A1-Si过共晶合金拉伸断裂过程的研究

以铸造Al-Si过共晶合金为研究对象,采用现场金相显微镜对Al-Si过共晶合金的断裂过程进行观察,探讨了两相合金的断裂机理。试验发现:Al-Si过共晶合金的断裂首先发生在先析Si相的凹角处,随着外力的增加,裂纹向先析Si相内部进行扩展,达到相界处时改变方向,沿着Al-Si两相的相界进行扩展。分析认为:Al-Si两相合金中,相界的结合强度最弱,裂纹的扩展是择弱进行的。     

喷射成形过共晶Al-Si合金材料的研究现状

过共晶Al-Si合金具有较高的强度、较低的密度和热膨胀系数、良好的耐磨性和耐蚀性,在汽车、造船、航空航天及其他制造行业广泛应用.但当合金中Si含量太高时,合金组织粗大、偏析严重,同时材料的强度、塑性急剧降低而失去使用价值.喷射成形技术是一种全新的材料制备技术,具有快速凝固技术的基本特征,同时还具有生产工序简单、氧化和污染小等优点,在国外已经在特殊钢、高温合金、铝合金和铜合金等方面进行了产业化应用.但利用喷射成形技术来制备和生产过共晶Al-Si合金材料还很不成熟,有许多问题还没有得到妥善的解决,作者提出两点建议来进一步改善过共晶Al-Si合金材料的性能(1)在喷射成形过共晶Al-Si合金中添加微量稀土元素;(2)利用喷射共沉积技术制备过共晶Al-Si合金为基体的纤维增强复合材料.     

过共晶Al-22Si合金的切削加工性能研究

采用金属铸造法制备过共晶Al-22Si合金试样块,在光学显微镜上观察细化变质后过共晶Al-22Si合金的微观组织形貌,并测试其布氏硬度值和铣削表面粗糙度.通过正交试验探究轴向切深、进给量、铣刀转速对铣削力的影响.实验结果表明:细化变质后的过共晶Al-22Si合金初晶硅尺寸减小,共晶硅呈短棒状,合金硬度很高,铣削表面粗糙度较小;在铣削加工中,铣刀转速对合金铣削力的影响最大,其次是轴向切深,最小的是进给量.     

快速凝固过共晶铝硅合金的显微组织及摩擦学行为研究现状

过共晶铝硅合金由于具有高耐磨性、低热膨胀系数和高比强度而广泛应用于汽车和飞机制造业.该类合金在常规铸造下易产生粗大的脆硬初生硅相,降低合金力学性能及耐磨性.而利用快速凝固技术能够有效细化硅相,制备出高耐磨的过共晶铝硅合金.过共晶铝硅合金的性能可以通过改变共晶硅和初晶硅的形态及其分布、二次枝晶胞的尺寸或臂间距等方式加以改善.目前过共晶铝硅合金的研究大多是关于控制共晶和初晶硅的形态和分布,而针对常规铸造的细化晶粒工艺只对25％(质量分数)硅含量以下的过共晶铝硅合金有明显效果,因此研究人员聚焦于能对高硅含量的过共晶铝硅合金实现晶粒细化的快速凝固技术.快速凝固技术区别于常规铸造的特点是高冷却速度,研究发现冷却速度对过共晶铝硅合金的相平衡和微观结构有着显著的影响.随着冷却速度的增加,过共晶铝硅合金的微观结构细化、化学均匀性提高、固溶度增加,形成非晶及亚稳相,极大地改善了过共晶铝硅合金的性能.根据不同快速凝固技术制备的过共晶铝硅合金,其细化的显微组织及对应的摩擦学行为也有所不同.这些差异对于完善快速凝固过程中硅晶粒形核长大机制、形态演化机制及其对过共晶铝硅合金性能影响的理论体系能够起到有效的补充作用.本文综述了快速凝固过共晶铝硅合金四种主要制备方法:衬底急冷技术、快速凝固-粉末冶金技术、喷射沉积技术和选择性激光熔化技术,分析了相关快速凝固工艺的研究现状,对比了不同工艺制备的过共晶铝硅合金的显微组织及耐磨性能,并从理论体系、性能预测和技术工艺三方面对其未来的研究方向提出了一些可行建议.     

Effect of Squeeze Cast Process Parameters on Fluidity of Hypereutectic Al-Si Alloy

The effects of processing variables on the fluidity of hypereutectic Al-Si alloy melt during squeeze casting were investigated.The maximum fluidity of Al-16.0%Si alloy during squeeze casting was obtained under the applied pressure of 30 MPa.The fluidity increased with superheat.The fluidity increased with silicon content in the range from 12.0% to 20.0%.That was decreased respectively by eutectic modification and primary silicon refinement.     

强磁场对过共晶铝硅合金中初晶Si分布的影响

对Al-18% (质量分数) Si合金进行磷盐变质处理,分别在变质剂反应温度保温20,40min,发现不施加强磁场条件下,凝固组织中的初晶Si相集中在试样周边附近,试样中心处为共晶组织.施加强磁场条件下,凝固组织中的初晶Si相分布在整个试样中.施加强磁场后试样中的初晶Si的尺寸比没有被施加强磁场的试样中的初晶Si尺寸大.     

