Your search keyword '"bulk shape memory alloy"' showing total 3 results

1. Micromachined Shape-Memory-Alloy Microactuators and Their Application in Biomedical Devices

Author

Mohammad Amri Zainal, Shafishuhaza Sahlan, and Mohamed Sultan Mohamed Ali

Subjects

thin-film shape memory alloy, bulk shape memory alloy, microactuator, micropump, biomedical, Mechanical engineering and machinery, TJ1-1570

Abstract

Shape memory alloys (SMAs) are a class of smart materials characterized by shape memory effect and pseudo-elastic behavior. They have the capability to retain their original form when subjected to certain stimuli, such as heat or a magnetic field. These unique properties have attracted many researchers to seek their application in various fields including transportation, aerospace, and biomedical. The ease process adaption from semiconductor manufacturing technology provides many opportunities for designing micro-scale devices using this material. This paper gives an overview of the fabrication and manufacturing technique of thin-film and bulk micromachined SMAs. Key features such as material properties, transformation temperature, material composition, and actuation method are also presented. The application and micromechanism for both thin-film and bulk SMA are described. Finally, the microactuator devices emphasized for biomedical applications such as microgrippers and micropumps are highlighted. The presented review will provide information for researchers who are actively working on the development of SMA-based microscale biomedical devices.

Published

2015

2. Micromachined Shape-Memory-Alloy Microactuators and Their Application in Biomedical Devices.

Author

Sahlan, Shafishuhaza, Mohamed Ali, Mohamed Sultan, and Amri Zainal, Mohammad

Subjects

SHAPE memory alloys, BIOMEDICAL materials, SHAPE memory effect, MICROACTUATORS, MICROPUMPS, X-ray diffraction

Abstract

Shape memory alloys (SMAs) are a class of smart materials characterized by shape memory effect and pseudo-elastic behavior. They have the capability to retain their original form when subjected to certain stimuli, such as heat or a magnetic field. These unique properties have attracted many researchers to seek their application in various fields including transportation, aerospace, and biomedical. The ease process adaption from semiconductor manufacturing technology provides many opportunities for designing micro-scale devices using this material. This paper gives an overview of the fabrication and manufacturing technique of thin-film and bulk micromachined SMAs. Key features such as material properties, transformation temperature, material composition, and actuation method are also presented. The application and micromechanism for both thin-film and bulk SMA are described. Finally, the microactuator devices emphasized for biomedical applications such as microgrippers and micropumps are highlighted. The presented review will provide information for researchers who are actively working on the development of SMA-based microscale biomedical devices. [ABSTRACT FROM AUTHOR]

Published

2015

3. Micromachined Shape-Memory-Alloy Microactuators and Their Application in Biomedical Devices

Author

Mohamed Sultan Mohamed Ali, Shafishuhaza Sahlan, and Mohammad Amri Zainal

Subjects

Materials science, business.industry, Semiconductor device fabrication, bulk shape memory alloy, Mechanical Engineering, lcsh:Mechanical engineering and machinery, Mechanical engineering, Micropump, Shape-memory alloy, SMA, Smart material, biomedical, thin-film shape memory alloy, Microactuator, Control and Systems Engineering, microactuator, Electronic engineering, micropump, lcsh:TJ1-1570, Electrical and Electronic Engineering, Aerospace, business, Microscale chemistry

Abstract

Shape memory alloys (SMAs) are a class of smart materials characterized by shape memory effect and pseudo-elastic behavior. They have the capability to retain their original form when subjected to certain stimuli, such as heat or a magnetic field. These unique properties have attracted many researchers to seek their application in various fields including transportation, aerospace, and biomedical. The ease process adaption from semiconductor manufacturing technology provides many opportunities for designing micro-scale devices using this material. This paper gives an overview of the fabrication and manufacturing technique of thin-film and bulk micromachined SMAs. Key features such as material properties, transformation temperature, material composition, and actuation method are also presented. The application and micromechanism for both thin-film and bulk SMA are described. Finally, the microactuator devices emphasized for biomedical applications such as microgrippers and micropumps are highlighted. The presented review will provide information for researchers who are actively working on the development of SMA-based microscale biomedical devices.

Published

2015