1) High Quality Weld
优质焊接接头
3) dissimilar materials joint
异质焊接接头
4) welded joints
焊接接头
1.
Fatigue properties of welded joints of 16Mn steel in super long life region;
超长寿命区间16Mn钢焊接接头疲劳性能
2.
CTOD fracture toughness test for super-thick welded joints of D36 offshore platform steel;
海洋平台用钢D36超大厚度焊接接头CTOD试验
3.
Experiment on dressing for improving fatigue strengths of welded joints with low transformation temperature electrode;
利用低相变点焊条熔修方法改善焊接接头疲劳强度的试验
5) welded joint
焊接接头
1.
Low temperature toughness of ultra low-carbon 9Ni steel welded joints;
超低碳9Ni钢焊接接头低温韧性
2.
Development of feature database of welded joint for the oil box based on Msc.Marc;
基于Msc. Marc的油箱结构焊接接头特征库开发
3.
Effect of heat treatment with protective coating on microstructure of D406A steel welded joint;
热处理保护涂料对D406A钢焊接接头显微组织的影响
6) weld joint
焊接接头
1.
Microstructure and properties of Al-Mg-Sc alloy weld joints filled with Al-Mg-Zr and Al-Mg-Zr-Sc weld wires;
含钪与不含钪铝镁钪合金焊接接头的组织与性能
2.
Stress corrosion cracking of weld joint of pipeline steel X70 in near-neutral solution;
X70钢焊接接头在近中性溶液中应力腐蚀行为研究
3.
Fatigue performance of weld joint for high strength bridge steel
高强度桥梁钢焊接接头疲劳性能的研究
补充资料:焊接接头晶间腐蚀
焊接接头晶间腐蚀
welded joint intercryctalline corrosion
honjle」}etou jingj旧n fush{焊接接头晶间腐蚀(welded joint intererys-talline eorrosion)在焊接接头处出现的沿晶粒边界发生的腐蚀现象。外观仍可有金属光泽,但实际上晶粒已失去联系,钢质已变脆。在奥氏体不锈钢部位有焊缝晶间腐蚀、敏化区腐蚀和刀状腐蚀等三种不同部位的晶间腐蚀。关于奥氏体不锈钢的晶间腐蚀机理有多种学说,其中以碳化物(如er23e。或(er、Fe)23e。等)在晶界沉淀现象的“贫铬理论”比较为人们所接受。所以为防止这类晶间腐蚀尽量降低含碳量,使焊缝金属含有一定量的稳定元素(如钦、妮等)以防止或降低晶界Cr23C。的形成。此外,焊缝的组织状态也有影响,单相奥氏体组织的焊缝有利于柱状晶的发达,出现贫铬层后会使腐蚀贯穿于晶粒之间,若焊缝为奥氏体了加高温铁素体占的双相组织,由于树枝状被打破,不能构成集中的腐蚀通道。高铬铁素体也会有晶间腐蚀,但与奥氏体钢不同的是从高温急冷下来即有晶间腐蚀倾向,可通过650一85oC加热、缓冷使铬扩散均匀化来消除贫铬层,防止晶间腐蚀。 (许祖泽)
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