An Investigation of Copper Dissolution and the Formation of Intermetallic Compounds in Molten Tin and Tin-Silver Solders

Faizan, Mohammad; McCoy, R. A.; Lin, D. C.; Srivatsan, T. S.; Wang, G.-X.

doi:10.1115/ht2003-47477

Cited by 5 publications

(1 citation statement)

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“…The formation and dissolution of the IMC are competing processes, with formation greater than dissolution. Growth is thickness dependent, and hence the thickness stabilises after about 60 s and the IMC thickness does not vary much with time any more (Faizan, 2003). The dissolution times in these experiments ranged between 10 and 40 s, so the linear correction for time will not be exact.…”

Section: Discussionmentioning

confidence: 93%

On the factors affecting the dissolution of copper in molten lead‐free solders and development of a method to assess the soldering parameters

Maio

Hunt²

2009

Soldering & Surface Mount Tech

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Purpose -The purpose of this paper is to investigate the various factors that influence the dissolution of copper in molten solder, paying particular attention to important parameters: temperature, solder composition and flow rate. Design/methodology/approach -To determine the dissolution rate of copper in lead-free solders, a simple and automated technique is developed. This methodology provides repeatable measurements that allow the various experimental parameters to be isolated. Factors that greatly affect the dissolution rate of copper, such as soldering temperature, flow rate and solder composition, are taken into account. Particular attention is paid to the flow rate of the molten solder. In fact, different alloys at the same temperature can have considerably different flow rates, owing to their different viscosities at that temperature. The dissolution rates of copper in seven lead-free alloys and the Sn-Pb alloy are compared at 255, 275 and 3008C. Findings -It is observed that generally the samples with a thicker intermetallic layer are those that exhibit a longer dissolution time. Originality/value -The transition from tin-lead to lead-free increases the tendency for copper dissolution in molten solders, clearly representing a serious risk to circuit reliability. This paper presents the many advantages of a method for comparing the dissolution rate of copper with different solder alloys.

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Section: Discussionmentioning

confidence: 93%

On the factors affecting the dissolution of copper in molten lead‐free solders and development of a method to assess the soldering parameters

Maio

Hunt²

2009

Soldering & Surface Mount Tech

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Challenges in Minimizing Copper Dissolution for Lead Free Wave Soldering in Surface Mount Technology Going Towards Green Manufacturing

Arunasalam

Leman

Baharudin

et al. 2021

Int. J. of Precis. Eng. and Manuf.-Green Tech.

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Dissolution kinetics of copper in lead-free liquid solders

Faizan

2015

Soldering &Amp; Surface Mount Technology

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Purpose – The purpose of this paper was to develop a physics-based mathematical model to estimate the amount of substrate metal lost during the wet soldering process. Design/methodology/approach – A mathematically rigorous model depicting the actual physics of the substrate/solder interaction and dissolution has been proposed to simulate the dissolution of the substrate metal in the liquid lead-free solder. The basic mass diffusion equation with the implementation of interface reaction kinetics was solved numerically using the finite volume approach. The moving interface was tracked by utilizing the coordinate transformation technique. Findings – It was observed that the process of metal dissolution in the liquid solder was governed by two important parameters, viz., interface kinetics and long-range diffusion in the liquid solder. Non-equilibrium behavior was observed in the early stage of the process. The early stage of the dissolution process was seen as governed by interface kinetics, while diffusion became the rate-controlling mechanism at the later phase of soldering. Practical implications – Substrate dissolution can be accurately estimated for a particular substrate–solder combination and for the given process conditions. This early estimation will help in ensuring the reliability and health of the solder joint. Originality/value – A model based on actual physics is proposed, and interface reaction kinetics has been introduced to capture the actual behavior of the process. The model will serve as the basis for two- and three-dimensional analysis, including the formation of an intermetallic compound in the solder joint.

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An Investigation of Copper Dissolution and the Formation of Intermetallic Compounds in Molten Tin and Tin-Silver Solders

Cited by 5 publications

References 0 publications

On the factors affecting the dissolution of copper in molten lead‐free solders and development of a method to assess the soldering parameters

On the factors affecting the dissolution of copper in molten lead‐free solders and development of a method to assess the soldering parameters

Challenges in Minimizing Copper Dissolution for Lead Free Wave Soldering in Surface Mount Technology Going Towards Green Manufacturing

Dissolution kinetics of copper in lead-free liquid solders

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