Electromagnetic interference (EMI) shielding is critical in electronic applications. However,
the currently available EMI shielding materials are restricted in customizability and …

With the development of the aerospace and automotive industries, high heat exchange
efficiency is a challenge facing the development of various industries. Pure copper has …

In this article, the laser-based powder bed fusion (L-PBF) processing behavior of pure
copper powder is evaluated by employing a conventional infrared fiber laser with a …

Phase change materials (PCMs) can enhance the performance of energy systems by time
shifting or reducing peak thermal loads. The effectiveness of a PCM is defined by its energy …

The high electrical and thermal conductivities make copper the most suitable material for
producing components where a high heat transfer capability is required. The material …

Laser powder bed fusion (L-PBF) additive manufacturing was utilized to fabricate high-
strength copper (Cu) alloys through inoculation of pure Cu powder with cobalt (Co) …

Fabrication of fully dense and highly conductive copper alloy parts via laser-based additive
manufacturing (L-AM) is challenging due to the high optical reflectivity of copper at λ= 1060 …

In the last years, functionalized powders are becoming of increasing interest in additive
manufacturing (particularly in laser powder bed fusion processing, L-PBF), due to their …

With excellent thermal and electrical conductivity, pure copper has been widely used in
many industries. The development of additive manufacturing (AM) enables the prototyping of …

A dozen or so alloys have been occupying the alloy landscape in metal additive
manufacturing (MAM) in terms of addressing all aspects of research, aiding the maturity of …