English(EN) 3D-printed nozzles could revolutionize drug and self-healing material manufacturing — MIT-developed triaxial electrospray design makes cleanroom fabrication optional

MIT 3D打印先进喷嘴用于药物和材料制造

作者 PulseAugur 编辑部 · [1 个来源] · 2026-06-10 09:30

麻省理工学院（MIT）的研究人员开发了一种新颖的3D打印轴向电喷雾喷嘴阵列，能够同时将多种液体喷射成三层液滴。这项创新显著降低了制造成本和复杂性，无需通常用于此类精密设备的洁净室。新设计通过实现更高效、一致和可定制的液滴制造，有望彻底改变分层药物、自修复材料和其他先进应用的生产。 AI

影响能够经济高效地精确制造复杂的分层材料和药物，有可能加速医学和材料科学的创新。

排序理由该集群描述了麻省理工学院一项涉及3D打印用于先进制造应用的新研究进展。[lever_c_demoted from research: ic=1 ai=0.4]

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Tom's Hardware TIER_1 English(EN) · Bruno Ferreira · 2026-06-10 09:30

3D-printed nozzles could revolutionize drug and self-healing material manufacturing — MIT-developed triaxial electrospray design makes cleanroom fabrication optional

MIT's 3D-printed triaxial electrospray nozzles could revolutionize drug and self-healing material manufacturing. By using a relatively inexpensive resin printing approach, the new nozzle fabrication technique removes the need for a semiconductor-class cleanroom facility.

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3D-printed nozzles could revolutionize drug and self-healing material manufacturing — MIT-developed triaxial electrospray design makes cleanroom fabrication optional

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