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Recent achievement in microstructure investigation of Sn0.5Cu3.4Ag lead-free alloy by adding boron

机译：硼添加Sn0.5Cu3.4Ag无铅合金显微组织研究的最新进展

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Inhomogenous microstructural coarsening sites are known to be preferred sites for initiation of creep and fatigue cracks. Thus, one of the keys to improved solder-joint reliability is the ability to control and stabilize a uniform microstructure. This study involves alloying small quantities of boron into the Sn-Cu-Ag system with the aim to improve the microstructure of these solders. Several analytical methods, such as SEM, TEM and SIMS, were employed to investigate the distribution and microstructure of alloying elements in the Sn-Cu-Ag system.

机译：已知不均匀的微观结构粗化部位是引发蠕变和疲劳裂纹的优选部位。因此，提高焊点可靠性的关键之一是控制和稳定均匀微观结构的能力。这项研究涉及将少量硼合金化成Sn-Cu-Ag系统，目的是改善这些焊料的微观结构。采用几种分析方法，如SEM，TEM和SIMS，研究了Sn-Cu-Ag系统中合金元素的分布和微观结构。

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《》|1999年|P.262-267|共6页
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Ye; L.; Lai; Z.;
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中图分类无线电电子学、电信技术;
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5. The effect of adding boron in solidification microstructure of dilute iron-carbon alloy as assessed by phase-field modeling [J] . Américo Trist?o Bernardes, Carlos Ant?nio Silva, Henrique Silva Furtado, Materials Research . 2011,第2期

机译：相场模拟评估了硼在稀铁碳合金凝固组织中的作用
6. Investigation of microstructures and tensile properties of a Sn-Cu lead-free solder alloy [J] . Zhu FL, Zhang HH, Guan RF, Journal of Materials Science. Materials in Electronics . 2006,第5期

机译：Sn-Cu无铅焊料合金的组织和拉伸性能研究
7. The investigation of the microstructure and mechanical properties of ordered alominide-iron (boron) nanostructures produced by mechanical alloying and sintering [J] . S. Izadi, Gh. Akbari, K. Janghorban, International Journal of Modern Physics: Conference Series . 2012,第2期

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8. Recent achievement in microstructure investigation of Sn0.5Cu3.4Ag lead-free alloy by adding boron [C] . Lilei Ye, Zonghe Lai, Johan Liu, International Symposium on Advanced Packaging Materials . 1999

机译：通过添加硼，SN0.5Cu3.4AG无铅合金微观结构研究的最新成果
9. The effect of micro alloying on the microstructure evolution of Sn-Ag-Cu lead-free solder. [D] . Werden, Jesse. 2016

机译：微合金化对Sn-Ag-Cu无铅焊料组织演变的影响。
10. The improved properties and microstructure of β-solidify TiAl alloys by boron addition and multi steps forging process [O] . Shulong Xiao, Yuyong Chen, Mingao Li, -1

机译：硼添加和多步锻造工艺改善β-凝固TiAl合金的性能和组织
11. The effect of adding boron in solidification microstructure of dilute iron-carbon alloy as assessed by phase-field modeling [O] . Henrique Silva Furtado, Américo Tristão Bernardes, Romuel Figueiredo Machado, 2011

机译：基于相场建模评估的稀铁 - 碳合金凝固微观结构中加入硼的效果

Recent achievement in microstructure investigation of Sn0.5Cu3.4Ag lead-free alloy by adding boron

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