In situ formation of various intermetallic particles in Al–Ti–X(Cu, Mg) systems during friction stir processing
In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Zhang, Q. [verfasserIn] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2013transfer abstract |
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| Schlagwörter: |
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| Umfang: |
9 |
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| Übergeordnetes Werk: |
Enthalten in: Kidney donors and kidney transplants have abnormal aminothiol redox status, and are at increased risk of oxidative stress and reduced redox buffer capacity - Apeland, Terje ELSEVIER, 2014transfer abstract, Amsterdam [u.a.] |
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| Übergeordnetes Werk: |
volume:40 ; year:2013 ; pages:36-44 ; extent:9 |
| Links: |
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| DOI / URN: |
10.1016/j.intermet.2013.04.003 |
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| 520 | |a In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. | ||
| 520 | |a In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. | ||
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| 650 | 7 | |a B. Dispersion strengthening |2 Elsevier | |
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10.1016/j.intermet.2013.04.003 doi GBVA2013016000026.pica (DE-627)ELV033342393 (ELSEVIER)S0966-9795(13)00109-X DE-627 ger DE-627 rakwb eng 660 670 660 DE-600 670 DE-600 540 VZ 540 VZ 35.40 bkl Zhang, Q. verfasserin aut In situ formation of various intermetallic particles in Al–Ti–X(Cu, Mg) systems during friction stir processing 2013transfer abstract 9 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. C. Reaction synthesis Elsevier B. Phase identification Elsevier A. Aluminides, miscellaneous Elsevier B. Dispersion strengthening Elsevier A. Composites Elsevier Xiao, B.L. oth Ma, Z.Y. oth Enthalten in Elsevier Science Apeland, Terje ELSEVIER Kidney donors and kidney transplants have abnormal aminothiol redox status, and are at increased risk of oxidative stress and reduced redox buffer capacity 2014transfer abstract Amsterdam [u.a.] (DE-627)ELV023024852 volume:40 year:2013 pages:36-44 extent:9 https://doi.org/10.1016/j.intermet.2013.04.003 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 35.40 Anorganische Chemie: Allgemeines VZ AR 40 2013 36-44 9 045F 660 |
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10.1016/j.intermet.2013.04.003 doi GBVA2013016000026.pica (DE-627)ELV033342393 (ELSEVIER)S0966-9795(13)00109-X DE-627 ger DE-627 rakwb eng 660 670 660 DE-600 670 DE-600 540 VZ 540 VZ 35.40 bkl Zhang, Q. verfasserin aut In situ formation of various intermetallic particles in Al–Ti–X(Cu, Mg) systems during friction stir processing 2013transfer abstract 9 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. C. Reaction synthesis Elsevier B. Phase identification Elsevier A. Aluminides, miscellaneous Elsevier B. Dispersion strengthening Elsevier A. Composites Elsevier Xiao, B.L. oth Ma, Z.Y. oth Enthalten in Elsevier Science Apeland, Terje ELSEVIER Kidney donors and kidney transplants have abnormal aminothiol redox status, and are at increased risk of oxidative stress and reduced redox buffer capacity 2014transfer abstract Amsterdam [u.a.] (DE-627)ELV023024852 volume:40 year:2013 pages:36-44 extent:9 https://doi.org/10.1016/j.intermet.2013.04.003 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 35.40 Anorganische Chemie: Allgemeines VZ AR 40 2013 36-44 9 045F 660 |
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10.1016/j.intermet.2013.04.003 doi GBVA2013016000026.pica (DE-627)ELV033342393 (ELSEVIER)S0966-9795(13)00109-X DE-627 ger DE-627 rakwb eng 660 670 660 DE-600 670 DE-600 540 VZ 540 VZ 35.40 bkl Zhang, Q. verfasserin aut In situ formation of various intermetallic particles in Al–Ti–X(Cu, Mg) systems during friction stir processing 2013transfer abstract 9 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. C. Reaction synthesis Elsevier B. Phase identification Elsevier A. Aluminides, miscellaneous Elsevier B. Dispersion strengthening Elsevier A. Composites Elsevier Xiao, B.L. oth Ma, Z.Y. oth Enthalten in Elsevier Science Apeland, Terje ELSEVIER Kidney donors and kidney transplants have abnormal aminothiol redox status, and are at increased risk of oxidative stress and reduced redox buffer capacity 2014transfer abstract Amsterdam [u.a.] (DE-627)ELV023024852 volume:40 year:2013 pages:36-44 extent:9 https://doi.org/10.1016/j.intermet.2013.04.003 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 35.40 Anorganische Chemie: Allgemeines VZ AR 40 2013 36-44 9 045F 660 |
