Interfaces in metal matrix composites (MMCs) are crucial in determining the mechanical
properties and functionality of MMCs. This article reviews recent scientific advances and …

Enhancing the electrical conductivity of metals remains a critical challenge, as it directly
determines the transmission efficiency of power electronic systems. Graphene-reinforced …

Interfacial thermal resistance plays a critical role in heat dissipation, when the mean free
paths of heat energy carriers approach or exceed the characteristic lengths of devices. Deep …

Based on practical application requirements, the Cu alloy matrix with precipitates,
particularly obstructing dislocation gliding, offers a promising pathway to substantially …

Efficient multi-path heat dissipation is urged to be designed for balancing the heat density
generated in highly integrated electronic devices. Herein, aluminum foam/carbon …

Thermal interface materials are crucial for addressing the hot issues of a rapid increase in
thermal density in narrow and limited service spaces. Flexible and designable epoxy resin …

In this work, a hollow brick wall structure was introduced into the preparation of AlCoCrFeNi
2.1 EHEA to realize a skeleton structure by taking advantage of the good castability of …

The tight interface between graphene and Cu is the key to give full play to the
comprehensive properties of Cu/C composites. In this study, reduced graphene oxide (RGO) …

Graphene/Cu composites have shown great potential in the fields of mechanical
engineering, electronic devices and so on. In this study, the impacts of vacancies on the …

As important energy materials, uranium and its alloys have been widely used in the fields of
material sciences and nuclear industrial applications. Applying metal and/or ceramic surface …