Time-Efficient Prediction of the Surface Layer State after Deep Rolling using Similarity Mechanics Approach

机译：使用相似性力学方法在深轧后的表面层状态的时间高效预测

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Highly stressed components like turbine blades made of IN718 (ASTM: B637), crankshafts made of 42CrMo4 (ASTM: A322-4140) or connecting rods made of GGG60 (ASTM: A536-80-55-06) have to satisfy stringent requirements regarding durability and reliability. The induction of compressive stresses and strain hardening in the surface layer of technical components has proven to be a promising method to significantly increase the fatigue resistance. These required surface layer properties can be achieved by deep rolling. The determination of optimal deep rolling process parameters still requires elaborate experimental set-up and subsequent time- and cost-intensive measurements. Therefore, this work provides a new approach to determine surface layer properties by applying similarity mechanics in combination with FE-simulation of the deep rolling process. Thereby, this approach provides an efficient estimation of process results in which time-costly and challenging FE-simulations become redundant.

机译：高压部件，如涡轮机叶片，由IN718（ASTM：B637），由42crmo4（ASTM：A322-4140）制成的曲轴或由GGG60（ASTM：A536-80-5-06）制成的连杆，必须满足关于耐用性的严格要求和可靠性。技术部件表面层的压缩应力和菌株硬化的诱导已被证明是一种明显的方法，可显着提高疲劳性。这些所需的表面层性能可以通过深轧来实现。最佳深度轧制工艺参数的测定仍然需要精心制定的实验设置和随后的时间和成本密集的测量。因此，这项工作提供了通过将相似性机制与深轧机的FE模拟结合应用相似性机制来确定表面层性质的新方法。因此，该方法提供了对过程结果的有效估计，其中昂贵和具有挑战性的Fe-Simulations变得冗余。

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《The International Academy for Production Engineering Web Conference》|2014年||共6页
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Daniel Trauth; Fritz Klocke; Patrick Mattfeld;
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中图分类一般工业技术;
关键词
Deep Rolling; Residual Stresses; Strain Hardening; Similarity Mechanics; Prediction; Finite Element Method;

机译：深轧;残余应力;应变硬化;相似机制;预测;有限元法;

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1. Time-efficient Prediction of the Surface Layer State after Deep Rolling using Similarity Mechanics Approach [J] . Daniel Trauth, Fritz Klocke, Patrick Mattfeld, Procedia CIRP . 2013,第2aPartaB期

机译：相似力学方法对深轧后表面层状态的时效预测
2. A new approach for safety life prediction of industrial rolling bearing based on state recognition and similarity analysis [J] . Wang Heng, Chen Jinhai, Qu Jiangming, Safety science . 2020,第期

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3. Fracture Mechanics Approach into the Flaking Subsurface Crack Growth of Si_3N_4 under Spherical Hertzian Rolling Contact [J] . Katsuyuki KIDA, Keiji OGURA 日本機械学会論文集. A編 . 2000,第644期

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4. Time-Efficient Prediction of the Surface Layer State after Deep Rolling using Similarity Mechanics Approach [C] . Daniel Trauth, Fritz Klocke, Patrick Mattfeld The International Academy for Production Engineering Web Conference . 2014

机译：使用相似性力学方法在深轧后的表面层状态的时间高效预测
5. Mechanics of bending, flanging, and deep drawing and a computer-aided modeling system for predictions of strain, fracture, wrinkling and springback in sheet metal forming. [D] . Wang, Chuantao. 1993

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6. A deep learning and similarity-based hierarchical clustering approach for pathological stage prediction of papillary renal cell carcinoma [O] . Sugi Lee, Jaeeun Jung, Ilkyu Park, 2020

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7. Time-efficient Prediction of the Surface Layer State after Deep Rolling using Similarity Mechanics Approach [O] . Trauth Daniel, Klocke Fritz, Mattfeld Patrick, 2013

机译：相似力学方法对深轧后表面层状态的时效预测
8. Similarity in the Marine Atmospheric Surface Layer: The Role of Intermittency and Boundary-Layer Structures. [R] . Fairall, C. W., Hill, R. J. 1997

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Time-Efficient Prediction of the Surface Layer State after Deep Rolling using Similarity Mechanics Approach

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