热丝CVD法制备金刚石涂层刀具的研究现状

金刚石涂层刀具具有优异的硬度、耐磨性及导热性,在军事、航空航天等高精尖应用领域加工石墨、高硅铝合金、碳纤维增强塑料等难切削材料时无可替代,但目前金刚石涂层刀具存在两个问题:一是涂层与刀具间膜基结合力较差,导致涂层在使用中过早脱落;二是涂层表面粗糙度较大,难以保证被加工面的平整度与尺寸精度。本文从增强涂层结合力与降低涂层粗糙度两方面,将近年来科研人员对HFCVD法制备金刚石涂层的研究成果加以综述,并分析了各种因素对金刚石涂层刀具性能的影响。     

Characteristics and Microstructure of a Hypereutectic Al-Si Alloy Powder by Ultrasonic Gas Atomization Process

［1］J.L.Estrada and J.Duszczyk: J. Mater. Sci., 1990, 25,886. ［2］Daoyun DING, Zhangming SUN and Zhenhua CHEN: J. Central South Uni. of Technol., 1995, 26, 92. (in Chinese)     

Machining of Green Si3N4 Polymer Bonded Ceramic Materials

This research examined the machinability of Si₃N₄, based polymer bonded ceramic green bodies. They were clearly machinable. Surface roughness was comparable to milled steel. The machining forces were lower than those reported for other ceramics and composites. Higher percentages of polymer produced stronger, more machinable green bodies. The areas of greatest concern were: tool wear, distribution of polymer throughout the body, and choice of polymer, for good wettability. Feasible parameters for blank fabrication were determined. Optimal parameters for both blank fabrication and machining are still to be determined. Polymer bonded ceramic bodies may also have their own utility; however applications with these materials will require further investigations.     

Hybridization between Si3N4 and SiC films by plasma CVD

Journal of Materials Science Letters -     

氮化硅超细粉的钴磷合金镀

用超声波低温化学镀法在纳米Si3N4粉末表面沉积了均匀的钴磷合金镀层，在平行对比实验的基础上，提出了获得良好钴磷合金镀层的最佳镀液组成和操作条件，并对复合粉末进行了能谱成分、XRD相、TEM形貌以及衍射分析。     

Interracial Bonding Strength of TiN Film Coated on Si3N4 Ceramic Substrate

The fraction of TiN/Si3N4 in the cross section was observed with scanning electric microscope （SEM）, and residual stresses of TiN coated on the surface of Si3N4 ceramic were measured with X-ray diffraction （XRD）.The hardness of TiN film was measured, and bonding strength of TiN film coated on Si3N4 substrate was measured by scratching method. The formed mechanism of residual stress and the failure mechanism of the bonding interface in the film were analyzed, and the adhesion mechanism of TiN film was investigated preliminarily. The results show that residual stresses of TiN film are all behaved as compressive stress, and TiN film is represented smoothly with brittle fracture, which is closely bonded with Si3N4 substrate. TiN film has high hardness and bonding strength of about 500 MPa, which could satisfy usage requests of the surface of cutting Si3N4 ceramic.     

Evaluation of the Properties of Si3N4/Si3N4 Joint Brazed Using a Filler Alloy Containing Pd

Si3N4 ceramic was jointed to itself using a filler alloy of Cu76.5Pd8.5Ti15, and the mechanical properties of the jointwere measured and analyzed. By using a filler alloy of Cu76.5Pd8.5Ti15, the SisN4/SisN4 joints were obtained bybrazing at 1373～1473 K f     

Interfacial Bonding Strength of TiN Film Coated on Si3N4 Ceramic Substrate

The fraction of TiN/Si3N4 in the cross section was observed with scanning electric microscope (SEM), and residual stresses of TiN coated on the surface of Si3N4 ceramic were measured with X-ray diffraction (XRD).The hardness of TiN film was measured, and bonding strength of TiN film coated on Si3N4 substrate was measured by scratching method. The formed mechanism of residual stress and the failure mechanism of the bonding interface in the film were analyzed, and the adhesion mechanism of TiN film was investigated preliminarily. The results show that residual stresses of TiN film are all behaved as compressive stress, and TiN film is represented smoothly with brittle fracture, which is closely bonded with Si3N4 substrate. TiN film has high hardness and bonding strength of about 500 MPa, which could satisfy usage requests of the surface of cutting Si3N4 ceramic.     

电磁场对A1-18%Si过共晶合金初晶Si相形貌的影响

研究了交流电场、直流磁场和二者复合产生的电磁振荡对A1-18%(质量分数)Si过共晶初晶Si相形貌的影响。结果表明:交流电场、直流磁场和电磁振荡都使合金初晶Si相的大小经历了一次细化过程,交流电场使Si原子有序偏聚团的尺寸和数目发生改变,增大形核率,细化初晶Si相;直流磁场通过电磁制动效应抑制了初晶Si相的形核与长大;电磁振荡细化作用是通过减弱合金的成分过冷和温度梯度从而增大过冷度实现的。三者相比,在电磁振荡的作用下初晶Si相更为细小。     

Preparation and Properties of Sintering Additives Coated Si3N4 from Heterogeneous Nucleation Processing

The sintering additives such as Al2O3 and /or Y2O3 were coated on the surfaces of Si3N4 particles via heterogeneous nucleation processing using a buffered pH solution as the precipitation reagent .They nucleated and grew only on the surfaces of Si3N4 and did not form sol particles in solution by TEM observation .The isoelectric point(IEP) of coated Si3N4 was different from that of as-received Si3N4.The IEP of Al(OH)3-coated Si3N4 occurred at pH8.4, which is close to that of alumina .When Al(OH)3-coated Si3N4 particles were coated with Y(OH)3,the IEP of coated Si3N4 powder shifted from pH8.4 to pH9.2 ,similar to that of yttria.In addition ,the rheological data showed that Al2O3 and /or Y2O3 coated Si3N4 suspension is nearly Newtonian and that added Si3N4 suspension shows a shear rate thinning behavior.