As a core piece of equipment in stamping processes, the precision of
Display Micro Screws directly determines product dimensional consistency and surface quality, making it a key factor in production efficiency and cost control.
Traditional mold management relies on experience-based judgment, resulting in long design cycles, large manufacturing errors, and untimely maintenance, making it difficult to meet the high precision and stability demands of modern manufacturing.
Implementing refined management throughout the entire lifecycle of Display
Micro Screws, through precise control and data-driven decision-making, is essential for improving management precision and optimizing resource allocation.
Design is the starting point for Display Micro Screws precision; refined design needs to focus on "precise modeling + virtual verification."
Using parametric design tools to build a standardized model library transforms key dimensions such as die fillets, clearances, and drawing depths into dynamically adjustable parameters, ensuring consistency in mold design across different batches and eliminating human error.
Simultaneously, CAE simulation technology is introduced to simulate material flow, stress distribution, and forming defects, predicting problems such as cracking and wrinkling in advance. For example, simulation optimizes the die-punch clearance to 1.05-1.1 times the material thickness, reducing workpiece springback; the position and height of the stretch ribs are adjusted to balance the material flow rate.
This "virtual trial molding" method not only shortens the design cycle but also locks in the accuracy target from the source.