Mössbauer Study of the Influence of Fe-Si-N Liquid in the Synthesis of β-Si3N4 from Silica

Mössbauer spectra of the products obtained by carbothermal reduction and distribution of silica in the presence of iron in the temperatures range 1200^o to 1540^o were studied. The preponderance of β- Si₃N₄ over the α form at a higher reaction temperature were assumed to be related to the formation of an Fe-Si-N liquid. The liquid did not alter its composition with the variation of reduction-temprature, Iron had no effect on the reaction mechanism below 1300^oC.     

铸造铝合金(ZL109)激光表面处理

采用功率为2kW级CO_2连续可调式横流激光光源,对不同涂层的ZL109试样表面进行了激光熔凝的实验研究。     

铁元素对ZL108合金铸造性能的影响

研究了铁、锰对ZL108活塞合金铸造性能的影响。试验表明,在磷变质ZL108合金中,随着铁含量的增加,其流动性降低,体收缩、线收缩也减少。在高铁ZL108合金中加入锰后,可提高流动性,因为锰能够抑制针状β铁相的有害影响。     

离子注入对铁及其低合金、铝及其合金耐腐蚀性能的影响

离子注入对金属腐蚀行为的研究已达30年．研究结果表明离子注入对改变金属表面成分和表面性能是极为有效的技术．本文概述了离子注入对铁及其低合金、铝及其合金的腐蚀电化学行为的影响．涉及的注入离子达十余种。     

泥炭土地基钻孔漏浆的处理

以云南鸡石一级公路青鱼湾大桥为例，介绍了在软弱地层中施工桥梁钻孔灌注桩遇孔壁开裂漏浆时的处理方法，经试验证明，取得了较好的技术经济效果。     

古老的铁艺再次辉煌

铁艺实用美观，唤起人们的怀旧情怀，从公共场所到家居装饰，应用广泛。介绍铁艺选择、使用、维护与保养知识，分析，预测铁艺的市场前景。     

某硅线石矿石选别中除铁研究

针对矿石中硅线石微细嵌布，铁矿物嵌布亦较细。且有近二分之一铁在非金属矿物晶格之中，除铁难的特点，通过试验研究对比采用一段磨矿磁选除铁后磁尾浮选富集硅线石．浮选精矿再磨后酸浸再除铁的工艺方法，获得了理想的除铁效果，使硅线石精矿质量达到较高品质。     

碳铬镍含量对高铬铸铁测温保护管性能的影响

通过高温氧化和高温磨损实验,研究了C、Cr、Ni 3个主要元素对高铬铸铁在高温条件下抗氧化和抗磨损性能的影响。结果表明:Cr含量越高,抗氧化性能和抗磨损性能越好;提高碳含量,明显提高高铬铸铁的高温抗磨性能;当w(Cr)=16％时,加入Ni能提高高铬铸铁的高温抗氧化性能;w(Cr)=30％时,Ni对高铬铸铁的抗氧化性能和抗磨损性能影响不明显.在1100℃以下,选用w(C)=2.8％,w(Cr)=30％、不加Ni的高铬铸铁铸造高温抗磨热电偶保护管,既有较好的使用寿命,又可降低成本.     

转炉入炉铁水温度低的原因分析及其对炼钢的影响

系统分析了新钢公司一钢厂转炉入炉铁水温度低的原因及铁水温度对炼钢的影响，提出了提高铁水温度的措施及转炉应对低温铁水的办法。     

A branch-and-price algorithm to solve the molten iron allocation problem in iron and steel industry

The molten iron allocation problem (MIAP) is to allocate molten iron from blast furnaces to steel-making furnaces. The allocation needs to observe the release times of the molten iron defined by the draining plan of the blast furnaces and the transport time between the iron-making and steel-making stages. Time window constraints for processing the molten iron must be satisfied to avoid freezing. The objective is to find a schedule with minimum total weighted completion time. This objective reflects the practical consideration of improving steel-making efficiency and reducing operation cost caused by the need for reheating. Such a problem can be viewed as a parallel machine scheduling problem with time windows which is known to be NP-hard. In this paper, we first formulate the molten iron allocation problem as an integer programming model and then reformulate it as a set partitioning model by applying the Dantzig–Wolfe decomposition. We solve the problem using a column generation-based branch-and-price algorithm. Since the subproblem of column generation is still NP-hard, we propose a state-space relaxation-based dynamic programming algorithm for the subproblem. Computational experiments demonstrate that the proposed algorithm is capable of solving problems with up to 100 jobs to optimality within a reasonable computation time.