Monofilament PP Super Microfibre

Fiberego’s PP Super Microfiber enhances concrete strength, durability, and crack resistance.

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Monofilament PP Super Microfiber for Concrete Reinforcement

PP MICROFIBRE 6MM

Découvrir Microfibre PP 6mm de Fiberego, la solution ultime pour renforcer le béton et améliorer l'intégrité structurelle dans la construction. Parfait pour les environnements exigeants.

PP Super Microfibre 12mm

Fiberego PP Super Microfibre 12mm améliore la solidité, la durabilité et la résistance aux fissures du béton. Idéal pour les sols industriels, les conceptions architecturales et les infrastructures de transport.

Microfibre en polypropylène 19mm

Fiberego Microfibre en polypropylène 19mm améliore la solidité, la durabilité et la résistance aux fissures du béton. Idéal pour les sols industriels, les infrastructures et les applications préfabriquées.

FAQ

1. What is Monofilament PP Super Microfiber, and how does it benefit concrete?

Monofilament PP Super Microfibre is a high-strength, ultra-fine polypropylene fiber designed to reinforce concrete. It helps control plastic shrinkage cracking, enhances durability, and improves impact and abrasion resistance in concrete structures.

2. Can Monofilament PP Super Microfiber replace traditional steel reinforcement in concrete?

While Monofilament PP Super Microfibre significantly improves crack resistance and durability, it is not a substitute for structural steel reinforcement. It is best used in conjunction with traditional reinforcement methods to enhance overall performance.

3. What dosage of Monofilament PP Super Microfiber is recommended for concrete mixes?

The typical dosage ranges from 0.6 to 0.9 kg per cubic meter of concrete, depending on the specific application and desired performance characteristics. It’s advisable to follow the manufacturer’s guidelines or consult with a concrete specialist for optimal results.

4. Are there any limitations to using Monofilament PP Super Microfiber in concrete?

Monofilament PP Super Microfibre is effective in controlling plastic shrinkage cracks and enhancing surface durability. However, it does not provide significant improvements in the concrete’s load-bearing capacity and should not be relied upon for structural reinforcement.