Oak Ridge实验室通过3D打印制造了防漏陶瓷部件,使先进的化学反应堆成为可能。 Oak Ridge Lab created leak-proof ceramic parts via 3D printing, enabling advanced chemical reactors.

Oak Ridge国家实验室的研究人员开发了一种突破性方法,利用3D喷射机打印和高级后处理制造泄漏紧密陶瓷组件,克服陶瓷添加剂制造中的关键挑战。 Researchers at Oak Ridge National Laboratory have developed a breakthrough method to create leak-tight ceramic components using binder jet 3D printing and advanced post-processing, overcoming key challenges in ceramic additive manufacturing. 这一创新使得能够生产非常精确和耐久的陶瓷部件,其内部结构复杂,是下一代化学反应堆的理想。 This innovation enables the production of highly precise and durable ceramic parts with complex internal structures, ideal for next-generation chemical reactors. 这项技术在能源部的支持下,可以通过定制设计来提高反应堆的性能,从而提高化学工艺的效率、可持续性和生产性。 The technology, supported by the Department of Energy, could lead to more efficient, sustainable, and productive chemical processes by enhancing reactor performance through customized designs. 研究结果在国际陶瓷中发表,在制造业示范设施中开发。 The findings were published in Ceramics International and developed at the Manufacturing Demonstration Facility.