Thermal Bridging Solutions
(Thermal Insulation Material – TIM)
Armatherm™ FRR structural thermal break material provides a combination of low thermal conductivity and high compressive strength and has been used in hundreds of structural steel framing connections transferring load in moment and shear conditions.
Armatherm™ FRR thermal break material can support up 43,000 psi and has an R value of 0.9 per inch. The material is made of a reinforced, thermoset resin which is fire resistant making it the ideal material for use in structural steel and faCade thermal break connections.
Armatherm™ Thermal Break Pads are often called Thermal Bridges, balcony isolators, structural thermal breaks, cantilever steelwork thermal bridging, cold bridge isolation, thermal partitions, steelwork thermal break, thermal bridging, cold bridging pads, cold bridging solutions. All of these solutions use Thermal Insulation Material TIM to prevent thermal bridging.
Benefits:
Ultra high compressive strength connections
Recommended for moment and slip critical connections
Lasts the life of the building
Excellent resistance to UV and Moisture absorption
Reduces condensation and mould
Outstanding resistance to long term creep
Manufactured to design specification
Structural Thermal Bridging Detail: Break Pad Column Isolation
Structural Thermal Bridging Detail: Break Pad Foundation to Wall Connection Roof to Parapet Connection
Structural Thermal Bridging Detail: Break Pad Steel Post to Rafter Beam Connection Direct
Structural Thermal Bridging Detail: Break Pad Steel Post to Rafter Beam Connection Via Stub
Structural Thermal Bridging Detail: Fiber Cement CMU Base of Wall
Structural Thermal Bridging Detail: Fiber Cement CMU Inside Corner
Structural Thermal Bridging Detail: Fiber Cement CMU Outside Corner
Structural Thermal Bridging Detail: Fiber Cement CMU Sliding Door Head
Structural Thermal Bridging Detail: Fiber Cement CMU Sliding Door Jamb
Structural Thermal Bridging Detail: Fiber Cement CMU Swing Door Head
Structural Thermal Bridging Detail: Fiber Cement CMU Swing Door Jamb
Structural Thermal Bridging Detail: Fiber Cement CMU Top of Wall
Structural Thermal Bridging Detail: Fiber Cement CMU Wall Plan
Structural Thermal Bridging Detail: Fiber Cement CMU Wall Section
Structural Thermal Bridging Detail: Fiber Cement CMU Window Head
Structural Thermal Bridging Detail: Fiber Cement CMU Window Jamb
Structural Thermal Bridging Detail: Fiber Cement CMU Window Sill
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Base of Wall
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Inside Corner
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Outside Corner
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Sliding Door Head
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Sliding Door Jamb
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Swing Door Head
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Swing Door Jamb
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Top of Wall
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Wall Plan
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Wall Section
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Window Head
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Window Jamb
Structural Thermal Bridging Detail: Fiber Cement Stud Wall Window Sill
