Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
METHOD FOR REGULATING ALITE CRYSTAL STRUCTURE IN CEMENT CLINKER
Disclosed is a method for regulating an alite crystal structure in a cement clinker. In a preparation process of a portland cement raw meal, a magnesium element and a sulfur element are simultaneously introduced, and M3-type alite in the clinker is completely converted into M1-type alite under the joint action of the magnesium element and the sulfur element. Raw materials used in the method for regulating the crystal structure in the invention are easily available, and the method is simple and easy to operate, and has high universality. Desulfurized gypsum, phospho gypsum and the like can be used as sources of sulfur in actual production, so that a comprehensive utilization value of an industrial by-product is increased. Magnesium can be derived from low-quality limestone, and no additional ingredient components need to be added, so that not only convenient operation is realized, but also the use of the low-quality limestone is increased, thus reducing production costs. After being regulated by the method, the alite crystal structure in the portland cement clinker can be completely converted from M3-type or M1/M3 hybrid type into M1-type.
METHOD FOR REGULATING ALITE CRYSTAL STRUCTURE IN CEMENT CLINKER
Disclosed is a method for regulating an alite crystal structure in a cement clinker. In a preparation process of a portland cement raw meal, a magnesium element and a sulfur element are simultaneously introduced, and M3-type alite in the clinker is completely converted into M1-type alite under the joint action of the magnesium element and the sulfur element. Raw materials used in the method for regulating the crystal structure in the invention are easily available, and the method is simple and easy to operate, and has high universality. Desulfurized gypsum, phospho gypsum and the like can be used as sources of sulfur in actual production, so that a comprehensive utilization value of an industrial by-product is increased. Magnesium can be derived from low-quality limestone, and no additional ingredient components need to be added, so that not only convenient operation is realized, but also the use of the low-quality limestone is increased, thus reducing production costs. After being regulated by the method, the alite crystal structure in the portland cement clinker can be completely converted from M3-type or M1/M3 hybrid type into M1-type.
METHOD FOR REGULATING ALITE CRYSTAL STRUCTURE IN CEMENT CLINKER
VERFAHREN ZUR REGULIERUNG DER ALITKRISTALLSTRUKTUR IN ZEMENTKLINKER
PROCÉDÉ DE RÉGULATION DE LA STRUCTURE CRISTALLINE DE L'ALITE DANS LE CLINKER DE CIMENT
ZHOU HAO (Autor:in) / LI XIAODONG (Autor:in) / SHI CHAOQI (Autor:in) / SHEN XIAODONG (Autor:in) / WANG QIANQIAN (Autor:in) / YU ZHUQING (Autor:in)
03.01.2024
Patent
Elektronische Ressource
Englisch
IPC:
C04B
Kalk
,
LIME
METHOD FOR REGULATING ALITE CRYSTAL STRUCTURE IN CEMENT CLINKER
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