The developed design rules enable the evaluation of a part aimed to be produced by additive manufacturing within the remanufacturing process and give advice on how to optimize the design of the part. This paper aims to derive general design rules for a “Design for Additive Remanufacturing” that...
Additive Manufacturing (AM) provides almost infinite design flexibility enabling the fabrication of intricate components. This study proposes a Design for AM (DfAM) method for hot stamping dies which exploits the benefit of lattice structures' reduced thermal conductivity. The term effective cooling area...
To transition additive manufacturing to an industrial production process, it must have digital integration between design, production and automation, and include control and monitoring of machine performance. To accomplish this transition, our solutions include NX,Simcenter(a robust suite of simulation soft...
Design for Additive Manufacturing (DFAM)Design for Manufacturability (DFM)Integrated product-process design (IPPD)Manufacturing resource selection... UKU Zaman,A Siadat,M Rivette,... - 《International Journal of Advanced Manufacturing Technology》 被引量: 6发表: 2016年 Design for Additive Manufacturing...
Design for Additive Manufacturing is a complete guide to design tools for the manufacturing requirements of AM and how they can enable the optimization of process and product parameters for the reduction of manufacturing costs and effort. This timely synopsis of state-of-the-art design tools for ...
Design for manufacturing is typically abbreviated DFM, whereas design for manufacture and assembly is typically abbreviated as DFMA. To avoid confusion with the abbreviation for design for additive manufacturing (DFAM), we have utilized the shorter abbreviation DFM to encompass both design for manufacture...
Given the possibilities offered by AM and their implications for the design process, design for AM (DfAM) has emerged as an important research topic during the last few years. In AM, complexity is free or at least very inexpensive as compared to conventional manufacturing techniques. There are ...
To learn more about DFAM from SolidProfessor, Forecast 3D, SOLIDWORKS, and HPregisterfor their webinar: Demystifying Additive Manufacturing. About SolidProfessor–SolidProfessorprovides next generation learning for teams, schools, and individuals to keep up with rapidly evolving engineering tools and techno...
Review Design for Additive Manufacturing: Recent Innovations and Future Directions Paul F. Egan Department of Mechanical Engineering, Texas Tech University, Lubbock, TX 79409, USA; paul.egan@ttu.edu Abstract: Design for additive manufacturing (DfAM) provides a necessary framework for using novel ...
运用增材制造(AM,又称3D打印)实现自由的产品和零件创新。 基于增材制造的设计(DfAM)能创造出有着精巧几何造型的复杂零件,而常规制造方法通常无法实现。 DfAM的一个核心要素是零件或产品几何形状及其应用和功能之间的相关性。 对其进行规划对设计过程而言至关重要。 工程师可以使用生产性设计工具(如拓扑优化、有限元分...