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刀具槽型结构及表面涂层对切削过程影响的仿真研究
Simulation Study of the Influence of Groove Structures of Tool and Surface Coating on Cutting Process
【作者】 龙新延;
【导师】 熊计;
【作者基本信息】 四川大学 , 材料加工工程, 2007, 硕士
【摘要】 现代技术的飞速进步,机械制造工业不断地向柔性化、集成化、自动化和智能化方向发展。先进的制造技术、高效率的数控机床的使用,要求切削加工所用的刀具具有高效率、高精度、高可靠性和专用化,而良好的断屑是达到这一要求的重要手段和关键技术。利用断屑槽进行断屑是目前最为经济也是应用最为广泛的一种断屑方法。本文阐述了断屑槽研究的意义,综述了国内外切屑控制和断屑槽的研究概况。通过采用有限元模拟的方法,详细的分析了断屑槽对切削过程的影响,槽型几何参数(凸台高度、槽宽深比)以及涂层这些因素对切削力、应力、应变及温度的影响规律。然后按照实际切削加工来设置边界条件,把优化后的槽型参数刀具进行切削模拟后的结果与试验值进行比较,试验结果与预期目的基本一致。结果表明:凸台高度的增加(在允许范围内)有助于切屑的折断;圆弧曲线型槽型比直线型槽型的主切削力要低;断屑槽槽宽比Wn/H=9.0左右时,切屑的应力应变最大,切屑最容易折断;涂层刀具与没有涂层的刀具相比,能降低切削力,但涂层刀具表面与切屑接触处温度相对要高。这些结论有助于我们更加深入了解切削机理,槽型各参数在切削过程中的作用,为复杂槽型的设计、优化和选用提供理论指导,并对设计和制造过程中可能出现的问题进行分析与预测,提出改进措施,实现刀具槽型结构参数从开发到制造整个过程的优化。这有助于解决传统的用“试错法”研究断屑槽型所带来的研究开发周期长、耗材量大、工作效率低、加工成本高的问题,达到提高经济效益的目的。文章最后进行了总结,并对切屑折断数学模型的研究和切削过程有限元方法的研究前景进行了展望。
【Abstract】 With the development of modern technology, the machinery manufacturing is continuously developing towards the flexibility, integration, robotization and intelligentization. Application of the advanced manufacturing technology and the numerical control machining of higher efficiency, it requires tools applied to machining with higher efficiency, higher precision, higher reliability and specialization. Good breaking chip is a kind of important method and key technology to reach the request. At present, using broken grooves to break chips is the most economical and prevalent method.In this paper, it presents the significance of chip-breaking groove studies, summarizes the background of chip controlling and chip-breaking groove at home and abroad. Simulating by the finite element method, this paper detailedly analyzed the influence of broken grooves on cutting process and researched the disciplinarian of the influence of geometrical parameters of chip-breaking groove (height of boss, the ratio of the groove width to depth) and coating on cutting forces, stress, strain and temperature. Then simulation was set up boundary condition mainly according to the case of actual cutting machining. And the consequence was consistent with the expected aim comparing cutting simulation by using optimized groove parameters with experimentation values. Investigations show that the increasing height of boss in permission range can help the chips to be broken. The host cutting force is lower comparing the groove of arc curve with the groove of line. When the ratio of the groove width to depth is about 9. 0, the stress and strain of chips are the most value and the chips are easily broken. The coating tool may decrease cutting forces comparing without coating, but the temperature of the place contacting with the chips is higher in the surface of coating tool.These conclusions help to go deep into know cutting mechanism, understand the action of every groove parameter during cutting process, and afford theory direction for the design, optimization and selection of the complex groove. At the same time, the problems coming forth during designing and manufacturing are analyzed and forecasted, and it also could bring forward mending measure. The structure parameters of groove are realized optimization from research to manufacturing. This helps to resolve the problems such as long exploitation periods, excessive material wastage, inefficient work and high machining cost that are brought forth using Trial-and-error Method to study chip-break of groove, and reach to improve economy profit.In the end, this paper concludes the research, and expects about the researching of groove mathematic model and the FEM of the cutting process.
【Key words】 chip control; chip-breaking groove; coating; mathematic model; finite element method;
- 【网络出版投稿人】 四川大学 【网络出版年期】2008年 04期
- 【分类号】TG501
- 【被引频次】5
- 【下载频次】263