Cnc machining parts supplier from China: The stamping process is generally divided into forming and separation processes. Fortuna is mainly customized and designed through customer drawings. It generally goes through 10 steps such as DFM Evaluation, Mold Design, Mold Assembly, Sample Submission, and Mass Production to achieve a project. After stamping and forming, we will also perform electroplating, heat treatment, tapping, riveting and other processes on the product according to customer needs to ensure that the product will not be oxidized, deformed and other product defects. Our company currently has 70 stamping equipments, most of which are high-precision equipment imported from Japan. The main brands are Chin Feng, AOMATE, Aida, DOBBY, etc. Read even more info on automotive metal stamping.
Rapid Prototyping Techniques – Prototyping is a critical step in the CNC machining design process. Rapid prototyping techniques like 3D printing, soft tooling, and CNC prototypes allow you to validate designs and identify potential issues before full-scale production. Prototyping helps you catch design flaws early, saving time and money. It also provides an opportunity to test the functionality and aesthetics of your design, ensuring it meets all requirements before committing to production. Testing for Functionality and Durability – Testing CNC machined parts for functionality and durability is essential to ensure they perform as intended. Stress testing, dimensional analysis, and other evaluation methods can reveal weaknesses and areas for improvement.
These equipments adopt computer digital control technology, which can adapt to various metal stamping processing processes, are easy to operate, and have the characteristics of high speed and high accuracy. Mainly used for processing various metal materials on metal stamping production lines. The automatic setting device can ensure that the mold operation is always stable and high-speed, and assists in some tasks on the processing line that require high-speed switching; The stroke is adjustable, the maximum stamping speed of our equipment is 1200/min, and it can be adjusted independently according to the production cycle required by the product.
Tungsten steel has the characteristics of high hardness, high wear resistance, and high corrosion resistance, and is suitable for producing high-precision, high-quality molds. The hardness of tungsten steel can reach HRC60~67, which can maintain the accuracy and dimensional stability of the mold. In high-temperature and high-pressure working environments, tungsten steel molds are not easily damaged and have more outstanding wear resistance, which can maintain the long life and stable performance of the mold.
Design for Manufacturability (DFM) – Design for Manufacturability (DFM) principles aim to simplify production and reduce costs. By considering the manufacturing process during the design phase, you can create parts that are easier and more economical to produce. Minimize the Number of Setups: Reducing the number of setups required for machining a part can save time and money. Design your parts in a way that allows multiple features to be machined in a single setup. This approach minimizes the need for repositioning, which can introduce errors and increase machining time. See additional details on dgmetalstamping.com.
Fortuna can achieve riveting operations inside the mold. In-mold riveting refers to the rapid and accurate riveting operation of two or more stamping products inside the mold, which can reduce the product assembly process and achieve rapid product delivery. Features : High degree of automation: In-mold riveting technology adopts an automated control system, which can accurately control operations and ensure riveting quality to the greatest extent. This technology combines multiple stages of the manufacturing process into one, which not only maintains high-quality riveting effects, but also effectively reduces production costs and cycles, and improves productivity.
CNC machining is a cornerstone of modern manufacturing, known for its precision and versatility. Whether you’re crafting intricate aerospace components or robust automotive parts, the design phase is critical. Getting it right can mean the difference between a smooth, efficient production run and costly, time-consuming errors. In this guide, we’ll explore essential tips and best practices for designing parts specifically for CNC machining. From selecting the right materials and understanding tolerances to optimizing tooling and prototyping, we’ll cover all aspects to help you create high-quality, cost-effective CNC machined parts.