奥氏体Fe-Mn合金的低温脆性

奥氏体型合金一般具有优良的低温韧性.本文对奥氏体Fe-Mn合金低温变脆现象进行了研究.实验结果肯定了低温下有冷脆倾向;指出随Mn含量增多,冷脆转变温度增高,呈沿晶脆断;发现Mn沿晶界偏聚,且Mn含量愈高偏析程度愈大;初步分析了晶界Mn富集造成冷脆的因素;未能证实前人提到的可能引起低温变脆的-100℃时面心立方→面心四方相变的存在.     

GCr15钢轴承套圈的磨削开裂失效分析

通过金相分析及断口观察，对GCr15钢轴承套圈的磨削开裂进行了系统分析。结果表明．淬火裂纹是套圈失效的根本原因，而原材料中Cr的带状偏析、套圈表面的应力集中、淬火加热时的氧化脱碳以及不当的磨削工序则共同加剧了淬火裂纹的萌生和扩展。     

自粘聚合物改性沥青防水卷材胶粘剂

在SBS改性沥青防水卷材表面涂敷一层自粘性胶粘剂并以隔离纸覆盖，使用时撕掉隔离纸直接粘贴于屋面即可粘接密封牢，不但施工方便而且消除了熔融法施工造成的污染。该胶粘剂由沥青40％～65％，SBS 5％～30％，增粘剂2％～25％和助剂5％～25％构成。胶层具有可塑性、延展性，可自行填补屋面出现的裂缝，保证防水卷材的防水密封效果。     

可聚合表面活性剂的应用研究

可聚合表面活性剂含有聚合活性基团,在无皂乳液聚合、纳米材料制备等新兴领域得到应用.主要综述了可聚合表面活性剂在溶液中可形成的微观有序组合体结构类型,分别论述了它们的应用性能,并对其研究趋势进行了展望.     

沉淀法制备Nd~(3+)掺杂改性的钛酸钡

用共沉淀法合成了BaTiO3,研究了Ba1-xNdxTiO3系Nd3+施主一次掺杂在x=0.03~0.065之间时,BaTiO3基陶瓷电容器的本征电性能。结果表明,在此含量范围掺杂的情况下,陶瓷呈绝缘性,Nd3+含量在0.03~0.055左右时随着Nd3+含量的增加,陶瓷的ε增加,Tc呈下降趋势,tgδ值下降。Zr4+的加入也可使材料的ε增加,Tc下降。Mn2+的加入对材料的本征电性能影响不大。Ba1-3x/2NdxTiO3配比比Ba1-xNdxTiO3配比的材料的温度特性要好。     

Cooperative effect of crystallization temperature and NaF addition in the formation process and hydrothermal stability of MCM-48 mesoporous molecular sieve

The hydrothermal stability of MCM-48 was conveniently and effectively improved by increasing the crystallization temperature and directly adding NaF to the synthesis gel. The crystallization temperature varied from 373 K to 403 K. The influences of NaF addition, crystallization temperature and crystallization time on the formation process and hydrothermal stability of MCM-48 were systematically studied here to solve the problem of poor reproducibility. Results from XRD patterns indicated that the crystallization temperature and crystallization time were very critical factors for the improvement of the hydrothermal stability besides NaF addition. The formation process of MCM-48 was significantly accelerated and the pore structure ordering was also greatly improved by increasing the crystallization temperature and F⁻/Si ratio. A high hydrothermally stable MCM-48 mesoporous molecular sieve was obtained after being crystallized at 393 K for 36 h in the presence of NaF, which endured the hydrothermal treatment in boiling water at least for 4 days. However, only an amorphous product was obtained when the crystallization temperature was further increased to 403 K. Results from Si MAS NMR, N₂ adsorption isotherms, TEM, Raman spectra and XRD patterns manifested that the improved stability of MCM-48 was attributed to the high silicates condensation degree and the excellent pore structure ordering. The possible reason for the successful formation of hydrothermally stable MCM-48 sample by controlling the crystallization temperature, time and F⁻/Si ratio was explained here.     

掺杂型尖晶石Li_(1.05)Mg_xMn_(2-x)O_4的合成及性能研究

采用高温固相法制备了尖晶石正极材料L iMxMn2-xO4(X=0.04,0.06,0.08,0.10),并用XRD、SEM、ICP-AES、充放电测试等手段研究了其组成、结构、表观形貌和电化学性能。结果表明:该法制备的尖晶石正极材料L iMxMn2-xO4为单一尖晶石结构,粒径分布均匀,其比容量和循环性能较未掺杂尖晶石L iMn2O4有显著的提高。     

Investigation of bio-ethanol steam reforming over cobalt-based catalysts

The catalytic performance of cobalt catalysts supported on γ-Al₂O₃, TiO₂, ZrO₂ were studied for bio-ethanol steam reforming (BESR) reaction. The supported catalysts (10 wt%Co) were prepared by impregnation and characterized through Thermogravimetric analysis (TGA), H₂ chemisorption, laser Raman Spectroscopy, Diffuse Reflectance Infrared Fourier Transform Spectroscopy (DRIFTS), and temperature-programmed reaction (TPRxn). The metallic cobalt sites were found to correlate with the BESR reaction activity. The reaction and H₂ chemisorption showed that ZrO₂ supported catalyst showed the best dispersion and best catalytic activity. Over the 10% Co/ZrO₂ catalyst, using a H₂O:EtOH:inert molar ratio of 10:1:75 and a GHSV = 5000 h⁻¹, 100% ethanol conversion and a yield of 5.5 mol H₂/mol EtOH were obtained at 550 °C and atmospheric pressure.     

引汉济渭椒溪河隧洞施工通风数值模拟研究

引汉济渭工程是陕西省为缓解关中渭河沿线城市和工业缺水问题,而提出的由汉江调水到渭河流域的大型水利工程。椒溪河段工程为穿河段,地形地质相对复杂,隧洞施工期的通风问题也相对比较严重。采用CFD(Computational Fluid Dynamics)数值模拟方法对带有支洞隧洞的通风过程进行模拟,研究几种典型工况下隧洞内的流场和浓度场在施工期时随时间的变化规律,分析掌子面以及支洞内涡流对气流及有害气体分布的影响。在气流排散通道不顺畅时,掌子面附近的涡流区域内涡流的大小和位置呈现周期性的变化,并随通风时间的增加影响范围逐渐降低。隧道爆破产生的有害气体和烟尘会随着气流的流动发生移动和扩散过程,并逐渐排向洞外。通过对隧洞主洞与支洞内气流和有害气体排散过程的研究,得出隧洞爆破后在通风作用下隧洞的掌子面附近和支洞与主洞的交叉位置处形成涡流区,涡流的产生和变化不断的消耗通风的机械能,降低通风效率,对有害气体的排散造成一定的阻滞作用,隧洞内有害气体的排散过程包括移动和扩散两方面,移动过程将CO排向洞外,扩散过程不断的降低洞内CO峰值,总结出了不同工况下隧洞内达到安全浓度的时间,对隧洞施工进度给出一定的参考意见。