EN
•Shencheng Xingchuang Industrial is a leader in providing custom metal stamping and forming solutions for a global clientele. As a core component of our manufacturing services, we specialize in transforming sheet metal into complex, high-precision components with exceptional efficiency and repeatability. Our IATF 16949 certified processes are designed to meet the stringent demands of the automotive, electronics, and new energy industries. By integrating advanced technology with deep engineering expertise, we function as a reliable extension of your production line, delivering cost-effective solutions without compromising on quality.
Get an instant quote
Xnova's one-stop manufacturing service covers the entire production process from design to final product delivery, committed to providing comprehensive solutions.
The stamping process can significantly improve efficiency through high speed and mass production, especially for high volume production.
The design and manufacturing of the mold determines the dimensional accuracy and shape of the product, and the stamped product usually has a high dimensional consistency.
In the stamping process, the waste of metal materials is less, and the plate can be cut reasonably, reducing waste and reducing costs.
Can process a variety of metal materials, including steel, aluminum, copper, stainless steel, etc., a wide range of applications.
Obtain An Instant Quote by uploading a 3D CAD file (including STEP, STP, SLDPRT, DXF, IPT, PRT, or SAT formats) through our Instant Quoting Engine.
Ideal for high-volume production of intricate parts. A single die performs multiple cutting and forming operations sequentially as a metal coil is automatically fed through the press.
A process for forming sheet metal into cylindrical or box-shaped parts with a depth greater than their diameter, creating seamless geometries for housings and enclosures.
High-precision cutting of external shapes (blanking) and internal features (piercing) with clean edges and tight tolerances.
To enhance efficiency, we can integrate assembly operations such as tapping and staking directly within the stamping die, reducing secondary operations.
| Aluminum 5052-H32: | thicknesses from 0.040 in.-0.250 in. (1.016mm-6.35mm) |
| Aluminum 6061-T651: | thicknesses from 0.040 in.-0.250 in. (1.016mm-6.35mm) |
| Aluminum 6061 | suitable for profile/perimeter punching but is not eligible for formed features. |
| Low Carbon Steel CR 1008: | thicknesses from 0.036 in.-0.119 in. (0.914mm- 3.023mm) |
| CR Galvanized: | thicknesses from 0.036 in.-0.119 in. (0.914mm- 3.023mm) |
| CR Galvannealed: | thicknesses from 0.036 in.-0.119 in. (0.914mm- 3.023mm) |
| Copper C101, C110: | thicknesses from 0.040 in.-0.125 in. (1.016mm-3.175mm) |
| Brass C260: | thicknesses from 0.040 in.-0.125 in. (1.016mm-3.175mm) |
| Stainless Steel304/304L, 316/316L: | thicknesses from 0.036 in.-0.074 in. (0.914mm-1.88mm) |
Precision Stamping Parts Tolerance - IATF 16949 Standard
| Material Thickness (mm) | Dimensional Tolerance (mm) | Form & Position Tolerance (mm) | Surface Roughness (Ra) |
|---|---|---|---|
| 0.5 ~ 1.0 | ±0.10 mm | ±0.05 mm | 1.6 ~ 3.2 μm |
| 1.0 ~ 1.5 | ±0.12 mm | ±0.06 mm | 1.6 ~ 3.2 μm |
| 1.5 ~ 2.0 | ±0.15 mm | ±0.08 mm | 3.2 ~ 6.3 μm |
| 2.0 ~ 3.0 | ±0.18 mm | ±0.10 mm | 3.2 ~ 6.3 μm |
| 3.0 ~ 4.0 | ±0.20 mm | ±0.12 mm | 6.3 ~ 12.5 μm |
| 4.0 ~ 5.0 | ±0.25 mm | ±0.15 mm | 6.3 ~ 12.5 μm |
| 5.0 ~ 8.0 | ±0.30 mm | ±0.18 mm | 12.5 ~ 25 μm |
Carbon Steel, Stainless Steel (301, 304, 316), Spring Steel
1100, 3003, 5052, 6061
C110 (ETP Copper), C101 (OFHC Copper), Brass, Bronze
Inconel, Titanium (upon request)
Zinc, Nickel, Tin, Silver, Gold
Powder Coating, E-coating, Painting
Annealing, Hardening, Tempering
Anodizing, Passivation, Deburring, Polishing
We are proud to be a trusted partner for industry leaders worldwide
Get in Touch
Copyright © Xnova Engineering & Manufacturing Co., Ltd. All Rights Reserved — Privacy Policy — Blog