Preparation of the Preform of Pure Carbon Reaction Bonded Silicon Carbide by In-situ Consolidation Molding Method

A new kind of in-situ ceramic consolidation molding process was investigated on the basis of the characteristics of starch swelling in water and gelatinizing when heated. The SiC ceramic suspension containing about 50vol% solids loading and about 3wt% starch can be cast and molded into various complex-shape SiC ceramic parts in a water-thermostat. The dry shrinkage of the green body was less than 1.0% when the solid volume fraction of SiC suspension was up to 52.5%. The density and pore size were homogeneously distributed inside the biscuits. Soaked with melt silicon in a vacuum arc furnace, the biscuits were turn into SiC ceramic materials with homogeneous structure and high performances.

Alumina Ceramics Fabricated by in-situ Consolidation of Pre-gelling Starch

An in-situ consolidation method was developed and optimized to successfully fabricate alumina ceramics using pre-gelling starch. Our results showed that the obtained ceramics have more homogeneous microstructure, higher density, higher flexural strength, and favorable biocompatibility compared to the regular one. During the process, cornstarch granules swelled and deformed but no fracture was observed. After the cornstarch granules bursted, alumina particles were suspended uniformly in the three-dimensional network structure to generate a much smoother surface. Below 0.5 wt% higher cornstarch content increased the flexural strength of prepared ceramics, while above 0.5 wt% the mechanical properties were compromised. Therefore the cornstarch content of 0.5% was the optimal concentration to achieve the highest mechanical strength of the prepared ceramics, with a measured flexural strength of 341 MPa, and a relative density of 96.01%.

In-situ investigation of deformation behavior and fracture forms of Ti/Al/Mg/Al/Ti laminates

In-situ bending and stretching were conducted on hot-rolled and annealed Ti/Al/Mg/Al/Ti laminates,with a focus on crack initiation and propagation of intermetallics and component layers,which helps to clarify their deformation behavior and fracture forms.The results show that delamination is the early fracture form of laminate with or without intermetallics at Al/Mg interface,so Al/Mg interfacial bonding strength determines the mechanical properties of laminate.Various and irregular intermetallics cracks lead to Al/Mg interface delamination in annealed laminate and help to release stress.Necking and fracture of component layers are observed at the late deformation stage,and the sequence is Al,Mg and Ti layers,resulting from their strength.Angle between crack propagation direction and stretching direction of Mg layer both in rolled and annealed laminates is around 45°due to the effect of shear deformation,and crack convergence leads to final complete fracture of Mg layer.

Dehydrogenation characteristics of LiAlH4 improved by in-situ formed catalysts

The hydrogen storage properties and catalytic mechanism of FeCl-doped LiAlHwere investigated in minute details. LiAlH-2 mol% FeClsamples start to release hydrogen at 76 °C, which is 64 °C lower than that of as-received LiAlH. Isothermal desorption measurements show that the 2 mol% FeCl-doped sample releases 7.0 wt% of hydrogen within 17 min at 250 °C. At lower temperatures of 110 °C and 80 °C, the sample can release 4.4 wt% and 3 wt% of hydrogen, respectively. The apparent activation energy of LiAlH-2 mol% FeClsamples for R2 is 105.02 k J/mol, which is 67 k J/mol lower than that of pure LiAlH. The reaction between LiAlHand FeClduring ball milling was found by analyzing the X-ray diffraction results,and Fe-Al particles formed in-situ from the reaction act as the real catalyst for the dehydrogenation of LiAlH.

Isothermal grain growth of reactive spray formed 7075 alloys in semi-solid state

The grain growth behavior in reactive spray formed 7075+2.91 vol percent TiCAl alloy was studied and compared with that of spray formed 7075 Al alloy at semi-solid state. Theeffects of in-situ TiC particles on the microstructure of spray formed 7075 Al alloy were alsoinvestigated. The specimens were heat-treated isothermally at various temperatures between thesolidus and liquidus of 7075 Al alloy for times in the range of 10-60 min, then quenched in water.The microstructure of reheated specimens was characterized using scanning electron microscopy andoptical microscopy. The grain size was measured using a mean linear intercept method. Results showthat the in-situ TiC particles can effectively retard grain growth and refine the grain at a limitedsize. The grain growth exponent in Arrhenius equation increases from 2 to 3, which indicates thatthe in-situ TiC particles have the significant pinning effect on grain coarsening in the semi-solidstate.

