Ribbond prevents fracture failures in dental composites and acrylics. Ribbond prostheses are strong and maintain their strength with continued use. They are tough and durable. Ribbond’s unique combination of ultra-high strength fibers, enhanced bondability and patented cross-link lock-stitch leno weave makes the strength and fracture toughness of Ribbond reinforced prostheses unsurpassed by other fiber reinforcements.
Ultra-high strength fibers
Ribbond is made from the same ultra-high molecular weight polyethylene fibers used to make bulletproof vests. These fibers far exceed the breaking point of fiberglass and are so tough that specially made scissors are required to cut them. Unlike Kevlar, Ribbond’s fibers absorb less moisture than the dental resins
Patented Leno Weave
The key to Ribbond’s success (and what distinguishes Ribbond from the other fiber reinforcements) is its patented leno weave. Designed with a lock-stitch feature that effectively transfers forces throughout the weave without stress transfer back into the resin, Ribbond’s weave also provides excellent manageability characteristics.
Having virtually no memory, Ribbond adapts to the contours of the teeth and dental arch. For example; when making a periodontal splint, Ribbond tucks in interproximally without rebounding. In addition, unlike loosely braided or bundles of unidirectional fibers, Ribbond does not spread or fall apart when manipulated.
Since fiber reinforced resin structures derive their strength primarily from making laminates, high manageability and lack of memory is essential for close and accurate layering of the fibers. Inaccurate fiber placement results in voids or excessive composite on the tensile side of the fibers that will be prone to fracturing.
Ribbond’s Patented Cross-Link Lock-Stitch Leno Weave:
- Adaptable and Manageable
- Does not unravel when cut or manipulated
- Reinforces multi-directionally
- Durable & impact absorbent
- Transfers stresses efficiently throughout the fiber network
Ribbond bonds to any composite system. You choose the composite Magnified 110,000 time, SEM’s demonstrate complete incorporation of the resin to Ribbond’s fibers (note lack of voids). Forces within the resin are easily transferred to the fibers insuring that the Ribbond is an integral strength member of the prostheses.
Ribbond’s fibers are the standard in biocompatibility. The same material is also used in the construction of artificial hip and knee joints. Unlike fiberglass, if at anytime the Ribbond is cut into with a rotary instrument, the resultant particles and exposed fibers will not be a biocompatibility risk to the patient.
Ribbond is translucent, practically colorless and disappears within the composite or acrylic without show-through. Not only does Ribbond offer excellent esthetics, its translucency also allows the use of light cured composites
The unique combination of strength, esthetics and bondability allows Ribbond to be used for many different applications. Ribbond bonds to both composite and acrylic giving you a material with multiple uses.