Chemistry:Aluminum polymer composite

An aluminum polymer composite (APC) material combines aluminum with a polymer to create materials with interesting characteristics. In 2014 researchers used a 3d laser printer to produce a polymer matrix. When coated with a 50–100 nanometer layer of aluminum oxide, the material was able to withstand loads of as much as 280 megapascals, stronger than any other known material whose density was less than 1,000 kilograms per cubic metre (1,700 lb/cu yd), that of water.^[1]^[2]

Aluminum foam

Spherical aluminum foam pieces bonded by polymers produced foams that were 80–95% metal. Such foams were test-manufactured on an automated assembly line and are under consideration as automobile parts.^[3]

Thermal conductivity

Experimentally determined thermal conductivity of specific APCs matched both the Agari and Bruggeman models provide a good estimation for thermal conductivity. The experimental values of both thermal conductivity and diffusivity have shown a better heat transport for the composite filled with large particles.^[4]

References

↑ Rathi, Akshat (2014-02-03). "New laser-printed material is lighter than water, as strong as steel". Ars Technica. https://arstechnica.com/science/2014/02/new-laser-printed-material-is-lighter-than-water-as-strong-as-steel/.
↑ Bauer, J.; Hengsbach, S.; Tesari, I.; Schwaiger, R.; Kraft, O. (2014). "High-strength cellular ceramic composites with 3D microarchitecture". Proceedings of the National Academy of Sciences 111 (7): 2453–2458. doi:10.1073/pnas.1315147111. PMID 24550268. Bibcode: 2014PNAS..111.2453B.
↑ Stöbener, K.; Rausch, G. (March 2009). "Aluminium foam–polymer composites: processing and characteristics". Journal of Materials Science 44: 1506–1511. doi:10.1007/s10853-008-2786-8.
↑ Boudenne, A.; Ibos, L.; Fois, M.; Gehin, E.; Majeste, J. C. (2004). "Thermophysical properties of polypropylene/aluminum composites". Journal of Polymer Science Part B: Polymer Physics 42 (4): 722–732. doi:10.1002/polb.10713. Bibcode: 2004JPoSB..42..722B.

External links

Clark, Joel P. (October 1998). "Future of Automotive Body Materials: Steel, Aluminum & Polymer Composites". http://msl1.mit.edu/hoog3.pdf.

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[1] Rathi, Akshat (2014-02-03). "New laser-printed material is lighter than water, as strong as steel". Ars Technica. https://arstechnica.com/science/2014/02/new-laser-printed-material-is-lighter-than-water-as-strong-as-steel/.

[2] Bauer, J.; Hengsbach, S.; Tesari, I.; Schwaiger, R.; Kraft, O. (2014). "High-strength cellular ceramic composites with 3D microarchitecture". Proceedings of the National Academy of Sciences 111 (7): 2453–2458. doi:10.1073/pnas.1315147111. PMID 24550268. Bibcode: 2014PNAS..111.2453B.

[3] Stöbener, K.; Rausch, G. (March 2009). "Aluminium foam–polymer composites: processing and characteristics". Journal of Materials Science 44: 1506–1511. doi:10.1007/s10853-008-2786-8.

[4] Boudenne, A.; Ibos, L.; Fois, M.; Gehin, E.; Majeste, J. C. (2004). "Thermophysical properties of polypropylene/aluminum composites". Journal of Polymer Science Part B: Polymer Physics 42 (4): 722–732. doi:10.1002/polb.10713. Bibcode: 2004JPoSB..42..722B.

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