公司简介
In use since 1995, AlumiPlate Inc. has helped mitigate and solve tough corrosion problems. Some of the world’s largest companies, like Applied Materials and Raytheon, rely on the process of electroplating aluminum to protect components in aggressive environments or exposed to high temperatures. The process has been used for plating aluminum, steel, copper, titanium and many other materials.
镀膜方式
AlumiPlate® Aluminum Coating Technology Yields 99.99% Pure Aluminum
Pure electroplated aluminum has a variety of beneficial properties and features useful to many applications in a variety of markets and industries.
High purity aluminum coating (99.99% Al) is free of contaminants and inclusions
Non-hazardous, meeting requirements of RoHS, REACH and WEEE
High ductility and adhesion allowing forming, crimping and machining after plating
High electrical conductivity ideal for electrical connectors
High thermal conductivity suitable for thermal management applications
High service temperature capability of 400 °C and even higher for intermittent exposure
Dense, thin and tough providing excellent barrier protection
Sacrificially protects substrates from Aluminum alloys to steels to titanium
No limit on plating thickness for applications requiring a thick coating (>500 µm/0.020” coatings are achievable)
Non-embrittling, ideal protection for high strength steel, stainless steel and titanium components
Able to withstand severe thermal cycling down to cryogenic temperatures
Can be anodized, enhancing the anodization of Aluminum alloys and enabling the anodization of non-Aluminum alloys (copper and steel can be anodized after Aluminum plating)
Type I Superconductor at 1.2 K
Transparent to neutrons (low atomic Z number and low neutron cross section result in high neutron transmission probability of 96-99% for 0-10 MeV energy range)
ANODIZE STAINLESS STEEL, COPPER, TITANIUM & MORE
COMPATIBLE MATERIALS FOR ELECTROPLATED ALUMINUM
TECHNICAL PUBLICATIONS WITH ELECTROPLATING EXAMPLES
