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Gaussian Process (GP)-based Learning Control of Selective Laser Melting Process

机译：高斯工艺（GP）基于选择性激光熔化过程的基于学习控制

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Selective laser melting (SLM) is one of emerging processes for effective metal additive manufacturing. Due to complex heat exchange and material phase changes, it is challenging to accurately model the SLM dynamics and design robust control of SLM process. In this paper, we first present a data-driven Gaussian process based dynamic model for SLM process and then design a model predictive control to regulate the melt pool size. Physical and process constraints are considered in the controller design. The learning model and control design are tested and validated with high-fidelity finite element simulation. The comparison results with other control design demonstrate the efficacy of the control design.

机译：选择性激光熔化（SLM）是有效金属添加剂制造的新兴工艺之一。由于复杂的热交换和材料相位变化，准确模拟SLM工艺的SLM动力学和设计稳健控制是挑战。在本文中，我们首先提出了一种基于数据驱动的SLM过程的动态模型，然后设计了模型预测控制来调节熔池尺寸。在控制器设计中考虑了物理和过程约束。使用高保真有限元模拟测试和验证学习模型和控制设计。与其他控制设计的比较结果证明了控制设计的功效。

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《Annual American Control Conference》|2021年|508-513|共6页
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Farshid Asadi; Alaa Olleak; Jingang Yi; Yuebin Guo;
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Robust control; Heating systems; Laser theory; Control design; Metals; Gaussian processes; Predictive models;

机译：鲁棒控制;加热系统;激光理论;控制设计;金属;高斯过程;预测模型;

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专利

1. Investigations on the microstructure and crack formation of IN738LC samples processed by selective laser melting using Gaussian and doughnut profiles [J] . Michael Cloots, Peter J. Uggowitzer, Konrad Wegener Materials & design . 2016,第JANa期

机译：利用高斯和甜甜圈轮廓选择性激光熔化处理IN738LC样品的微观结构和裂纹形成的研究
2. Influence of processing parameters on laser penetration depth and melting/re-melting densification during selective laser melting of aluminum alloy [J] . Guanqun Yu, Dongdong Gu, Donghua Dai, Applied Physics . 2016,第10期

机译：铝合金选择性激光熔化过程中工艺参数对激光穿透深度和熔化/重熔致密化的影响
3. Erratum: 'Selective Laser Melting for processing of regolith in support of a lunar base' [J. Laser Appl. 30, 032018 (2018)] [J] . Gerdes N., Fokken L. G., Linke S., Journal of Laser Applications . 2019,第1期

机译：勘误：“用于支持月球基地的重石块加工的选择性激光熔化” [J.激光应用30，032018（2018）]
4. Fabrication of Porous Metallic Materials by Controlling the Processing Parameters in Selective Laser Melting Process [C] . Shen Huei Wynton Lee, Hui Leng Choo, Sui Him Mok, International Engineering Research Conference . 2020

机译：通过控制选择性激光熔化过程中的加工参数制造多孔金属材料
5. Predictive modeling, simulation, and optimization of laser processing techniques: UV nanosecond-pulsed laser micromachining of polymers and selective laser melting of powder metals. [D] . Criales Escobar, Luis Ernesto. 2016

机译：激光加工技术的预测建模，仿真和优化：聚合物的UV纳秒脉冲激光微加工和粉末金属的选择性激光熔化。
6. Laser Operating Windows Prediction in Selective Laser-Melting Processing of Metallic Powders: Development and Validation of a Computational Fluid Dynamics-Based Model [O] . Maria Rita Ridolfi, Paolo Folgarait, Andrea Di Schino 2020

机译：金属粉末的选择性激光熔炼工艺中的激光操作窗口预测：基于计算流体动力学的模型的开发和验证
7. Effect of Post Processing Heat Treatment Routes on Microstructure and Mechanical Property Evolution of Haynes 282 Ni-Based Superalloy Fabricated with Selective Laser Melting (SLM) [O] . Anagh Deshpande, Subrata Deb Nath, Sundar Atre, 2020

机译：后加工热处理途径对具有选择性激光熔化的Haynes 282 Ni基超合金组织和力学性能的影响（SLM）

Gaussian Process (GP)-based Learning Control of Selective Laser Melting Process

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