Top rated copper turned parts factory: Clean Surfaces and No Damage – Copper scratches easily and reacts to dirt or oil. A good supplier uses clean tools and packaging to avoid this. It keeps surfaces ready for brazing or electrical use. You won’t face any finishing issues after delivery. Parts arrive clean, sealed, and ready to use. On-Time Delivery with Less Delay – Professional suppliers plan better and hold material stock. This keeps your lead times short and predictable. Even custom orders stay on schedule. So, you can avoid delays caused by missing stock and broken tools. The process stays stable from order to shipment. Full Records and Traceable Materials – Quality parts come with full documentation. A trusted supplier gives you material certifications and batch tracking. You always know where each part came from. This helps you with audits, field support, and product safety. It also builds trust across your project teams. See more info on custom copper parts.
Select Cost-Effective Materials: While high-performance materials may be necessary for certain applications, selecting cost-effective alternatives can reduce costs without compromising quality. Consider the material’s machinability, availability, and overall cost when making your selection. Reduce Material Removal: Designing parts with minimal material removal can save time and reduce costs. Features such as pockets and holes should be designed to require the least amount of material removal while still meeting functional requirements.
The factory has strong technical force, with 45 professional mold technicians and 5 mold design engineers, from product evaluation to mold design, manufacturing, assembly and production, a one-stop service. There are 70 sets stamping machines, punching tonnage from 25-200 tons, stamping speed can reach 1200 times/ min. We can produce different material with thickness 0.1-5.0MM, Single stamping terminal monthly maximum capacity is 30 million pieces, shrapnel is 5 million pieces. At present, the utilization rate of equipment stamping equipment is 60%. The factory has 40 sets of 5-axis CNC machines and 2 sets of 6-axis CNC machines that imported from Japan. The processing diameter is from 1.0-32MM, the processing precision is 0.005MM, and it can process different materials. The current equipment utilization rate is 70%. The factory is located in the Matigang Industrial Zone, Dalingshan Town, Dongguan City, a famous manufacturing city, 500 meters away from the highway intersection and 40 minutes drive from Shenzhen Airport.
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.
Hexagon measuring instruments use a variety of sensors and measurement methods to achieve high-precision measurement. By measuring the coordinate position of an object in three-dimensional space to determine its geometric shape, it can detect and control product quality. Hexagon measuring instruments have the characteristics of high precision, wide measurement range and high degree of automation. Keyence’s one-button measuring instrument is a precision measuring instrument based on advanced image measurement technology. It is mainly used for simple, batch, fast and accurate measurement of two-dimensional plane dimensions. Find additional details at https://www.dgmetalstamping.com/.
Customization of mold materials: select appropriate mold materials and processing methods based on the structure and material requirements of customer products to ensure that the mold produces products that meet customer drawing requirements; Product size and design customization: assist customers in optimizing drawings and designing and optimizing molds to meet the specific functional requirements of the product. Customization of quality requirements: set product quality standards according to the actual needs of customers. If necessary, cooperate with customers to purchase corresponding quality testing equipment to ensure that the products produced meet customer requirements.
Part Complexity and Geometries – Complex designs can significantly impact CNC machining time and cost. Simplifying part geometries where possible can lead to more efficient machining. However, complex parts are often necessary, especially in high-tech applications. For complex parts, consider using multi-axis CNC machines that can handle intricate shapes and features. Designing with these capabilities in mind can lead to more efficient and cost-effective manufacturing.
Different materials may require different tool materials and coatings. For example, carbide tools are excellent for cutting hard metals, while high-speed steel tools might be suitable for softer materials. Matching the tool to the material and the specific machining task can enhance efficiency and part quality. Tool Path Optimization – Tool path planning is essential for reducing machining time and improving efficiency. Effective tool path strategies like climb milling, where the cutting tool rotates in the same direction as the material is fed, can reduce tool wear and improve surface finish. Trochoidal milling, a technique that uses circular tool paths, can also be beneficial for removing material efficiently. By optimizing tool paths, you can reduce machining time, minimize tool wear, and achieve better part quality.