Determination of reactive wetting properties of Sn, Sn–Cu, Sn–Ag, and Sn–Pb alloys using a wetting balance technique

Wetting properties of lead-free solders, Sn–0.7 wt.% Cu and Sn–3.5 wt.% Ag, pure Sn, and conventional Sn–40 w.t% Pb on Ni, Cu, and Ag substrates at 250 and 240 °C were determined by using a wetting balance technique. Wetting times and wetting forces were determined directly from the wetting curves, and surface tensions of molten solders were calculated from the wetting force measurements. A statistic tool, analysis of variance (ANOVA), was used to analyze the experimental results. By using the wetting time as an indication, it was found that Sn–Pb exhibited the best wetting followed by Sn–Ag, Sn–Cu, and Sn, in that order. A very significant but frequently ignored issue is that most solders react with substrates, and the molten solders are not in contact with the original substrates but rather with intermetallic compounds. On the basis of theoretical analysis and experimental observations, it was concluded that the withdrawing forces and the surface tensions of the molten solders determined by the present technique are not significantly affected by the interfacial reactions if the interfacial reactions are not too excessive. However, wetting times are strong functions of both solders and substrates and the interfacial reactions between them.

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Wetting Properties of Sn–Pb, Sn–Zn and Sn–Zn–Bi Lead–Free Solders

Jurnal Teknologi ◽

10.11113/jt.v46.285 ◽

2012 ◽

Cited By ~ 2

Author(s):

Ramani May Appan ◽

Ahmad Badri Ismail ◽

Zainal Arifin Ahmad ◽

Tadashi Ariga ◽

Luay Bakir Hussain

Keyword(s):

Surface Tension ◽

Surface Roughness ◽

Contact Angle ◽

Wetting Properties ◽

Different Temperatures ◽

Wetting Time ◽

Free Solder ◽

Increasing Temperature ◽

Lead Free Solders ◽

Wetting Force

Tiga kajian terhadap Sn–40Pb, Sn–9Zn dan Sn–8Zn–3Bi pateri tanpa plumbum telah dijalankan. Penyebaran pateri–pateri ini dikaji terhadap substrat Cu yang mempunyai kekasaran 0.13 μm pada suhu 250°C. Sn–40Pb mempunyai sudut sentuhan bernilai °6, iaitu tujuh kali lebih baik berbanding pateri–pateri Sn–Zn dan Sn–8Zn–3Bi. Tetimbang basahan digunakan untuk mengkaji tempoh dan daya basahan serta ketegangan permukaan pada suhu yang berlainan menggunakan dua fluks yang berbeza. Untuk pateri Sn–8Zn–3Bi, fluks MHS (nama komersial) memberi daya dan tempoh basahan yang lebih tinggi berbanding dengan fluks HCl untuk suhu yang meningkat. Ketegangan permukaan untuk pateri Sn–40Pb berkurangan apabila suhu meningkat tetapi suhu tidak mempengaruhi ketegangan permukaan untuk pateri Sn–9Pb dan Sn–8Zn–3Bi. Walau bagaimanapun, tambahan 3% Bi mengurangkan ketegangan permukaan sistem Sn–Zn–Bi. Satu kajian dilakukan mengenai penyebaran pateri aloi Sn-9Pb ke atas permukaan Cu bagi kekasaran permukaan antara 0.33 dengan 1.53 μm. Didapati bahawa kekasaran permukaan di bawah 0.62 μm tidak membantu dalam peningkatan basahan, tetapi kekerasan melebihi 0.62 μm meningkatkan sudut basahan dan luas penyebaran. Kata kunci: Pateri tanpa plumbum, penyebaran, kekasaran, sifat–sifat basahan, ketegangan permukaan Three studies on Sn–40Pb, Sn–9Zn and Sn–8Zn–3Bi Pb–free solders were conductwd. Spreading of the solders was investigated on 0.13 μm roughness Cu subrate at 250°C. Sn–40Pb has a contact angle of 6°, which is seven times better than Sn–9Zn and Sn–8Zn–3Bi solders. Wetting balance was uesd to study the wetting time, wetting force and surface tension at different temperatures using two different fluxes. For Sn–8Zn–3Bi solder, MHS (commercial name) flux gives higher wetting force and wetting time compared to HCl flux for increasing temperatures. The surface tension of Sn–40Pb solder decreased with increasing temperature whereas the surface tension of Sn–9Zn and Sn–8Zn–3Bi solders is not influenced by the temperature. However, the addition of 3% Bi reduces the surface tension of the Sn–Zn–Bi system. A study on the spreading of Sn–9Zn solder alloy on Cu with surface roughness between 0.33 and 1.53 μm was also conducted. Surface roughness below 0.62 μm, there was an improvemenet in the contact angle and spreading area. Key words: Pb–free solder, spreading, rougness, wetting properties, surface tension

