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Optimization Design Strategy for Additive Manufacturing Process to Develop 3D Magnetic Nanocomposite Scaffolds

机译：用于开发3D磁纳米复合支架的增优制造工艺优化设计策略

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In the current research, an optimization design strategy for additive manufacturing processes based on extrusion/injection methods was extended to the fabrication of poly(ε-caprolactone) (PCL)/iron oxide (Fe_3O_4) scaffolds for tissue engineering. The attention was focused on four parameters: process temperature (PT), deposition velocity (DV), screw rotation velocity (SRV), slice thickness (ST). Specifically, PCL/Fe_3O_4 scaffolds were manufactured varying iteratively one parameter, while maintaining constant the other three parameters. A further insight into the influence of process parameters on the morphological features and mechanical properties of PCL/Fe_3O_4 scaffolds was provided.

机译：在目前的研究中，基于挤出/注射方法的添加剂制造方法的优化设计策略延伸到用于组织工程的聚（ε-己内酯）（PCL）/氧化铁（Fe_3O_4）支架的制造。注意力集中在四个参数上：工艺温度（PT），沉积速度（DV），螺杆旋转速度（SRV），切片厚度（ST）。具体地，PCL / Fe_3O_4支架被制造改变一个参数，同时保持恒定的其他三个参数。提供了进一步了解过程参数对PCL / Fe_3O_4支架的形态特征和力学性能的影响。

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《International Conference on Design Tools and Methods in Industrial Engineering 》|2020年|986p|共11页
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作者
Antonio Gloria; Marco Domingos; Saverio Maietta; Massimo Martorelli; Antonio Lanzotti;
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中图分类 TH16-53;
关键词
Design for additive manufacturing; Magnetic nanocomposite scaffolds; Mechanical and morphological properties; Tissue engineering;

机译：添加剂制造设计;磁性纳米复合支架;机械和形态学性质;组织工程;

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专利

1. 3D additive-manufactured nanocomposite magnetic scaffolds: Effect of the application mode of a time-dependent magnetic field on hMSCs behavior [J] . Ugo DAmora, Teresa Russo, Antonio Gloria, Bioactive Materials . 2017 ,第3期

机译：3D增材制造的纳米复合磁性支架：时间依赖性磁场的应用模式对hMSCs行为的影响
2. Load-adaptive scaffold architecturing: a bioinspired approach to the design of porous additively manufactured scaffolds with optimized mechanical properties. [J] . Alberto Rainer, Sara M Giannitelli, Dino Accoto, Annals of Biomedical Engineering: The Journal of the Biomedical Engineering Society . 2012 ,第4期

机译：负载自适应脚手架结构设计：一种具有生物启发性的方法来设计具有最佳机械性能的多孔增材制造脚手架。
3. Load-Adaptive Scaffold Architecturing: A Bioinspired Approach to the Design of Porous Additively Manufactured Scaffolds with Optimized Mechanical Properties [J] . Alberto Rainer, Sara M. Giannitelli, Dino Accoto, Annals of Biomedical Engineering . 2012 ,第4期

机译：负载自适应脚手架结构设计：一种具有生物启发性的方法来设计具有最佳机械性能的多孔增材制造脚手架
4. Optimization Design Strategy for Additive Manufacturing Process to Develop 3D Magnetic Nanocomposite Scaffolds [C] . Antonio Gloria, Marco Domingos, Saverio Maietta, International Conference on Design Tools and Methods in Industrial Engineering . 2020

机译：用于开发3D磁纳米复合支架的增优制造工艺优化设计策略
5. Process Parameter Optimization with Numerical Modeling and Experimentation Design of Binder Jet Additive Manufacturing [D] . Vangapally, Sairam. 2017

机译：粘合剂射流增材制造工艺参数的数值建模与实验设计优化
6. 3D additive-manufactured nanocomposite magnetic scaffolds: Effect of the application mode of a time-dependent magnetic field on hMSCs behavior [O] . Ugo DAmora, Teresa Russo, Antonio Gloria, 2017

机译：3D增材制造的纳米复合磁性支架：时间依赖性磁场的应用模式对hMSCs行为的影响
7. 3D additive-manufactured nanocomposite magnetic scaffolds: Effect of the application mode of a time-dependent magnetic field on hMSCs behavior [O] . Ugo D'Amora, Teresa Russo, Antonio Gloria, 2017

机译：3D添加剂制造的纳米复合磁性支架：时间依赖性磁场的应用模式对hmsCs行为的影响

Optimization Design Strategy for Additive Manufacturing Process to Develop 3D Magnetic Nanocomposite Scaffolds

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