铸牢中华民族共同体意识的形成性逻辑研究

铸牢中华民族共同体意识是新时代中国特色社会主义民族团结话语和政治话语的重大创新与发展,该话语的形成是理论逻辑(理论之“魂”)、历史逻辑(历史之“根”)、实践逻辑(实践之“体”)合力作用的结果。铸牢中华民族共同体意识遵循历史唯物主义的基本观点,孕育于“人民史观”、马克思主义“五观”以及习近平总书记关于民族工作的重要论述;产生于历史唯物主义方法论要求指导下多元的历史脉络、和合的价值基础以及求是的务实风貌;形塑于从“民族自决”到“中华民族观”再到“中华民族共同体意识”的现实实践。新时代,深入阐发铸牢中华民族共同体意识的形成性逻辑,夯实中华民族共同体思想基础,是推动新时代党的民族工作高质量发展的题中应有之义。

民事合同效力先决案件的诉讼形态

民事合同效力先决案件的圆满解决需要探求其特定的诉讼形态。合同效力作为实体性先决问题具有“偏本土性”,其在我国民事程序中有着独特的角色承担。合同效力先决案件的传统处置,是根据合同效力之程序角色对应采取不同方式。当前,既判力客观范围的肆意扩张与诉之合并形态的疏漏,是传统处置模式积弊丛生的主要根源。对此,将既判力的客观范围拉回至“诉讼标的—既判力”的认同之下,在对合同效力作“诉讼标的化”改造的同时,进一步根据实体法权利体系明确完整的诉之合并形态,是一条较为可取的模式重构之路。由此呈现的合同效力先决案件之合理诉讼形态,即是一个确认之诉与两个真正的预备合并之诉的搭配组合。这一诉讼形态本质上乃诉的合并制度的功能发挥,是对现有诉讼制度的“挖潜”。

煤沥青型焦制备与固结机理

以煤沥青为黏结剂,对焦粉型焦制备新工艺及其固结机理进行研究。研究结果表明:助剂BJ可激发煤沥青中芳香烃等化合物的活性,使煤沥青常温下具有黏结性,实现型焦的冷压成型,其湿块2 m落下强度大于50次;超细磨填充料可填充煤沥青收缩产生的孔隙,充实煤沥青炭化骨架,强化型焦的炭化固结;煤沥青最大的热分解挥发速率和热缩聚速率分别出现在336℃和629℃,湿块经370℃挥发15 min及600℃炭化30 min后制备的型焦抗压强度达20 MPa;煤沥青在挥发和炭化中解脱除H和N等并吸收O缩聚形成C—C键的炭化骨架,其C与H的物质的量比由1.69提高至2.80,C与O的物质的量比由91.77降低至67.23;型焦炭化块主要由C及少量O构成,煤沥青形成的C—C键炭化骨架将焦炭颗粒牢固地黏结成块,使得型焦内部结构紧密、均质性好。

外源铅在土壤中的形态、分布及其对土壤养分的影响

通过对加入外源铅的砂姜黑土、黄褐土、红壤进行培养处理,测定土壤中各形态铅及水溶态NH4+,K+和速效态磷的含量,研究外源铅在各类土壤中的形态分布特点及对土壤养分的影响。结果表明:交换态和残渣态的铅为红壤>黄褐土>砂姜黑土,碳酸盐态铅为砂姜黑土>黄褐土>红壤,铁锰氧化态铅为红壤>砂姜黑土>黄褐土,有机结合态铅为黄褐土>砂姜黑土>红壤;交换态和残渣态所占比例随着外源铅的浓度增大而提高,有机结合态的比例随着外源铅浓度增大降低,碳酸盐结合态铅在砂姜黑土、铁锰氧化态铅在红壤上则呈现外源铅小于500 m g/kg时比例增高,大于500 m g/kg时比例开始下降的状况;加入外源铅的土壤中,水溶态的NH4+和K+的浓度增大,使其流失的风险性增加;水溶态磷和铅离子生成难溶性磷酸铅盐被固结,使速效磷的浓度减少,降低了水溶性磷肥的功效。

用酯化淀粉实现氧化铝陶瓷的原位凝固成型

为获得以淀粉作凝固剂原位凝固成型氧化铝高性能陶瓷的方法,文中探讨了酯化淀粉添加量对陶瓷浆料流变特性以及成型出的素坯的线收缩、密度、干坯强度和显微结构的影响.结果表明:酯化淀粉添加量在0.5%～1.5%(质量分数)范围内时,淀粉-氧化铝陶瓷浆料的表观粘度随酯化淀粉添加量的增加而上升,但均小于1Pa·s;素坯的密度和平均线收缩率随淀粉添加量的增加而减小;干坯强度随淀粉添加量的增加而增强.实验中获得了致密、均匀的坯体.利用淀粉受热吸水溶胀和糊化的性质以及糊化后淀粉糊的凝胶化特性可实现Al2O3陶瓷浆料的近净尺寸原位凝固成型.

