Abstract
Heat-insulation and oil-water separation are critical issues in the area of energy conservation and environmental protection. Developing high-expansion open-cell polymer foams with excellent heat insulation and oil-absorption properties is an essential way to solve the above problems. An innovative method for fabricating lightweight PVDF open-cell foam via blending with PMMA followed by a supercritical carbon dioxide molten foaming process was proposed, and ultralight and hydrophobic polymer open-cell foams with outstanding heat insulation and oil-absorption properties were successfully prepared. PMMA not only delays cooling crystallization behavior of PVDF but also improves the melt viscoelasticity. As a result, the open-cell polymer foam with an expansion ratio of up to 43.2, open porosity of 98.6 %, and a density of 0.0361 g/cm3 can be obtained. Benefiting from high expansion ratio and high open porosity, the blend foam displays a thermal conductivity of 31.07 mW∙m−1∙K−1, an adsorption capacity for various oils as high as 8.1–23.1 g/g, and favorable cycle durability. This work provides a green and sustainable method for mass production of better-behaved foam materials for heat insulation and oil-water separation.
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