Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Ultrasonic assisted fabrication of particle reinforced bonds joining aluminum metal matrix composites
Abstract This paper presents a method of producing uniform particle strengthened bonds between pieces of aluminum metal matrix composite (Al-MMCs), of strength equal to that of the substrate material. SiC particle reinforced Zn-based filler metals were fabricated by mechanical stir casting and ultrasonic treatment, and then used to join pieces of SiCp/A356 composite with the aid of ultrasonic vibration. The filler metals made by mechanical stirring were porous and contained many particle clusters. Ultrasonic vibration was used to disperse the agglomerates and prevent further coagulation of SiC particles during joining, but the method failed to eliminate the porosity, resulting in a highly porous bond. The filler metal treated by ultrasonic vibration was free of defects and produced a non-porous bond strengthened with uniform particles between pieces of SiCp/A356 composite. The presence of surface oxide films at the bonding interface significantly degraded the performance of SiC particle reinforced bond. Removal of this oxide film by at least 4s of ultrasonic vibration significantly increased the bond strength, reaching a value equal to that of the substrate metal.
Ultrasonic assisted fabrication of particle reinforced bonds joining aluminum metal matrix composites
Abstract This paper presents a method of producing uniform particle strengthened bonds between pieces of aluminum metal matrix composite (Al-MMCs), of strength equal to that of the substrate material. SiC particle reinforced Zn-based filler metals were fabricated by mechanical stir casting and ultrasonic treatment, and then used to join pieces of SiCp/A356 composite with the aid of ultrasonic vibration. The filler metals made by mechanical stirring were porous and contained many particle clusters. Ultrasonic vibration was used to disperse the agglomerates and prevent further coagulation of SiC particles during joining, but the method failed to eliminate the porosity, resulting in a highly porous bond. The filler metal treated by ultrasonic vibration was free of defects and produced a non-porous bond strengthened with uniform particles between pieces of SiCp/A356 composite. The presence of surface oxide films at the bonding interface significantly degraded the performance of SiC particle reinforced bond. Removal of this oxide film by at least 4s of ultrasonic vibration significantly increased the bond strength, reaching a value equal to that of the substrate metal.
Ultrasonic assisted fabrication of particle reinforced bonds joining aluminum metal matrix composites
Yan, Jiuchun (Autor:in) / Xu, Zhiwu (Autor:in) / Shi, Lei (Autor:in) / Ma, Xing (Autor:in) / Yang, Shiqin (Autor:in)
21.06.2010
5 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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