RE/Gen CC-40

Product Code

0005450

Product Description

RE/Gen CC-40 is a concentrated, stabilized, and buffered sodium chlorate solution designed to economically and safely regenerate cupric chloride etching systems utilizing the VIS-U-ETCH system and a secondary specific gravity control. The specific gravity controller utilizes water from the cupric etchant post rinse, thereby reducing rinse water volume requiring waste treatment. The use of sodium chlorate versus chlorine gas as the regenerative oxidizer, provides several safety advantages; most important of which is the elimination of chlorine gas storage and reduced potential for chlorine gas generation during replenishment.

Performance Features

  • RE-Gen CC-40 can be used in conjunction with standard ORP control systems, or with the VIS-U-ETCH combined with a specific gravity controller.
  • RE/Gen CC-40, when used as directed with the VIS-U-ETCH system, yields a working bath that operates at low acid (less than 0.04 N) improving edge factor, and copper concentration of 230 g/L (30 opg), which reduces the volume of bleed.
  • RE/Gen CC-40 eliminates the need for chlorine gas storage, and when operated properly, significantly reduces the risk of generating chlorine gas.
  • In most processes, RE/Gen CC-40 is a drop-in replacement for chlorine gas systems.

More Products

ANTI/Foam CR-99

ANTI/Foam CR-99 is a non-silicon, non-solvent based anti-foam designed to be used in conveyorized spray equipment when developing and stripping aqueous processable dry film and LPISM.

POLY/Solv RS-740

POLY/Solv RS-740 is a highly concentrated solution designed to economically and efficiently strip most commercially available, fully aqueous dry film resists.

Film Cleaner 101

Film Cleaner 101 removes oil, grease, dust, and fingerprints from all types of film including Diazo Emulsion Imaging films. Film Cleaner 101 is formulated with an anti-static agent for removing static from nonconductive films.
Seacole Logo Horiz Rgb 400px.png

Contact Us

Contact Us to Order Products