What is Mold Flow Analysis?

The complexity of plastic material properties determines the intricacies of the injection molding process. Some injection molding issues are challenging even for experienced mold designers. The quality of injection-molded products largely depends on the injection molding process, and the flow behavior of plastic melt into the mold cavity plays a vital role in determining product quality. Therefore, it is essential to conduct effective mold flow analysis.

Flow analysis in injection molding has been widely applied in foreign countries, utilizing computer-aided design (CAD) technology as its foundation. The primary objective of mold flow analysis is to predict the flow behavior of plastic melt during the injection process, thus evaluating its impact on product quality. The application of flow simulation software mainly includes three aspects: firstly, predicting the distribution of pressure, temperature, and other parameters for the set injection scheme; secondly, using the predicted distribution to improve the design of molds and plastic products; thirdly, comparing and optimizing multiple candidate injection schemes to select the best option.

Traditionally, mold design for injection molding primarily considers the needs of the mold itself, followed by the requirements of the injection-molded product. In other words, the flow behavior of plastic melt in the runner and mold cavity is often of secondary concern. For instance, conventional mold designs typically determine the number and location of gates based on experience rather than flow analysis, resulting in excessive gate numbers and larger gate sizes. However, under market economy conditions, product quality and cost have become the lifeline of enterprise survival and development. Injection molding simulation software can assist enterprises in establishing a competitive advantage.

Fluid Analysis Steps:

Define the Model Objective:

• Determine the desired results and how they will be used.
• Select the appropriate model for the analysis.
• Identify the physical models to be included in the analysis.
• Make necessary assumptions and consider unique model capabilities, including user-defined functions (UDFs) based on C language.

Establish the Geometric Model and Mesh Generation:

• Use ANSYS FLUENT’s non-structured mesh partition to reduce mesh generation time and simplify the physical model.
• Use block-structured meshing to handle more complex physical models and adapt meshing to solve flow domain characteristics.
• Consider using ANSYS FLUENT for triangular and quadrilateral elements in 2D, and tetrahedral, hexahedral, pyramid, wedge, and polyhedral elements in 3D, or their combination, depending on the application.

Perform the Flow Analysis:

• Modify the mesh of all shapes (except polyhedra) in ANSYS FLUENT to handle large gradients in the flow domain.
• Generate the initial partition outside the solver or import the partition from a CAD system through the partition import filter.

Where to Find Mold Flow Analysis Commands in UG?

The analysis command interface in UG:

1. First, open your computer browser, download, and install UG.
2. Then, open the UG software, click the “New” button, select the model, and click “OK.”
3. Finally, after confirming, click the “Analyze” button, and the analysis command dialog box for mold flow analysis in UG will pop up.

How to Perform Mold Flow Analysis in ProE?

To conduct mold flow analysis in ProE, you need to check if the software has installed the plastic advisor. If so, find the plastic advisor in the application window, as it is a simplified version of MPA (Moldflow Plastics Advisers). If it is not installed, you can opt for specialized mold flow analysis software like MoldFlow, which is user-friendly and easy to learn.

Self-learning Mold Flow Analysis: What to Master?

Mold flow analysis is a complex and fascinating field that plays a crucial role in modern manufacturing industries. For those who wish to learn mold flow analysis on their own, the following steps and skills can help you master this technique:

1. Learn the Basics: Start by acquiring fundamental knowledge about plastic injection molding and injection mold design. Understanding the properties of plastic materials, the injection molding process, and the principles of mold design will lay the foundation for grasping mold flow analysis.
2. Study Mold Flow Analysis Software: Proficiency in mold flow analysis software is a critical step in self-learning. There are various popular mold flow analysis software available in the market, such as Moldflow and ANSYS FLUENT. Choose the one that suits your needs and become familiar with its interface, functions, and operations.
3. Explore Modeling and Meshing: Understanding how to create geometric models and perform meshing is a key aspect of mold flow analysis. Learning how to properly build mold geometry models and generate appropriate meshes will significantly impact the accuracy and efficiency of simulations.
4. Familiarize with Boundary Conditions: Setting appropriate boundary conditions, including injection process parameters and material properties, is crucial in mold flow analysis. Gaining proficiency in defining these conditions ensures the accuracy of your simulations.
5. Interpret Simulation Results: Mold flow analysis results can be complex, and understanding them to extract useful information is vital. Learn how to interpret and analyze simulation results to make informed decisions and optimize mold design.
6. Study Case Studies: Delve into real-world case studies to better understand the applications and techniques of mold flow analysis. Reading relevant tutorials and documents and attempting simulations for simple cases will gradually enhance your skills.
7. Practice and Experiment: Mold flow analysis is a skill that requires continuous practice and experimentation. By repeatedly practicing and experimenting, you will gradually gain proficiency and improve your skills for practical applications.
8. Attend Training or Courses: For a more structured approach, consider attending mold flow analysis training or courses. Professional training institutions or software vendors often offer such courses to help you acquire skills more efficiently.
9. Join Communities and Forums: Engage with mold flow analysis communities and forums to exchange experiences and knowledge with other learners and professionals. These communities offer valuable problem-solving solutions and keep you updated on industry trends.