亚微米颗粒增强6061铝基复合材料的微塑变特性

发现亚微米级Ａｌ２Ｏ３ｐ／６０６１复合材料的微屈服抗力较高，组织稳定性良好，其微屈服抗力与微塑变符合Ｂｒｏｗｎ和Ｌｕｋｅｎｓ提出的线性规律；通过与ＳｉＣｐ／６０６１和ＡｌＮｐ／６０６１的微屈服行为与组织的对比分析，认为增强颗粒形状，尺寸以及基体中位错密度，亚晶粒尺寸等因素直接影响屈服抗力，亚微米级颗粒增强复合材料对尺寸稳定性要求来说，微观组织形态较合理，是较理想的精密仪表材料。     

金属基复合材料微屈服行为的力学分析与试验

本文采用细观力学计算、有限元分析和试验测试等方法,定量研究了短纤维增强金属基复合材料微屈服过程中应力应变分布和微屈服规律,结果表明不同短纤维分布朝向、体积比的Al2O3-SiO2(sf)/Al-Si复合材料微屈服行为符合Brown-Lukens关系,在增强体短纤维附近存在较大应力集中,晶粒直径、位错密度等材料参数对等效应力影响不大,对等效塑性应变有显著影响,同时分析了增强体短纤维的体积含量和短纤维分布状态对材料微屈服强度的影响。     

SiC_p/2024Al复合材料尺寸稳定化处理工艺研究

采用挤压铸造技术制备了体积分数为40%的SiCp/2024Al复合材料,采用TEM对不同尺寸稳定化处理条件下复合材料的微观组织进行了观察,并探讨了尺寸稳定化热处理工艺对复合材料拉伸性能的影响.TEM观察表明:由于SiC颗粒与2024Al基体的热膨胀系数不同,热错配的作用使冷热循环处理后基体中的位错密度增加,为S′相的形成提供了有利的形核部位,促进了S′相的析出,这两种因素都有利于提高复合材料的强度.室温拉伸测试结果表明:零次冷热循环热处理后的SiCp/2024Al复合材料拉伸强度比较好,两次冷热循环处理后复合材料的强度有所下降,但随着循环次数的增加,复合材料的强度逐渐增加;不同的冷热循环次数对于拉伸断裂方式和断口形貌无显著影响.     

数值模拟SiCp/Al复合材料的微观结构对力学性能的影响

本文运用有限元法模拟了SiC颗粒体积分数和颗粒尺寸对SiCp/Al复合材料弹性模量、屈服强度、延伸率的影响。为了建立与真实显微结构相似的复合材料模型,假定任意尺寸的SiC颗粒随机地分布在SiCp/Al复合材料中。计算结果表明:SiC颗粒体积分数对复合材料的力学性能的影响更加显著。随着体积分数的增加,SiCp/Al复合材料的弹性模量和屈服强度逐渐增加;而其延伸率会相应降低。其应力应变曲线由韧性材料的特性向脆性材料的特性逐渐过渡。相反,当平均颗粒尺寸在一定的范围内变化时,颗粒尺寸对其应力-应变曲线的影响并不显著。     

高体积分数 SiC P / Al复合材料的拉伸、 压缩与弯曲特性

对高体积分数碳化硅颗粒增强铝基(SiC P/ Al)复合材料的拉伸、 压缩和三点弯曲特性进行了实验研究。结果表明 : 高体积分数 SiC P/ Al 复合材料与低体积分数 SiC P/ Al复合材料相比 , 没有明显的线性屈服阶段。进一步的加载2卸载实验表明 , 在外载荷作用下 , 材料宏观上呈现一种类似金属材料的塑性 , 卸载后留有较大的残余应变 , 再次加载时沿上次卸载路线上升 , 而且拉应力导致的残余应变大于压应力。三点弯曲时材料内部产生残余塑性变形的潜力最大 , 切线模量更稳定。宏观断口分析表明 , 金属基体的非均匀分布导致产生局部渐进的微屈服 ,是使材料性能宏观上类似塑性材料的主要原因。制备过程中的残余应力和基体内部的微缺陷是拉应力比压应力产生更大残余应变的主要原因。     

Al2O3微粉的表面改性及表征

以α—Al2O3微粉为基体，Y(NO3)3溶液为包裹相，采用液相包裹法进行加钇颗粒表面改性。获得了表面均匀包裹Y2O3的α—Al2O3粉体。将此粉体与Al合金复合制备复合材料，复合材料组织更加均匀，对材料进行力学性能测试，结果表明：改性粉体对Al合金增强效果明显增加，抗拉强度提高27．2％，屈服强度提高33．1％，延伸率提高10．3％。     

