K-Series
K-Series™ Mastic Heat Shrink The K-Series™ products are mastic based heat shrinkable systems, which have been designed for Fast and Flexible installations. The product range [...]
K-Series™ Mastic Heat Shrink The K-Series™ products are mastic based heat shrinkable systems, which have been designed for Fast and Flexible installations. The product range [...]
GTS™ Hotmelt Heat Shrink Global Transmission Sleeve, or GTS™, refers to a series of high performance field applied coating systems that provide superior corrosion protections [...]
GTS-PP-65/100™ Hybrid Heat Shrink A range of polypropylene based hybrid GTS systems that combine Canusa-CPS patented Polypropylene Backing technology for advanced mechanical protection with our [...]
DDX™/TBK™ Directional Drilling Heat Shrink Systems Canusa’s DDX™ and TBK™ systems were specifically designed to protect welded joints on PP, PE and FBE coated pipelines [...]
AquaShield™ Water Pipelines Aqua-Shield™ is a family of heat-shrinkable sleeve products that have been specifically designed for corrosion protection of water pipelines. Various product configurations [...]
CanusaCoat™ Mastics 2LPE Pipeline Adhesives Canusa is a leading manufacturer of specialty adhesive sealants which, for over 30 years, have been used for corrosion protection [...]
CanusaCoat™ Fillers Wire and Cable Fillers Canusa formulates and manufactures custom single-component adhesives to suit various applications around the world. Canusa is proud to be [...]
CanusaCoat™ Copolymers 3-Layer PP/PE Canusa is a leading manufacturer of specialty copolymer adhesives for corrosion protection in 3-layer polyethylene and polypropylene coated pipelines. [...]
Factory Grade Repair Products Field-Applied PE and PP Repair Canusa’s Factory Grade Repair Products for factory-applied 3LPP and 3LPE coatings provide excellent adhesion and shear [...]
GTS-PP™ Field-Applied 3LPE System GTS-PP 3LPP field-applied coating system remains the world’s leading joint coating for 3LPP coated pipelines. Being comprised of the same materials [...]