The machining error caused by the flank wear of cutting tool in milling processes is analyzed, and a mathematic model about machining errors was proposed based on the flank wear of cutting tool.
对铣削加工过程中后刀面磨损对加工精度的影响进行了分析和研究,建立了基于刀具后刀面磨损的铣削加工误差的数学模型。
In many cases of stainless steel cutting operations with carbide tools, a tool life strongly depends on flank notch wear of depth of cut rather than average flank wear of main cutting edge.
硬质合金刀具在不锈钢加工中,其刀具耐用度主要是取决于后刀面边界磨损而不是主切削刃后刀面的平均磨损量。
Cutting temperature has direct effects on not only tool wear and tool life but also machining accuracy and quality of machined surfaces.
切削温度不仅直接影响刀具的磨损和耐用度,而且也影响工件的加工精度和已加工表面质量。
Oxidation wear appeared at the wear edge of rake face and flank face of cutting tool.
硬质合金刀具的氧化磨损主要发生在刀具前刀具和后刀面的磨损边缘区。
Using VC as a design platform, a real-time detecting and compensation system for tool wear based the analyzing and disposing for signals of cutting force is introduced.
介绍了以VC为平台设计开发的一套基于切削力信号分析与处理的刀具磨损实时监测和补偿系统。
The use of cryogenic nitrogen gas jet to reduce the temperature of cutting zone and to avoid oxidation wear of tool in high speed milling titanium alloy was presented.
为降低切削区温度、防止刀具的氧化磨损,提出在低温氮气射流条件下进行钛合金的高速铣削加工。
The results show that the metal soften is dominant in dry turning process, a good surface can be acquired in wet turning, and the cutting fluid takes an effective effect at the end of tool wear.
试验表明:干切削状态下金属软化效应占主导地位,湿切削可获得更好的表面粗糙度,切削液在刀具磨损后期开始发挥作用。
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.
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。
One is the current signal model with bore cutting condition, and the another is the model of tool wear with cutting conditions and time.
第一种是基于电流信号的刀具磨损模型,第二种是直接基于刀具磨损量的模型,这两种模型均滤除了切削条件的影响。
In single factor test, the influencing factor of tools wear was discussed, such as tool material, cooling conditions, cutting depth and feed speed.
以单因素实验法分别考察了刀具材料、冷却条件、切削深度、进给速度等对刀具磨损的影响规律。
Cutting force in metal cutting process, one of the main physical phenomena, it is direct effects on cutting heat generation, the tool wear and durability and the workpiece processing quality.
切削力是金属切削过程中的主要物理现象之一,其大小直接影响切削热的产生,并影响刀具磨损和耐用度,工件的加工质量。
This paper researches on the tool wear condition monitoring by cutting sound signal and workpiece surface texture based on analysis of the relative situation.
本论文在分析现状的基础上,从切削声信号和工件表面纹理这两个方面对刀具磨损状态监测技术进行了研究。
According to dynamics, this paper analyses effect of the tool flank wear on cutting force. It gives relationship between the tool flank wear and dynamic cutting force.
本文从动力学角度分析了车削过程中刀具后刀面磨损量对切削力的影响,得出切削力动态成分与刀具后刀面磨损量之间的关系。
The fractal theory is introduced into the wear investigation of cutting tool for studying the modern tool.
为了更好地研究现代刀具,将分形理论引入刀具磨损研究。
Finally, the influence of cutting parameters and tool wear on burr formation are studied through the experiment of machining micro-flute.
最后,本文针对微槽切削加工过程,分析了切削参数和刀具磨损对工件毛刺形成的影响。
An experimental study on cutting force, cut - in impact force and cutting - tool wear are conducted in the interrupted cutting of aluminum alloy with PCD tools.
本文就PC D刀具断续切削铝合金时的切削力、切入冲击力和刀具磨损等问题进行了试验研究。
Especially the tool wear size of JT9 and JT11 is small and the machined surface quality is high. In cutting 45 anneal steels and 45 hardened steels by JT9 and JT11 tools, chips were segments.
特别是JT9和JT11刀具,不但刀具磨损量小,加工表面质量好,而且在切削45钢和45淬硬钢时切屑为崩碎切屑。
In order to enhance surface quality, therefore, optimum cutting data, tool wear, surface roughness of flank faces of tools a…
为提高加工表面质置,必须优选切削参数,重视刀具磨损、后刀面粗糙度及工件材料组织的缺陷。
Cutting temperature, relation curves of wear with cutting time and cutting speed, microscopic features and chemical changes of rack face and rear face of the tin coated tool were measured.
测绘了切削温度、后刀面磨损量与切削时间或切削速度的关系曲线,分析了刀具前、后刀面显微磨损、破损形貌和化学变化。
The mapping relationship between machining parameters and cutting forces in different tool wear states was built up by means of B-spline neural network in this new methodology model.
通过比较实时采集的切削力与不同刀具磨损值对应的切削力大小,可确定刀具的磨损状态,并利用建立的简化模型计算刀具的精确磨损值。
The result of this research shows that the antifriction capability, wear and heat resistance of the layer of the treated cutting tool have been improved.
研究的结果表明,经处理过的高速钢刀具表层其减摩性、耐磨性和耐热性均有所提高。
The results showed that the steel after combined treatment had higher surface hardness and wear resistance, and prolonged the service life of cutting tool.
结果表明,该钢经复合处理后,具有较好的表面硬度和良好的耐磨性,显著地增加了刀具的使用寿命。
The article put emphasis upon the introduction of circular saw blade research, band saw blade research, wear and erosion of cutting tool, the new technique in aspects of timber milling c...
文章着重介绍了圆锯片研究、带锯条研究、刀具磨损和腐蚀、木材铣刀方面的新技术及木材高速切削的一些研究成果,综述了刀具设计和刀具磨损方面新的研究理论。
Using electronic sweep mirror, electronic prober and energy spectrum meter to investigate the groove shape wear of a cutting tool, while numerical controlled turning the pure nickle.
本文对数控车削纯镍时刀具的沟槽磨损问题,应用扫描电镜、电子探针、俄歇能谱仪等进行了探讨。
Cutting force, cutting temperature and tool wear are the main indicators reflecting the cutting process, especially the cutting force, the use of wider range.
切削力、切削温度和刀具的磨损是反映切削过程的主要指标,特别是切削力,其使用范围更广。
In the case of UMT, as cutting process has occurred in the local area adjacent to the tool tip, the wear mechanism must differentiate with macroscopic world.
在超精密加工中,切削过程仅仅发生在刀尖局部微观区域,刀具的磨损规律必然与宏观条件下有很大不同。
In the case of UMT, as cutting process has occurred in the local area adjacent to the tool tip, the wear mechanism must differentiate with macroscopic world.
在超精密加工中,切削过程仅仅发生在刀尖局部微观区域,刀具的磨损规律必然与宏观条件下有很大不同。
应用推荐