The other with different finishing temperature was tested to study the influence of finishing temperature on its low-temperature flexibility.
其中一组成分角钢又分为四种不同终轧温度,通过实验研究终轧温度对角钢低温韧度的影响。
The relatively low finishing temperature can lead to the coarsened grain and high retained strain before transformation.
终轧温度的降低可引起奥氏体晶粒的粗化和残余应变的显着提高。
As a result, higher mill entry temperatures, lower mill exit speeds at a given finishing temperature and thinner gauges in the austenite range could be realized.
结果,轧机的入口温度较高,实现了在给定的精轧出口温度较低,以及在奥氏体范围内更薄的压力表。
The results show that, when cooling velocity increases, the beginning temperature and the finishing temperature of phase transformation are both decrease, the grain is obviously refined.
结果表明:随着冷却速度的增大,相变开始温度和结束温度均降低,晶粒明显被细化。