Mechanical, photoelectric and thermal reliability of SAC307 solder joints with Ni-decorated MWCNTs for flip-chip LED package component during aging

IF 1.7 4区 材料科学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Xinmeng Zhai, Yue Chen, Yuefeng Li, Jun Zou, Mingming Shi, Bobo Yang
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引用次数: 2

Abstract

Purpose This study aims to study the mechanical, photoelectric, and thermal reliability of SAC307 solder joints with Ni-decorated MWCNTs for flip-chip light-emitting diode (LED) package component during aging. By adding nanoparticles (Ni-multi-walled carbon nanotubes [MWCNTs]) to the solder paste, the shear strength and fatigue resistance of the brazed joint can be improved. However, the aging properties of Ni-modified MWCNTs composite solder joints have not been deeply studied. In this research, the mechanical, photoelectric and thermal reliability of SAC307 packaged flip-chip LEDs with Ni-MWCNTs added during aging were studied. Design/methodology/approach Compared with SAC solder alloys, the effects of different contents (0, 0.05, 0.1 and 0.2 Wt.%) of Ni-MWCNTs on the photoelectric and thermal properties of composite solder joints were examined. To study the aging characteristics of composite solder joints, the solder joints were aged at 85°C/85% relative humidity. Findings The addition of an appropriate amount of reinforcing agent Ni-MWCNTs reduces the density of the composite solder to 96% of the theoretical value of the SAC solder alloy. In addition, the microhardness increases and the wetting angle decreases. Two different phase compositions were observed in the solder joints with Ni-MWCNTs reinforcement: Cu3Sn and (Cu, Ni)6Sn5. The solder joints of SAC307-0.1Ni-MWCNTs exhibit the highest luminous flux and luminous efficiency of flip-chip LED filaments, the lowest steady-state voltage and junction temperature. And with the extension of the aging time, its aging stability is the best. In short, when the addition amount of Ni-MWCNTs is 0.1 Wt.%, the solder joints exhibit the best wettability and the thinnest intermetallic compound layer. And the shear strength of the tested solder joints is the best, and the void ratio is the lowest. At this time, the enhancement effect of Ni-MWCNTs on the composite solder has been best demonstrated. Research limitations/implications The content range of enhancer Ni-MWCNTs needs to be further reduced. Practical implications The authors have improved the performance of Ni-modified MWCNTs composite solder joints. Originality/value Composite solder with high performance has great practical application significance for improving the reliability and life of the whole device.
用于倒装芯片LED封装元件的镍修饰MWCNT SAC307焊点在老化过程中的机械、光电和热可靠性
本研究旨在研究用于倒装式发光二极管封装元件的ni修饰MWCNTs SAC307焊点在老化过程中的机械、光电和热可靠性。在焊膏中加入纳米颗粒(ni -多壁碳纳米管[MWCNTs])可以提高钎焊接头的抗剪强度和抗疲劳性能。然而,ni改性MWCNTs复合焊点的老化性能尚未得到深入的研究。在本研究中,研究了在老化过程中加入Ni-MWCNTs的SAC307封装倒装led的机械、光电和热可靠性。与SAC钎料合金比较,考察了Ni-MWCNTs含量(0、0.05、0.1和0.2 Wt.%)对复合钎料的光电和热性能的影响。为研究复合焊点的时效特性,将焊点在85℃/85%的相对湿度下时效。结果:添加适量增强剂Ni-MWCNTs可使复合钎料的密度降至SAC钎料合金理论值的96%。显微硬度增大,润湿角减小。在Ni- mwcnts增强的焊点中观察到两种不同的相组成:Cu3Sn和(Cu, Ni)6Sn5。SAC307-0.1Ni-MWCNTs的焊点具有倒装LED灯丝中最高的光通量和发光效率,最低的稳态电压和结温。并且随着老化时间的延长,其老化稳定性最好。简而言之,当Ni-MWCNTs的添加量为0.1 Wt时。%时,焊点的润湿性最好,金属间化合物层最薄。所测焊点抗剪强度最佳,气孔率最低。此时,Ni-MWCNTs对复合钎料的增强作用得到了最好的体现。研究局限性/意义增强剂Ni-MWCNTs的含量范围有待进一步缩小。实际意义作者改进了镍改性MWCNTs复合焊点的性能。高性能复合焊料对提高整个器件的可靠性和寿命具有重要的实际应用意义。
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来源期刊
Soldering & Surface Mount Technology
Soldering & Surface Mount Technology 工程技术-材料科学:综合
CiteScore
4.10
自引率
15.00%
发文量
30
审稿时长
>12 weeks
期刊介绍: Soldering & Surface Mount Technology seeks to make an important contribution to the advancement of research and application within the technical body of knowledge and expertise in this vital area. Soldering & Surface Mount Technology compliments its sister publications; Circuit World and Microelectronics International. The journal covers all aspects of SMT from alloys, pastes and fluxes, to reliability and environmental effects, and is currently providing an important dissemination route for new knowledge on lead-free solders and processes. The journal comprises a multidisciplinary study of the key materials and technologies used to assemble state of the art functional electronic devices. The key focus is on assembling devices and interconnecting components via soldering, whilst also embracing a broad range of related approaches.
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