Automotive stamping provider from China: Stamping in Electric Vehicle (EV) Manufacturing – Electric vehicle production introduces new demands for stamping processes. EVs often use lightweight materials to offset heavy battery packs, making precision and strength more important than ever. Aluminum and advanced high-strength steel are commonly stamped for battery housings, underbody structures, and crash protection components. Because EV platforms differ significantly from traditional internal combustion vehicles, stamping dies and presses must be redesigned for new geometries. In addition, stamping contributes to the overall rigidity of EV chassis, which improves safety and driving dynamics. Some manufacturers are exploring hot-stamping—heating the metal before forming—to create ultra-strong yet lightweight components. Automation and data analytics further enhance consistency and efficiency in EV stamping operations. As electric mobility continues to expand globally, the stamping industry is evolving to support cleaner, safer, and more efficient vehicle architectures that define the future of transportation. Discover even more details on automotive metal stamping.
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.
Our metal stamping production is from a wide spectrum of materials, which include cold-rolled steel, stainless steel, brass, aluminum, copper, iron etc., We manufacture high-quality parts and components for the agricultural, alternative energy, home appliance, automotive, engine components, heavy equipment, furniture, material handling, power transmission and railroad industries. We work with materials that range in thickness from 0.1mm up to 5.0mm , and die configurations that range from the simple to complex in design nature. These factors guide us to determine which punch press will be used for production from our numerous options. Press capacities range from 25-ton to 220-ton stamping machines. 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%. Read extra information at https://www.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.
Why Choosing a Professional Copper Parts Manufacturer Is Important – CNC Copper parts are primarily used in high heat transfer and conductive areas. In such systems, a slight variation will cause failure and functional defaults. Therefore, your supplier must fully understand both the design intent and the behaviour of the material. Moreover, the professional manufacturers do not merely design your components. They specify the best outcomes and check up grain structure, inner wall finish, and forming. This gives mechanical integrity and dimensional stability in the production stage. In a high-purity copper component, the major risk involved is surface contamination. Besides, conductivity can be affected by using the wrong tools and poor inventory. But a reliable manufacturer stores materials and tools securely.