Wire Enamels
Insulation, thermal management and protection solutions from ELANTAS
The electrification of mobility is transforming transportation worldwide and simultaneously increasing demands on electrical and electronic systems. Rising voltages, higher power density, faster charging, and compact system design all require advanced insulation and protection concepts, which ELANTAS addresses with innovative material solutions. They are designed to ensure electrical safety, to manage heat efficiently, to withstand mechanical and environmental stress, and to support long service life - while remaining suitable for scalable production.
With decades of experience in high‑performance insulation, thermal management and protection materials, ELANTAS supports the entire eMobility ecosystem with coordinated solutions across all key system areas, including:
Innovative ELANTAS winding insulation materials enable discharge resistance, high efficiency, power density, long service life and better heat dissipation paired with excellent processability.
Electric motors are the driving force behind every electrified vehicle. Depending on the vehicle architecture, motors may be connected via gearboxes, integrated into hybrid systems, or designed as in‑wheel eMotors.
Rising system voltages (400 V to 1,200 V), increasing power density, and limited installation space place high demands on motor insulation systems. Efficient thermal management, mechanical stability, and resistance to partial discharge are critical to achieving long motor lifetime and consistent performance.
ELANTAS provides intelligent insulation systems for electric motors, including:
These solutions are tailored to modern motor concepts such as hair‑pin and concentrated windings, supporting higher copper fill factors, improved efficiency, and scalable production.
Global ELANTAS R&D competence centers and application laboratories support customers with material selection, process optimization, and validation.
ELANTAS thermal glues, adhesives, gap-filler and thermal interface materials support thermal management, safety, durability and reliable fixation.
Battery systems are a decisive factor for vehicle cost, range, charging behavior, safety, and lifetime. Battery packs consist of numerous cells, modules, electronic components, and electrical interconnections, all of which must operate reliably under thermal stress, vibration, environmental exposure, and repeated charging throughout many years of operation.
ELANTAS supports battery systems with solutions that provide electrical insulation, thermal management, bonding, coating, and sealing across the entire pack:
Together, these solutions contribute to safe operation, stable performance, and long‑lasting battery systems across all climate zones.
ELANTAS solutions ensure reliable energy conversion and electrical insulation even under high voltage conditions and harsh environments.
Power electronics control the conversion, distribution, and management of electrical energy within the vehicle. ELANTAS products are used reliably in key components such as inverters, DC/DC converters, onboard chargers, and control units. They all operate under high electrical loads, elevated switching frequencies, and significant thermal stress.
Effective heat dissipation and reliable electrical insulation are essential to prevent efficiency losses and premature failures. ELANTAS supports power‑electronics applications with a coordinated portfolio of:
Different chemistries and viscosities enable solutions to be precisely matched to component design, operating conditions, and manufacturing processes - supporting both performance and industrial scalability.
A reliable and efficient charging infrastructure is essential for customer acceptance of electric vehicles. As charging times become shorter, charging systems must handle higher power levels and increasing thermal loads, placing growing demands on insulation and heat‑management solutions.
ELANTAS supports both AC and DC charging systems with:
These solutions help ensure electrical safety, thermal stability, and long‑term reliability under continuous load and demanding outdoor conditions, supporting future‑ready charging infrastructure worldwide.