摘要
采用“Speed”法电解萃取复型技术,用透射电子显微镜,研究了分别含有Ti-N和Ti-Nb-N的两种微合金钢焊接热模拟后,第二相粒子的溶解析出行为及对焊接热循环的响应。系统测定了不同热模拟工艺下第二相粒子的尺寸、数目及分布特征;分析了热模拟工艺参数(峰值温度 Tp,保温时间 tP,冷却时间 tmar/8)对析出颗粒尺寸分布特征的影响,探讨了钢中第二相颗粒的长大、溶解行为对高温奥氏体晶粒度的影响以及微量Nb与Ti复合添加的作用。结果表明,微量Ti-Nb复合合金化对高温奥氏体晶粒的细化作用比仅用微Ti合金化的钢更强烈,钢中微细第二相粒子对细化高温奥氏体晶粒具有主要作用。
Behavior of dissolution precipitation and response to simulated weld thermal cycles of fine second Phase particles in two microalloying steels were studied using transmission electron microscope (TEM ) by means of' speed' carbon extraction replicas technique. The sizes, numbers and distribution characteristics were determined as with different simulated weld thermal cycles. Effects of parameters of weld thermal cycle (i. e pulse temperature Tp, holding time at pulse temperature tp and cooling rate from pulse temperature tmax/8 ) on the size and distribution of particles were analysized. An investigation into effects of growth and dissolution behavior of particles on austenite grain sizes at high temperature and action of added element Nb to microalloying Ti steels wes conducted.
出处
《焊接学报》
EI
CAS
CSCD
北大核心
2000年第4期50-53,共4页
Transactions of The China Welding Institution
关键词
奥氏体晶粒
微钛钢
焊接热循环
第二相粒子
microalloying Ti - steel
weld
element Nb
austenite grain
(Ti, Nb) N particle
