Study on microstructure and its correlation with sheet resistance of Zn-Al metallized film

Yang, Ying; Huang, He; Wang, Fang; Zheng, Jun; Wang, Jinbing; Tang, Zebo; Zhou, Feng; Chen, Mohan; Wang, Qimin

doi:10.1080/02670844.2021.1918933

Surface Engineering

2021

DOI: 10.1080/02670844.2021.1918933

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Study on microstructure and its correlation with sheet resistance of Zn-Al metallized film

Ying Yang

He Huang

Fang Wang

et al.

Abstract: Zn-Al film was prepared on biaxially oriented polypropylene (BOPP) substrate via vacuum thermal evaporation. The microstructure and its correlation with sheet resistance of Zn-Al film were explored systematically. The results showed that the macromorphology of Zn-Al film was closely related to the surface topography of BOPP substrate. XRD and SEM analysis indicated that Zn-Al film displayed a columnar and strong textured structure of Zn (002). TEM results revealed that the film thickness was in the range of 20… Show more

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“…As aluminum has a high oxygen affinity, the aluminum electrode tends to be turned into amorphous alumina partly in the ambient atmosphere. The transition to alumina on the PP film is recognised as detrimental to the performance of the metallised PP film because of the high insulation of alumina [17]. It is required to explore the degradation of the aluminum electrode and the PP film as the structure of an MPPFC instead of researching them separately.…”

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Revisiting the thermal ageing on the metallised polypropylene film capacitor: from device to dielectric film

Wang

et al. 2022

High Voltage

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Metallised polypropylene film capacitors (MPPFCs) are widely used in power electronics and are generally degraded by elevated temperatures. This work aims to determine the relationships between the structural changes of MPPFC and the microstructural variations of the PP film during the thermal ageing of MPPFC at 100°C for 38 days. The capacitance of MPPFC has a slight decrease during thermal ageing. However, the breakdown voltage of the MPPFC decreases by 39.4% by the ageing. The partial discharge (PD) number of MPPFC increases linearly with ageing time. The tear-down analysis of the MPPFC reveals that the molecular structure of the PP film has not been altered but has led to molecular chain scission and the generation of some polar fragments/groups. Meanwhile, the relative permittivity of the PP films rises as the ageing time increases. Moreover, thermal ageing causes the conversion of aluminum to alumina in the metallised electrode, which is hydrophilic for polar groups and leads to an adhesion effect between the metallised electrodes and the PP film. Contact angle measurements prove that the surface hydrophilicity of the PP sample increased after thermal ageing. Therefore, the PD/breakdown voltage in the MPPFC increases/decreases due to the uneven adhesion of the metallised PP film. | INTRODUCTIONMetallised polypropylene film capacitors (MPPFCs) are ubiquitous in power electronics, such as static synchronous compensators (STATCOM), motor drives, and modular multilevel converters, due to their high breakdown strengths, good dielectric stability, and low dissipation factors [1][2][3]. In power electronics, the PP film in the capacitor must endure electrical and thermal stresses that can rise above 200 V/μm and around 150°C [4]. In addition, capacitors with a proper performance at elevated temperatures facilitate practicable thermal management in application scenarios where the volume and weight are limited, typically in electric vehicles [5,6]. However, elevated temperatures may significantly reduce the life expectancy of the capacitors [7].Thermal ageing is considered as one of the most critical factors, which leads to severe degradation of the PP film and consequent capacitor failure [8]. It has been recognised that the PP films have a very low dielectric loss (~10 −4 ) at temperatures up to 85°C. Once the temperature exceeds 85°C, electron conduction starts to contribute to a significant increase in dielectric loss [9,10]. Qi et al. [11] discovered that the hotspot This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Revisiting the thermal ageing on the metallised polypropylene film capacitor: from device to dielectric film

Wang

et al. 2022

High Voltage

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A Review of Polyolefin‐Insulation Materials in High Voltage Transmission; From Electronic Structures to Final Products

Bjurström,

Edin,

Hillborg

et al. 2024

Advanced Materials

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This review focuses on the use of polyolefins in high‐voltage direct‐current (HVDC) cables and capacitors. A short description of the latest evolution and current use of HVDC cables and capacitors is first provided, followed by the basics of electric insulation and capacitor functions. Methods to determine dielectric properties are described, including charge transport, space charges, resistivity, dielectric loss, and breakdown strength. The semicrystalline structure of polyethylene and isotactic polypropylene is described, and the way it relates to the dielectric properties is discussed. A significant part of the review is devoted to describing the state of art of the modeling and prediction of electric or dielectric properties of polyolefins with consideration of both atomistic and continuum approaches. Furthermore, the effects of the purity of the materials and the presence of nanoparticles are presented, and the review ends with the sustainability aspects of these materials. In summary, the effective use of modeling in combination with experimental work is described as an important route toward understanding and designing the next generations of materials for electrical insulation in high‐voltage transmission.

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Study on microstructure and its correlation with sheet resistance of Zn-Al metallized film

Cited by 2 publications

References 17 publications

Revisiting the thermal ageing on the metallised polypropylene film capacitor: from device to dielectric film

Revisiting the thermal ageing on the metallised polypropylene film capacitor: from device to dielectric film

A Review of Polyolefin‐Insulation Materials in High Voltage Transmission; From Electronic Structures to Final Products

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