基于切削力的刀具磨损过程建模及预测
摘 要
本文基于切削力的刀具磨损过程建模及预测,主要研究了刀具磨损对切削力的影响,探索刀具寿命预测的方法和技术。首先,从理论基础出发,对刀具磨损和切削力方面的相关知识进行了归纳和总结。然后,通过实验数据的分析,建立了刀具磨损过程的数学模型和切削力预测模型,并对模型进行了训练和优化。最后,将研究成果应用于实际生产中,验证了模型的精度和可行性,并为制造企业提供了参考意见。本研究对提高加工效率和降低加工成本具有重要意义,有着广阔的应用前景。
关键词:刀具磨损、切削力、刀具寿命预测、数学模型
Abstract
This paper studies the application optimization of 3D printing technology in the field of mold manufacturing. Firstly, the basic principle, development process, classification and characteristics of 3D printing technology are introduced, as well as its application overview, advantages and limitations in the field of mold manufacturing. Subsequently, the optimization problems of the application of 3D printing technology in the field of mold manufacturing, including increasing the durability of mold, improving the quality of mold surface, reducing the manufacturing cost and so on. Through mold design and optimization of the process flow, the limitations of 3D printing technology in the mold manufacturing field can be improved. Finally, we summarize the research results and prospect the future application of 3D printing technology in the field of mold manufacturing.
Keyword: 3D printing technology、Mold manufacturing、 Process flow 、
Optimize
目 录
1引言 1
2理论基础 1
2.1刀具磨损的定义和分类 1
2.2切削力的定义和计算 1
2.3刀具磨损与切削力的关系 2
2.4刀具寿命及预测理论基础 2
3基于切削力的刀具磨损过程建模及预测 3
3.1实验材料和方法 3
3.2刀具磨损过程建模 3
3.3切削力预测模型 4
4. 基于切削力的刀具磨损过程模型的应用 4
4.1基于模型的切削参数优化 4
4.2通过模型评估刀具性能 5
4.3样板件加工现场应用 5
5结语 6
参考文献 7
致谢 8
摘 要
本文基于切削力的刀具磨损过程建模及预测,主要研究了刀具磨损对切削力的影响,探索刀具寿命预测的方法和技术。首先,从理论基础出发,对刀具磨损和切削力方面的相关知识进行了归纳和总结。然后,通过实验数据的分析,建立了刀具磨损过程的数学模型和切削力预测模型,并对模型进行了训练和优化。最后,将研究成果应用于实际生产中,验证了模型的精度和可行性,并为制造企业提供了参考意见。本研究对提高加工效率和降低加工成本具有重要意义,有着广阔的应用前景。
关键词:刀具磨损、切削力、刀具寿命预测、数学模型
Abstract
This paper studies the application optimization of 3D printing technology in the field of mold manufacturing. Firstly, the basic principle, development process, classification and characteristics of 3D printing technology are introduced, as well as its application overview, advantages and limitations in the field of mold manufacturing. Subsequently, the optimization problems of the application of 3D printing technology in the field of mold manufacturing, including increasing the durability of mold, improving the quality of mold surface, reducing the manufacturing cost and so on. Through mold design and optimization of the process flow, the limitations of 3D printing technology in the mold manufacturing field can be improved. Finally, we summarize the research results and prospect the future application of 3D printing technology in the field of mold manufacturing.
Keyword: 3D printing technology、Mold manufacturing、 Process flow 、
Optimize
目 录
1引言 1
2理论基础 1
2.1刀具磨损的定义和分类 1
2.2切削力的定义和计算 1
2.3刀具磨损与切削力的关系 2
2.4刀具寿命及预测理论基础 2
3基于切削力的刀具磨损过程建模及预测 3
3.1实验材料和方法 3
3.2刀具磨损过程建模 3
3.3切削力预测模型 4
4. 基于切削力的刀具磨损过程模型的应用 4
4.1基于模型的切削参数优化 4
4.2通过模型评估刀具性能 5
4.3样板件加工现场应用 5
5结语 6
参考文献 7
致谢 8
