With the development of society and the progress of science and technology, people's demand for safety is getting higher and higher, especially in the fields of industry and mining, and the requirements for safety protection are more stringent. In these fields, engineering blast resistant walls have been widely used as an important safety protection measure. This article will elaborate on the safety protection of the engineering blast-resistant wall.
1. Definition and function of engineering blast-resistant wall.
Engineering blast-resistant wall refers to the wall set up in buildings in industrial and mining fields in order to resist the destructive effect of shock waves and debris. It is usually made of high-strength concrete, steel plates, steel bars and other materials, which has high strength and rigidity, and can effectively absorb and disperse the force of the shock wave to protect the safety of personnel and equipment inside the building.
Second, the design and construction of the explosion-resistant wall of the project.
The design and construction of the explosion-resistant wall of the project is the key link to ensure its safety protection effect. In the design stage, it is necessary to comprehensively consider the material, thickness, structural form and other parameters of the blast-resistant wall according to the use function of the building, the location of the source, the strength of the shock wave and other factors. During the construction process, it is necessary to carry out the construction in strict accordance with the design requirements to ensure the structural safety and construction quality of the wall.
3. Evaluation of the safety protection effect of the explosion-resistant wall of the project.
In order to ensure the safety protection effect of the anti-blast wall of the project, a comprehensive evaluation and testing are required. The evaluation content includes the structural strength, material quality, construction technology and other aspects of the wall, which can be carried out by experimental testing, numerical simulation and other methods. The inspection is mainly carried out on the surface quality, flatness, verticality and other aspects of the wall to ensure that the appearance quality and geometric dimensions of the wall meet the requirements.
Fourth, the maintenance and management of the explosion-resistant wall of the project.
The maintenance and management of the blast-resistant wall of the project is also an important measure to ensure its safety protection effect. In the process of using the explosion-resistant wall, it is necessary to carry out regular inspection and maintenance, and when cracks and deformation are found in the wall, they should be dealt with in time. In addition, safety assessments and tests should be carried out regularly to ensure the safety performance and protection effectiveness of blast-resistant walls. At the same time, for different types and uses of explosion-resistant walls, corresponding maintenance and management plans should be formulated, and professional maintenance and management personnel should be equipped to ensure the normal operation and service life of explosion-resistant walls.
V. Conclusions. As an important safety protection measure, engineering blast wall has been widely used in industry and mining fields. In order to ensure its safety protection effect, it is necessary to comprehensively consider and deal with it from the aspects of design, construction, evaluation, testing and maintenance management. At the same time, it is also necessary to continuously carry out technological innovation and improvement to improve the performance and quality of blast-resistant walls, and make greater contributions to ensuring the safety of people's lives and property.