Albert Rose Chemicals (ARC) is a distinguished division of Kissel + Wolf GmbH, specializing in the development and production of chemical products for the textile printing industry. Established in the late 1970s, ARC has become a globally recognized brand, offering a comprehensive range of products tailored for both flat and rotary textile printing applications.
ARC’s extensive product line caters to various aspects of textile printing, including: Rotary Screen Printing: Featuring emulsions and lacquers designed to meet the specific demands of rotary screen printing processes.
Integration with Kissel + Wolf GmbH Since its inception, ARC has operated as an integral division of Kissel + Wolf GmbH. All facets of ARC’s operations, including development, application technology, production, and sales, are fully integrated into Kissel + Wolf’s headquarters in Wiesloch, Germany.
Pursuing future-orientated developments constitute an important part of ARC‘s business philosophy. Here the aim is to combine both occupational safety and health as well as environmental protection with the high functionality required for textile printing.
This is exemplified by the development of chrome free rotary emulsions and laser engraving lacquers for rotary screen printing. A highlight are the one-component ROTACOAT emulsions. ARC thus has a universal rotary printing emulsion that meets the highest requirements.
With the help of DIAZO and SBQ technology, chrome sensitized emulsions can be replaced without any burden. This represents a significant contribution to environmental and health protection.
Within the framework of such innovative projects, Albert Rose Chemicals aptly demonstrates its commitment to issues revolving around protection of the environment, climate and material resources. With its new developments, Albert Rose Chemicals makes a positive contribution to stimulating a stronger environmental awareness of the user. It is a stated goal to align all further product development with special emphasis on occupational, environmental and resource protection.