2) brazing temperature
钎焊温度
1.
Electron beam brazing temperature field PID control system;
电子束钎焊温度场PID控制系统
2.
Effect of processing parameters including brazing temperature and holding time on the joint mechanical property was also discussed by optical microscope,SEM and EDS.
研究表明,钎焊温度为900℃,保温时间为5 min时,接头抗剪强度最高,达144 MPa。
3.
The effects of brazing temperature and time on the structure and property of the brazed joint between graphite and TZM alloys with Ti-based filler in vacuum were presented.
研究了钛合金真空钎焊石墨与TZM合金过程中,钎焊温度和时间对钎焊接头组织和性能的影响。
3) soldering temperature
钎焊温度
1.
The method to ensure proper soldering temperature and the principle for that is also dealt with.
指出了保证钎焊温度的方法及其原理等。
2.
The results showed that the IMC on the joint boundary indicated the difference in its formation and distribution under different soldering temperatures and times, resulting in the variation of the joint shearing strength.
结果表明:在不同的钎焊温度和钎焊时间条件下,接头界面处金属间化合物的形成及分布是不同的,并由此导致了接头抗剪强度的变化。
3.
The results show that the melting properties of the solder alloy are satisfactory,and the soldering temperature and time have much effect on the shearing-strength of the joints.
制备了急冷型SnAgCu系钎料合金,在对其进行熔化特性测定和钎焊工艺试验后,对钎焊接头的力学性能和显微组织进行了测试分析,结果表明:所制备钎料合金的熔化特性满足要求;钎焊温度和钎焊时间对接头的剪切强度有较大影响,工艺参数为275℃×4。
4) jointing temperature
钎焊温度
1.
As shown from test,with improving of jointing temperature and prolong of heat preservation time,welding seal organize becomes asymmetry and becomes bulky and carrying capacity of welding seal is worst.
试验表明,钎缝组织随着钎焊温度的提高和钎焊保温时间的延长,其成分变得不均匀、组织变得粗大,钎焊接头的承载能力较差。
2.
As shown from test,with improving of jointing temperature and prolong of heat preservation time,welding seal organize becomes asymmetry and becomes crassitude and carrying capacity of welding seal is worst.
试验表明,钎缝组织随着钎焊温度的提高、钎焊保温时间的延长,其成分变得不均匀、组织变得粗大,钎焊接头的承载能力较差。
5) brazing temperature range
钎焊温度范围
6) Vacuum brazing temperature
真空钎焊温度
补充资料:焊接温度场
焊接温度场
field of weld temperature
hanJ旧wenduchang焊接温度场(field of weld temperature)指金属焊接过程中的某一瞬间,金属怀接接头中各点的温度分布状态。通常用等温线或等温面来表示。所谓等温线或等温面就是把焊件上瞬时温度相同的各点连接在一起成为一条线或一个面。各等温线或面不能彼此相交,而它们彼此之间存在着温度差。热能集中则温度场的范围小。影响温度场的因素很多,其中主要有:(l)热源的性质和焊接规范;(2)被焊金属的热物理性质;(3)焊件的形态;(4)热源的作用时间和移动速度。焊接温度场决定了焊接应力场和应变场,它还与冶金、结晶、相变过程有不可分割的联系,使之成为影响焊接质量和生产率以及金属焊接性的主要因素之 (李维茜)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条