys by the powder metallurgy (P/M) method using atomized powders. The ribbon Al-Fe-Ti-M (M=V,Cr,Mn) alloys produced at the circumferential velocity (Vc) of 40 m/s consisted of fcc-Al and amorphous phases....

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Veröffentlicht in:	Journal of the Japan Society of Powder and Powder Metallurgy 2000, Vol.47 (4), p.417-422
Hauptverfasser:	Sasamori, Kenichiro, Kimura, Hisamichi, Inoue, Akihisa, Murakami, Yoshihiro
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Sprache:	eng ; jpn
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container_title	Journal of the Japan Society of Powder and Powder Metallurgy
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creator	Sasamori, Kenichiro Kimura, Hisamichi Inoue, Akihisa Murakami, Yoshihiro
description	Ribbons of Al-Fe-Ti-M (M=V,Cr,Mn) alloys were prepared by melt-quenching (MQ) and their bulk alloys by the powder metallurgy (P/M) method using atomized powders. The ribbon Al-Fe-Ti-M (M=V,Cr,Mn) alloys produced at the circumferential velocity (Vc) of 40 m/s consisted of fcc-Al and amorphous phases. Maximum tensile fracture strength ( sigma sub f ) of the Al-Fe-Ti-M ribbons was 1170 MPa for Al sub 93 Fe sub 3 Ti sub 2 V sub 2 alloy. The constitutent structure was nearly the same as those for the powder and bulk Al-Fe-Ti-M (M=V,Cr,Mn) alloys. The bulk Al sub 93 Fe sub 3 Ti sub 2 Cr sub 2 alloys consisted of quasticrystalline particles dispersed into fcc-Al. Decomposition temperature of these particles was 730K. The ultimate tensile strength, 0.2% proof strength, plastic elongation, Young's modulus and Vicker's hardness were 650 MPa, 530 MPa, 4.4%, 86 GPa and 190, respectively.
doi_str_mv	10.2497/jjspm.47.417
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The ribbon Al-Fe-Ti-M (M=V,Cr,Mn) alloys produced at the circumferential velocity (Vc) of 40 m/s consisted of fcc-Al and amorphous phases. Maximum tensile fracture strength ( sigma sub f ) of the Al-Fe-Ti-M ribbons was 1170 MPa for Al sub 93 Fe sub 3 Ti sub 2 V sub 2 alloy. The constitutent structure was nearly the same as those for the powder and bulk Al-Fe-Ti-M (M=V,Cr,Mn) alloys. The bulk Al sub 93 Fe sub 3 Ti sub 2 Cr sub 2 alloys consisted of quasticrystalline particles dispersed into fcc-Al. Decomposition temperature of these particles was 730K. 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The ribbon Al-Fe-Ti-M (M=V,Cr,Mn) alloys produced at the circumferential velocity (Vc) of 40 m/s consisted of fcc-Al and amorphous phases. Maximum tensile fracture strength ( sigma sub f ) of the Al-Fe-Ti-M ribbons was 1170 MPa for Al sub 93 Fe sub 3 Ti sub 2 V sub 2 alloy. The constitutent structure was nearly the same as those for the powder and bulk Al-Fe-Ti-M (M=V,Cr,Mn) alloys. The bulk Al sub 93 Fe sub 3 Ti sub 2 Cr sub 2 alloys consisted of quasticrystalline particles dispersed into fcc-Al. Decomposition temperature of these particles was 730K. 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The ribbon Al-Fe-Ti-M (M=V,Cr,Mn) alloys produced at the circumferential velocity (Vc) of 40 m/s consisted of fcc-Al and amorphous phases. Maximum tensile fracture strength ( sigma sub f ) of the Al-Fe-Ti-M ribbons was 1170 MPa for Al sub 93 Fe sub 3 Ti sub 2 V sub 2 alloy. The constitutent structure was nearly the same as those for the powder and bulk Al-Fe-Ti-M (M=V,Cr,Mn) alloys. The bulk Al sub 93 Fe sub 3 Ti sub 2 Cr sub 2 alloys consisted of quasticrystalline particles dispersed into fcc-Al. Decomposition temperature of these particles was 730K. The ultimate tensile strength, 0.2% proof strength, plastic elongation, Young's modulus and Vicker's hardness were 650 MPa, 530 MPa, 4.4%, 86 GPa and 190, respectively.</abstract><doi>10.2497/jjspm.47.417</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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title	Mechanical Properties and Microstructures of Melt-quenched Al-Fe-Ti-M (M=V,Cr,Mn) Alloys
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