CHEMICALS USED SURFACE TREATMENT

Brand Owner (click to sort) Address Description
CELEROLYTE Atotech Deutschland GmbH & Co. KG Kommanditgesellschaft (limited partnership) Erasmusstr. 20 10553 Berlin Germany Chemicals used in surface treatment of metals, semiconductors and polymers, particularly for galvano-plating; galvanizing baths, galvanizing preparations;
INNOLYTE Atotech Deutschland GmbH & Co. KG Kommanditgesellschaft (limited partnership) Erasmusstr. 20 10553 Berlin Germany Chemicals used in surface treatment of metals, semiconductors and polymers, particularly for galvano-plating; galvanizing baths, galvanizing preparations;
NIKOTRON Atotech Deutschland GmbH & Co. KG Kommanditgesellschaft (limited partnership) Erasmusstr. 20 10553 Berlin Germany Chemicals used in surface treatment of metals, semiconductors and polymers, particularly for galvano plating; galvanizing baths, galvanizing preparations; tempering preparations and soldering preparations, namely, soldering chemicals, soldering fluxes; nickel plating electrolytes, namely, nickel salts;
PROTECTOSTAN ATOTECH DEUTSCHLAND GMBH Erasmusstrasse 20 Berlin 10553 Germany Chemicals used in surface treatment of metals, polymers and semiconductors, particularly for treatment of plated tin surfaces;
UNIFIX ATOTECH DEUTSCHLAND GMBH Erasmusstrasse 20 Berlin 10553 Germany Chemicals used for surface treatment of metals, semiconductors and polymers; galvanizing baths; salts for dyeing metals; chemicals for the production of coatings with electrolytical or chemical surface treatment, deposition by paint, spray and dip coating;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. Plume is mitigated by targeting treatment chemicals to locations in a furnace, which are connected with plume opacity. The effectiveness of targeted in furnace injection, in fuel introduction and in furnace introduction of slag and/or corrosion and/or plume control chemicals are determined, as are the effectiveness of targeted in furnace injection, in fuel introduction and in furnace introduction of combustion catalysts. Then, the effectiveness of various combinations of the above treatments are determined, and a treatment regimen employing one or more of the above treatments is selected. Preferred treatment regimens will contain at least two and preferably three of the treatments. Chemical utilization and boiler maintenance can improved as LOI carbon, slagging and/or corrosion are also controlled.