共查询到16条相似文献,搜索用时 78 毫秒
1.
选择合理成分设计及轧制工艺,开发出满足GB/T28905—2012要求的40 mm和80 mm厚160 MPa级建筑抗震用低屈服点钢。所开发的40 mm钢板的微观组织为F+B,晶粒度为7~7.5级,屈服强度在157~168 MPa,抗拉强度在291~304 MPa,0℃下冲击功在289~311 J;所开发的80 mm钢板微观组织为F,晶粒度为5~5.5级,屈服强度在150~163 MPa,抗拉强度为280~285 MPa,0℃下冲击功在73~92 J。试制的LY160钢板具有良好的高应变低周疲劳性能和焊接性能,为160 MPa级低屈服点钢的工业试制提供了依据。 相似文献
2.
低屈服点钢在建筑抗震设计中的应用 总被引:5,自引:0,他引:5
随着钢结构建筑抗震设计水平的进步,消能抗震设计已成为建筑抗震的一个发展方向.低屈服点、极低屈服点钢具有良好的塑韧性和低达100 MPa的屈服强度,并具有较狭窄的强度波动范围,而且成本低、易维护更换,在抗震阻尼构件的制造应用中具有显著的优势,从而成为建筑抗震材料中越来越受到重视的新钢种.介绍了抗震用低屈服点钢的性能要求及其作为抗震用钢的优点,同时还介绍了低屈服点钢的发展历史、现状及市场前景. 相似文献
3.
4.
5.
6.
7.
8.
9.
10.
通过超低碳加铌的成分设计和轧后软化热处理工艺成功制备出100 MPa级极低屈服点钢,研究了其组织与性能,并阐述了其软化机理。结果表明,软化热处理前后,试验钢组织均为单一的多边形铁素体,铁素体晶粒和Nb(C,N)析出相随软化热处理温度升高而粗化。特别地,950 ℃软化热处理时重新奥氏体化后的相变铁素体晶粒尺寸超过90 μm。固溶和沉淀强化增量之和与屈服强度随软化热处理温度的变化曲线有很好的对应关系,屈服强度随软化热处理温度升高整体呈降低趋势,主要原因是沉淀强化和细晶强化增量减小,但碳、氮原子重新回溶引起屈服强度回升。试验钢经850 ℃软化热处理获得最佳综合力学性能,950 ℃软化热处理后的强塑性很好,但因晶粒粗大导致韧性极低。 相似文献
11.
《Baosteel Technical Research》2010,(Z1):123
With the development of technology for earthquake resistant,the research of the low yield point(LYP) steel which used for the fabrication of energy dissipation damper were paid more and more attention.The common studies of the low yield point steel is mainly about the performance with constant amplitude and constant frequency.The low cycle fatigue properties of low yield piont steel were studied by series of test with continuous varying amplitude and varying frequency with the materials testing system by us.The test results showed that low yield point steel of Baosteel have excellent low cycle fatigue properties,which meet the requirement for steel used for the fabrication of energy dissipation damper completely.The low cycle fatigue performance of low yield point steel of Baosteel mainly depended on the amplitude in test.And the effect of varying frequency for the low yield point steel was more less than varying amplitude. 相似文献
12.
热轧H型钢的高应变低周疲劳性能研究 总被引:2,自引:0,他引:2
对热轧H型钢的高应变低周疲劳性能进行了研究。采用轴向应变控制的方法,在Instron-1342型电液伺服疲劳试验机上测定了热轧H型钢的低周疲劳性能数据,研究了在循环载荷下材料的循环应力响应特征、循环应力与应变关系,并用Coffin-Manson公式拟合得到热轧H型钢的疲劳寿命计算公式,据此计算了 =100时的 值。通过断口扫描发现,裂纹不仅在试样表面处形核,同时也在试样内部杂质处形核,然后通过不断的扩展形成微裂纹,许多微裂纹通过扩展连接形成宏观裂纹,最终导致材料断裂。 相似文献
13.
The low cycle fatigue (LCF) behavior of a high-strength structural steel was investigated in the strain rate range of 4×10-5-0. 12 s-1 (0. 001-3 Hz) under constant total strain (±1%) control. The cyclic stress response at all strain rates exhibited behavior of rapid softening in the early stage of fatigue life and subsequent saturation up to failure. It was found that the stress amplitude, the plastic strain amplitude, the plastic strain energy density and the fatigue life depend mainly on the strain rate. The strain rate of 0. 012 s-1 was found as a transition point where the LCF of the steel showed different behavior from low strain rate to high strain rate. The relationship between the time to failure and strain rate was expressed well by a power law relation. The fracture surfaces of the fatigue samples were characterized by using a scanning electron microscope (SEM) and the fracture mechanisms were discussed in terms of time-dependent deformation of the steel. 相似文献
14.
15.
低合金耐磨铸钢的研究与应用 总被引:8,自引:0,他引:8
低合金耐磨铸钢因含有Cr、Mo等元素,且显微组织为马氏体或马氏体+贝氏体,不仅强度、硬度远高于高锰钢,冲击韧性也接近于高锰钢。目前在大型水泥磨、煤磨上使用已显示出明显的优势,使用寿命比高锰钢提高1 ̄2倍,在很大程度上可取代高锰钢,具有广泛的应用前景。介绍了国内外在这一方面的研究与应用情况。 相似文献
16.
采用扫描电镜分析,硬度测试和摩擦性能测试等手段,研究了稀土对低合金耐磨铸钢组织和性能的影响。结果表明,在低合金耐磨铸钢中添加0.15%稀土,可细化合金铸态组织,增加铸态组织中的铁素体数量,减少珠光体数量,同时可细化热处理后合金的贝氏体组织,使铁素体形态和大小分布均匀,马氏体数量减少。添加稀土后可使铸态合金硬度提高9.4%,摩擦系数由0.136 9减小为0.081 9。 相似文献