Adhesive, sealant and coating compounds for e-mobility applicationsClean, efficient, environmentally friendly electric vehicles, hybrid electric vehicles and hydrogen fuel cell technology has made major strides in reducing the need for fossil fuels, lowering carbon gas emissions. Master Bond has been a leader in providing technical expertise to global OEM and Tier 1 customers by creating innovative formulations that has enabled significant improvement in lowering energy consumption. These tailor made solutions have been instrumental in noise, allowing design flexibility, enhancing performance, comfort, safety, sustainability, aesthetics while meeting the stringent technical demands of electrifying the power train. Our epoxy and silicone compounds have been at the forefront in the development of high quality, long lasting products employed in markets ranging from power conversion, e-motors, batteries, cables/connectors to fuel cells, displays and engine control units.

E-mobility has made a valuable contribution to saving the planet from the harmful effects of climate change. The deleterious consequences created by greenhouse gases range from trapping solar energy in the atmosphere to increased sea levels to drinking water supplies to changes in the yields of many crops such as rice, wheat, tomatoes. As batteries become more powerful, access to charging stations more readily available and driving ranges for these vehicles expand e-mobility will grow in popularity. This will result in less air pollution and will lead to a better quality of life including less health problems for people. Since electricity is cheaper than oil, this will be a boost for the economy.

Master Bond has introduced a novelty epoxy adhesive/coating/sealant which utilizes a renewable and sustainable ingredient, thereby reducing the carbon footprint in such devices.

Master Bond compounds have played a crucial role in key e-mobile vehicle components by dissipating heat, sealing/protecting against moisture, vibration damping, safeguarding sensitive electronic components, defending against high/low temperature exposures and thermal cycling. Select grades have been successfully utilized to satisfy formidable specifications to improve structural bonding between dissimilar substrates, lightweighting, magnet bonding, liquid gasketing, e-drive stator coil potting, impregnate micro porosity and fill voids in e-drive aluminum cast housings. Additionally thermal interface materials and conformal coating systems have been used on printed circuit boards. These compositions are designed to be dispensed automatically to speed productivity and are compounded to the strictest quality control standards. Many newly developed Master Bond products have given manufacturers a competitive edge, increased market share and profitability.