钛带坯对焊质量对成品组织和性能的影响

利用钛材具有的焊接性能,对厚度为ζ1.0mm的钛板进行对焊.通过控制焊接电流、电弧电压及焊接速度,同时进行一定的热处理,经85%以上的加工率轧制后,生产出厚度为踟ζ0.15mm,单重≥60kg.长度≥50m的钛带,且焊缝组织和性能满足用户要求.     

地面模拟微重力条件下Cu-Pb合金的制备及微观结构与摩擦性能研究

利用地面上建立的微重力电磁模拟设备成功制备出了Cu-Pb二元难混合金,并对其微观组织结构与摩擦性能进行了分析与测试。样品SEM分析结果表明,模拟微重力状态下制备的合金样品较好地克服了地面上因重力影响而产生的严重成分偏析,少数弥散相较均匀地分布于基体中,少数相含量越低,弥散体尺寸越小,分布越均匀;摩擦性能测试结果显示合金模拟样品的摩擦性能明显好于基体金属,且摩擦系数随少数相Pb的含量的增大而减小,体积磨损率随少数相含量的增大先快速减小而后又缓慢增大。同时对实验结果进行了简单的分析与讨论。      

TIG补焊对2219铝合金搅拌摩擦焊接接头微观组织及性能影响

通过对原始搅拌摩擦焊（FSW）接头中间位置进行缺口挖补以模拟焊缝缺陷,采用钨极氩弧焊（TIG）补焊对其进行焊缝缺陷修复试验,研究该补焊工艺对接头微观组织及力学性能的影响规律,为贮箱的FSW焊缝性能评价提供技术支撑和后续工程指导。结果表明,相较于FSW接头,补焊接头TIG焊缝区主要由较大的等轴树枝晶组成,且与FSW焊缝交界处相互掺杂着粗大等轴晶和细小等轴晶;补焊接头固溶区受热循环影响较大,晶粒较为粗大,而过时效区受热循环影响较小,会发生过时效化并形成软化区。补焊接头抗拉强度与延伸率相较于原始FSW接头有所降低,硬度分布大致呈“W”形,WNZ区为硬度值最低处;补焊接头断裂位置始于焊趾处,断口存在大量韧窝,同时韧窝内存在第二相粒子,呈现韧性断裂机制。     

Microstructure control techniques in primary hot working of titanium alloy bars:A review

How to control the microstructure of titanium alloy bars is important to fabricating high-performance aerial forgings. This paper gives a thorough survey of the manufacturing meth-ods and microstructure control techniques for titanium alloy bars. It summarizes the effects of pro-cessing parameters on the mechanisms and laws of microstructure evolution during b working and (a+b) working, including the kinetics and grains size of dynamic recrystallization (DRX) during b deformation and the kinetics and grains size of spheroidization during (a+b) deformation. The trends in microstructure control techniques are presented for fabricating titanium alloy bars with high efficiency, low cost, and high quality by means of b/(a+b) working, and the puzzles and chal-lenges in the future are also pointed out.     

X 射线 CT 技术在 C/ C 复合材料研究中的应用

分析了X射线CT技术的基本原理和成像模式,综述了X射线CT技术在C/C复合材料的密度测量、孔隙率、孔隙形状和分布等量化表征中的应用。同时介绍了X射线CT图像在C/C复合材料力学性能预测和裂纹扩展规律研究中的应用。     

热力学计算在新型热强耐蚀钢设计中的应用

运用Thermo-Calc计算软件分析碳化物对热作模具钢性能的影响,对新型热强耐蚀钢的合金成分进行了初步设计,并对该成分合金钢的组织性能进行了试验表征。结果表明,该钢种的基体组织为回火马氏体,其上有碳化物均匀,弥散分布;该钢种室温抗拉强度高达2 067 MPa,在620℃回火2 h时硬度为50HRC左右,在Na Cl腐蚀环境中耐蚀。     

Effect of nickel introduced by electroplating on pyrocarbon deposition of carbon-fiber preforms

In order to improve the deposition rate and microstructure of pyrocarbon, nickel was introduced by electroplating on carbon fibers and used as a catalyst during the deposition of pyrocarbon at 1000 C using methane as a precursor gas. The distribution of nickel catalyst and the microstructure of pyrocarbon were characterized by scanning electron microscopy（SEM）, energy dispersive spectroscopy（EDS）, X-ray diffraction（XRD）, and Raman micro-spectrometry. Results show that nano-sized nickel particles could be well distributed on carbon fibers and the pyrocarbon deposited catalytically had a smaller d002 value and a higher graphitization degree compared with that without catalyst. In addition, the deposition rate of pyrocarbon in each hour was measured.The deposition rate of pyrocarbon in the first hour was more than 10 times when carbon cloth substrates were doped with nickel catalysts as compared to the pure carbon cloths. The pyrocarbon gained by rapid deposition may include two parts, which are generation directly on the nickel catalyst and formation with the carbon nanofibers as crystal nucleus.     

连接参数对Ti53311S 高温钛合金TLP 连接接头性能的影响

采用Cu作为中间层实现了Ti53311S合金的TLP连接,通过SEM、EDS方法分析了接头界面的微观组织,研究了接头界面微观组织及力学性能随TLP连接温度及保温时间的变化规律。结果表明:TLP连接接头的典型界面结构为Ti53311S/β-Ti/Ti、Cu(Sn)金属间化合物/β-Ti/Ti53311S。随着TLP连接温度的升高或保温时间的增加,焊缝宽度逐渐增加,Cu元素向母材侧的扩散程度更加充分,化合物相分解消失,接头室温抗拉强度先大幅升高后趋于稳定,连接工艺为980℃/20 min时,接头抗拉强度达到最大值899 MPa。     

SiCp增强体表面改性对铁基复合材料组织性能的影响

为了改善粉末冶金方法制得的SiCp/Fe复合材料性能，采用化学镀的方法，成功地在SiCp表面沉积镍，考察了颗粒表面改性对铁基复合材料组织性能的影响。结果表明，镀镍层的作用明显：第一，阻碍了SiCp/Fe界面的过度反应以及Si原子向基体中的扩散；第二，镀镍层的存在改善了颗粒与基体的界面状况，使得颗粒能够更好地发挥增强体的作用。     

时效工艺对高强度Al-Cu-Li合金断裂韧性的影响

采用Kahn撕裂法测试了高强度Al-Cu-Li合金2090在不同时效制度下的断裂韧性及其变化规律,并借助TEM和SEM对相应微观组织形貌及断口形貌进行了观察。结果表明:双级时效和应变时效均可促进T_1相析出,改善合金的断裂韧性,但这种促进作用在过时效状态下减弱;晶界PFZ的宽化和粗大晶界平衡相的析出降低合金的断裂韧性,并对时效工艺、微观组织及断裂韧性之间的关系进行了讨论。