Preface 

In recent years, the speed of urbanization in China is accelerating. In this environment, the construction of building engineering infrastructure in line with it has been gradually promoted. At the same time, the use of testing technology in construction projects has increased. The detection technology of construction engineering is mainly the detection of building bearing capacity, building materials and using capacity. At present, there are many kinds of technologies used in the process of construction engineering inspection in China. However, most of the detection technologies still have a lot of defects, which need to be continuously improved. So far, China still does not have a unified standard for construction engineering testing. The non-destructive testing technology of construction engineering has been widely used in the construction process. The universal application of this technology has made a great contribution to the detection technology in China. In view of the current situation, in the detection of construction engineering in China, it is necessary to constantly improve the existing detection technology and constantly analyze the status quo of the development of detection technology, so as to grasp the development trend of related detection technology. Only in this way can we make great progress in the detection technology of construction engineering.

Now, in the process of research on testing technology of construction engineering, some results have been obtained. Through the analysis of specific cases of construction engineering inspection, the following conclusions can be drawn from these analyses: Non-destructive testing technology for construction engineering is one of the main high-tech testing technologies. This technology will promote the development of construction engineering inspection technology in China for a long time. However, despite the rich technical theories of construction engineering inspection in China, there are still a large number of inspection specifications that need to be continuously improved and innovated, and a large number of practical problems need to be resolved expeditiously. In addition, there are large differences between detection techniques. The existence of these differences requires relevant inspection personnel to continuously improve the detection technology in accordance with the characteristics of each construction project.

Therefore, this book explains and analyzes the construction engineering and testing technology in detail with comprehensive knowledge and chapters. It hopes to promote the development and progress of China's construction industry.

前言

近几年，我国城市化发展的速度不断的加快，在这个大环境下，与其相符合的建筑工程基础设施的建设也逐渐的被提升。与此同时，建筑工程当中对检测方面技术的使用范围也有所增加，建筑工程的检测技术主要就是对建筑的承载力以及建筑材料和使用能力等方面的检测。当下，我国在对建筑工程进行检测的过程中所采用的技术种类繁多，但是，大部分的检测技术仍然存在大量的缺陷，需要对其不断的完善。到目前为止，我国仍然没有一个统一的建筑工程检测方面的标准。虽然，建筑工程的无损检测技术在我国建筑工程施工的过程中已经得到了十分普遍的使用，该技术的普遍应用为我国的检测技术做出了很大的贡献。针对当前这种现状，在我国建筑工程的检测方面，要对已有的检测技术不断的进行完善，还要对检测技术发展的现状不断的分析，可以很好的把握相关的检测技术的发展趋势，也只有这样，才可以使我国在建筑工程的检测技术方面得到很大的发展。

现在，在对建筑工程检测技术的研究过程中，我国已经获得了一些成果。通过对建筑工程检测的具体案例的分析，可以从这些分析当中得到以下结论：建筑工程无损检测技术是目前主要的高科技检测技术之一，该项技术在很长的一段时间会推动我国的建筑工程检测技术方面的发展。但是，尽管我国的建筑工程检测方面的技术理论十分丰富，仍然有大量的检测规范需要不断的改善、创新，大量实际的操作的问题也需要加快解决，此外，大量的检测技术之间也有很大的差异，这些差异的存在就要求相关的检测人员结合各个建筑工程自身的特点，因地制宜的对检测技术持续的完善。

因此，本书的内容对建筑工程与检测技术进行详细的阐述与分析，知识点全面，章节全面，希望能够推动我国的建筑事业的发展与进步。