Today, let's take a look at the superior performance of polypropylene engineering fibers, which can be divided into the following aspects:

1. Improve crack resistance: Uniformly dispersed fibers exhibit a three-dimensional network structure in the mortar, and the tensile stress generated by the shrinkage of the water in the plastic state of the mortar reduces or even completely prevents the occurrence of cracks in the surface layer of the mortar;

2. Improve the impermeability of mortar: After incorporation, it can effectively prevent the segregation of mortar, significantly reduce the number, length and width of cracks, reduce the possibility of forming through cracks, and play a role in blocking capillary cracks in mortar. The impermeability of the mortar is significantly improved;

3. Improve the toughness and fatigue resistance of mortar: MP-I Boning engineering fiber is added to the cement matrix to reduce the brittleness of the mortar and improve the toughness of the substrate. It helps to improve the absorption of the mortar wall when it is impacted. The kinetic energy to improve the fatigue resistance of the mortar;

4. Improve the durability of mortar: Incorporating MP-I Boning engineering fiber, preventing the occurrence of macro cracks in the mortar, reducing the number of internal cracks in the mortar, improving the impact resistance of the mortar, etc., thus comprehensively improving the mortar Durability, blended with MP-I Boning engineering fiber, prevents the occurrence of macro cracks in the mortar, reduces the number of internal cracks in the mortar, improves the impact resistance of the mortar, etc., thus comprehensively improving the durability of the mortar.

Through the above description, have you got a better understanding of the superior performance of polypropylene engineering fibers?