Quality cnc machining parts suppliers: We have 8 R&D staff responsible for mold design and technical evaluation. They have more than 10 years of experience in stamping and CNC fields. Fortuna has 70 sets of punching machines with the tonnage from 25T to 220T and 42 imported Japanese CNC lathes, which can fully satisfy the diversity of customers’ products and orders. Fortuna has its own processing equipment that can independently develop, process, produce, and inspect products, which greatly accelerates product delivery and improves quality control. Fortuna takes pride in its high efficiency and completion rate. When Fortuna receives a customer order, we are able to provide samples within 20-30 days and mass production within 10-20 days. Find even more details at lead frame suppliers.
Design Features To Optimize For CNC Machining – Incorporating specific design features can significantly improve the efficiency and quality of CNC machined parts. Paying attention to these details can enhance the machining process and result in superior products. Hole and Slot Design – Holes and slots are common features in CNC machined parts. Optimal hole sizes and depths vary depending on the material and intended function. Generally, avoiding extremely deep or very small holes can prevent issues during machining. When designing slots, consider the width, depth, and spacing. Properly designed slots can enhance the part’s functionality and make machining more straightforward. Avoiding overly narrow or deep slots can reduce the risk of tool breakage and ensure smooth machining.
When we receive the inquiry, we will provide the quotation according to the drawings (CAD drawings, 3D data, PDF drawings) within 2 days, including mold charge, unit price, MOQ and lead time, etc. The price depends on the product and the customer’s requirements. Customer quotation confirmation – After a discussion, the customer confirms the price and sends us a mold order. Mold deposit prepayment – Next, according to our quotation and customer payment terms, the customer arranges the mold prepayment, most of which is 30%-50% of the entire mold price. At the same time, our R&D department will conduct detailed technical assessments and manufacturability assessments based on customer drawings. In general, we will give reasonable advice based on the mechanical properties of the customer’s raw materials, product structure and other subsequent treatments (such as electroplating, heat treatment and anodizing) to maximize the stability and sustainability of the production.
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. Find extra information on https://www.dgmetalstamping.com/.
Progressive die: In one stroke, different processes are completed at different positions of a set of molds, that is, a set of molds is used to complete the stamping process of products. Each stroke of the mold can stamp out one or more products. It is suitable for mass production, product processing with relatively complex shapes and requiring multiple processes to complete. Features: High degree of automation, enabling unmanned production. The mold has a long life, can reduce assembly errors and improve the dimensional accuracy of the parts. Advantages: high production efficiency and fast processing speed. The product quality is good because the movement trajectory and speed of the material are relatively stable, ensuring the accuracy and consistency of the product. Save materials and reduce material waste and loss.
Material Selection – Selecting the right material is crucial for CNC machining. Metals like aluminum, steel, and titanium are popular due to their strength and machinability. Plastics such as ABS and polycarbonate are also commonly used for their ease of machining and lightweight properties. Composites can offer unique advantages but might require special considerations due to their structure. Material properties like hardness, tensile strength, and thermal stability affect how they can be machined. For instance, harder materials may require slower machining speeds and more robust tooling, while softer materials can be machined more quickly but might necessitate careful handling to avoid deformation.