摘要
数值化和智能化技术正在推动材料科学的发展,尤其是在材料设计、优化和制造方面。有限元分析、分子动力学、第一性原理计算和多尺度建模等数值化技术,能够有效预测材料性能并优化设计。同时,人工智能和大数据分析通过机器学习,促进了新材料的发现和逆向设计。智能制造结合自适应控制系统,实现了生产过程的自动化和实时优化,进而提高制造效率和精度。尽管面临数据不足和计算成本的挑战,随着技术的进步,材料科学正朝着更加精准和自动化的方向发展。Numerical and intelligent technologies are advancing materials science, especially in materials design, optimization and manufacturing. Numerical techniques such as finite element analysis, molecular dynamics, first-principles calculations, and multiscale modeling can effectively predict material properties and optimize design. Meanwhile, artificial intelligence and big data analytics facilitate the discovery of new materials and reverse design through machine learning. Intelligent manufacturing combined with adaptive control systems enables automation and real-time optimization of the production process, which in turn improves manufacturing efficiency and precision. Despite the challenges of insufficient data and computational costs, materials science is moving towards greater precision and automation as technology advances.
出处
《材料科学》
2025年第1期131-139,共9页
Material Sciences
基金
重庆交通大学–重庆建工建材物流有限公司材料与化工研究生联合培养基地(JDLHPYJD2019002)。