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10.1016/j.intermet.2013.04.003 doi GBVA2013016000026.pica (DE-627)ELV033342393 (ELSEVIER)S0966-9795(13)00109-X DE-627 ger DE-627 rakwb eng 660 670 660 DE-600 670 DE-600 540 VZ 540 VZ 35.40 bkl Zhang, Q. verfasserin aut In situ formation of various intermetallic particles in Al–Ti–X(Cu, Mg) systems during friction stir processing 2013transfer abstract 9 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. C. Reaction synthesis Elsevier B. Phase identification Elsevier A. Aluminides, miscellaneous Elsevier B. Dispersion strengthening Elsevier A. Composites Elsevier Xiao, B.L. oth Ma, Z.Y. oth Enthalten in Elsevier Science Apeland, Terje ELSEVIER Kidney donors and kidney transplants have abnormal aminothiol redox status, and are at increased risk of oxidative stress and reduced redox buffer capacity 2014transfer abstract Amsterdam [u.a.] (DE-627)ELV023024852 volume:40 year:2013 pages:36-44 extent:9 https://doi.org/10.1016/j.intermet.2013.04.003 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 35.40 Anorganische Chemie: Allgemeines VZ AR 40 2013 36-44 9 045F 660 |
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10.1016/j.intermet.2013.04.003 doi GBVA2013016000026.pica (DE-627)ELV033342393 (ELSEVIER)S0966-9795(13)00109-X DE-627 ger DE-627 rakwb eng 660 670 660 DE-600 670 DE-600 540 VZ 540 VZ 35.40 bkl Zhang, Q. verfasserin aut In situ formation of various intermetallic particles in Al–Ti–X(Cu, Mg) systems during friction stir processing 2013transfer abstract 9 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. C. Reaction synthesis Elsevier B. Phase identification Elsevier A. Aluminides, miscellaneous Elsevier B. Dispersion strengthening Elsevier A. Composites Elsevier Xiao, B.L. oth Ma, Z.Y. oth Enthalten in Elsevier Science Apeland, Terje ELSEVIER Kidney donors and kidney transplants have abnormal aminothiol redox status, and are at increased risk of oxidative stress and reduced redox buffer capacity 2014transfer abstract Amsterdam [u.a.] (DE-627)ELV023024852 volume:40 year:2013 pages:36-44 extent:9 https://doi.org/10.1016/j.intermet.2013.04.003 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 35.40 Anorganische Chemie: Allgemeines VZ AR 40 2013 36-44 9 045F 660 |
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English |
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Enthalten in Kidney donors and kidney transplants have abnormal aminothiol redox status, and are at increased risk of oxidative stress and reduced redox buffer capacity Amsterdam [u.a.] volume:40 year:2013 pages:36-44 extent:9 |
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Enthalten in Kidney donors and kidney transplants have abnormal aminothiol redox status, and are at increased risk of oxidative stress and reduced redox buffer capacity Amsterdam [u.a.] volume:40 year:2013 pages:36-44 extent:9 |
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C. Reaction synthesis B. Phase identification A. Aluminides, miscellaneous B. Dispersion strengthening A. Composites |
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Kidney donors and kidney transplants have abnormal aminothiol redox status, and are at increased risk of oxidative stress and reduced redox buffer capacity |
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Zhang, Q. @@aut@@ Xiao, B.L. @@oth@@ Ma, Z.Y. @@oth@@ |
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in situ formation of various intermetallic particles in al–ti–x(cu, mg) systems during friction stir processing |
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In situ formation of various intermetallic particles in Al–Ti–X(Cu, Mg) systems during friction stir processing |
| abstract |
In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. |
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In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. |
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In situ Al composites reinforced by various intermetallic particles were fabricated from Al–Ti–X(Cu, Mg) systems by hot pressing, forging and subsequent 4-pass friction stir processing (FSP). The formation of various intermetallic particles during FSP and the tensile properties of in situ composites were investigated. For Al–Ti–Cu system, Cu enhanced the Al–Ti reaction and resulted in the formation of more Al3Ti particles due to the presence of a small amount of liquid phase during FSP. After FSP, part of Cu was kept in the Al matrix as solute, whereas the other formed Al2Cu particles. For Al–Ti–Mg system, except for Al3Ti, some Ti2Mg3Al18 particles with fine twin lamellas were formed during FSP, resulting in an increase in the total volume fraction of reinforcing particles. Cu and Mg addition increased the strength of the in situ composites substantially due to introduction of more strengthening modes and more reinforcing particles, however the elongation decreased dramatically. |
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