ULVAC GmbH
Kirchheim b. München, Germany
Overview
Company details and contact information.
About
About ULVAC GmbH ULVAC Inc. is a leading provider of vacuum technologies with headquarters in Japan and a European office in Munich. Since 1952, ULVAC has been developing & manufacturing various systems and components related to vacuum technology. For battery manufacturing and research, our products will be of significant interest: 1. Helium Leak Test Systems: These systems enable precise and reliable battery tests to detect leaks. 2. Vacuum Pumps: Small dry pumps & mechanical booster/oil diffusion pumps, for battery production. 3. Roll Coater Machines: For even and precise coating of battery films, with increased performance/durability of the batteries. 4. Evaporation Systems: Batch and inline evaporation systems for coating metals or oxides on continuously wound plastic film, paper, or metal foil. 5. Sputtering Cluster Systems: For deposition of thin films on substrates, up to 200 mm, for research, development and small to medium-sized production. Come and visit our booth in Hall 3, B90.
- Website
- https://ulvac.eu
- Phone
- +4 989 960 9090
- Address
- Kirchheim bei München, München, 85551, DE | x | Klausnerring 4, Kirchheim b. München 85551, Germany
Products
Products and media connected to this company.
ULVAC’s EWG high-speed roll-to-roll evaporation system
Features Vacuum Evaporation Roll Coater Model: EWG-165 ■ Outline This is a resistance-heated vacuum roll-to-roll deposition machine designed for the mass produc...
ULVAC’s EWL roll-to-roll evaporation system
ULVAC’s EWL is a roll-to-roll evaporation system designed for lithium deposition on copper foil. It ensures uniform ultra-thin coating with advanced winding con...
ULVAC’s EWE evaporation roll coater for high-speed metall.
ULVAC’s EWE is an evaporation roll coater for high-speed metallization of plastic films. Featuring electrostatic adhesion and advanced patterning, it enables pr...
PHI Surface analysis XPS, ACE, TOF-SIMS
ULVAC PHI`s surface analysis tool accelerate battery innovation by studying chemistry and morphology of interphases, dendrite formation, and depth-resolved stru...