An inverse method for the determination of thermal conductivity and thermal contact resistance: Simulated results
Document Type
Conference Proceeding
Publication Date
12-1-1998
Abstract
Thermal conductivity of polymers and contact resistance at the interface of plastics with other materials are important parameters in the simulation of plastic processing techniques. An inverse procedure is presented for the determination of thermal conductivity and thermal contact resistance of a plastic specimen from transient temperature distribution in a one dimensional heat flow apparatus. The inverse procedure used minimizes a suitably defined sum of squares function to obtain the parameters. The method has been tested using simulated data and results are presented. The procedure is particularly attractive for the study of plastics as it requires no insertion of thermocouples in the plastic and can be applied to thin samples. The method though computationally more intensive compared to steady state methods requires no a priori knowledge of either parameters. Furthermore it would reduce the experimental duration considerably compared to the steady state methods.
Identifier
1842470527 (Scopus)
Publication Title
American Society of Mechanical Engineers Heat Transfer Division Publication HTD
ISSN
02725673
First Page
267
Last Page
273
Issue
3
Volume
357
Recommended Citation
Sridhar, L. and Narh, K. A., "An inverse method for the determination of thermal conductivity and thermal contact resistance: Simulated results" (1998). Faculty Publications. 16250.
https://digitalcommons.njit.edu/fac_pubs/16250
