SBIR Phase II: Novel Dynamic Elastomer System For Additive Manufacturing

SBIR 第二阶段：用于增材制造的新型动态弹性体系统

• 批准号: 1853265
• 负责人: Cora Leibig
• 金额: $ 75万
• 依托单位: Chromatic 3D Materials Inc.
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2019
• 资助国家: 美国
• 起止时间: 2019-03-01 至 2021-03-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1853265&HistoricalAwards=false
• 关键词: SBIR; Phase; II; Novel; Dynamic

This SBIR Phase II project will create a material, printer, and software system for printing a novel set of flexible, durable materials for additive manufacturing technologies. Additive manufacturing, or 3D Printing, is a rapidly growing $7bn industry, which enables small and medium enterprises to competitively manufacture new and innovative products. It is a key to strengthening the US manufacturing economy. Continued growth and health of the 3D printing industry, particularly for manufacture of functional parts for finished goods, will depend upon an expansion of the available material library. 3D printing materials are limited to a small segment of the plastics in common industrial use today. This project will expand that material library with development of printable polyurethane elastomers with a broad range of flexibilities. These materials will be particularly relevant for markets that demand personalization and customization, such as patient-specific medical devices, sporting goods, and footwear. Manufacturers of flexible, durable polyurethane goods for industrial and automotive products will also benefit from low cost small-scale production of parts made from materials with performance that match their product specifications. The printing system will enable production of parts with user-specified geometry and flexibility, and will also enable multi-material printing for novel product designs. This SBIR Phase II project will produce a set of reactive polyurethane precursor formulas which can be combined to form printable, flexible polyurethanes with a broad hardness range. The Phase II project will also produce an integrated system of printer control software and printhead design for production of parts with the polyurethane precursor formulas. The materials will be printed using extrusion 3D printing techniques, and customized to handle liquid, reactive feeds. The research approach will include determination of the starting materials to control reaction rates, rheology development, and part solidification. Software development will incorporate printing parameters for the spectrum of materials that can be produced from the starting materials in order to produce a user interface where part flexibility is specified as a function of part geometry, and the printer receives commands for printing the desired object. The material will be parameterized to determine space-filling properties of the material as a function of composition, print speed, and printhead geometry. This 3D printing technology will overcome challenges in part durability and printing speeds that are common to photo-cure approaches to produce flexible parts, and will greatly extend the part durability and flexibility available to extrusion 3D printing.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

该SBIR第二阶段项目将创建一个材料，打印机和软件系统，用于打印一套用于增材制造技术的新型灵活耐用材料。增材制造或3D打印是一个快速增长的70亿美元行业，使中小企业能够有竞争力地制造新的创新产品。这是加强美国制造业经济的关键。3D打印行业的持续增长和健康，特别是用于制造成品的功能部件，将取决于可用材料库的扩展。3D打印材料仅限于当今工业常用塑料的一小部分。该项目将通过开发具有广泛灵活性的可打印聚氨酯弹性体来扩展该材料库。这些材料将特别适用于需要个性化和定制的市场，例如患者专用医疗器械，体育用品和鞋类。用于工业和汽车产品的柔性耐用聚氨酯产品制造商也将受益于低成本小规模生产的部件，这些部件由性能符合其产品规格的材料制成。该打印系统将能够生产具有用户指定几何形状和灵活性的零件，并将能够为新颖的产品设计进行多材料打印。该SBIR二期项目将生产一套反应性聚氨酯前体配方，这些配方可以组合成具有广泛硬度范围的可印刷柔性聚氨酯。第二阶段项目还将生产打印机控制软件和打印头设计的集成系统，用于生产具有聚氨酯前体配方的部件。这些材料将使用挤出3D打印技术打印，并定制以处理液体反应进料。研究方法将包括确定起始材料以控制反应速率、流变学发展和部分固化。软件开发将纳入可从起始材料生产的材料谱的打印参数，以产生用户界面，其中将部件柔性指定为部件几何形状的函数，并且打印机接收打印所需对象的命令。 材料将被参数化以确定材料的空间填充特性作为组成、打印速度和打印头几何形状的函数。 这项3D打印技术将克服光固化方法生产柔性零件时常见的零件耐用性和打印速度方面的挑战，并将大大扩展挤出3D打印的零件耐用性和灵活性。该奖项反映了NSF的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估，被认为值得支持。