Effect of different cross-section types on mechanical properties of carbon fibers-reinforced cement composites

The preparation of carbon fiber-reinforced cement-based composites involved two-step dispersions of carbon fibers. Both steps affected greatly the mechanical properties of the composites. With the aid of ultrasonic wave, a new dispersant hydroxyethyl cellulose was used to help fiber dispersion in th

## 1 Introduction A Portland cement was reinforced by incorporating carbon fibers (CF), silica powder, and impregnating the pores with styrene monomers which were polymerized in situ. The effects of type, length, and volume loading of CF, mixing conditions, curing time, and curing conditions on mec

Depending on process route, fibers for composite reinforcement typically have some degree of variation in diameter. This paper examines the effect of varying fiber diameter on properties of cement-based matrix composites such as first crack strength, fracture energy, and ultimate tensile strength. T

To determine how the surface modification of mica influences flexural strength and fracture toughness of mica-relnforced cement composites, mica was treated with HF acid and three coupling agents: two silanes (CVBS, yMPS) and a titanate (IDT). Significant increases in mechanical properties resulted,

The partial impregnation textile preform consisting of chopped-strand, long glass fiber and nonwoven polypropylene (PP) has been prepared by needle-punching to improve fiber-matrix distribution before processing. These unconsolidated textile preforms were then preheated and hot-pressed for consolida