DOCUMENT
1/1
Polymer composite for antistatic application in aerospace
journal contribution
posted on 2020-02-01, 00:00 authored by Ram YadavRam Yadav, M Tirumali, Xungai Wang, Minoo NaebeMinoo Naebe, B KandasubramanianThe phenomenon of static electricity is unpredictable, particularly when an aircraft flying at high altitude that causes the accumulation of static charges beyond a threshold value leading to the failure of its parts and systems including severe explosion and radio communication failure. The accumulation of static charges on aircraft is generated by the virtue of interaction between the outer surface of aircraft and the external environmental attributes encompasses air particles, ice, hail, dust, volcanic ash in addition to its triboelectric charging. In the recent years, advanced polymer-based composites or nanocomposites are preferred structural constituents for aircrafts due to their light weight and comparable mechanical properties, but such composite systems do not render low impedance path for charge flow and are subsequently vulnerable to effect of lightning strike and precipitation static. In this context, it is essential to develop conductive composite systems from non-conductive polymer matrix by nanofiller embodiments. The advent of carbon-based nanocomposite/nanomaterials have adequately addressed such issues related to the nonconductive polymer matrix and further turned into an avant-garde genre of materials. The current review envisioned to illustrate the detailed exploitation of various polymer nanocomposites in addition to especially mentioned epoxy composites based on carbon fillers like carbon black, carbon nanotube (single walled carbon nanotube and multi walled carbon nanotube) and graphene the development of antistatic application in aircraft in addition to the static charge phenomenon and condition for its prevalence in avionic systems.
History
Journal
Defence technologyVolume
16Issue
1Pagination
107 - 118Publisher
ElsevierLocation
Amsterdam, The NetherlandsPublisher DOI
Link to full text
eISSN
2214-9147Language
engPublication classification
C Journal article; C1 Refereed article in a scholarly journalCopyright notice
2019, The AuthorsUsage metrics
Categories
No categories selectedKeywords
Static discharge systemNanocompositeAnti-static materialsElectromagnetic interferenceAerospace applicationsScience & TechnologyTechnologyEngineering, MultidisciplinaryEngineeringCARBON NANOTUBE NANOCOMPOSITESHEXAGONAL BORON-NITRIDEELECTRICAL-PROPERTIESSELECTIVE LOCALIZATIONPERCOLATION-THRESHOLDGRAPHENEBLACKCONDUCTIVITYMATRIXMORPHOLOGY