1) non-conductive engineering ceramics
非导电工程陶瓷
1.
Heat partition model for non-conductive engineering ceramics during electrical discharge grinding;
非导电工程陶瓷电火花磨削热量分配模型
2.
Working fluid has significant effect on the new processing method of synchronous servo double electrodes electrical discharge grinding for non-conductive engineering ceramics.
考虑到工作液对于非导电工程陶瓷双电极同步伺服电火花磨削新工艺的重要性,以氧化铝陶瓷加工为例,通过实验的方法研究了工作液的种类、浓度对材料去除率和加工表面粗糙度的影响规律,给出了实验步骤,并对实验结果进行了理论分析。
3.
A model based on wavelet neural network to predict the process of electro-discharge machining(EDM) with synchronous servo double electrodes for non-conductive engineering ceramics is introduced due to the high nonlinear features among parameters and effects during processing.
针对非导电工程陶瓷双电极同步伺服电火花加工中,由于工艺参数与加工效果间的高度非线性,难以建立精确的数学模型进行效果预测的问题,提出了一种基于小波网络的建模方法。
2) Non-conductive ceramics
非导电陶瓷
3) insulating ceramics SiO2
非导电陶瓷SiO2
1.
The study show that graphite electrode could strengthen new conductive film and improve the stabilization of electrical discharge machining insulating ceramics SiO2.
以导电胶涂层作为辅助电极、石墨作为工具电极,用实验的方法考察了电火花加工非导电陶瓷SiO2的可行性;证明在正极性加工条件下,石墨电极能增强导电膜生成,提高加工稳定性;并给出了脉冲宽度、加工电流等电参数对加工速度、电极损耗及表面质量等工艺指标的影响规律,得出了一些有益的结论。
4) Engineering ceramics
工程陶瓷
1.
The basic experimental studies on ultrasonic machining engineering ceramics;
工程陶瓷超声加工的基础试验研究
2.
The application of engineering ceramics and special graphite in construction design of subterrene drills;
工程陶瓷及特种石墨在热熔器结构设计中的应用
3.
The Influence of the Technical Parameters on the Quality of Engineering Ceramics by Abrasive Waterjet;
工程陶瓷磨料水射流加工工艺参数对加工质量的影响
5) engineering ceramic
工程陶瓷
1.
Acoustic emission experiment of high efficiency deep grinding with engineering ceramic materials;
工程陶瓷高效深切磨削加工中声发射的实验研究
2.
Predicts the roughness of workpiece surface of engineering ceramic in high efficiency deep grinding by use of acoustic emission based on the method of BP neural network;
基于BP神经网络的高效深磨工程陶瓷工件表面粗糙度的声发射预测
6) ceramic engineering
陶瓷工程
1.
Especially, the prospect of its application to ceramic engineering is proposed.
分析了其在陶瓷工程中的应用前景,认为目前可逐步应用于陶瓷工程智能控制、陶瓷工程智能检测以及陶瓷工业过程智能监控等方面,从而必将促进陶瓷工业的发展。
2.
The paper analyzes the status quo of the national ceramic engineering and technical talentsand forecasts the demand for those talents in the period of eleventh five year plan.
通过对全国陶瓷工程技术人才状况的现状分析和“十一·五”期间内需求状况预测,探讨了高等职业教育陶瓷工程专业人才培养目标和模式,提出了陶瓷工程高职教育所面临困难的解决方案。
补充资料:工程陶瓷
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性质:见精细陶瓷。
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性质:见精细陶瓷。
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