Auto parts stamping manufacturers today

Auto parts stamping provider from China: How Automotive Stamping Works – In automotive stamping, flat sheets of metal are first cut to the required size, then pressed between dies that define their final shape. Each die consists of two halves—the punch and the die cavity—that work together under tons of pressure. When the press closes, the metal sheet is forced to conform to the cavity’s contour. The process may involve several stages: blanking, piercing, bending, drawing, and trimming. Each step refines the part’s geometry, ensuring that it meets dimensional and functional requirements. Advanced sensors monitor pressure, alignment, and material behavior throughout the process to guarantee consistency. Once stamped, the parts may undergo surface treatments or inspections before moving to welding and assembly. The entire operation is highly automated and synchronized with other production steps. This precise coordination ensures fast turnaround, low waste, and reliable quality—key elements in modern car manufacturing efficiency. Discover extra details on stamping car parts.

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.

We have 45 professional mold technicians and 5 mold design engineers.The company’s minimum punching distance is 0.2MM.the mold parts processing accuracy to 0.005MM, and the overall assembly accuracy to 0.01MM.Our R&D team has more than 10 years of experience in the precision stamping parts industry and can provide one-stop services from product evaluation to mold design, manufacturing, assembly, mold trial, and production. After the mold assembly is completed, professional mold technicians will be arranged to conduct mold trials. Advanced quality testing equipment will be used to test the dimensional accuracy, surface quality, internal structure of the first product, and may also conduct mechanical properties, functional testing, salt testing. Advanced Equipment – DOBBY NXT stamping equipment mainly adopts a toggle design, which can automatically adjust the equipment parameters to meet different stamping needs. This equipment is mainly used to manufacture precision hardware, electronic components, auto parts and other products that require high-precision processing. 40T-60T punching machines are mainly used in the metal stamping forming process and can meet the needs of various industries for high-precision and high-efficiency metal stamping parts. Its equipment, especially the SDS series servo punch machines, combines traditional mechanical punch machines with digital servo control systems, which can handle various stamping processes in an intelligent, composite, and green way to meet the needs of difficult-to-process forming materials.

Standardize Features: Using standard hole sizes, thread pitches, and other features can reduce the need for custom tools and simplify the machining process. Standard features are easier to produce and often result in lower costs. Simplify Geometries: Complex geometries can increase machining time and tool wear. Simplifying your part design where possible can lead to faster machining and lower costs. Avoid unnecessary intricacies that don’t add functional value to the part. Discover extra info on https://www.dgmetalstamping.com/.

After we receive the customer’s drawings, professional engineers will conduct DFM analysis of the product. Design feasibility analysis: Evaluate the feasibility of the mold design, including mold materials, structure and processing technology. By analyzing whether the mold design meets the existing technical conditions and process capabilities, determine its feasibility and provide suggestions for improvement. Manufacturability analysis: Conduct multi-dimensional analysis on the drawings provided by customers to provide customers with a variety of achievable, cost-reducing and efficiency-increasing stamping solutions while ensuring the functional structure of the product.

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.

Looking for precision CNC lathed parts or metal stamping components? Dongguan Fortuna is your trusted one-stop solution. We have been serving the automotive, consumer electronics, and new energy sectors since 2003. From copper turned parts to assembly-ready stamping terminals, we support full-scale production with material selection, DFM support, and tight-tolerance output. All components are manufactured in-house, with global service coverage from China to Japan. Contact us today to discuss your project with our engineers and receive a prompt, expert response. What is the lead time for custom copper parts? Lead times can be varied. It is usually based on complexity and volume. Most standard copper components can be produced within 2 to 4 weeks after design approval and tooling setup. Can copper parts be produced in small batch quantities? Yes, a professional manufacturer can support both prototype runs and low-volume production. This is useful for testing, pilot projects, and specialised assemblies. What information do I need to request a quote? To receive an accurate quote, provide 3D drawings, material type, tolerance requirements, expected volumes, and any secondary processes like plating or assembly.