Title :
Shielding Effectiveness Data on Commercial Thermoplastic Materials
Author :
Lundgren, Urban ; Ekman, Jonas ; Delsing, Jerker
Author_Institution :
Omicron Ceti AB, Umea
Abstract :
Ten different commercially available conductive thermoplastic materials have been tested for near- and far-field shielding effectiveness (SE). Far-field SE was tested using a modified standard measurement technique to provide results comparable with the company-provided data. Further, housings of different thermoplastic materials were constructed and equipped with an electromagnetic interference (EMI) source to model a realistic near-field SE situation. The SE data up to 1 GHz is presented. Conductive thermoplastic materials with fillings of stainless steel fibers and nickel-coated carbon fibers were the two materials that offer the best far-field shielding performance. For the near-field shielding, two materials with filling of stainless steel fibers were the best performing ones. A thermoplastic with polycarbonate (PC) base and stainless steel content of 1.5 vol% showed the best combined far- and near-field shielding results
Keywords :
carbon fibre reinforced plastics; conducting materials; electromagnetic interference; electromagnetic shielding; commercial thermoplastic materials; conductive thermoplastic materials; electromagnetic interference; nickel-coated carbon fibers; polycarbonate; shielding effectiveness; stainless steel fibers; Building materials; Conducting materials; Electromagnetic interference; Electromagnetic modeling; Filling; Materials testing; Measurement standards; Measurement techniques; Organic materials; Steel; Conductive composite material; IEEE-STD 299; far field; near field; shielding effectiveness (SE); thermoplastic;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2006.879352
