"云计算在玻璃吹制成型模具传热分析与有限元计算中的应用"

In the research paper "Cloud Computing - Heat Transfer Analysis and Finite Element Calculation of Glass Blowing Mold," the focus lies on the crucial aspect of temperature in the numerical modeling of the glass blowing forming process. The temperature not only influences the design of the mold structure but also impacts the performance and quality of the final products. Through the utilization of numerical simulation techniques such as the least square method and finite element method (FEM), the study delves into the heat conduction within the temperature field of the glass forming process. By conducting a detailed analysis and finite element calculations, the researchers were able to gain valuable insights into the heat transfer mechanisms involved in the process. The research paper provides a comprehensive overview of the importance of temperature control in the glass blowing industry and highlights the significance of utilizing advanced numerical simulation methods for optimizing mold design and enhancing product quality. By combining theoretical analysis with practical applications, the study offers valuable contributions to the field of glass blowing mold design and heat transfer analysis. Overall, the research underscores the critical role of temperature in the glass blowing forming process and emphasizes the need for accurate numerical modeling and simulation techniques to improve manufacturing efficiency and product quality in the industry. Through the integration of cloud computing technologies, researchers and practitioners can further enhance their understanding of heat transfer phenomena and optimize mold design for better performance and quality in glass blowing production.