Affiliation:
1. Kyungpook National University
Abstract
This study investigates a brazing method for manufacturing PbTe thermoelectric modules using a Ag-based filler metal with a melting point of about 650 °C. To improve the bonding strength between the Ag-based brazing layer and the PbTe thermoelectric module, an electroless Ni-P plating layer is formed on the surface of the thermoelectric module as a diffusion barrier layer. The bonding strength of the PbTe thermoelectric module manufactured by the electroless Ni-P plating and Ag-based brazing has a high value of approximately 8.3 MPa. No defects such as pores or cracks were observed at the bonding interface between the thermoelectric element and the brazing layer. Furthermore, because of the high bonding strength of the manufactured thermoelectric module, fractures occur inside the thermoelectric element rather than at the bonding interface. Accordingly, the electroless Ni-P plating and Ag-based brazing method proposed in this study is found to be effective in manufacturing PbTe-based thermoelectric modules with high bonding strength.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference16 articles.
1. G. J. Snyder, E. S. Toberer, Complex thermoelectric materials, Nat. Mater. 7 (2008) 105-114.
2. R.R. Heikes, R. W. Ure, Thermoelectricity: Science and Engineering, Interscience, New York, (1961).
3. F.D. Rosi, E.F. Hockings, N.E. Lindenblad, Semiconducting Materials for Thermoelectric Power Generation, RCA Rev. 22 (1961) 82-121.
4. C. Wood, Materials for Thermoelectric Energy-Conversion, Rep. Prog. Phys. 51 (1988) 459-539.
5. Y. Gelbstein, Z. Dashevsky, M. P. Dariel, High performance n-type PbTe-based materials for thermoelectric applications, Physica B 363 (2005) 196-205.
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