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TC4盘铣开槽加工表面形貌与表层组织研究
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西北工业大学 现代设计与集成制造技术教育部重点实验室

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国家自然科学基金项目(No.50975237 and 51005184);国家数控重大专项(No.2013ZX0400108);国家航空科学基金(No.2013ZE53060)


Research on surface morphology and microstructure of TC4 of disc-milling slotting
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The key Laboratory of Contemporary Design and Integrated Manufacturing Technology, Ministry of Education ,Northwestern Polytechnical University

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    摘要:

    因为盘铣具有切削力大和切削效率高的优点, 其已广泛应用于加工领域,特别对于难加工材料钛合金来说。但是关于盘铣切削加工机理方面的研究却相对较少。在本文的研究中,首先设计盘铣开槽实验以测量盘铣切削钛合金时的切削力和切削温度。然后,以切削力和切削温度实验为基础,分析不同切削条件下的表面粗糙度、表面形貌、残余应力、显微组织和显微硬度。实验结果表明:铣削表面中心处的粗糙度值小于边缘处,粗糙度值随着主轴转速的增加而减小,随着切削深度和进给速度的增加而增大。在铣削表面中心处容易出现凹陷,在铣削表面边缘处容易出现裂纹。铣削表面和次表面均出现残余压应力,随着深度的增加,残余压应力逐渐减小为零。在切削力的作用下,晶粒沿进给方向发生明显的拉伸变形,α相从初始等轴态拉伸为长片状。随着切削温度的升高,塑性变形区的金相结构发生改变,当切削温度达到β相转变温度时,金相结构从初始等轴态转变为全片层组织。热力耦合作用使得已加工表面和次表面硬度值升高。

    Abstract:

    Disc-milling is used in manufacture, especially for difficult-to-machine material like titanium alloy, because of its strong force and high efficiency. However, the research on cutting mechanism of disc-milling technique is still lack in literature. In the present study, first, disc-milling grooving experiment was carried out to measure milling force and temperature for titanium alloy sample. After machining, surface roughness, surface topography, residual stress, microstructure and microhardness in different milling conditions were analyzed. The results showed that the surface roughness of the center on milling surface was lower than the edge; moreover, the surface roughness decreased with the increase of spindle speed, but increased with the increase of depth of cut and feed speed. The dent and crack were observed on the center and edge of milling surface, respectively. The residual compressive stress was produced on the machined surface and subsurface, and gradually reduced to zero with the increase of depth. The microstructure of lattice tensile deformation was found along feed direction under the effect of milling force, progressing from initial equiaxed structure to long flake lattice. The metallographic structure of plastic deformation zone changed with the temperature, transforming from initial equiaxed microstructure to a lamellar microstructure when the temperature was up to β-phase transition temperature. The combination of mechanical and thermal loads led to an increment in microhardness on the machined surface and subsurface.

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辛红敏. TC4盘铣开槽加工表面形貌与表层组织研究[J].稀有金属材料与工程,2016,45(12):3050~3056.[xinhongmin. Research on surface morphology and microstructure of TC4 of disc-milling slotting[J]. Rare Metal Materials and Engineering,2016,45(12):3050~3056.]
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历史
  • 收稿日期:2014-07-28
  • 最后修改日期:2015-06-08
  • 录用日期:2015-07-23
  • 在线发布日期: 2017-02-06
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