杨阳, 杨仁树, 陈骏, 范子儀, 张祥, 杨欢. 刊庆专刊_岩石爆破基础理论“三大关系”研究进展与展望—本构关系[J]. 工程科学学报. DOI: 10.13374/j.issn2095-9389.2024.06.02.003
引用本文: 杨阳, 杨仁树, 陈骏, 范子儀, 张祥, 杨欢. 刊庆专刊_岩石爆破基础理论“三大关系”研究进展与展望—本构关系[J]. 工程科学学报. DOI: 10.13374/j.issn2095-9389.2024.06.02.003
Research Progress and Outlook on the "Three Relationships" of Basic Theory of Rock Blasting - Constitutive Relationships[J]. Chinese Journal of Engineering. DOI: 10.13374/j.issn2095-9389.2024.06.02.003
Citation: Research Progress and Outlook on the "Three Relationships" of Basic Theory of Rock Blasting - Constitutive Relationships[J]. Chinese Journal of Engineering. DOI: 10.13374/j.issn2095-9389.2024.06.02.003

刊庆专刊_岩石爆破基础理论“三大关系”研究进展与展望—本构关系

Research Progress and Outlook on the "Three Relationships" of Basic Theory of Rock Blasting - Constitutive Relationships

  • 摘要: 岩石爆破技术在现代国民经济建设中发挥着至关重要的作用,尤其是在资源开采、基础设施建设等领域。本文围绕岩石爆破基础理论中的“三大关系”进行系统探讨,特别是对本构关系进行了深入研究和创新。在传统本构关系研究的基础上,提出了本构关系1.0、2.0和3.0的演化阶段,分别探讨了矛盾关系、能量平衡以及最小作用量理论,这些理论不仅揭示了岩石在不同荷载条件下的力学行为,还为优化爆破设计和提高爆破效果提供了理论依据。同时,本文结合人工智能和大数据技术,提出了岩石材料工程基因的概念,通过建立岩石基因库,系统化管理岩石的物理力学参数,构建性能预测模型,提升了对岩石特性的理解和工程应用的精确度。未来,岩石材料基因库有望在矿产资源开发、地质灾害防治和基础设施建设等领域发挥更大的作用,推动工程技术的发展和应用。

     

    Abstract: Rock blasting technology plays a critical role in modern national economic construction, especially in resource extraction and infrastructure development. This paper systematically explores the "three major relationships" in the fundamental theory of rock blasting, with a particular focus on the constitutive relationships. Building on traditional research, we propose evolutionary stages of constitutive relationships 1.0, 2.0, and 3.0, addressing contradiction theory, energy balance, and the principle of least action. These theories elucidate the mechanical behavior of rocks under various loading conditions and provide a theoretical basis for optimizing blasting design and improving engineering efficiency. Additionally, by integrating artificial intelligence and big data technologies, we introduce the concept of rock material engineering genes. By establishing a rock gene library, systematically managing the physical and mechanical parameters of rocks, and constructing performance prediction models, we enhance the understanding and precision of rock properties and engineering applications. In the future, the rock material gene library is expected to play a significant role in mineral resource development, geological disaster prevention, and infrastructure construction, driving the advancement and application of engineering technology.

     

/

返回文章
返回