Materion Corporation Datasheets for Metal Matrix Composites
Metal matrix composites (MMC) consist of a metal and one or more other materials, typically a ceramic or organic compound. They provide superior specific strengths and good strength-to-weight ratios, resist fire and moisture, and are can be used over a wide range of temperatures. MMCs also provide resistance to radiation and excellent electrical and thermal conductivity.
Metal Matrix Composites: Learn more
| Product Name | Notes |
|---|---|
| A non-beryllium metal matrix composite, SupremEX™ B-135H consists of boron carbide at 35% volume fraction in a 1050 aluminum matrix, and has a closely matched coefficient of thermal expansion to... | |
| AM 162 H minimizes stress from vibration on leads, solder joints & substrates, increases fatigue life of electronic packages, reduced section thickness and adjusts for platform requirements. Plus, EB Weldable,... | |
| AM 162 Rolled Sheet minimizes stress from vibration on leads, solder joints & substrates, increases fatigue life of electronic packages, reduced section thickness, adjusts for platform requirements. AM 162 Rolled... | |
| Electronic Materials by Materion Brush Beryllium & Composites are a metal matrix composite of beryllium and beryllium oxide. E-Materials are prepared by impact grinding to powder. They are then canned,... | |
| Electronic Materials E-40 materials are used as laminated, multi-chip modules in satellites, as heat sinks and in avionics of F-22, F-16, and F-18 tactical fighters. Along with thermal cycle reliability... | |
| Electronic-Materials by Materion Brush Beryllium & Composites are a metal matrix composite of beryllium and beryllium oxide. E-Materials are prepared by impact grinding to powder. They are then canned, degassed,... | |
| Materion Brush Beryllium & Composites’ SupremEX™ S-640F is a non-beryllium metal matrix composite that consists of silicon carbide at 60% volume fraction in a 6061 aluminum matrix, and has a... | |
| SupremEX™ S-225F is a non-beryllium metal matrix composite that consists of silicon carbide at 25% volume fraction in a 2124 aluminum matrix, and has a closely matched coefficient of thermal... | |
| These shapes are derived by consolidating the aluminum-beryllium powder formed during hot isostatic pressing (HIP) and cold isostatic pressing (CIP), followed by extrusion. AM 162 Extrusions nominally contains 62% weight... |