论文信息 - The effect of thermal contact resistance on heat management in the electronic packaging

The effect of thermal contact resistance on heat management in the electronic packaging

A finite element analysis is carried out in order to investigate the role of thermal contact resistance on heat management within a simple central processing unit (CPU)/heat sink assembly. A special attention is paid in assessing the effect of surface roughness characteristics, mechanical and thermal properties of the contacting bodies, applied contact pressures and the use of thermal interface materials on the maximum temperature experienced by the CPU. Two classes of thermal interface materials: (a) phase-change materials and (b) acrylic- or silicone-based tapes are considered. The results clearly reveal that plastic deformation of micro-contacts (promoted by high contact pressures and lower micro-hardness levels) and the use of thermal interface materials which eliminate (high thermal resistance) micro-gaps can significantly lower the overall CPU/heat sink thermal contact resistance and facilitate heat management. It is also shown that the retention of asperity micro-contacts and good wetting of the mating surfaces by the thermal interface material are critical for achieving an effective removal of the heat generated by the CPU.

Mica Grujicic | M. Grujicic | C. L. Zhao | C. Zhao | E. C. Dusel

[1] Gerry E. Schneider,et al. Thermal Contact Resistance of Nonconforming Rough Surfaces, Part 2: Thermal Model , 2003 .

[2] Gerry E. Schneider,et al. Review of Thermal Joint Resistance Models for Non-Conforming Rough Surfaces in a Vacuum , 2003 .

[3] E. Beyne,et al. Thermal management of electronic systems II : proceedings of Eurotherm Seminar 45, 20-22 September 1995, Leuven, Belgium , 1997 .

[4] K. M. Chittajallu,et al. Design and optimization of polymer electrolyte membrane (PEM) fuel cells , 2004 .

[5] M. Yovanovich,et al. Astatistical model to predict thermal gap conductance between conforming rough surfaces , 1982 .

[6] Mica Grujicic,et al. A computational analysis of the percolation threshold and the electrical conductivity of carbon nanotubes filled polymeric materials , 2004 .

[7] M. Cooper,et al. Thermal contact conductance , 1969 .

[8] Majid Bahrami,et al. Thermal Resistances of Gaseous Gap for Conforming Rough Contacts , 2004 .

[9] J. C. Jaeger,et al. Conduction of Heat in Solids , 1952 .

[10] A. Baldan. Adhesively-bonded joints and repairs in metallic alloys, polymers and composite materials: Adhesives, adhesion theories and surface pretreatment , 2004 .