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The local induction heating process and the whole induction heating process were adopted to develop the X80 φ1219 mm×22 mm induction bends in this paper. After the tempering of the bends, the effect of induction heating on the properties of X80 longitudinal submerged-arc welding line pipe was studied. The results show that for the X80 bend manufactured via the local induction heating, both the tensile strength and yield ratio of unquenched straight tangents are higher than those of the quenched bend area. The toughness of straight tangents is lower than that of the bend area. The strength and toughness of straight tangents do not match perfectly that of the bend area. The induction heating can improve effectively the toughness of weld pipe, reduce the tensile strength and yield ratio to some extent. The whole induction heating makes the match of properties between the straight tangents and the bend area reasonable, thus it is an optimum process for the manufacturing of X80 induction bend. 相似文献
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X80钢级1422mm大口径管道断裂控制技术 总被引:2,自引:0,他引:2
在中俄东线天然气管道工程中采用高钢级(X80钢级)、大口径(外径为1 422 mm)的管道进行高压输送(压力为12MPa)可以有效增加天然气输送量,满足我国能源战略的需要。然而随着钢级、输送压力、管径及设计系数的不断提高,管道的延性断裂成为断裂的主要方式,止裂控制便成为研究的重点。为此,对止裂韧性计算的主要方法 Battelle双曲线(BTC)方法以及断裂阻力曲线和减压波曲线进行了深入研究,明确了BTC方法的原理及其适用范围,同时分析了BTC方法应用于高强度、高韧性管线钢时所存在的问题,给出了目前国际上针对BTC计算结果常用的修正方法。回顾了俄罗斯Bovanenkovo-Ukhta外径为1 422 mm X80管道断裂的控制方案,针对中俄东线管道的设计参数,对BTC计算结果进行了修正,进而制订出符合中俄东线天然气管道安全要求的止裂韧性值(245 J)。 相似文献