Automotive metal stamping provider from China: Evolution of Stamping Technology – Stamping technology has evolved dramatically since the early days of car manufacturing. In the past, mechanical presses dominated the industry, relying on brute force and manual adjustments. Today, hydraulic presses and servo-driven systems offer far greater control over speed and pressure. Computer-aided design (CAD) and finite element analysis (FEA) enable engineers to simulate the stamping process before production begins, minimizing trial-and-error. Modern dies often incorporate cooling channels and sensors to optimize performance and extend lifespan. Furthermore, laser cutting and progressive die stamping have streamlined production by combining multiple operations in one continuous process. The integration of digital monitoring systems allows real-time feedback, predictive maintenance, and adaptive manufacturing. As a result, stamping has become faster, safer, and more flexible, supporting the growing diversity of car models and the industry’s shift toward lightweight materials and sustainable production practices. Find additional details on automotive stamping.
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.
We usually use high-speed steel, cold work die steel, hot work die steel, carbon tool steel, etc., which have the characteristics of high hardness, high heat resistance, high strength, high tensile strength and toughness, and are widely used in various types of mold parts Processing, including forging dies, high-speed cutting, milling, etc. At present, our company has 7 Mitsubishi slow wire cutting machines with a processing accuracy of 0.002mm. They are mainly used to process various precision, small and complex terminals, shrapnel, and bracket molds, focusing on controlling the precision of the products.
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. Discover additional details at 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.
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.
Enquire about the experience of working and machining copper components. In case the supplier deals with such alloys as C101 or CW008A, then they should know about the tight forming limits. In-house capability prevents too much outsourcing and risk. Traceability of Materials and Alloy Standards – Stable factories ensure complete traceability of materials. Search for the option of EN/ ASTM or ISO material specifications. Certificates of conformity should specify which copper was utilised. In regulated industries like aerospace and power, traceability is essential for safety and compliance. Your product is safeguarded against issues in the field through the capability to trace the batches. Enquire about how they test and record metal contents, as well as create a batch account.