SiCp／LY12复合材料微屈服强度的研究

以三种颗粒体积分数(35％、45％、55％)的SiCp/LY12复合材料为对象,详细研究了固溶+时效及固溶+循环两类热处理工艺对微屈服强度的影响。结果表明,循环处理有不利影响,相反,时效处理能明显提高微屈服强度,增强相颗粒体积分数的增加会加剧循环处理的不利影响,但能够促进时效强化作用。     

亚微米级Al2O3颗粒增强LD2铝合金复合材料的拉伸性能与强化机制

为克服颗粒增强铝基复合材料的强度低、脆性大、机械加工难等问题, 选用平均直径为0.15Lm, 细小且接近圆形的Al₂O₃颗粒增强LD2铝合金, 对其铸态材料和挤压材料的室温及高温拉伸性能进行了考察和组织分析, 结果发现: 颗粒尺寸小到亚微米级之后, 材料的组织中极难观察到位错, 增强机制也有所变化。在30～ 40% 体积率的挤压材上得到了640～ 760M Pa 拉伸强度和8. 6～2% 的延伸率, 增强率达到了212% , 获得了高强度、高塑性、易加工性的复合材料。      

Mo对TiC/Al复合材料组织和性能的影响

为了细化TiC/Al基复合材料中的增强颗粒,进一步提高TiC颗粒对基体的强化效果,在锻铝6A02基体中加入适量Mo元素,用原位合成的方法制备TiC/Al基复合材料.对制备得到的铸态和轧制态材料进行了显微组织观察、拉伸和磨损实验.结果表明,TiC颗粒可以作为异质形核核心起到细化基体组织的作用.TiC颗粒的引入提高了材料在室温和高温的抗拉强度和屈服强度,同时改善了材料的耐磨损性能,且随着载荷的增加,耐磨性能的提高越明显.当加入质量分数1.0%的Mo时,可改善基体对TiC颗粒的润湿性,细化TiC颗粒的尺寸(0.5μm),使TiC颗粒分布更为均匀,材料的力学性能和磨损性能得到提高.然而,过高的Mo含量将导致在组织中出现粗大的脆性Al5Mo相,同时使材料的力学性能和磨损性能有所降低.     

SiCw/Al复合材料基体屈服强度的X射线测量

根据X射线应力测量原理建立复合材料基体屈服强度的试验方法，测量压铸态20vol%SiCw/Al复合材料中基体实际屈服强度，结果表明，复合材料中基体屈服强度明显高于单一基体材料，高位错密度及细小亚昌粒是复合材料基体强化的主要原因。     

Insertion of triangulated surfaces into a meccano tetrahedral discretization by means of mesh refinement and optimization procedures

In this paper, we present a new method for inserting several triangulated surfaces into an existing tetrahedral mesh generated by the meccano method. The result is a conformal mesh where each inserted surface is approximated by a set of faces of the final tetrahedral mesh. First, the tetrahedral mesh is refined around the inserted surfaces to capture their geometric features. Second, each immersed surface is approximated by a set of faces from the tetrahedral mesh. Third, following a novel approach, the nodes of the approximated surfaces are mapped to the corresponding immersed surface. Fourth, we untangle and smooth the mesh by optimizing a regularized shape distortion measure for tetrahedral elements in which we move all the nodes of the mesh, restricting the movement of the edge and surface nodes along the corresponding entity they belong to. The refining process allows approximating the immersed surface for any initial meccano tetrahedral mesh. Moreover, the proposed projection method avoids computational expensive geometric projections. Finally, the applied simultaneous untangling and smoothing process delivers a high‐quality mesh and ensures that the immersed surfaces are interpolated. Several examples are presented to assess the properties of the proposed method.     

From Industry 4.0 to Research 4.0. Development of High Performance Fibers in the Light of Digitization

We associate a variety of innovations with the term ＂Industry 4.0＂. The pioneer of many 4.0 modifications forms the basisfor the trend towards the integrated di...     

