High-Performance Transparent Laminates Based on Highly Oriented Polyethylene Films. Lin, Y., Cao, J., Zhu, M., Bilotti, E., Zhang, H., Bastiaansen, C. W. M., & Peijs, T. ACS APPLIED POLYMER MATERIALS, 2(6):2458–2468, June, 2020. Nanoforce Technol Ltd
doi  abstract   bibtex   
Advanced composite materials reinforced with high-performance fibers like carbon, glass, aramid, or ultra-high-molecular-weight polyethylene are widely used as lightweight materials in the fields of automotive, aerospace, sports, and protection. However, nearly always these composites are opaque and/or absorb light, which greatly limits their application in areas where high optical transparency is desired such as impact-resistant windows and visors. In this work, composite laminates that combine high optical clarity with high mechanical properties are reported for the first time using highly oriented high-density polyethylene (HDPE) films as the reinforcing phase. A high optical transparency with a far-field light transmittance of around 85% was achieved for four-layer HDPE-reinforced laminates sandwiched between glass or polycarbonate (PC) sheets with either unidirectional (UD) or bidirectional (BD) orientations. In combination with outer layers of glass or PC, the fabricated transparent composite laminates show high tensile strength and also high penetration energy absorption, outperforming existing transparent materials like glass, laminated glass, or PC. These transparent composites combine both high mechanical performance and high optical clarity, providing great potential for future applications in structural glazing, automotive glazing, safety shields, visors, and displays for portable electronics.
@article{lin_high-performance_2020,
	title = {High-{Performance} {Transparent} {Laminates} {Based} on {Highly} {Oriented} {Polyethylene} {Films}},
	volume = {2},
	issn = {2637-6105},
	doi = {10.1021/acsapm.0c00404},
	abstract = {Advanced composite materials reinforced with high-performance fibers like carbon, glass, aramid, or ultra-high-molecular-weight polyethylene are widely used as lightweight materials in the fields of automotive, aerospace, sports, and protection. However, nearly always these composites are opaque and/or absorb light, which greatly limits their application in areas where high optical transparency is desired such as impact-resistant windows and visors. In this work, composite laminates that combine high optical clarity with high mechanical properties are reported for the first time using highly oriented high-density polyethylene (HDPE) films as the reinforcing phase. A high optical transparency with a far-field light transmittance of around 85\% was achieved for four-layer HDPE-reinforced laminates sandwiched between glass or polycarbonate (PC) sheets with either unidirectional (UD) or bidirectional (BD) orientations. In combination with outer layers of glass or PC, the fabricated transparent composite laminates show high tensile strength and also high penetration energy absorption, outperforming existing transparent materials like glass, laminated glass, or PC. These transparent composites combine both high mechanical performance and high optical clarity, providing great potential for future applications in structural glazing, automotive glazing, safety shields, visors, and displays for portable electronics.},
	number = {6},
	urldate = {2020-07-06},
	journal = {ACS APPLIED POLYMER MATERIALS},
	author = {Lin, Yunyin and Cao, Jun and Zhu, Meifang and Bilotti, Emiliano and Zhang, Han and Bastiaansen, Cees W. M. and Peijs, Ton},
	month = jun,
	year = {2020},
	note = {Nanoforce Technol Ltd},
	pages = {2458--2468},
}
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