陶瓷胶态成型方法研究新进展

介绍了各种胶态成型的特点以及陶瓷胶态成型技术的最新进展,并对它们的应用情况做了简要的分析。胶态成型方法在制备复杂形状的陶瓷部件方面有着无可比拟的优势,而且可以有效地控制材料的显微结构,减少材料内部的各种缺陷,提高了材料的力学性能和使用的可靠性。提高新的成型技术的可靠性,降低成本,减少操作步骤,和环保要求相适应,并且把它们转化为商业上可推广运用的生产方法,是今后成型技术发展的主要目标。

红庆河煤矿弱胶结砂岩单轴加载条件下声发射特征研究

对红庆河煤矿弱胶结砂岩在单轴加载条件下破坏过程中的声发射特征进行研究,根据试验过程中所采集的力学参数和声发射信号参数,得到了全过程应力-应变、应力-时间-累计计数率、应力-时间-绝对能量率以及峰值前、后的应力-应变-累计计数率、应力-时间-绝对能量率曲线。据所得应力-应变曲线将该类砂岩破坏分为2种形式:一种为传统4阶段岩石破坏形式,另一种为5阶段破坏形式。5阶段破坏模式在应变软化阶段后出现了应力不变,应变继续增大的胶结延性阶段。对比2种破坏模式的声发射特征,峰值后的声发射现象较峰值前的均有量级的变化,抗压强度相近时,弹性模量小的试样产生更多的声发射现象,但产生的绝对能量属于同一量级。累计计数率能够作为判断试样是否发生完全破坏的参数。

Gibson一维固结方程的一种求解方法

引入修正的迎风差分格式,采用显式差分法直接求得了Gibson一维有限固结方程的差分解答,编制了计算程序JEFD01,并以曾被美国9所院校一起分别预测的佛罗里达州磷酸盐矿业尾矿污泥池固结沉降项目为案例,验证了该差分方程及计算程序的可靠性和适用性。进一步分析得到,固结预测时,未完成自重固结的饱和欠固结土不能"忽略自重",即不能假定B值为零。

蜡质玉米淀粉的凝胶化性质及其在陶瓷凝固成型中的应用研究

本文对蜡质玉米淀粉的糊性质、流变特性和凝胶强度等凝胶化性质进行了详细研究。结果表明:与普通玉米淀粉相比,蜡质玉米淀粉易糊化,热粘稳定性差,冷粘稳定性好,凝胶强度低;蜡质玉米淀粉糊属假塑性流体,且糊的表观粘度受淀粉浓度、温度和pH值的影响。利用蜡质玉米淀粉的凝胶化性质可实现Al2O3陶瓷的原位固化成型,且成型的陶瓷坯体外观光洁、平整、无缺陷,坯体的密度高、线收缩率低。

精密陶瓷原位凝固制备技术的研究

七十年代末，世界范围内伴随着陶瓷热机部件研制的热潮，精密陶瓷受到了各国政府、研究部门及产业界的充分重视。进入九十年代后，精密陶瓷的发展遇到了许多问题，其中形状复杂结构部件的成型工艺是制造高性能陶瓷材料最为关键的环节之一。本文综合分析了近年来精密陶瓷成型工艺的研究进展，着重强调指出原位凝固成型技术是保证坯体均匀性和解决高性能陶瓷可靠性的重要环节，同时，指出成型工艺今后需要加强和解决的几个关键技术。

固化剂加固土的研究

介绍了高分子表面活性剂加固土的研究成果和高分子表面活性剂加固土的强度形成机理。并与石灰土进行了对比。

高分子多糖凝胶在高性能陶瓷原位凝固成型中的应用

简要介绍了高性能陶瓷原位凝固成型技术的发展,重点介绍了琼脂糖、明胶、果胶和淀粉等高分子多糖的凝胶特性以及这些多糖凝胶应用于高性能陶瓷原位凝固成型时,对悬浮浆料的流变性能和成型坯体性能的影响。

固相含量对淀粉原位凝固成型氧化铝陶瓷工艺中浆料流变性能及坯体性能的影响

探讨了固相含量对淀粉-Al2O3悬浮浆料的流变特性、固化行为、成型坯体显微结构和性能的影响。通过酯化淀粉原位凝固成型工艺可成型出结构完好、致密度较高的陶瓷坯体。研究表明浆料表观黏度随固相含量的增加而增加,但即使是固相体积分数为58%的高浓悬浮浆料,表观黏度仍小于1mPa·s,易于注模;随固相含量的增加,坯体的线收缩率和干燥强度下降,而坯体的相对密度不断增加;固相含量对坯体的微观结构和气孔分布也有显著影响。

从一般资料标识到内容形式和媒介类型——《ISBD统一版》的新特点

ISBD系列标准中要求在题名与责任说明项中著录的一般资料标识(GMD),不适应现代文献编目的要求,在"国际编目规则第四次专家会议"上已遭中国代表的质疑。2011年版的《ISBD统一版》用内容形式和媒介类型替代GMD,这一做法不仅可以改变世界范围内GMD著录不一致的混乱状况,还可为制定基于FRBR的编目条例奠定重要基础。表2。参考文献8。

偶联剂、单体对碳化硅胶态原位凝固成型浆料流动性能的影响研究

偶联剂及单体可以提高碳化硅浆料的流动性。试验结果表明:采用偶联剂包覆,并引入单体,可实现制备高固相含量碳化硅浆料。偶联剂选用KH550较为合适,且其合适的加入量为2.5%;单体丙烯酰胺加入也可使碳化硅浆料粘度降低,合适的加入量为2.5%;引发剂过硫酸铵可很好地实现碳化硅浆料的原位凝固成型,合适的加入量为1.0%。制得的碳化硅浆料固含量的体积分数可达65%。