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Emax
OEM coated sheet metal processing fabrication delivers custom-engineered components essential across automotive, appliance, and construction industries. This integrated approach transforms raw steel or aluminum sheets into durable, corrosion-resistant parts through sequential manufacturing stages.
The process begins with shearing or laser cutting sheets to precise dimensions. CNC punching then creates holes or complex contours. Next, technicians bend panels using press brakes to achieve required geometries, maintaining tight angular tolerances (±0.5°). Components requiring assembly undergo robotic welding (MIG/TIG) or mechanical fastening. Critical to performance, surface preparation via phosphating or chromating ensures coating adhesion. Finally, electro-galvanizing, powder coating, or e-coating is applied, with automotive-grade finishes baked at 200°C for chemical resistance and UV stability.
These fabricated parts serve vital functions:
Automotive: Chassis reinforcements and battery enclosures withstand road salts and impacts
HVAC Systems: Powder-coated housings resist moisture-induced corrosion
Industrial Machinery: E-coated panels prevent electrical interference in control cabinets
Building Facades: Anodized aluminum cladding provides decades of weather resistance
By combining precision fabrication with engineered coatings, OEM manufacturers achieve optimal strength-to-weight ratios and extended service life—critical for safety-critical and high-exposure applications. The tailored integration of forming and finishing technologies enables cost-effective, high-volume production of components meeting exact industry specifications.
Email: nurul@emaxmetal.com
OEM coated sheet metal processing fabrication delivers custom-engineered components essential across automotive, appliance, and construction industries. This integrated approach transforms raw steel or aluminum sheets into durable, corrosion-resistant parts through sequential manufacturing stages.
The process begins with shearing or laser cutting sheets to precise dimensions. CNC punching then creates holes or complex contours. Next, technicians bend panels using press brakes to achieve required geometries, maintaining tight angular tolerances (±0.5°). Components requiring assembly undergo robotic welding (MIG/TIG) or mechanical fastening. Critical to performance, surface preparation via phosphating or chromating ensures coating adhesion. Finally, electro-galvanizing, powder coating, or e-coating is applied, with automotive-grade finishes baked at 200°C for chemical resistance and UV stability.
These fabricated parts serve vital functions:
Automotive: Chassis reinforcements and battery enclosures withstand road salts and impacts
HVAC Systems: Powder-coated housings resist moisture-induced corrosion
Industrial Machinery: E-coated panels prevent electrical interference in control cabinets
Building Facades: Anodized aluminum cladding provides decades of weather resistance
By combining precision fabrication with engineered coatings, OEM manufacturers achieve optimal strength-to-weight ratios and extended service life—critical for safety-critical and high-exposure applications. The tailored integration of forming and finishing technologies enables cost-effective, high-volume production of components meeting exact industry specifications.
Email: nurul@emaxmetal.com
