Development of a Virtual Environment for Surface Topomorphy and Roughness Determination in Milling Operations

Bilalis Nikolaos; Petousis Markos

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Development of a Virtual Environment for Surface Topomorphy and Roughness Determination in Milling Operations

机译：虚拟环境中铣削表面形貌和粗糙度确定的开发

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Surface roughness is a key parameter for determining the quality of machined parts. A graphical model for the calculation of quantitative data affecting surface roughness of machined surfaces was developed. The model allows the determination of the accurate machined surface in cloud of points form retrieved from the visualization system Z buffer in a three dimensional graphics environment developed in OPENGL. Critical quantitative parameters for surface roughness, such as R_aR_yR_(t_i)R_z, and mean line, are determined from this topomorphy. The results together with the operations are visualized in a virtual machine shop environment developed in a commercial development toolkit.

机译：表面粗糙度是确定加工零件质量的关键参数。建立了用于计算影响加工表面粗糙度的定量数据的图形模型。该模型可以确定在OPENGL中开发的三维图形环境中从可视化系统Z缓冲区检索的点云形式的精确加工表面。表面粗糙度的关键定量参数，例如R_aR_yR_（t_i）R_z和平均线，是由该表面形态确定的。结果和操作在商业开发工具箱中开发的虚拟机车间环境中可视化。

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《Journal of Computing and Information Science in Engineering》 |2008年第2期|p.11-17|共7页
作者
Bilalis Nikolaos; Petousis Markos;
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作者单位

Department of Production and Engineering and Management, Technical University of Crete, Chania. Crete 73100, Greece;

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原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;
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专利

1. Surface topomorphy and roughness prediction in micro-ball-end milling using a CAD-based simulation [J] . Dimitrios Vakondios, Panagiotis Kyratsis, Antonios Lyronis, International Journal of Machining and Machinability of Materials . 2017,第4期

机译：使用基于CAD的模拟的微球端研磨表面拓扑和粗糙度预测
2. Prediction of Surface Topomorphy and Roughness in Ball-End Milling [J] . A. Antoniadis, C. Savakis, N. Bilalis, The International Journal of Advanced Manufacturing Technology . 2003,第12期

机译：球头铣削中表面形貌和粗糙度的预测
3. Determination of Cutting Parameters in End Milling Operation based on the Optical Surface Roughness Measurement [J] . Taga Ozer, Kiral Zeki, Yaman Kemal International Journal of Precision Engineering and Manufacturing . 2016,第5期

机译：基于光学表面粗糙度测量的立铣刀中切削参数的确定
4. Surface Roughness Control Based on Digital Copy Milling Concept to Achieve Autonomous Milling Operation [C] . Toshihiko HIROOKA, Tomokazu KOBAYASHI, Atsushi HAKOTANI CIRP Conference on Process Machine Interactions . 2012

机译：基于数字复制铣削概念实现自主研磨操作的表面粗糙度控制
5. Development of a fuzzy-nets based adapted surface roughness control (FNASRC) system in end-milling operations. [D] . Yang, Lieh-Dai John. 2002

机译：端铣削中基于模糊网络的自适应表面粗糙度控制（FNASRC）系统的开发。
6. Evaluating the effect of repeated use of milling burs on surface roughness and adaptation of digitally fabricated ceramic veneers [O] . Leila Payaminia, Naeime Moslemian, Shima Younespour, 2021

机译：评价铣削钻对地表粗糙度的效果和数位陶瓷贴面的改编
7. Development of a fuzzy-nets based adapted surface roughness control (FNASRC) system in end-milling operations [O] . Yang, Lieh-Dai 2002

机译：端铣削中基于模糊网络的自适应表面粗糙度控制（FNASRC）系统的开发

Development of a Virtual Environment for Surface Topomorphy and Roughness Determination in Milling Operations

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