The Research of Anti-Wear Properties of Organomolybdenum Compounds in the Engine Oils

A four-ball tester was used to evaluate the anti-wear performance of three kinds of organomolybdemun compounds in the engine oils, i. e., molybdenum dialkyldithiophosphate (MoDDP), molybdenum dialkyldithiocarbamate ( MoDTC), and sulphur and phosphorus freeorganomolybdeum (Molybdate). The results indicate that a low concentration of MoDDP doesn' t improve the anti-wear properties of the commercial engine oils, but a high concentration of MoDDP can obviously improve the anti-wear properties and the load-carrying capacity of the engine oils. MoDTC doesn' t improve the antiwear properties of the engine oils, but worsens the anti-wear properties of the oils. Signifi can timprove ment of frictional and wear characteristics is obtained with Molybdate added in the commercial engine oils and the formulated oils.     

Roman iron and steel: A review

ABSTRACT

The production of ferrous metal increased during the Roman Late Republican period, Principate and Empire. The direct bloomery process was used to extract the metal from its ores using slag-tapping and slag-pit furnaces. The fuel was charcoal and an air blast was introduced by bellows-operated tuyères. Iron formed as a bloom, often as a spongy mass of metal, which contained impurities from the smelting process, including unreacted ore, fuel, slag and fragments from the furnace walls, while the metal was often inhomogeneous with varied carbon contents. Blooms were either smithed directly into bars or ingots or they were broken up, which also allowed the removal of gross impurities and a selection of pieces with similar properties to be made. These could then be forge-welded together and formed into characteristically shaped ingots. Making steel in the furnace seems to have been achieved: it depended on the ore and the furnace and conditions within it. Surface carburization was also carried out. Iron and steel were used extensively in construction and for tools and weapons. Fire welding was often used to add pieces of steel to make the edges of tools and weapons, which could be heat-treated by quenching to harden them.     

Certification Institutions Expected to Update and Transfer Information on Present Standards

Standards are the basis for production enterprises to organize production, ex-factory inspection, trade (delivery) and technical exchanges, product certification, quality arbitration and supervision.……     

Flow calorimeter for enthalpy increment measurements on condensed gases

A flow calorimeter for enthalpy increment measurements on condensed gases is presented. A better knowledge of the properties of the liquefied natural gas is needed, and therefore a liquid loop has been designed for our flow calorimeter. The fluid loop in the calorimeter is designed in order to avoid the two-phase region, since two phases would give compositional disturbances in the measurements. The avoidance of the two-phase region is made possible by increasing the pressure of the test fluid after the measurement section, then heating the fluid at super-critical pressure past the critical point. Finally, the fluid is throttled to the low-pressure gas state at the inlet condition of the compressor that circulates the fluid. To perform the pressure increase, a new cryogenic pump has been designed. To evaluate the new equipment, measurements were taken on liquid ethane over the temperature range 146–256 K at pressure between 0.9 and 5.1 MPa.     

Synthesis of Alumina-Zirconia Nanocomposites by Solgel Process

Al₂O₃-ZrO₂ nanocomposites were developed starting with the solgel process. Composite alumina-zirconia nanopowders were synthesized from metallorganic precursors (Aluminium secondary butoxide and zirconium Iso propoxide) using the solgel process. The parameters affecting the synthesis—solvent, concentration of precursor, R/H ratio (i.e., dilution of water in solvent)—were varied as also the temperature and pH. BET and TEM were used to measure nanosize. Diffuse reflectance spectroscopy and also qualitative optical absorption led to identical particle size estimate. The variation of process parameters was used to study the effect and interdependence of process parameters. Artificial Neural Networks was used to rigorously analyze the process. Although this led to confirmation of interdependence of parameters, the presence of a single overwhelming solvent variable was also established. Then the optimal process was used to synthesize more nanopowder. To produce bulk nanocomposite the nanopowders were sintered by varying the temperature and time period. The sintered lithoids were probed with a vickers hardness tester to measure elastic modulus, hardness, and fracture toughness. The results showed high elastic modulus, modest hardness, and very high fracture toughness.     

Certification Becomes Important for the I Quality; and Safety Supervision of the Chinese Liquor Sector

The end of 2007, over 200 unit products of more than 80 Chinese firms have passed the quality grade certification for liquor products. These products involve distilled spirits, beer, wine, yellow wine, fruit syrup wine and others, and cover over 80% of the national top-branded liquor products.……     

Deposition and Coating Properties on CVD Tungsten

Surface characterization and microstructure studies are performed on chemical vapor deposited (CVD) tungsten coating. There is about 2 μm thickness diffusion layer of tungsten in the molybdenum substrate. The thermal shock test shows tungsten coating has good adhesion with molybdenum substrate, but the elements of oxygen and carbon in the tungsten coating have the bad affection to the adhesion. The result of high-temperature diffusion experiment is the diffusion rate from molybdenum substrate to tungsten coating is faster.