Modelling and testing the electromagnetic near field shielding effectiveness
achieved by woven fabrics with conductive yarns

Răzvan, Rădulescu Ion; Surdu, Lilioara; Visileanu, Emilia; Costea, Marian; Pătru, Ion; Voicu, Viorica

doi:10.35530/it.069.03.1508

Cited by 9 publications

(3 citation statements)

References 3 publications

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“…The main material constants used for modeling EMSE of textiles are electric conductivity and magnetic permeability of the metallic yarns and the composite fabrics, the optical diameter of the yarn/fabric thickness, distance between metallic yarns in the fabric structure. The skin depth of yarns/fabrics has a great significance both in the circuit method and in the impedance method with correction factors [9,15].…”

Section: Methods To Estimate Shielding Effectivenessmentioning

confidence: 99%

Life Cycle Assessment of Flexible Electromagnetic Shields

Rădulescu¹,

Surdu²,

Visileanu³

et al. 2022

Recent Topics in Electromagnetic Compatibility

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Nowadays, fiber based flexible electromagnetic shields have widespread applications in ensuring Electromagnetic Compatibility (EMC). Shielding is a solution of EMC, and the main methods to estimate shielding effectiveness are represented by the circuit method and the impedance method. Magnetron sputtering of metallic layers represents a novel technique to impart electric conductive properties to fabrics. Coating of fabrics represents a second main option to manufacture textile shields beside the insertion of conductive yarns in the fabric structure. Life Cycle Assessment (LCA) is often used to assess a comparatively modern with a classical manufacturing process in order to prove its eco-friendly character. This chapter comparatively assesses flexible EM shields manufactured of fabrics with inserted conductive yarns with and without magnetron plasma coating. The copper plasma coating of cotton fabrics with inserted silver yarns increases shielding effectiveness (EMSE) by 8–10 dB. In order to keep for the LCA study the same functional unit of 50 dB at 100 MHz for one sqm of fabric, the fabric structure is modeled with a reduced distance between the inserted conductive yarns. Results of the LCA study show a substantial impact on the environment for the plasma coated fabric upon using a laboratory scale deposition set-up.

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Section: Methods To Estimate Shielding Effectivenessmentioning

confidence: 99%

Life Cycle Assessment of Flexible Electromagnetic Shields

Rădulescu¹,

Surdu²,

Visileanu³

et al. 2022

Recent Topics in Electromagnetic Compatibility

View full text Add to dashboard Cite

show abstract

“…This is a field belonging to Electromagnetic Compatibility (Schwab and Kuerner, 2013). Textile materials with electrical conduction properties are suitable for EM shielding due to their flexibility, low weight and good mechanical resistance as well as due to the tailored design for end user requirements property (Neruda and Vojtech, 2018;Radulescu et al, 2018a;Radulescu et al, 2018b). There are two types of technologies for imparting electric conductive properties to textile materials: insertion of conductive yarns in the fabric structure and coating with conductive layers (Ziaja and Jaroszewski, 2011).…”

Section: Introductionmentioning

confidence: 99%

Comparative life cycle assessment study for fabric based electromagnetic shielding

Rădulescu¹,

Visileanu²,

Scarlat³

et al. 2020

Proceedings of the 8th International Conference on Advanced Materials and Systems

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Life Cycle Assessment (LCA) studies represent the scientific approach for elaborating modern policies and supporting management decisions in the field of Sustainable Production and Consumption. The goal of many LCA studies undertaken for research are related to an exhaustive comparison of a modern, innovative product or process with respect to an initial, conventional one. This paper deals with such an approach for fabric based electromagnetic shielding. Electrically conductive textile fabrics are used in applications of electromagnetic shielding. Two basic types of technology for imparting electro- conductive properties to textiles are available, namely: insertion of conductive yarns in the fabric structure and coating with conductive layers. Magnetron plasma coating is a modern technology for achieving thin metallic layers on fabrics. Therefore, we focused the LCA study to the comparison between cotton woven fabrics with inserted conductive yarns out of stainless steel in warp and weft direction and cotton fabrics coated with thin layers of copper by magnetron plasma laboratory equipment. Functional unit of the comparative study was one square meter of EM textile shield with 5.2 dB at 1 GHz. A modelling of the fabric with inserted conductive yarns was performed in order to reach same shielding effectiveness at a certain frequency, as in the case of the coated fabric. Inventory data was collected for the fabric with conductive yarns from the textile company SC Majutex SRL, while for the plasma coated fabric from INFLPR. Impact assessment was performed by INCDTP, by using the LCA software SimaPro7 and the data basis EcoInvent 3.0. Interpretation of results shows that weaving of conductive yarns has a smaller impact on the environment than magnetron plasma coating using laboratory equipment, in a ratio of 1:2. This fact is explained by the industrial process of weaving as compared to laboratory process of coating, whereas brings the idea that upon utilization of industrial magnetron equipment for coating one may achieve in the end better environmental impact due to the process optimization for large area plasma processing.

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Section: Introductionmentioning

confidence: 99%

Proceedings of the 8th International Conference on Advanced Materials and Systems

2020

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THE ROMANIAN LEATHER MANUFACTURERS ORGANIZATION ROMANIAN LEATHER & FUR PRODUCERS ASSOCIATION 1. Advanced Materials and Nanomaterials 2. Biomaterials and Biotechnologies 3. Innovative Systems, Technologies and Quality Management 4. Ecological Processes for Circular and Neutral Economy 5. Creative Industries and Cultural Heritage 6. Education and DigitalizationWe would like to thank all the participants, the International Scientific Committee, partners and all the sponsors that made this scientific event possible. ICAMS Conference has already become a tradition, contributing to the advancement of Materials Science in research, academic, social and business environments worldwide.

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Modelling and testing the electromagnetic near field shielding effectiveness achieved by woven fabrics with conductive yarns

Cited by 9 publications

References 3 publications

Life Cycle Assessment of Flexible Electromagnetic Shields

Life Cycle Assessment of Flexible Electromagnetic Shields

Comparative life cycle assessment study for fabric based electromagnetic shielding

Proceedings of the 8th International Conference on Advanced Materials and Systems

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