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Comparison of Wettability for Sn-Based Solders on Copper and Aluminum Substrates

Materials Science Forum ◽

10.4028/www.scientific.net/msf.687.15 ◽

2011 ◽

Vol 687 ◽

pp. 15-20

Author(s):

Li Meng Yin ◽

Jian Wei Xian ◽

Zong Xiang Yao

Keyword(s):

Surface Tension ◽

Solder Alloy ◽

Active Element ◽

Cu Substrate ◽

Soldering Temperature ◽

Wetting Properties ◽

Wetting Time ◽

Aluminum Substrates ◽

Wetting Force ◽

Better Than

The wetting properties of four typical Sn-based solders, i.e., Sn-37Pb, Sn-3.0Ag-0.5Cu, Sn-0.7Cu and Sn-9Zn, on copper (Cu) and aluminum (Al) substrates at 250 °C, 260 °C and 270 °C were evaluated and compared by wetting balance method. The experimental results show that the wetting time of all solders on Cu substrate is shorter than that on Al substrate, but the wetting force of the solders with Cu substrate is bigger than that with Al substrate except Sn-9Zn solder. In addition, the wettability of the solders on Al substrate increases with increasing soldering temperature, and the wetting force of Sn-9Zn increases most obviously among four solders and reach 3.68 mN at 270 °C. The results also show that the wettability of the solders on Cu substrate mainly depends on surface tension of solder alloy, however, it depends on both surface tension and interaction with Al on Al substrate. Due to the active element Zn riches on the surface of Sn-9Zn solder, and Zn solid solutes into Al more easily, the wettability of Sn-9Zn solder on Al substrate is better than other three solders.

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Semi-Automatic Apparatus for Measuring Wetting Properties at High Temperatures

Metrology and Measurement Systems ◽

10.1515/mms-2017-0004 ◽

2017 ◽

Vol 24 (1) ◽

pp. 175-184 ◽

Cited By ~ 1

Author(s):

Marcin Bąkała ◽

Rafał Wojciechowski ◽

Dominik Sankowski ◽

Adam Rylski

Keyword(s):

High Temperatures ◽

Force Measurement ◽

Technological Factor ◽

Aviation Industry ◽

Practical Implementation ◽

Automatic Apparatus ◽

Wetting Properties ◽

Physico Chemical ◽

Wetting Force

Abstract Determination of the physico-chemical interactions between liquid and solid substances is a key technological factor in many industrial processes in metallurgy, electronics or the aviation industry, where technological processes are based on soldering/brazing technologies. Understanding of the bonding process, reactions between materials and their dynamics enables to make research on new materials and joining technologies, as well as to optimise and compare the existing ones. The paper focuses on a wetting force measurement method and its practical implementation in a laboratory stand – an integrated platform for automatic wetting force measurement at high temperatures. As an example of using the laboratory stand, an analysis of Ag addition to Cu-based brazes, including measurement of the wetting force and the wetting angle, is presented.

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Automation of selected brazes' dynamic properties in high-temperatures' measurement process

Image Processing & Communications ◽

10.2478/v10248-012-0077-0 ◽

2013 ◽

Vol 18 (2-3) ◽

pp. 33-41

Author(s):

Dominik Sankowski ◽

Marcin Bakala ◽

Rafał Wojciechowski

Keyword(s):

Surface Tension ◽

High Temperatures ◽

Dynamic Properties ◽

Automatic Measurement ◽

Measurement Methodology ◽

Joining Process ◽

Wetting Force ◽

Research Grant

Abstract The good quality of several manufactured components frequently depends on solidliquid interactions existing during processing. Nowadays, the research in material engineering focuses also on modern, automatic measurement methods of joining process properties, i.a. wetting force and surface tension, which allows for quantitative determination of above mentioned parameters. In the paper, the brazes’ dynamic properties in high-temperatures’ measurement methodology and the stand for automatic determination of braze’s properties, constructed and implmented within the research grant nr KBN N N519 441 839 - An integrated platform for automatic measurement of wettability and surface tension of solders at high temperatures, are widely described

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Effect of Multiple Reflows on the Interfacial Reactions and Mechanical Properties of an Sn-0.5Cu-Al(Si) Solder and a Cu Substrate

Materials ◽

10.3390/ma14092367 ◽

2021 ◽

Vol 14 (9) ◽

pp. 2367

Author(s):

Junhyuk Son ◽

Dong-Yurl Yu ◽

Yun-Chan Kim ◽

Shin-Il Kim ◽

Min-Su Kim ◽

...

