Experimental Study of Helical Milling Carbon Fiber Reinforced Plastics by Variable Parameters

IF 1.5 4区工程技术 Q3 ENGINEERING, MECHANICAL

Experimental Techniques Pub Date : 2023-07-08 DOI:10.1007/s40799-023-00665-x

A. Jiao, Y. Zhang, J. Zhang, J. Li

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Abstract

In order to significantly reduce the defects of hole-making on Carbon Fiber Reinforced Plastics (CFRP), a scheme on the variable parameter helical milling experiments was carried out. First, the helical milling process was analyzed. Second, using the response surface methodology (RSM) in the experiments, the max exit tear value, aperture diameter and surface roughness Ra at the intermediate area were analyzed and the optimum combination of parameters was obtained: spindle speed 8962 r/min, helical speed 60 r/min, and pitch 0.207 mm at the hole entry and exit areas; spindle speed 6242 r/min, helical speed 87 r/min, and pitch 0.205 mm at the hole intermediate area. Last, the effect of milling direction on hole-making was obtained: up milling at the hole entry and exit areas and down milling at the hole intermediate area. The superiority of variable parameter helical milling experiment was verified: there were fewer defects such as burrs and tears at hole entry and exit areas; and the surface roughness Ra was 6.39% lower, the aperture deviation was from + 0.011 mm to -0.007 mm at the hole intermediate area. Therefore, the quality of hole-making by the variable parameter helical milling scheme was significantly improved.

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利用可变参数螺旋铣削碳纤维增强塑料的实验研究

为了大幅减少碳纤维增强塑料（CFRP）上的制孔缺陷，我们开展了一项变参数螺旋铣削实验方案。首先，分析了螺旋铣削工艺。其次，在实验中使用响应面方法（RSM）分析了最大出口撕裂值、孔径和中间区域表面粗糙度 Ra，并得出了最佳参数组合：主轴转速 8962 r/min，螺旋转速 60 r/min，孔入口和出口区域间距 0.207 mm；主轴转速 6242 r/min，螺旋转速 87 r/min，孔中间区域间距 0.205 mm。最后，研究了铣削方向对制孔的影响：孔入口和出口区域为上铣削，孔中间区域为下铣削。变参数螺旋铣削实验的优越性得到了验证：孔入口和出口区域的毛刺和撕裂等缺陷较少；表面粗糙度 Ra 降低了 6.39%，孔中间区域的孔径偏差从 + 0.011 mm 到 -0.007 mm。因此，可变参数螺旋铣削方案的制孔质量明显提高。

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来源期刊

Experimental Techniques 工程技术-材料科学：表征与测试

CiteScore

3.50

自引率

6.20%

发文量

审稿时长

5.2 months

期刊介绍： Experimental Techniques is a bimonthly interdisciplinary publication of the Society for Experimental Mechanics focusing on the development, application and tutorial of experimental mechanics techniques. The purpose for Experimental Techniques is to promote pedagogical, technical and practical advancements in experimental mechanics while supporting the Society''s mission and commitment to interdisciplinary application, research and development, education, and active promotion of experimental methods to: - Increase the knowledge of physical phenomena - Further the understanding of the behavior of materials, structures, and systems - Provide the necessary physical observations necessary to improve and assess new analytical and computational approaches.