Indian Journal of Engineering & Materials Sciences

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Additive manufacturing: The significant role in biomedical and aerospace applications


Affiliations
1 National Institute of Technology, Delhi 110 040, India
2 CSIR–National Physical Laboratory, Delhi 110 012, India

Additive Manufacturing (AM) is an innovative approach to manufacturing, which has proved itself way too efficient and opening a new era for complex designs and lattice structures. AM is a bottom-up manufacturing process that builds parts by stacking one layer over another. It is often called 3D printing which directly prints the object via material addition instead of subtraction in conventional manufacturing methods. It has shown a tangible approach to mass customization and unhindered options to create a complex design part. It has proved itself in many industries like the biomedical industry, aerospace industry, manufacturing firms, and academic research purposes. This article has reviewed the advancement of AM in the aerospace and biomedical industry. 3D printing technology has been incorporated in the biomedical industry to produce customized design features and implants for specific applications and performance. Implants effect like corrosion and carcinogenic properties have been discussed in the human body. This paper also discussed the design flexibility of AM with the topological study of a specific part to reduce the weight for system efficiency in the aerospace industry.
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  • Additive manufacturing: The significant role in biomedical and aerospace applications

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Authors

Meena Pant
National Institute of Technology, Delhi 110 040, India
Pritam Pidge
National Institute of Technology, Delhi 110 040, India
Harish Kumar
National Institute of Technology, Delhi 110 040, India
Leeladhar Nagdeve
National Institute of Technology, Delhi 110 040, India
Girija Moona
CSIR–National Physical Laboratory, Delhi 110 012, India

Abstract


Additive Manufacturing (AM) is an innovative approach to manufacturing, which has proved itself way too efficient and opening a new era for complex designs and lattice structures. AM is a bottom-up manufacturing process that builds parts by stacking one layer over another. It is often called 3D printing which directly prints the object via material addition instead of subtraction in conventional manufacturing methods. It has shown a tangible approach to mass customization and unhindered options to create a complex design part. It has proved itself in many industries like the biomedical industry, aerospace industry, manufacturing firms, and academic research purposes. This article has reviewed the advancement of AM in the aerospace and biomedical industry. 3D printing technology has been incorporated in the biomedical industry to produce customized design features and implants for specific applications and performance. Implants effect like corrosion and carcinogenic properties have been discussed in the human body. This paper also discussed the design flexibility of AM with the topological study of a specific part to reduce the weight for system efficiency in the aerospace industry.