The cemented carbide tool coated with diamond film is one of the important application of CVD diamond film.
金刚石薄膜涂层硬质合金刀具是CVD金刚石薄膜的重要应用领域之一。
The Co concentration in the etching liquor after different acid corroding time for YG series cemented carbide tools was tested by atomic absorption spectrometry,the hardness change of tools was detected by HRC and the microstructure of diamond film was observed by scanning electron microscope.
采用原子吸收光谱(AAS)标准曲线法对YG系列硬质合金刀具酸蚀后浸蚀溶液中的Co浓度进行了定量测试;采用洛氏硬度(HRC)计跟踪测试了不同酸蚀时间后刀具硬度的变化;采用扫描电子显微镜(SEM)观察了硬质合金刀具酸蚀前后的组织变化及金刚石薄膜的组织形貌。
Based on the high-speed milling experiment for titanium alloy Ti6Al4V with fine grain cemented carbide tool Y330,the tool wear and breakage modes and failure mechanisms were analyzed.
基于用Y330细晶粒硬质合金刀具高速铣削Ti6Al4V钛合金的试验,分析了刀具的损坏形态和失效机理。
The diamond film was deposited on WC-6%Co(mass fraction) cemented carbide by DC arc discharged plasma chemical vapor deposition.
低压气相金刚石薄膜硬质合金刀具在直流弧光放电等离子体CVD镀膜设备上制备。
The contrast dry cutting experiments are carried out to study the cutting performance of Ni based PM parts by using ceramic and cemented carbide cutting tools.
对陶瓷刀具和硬质合金刀具进行了镍基粉末冶金零件的干切削对比试验,测量了切削力和加工表面粗糙度,分析了刀具的磨损机理。
Take difficult-to-cut materials and carbide cutting tools as the research objects, aim at each cutting character, using Rule-based-Reasoning, establish a cutting tools material intelligent selection system which is based on Visual C++6.
以难加工材料和硬质合金刀具为研究对象,针对它们各自的切削加工性,利用基于规则(RBR)推理方法,以Visual C++ 6。
The percentage lf carbide cutting tools consrmed by the world at 2003 and the fast increasing of carbide gear hob was analyzed.
分析了2003年硬质合金刀具在全世界刀具消费值中的比例,及硬质合金齿轮滚刀的迅速发展。
This paper analyzed the changes of Japanese carbide cutting tools in 2003,and the influence of Japanese mould & IT industry on these changes.
分析了2003年日本硬质合金刀具销售值占刀具总销售值的比例,及硬质合金立铣刀的迅速发展。
In order to inquiry into the grinding characteristics of cemented carbide cutting tools, the ground point appearances of eight kinds of cemented carbide inserts are investigated by contrast test.
为探讨硬质合金刀具的研磨特性,对8种硬质合金刀片研磨后的刀刃状态进行了对比试验研究,提出利用刀尖附近切削刃的微特征及参数来综合评价薄层切削刀具的修磨质量,并分析了研磨条件和材料金相组织对刀尖状态的影响。
carbide tool blade grinding machine
硬质合金刀片刃磨机床
Heavy duty carbide insert blanks for cutting tools
GB/T14446-1993重型刀具用硬质合金刀片毛坯
diamond and carbide tool boring machine
金刚石和硬质合金刀镗床
rectangular indexable carbide insert
矩形可转位硬质合金刀片
throw-away face cutter
不重磨硬质合金面铣刀
carbide indexable face-milling cutter
硬质合金可转位面铣刀
endmill welded with carbide insert
硬质合金焊接立铣刀
solid carbide end mill
整体硬质合金立铣刀
carbide helical end mill
硬质合金螺旋立铣刀
carbide-tipped internal turning tool
硬质合金内孔焊接车刀
carbide-tipped offset planing tool
硬质合金焊接偏刨刀
side and face milling cutter with carbide insert
硬质合金三面刃铣刀
straight shank solid carbide endmill
硬质合金直柄立铣刀
carbide-tipped cut-off turning tool
硬质合金焊接切断刀
carbide-tipped dovetail planing tool
硬质合金焊接燕尾刨刀
carbide machine reamer with taper shank
硬质合金锥柄机用铰刀
carbide machine reamer with parallel shank
硬质合金直柄机用铰刀
