【摘 要】
:
During the conventional continuous casting process of high-aluminum steels(w([Al])>0.5 wt.%),some components of slag,such as SiO2,B2O3,and TiO2,could be reduced by aluminum in molten steel.Therefore,the CaO-BaO-Al2O3-CaF2-Li2O non-reactive mold fluxes wer
【机 构】
:
College of Materials Science and Engineering,Chongqing Key Laboratory of Vanadium-Titanium Metallurg
论文部分内容阅读
During the conventional continuous casting process of high-aluminum steels(w([Al])>0.5 wt.%),some components of slag,such as SiO2,B2O3,and TiO2,could be reduced by aluminum in molten steel.Therefore,the CaO-BaO-Al2O3-CaF2-Li2O non-reactive mold fluxes were designed using the simplex grid method and molecular dynamics to mitigate the slag-metal interface reaction and stabilize the performance of mold fluxes.The results show that the components of non-reactive quinary system are 20-40 wt.%CaO,14-34 wt.%BaO,14-34 wt.%Al2O3,4-12 wt.%F,and 4-8 wt.%Li2O.Molecular dynamics simulation results show that[AlO4]-tetrahedron acts as network formers and melt network structure is mainly chain and lamellar in the low-viscosity area.The cross sections of w(F)=8 wt.%,w(Li2O)=8 wt.%and w(F)=12 wt.%,w(Li2O)=8 wt.%are important reference sections for the design of mold flux,with the compositions of 22-40 wt.%CaO,14-34 wt.%BaO,20-34 wt.%Al2O3 and 23-40 wt.%CaO,14-34 wt.%BaO,20-28 wt.%Al2O3,respectively.
其他文献
针对目前采用临界导通模式(Boundary Conduction Mode,BCM)的发光二极管(Light Emitting Diode,LED)驱动电路,介绍了临界导通模式中过零检测的原理,并且针对传统技术中采用源极驱动结构实现过零检测的缺点,提出了一种基于功率MOS管栅极过零检测方式,在实现过零检测功能的基础上,优化了 LED驱动控制电路的线路结构,减小了芯片面积,提高了电路的竞争力.
选用小桐子壳作为原料,采用热重-红外联用(TG-FTIR)和热裂解-气相色谱质谱联用(Py-GC/MS)技术,研究小桐子壳的热解特性以及300~800℃热解过程中产物的组分信息和有机化合物中官能团随温度的变化情况,同时利用Coast-Redfern积分法求解不同升温速率下的动力学参数.结果表明,小桐子壳的热解过程分为干燥(30~100℃)、预热解(100~258℃)、热解(258~420℃)和炭化(420~900℃)四个阶段.随升温速率升高,小桐子壳的最大质量损失率依次增加,升温速率的升高对小桐子壳热分解
采用特殊准随机结构(Special Quasi-random Structure,SQS)处理高熵合金固溶体的化学无序性,并基于密度泛函理论研究了 具有面心立方(Face-centered Cubic,FCC)和密排六方(Hexagonal Close-packed,HCP)结构的 Al20Li20Mg10Sc20Ti30 高熵合金的结构稳定性和热力学性质.理论得到的两个相的晶格常数与实验测量值符合较好.两相中,由于HCP相具有较FCC相略大的体模量,因而其具有较好的抗压缩性能.由于计算得到的两个相在0K
The type of inclusions in tundish steel and the formation mechanism of the submerged entry nozzle(SEN)clogging in the continuous casting of the rare earth(RE)high strength steel without calcium treatment were studied based on the plant trials and thermody
随着人工智能(Artificial Intelligence,AI)在自动驾驶和可穿戴等复杂环境中得到广泛应用,一种高效率的语义分割模型成为神经网络模型重要的解决对象.以传统ENET网络模型为基础,提出改进ENET网络,可利用深度学习处理单元(DPU)内部的EeLU激活函数硬件模式减少参数以改进ENET网络,提高DPU的工作性能.通过搭建语义分割的Vitis-AI架构平台,完成构建量化模型和模型网络的训练学习.对比分析多种语义分割试验结果,改进ENET网络,使用更少计算资源达到最优精度,在ZCU106的硬
以碳酸二乙酯(DEC)、1,6-己二胺(HDA)为原料、无水醋酸锰为催化剂,合成了 1,6-六亚甲基二氨基甲酸乙酯(HDEC).通过红外光谱、核磁共振氢谱、气相色谱确定HDEC标样的结构和纯度,并建立了定量分析方法.进一步采用气质联用对反应的主副产物进行定性分析,推测反应路径.同时,对合成工艺进行反应参数优化,并推测反应机理.结果表明,该反应通过两步实现,首先HDA与DEC反应生成单取代的1-(6-氨基)-六亚甲基单氨基甲酸乙酯(HMEC)中间体,HMEC进一步与DEC羰化反应生成HDEC目标产物,同时反
预制T形梁技术因其施工质量高、建造速度快、工程造价低等特点,在桥梁工程中具有广泛的应用.为了分析T形梁抗弯剪力学性能,通过对T形梁足尺模型构件进行弯剪耦合性能试验,研究预应力钢绞线折线张拉时的T形梁的应力分布,探究各级工况荷载条件下T形梁的抗裂性能和极限承载性能.结果表明:在弯剪耦合作用下,梁初始开裂出现在加载区域,加载截面总剪力略小于支点截面总剪力;梁底混凝土最大正应变增量截面在构件自重和0.85倍预应力荷载共同作用下的正应力小于0,且截面最大主拉应力小于C60混凝土主拉应力限值,符合抗裂性要求;东、西
The influences of Al2O3/Na2O ratio and MnO content on high-temperature properties,such as melting,crystallization,heat transfer,and viscosity of mold flux for casting peritectic steel,have been investigated.The results show that the melting temperatures o
Controlling the flow behavior in the mold in an appropriate way is the basis for realizing the billet ultra-high speed continuous casting.Based on the new proposed physical water modeling experiment considering the effects of solidified shell and hydrosta
Direct strip casting(DSC)is one of the cutting-edge technologies for the steel industry in the twenty-first century.Under the background of carbon peak and carbon neutrality,DSC technology has a bright future of applications as it requires less production