切削热是铣刀片磨损和破损产生的重要原因。
Cutting heat is the main reason of wears and damages of milling insert.
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.
介绍了基于量热法的碳钢高速车削切削热在切屑、工件、刀具及环境中的量化分配。
The distribution curve of workpiece temperature induced by the shear heat source is obtained.
在高速切削条件下,材料的切削机理将发生变化,切削过程将变得容易,切削热将降低。
In this process the heat of cutting is reduced and the material can be easily cut.
加工薄壁套类零件时,由于受切削热、机床精度、刀具角度等诸因素影响,零件极易变形。
Affected by cutting heat, machine tool precision, cutting tool angles and so on, thin-wall case deform easily.
讨论了航空铸造5号镁合金(ZM5)切削热的特点,分析了切削过程中温度场的分布规律。
This article discusses the heat in cutting 5th magnesium alloy (ZM5) and analyzes the distribution regularities of the temperature field in the cutting process.
钛合金易切削热氢处理技术是通过对钛合金进行热氢处理,改善其切削加工性能,提高机加工效率。
Technology of thermohydrogen treatment(THT) for free-cutting of titanium alloy is able to improve the machinability and machining efficiency of titanium alloy.
结合剪切面及前刀面接触区的平均温度和切削热解析法,研究了高速切削中切削热在切屑、工件和刀具部分的量化分配规律。
Also, combining theoretical analysis method of cutting temperature with the FEA, the distribution of cutting heat in components of chip, workpiece and tool was researched.
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。
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.
针对圆锯片基体的适张处理,在考虑切削热影响的情况下,应用ANSYS对新型组合式金刚石圆锯片基体进行应力、变形分析。
For tensity disposal of saw blade, the cutting heat was considered when analysing the stress and deformation of the new combined diamond saw blade by applying ANSYS.
去除热损伤的方法是仔细切削本体金属,然后,再做一次回火刻蚀检查,确保切削工作没有产生进一步的热损伤。
Heat damage generally is removed by carefully machining the base metal. Afterward, another temper etch inspection is done to ensure that the machining did not create more heat damage.
热硬度,即材料由于存在于切削区的高温而升温时仍能保持其硬度的能力。
Hot hardness, which is the ability of the material to retain its hardness at elevated temperatures in view of the high temperatures existing in the cutting zone.
超低温冷风可中和切削部位之局部温升,避免工件热变形,影响加工精度。
Super low temperature cold air can lower the temperature of cutting parts to avoid the deforming and precision reducing of the product in process.
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 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.
本文所建立的热模型,也有助于分析诸如刀具的间断切削、间断铣削等其它机械加工产生的热问题。
The model is also helpful to other thermal studies in machining, such as intermittent cutting and milling of tools.
工艺采用冷锻、热打、切削,GY为本厂产品的注册商标。
We use cold-forming, hot-striking and cutting to produce the products. The products registering trade mark is GY.
牙嵌齿轮因其结构形状所致无法切削加工,需要热锻成形。
The clutch gears can not be processed by cutting, but by hot forging due to its structure and shape.
采用等温热压缩试验对一种自行研制的高强度易切削锌基合金进行热变形行为的研究。
The hot deformation behavior of a self-developed zinc based alloy was investigated by isothermal compression test.
从工序定义、切削用量、热变形等九个方面讨论数控加工相对于传统加工在工艺上产生的变革。
Discuss the change between the numerical control machining and the traditional machine methods from nine aspects, such as working procedure define, cutting parameter, thermal deformation, etc...
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.
它们的更低的热导性和相对更高的承受高速切削和负前角所产生热量的抗压强度。
Their lower thermal conductivity and relatively higher under high speed cutting and negative rake Angle of heat generated by the compressive strength.
在其热塑塑料中独一无二的抗扭强度,使其成为小型钢制切削零件的廉价替代品。
In its thermoplastic unique the atb strength, make it become small steel cutting parts of cheap substitute.
通过控制基于连续的切削片的卷曲情况:把切削片处理成直而平的翅状切削片,来提高切削片的热传递能力。
Through controlling chip curl based on the continuous strip chips, the flat straight fins were processed to improve the fins' heat transfer capability.
通过控制基于连续的切削片的卷曲情况:把切削片处理成直而平的翅状切削片,来提高切削片的热传递能力。
Through controlling chip curl based on the continuous strip chips, the flat straight fins were processed to improve the fins' heat transfer capability.
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