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Products by Impreglon Cellramic Inc.

Available from: Impreglon Cellramic Inc.
The automotive industry, with its continuous innovations, demands better and better performance of technical surfaces. Production methods that protect the material and the environment as well as...Read More
Available from: Impreglon Cellramic Inc.
Chemical processes are particularly sensitive to any impurities or foreign particles that get into the production lines during processing. Another challenge is protecting the surfaces of components...Read More
Available from: Impreglon Cellramic Inc.
Increasing production speeds and more complex design of rubber and plastic parts place increasing demands on the surface systems used in the manufacturing process. In addition to excellent nonstick...Read More
Available from: Impreglon Cellramic Inc.
Special polymers are used to create a hydrophobic surface that effectively prevents many different substances - e.g. adhesive, rubber, plastic or leather - from sticking. By applying specific...Read More
Available from: Impreglon Cellramic Inc.
The extraordinary sliding properties of fluoropolymers, with low friction values when in contact with the most varied substrates, are well known. Metals, plastics, paper and food are conveyed with...Read More
Available from: Impreglon Cellramic Inc.
When different coating processes and materials are combined, specific properties of a component surface's structure and roughness can be modified. Materials or yard ware made of fabric, plastic and...Read More
Available from: Impreglon Cellramic Inc.
Anodic oxidation ("anodising") is a process for creating an oxidic protective layer on aluminium or titanium. This process does not actually apply a protective layer on the material, but creates a...Read More
Available from: Impreglon Cellramic Inc.
Cathodic dip painting (CDP) is an electrochemical painting process, whereby the material is dipped in electrically conductive paint. A direct current field is applied between the material and a...Read More
Available from: Impreglon Cellramic Inc.
Nanocoating changes the material at a molecular level by applying nanostructures.
When these structures contact the substrate they create a self-organised hydrophobic layer with a thickness of...Read More
Available from: Impreglon Cellramic Inc.
The use of special polymers (e.g. polytetrafluoroethylene) allows the creation of hydrophobic surfaces and the effective prevention of the sticking of various substances such as adhesives, rubber,...Read More
Available from: Impreglon Cellramic Inc.
Powder coating uses an electrically conductive material, which is coated with powder paint.
During this process, electrically charged particles of the coating powder and the material that is to...Read More
Available from: Impreglon Cellramic Inc.
The dip spinning process is used for the cost-effective coating of bulk materials with a zinc flake layer.
During dip spinning the small components that are to be coated are dipped into the...Read More
Available from: Impreglon Cellramic Inc.
Thermal spraying is a coating process whereby, in most cases, a powdery or a wire-shaped coating material with high thermal energy is spun onto a component surface where it creates a layer....Read More
Available from: Impreglon Cellramic Inc.
Drum spraying is a hot-drum process, which is used for coating small components in a closed spraying chamber (Rotamat®).
During this efficient and cost-effective process the small parts that are...Read More
Available from: Impreglon Cellramic Inc.
The high-vacuum coating process (PVD process) is used for coating materials with a very thin metal layer of 2-5 µm.
The application of ultra-thin layers of aluminium, copper, tin, gold or silver...Read More
Available from: Impreglon Cellramic Inc.
Zinc thermal diffusion is the name given to a state-of-the-art corrosion protection process of premium quality, whereby the surface of the material is thermochemically modified. The resulting...Read More
Related Research You May Be Interested In
Advanced Digital Technology Breaking Ground in Light Microscopy
With relatively few progressions in conventional optical microscopy during the past decade, pushing through the physical limitations of these systems has proven to be challenging. Despite this ...Read More
With relatively few progressions in conventional optical microscopy during the past decade, pushing through the physical limitations of these systems has proven to be challenging. Despite this stand-still, engineers have recently been able to develop solutions to some of the limitations in modern microanalysis. Using an integrated design approach, digital microscopes have been developed to overcome many of the shortcomings of conventional optical microscopes. Specifically, in regard to ceramics, one of the major difficulties in observing and analyzing these materials is the complete lack of contrast typically associated with them, especially when viewed through a traditional optical microscope. However, by using the advanced features of fully-integrated digital microscopes, coupled with highresolution zoom lenses and digital camera technology, users can now image samples that were previously relegated to the realm of an SEM.

By: KEYENCE CORP | Published: 6/20/2011
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