目的:研究金刚石涂层立铣刀和 PCD 立铣刀切削铝合金时,铝合金表面粗糙度以及刀具的使用寿命。方法通过实验比较1μm、5μm金刚石涂层四刃立铣刀和PCD立铣刀在高速干式切削条件下切削铝合金的性能,并通过走刀距离比较不同状态刀具的使用寿命以及在走刀过程中的粘刀情况,用表面粗糙度测量仪测量加工的铝合金表面粗糙度。结果1μm、5μm金刚石涂层立铣刀加工铝合金失效距离分别为25 m、75 m, PCD立铣刀加工铝合金96 m后失效;1μm、5μm金刚石涂层立铣刀切削铝合金表面粗糙度平均值分别为1.07μm、1.10μm,PCD立铣刀切削铝合金表面粗糙度平均值为0.80μm。结论5μm金刚石涂层立铣刀是1μm金刚石涂层立铣刀寿命的5倍,PCD立铣刀使用寿命最长;1μm、5μm金刚石涂层立铣刀切削铝合金表面较PCD立铣刀粗糙,在相同切削环境下切削铝合金时, PCD立铣刀使用寿命较金刚石涂层立铣刀提高,且在抑制粘刀方面效果十分明显。
Objective To research the performance of coating end mill and PCD end mill on cutting aluminum ally. MethodsIn this paper, four-flute end mill with 1 μm diamond coating, four-flute end mill with 5 μm diamond coating and PCD end mill were taken as the objects to study the tool life and chip sticking situation, the feeding length of cutting aluminum alloy in the process of high-speed dry cutting of which was compared in the experiment, furthermore, the surface roughness of alu-minum alloy was tested with the surface roughness tester. ResultsThe resultsshowed that the failure distance of end mill with 1 μm diamond coating or 5 μm diamond coating was 25 meter or 75 meter and that of PCD end mill was 96 meter when cutting aluminum alloy. The average surface roughness of end mill with 1 μm diamond coating or 5 μm diamond coating was 1.07μm or 1.10μm and that of PCD end mill was 0.80μm.ConclusionThe life of the end mill with 5 μm diamond coating was four times more than that of the end mill with 1 μm diamond coating, while the PCD end mill has the longest service life. The roughness of end mill with 1 μm diamond coating or 5 μm diamond coating was higher than that of PCD end mill when cutting aluminum alloy. PCD end mill had longer life than diamond coating end mill and could also significantly reduce the sticking situation when cutting aluminum alloy in the same cutting environment.
参考文献
| [1] | 吕继磊;满卫东;陈朋;朱金凤;吴飞飞.硬质合金CVD金刚石涂层最新进展[J].硬质合金,2011(5):321-331. |
| [2] | 张而耕;陈强.类金刚石涂层的研究进展及其应用[J].粉末冶金工业,2015(5):60-65. |
| [3] | 黄世玲;张迎九;杨德林.金刚石化学镀镍的研究[J].表面技术,2015(6):65-69,81. |
| [4] | 马玉平;陈明;孙方宏.CVD金刚石涂层硬质合金衬底预处理新方法研究[J].金刚石与磨料磨具工程,2009(1):1-4,12. |
| [5] | 许幸新;张晓辉;张春林;郑友益.CVD 金刚石涂层刀具铣削高体分 SiCp/Al复合材料特性研究[J].现代制造工程,2014(7):71-76. |
| [6] | 张晓辉;许幸新;张春林;向道辉;郑友益.YT类硬质合金金刚石涂层成形刀具对高体积分数SiCP/Al复合材料的铣削特性研究[J].稀有金属与硬质合金,2014(5):60-64. |
| [7] | 江文清;骆忠良.聚晶金刚石薄膜合成工艺的研究[J].表面技术,2014(2):114-117. |
| [8] | M. Montoya;M. Calamaz;D. Gehin;F. Girot.Evaluation of the performance of coated and uncoated carbide tools in drilling thick CFRP/aluminium alloy stacks[J].The International Journal of Advanced Manufacturing Technology,20139/12(9/12):2111-2120. |
| [9] | Shengguan Qu;Fujian Sun;Liang Zhang;Xiaoqiang Li.Effects of cutting parameters on dry cutting of aluminum bronze alloy[J].The International Journal of Advanced Manufacturing Technology,20141/4(1/4):669-678. |
| [10] | 杨海东;孔晓玲;韦山.金刚石涂层刀具干切削硅铝合金性能研究[J].合肥工业大学学报(自然科学版),2003(6):1276-1278. |
| [11] | 杨小璠;李友生;鄢国洪;李超;许志龙.金刚石涂层刀具铣削高硅铝合金的性能研究[J].工具技术,2012(5):7-10. |
| [12] | 孟宪明;唐伟忠;黑立富.化学气相沉积金刚石涂层硬质合金工具及其应用[J].新材料产业,2006(10):65-69. |
| [13] | Zhang, Lin;Liu, Zi;Tian, Wei;Liao, Wenhe.Experimental studies on the performance of different structure tools in drilling CFRP/Al alloy stacks[J].The International Journal of Advanced Manufacturing Technology,20151/4(1/4):241-251. |
| [14] | 严伟强;杨文忠.3A21型铝合金高效复合型表面处理液的工艺研究[J].表面技术,2014(1):109-113. |
| [15] | 仲为武 .铝合金干切削和少量润滑切削试验及模糊监控研究[D].南京航空航天大学,2012. |
| [16] | 马平;胡爱玲;白钊.高速干切削及其关键技术[J].新技术新工艺,2004(4):14-17. |
| [17] | 刘凯.金刚石涂层刀具在干式切削中的性能分析[J].机械制造与自动化,2013(01):63-65. |
| [18] | LIANG Xuebing;JIA Chengchang;CHU Ke;CHEN Hui.Predicted interfacial thermal conductance and thermal conductivity of diamond/Al composites with various interfacial coatings[J].稀有金属(英文版),2011(05):544-549. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%