中新网西安4月8日电 (记者 张一辰)中国航天科技集团六院(航天科技六院)今日宣布,探月工程重要组成部分——鹊桥通导技术试验卫星“天都二号”卫星的推进分系统运行稳定,成功实现了在轨的高精度轨道姿态控制。这一成就标志着中国在3D打印技术应用于深空探测领域的重大突破。
据悉,“天都二号”卫星所搭载的液氨冷气微推进系统,其关键部件——贮箱,采用了先进的3D打印技术制造。这一创新工艺的应用,不仅提升了贮箱的结构性能,还显著减少了制造时间和成本,为我国后续的深空探测任务提供了更高效、更经济的解决方案。
航天科技六院的专家表示,液氨冷气微推进系统在深空探测中的成功应用,是中国航天技术的一次重要里程碑。该系统能实现微小推力的精准控制,对于卫星在月球轨道上的精细调整和长期稳定运行至关重要。
此次“天都二号”卫星的在轨表现,验证了3D打印贮箱在复杂太空环境下的可靠性和耐用性,为未来更远距离的深空探测任务,如火星探测、小行星探测等,提供了有力的技术支撑。这不仅是中国航天工业的自主创新成果,也是对全球航天技术的一次重要贡献。
此次突破进一步巩固了中国在航天领域的国际地位,展示了中国在3D打印技术和深空探测技术上的强大研发能力。中国航天科技六院将继续致力于技术创新,推动中国航天事业向更深远的宇宙进发。
英语如下:
**News Title:** “Chinese 3D Printing Milestone: Liquid Ammonia Cold Gas Micropropulsion System Powers TianDou-2 Satellite’s Lunar Orbit”
**Keywords:** 3D printing, in-orbit tank, deep space exploration
**News Content:**
_Xi’an, April 8 (Xinhua) —_ The China Aerospace Science and Technology Corporation Sixth Academy (CASC Sixth Academy) announced today that the propulsion subsystem of the TianDou-2 satellite, a key component of the Chang’e lunar exploration program, is operating stably and has successfully achieved high-precision orbit attitude control in space. This milestone signifies a significant breakthrough in China’s application of 3D printing technology for deep space exploration.
It is reported that the liquid ammonia cold gas micropropulsion system aboard the TianDou-2 satellite features a crucial component — the tank — which was manufactured using cutting-edge 3D printing technology. This innovative approach has not only enhanced the structural performance of the tank but also significantly reduced manufacturing time and costs, paving the way for more efficient and cost-effective solutions for China’s future deep space missions.
Experts from CASC Sixth Academy noted that the successful application of the liquid ammonia cold gas micropropulsion system in deep space exploration marks an important milestone for Chinese space technology. The system enables precise control of minute thrusts, crucial for fine-tuning the satellite’s orbit around the Moon and ensuring its long-term stable operation.
The in-orbit performance of the TianDou-2 satellite has validated the reliability and durability of the 3D-printed tank under the harsh conditions of space, providing strong technological support for future deep space missions, such as Mars exploration and asteroid detection. This achievement not only represents an indigenous innovation of China’s aerospace industry but also constitutes a significant contribution to global space technology.
This breakthrough further solidifies China’s international standing in the space sector, demonstrating the country’s robust R&D capabilities in 3D printing technology and deep space exploration. The CASC Sixth Academy will continue to drive technological innovation, propelling China’s space endeavors deeper into the cosmos.
【来源】http://www.chinanews.com/gn/2024/04-08/10194973.shtml
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