The use of additive manufacturing, or 3D printing, has progressed beyond prototy** to
produce intricate and valuable finished goods. The potential of additive manufacturing has …

Abstract Three-dimensional (3D) printing technology has received great attention in the past
decades in both academia and industry because of its advantages such as customized …

Abstract 3D printing technology is an emerging technology. It constructs solid bodies by
stacking materials layer by layer, and can quickly and accurately prepare bone tissue …

Recent developments in three-dimensional (3D) printing technology offer immense potential
in fabricating scaffolds and implants for various biomedical applications, especially for bone …

Additive manufacturing (AM) processes have undergone significant progress in recent
years, having been implemented in sectors as diverse as automotive, aerospace, electrical …

Three-dimensional printing technology has fundamentally revolutionized the product
development processes in several industries. Three-dimensional printing enables the …

This study proposed the development of Ti–6Al–4V lattice structures suitable for the growth
of bone cells using laser powder bed fusion (PBF) and heat treatment of vacuum furnace …

Abstract Background Three Dimensional (3D) printed models can aid in effective pre-
operative planning by defining the geometry of tumor mass, bone loss, and nearby vessels …

Background Conventional surgical treatment for metacarpal giant cell tumours (GCTs)
includes lesion scra** followed by bone grafting or bone cement filling and en bloc …

Successful treatment of the chronic persistent elbow instability is a challenge for orthopedic
surgeons. In this form, it is important to recognize and restore the osseous stabilizer in order …