FiBER Force® | Bremadent Dental Laboratory in London
'FiBER Force®' is a simple, inexpensive fibre mesh that combines strong reinforcement and 3 times more resistance to fatigue in acrylic with no added space, weight or thickness.
'FiBER Force®' is a light weight, virtually invisible, metal free mesh that chemically bonds to acrylic and has significant superior fracture resistance and naturally flexes with mastication than traditional stainless steel mesh reinforcement.
'FiBER Force®' is used as an alternative to metal strengthener reinforcement in removable/fixed implant dentures (locators, immediate / delayed loading dentures), prosthetics, denture repairs and temporary long span crown & bridges.
Technical Features:
Fibre reinforced composites is routinely used in a wide spread of industries due the physical properties of the 'E-Glass' tensile strength of 2000mpa and modulus of elasticity, which is ideal for the stress caused by repetitive masticatory forces that places a long term strain on the prosthetic. All 'FiBER Force®' products are treated with 'Silane' for high bond strength.
Implant Dentures:
'FiBER Force®' is used from the principles of two engineering principles and concepts, one is CST (Cable styled technology) that is used in long span bridges across the world and are built with cables extended from a central support pillars to support the bridge deck. The second is reinforced concrete design, which implies the concept of following concrete around a specifically design grid or structure. With the technical/ physical properties and leverage concepts of Fibre Force, it's ideal to create a framework for removable/fixed implant supported dentures (locators, all on 4, immediate / delayed loading dentures).
Clinical Features:
'FiBER Force®' is metal free, non toxic and non corrosive and is used in situations when the OVD is limited, patients with strong bites and complete dentures opposing natural dentition. Due to it's fracture resistance of 271.6mpa it is also used in removable implant dentures including immediate / delayed loading dentures. Fibre reinforced composites have three main benefits, high fracture and fatigue resistance coupled with their light weight .
'FiBER Force®' is a light weight, virtually invisible, metal free mesh that chemically bonds to acrylic and has significant superior fracture resistance and naturally flexes with mastication than traditional stainless steel mesh reinforcement.
'FiBER Force®' is used as an alternative to metal strengthener reinforcement in removable/fixed implant dentures (locators, immediate / delayed loading dentures), prosthetics, denture repairs and temporary long span crown & bridges.
Technical Features:
Fibre reinforced composites is routinely used in a wide spread of industries due the physical properties of the 'E-Glass' tensile strength of 2000mpa and modulus of elasticity, which is ideal for the stress caused by repetitive masticatory forces that places a long term strain on the prosthetic. All 'FiBER Force®' products are treated with 'Silane' for high bond strength.
Implant Dentures:
'FiBER Force®' is used from the principles of two engineering principles and concepts, one is CST (Cable styled technology) that is used in long span bridges across the world and are built with cables extended from a central support pillars to support the bridge deck. The second is reinforced concrete design, which implies the concept of following concrete around a specifically design grid or structure. With the technical/ physical properties and leverage concepts of Fibre Force, it's ideal to create a framework for removable/fixed implant supported dentures (locators, all on 4, immediate / delayed loading dentures).
Clinical Features:
'FiBER Force®' is metal free, non toxic and non corrosive and is used in situations when the OVD is limited, patients with strong bites and complete dentures opposing natural dentition. Due to it's fracture resistance of 271.6mpa it is also used in removable implant dentures including immediate / delayed loading dentures. Fibre reinforced composites have three main benefits, high fracture and fatigue resistance coupled with their light weight .
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