摘 要
随着现代制造业的快速发展,虚拟制造技术作为一种新兴的数字化工具,在优化产品设计与制造流程中展现出重要价值。本研究以机械制造领域为背景,深入探讨虚拟制造技术的应用潜力及其对传统制造模式的革新作用。研究旨在通过构建虚拟制造平台,实现产品生命周期中设计、仿真、验证和优化等环节的无缝衔接,从而提升制造效率并降低开发成本。为此,本文采用理论分析与实验验证相结合的方法,首先梳理了虚拟制造技术的核心原理,包括几何建模、物理仿真及数据驱动的决策支持;其次,基于实际案例设计了一套集成化的虚拟制造系统,并通过多场景测试评估其性能表现。结果表明,该技术能够显著缩短产品开发周期,提高工艺规划精度,并有效减少资源浪费。本研究的创新点在于提出了一种融合人工智能算法的增强型虚拟制造框架,能够在复杂制造环境中实现自适应优化与实时反馈。这一框架不仅提升了系统的智能化水平,还为未来智能制造的发展提供了新的思路。总体而言,本研究为机械制造领域的数字化转型奠定了理论基础,并为工程实践提供了可行的技术路径。
关键词:虚拟制造技术;机械制造;数字化转型
Abstract: With the rapid development of modern manufacturing, virtual manufacturing technology has emerged as a new digital tool, demonstrating significant value in optimizing product design and manufacturing processes. This study, set against the backdrop of the mechanical manufacturing field, delves into the application potential of virtual manufacturing technology and its transformative impact on traditional manufacturing models. The aim is to construct a virtual manufacturing platform that enables seamless integration of design, simulation, validation, and optimization throughout the product lifecycle, thereby enhancing manufacturing efficiency and reducing development costs. To achieve this, the study combines theoretical analysis with experimental validation, first elucidating the core principles of virtual manufacturing technology, including geometric modeling, physical simulation, and data-driven decision support. Subsequently, an integrated virtual manufacturing system is designed based on real-world case studies, and its performance is evaluated through multi-scenario testing. The results indicate that this technology can substantially shorten the product development cycle, improve the accuracy of process planning, and effectively reduce resource waste. A key innovation of this research lies in proposing an enhanced virtual manufacturing fr amework incorporating artificial intelligence algorithms, which enables adaptive optimization and real-time feedback in complex manufacturing environments. This fr amework not only elevates the intelligence level of the system but also offers new perspectives for the future development of smart manufacturing. Overall, this study establishes a theoretical foundation for the digital transformation of the mechanical manufacturing domain and provides a practical technical pathway for engineering applications.
Keywords: Virtual Manufacturing Technology; Mechanical Manufacturing; Digital Transformation
目 录
1绪论 1
1.1机械制造中虚拟制造技术的研究背景 1
1.2虚拟制造技术在机械制造中的意义分析 1
1.3国内外虚拟制造技术研究现状综述 1
1.4本文研究方法与技术路线设计 2
2虚拟制造技术的核心理论与关键技术 2
2.1虚拟制造技术的基本概念与内涵 2
2.2数字化建模在虚拟制造中的应用研究 3
2.3虚拟仿真技术的原理与实现方法 3
2.4数据驱动的虚拟制造系统架构分析 4
2.5虚拟制造技术的关键挑战与解决路径 4
3虚拟制造技术在机械制造中的应用实践 5
3.1产品设计阶段的虚拟制造技术应用 5
3.2工艺规划中的虚拟制造技术实施策略 5
3.3生产过程模拟与优化的技术方法研究 6
3.4质量控制中的虚拟检测技术分析 6
3.5案例分析:虚拟制造技术的实际效果评估 7
4虚拟制造技术的未来发展与创新方向 7
4.1新一代信息技术对虚拟制造的影响 7
4.2虚拟制造与智能制造的融合趋势研究 8
4.3基于人工智能的虚拟制造技术升级路径 8
4.4虚拟制造技术标准化体系的构建探讨 9
4.5虚拟制造技术的未来挑战与应对策略 9
结论 11
参考文献 12
致 谢 13
