Study on Tool Wear and Chip Formation during Drilling Carbon Fiber Reinforced Polymer (CFRP)/ Titanium Alloy (Ti6A14V) Stacks

机译：钻碳纤维增强聚合物（CFRP）/钛合金（TI6A14V）堆叠工具磨损和芯片形成研究

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Composites are used in conjunction with another material to form a multi-material stack-up, which results in greater strength to weight ratios. In a wide range of aerospace applications dissimilar material stack-ups of composites and aluminium and/or titanium are used. Drilling is probably the most common machining operation applied to composites since components made out of composite materials are usually near net shaped and require only holes for assembly integration. In this investigation, experiments were conducted by varying the drilling parameters and determining the optimum cutting conditions for drilling of CFRP/Ti stacks using Genetic Algorithm (GA) optimization technique. Tool wear study was performed by drilling 100 holes each with 118° and 130° point angle drills. Less progressive tool wear and better chip evacuation was achievable in 130° point angle drills when compared with 118°point angle drills.

机译：复合材料与另一种材料结合使用以形成多重材料堆叠，这导致更大的强度对重量比率。在各种航空航天应用中，使用复合材料和铝和/或钛的不同材料叠加。钻孔可能是应用于复合材料的最常见的加工操作，因为由复合材料制成的部件通常在网状附近，并且仅需要用于组装整合的孔。在该研究中，通过改变钻井参数并确定使用遗传算法（GA）优化技术来确定CFRP / TI堆叠的最佳切割条件进行实验。通过钻孔100个孔进行118°和130°点角钻，进行工具磨损研究。与118°点角钻头相比，在130°点角钻时可实现较低的渐进工具磨损和更好的芯片疏散。

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《International Conference on Design and Manufacturing》|2014年||共11页
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M.Senthil Kumar; A.Prabukarthi; V.Krishnaraj;
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中图分类计算机辅助机械制造;
关键词
Drilling; Tool wear; Carbon fiber reinforced plasitc (CFRP); Titanium alloy ( Ti6A14V); Point Angle ( PA); Genetic Algorithm (GA);

机译：钻孔;工具磨损;碳纤维增强塑料（CFRP）;钛合金（Ti6a14v）;点角（PA）;遗传算法（GA）;

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1. Effect of Tool Wear on Hole Quality in Drilling of Carbon Fiber Reinforced Plastic-Titanium Alloy Stacks Using Tungsten Carbide and Polycrystalline Diamond Tools [J] . Kim D., Beal A., Kwon P. Journal of manufacturing science and engineering: Transactions of the ASME . 2016,第3期

机译：碳化钨和多晶金刚石工具对碳纤维增强塑料钛合金叠层钻削中刀具磨损对孔质量的影响
2. A comparative study on tool wear and laminate damage in drilling of carbon-fiber reinforced polymers (CFRP) [J] . Gaugel Simon, Sripathy Prithvi, Haeger Andreas, Composite Structures . 2016,第nova期

机译：碳纤维增强聚合物（CFRP）钻孔过程中工具磨损和层压板损坏的比较研究
3. Effect of drilling parameters and tool geometry on drilling performance in drilling carbon fiber–reinforced plastic/titanium alloy stacks: [J] . Yingying Wei, Qinglong An, Weiwei Ming, Advances in Mechanical Engineering . 2016,第9期

机译：钻削参数和刀具几何形状对钻削碳纤维增强塑料/钛合金叠层的钻削性能的影响：
4. Study on Tool Wear and Chip Formation during Drilling Carbon Fiber Reinforced Polymer (CFRP)/ Titanium Alloy (Ti6A14V) Stacks [C] . M.Senthil Kumar, A.Prabukarthi, V.Krishnaraj International Conference on Design and Manufacturing . 2014

机译：钻碳纤维增强聚合物（CFRP）/钛合金（TI6A14V）堆叠工具磨损和芯片形成研究
5. A study of tool wear in turning of pure aluminum and drilling of CFRP/titanium stacks. [D] . Wang, Xin. 2012

机译：对纯铝车削和CFRP /钛合金堆垛钻孔中刀具磨损的研究。
6. Wear Mechanisms and Wear Model of Carbide Tools during Dry Drilling of CFRP/TiAl6V4 Stacks [O] . Unai Alonso Pinillos, Severo Raúl Fernández Vidal, Madalina Calamaz, 2019

机译：CFRP / TiAl6V4烟囱干钻过程中硬质合金刀具的磨损机理和磨损模型
7. Study on Tool Wear and Chip Formation During Drilling Carbon Fiber Reinforced Polymer (CFRP)/Titanium Alloy (Ti6Al4V) Stacks [O] . SenthilKumar M., Prabukarthi A., Krishnaraj V. 2013

机译：碳纤维增强聚合物（CFRP）/钛合金（Ti6Al4V）堆垛钻削过程中刀具磨损和切屑形成的研究
8. Use of Carbon Fiber Reinforced Polymer (CFRP) with CFRP Anchors for Shear-Strengthening and Design Recommendations/Quality Control Procedures for CFRP Anchors. [R] . Jirsa, J. O., Ghannoum, W. M., Kim, C. H., 2017

机译：碳纤维增强聚合物（CFRp）与CFRp锚固件在剪切强化中的应用和CFRp锚杆的设计建议/质量控制程序。

Study on Tool Wear and Chip Formation during Drilling Carbon Fiber Reinforced Polymer (CFRP)/ Titanium Alloy (Ti6A14V) Stacks

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