Background: A large amount of phosphogypsum occupies the land and causes environmental
pollution. It is of great research significance and urgency to the utilization of the phosphogypsum.
Methods: The influence of the ratio of the cementing materials and phosphogypsum (C/P ratio)
on the compressive strength, water absorption, softening coefficient and freeze-thaw stability of
the phosphogypsum baking-free bricks was investigated. The consolidation process of the phosphogypsum
baking-free bricks was analyzed by X-ray diffraction (XRD) and scanning electron
Results: XRD patterns show that the phosphogypsum baking-free bricks curved for 28 d are
mainly composed of monoclinic CaSO4·2H2Oand hexagonal Ca6Al2(SO4)3(OH)12·26H2O (Aft)
phases. SEM observation shows that the phosphogypsum bricks consist of Aft nanorods and irregular
microscale particles. The softening coefficient, water-resistant performance and freezethaw
stability of the phosphogypsum baking-free bricks remarkably decrease with decreasing the
C/P ratio. 28 d compressive strength decreases from 26.42 MPa to 15.58 MPa with the change of
the C/P ratio from 1:1 to 1:2.5. The optimal ratio of the cementing materials and phosphogymsum
is 1:1. The phosphogypsum baking-free bricks exhibit good stability after 18 freeze-thaw cycles.
Conclusion: Phosphogypsum baking-free bricks were prepared by natural curing process using
phosphogypsum as the raw materials, cement, slag, fly ash and silica fume as the cementing materials.
The phosphogypsum baking-free bricks exhibit great application in the field of building materials.