Best auto parts stamping supplier: Types of Automotive Stamping Processes – Automotive stamping encompasses several distinct processes that together produce the varied components of a vehicle’s body and structure. Blanking involves cutting metal sheets into predefined shapes before forming. Piercing adds holes or cutouts needed for assembly or component fitting. Bending and flanging shape the metal edges to achieve the correct contours and reinforcement. Drawing —a particularly complex process—stretches the metal into three-dimensional forms such as doors or hoods without tearing it. Each of these operations requires specialized dies and precision alignment. Depending on the complexity of the part, multiple steps may occur in sequence within a transfer press system, allowing the sheet to move automatically from one station to another. The choice of process depends on the material type, thickness, and design specifications. Together, these techniques enable automakers to create everything from small brackets to large exterior panels with consistency and strength. Find extra info on automotive stamping.
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.
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.
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. Discover extra details at 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.
Tolerances and Precision – Tolerances define the allowable deviation from the design dimensions. In CNC machining, tight tolerances ensure high precision and part functionality. However, achieving extremely tight tolerances can increase machining time and cost. It’s essential to balance the need for precision with practical machining capabilities. Understanding the limits of your CNC machine and tooling will help you set realistic tolerances. Collaborate with your machinist to determine achievable tolerances that meet the part’s functional requirements without overburdening the manufacturing process.
Tooling Precision and Press Capabilities – Forming, stamping, and bending are frequent operations used in copper parts. The repeatability, as well as the edge definition, directly depends on tooling precision. The supplier has to keep their dies, jigs, and fixtures in proper condition so as to produce dimensionally stable products. Enquire about the press tonnage and depth limits of forming. Are they capable of turns with a tight radius without cracking the edges? There should be proper die registration and forming pressure control in the case of small part tolerances. In electronics or cooling systems sectors, tolerances are usually measured in microns. A good manufacturer provides accurate batch to batches. They can validate wear of tooling, calibration of the press, as well as die life.