Discussions regarding additive manufacturing (AM) metal parts in aerospace tend to focus around the 3D-printing machine as an ...

Additive manufacturing has long been heralded for its flexibility as a production method. More recently, additive’s ability to safeguard against global supply chain challenges has helped accelerate ...

Improvement of mechanical reinforcement of 3D printed parts is one of the current challenges in additive manufacturing to transition from prototypes to functional parts that meet similar requirements ...

Additive manufacturing (AM) is a promising technology that many AM practitioners believe is on the precipice of a breakthrough. This breakthrough would be realized when AM is incorporated into supply ...

Charles Goulding and Lia Palumbo explore how 3D printing, scanning, and digital design are advancing equestrian equipment and ...

Additive manufacturing (AM), commonly known as 3D printing, has transformed biomedical engineering by enabling the fabrication of complex, patient-specific devices and scaffolds with unprecedented ...

Innovation in process manufacturing technologies hasn’t been hampered by creativity or design: The engineering minds that dreamed up wireless monitoring and rich analytics software are always churning ...

Additive manufacturing has a distinct materials advantage when it comes to producing a component or part from either a polymer or metal printer versus traditional subtractive manufacturing techniques.

The manufacturing industry has established practices for product development, production and supply chain management. Organizations that develop new products carefully follow these well-known ...

In conventional processing, metals go through multiple manufacturing steps including casting, plastic deformation, and heat treatment to achieve the desired property. In additive manufacturing (AM) ...