Abstract:
CaCO
3/wollastonite (W@C) composites were prepared from natural wollastonite through one-step carbonization method, and the surface was organically modified. BET、XRD、SEM、FT-IR and TG-DSC were used to characterize the specific surface area of the composites and the phase composition morphology, group and thermal stability of the products before and after modification. The results showed that the W@C composites with a specific surface area of 15.28 m
2/g was obtained when the amount of CaO added was 25%, the carbonization temperature was 15℃, the CO
2 flow rate was 0.08 m
3/h, and the amount of polyethylene glycol (PEG) content was 4.37 g/L. The specific surface area of the obtained product was 500% higher than that of natural wollastonite. When the W@C composite was not modified, the contact angle was 19.37° and the activation index was 0. When the W@C composite was modified with 1.5% sodium stearate, the contact angle and activation index increased to 118.02° and 99.9%, respectively, and the hydrophobicity was significantly improved. Sodium stearate was coated on the surface of the W@C composites by physical adsorption.
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