弛豫铁电体Pb(Mg1/3Nb2/3)O3-PbTiO3的相变

测量了(1-x％)镁铌酸铅-x％钛酸铅(1≤X≤11)(简称PMNTx)陶瓷样品的介电常数、内耗和Young’s模量．观测到在Tm温度附近，即在介电常数达到最大值时，出现一个内耗峰，并且模量发生软化．这反映了极化纳米微畴的弛豫．对于PMNTx(5≤x≤11)的样品，在Tm温度以下的某个温度出现附加的内耗峰和Young’s模量的异常，表明样品中发生了自发的弛豫铁电到铁电(简称R-F)的相变，对R-F相变的机制进行了讨论．     

Friction stir welding of AZ31 magnesium alloy

Friction stir welding (FSW) is an new solid-phase joining technology which has more advantages over fusion welding methods in welding of aluminum and other non-ferrous metals. The effects of welding parameters on mechanical properties and microstructure during friction stir welding of AZ31 magnesium alloy were studied in this paper. Microstructures and mechanical properties of the joints were investigated by means of optical microscopy, scanning electric microscopy ( SEM ) , micro-hardness analysis, and tensile test. Experimental results show that the magnesium alloy can be successfully welded by FSW method, and the ultimate tensile strength (UTS) of FSW joint reaches up to 90 percent of base metal. The microstructures of welded joints exhibit the variation from dynamically recrystallized fine grains to greatly deformed grains. Hardness in nugget zone was found lower than the base metal but not too obvious.     

激光淬火铁基烧结材料的摩擦与磨损

研究了两种不同成分铁基烧结材料经宽带激光表面处理后的显微组织和摩擦学特性。结果表明，铁基烧结材料的耐磨性显著提高。两种材料相比，在较低载荷下，组织为孪晶马氏体／位错马氏体混合材料具有较好的摩擦学特性。而在较高载荷下，组织为马氏体／下贝氏体复相的材料具有较好的摩擦学特性。     

Ti和V对Fe中氢与位错交互作用的影响

研究了Fe-0.5wt-%Ti和Fe-0.5wt-%V合金中由氢与位错交互作用所形成的氢致冷加工内耗峰(H-CWP)。实验结果表明:合金元素对H-CWP、对氢与位错之间的交互作用有显著的影响,与氢作用愈强的元素,对H-CWP的影响愈大,内耗实验结果与力学性能之间存在着一定的联系.     

热轧态Cu-Fe-P合金的相变动力学研究

通过对热轧态Cu—2．5％Fe—0．03％P—0．1％Zn合金导电率与析出的第二相体积分数之间的变化关系的测定与分析，研究了该合金的相变动力学。由合金在不同温度时效时的导电率实验数据确定了该合金的相变动力学方程的系数，从而描绘出不同温度时效时的相变动力学“S”曲线以及等温转变TTT曲线。     

Dynamic Young’s modulus and internal friction in polycrystalline copper

An attempt has been made to measure the temperature dependence of dynamic Young’s modulus together with the related variation of internal friction in polycrystalline copper. A mechanical spectroscopy study was employed using a standard servo hydraulic fatigue testing machine equipped with a scanning laser extensometer. Dynamic Young’s modulus and internal friction were measured over a temperature range of 298 to 873 K at very low frequencies of 0.1, 0.05, and 0.01 Hz. One internal friction peak was observed over the ranges 450 to 700 K, together with marked decreases in the dynamic Young’s modulus in the same temperature range. From a quantitative analysis of the experimental data with the relaxation strength, relaxation time, and activation energy, it is concluded that the peak phenomenon is due to grain-boundary sliding relaxation.     

四辊轧机辊系间的轴向摩擦力对辊系轴承寿命的影响

四辊轧机工作辊轴承和支承辊止推轴承失效的主要原因是它们在工作中所受的轴向载荷过大。工作辊与支承辊轴线的不平行引起其接触面的轴向相对滑动 ,由此产生轴向滑动摩擦力 ,使轧辊轴承最终失效。通过对辊系的分析 ,给出了解决该问题的新的设计思路 ,对新轧机的设计和旧轧机的改造具有指导意义     

Friction and the development of hard alloy surface microstructures during wear

Investigations of wear in sliding friction of WC-Hadfield steel hard alloy against cast tool steel have been carried out in a broad range of velocities and pressure values. Structural and phase composition variations have been revealed. Friction-affected zone was found to be 450 μm in depth. Structural γ → α, γ → transformation regions are located within 100 μm of the surface. These transformations contributed to the total solid solution deformation hardening.     

先进的搅拌摩擦焊

搅拌摩擦焊是利用一种特殊形式的搅拌头边旋转边前进，通过搅拌头与工件的摩擦产生热量，摩擦热使该部位金属处于热塑性状态，并在搅拌头的压力作用下从其前端向后部塑性流动，从而使待焊件压焊为一个整体。它可以焊接所有牌号的铝合金以及用熔焊方法难以焊接的材料，并突破了普通摩擦焊对轴类零件的限制。由于搅拌摩擦焊是固态焊接，所以没有熔化焊时的气孔、裂纹等缺陷。搅拌摩擦焊的接头性能普遍优于熔化焊的。     

时效对Mn-Cu-Al三元合金的内耗、杨氏模量和力学性能的影响

测量了Mn-Cu-Al三元合金(含56-60wt-％Mn,0-3.59wt-％Al)在-150—150℃的声频内耗,发现当试样在调幅线的温度范围内进行时效时,内耗随着时效时间的增加而增加,并在特定的时间内达到极大值.时效温度越高,达到极大值的时间越短.在时效一定的时间后出现马氏体相变峰和孪晶界面弛豫峰.相变峰随着时效时间的增加而向高温移动;弛豫峰则出现在15℃左右(频率约1kHz),测得其激活能是0.56eV. 在调幅线内时效使合金的硬度、强度及脆性墙加,Al元素有增加合金的强度而降低其内耗的作用.实验结果表明,在450℃时效2—3h,可得到合金的内耗和强度的最佳综合指标. 根据内耗、模量、金相检验和X射线分析的结果,认为调幅分解后产生的富Mn区是合金发生相变和高内耗的来源,也是合金的强度增加和韧性降低的原因.