One of the main advantages of Additive Manufacturing (AM) is the ability to produce
topologically optimized parts with high geometric complexity. In this context, a plethora of …

Additive manufacturing technology provides a revolutional way of producing engineering
structures regardless of their geometric complexity. Hence, topology optimization technique …

Topology optimisation enables profound insight into the optimal material distribution for a
given structural objective, applied loading and boundary conditions. The topologically …

Topology optimization is increasingly used in lightweight designs for additive manufacturing
(AM). However, conventional optimization techniques do not fully consider manufacturing …

Manufacturing-oriented topology optimization has been extensively studied the past two
decades, in particular for the conventional manufacturing methods, for example, machining …

Topology optimization was developed as an advanced structural design methodology to
generate innovative lightweight and high-performance configurations that are difficult to …

Recent advances in additive manufacturing facilitated the fabrication of parts with great
geometrical complexity and relatively small size, and allowed for the fabrication of …

Current developments in additive manufacturing (AM) technologies enable the fabrication of
complex geometries with a variety of materials. Utilizing AM techniques, lattice structures are …

Finding ideal materials remains a crucial challenge in the aerospace, automotive,
construction, and biomedical industries. Moreover, a growing concern about environmental …

Additive manufacturing (AM) processes have proven to be a perfect match for topology
optimization (TO), as they are able to realize sophisticated geometries in a unique layer-by …