陶瓷刀具具有优良的切削性能。
并对这四种陶瓷刀具材料进行了评价。
介绍了一些复合陶瓷刀具材料的性能和应用。
The performances and applications of some composite ceramic tool materials were presented in this paper.
提出了对称型双向分布的梯度功能陶瓷刀具材料的设计模型。
A model for designing functionally gradient ceramic tool materials with symmetrical composition distribution is presented.
文中介绍了陶瓷刀具材料的的种类、牌号及其合理使用方法。
The article introduces categories and brands of ceramic tool material, and methods for making rational use.
本文还研究了纳米改性金属陶瓷刀具的切削性能和磨损机理。
Next, the cutting characteristics and wearing mechanism of cermets cutters with nano-TiN modifications are discussed in detail.
介绍了氮化硅陶瓷刀具的切削性能、切削用量的选择及其应用。
The cutting performances, the choices of machining parameters and the USES of silicon nitride ceramics cutting tools are introduced.
本文采用水基料浆凝胶注模法制备出了高质量的氧化锆陶瓷刀具。
Zirconia ceramic knives of high qualities ceramic knives were prepared using aqueous gel-casting method in this paper.
对金属陶瓷刀具高速干切削45钢时的磨损情况进行了试验和分析。
The test and analysis for wear of cermet cutter during high-speed dry cutting 45 steel are carried out.
分析了这种陶瓷刀具材料的微观结构对其物理机械性能的影响规律。
The resistance of this shearing type damper can be conveniently adjusted with very small electric power consumption.
刀具破损的主要形式为高速钢刀具切削刃塑性变形和陶瓷刀具的崩刃。
The modes of tool damage include plastic deformation on cutting edge of high-speed steel tool and tipping of ceramics tool.
本文介绍了国产陶瓷刀具材料的种类、牌号的选用及其合理使用方法。
This paper introduces kinds and brands of domestic cutting tool material, and methods for making rational use.
研究了干式高速车铣d 60钢时金属陶瓷刀具的磨损机理和磨损特性。
A research is made on the Wearing mechanism and features of ceramic tool in high speed dry turning and milling of steel D60.
本文重点综述了陶瓷刀具材料显微结构和力学性能对其磨损特性的影响。
The effect of the micro structure and the mechanical properties on the wear characteristics of the ceramic tool material is summarized primarily and emphatically.
陶瓷刀具在前三个特性上符合要求,即使在很高的切割速度也没有问题。
Ceramic tools are suitable with regard to the first three properties even at high cutting speeds.
硬质相颗粒的脱落是干式高速车铣D60钢时金属陶瓷刀具磨损的主要原因。
The main reason of ceramic tool Wearing is coming off the hard grain during the dry cutting of steel D60.
论述了陶瓷刀具的特点和切削性能,对陶瓷刀具在干切削中的使用进行了分析。
The characteristics and cutting performance of ceramic tools are elaborated in this paper, and the application of ceramic tools in dry cutting is analyzed.
本文应用前馈控制模型对压电陶瓷刀具的位置进行补偿控制,取得了满意的效果。
A pre feed controlling model is adopted making compensate control for the position of piezoelectric ceramic cutting tool. The result is satisfactory.
氮化硅陶瓷刀具的使用提高了生产效率,降低了加工成本,有着广泛的应用前景。
The use of silicon nitride ceramics cutting tools improves the productivity and reduces the cutting cost greatly. It has a broad foreground of applications.
指出陶瓷刀具材料切削磨损时的基本机理仍然是磨料磨损、粘结磨损、化学反应与扩散磨损。
It is finally pointed out that the main wear mechanisms of the ceramic tool materials are still abrasive, adhesive, chemical reaction and dispersion wear.
用高能量密度脉冲等离子体于室温下在氮化硅陶瓷刀具上成功沉积了高硬耐磨的氮化钛涂层。
Hard and wear-resistant titanium nitride coatings were deposited by pulsed high energy density plasma technique on silicon nitride ceramic cutting tools at ambient temperature.
本发明一种线路板粉或电路板粉碎专用陶瓷刀具材料及其制备方法,属于粉碎设备技术领域。
The invention discloses a ceramic cutting tool and the preparation method thereof special for a smashing line board or a circuit board, and belongs to the art of the smashing equipment.
同时对晶须增韧陶瓷刀具在不同速度下切削航空镍基合金GH761时的切削温度进行了测量。
The temperatures of whisker ceramic tool JX-1 when machining air-nickel based alloy GH761 at a range of speeds were measured.
陶瓷刀具是一种先进的切削刀具,由于其优良的切削性能和高的性能价格比而受到了人们的青睐。
Ceramic tool is an advanced cutting tool. Because of its excellent performance and high ratio of property to price, it is in user's good graces.
介绍纳米复相陶瓷的增韧补强机理,对研制高性能纳米陶瓷刀具材料需考虑的主要因素进行了探讨。
Toughening and strengthening mechanisms of nano-composite ceramics are introduced, the main factors affecting the mechanical properties of the nano-scale ceramic composites are discussed.
重点分析了陶瓷刀具在切削淬火钢和镍基高温合金中有关切削力、切削温度、刀具磨损等方面的机理。
The mechanism of cutting force, cutting temperature and tool wear in the machining of quenched steel and nickel based high temperature alloy with ceramic tools are analyzed in the paper.
新型陶瓷刀具已在我国冶金、水泵、矿山机械、轴承、滚珠丝杠、汽车、军工等十几个行业得到应用。
The new types of ceramic cutting tools have been widely applied to the fields in metallurgy, water pump , mine mechanical, bearing, roller bead screw, automobil, defense industry and ect.
讨论了提高陶瓷刀具材料抗热震性的方法即采用梯度功能陶瓷刀具材料,并结合断续车削试验进行了验证。
The method of improving the thermal shock resistance of ceramic tool materials i. e. using functionally gradient ceramic tool materials, is discussed and verified by intermittent turning tests.
讨论了提高陶瓷刀具材料抗热震性的方法即采用梯度功能陶瓷刀具材料,并结合断续车削试验进行了验证。
The method of improving the thermal shock resistance of ceramic tool materials i. e. using functionally gradient ceramic tool materials, is discussed and verified by intermittent turning tests.
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