Keyword(s):

Mechanical Properties ◽

High Heat ◽

Interfacial Reactions ◽

Future Application ◽

Scanning Calorimetry ◽

Cross Sectional ◽

Automotive Electronic ◽

Transmission Electron ◽

Si Content ◽

Lead Free Solders

In this study, the interfacial reactions and mechanical properties of solder joints after multiple reflows were observed to evaluate the applicability of the developed materials for high-temperature soldering for automotive electronic components. The microstructural changes and mechanical properties of Sn-Cu solders regarding Al(Si) addition and the number of reflows were investigated to determine their reliability under high heat and strong vibrations. Using differential scanning calorimetry, the melting points were measured to be approximately 227, 230, and 231 °C for the SC07 solder, SC-0.01Al(Si), and SC-0.03Al(Si), respectively. The cross-sectional analysis results showed that the total intermetallic compounds (IMCs) of the SC-0.03Al(Si) solder grew the least after the as-reflow, as well as after 10 reflows. Electron probe microanalysis and transmission electron microscopy revealed that the Al-Cu and Cu-Al-Sn IMCs were present inside the solders, and their amounts increased with increasing Al(Si) content. In addition, the Cu6Sn5 IMCs inside the solder became more finely distributed with increasing Al(Si) content. The Sn-0.5Cu-0.03Al(Si) solder exhibited the highest shear strength at the beginning and after 10 reflows, and ductile fracturing was observed in all three solders. This study will facilitate the future application of lead-free solders, such as an Sn-Cu-Al(Si) solder, in automotive electrical components.

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95/00836 Determination of KLa values using CO2 mass balance technique in a coal desulfurization bioreactor

Fuel and Energy Abstracts ◽

10.1016/0140-6701(95)96091-0 ◽

1995 ◽

Vol 36 (1) ◽

pp. 49

Keyword(s):

Mass Balance ◽

Coal Desulfurization ◽

Balance Technique

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ChemInform Abstract: DETERMINATION OF THE STANDARD GIBBS ENERGY OF FORMATION OF RHODIUM OXIDE(S) AND IRIDIUM DIOXIDE(S) FROM SOLID OXIDE ELECTROLYTE ELECTROMOTIVE FORCE MEASUREMENTS

Chemischer Informationsdienst ◽

10.1002/chin.198541012 ◽

1985 ◽

Vol 16 (41) ◽

Author(s):

C. MALLIKA ◽

O. M. SREEDHARAN ◽

M. S. CHANDRASEKHARAIAH

Keyword(s):

Standard Gibbs Energy ◽

Gibbs Energy Of Formation ◽

Force Measurements ◽

Solid Oxide Electrolyte ◽

Iridium Dioxide ◽

Electromotive Force Measurements ◽

Rhodium Oxide ◽

Oxide Electrolyte ◽

Energy Of Formation

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Experimental and Theoretical Rotordynamic Characteristics of a Hybrid Journal Bearing

Journal of Tribology ◽

10.1115/1.2832446 ◽

1997 ◽

Vol 119 (1) ◽

pp. 132-141 ◽

Cited By ~ 17

Author(s):

J. T. Sawicki ◽

R. J. Capaldi ◽

M. L. Adams

Keyword(s):

Journal Bearing ◽

Operating Conditions ◽

Dynamic Force ◽

Test Results ◽

Force Measurements ◽

Lubrication Equation ◽

Load Cells ◽

Theoretical Predictions ◽

Stiffness And Damping

This paper describes an experimental and theoretical investigation of a four-pocket, oil-fed, orifice-compensated hydrostatic bearing including the hybrid effects of journal rotation. The test apparatus incorporates a double-spool-shaft spindle which permits independent control over the journal spin speed and the frequency of an adjustable-magnitude circular orbit, for both forward and backward whirling. This configuration yields data that enables determination of the full linear anisotropic rotordynamic model. The dynamic force measurements were made simultaneously with two independent systems, one with piezoelectric load cells and the other with strain gage load cells. Theoretical predictions are made for the same configuration and operating conditions as the test matrix using a finite-difference solver of Reynolds lubrication equation. The computational results agree well with test results, theoretical predictions of stiffness and damping coefficients are typically within thirty percent of the experimental results.

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