Concrete mortar is an important material in construction engineering, and its quality directly affects the stability, durability, and service life of building structures.
At present, common mortar quality problems in engineering, such as cracking, peeling, and insufficient strength, have a negative impact on construction efficiency and structural reliability.
Although scholars at home and abroad have conducted relevant research on materials, construction, and management, there is a lack of systematic analysis of actual on-site problems, which urgently needs improvement.
Therefore, this article combines research and experiments to deeply explore the causes of mortar quality problems from the aspects of material selection, mix design, construction technology, and maintenance measures.
Scientific and efficient solutions are proposed to provide reference for improving mortar performance and optimizing industry technology, and to promote the sustainable development of the construction industry.
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