For ceramic cutting tool materials are also evaluated.
并对这四种陶瓷刀具材料进行了评价。
The performance characteristics of several new cutting tool materials are reviewed.
这里主要介绍几种新型刀具材料的性能特点。
Various cutting tool materials begin to lose their hardness at different temperatures.
不同的切削刀具材料在不同的温度点开始软化。
Various cutting tool materials have been used in the industry for different applications. A number of developments have occurred in the current century.
在工业中为了不同的应用可以使用各种各样的切削刀具材料。在最近的百年里产生了许多进展。
This article states machined properties of part's material, properties of cutting tool materials and some structure of cutting tool that used in large flat surface.
本文从实用出发,系统介绍了适用于制作大型平面材料的切削性能以及适用于大型平面精铣的几种刀具结构和使用情况。
A global review of dry cutting tool materials in cutting of the roller and their physical and cutting performance are given, and also promotes the features of them used in cutting of the roller.
综述了轧辊加工中干式切削刀具材料的物理性能和切削性能,阐述了它们在轧辊加工中的特点。
At the same time, gas turbine blades, bearing materials and cutting tool materials were evaluated by Weighted Average, Improved Grey Relational Analysis (IGRA)and Fuzzy Assessment, respectively.
此外,运用加权平均法、改进灰色关联度法和模糊综合评价法分别对候选燃气涡轮叶片材料、轴承材料和刀具材料进行了评价。
For some applications, especially where extremely high-speed cutting is important, other tool materials such as sintered carbide products are a more economical alternative to tool steel.
对一些应用来说,尤其是非常高速的切削很重要的场合,其它的工具材料比如硬质合金产品是比工具钢更经济的选择。
NC flame cutting: CNC flame cutting is numerical control machine tool use gas with oxygen or gasoline in metal materials with oxygen cut a way to cut.
数控火焰切割:数控火焰切割是数控机床利用燃气配氧气或者汽油配氧气进行金属材料切割的一种切割方式。
Before we discuss the properties of these materials, let us look at the important characteristics expected of a cutting tool material.
讨论这些材料性能之前,先看一下作为切削刀具材料应具备哪些重要特性。
All these characteristics may not be found in a single tool material. Improved tool materials have been giving a better cutting performance.
所有这些特性不可能存在于单一刀具材料中。改进的刀具材料已经被赋予较好的切削性能。
High speed, heavy cutting and difficult processing materials in the best assistants, can significantly improve the processing quality, prolong tool life, improve the production efficiency.
是高速、重切削以及难加工材料的最佳助手,可明显提高加工质量,延长刀具寿命,提高生产效率。
As a new type tool material, the excellent capabilities of silicon nitride ceramics cutting tools ravel out many cutting problems of super hard materials.
氮化硅陶瓷是一种新型刀具材料,其优良的切削性能解决了超硬材料的加工难题。
This paper deals with oscillatory feed cutting which is a reliable chip breaking method and can be applied regardless of the materials processed, cutting parameters and tool geometry used.
本文研究的振荡切削法,是一种不受工件材料、切削用量和刀具几何形状限制的可靠断屑方法。
The author gave us the reasonable selection of tool materials, tool parameters and cutting parameters during turning of hardened steel in order to get the ideal cutting result.
着重说明了车削淬火钢件时,如何通过合理地选用刀具材料、刀具几何参数及切削用量达到理想的切削效果,并提出车削淬火钢件时应注意的若干问题。
Vital meaning of materials gained attentions in cutting tools for casting iron and influential factors for tool selection in cutting casting iron are introduced.
介绍了选择铸铁切削用刀具需考虑的因素,可用于不同牌号铸铁的切削用刀具新材料有硬质合金刀具、陶瓷刀具、金属陶瓷刀具和超硬刀具。
PCBN is one kind of the important superhard tool materials and is widely supposed to be an ideal tool material for modern cutting technology.
PCBN刀具是一种重要的超硬材料刀具,被广泛认为是应用于现代切削加工的理想刀具材料。
Saw: Tool for cutting solid materials to prescribed lengths or shapes.
锯:用来将固体材料切割成特定的长度或形状的工具。
The process problems in heavy lathe machining, such as the selection of tool materials, tool angles, cutting parameter, and the mount of tools are analyzed.
对重型车床切削中的刀具材料、刀具角度、切削用量的选择以及刀具安装等工艺问题进行了分析。
The formation of the fatigue cracks and the thermally induced cracks are mainly responsible for the failure of the ceramic tool materials under various cutting conditions.
在不同的切削条件下,疲劳裂纹和热裂纹是造成刀具材料失效的主要原因。
The dynamic stability is important for the circular saws that are clamped in the center as a cutting tool in high rotary speed to saw wooden materials.
中心夹持高速回转的圆锯片切削工件时,保持良好的动态稳定性是非常重要的。
Physical and cutting performance of PCBN tool materials are introduced in this paper, and the features of them used in different cutting fields are given. The key technology is also discussed.
介绍了PCBN刀具材料的物理性能和切削性能,阐述了PCBN刀具在不同切削领域应用的特点,并对其关键技术进行了探讨。
By the improvement of drilling and cutting properties on paper materials and the improvement of drilling and cutting tools, a tool design and its technique has been wocked out to meet the requirement.
最终基本达到了设计要求,填补了市场纸质材料深孔钻削加工的空白。
The formation of the fatigue cracks and the thermally induced cracks are mainly responsible for the failure of the ceramic tool materials un der various cutting conditions.
在不同的切削条件下,疲劳裂纹和热裂是造成刀具材料失效的主要原因。
The formation of the fatigue cracks and the thermally induced cracks are mainly responsible for the failure of the ceramic tool materials un der various cutting conditions.
在不同的切削条件下,疲劳裂纹和热裂是造成刀具材料失效的主要原因。
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