焊接温度刻度在面板上,方便控制。
插卡式温度控制,防止随意改动焊接温度。
Plug-in card temperature control, to prevent arbitrary changing welding temperature.
提高搅拌头的旋转速度可以成比例地提高焊接温度;
The welding temperature was directly proportional to rotation speed.
焊接温度是在压力下的1200年1500 F程度。
Temperature for welding is 1200-1500f degree under pressure.
本发明涉及一种由焊接速度控制焊接温度的焊管控制系统。
This invention relates to a kind of pipe welding control system for controlling welding temp. by welding speed.
发现焊接温度、材质以及焊接压力等对焊接质量有很大影响。
It was found that the materials, the welding temperature and the welding pressures have a great influence on the...
建立了一种基于试验的非线性曲线拟合的新方法来分析焊接温度场。
Welding temperature field was analyzed by using non-linear curve fit method based on experiments.
外加纵向磁场可以改变电弧加热有效半径进而影响焊接温度场分布。
Welding temperature distribution was effected by the effective heated radius of the arc regulated by different external longitudinal magnetic intensity.
在使用中可根据不同的焊接温度需要,方便地更换燃烧头或烙铁头。
The combustion head or the welding head can be exchanged conveniently in the process of using according to the needs of different welding temperatures.
在高频直缝焊管生产过程中,焊接温度是影响焊缝质量的首要因素。
Welding temperature is the most important factor which influences the quality of the welded seam in the process of producing ERW pipe.
表明本计算方法能够准确计算焊接温度场,是一种实用的工程计算方法。
By comparing the data of computation and experiment, it shows that this is a practical method which could be used for predicting welding temperature distribution.
焊接温度场数值模拟可以比较准确预测并反映整体焊接温度场实际分布。
Welding temperature field numerical simulation method was able to forecast and reflect the real distribution of whole welding temperature field accurately.
获得了非封闭环焊缝焊接温度场和残余应力场,并对模拟结果进行了分析。
The temperature field and residual stress field of unclosed hoop weld were obtained and the results were discussed.
研制了一种新颖的单镜头双波长红外图像比色测温系统来实时检测焊接温度场。
A new infrared temperature measure system based on the calorimetric method has been developed to survey the welding temperature field in real time.
中间层的扩散速度与焊接温度呈正比,母材的成分对焊接温度选择有重要影响。
The diffusion velocity of the interlayer is direct proportion to welding temperature, the composition of base metal is the key of the welding temperature choice.
提出一种依次判断焊接温度场各影响因素大小的方法,以便精确模拟焊接温度场。
A method to estimates the role of the interrelated factors that have influence on the precision of simulation in temperature field is study.
在焊接电解电容器时,其焊接时间和焊接温度不应超过10秒钟及260摄氏度。
When soldering the electrolytic capacitor, the soldering time should never be permitted over 10 seconds, and for 260·C of the soldering temperature.
对配方所必须作出的变动即是添加能够承受较高的预热和焊接温度的新活化剂配系。
The formulations change required are new activator systems, which can sustain higher preheat and soldering temperatures.
焊接温度是焊管生产工艺中的重要参数,准确测量焊接温度对提高焊接质量和劳动生产率意义重大。
Welding temperature is the important parameter in welding procedure, and accurate measuring can improve welding quality and productivity.
所研制的CCD图像传感器系统,通过采用比色测温的方法,实现了对焊接温度场图像的实时采集与处理。
In the developed CCD image sensor system, real-time collecting and disposing the welding temperature field image is realized by means of using the method of colorimetric temperature measure.
根据不均匀的焊接温度场和施焊时焊接构件的刚性条件,可以认为焊接残余变形和残余应力是不可避免的。
According to the asymmetry welding temperature fields and the rigidity of component when welding, we could think it is inevitable that welding would bring remains-strain and remains-stress.
在总结前人经验的基础上,通过平板堆焊实例利用直接法同时计算焊接温度场和应力场,模拟出了焊接过程。
Based on summing up others' experience, this paper research the direct method to calculate and simulate the temperature and stress field at the same time through a board surfacing welding sample.
采用瞬时液相扩散焊(TLP)连接技术进行了TP 304 H不锈钢管的焊接,分析了不同焊接温度对接头组织、成分和力学性能的影响。
Transient liquid phase (TLP) bonding was applied to join TP304H stainless pipe, and the effect of bonding temperature on joint microstructure and mechanical properties was studied.
本文利用等离子体光谱诊断法对水下焊接电弧温度进行了比较系统的研究。
In this paper the temperature of underwater welding arc is investigated systematically by means of spectral diagnostics of plasma.
如果阀体的材料是可以焊接的,但膨胀系数差异很大,或者工作温度的变化幅度范围较大,螺纹连接部必须进行蜜封焊。
If the valve body material can be welded, but very different thermal expansion coefficient, or changes in operating temperature range of a larger thread junction closure weld must be honey.
结果表明,X80级管线钢在焊接过程中形成的热影响区由不同温度下形成的梯度组织组成。
The results indicate that HAZ produced during welding of grade X80 steel is made up of grads structure under different temperature.
结果表明,X80级管线钢在焊接过程中形成的热影响区由不同温度下形成的梯度组织组成。
The results indicate that HAZ produced during welding of grade X80 steel is made up of grads structure under different temperature.
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