科技报告详细信息
3D Printed Structural Core with MMOD Protection
Hagen, Richard
关键词: ADDITIVE MANUFACTURING;    HABITATS;    COMPOSITE STRUCTURES;    LARGE SPACE STRUCTURES;    SPACE ERECTABLE STRUCTURES;    RIGID STRUCTURES;    SANDWICH STRUCTURES;    METEOROID PROTECTION;    MANNED SPACECRAFT;    SPACE EXPLORATION;    DEEP SPACE;    WEIGHT (MASS);   
RP-ID  :  JSC-E-DAA-TN61198
学科分类:力学,机械学
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

Deep space exploration requires large habitats for both orbital and surface missions. The weight of a habitat is driven largely by its structure and future vehicles require lighter weight structures to minimize launch mass and cost. Unlike honeycomb core materials used in the past, a 3D printed core can be analyzed and optimized for specific load environments, further cutting down mass of the vehicle. Multi-functional structures can integrate features into the primary structure that are traditionally added mass. MMOD (Micro Meteor and Orbital Debris) protection, for example, can be integrated directly into the primary structure of a habitat. This minimizes the mass of the structure and eliminates the need for additional MMOD layers and attachment hardware. This project seeks to develop 3D printed structural core that can be optimized for flights loads and provide integrated MMOD protection.

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