新加坡国立大学的研究人员开发了张力驱动的 CHARM3D 技术，用于 3D 打印自修复电子电路。 Researchers at NUS developed tension-driven CHARM3D technique for 3D printing self-healing electronic circuits.

新加坡国立大学 (NUS) 的研究人员开发了一种名为“张力驱动 CHARM3D”的新技术，利用菲尔德金属创建 3D、自愈电子电路。 Researchers at the National University of Singapore (NUS) developed a new technique called "tension-driven CHARM3D" to create 3D, self-healing electronic circuits using Field's metal. 该技术消除了3D打印过程中对支撑材料和外部压力的需求，从而实现了更快的速度和更高的分辨率。 This technique eliminates the need for support materials and external pressure during 3D printing, allowing for faster speeds and higher resolutions. CHARM3D 支持创建可穿戴传感器、无线通信系统和电磁超材料等紧凑型设备，从而改善医疗保健、通信和安全技术。 CHARM3D enables the creation of compact devices such as wearable sensors, wireless communication systems, and electromagnetic metamaterials, improving healthcare, communication, and security technologies.