喷丸处理对Al_(18)B_(4)O_(33)晶须增强铝基复合材料残余应力和微观结构的影响

对Al_(18)B_(4)O_(33)晶须增强铝基复合材料进行常规喷丸(室温)与热喷丸(200℃)处理,研究了喷丸处理后表层残余应力分布,采用X射线衍射线形分析方法对表层微观结构进行表征,并研究了其显微硬度。结果表明:喷丸处理后复合材料表层的残余压应力随着距表面距离(深度)的增加先增大后减小,且热喷丸处理后的残余压应力大于常规喷丸处理后的;随着深度的增加,喷丸处理后表层的晶块尺寸增大,微观应变减小,且热喷丸处理后的晶块尺寸与微观应变小于常规喷丸处理后的;喷丸处理后表层的位错密度与硬度随着深度的增加而降低,且热喷丸处理后的位错密度与硬度均高于常规喷丸处理后的。

Infrared and MAS NMR Spectroscopic Studies of Al_(18)B_4O_(33)

The IR spectrum and 11B and 27Al MAS NMR spectra of Al18B4O33 are presented and discussed in relation to the possible existence of boron atoms substituting for aluminum atoms. The IR spectrum shows that the strong vibrations of the BO3 groups are present in the 1 500-1 200 cm-1 region, and very weak bands of BO4 units are present in the region from 1 000 to 1 100 cm-1. 11B MAS NMR spectrum indicates that the strong signal for BO3 units appears in the region from δ+5 to δ+20, and the very weak signal for BO4 units is at about δ- 1, while 27Al MAS NMR spectrum shows five peaks at about δ+62, +42. 1, +14, -4. 7 and -6. 4, originating from AlO4, AlO4, AlO5, AlO6 and AlO6, respectively. These results reveal that there are minor BO4 units in Al18B4O33, indicating that a small amount of B atoms substitute for Al atoms in the 4-fold coordination.

AgCu28-B_(2)O_(3)钎料空气反应钎焊连接Al_(2)O_(3)陶瓷工艺及机理研究

为了以低成本获得性能良好的Al_(2)O_(3)陶瓷连接接头,开发AgCu28-20B_(2)O_(3)钎料,将其应用于空气反应钎焊连接Al_(2)O_(3)陶瓷。B_(2)O_(3)可以有效改善AgCu28钎料对Al_(2)O_(3)陶瓷表面的润湿性。钎焊过程中Cu粉被氧化成CuO,并进一步与Al_(2)O_(3)、B_(2)O_(3)发生反应,生成Cu_(2)Al_(6)B_(4)O_(17)晶须,进而获得性能优异的可靠接头。当保温时间为60min,连接温度高于950℃时,可以实现Al_(2)O_(3)陶瓷接头的有效连接,钎缝中心区主要为Ag,靠近界面处为CuO与Cu3B2O6的混合相及棒状Cu_(2)Al_(6)B_(4)O_(17)晶须,接头抗剪强度随温度升高而升高。当连接温度高于1100℃后,晶须在高温下分解成无定型颗粒状产物,接头抗剪强度下降。最佳工艺参数为T=1050℃,t=60min,接头的抗剪强度达到了70.9MPa,断裂发生在焊缝中靠近Al_(2)O_(3)母材处。开发一种用于Al_(2)O_(3)连接的复合钎料,并在接头中合成了新型硼酸铜铝晶须,提高了接头的性能。

含Eu^(3+),Tb^(3+)硼酸铝磷光体的制备及荧光特性

采用溶胶—凝胶法于 Al2 O3-B2 O3体系中合成出了 Eu3+ ,Tb3+激活的 Al1 8B4O33磷光体。研究了磷光体的形成过程 ,探讨了烧结温度及激活剂浓度对磷光体发光性能的影响。