硬化地面通过有效渗透混凝土深处,并和混凝土中的游离钙成分发生凝胶反应,在混凝土的孔隙中形成一个网状结构,使得混凝土中的结构更加致密、坚固,毛细孔被有效密封,其永远避免了混凝土灰尘从表面空隙中析出。现在许多工程要求采用整体硬化地面,因它在抗压、耐磨、整体性及易清洁程度上均有着其它材料无可匹敌的优势。地面硬化在施工过程中必须要进行严格的工序控制,而且必须要和基层施工很好的结合起来,否则就会发现质量问题。本文通过工程实例探讨了建筑工程地面硬化的技术要点,并从中提出了质量控制措施,以确保地面硬化施工达到设计规范要求。 Hardened ground through the effective penetration of concrete depth, and the free calcium content in the concrete gel reaction occurs in the concrete in the formation of a network of pore structure, making the concrete structure is more dense, strong, the pores are effectively sealed, the Concrete dust will never escape from the surface void. Many projects now require the use of a hardened ground as it has unparalleled advantages over other materials in terms of compression, wear resistance, integrity and ease of cleaning. Ground hardening in the construction process must be rigorous process control, and must be well combined with the grass-roots construction, or you will find quality problems. In this paper, the technical points of the ground hardening of the construction project are discussed through engineering examples, and the quality control measures are put forward to ensure that the ground hardening construction meets the design specifications.