最高切削温度随着切削速度的增大而增高。
The maximum cutting temperature increases with the increase in cutting speed.
该文研制了一套铣削瞬时切削温度测量系统。
The measurement system of milling transient cutting temperature is developed.
切削温度的改变。
切削温度的变化。
并对现有测量切削温度的标定与实验方法进行了一些评述。
Some evaluations are also made on currently used testing and calibrating methods of the cutting-temperature measurement.
当切削速度超过每秒500米时,切削温度下降而不是上升。
When the cutting speed is over 500 metres per second, cutting temperatures decrease rather than increase.
分析了刀具前角对切屑几何形状、切削力和切削温度的影响。
The effect of tool rake angle on the geometric shapes of the chip, cutting force and cutting temperature is investigated.
切削热与切削温度的产生和影响是高速切削技术研究的重要内容。
Cutting heat, cutting temperature and their effects are the important research contents of high speed cutting technology.
切削温度与刀具磨损、工件加工表面完整性及加工精度密切相关。
The cutting temperature play an important role in the high speed cutting process, concerning about the tool wear, workpiece surface integrity and machining precision.
切削速度提高,切削温度上升,应注意在高速条件下是否会对刀具造成烧伤。
The cutting temperature rise with the increase of the cutting speed, so high-speed cutting conditions should be made sure not to bum the cutting tool.
在钛合金车削和拉削加工过程中,对切削温度进行试验研究有着十分重要的意义。
During the turning and broaching operation of titanium alloys, experiments and researches of cutting temperatures are of great significance.
对离心力场,切削温度场共同作用下的锯片最佳辊压适张度处理位置进行了计算分析;
The optimum position of roll tensioning is analyzed under the action of the centrifugal force and cutting temperature stresses. The effect of tamped radius on the optimum position is also analyzed.
在金属切削过程中,切削区的冷却和切削温度的恒定对于提高切削质量有重要的意义。
In the metal cutting, the cutting cooling and steady temperature have some important significant in pare mass.
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。
Cutting temperature has direct effects on not only tool wear and tool life but also machining accuracy and quality of machined surfaces.
该仪器具有显示温度波形曲线、热电偶标定、确定切削温度指数公式、判定切削状态的能力。
It is capable of displaying temperature flexuous curve, calibrating thermocouple, establishing the cutting temperature exponential formulation and predicating the state of cutting.
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。
Cutting force, cutting temperature and tool wear are the main indicators reflecting the cutting process, especially the cutting force, the use of wider range.
锡可有效改善钢材的易切削性能,原因是在切削温度范围内富集在晶界的锡使钢材的塑性降低。
It improves the machinability of steels because of brittlement of grain boundaries resulting from the tin segregating on the grain boundaries of the steels.
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.
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.
在实验研究的基础上,推导了基于最佳切削温度守恒定律的刀具最大尺寸使用寿命方程并给出了相关参数。
On the basis of experiments and the conversation law of optimal cutting temperature, the equation of maxim dimension tool life is derived and the relation parameters of the equation are also given.
通过三维切削模拟可以获得在不同刃倾角精密切削过程的条件下切屑形状、切削力和切削温度场的分布情况。
The effects of tool's inclination angle on chip formation and the temperature fields, as well as the cutting forces, back forces and feed forces are discussed.
根据实验观察,采用热氧化法对高速切削的淬硬钢切屑成色进行分析,以此判断在切削过程中切屑经历过的切削温度。
It analyses analyzed the colors of hardened steel under the conditions of the high-speed cutting by the thermal oxidation method, and the cutting temperatures are estimated.
介绍了一种用常规的自然热电偶和标准热电偶方法实现高速加工过程中切削温度的直接接触式测量的计算机辅助测温系统。
A computer aided measurement system is used to measure the cutting temperature directly in high-speed machining by natural thermocouples and standard thermocouples.
通过对刀具使用寿命特性的分析,在实验研究的基础上,推导了基于最佳切削温度守恒定律的刀具最大尺寸使用寿命方程。
On the basis of experiments and the conversation law of optimal cutting temperature, the equation of maxim dimension tool life is derived and the relation parameters of the equation are also given.
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。
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.
“新型化爆材料动态切削温度测试系统”这一课题来源于中国工程物理研究院重大基金项目(项目编号:2001Z 0301)。
The project of the new dynamical cutting temperature measuring system for chemical explosive material is funded by China Academy of Engineering Physical (NO. 2001z0301).
当工件材料硬度低于HRC50,切削力和切削温度的变化规律符合普通的金属切削理论,硬度超过HRC50则切削力和切削温度的变化规律大不相同。
While the material machined hardness is lower than HRC50, the changing rule of cutting force and cutting temperature was accordant with the common cutting theory.
当工件材料硬度低于HRC50,切削力和切削温度的变化规律符合普通的金属切削理论,硬度超过HRC50则切削力和切削温度的变化规律大不相同。
While the material machined hardness is lower than HRC50, the changing rule of cutting force and cutting temperature was accordant with the common cutting theory.
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