Experimental Study on Milling Performance of Al–60% Si Alloy Based on Minimum Quantity Lubrication

SHEN Weizhi; NIU Qiulin; JING Lu; LIU Lipeng; WANG Xinghua; DAI Fupeng

doi:10.16080/j.issn1671-833x.2025.15.130

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Experimental Study on Milling Performance of Al–60% Si Alloy Based on Minimum Quantity Lubrication

更新时间：2026-03-27

- Experimental Study on Milling Performance of Al–60% Si Alloy Based on Minimum Quantity Lubrication
- Aeronautical Manufacturing Technology Vol. 68, Issue 15, (2025)
- 作者机构：
  
  湖南科技大学机电工程学院,湘潭,411201
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2025.15.130
  CLC：
- Published：2025
- 稿件说明：
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SHEN Weizhi, NIU Qiulin, JING Lu, et al. Experimental Study on Milling Performance of Al–60% Si Alloy Based on Minimum Quantity Lubrication[J]. Aeronautical Manufacturing Technology, 2025, 68(15).
DOI：

SHEN Weizhi, NIU Qiulin, JING Lu, et al. Experimental Study on Milling Performance of Al–60% Si Alloy Based on Minimum Quantity Lubrication[J]. Aeronautical Manufacturing Technology, 2025, 68(15). DOI： 10.16080/j.issn1671-833x.2025.15.130.

摘要

基于微量润滑（Minimum quantity lubrication，MQL）铣削Al–60% Si合金的正交试验，分析了铣削参数对切削力、切削温度和表面粗糙度的影响。对比干切削试验，探究了MQL铣削高硅铝合金的加工机理。结果表明，MQL铣削条件下，切削力受每齿进给量f

影响最大，随切削速度v

的增加先增大后减小；切削温度受铣削参数的影响程度为：切削速度v

每齿进给量f

径向切宽a

，随着切削速度v

的增大，切削温度增幅先小后大，在v

=90 m/min 时，MQL对切削热的抑制作用减弱，此时切削温度最高；表面粗糙度受每齿进给量f

的影响最为显著，随每齿进给量f

的增加而增大，表面粗糙度最低为0.234 μm。与干铣削相比，MQL铣削时的进给力和切向力分别降低24.3% 和14.0%，切削温度降低23.4%，表面粗糙度降低13.7%，表明MQL辅助加工技术可有效提高Al–60% Si合金的铣削加工性能。

Abstract

Based on orthogonal experiment for minimum quantity lubrication (MQL) milling of Al–60% Si alloy

the influence of milling parameters on cutting force

cutting temperature and surface roughness is analyzed. Compared with dry cutting

the machining mechanism of MQL milling of high-silicon aluminum alloy is explored. The results show that under the condition of MQL milling

the cutting force is mostly affected by feed per tooth (f

) and increases first and then decreases with increase of cutting speed (v

). The impact of milling parameters on cutting

temperature is: cutting speed feed per tooth radial cutting width. With the increase of v

the growth rate of cutting temperature increases from small to large. When v

is 90 m/min

the inhibition effect of MQL on cutting heat is weakened with the highest cutting temperature. Surface roughness is significantly affected by f

which increases with the increase of f

and the lowest surface roughness is 0.234 μm. Compared with dry milling

feed force and tangential force of MQL processing reduces by 24.3% and 14.0%

respectively

cutting temperature reduces by 23.4% and surface roughness reduces by 13.7%. MQL assisted processing technology can effectively improve the milling performance of Al–60% Si alloy.

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