Custom Manufacturing From Prototyping To Production
Rapid prototyping & on-demand manufacturing in days.
Machining &Molding for Plastic & Metal parts.
ISO 9001:2015 Certified Factory
Widely used across industries such as automotive, aerospace, electronics, and manufacturing for precision cutting of materials like metal, plastic, wood, and glass. Its high accuracy makes it ideal for producing intricate designs, custom parts, and prototypes. Laser cutting is also employed in architecture, signage, and fashion for creating detailed patterns and shapes. The process offers fast production speeds, minimal waste, and the ability to cut complex geometries with high precision.
Precision, Quality and Affordability at any volume. Our team responds quickly to accommodate your needs.
• An Experienced Team with Expertise
• Advanced In-house Equipments
• Competitive Prices in the Industry
• One-To-One Collaboration & Proactive DFM
• High Complexity Machining Capability
• Industry-Leading Turnaround Times
Sheet Metal Production
Sheet metal bending is a process where pressure is applied to metal sheets using machinery to bend them into specific angles or shapes. It is widely used in industries like automotive, electronics, and construction to manufacture enclosures, brackets, and structural parts. This process works with materials such as steel, stainless steel, and aluminum, offering high precision and consistency. Bending improves product strength and rigidity, enabling the creation of complex geometries while maintaining cost efficiency and meeting diverse design requirements.
The Fabricator is a well-regarded, authoritative website focused on sheet metal fabrication. It provides industry news, technical articles, case studies, and resources on various sheet metal processing techniques, including laser cutting, bending, welding, and finishing. The site also covers topics like automation and innovations in the sheet metal industry, making it a valuable resource for professionals looking to stay informed about trends and best practices in metal fabrication.
The production process for sheet metal parts used in new energy battery packs begins with material selection, typically lightweight and durable metals such as aluminum or stainless steel. These materials are cut to precise dimensions using advanced laser cutting or CNC machines. After cutting, the metal sheets are bent and shaped using press brakes to meet the exact design specifications. Any required holes or slots are punched, and welding or fastening is performed to assemble different components.
After fabrication, the parts undergo surface treatments like powder coating or anodizing for corrosion resistance. Each part is thoroughly inspected for dimensional accuracy, surface quality, and overall integrity before packaging. For shipment, the parts are securely packed to prevent damage during transit. The shipment includes complete documentation, including quality inspection reports and material certifications, ensuring the parts meet both client specifications and international standards.
This process guarantees that the sheet metal components are durable, lightweight, and suitable for the rigorous demands of new energy battery systems.