食品接触材料:使用SLS分析尼龙12 3D打印部件在汽化表面处理后的吸水率

Elizabeth Cristine Adam Trindade, Camille Ruest, J. Deschênes, J. Brousseau
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摘要

选择性激光烧结(SLS)是工业环境下3D打印的典型方法。它通常用于打印不同的材料,如金属、陶瓷和塑料。尼龙12是SLS技术加工的最常见的塑料和材料。本文探讨了尼龙12在增材制造(AM)产品中的吸水性和润湿性。研究获得惰性、非吸收性和非腐蚀性表面,以及全球范围内更有效的材料来减少微生物的增殖,已成为开发新型食品接触材料的必要条件。表面处理旨在改善材料的孔隙率和总体粗糙度,并有望改善其疏水性。以接触角为主要测量数据,研究了尼龙12与水的润湿状态。因此,吸收水分的测量(ASTM 570)被用作材料质量的指标,以防止细菌生长和材料机械性能的退化。因此,对SLS印制板进行了表面处理和不表面处理的吸水试验。经表面处理的钢板质量增加了0.35±0.04%,未经表面处理的钢板质量增加了0.76±0.08%。
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Food Contact Materials: An Analysis of Water Absorption in Nylon 12 3D Printed Parts Using SLS After VaporFuse Surface Treatment
Selective laser sintering (SLS) is a typical method of 3D printing in an industrial environment. It is often used to print different materials, such as metals, ceramics, and plastics. Nylon 12 is the most common plastic and material processed by SLS technology. In the present paper, the water absorption and wettability of Nylon 12 in additive manufacturing (AM) products are explored. The research for obtaining inert, non-absorbent and non-corrosive surfaces, and globally more effective materials to reduce the proliferation of microorganisms is becoming a necessity for the development of novel food contact materials. Surface treatments aim at improving the porosity and general roughness of the material and are expected to improve its hydrophobicity. The wetting state between Nylon 12 and water was studied by measuring the contact angles as primary data. The measurement of absorbed water (ASTM 570) is thus used as an indicator of material quality to prevent bacterial growth and degradation of the material mechanical properties. Therefore, water absorption tests were performed with SLS printed plates with and without surface treatment. Plates with surface treatment showed a mass increase of 0.35 ± 0.04% while those without surface treatment showed a mass increase of 0.76 ± 0.08%.
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