采用T扫描方法可以得到扩散焊接界面的紧贴型缺陷分布。
The distribution of the kiss defects on diffusion welded interfaces could be obtained by T-scan imaging.
对不同工艺条件下和不同材料的焊接界面进行了对比分析。
The welding interface with different technology and different materials were discussed.
采用T扫描方法可以得到扩散焊接界面的紧贴型缺陷分布。
The distribution of the kiss defects on diffusion welded interfaces could be obtained by T-scan imagi...
爆炸焊接界面附近温升是由爆炸绝热压缩和畸形变形能沉积两者造成的。
The temperature rise near explosive welding interface is caused by explosive adiabatic compression and abnormal energy deposition.
采用扫描电镜、电子背散射衍射和透射电镜研究了焊接界面的组织结构。
The welded interface microstructure was investigated via scanning electron microscope (SEM), electron backscatter diffraction (EBSD) and transmission electron microscope (TEM).
结果显示,采用有机保护层的焊接界面金属间化合物层厚度明显超过了浸银层;
The thickness of intermetallic compounds (IMC) layer with OSP was higher than that of I-Ag.
然而,几乎和弱间化合物很容易在焊接界面形式在传统焊接过程中的组成范围广泛。
However, hardly and weakly intermetallic compounds are easy to form at welding interface in conventional welding process in wide composition range.
对铝-铝同质金属爆炸焊接进行系列实验,研究不同装药比条件下焊接界面的变化特征。
A series of Al-Al explosive welding experiments were carried out to investigate the morphology characters of welding interface under the condition of different charge ratios.
用扫描电子显微镜和能谱仪对钨和铜以及不锈钢的热等静压焊接试样的焊接界面进行了分析研究。
The SEM and EDS were used in this paper to analysis the welding interface of the specimens of tungsten and copper, copper and stainless steel made by HIP welding.
用SEM对断口和焊接界面作了分析,给出了两种样品的断裂特征和焊接过程中元素的扩散特点。
The fracture characters of two specimens and the dispersing feature of the elements during the welding process were showed in this paper.
实验表明,爆炸焊接界面虽然具有熔化、扩散和压力焊的特征,但不能用熔焊和扩散焊机理来解释爆炸焊接界面的成因。
Although the interface has the features of melt, and pressure welding, the molten and diffusion welding cannot explain the bonding mechanism of explosive welding.
通过计算绝热压缩温升和畸变形能沉积产生的温升,给出熔化判据,定量估计出了在小碰撞角下爆炸焊接界面熔化层厚度。
Throughcalculation of temperature rising callused by them, melt criterion is given, the thickness of melted layer near explosive welding interface with small collision Angle is estimated.
通过计算绝热压缩温升和畸变形能沉积产生的温升,给出熔化判据,定量估计出了在小碰撞角下爆炸焊接界面熔化层厚度。
Throughcalculation of temperature rising callused by them, melt criterion is given, the thickness of melted layer near explosive welding interface with small collision Angle is estimated.
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