Reducing Risk in 3D Printed Composite Tooling

Proceedings of the Vertical Flight Society 76th Annual Forum Pub Date : 2020-10-05 DOI:10.4050/f-0076-2020-16280

Eric Dunn

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Abstract

For high end composite manufacturing in a rapid development environment, the long lead item is often the hard tooling, in particular the cure mold. A traditional metal mold takes in the neighborhood of four to nine months to design, fabricate and validate. With high temperature capable print materials, and larger and faster printers, Additive Manufacturing (AM) appears to have high potential in this area of advanced composites manufacturing. Sikorsky has used AM very successfully on a scale up to approximately 3'x3' and cure temperatures of 350°F. Though long-term durability is still to be determined; the materials, technologies, and techniques Sikorsky has employed for AM autoclave cure molds on this scale have consistently exceeded expectations. AM tools along the scale of main rotor blades could be leveraged to realize even more significant cost and schedule gains from AM autoclave tooling, and in this area, there are still more questions than answers when it comes to a dependable tooling solution. Rotorcraft development, in particular Future Vertical Lift (FVL), programs offer an opportunity to realize the significant schedule and cost benefits AM can provide for composite tooling.

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降低3D打印复合材料工具的风险

对于快速发展环境中的高端复合材料制造，长期领先的项目往往是硬模具，特别是固化模具。传统的金属模具需要四到九个月的时间来设计、制造和验证。随着高温打印材料和更大更快的打印机的出现，增材制造(AM)在先进复合材料制造领域似乎具有很大的潜力。西科斯基非常成功地使用了增材制造，其规模达到约3'x3'，固化温度为350°F。虽然长期耐用性仍有待确定;西科斯基在这种规模的增材制造高压灭菌器固化模具中采用的材料、技术和技术一直超出预期。沿着主转子叶片规模的增材制造工具可以利用增材制造高压灭菌器工具实现更显着的成本和进度收益，并且在这一领域，当涉及到可靠的工具解决方案时，问题仍然多于答案。旋翼飞机的发展，特别是未来垂直升力(FVL)项目，为实现增材制造为复合材料工具提供的重大进度和成本效益提供了机会。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Vertical Flight Society 76th Annual Forum

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