3d打印立方体卫星(CubeSats):菲律宾的观点

M. D. de Leon, Ulysses B. Ante, Madelene S. Velasco, Arvin Oliver S. Ng, Joseph Alfred V. Garcia, Fred P. Liza, R. Advíncula, J. Dizon
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引用次数: 2

摘要

近年来,空间探索任务的增加让位于体积效率高、成本效益好的立方体卫星(CubeSat)等纳米卫星的发展,这种卫星可以在相对较短的时间内开发和制造。凭借其尺寸和设计,立方体卫星的外壳等部件可以通过3D打印生产和组装,从而生产出廉价的卫星。不可否认,这一领域的研究对于最大限度地实现立方体卫星的快速发展至关重要。虽然取得了进展,但在将3D打印技术应用于立方体卫星的开发方面仍然存在挑战。本文讨论了三维打印技术在立方体卫星应用中的发展现状。首先,解决了关于立方体卫星通用材料和潜在的立方体卫星3D打印材料的重要问题。其次,从广泛的参考文献中探索了3D打印立方体卫星部件通过结合材料和参数设计的可行结构设计模型。此外,还展示了DOST AMCen和STAMINA4Space的立方体卫星部件的3D打印。最后,对菲律宾空间计划3D打印立方体卫星的未来方向进行了展望。关键词:立方体卫星,立方体卫星,3D打印,高性能聚合物
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3D-Printing for Cube Satellites (CubeSats): Philippines‘ Perspectives
The increase in space exploration missions in recent years gave way to the development of a volume-efficient and cost-effective nanosatellite like the cube satellite (CubeSat) which can be developed and fabricated in a relatively short time. With its size and design, CubeSat parts like casings can be produced and assembled through 3D printing to produce inexpensive satellites. Research in this area is undeniably important to maximize the rapid development of CubeSats. While progress has been made, challenges remain in applying 3D printing technology in the development of CubeSats. In this paper, the current status regarding the advancement of 3D printing for CubeSat applications is discussed. First, important issues about the common materials for CubeSat and potentially 3D printing materials for CubeSats are addressed. Second, 3D printing CubeSat parts through the feasible structure design models by combining material and parameter designs are explored from a wide range of references. And also, 3D printing of cube satellite parts by DOST AMCen and STAMINA4Space has also been demonstrated. Lastly, an outlook on the future direction of the 3D printed CubeSat for the Philippines space program is provided.Keywords: Cube satellite, CubeSat, 3D printing, high-performance polymers
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