Metal-matrix composites are either in use or prototyping for the Space Shuttle, commercial airliners, electronic substrates, bicycles, automobiles, golf clubs, and a variety of other applications.

For years, there has been a growing demand for materials that are lightweight with high mechanical strength. Metal matrix composites (MMCs) were developed in order to fulfill this demand and provide ...

Metal matrix composites and ceramic matrix composites play an ongoing role in aerospace and defense, such as military vehicle armor, spacecraft and space vehicles. Other sectors and products ...

This article was updated May 11, 2023. It was originally published June 1, 2017. Engineers often design structures and components out of metals such as steel and aluminum because of their strength and ...

Metal matrix composites (MMCs) are composite materials containing at least two constituent parts – a metal part and a material or a different metal part. The metal matrix is reinforced with the other ...

Aluminium matrix composites (AMCs) represent a pivotal advancement in materials engineering, wherein a lightweight aluminium alloy is combined with reinforcing phases to enhance mechanical properties ...

In a development that could mean big things in the automotive andmarine industries, researchers from Deep Springs Technology (DST) and the NewYork University Polytechnic School of Engineering have ...

Researchers have demonstrated a new metal matrix composite that is so light that it can float on water. A boat made of such composites will not sink despite damage to its structure. This first ...

According to Jacob Nuechterlein, co-founder and solutions developer for Elementum 3D, the aluminum alloy used in the company’s newly invented metal matrix composite (MMC) is not 3D-printable on its ...

In military vehicles, weight reduction in structural components translates to greater operational flexibility — the ability to carry more payload, drive more easily over unimproved roads and/or ...

PIM uses sinterable powders to manufacture very intricate components. Unlike traditional press-and-sinter powder metallurgy processes, PIM could potentially allow the economic mass production of dense ...