【摘 要】
:
With a strain rate range of 0.01-10 s-1and a deformation temperature range of 1110-1200℃,the isothermal compression test was performed on one powder metallurgy superalloy which is macroscopic segregation free.Using electron backscatter diffraction,the eff
【机 构】
:
College of Mechanical and Electrical Engineering,Shaanxi University of Science and Technology,Xi’an
论文部分内容阅读
With a strain rate range of 0.01-10 s-1and a deformation temperature range of 1110-1200℃,the isothermal compression test was performed on one powder metallurgy superalloy which is macroscopic segregation free.Using electron backscatter diffraction,the effect of strain rate and deformation temperature on grain shape and grain size of superalloys during thermal deformation was studied.The results established that exquisite and equiaxed dynamic recrystallization(DRX)grains are procured at supernal deformation temperature and high strain rate because of the high dislocation density.At the same time,the interaction between high DRX nucleation rate and low grain growth rate at high strain rate is favorable in making finer DRX grains.The equivalent medial grain size expanded with lowering strain rate and elevating proof temperature.Moreover,the grain shape was researched by the effective method of aspect ratio.Most aspect ratio of original grains is 0.61,and the aspect ratio has important implications for DRX and grain growth process.The average aspect ratio increases slightly when deformation temperature rises from 1110 to 1140℃,while the average aspect ratio increases memorably as the deformation temperature is higher than 1140℃.
其他文献
Iron ore containing BaSO4 may have a senes of effects on the quality of the sinter and performance of the blast furnace.Thus,the effect mechanism of BaSO4(0-6.0 mass%)on the compressive strength,mineral composition,and microstructure of the sinter was inv
Effect of titanium microalloying on the microstructure and mechanical properties of vanadium microalloyed steels for hot forging was studied.Titanium microalloying improves the mechanical properties mainly through refining the austenite grains.When the he
The effects of Si content,graphite volume fraction and pearlite volume fraction on the thermal conductivity of ductile iron were studied based on theoretical model analysis.Calculated results showed that the thermal conductivity of ductile iron was more s
高炉炼铁过程通过增煤减焦实现节能减排目标,针对人工操作模式存在主观性、粗糙性和滞后性难以实现增煤减焦的问题,采用上下协同优化控制方法,一方面通过上部提前匹配减焦方式维持高温区热平衡,另一方面通过富氧鼓风保证下部喷入煤粉的高消化率,使煤粉在风口回旋区充分燃烧.进而从控制角度解析描述增煤减焦过程,将铁水温度的稳定控制问题转换为风口回旋区温度的稳定控制问题,提出增煤减焦协同优化控制策略及风口回旋区温度对焦炭和煤粉不同滞后时间的稳定控制策略.首先,建立煤粉燃烧系统的T-S模糊模型,将辨识得到的喷煤最大时延区间进行
利用离散单元法研究烧结矿竖冷炉在排料过程中颗粒运动的流型和速度分布.模拟结果表明,烧结矿颗粒在下移过程中,运动流型依次呈“一”→“S”→“V”转变;在竖冷炉腔内的大部分区域,烧结矿颗粒保持整体流动;在中心风帽上方的局部区域(宽480 mm,高1280 mm),运动流型会随排料的进行在整体流和漏斗流之间转变.烧结矿颗粒速度分布表明,在中心风帽上方会形成更大区域的(宽960 mm,高3200~3840 mm)梯形缓慢流动区.缓慢流动区内颗粒下移速度较小,冷却后的颗粒不能及时排出炉外,不利于气固换热效率的提高.
Influence of coiling temperature(CT)on the microstructure and mechanical properties of a hot-rolled high-strength steel microalloyed with Ti,Mo and V was elucidated.The precipitation behavior of nano-sized particles was investigated by theoretical calcula
通过数值模拟方法,研究了210 t铁水包静置温降过程中铁水包包盖和铁水液位对铁水温降速率的影响.模型中使用S2 S辐射传热模型来考虑渣层与包盖间的辐射传热,并分析了不考虑铁水自然对流对计算结果的影响.结果表明:铁水静置过程计算中,考虑铁水自然对流现象能够明显提高铁水温度的均匀性,并提升计算结果的准确性.使用包盖能够有效减少铁水包静置过程铁水的热量散失,提高铁水的4 h静置后最终温度13℃.铁水包内铁水液位会影响静置过程中铁水温降速率,液位降低会增加铁水温降速度.
The austenite stability and the mechanical properties in a typical medium Mn grade steel,i.e.,5Mn steel,were investigated under a wide range of strain rates through the combination of experimental and theoretical methodologies.The obtained results indicat
对环保类网络舆情传播特征展开研究,为相关部门挖掘舆情热点话题传播规律,针对网络结构采取相应的调控策略具有重要作用,并以此为契机推动环境保护工作.基于社会网络分析法,以新浪微博“垃圾分类”为数据源,将网络舆情传播划分潜伏期、爆发期、反复期和长尾期四个阶段.用Gephi进行网络结构分析,以此为依据探究网络舆情传播规律,并对比不同生命周期的差异.
通过热处理试验、微观组织表征和力学性能检测,对比研究了在不同Cr含量的情况下,G18CrMo2-6钢微观组织形貌、力学性能的变化.结果表明,随着合金元素Cr含量增加,同一温度退火热处理后G18CrMo2-6钢中铁素体体积分数减少,贝氏体增多,从而导致材料强度升高;但是Cr含量的增加还会导致该类材料退火产生的贝氏体中马氏体/奥氏体组织(M-A组元)尺寸增大,对材料的冲击韧性有不利影响.在560~680℃范围内回火,回火温度越高,抗拉强度越低,冲击功越高,Cr含量高的材料对回火温度的变化更加敏感.