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Emax
Product Description:
Production and Uses of Stainless Steel Stamping Clips
Metal stamping technology is at the center of stainless steel clip manufacturing. This technology involves using precision progressive dies to shape stainless steel sheets quickly, making mass production of high-precision, identical clips possible. Production takes four essential steps: First, designing progressive dies specific to clip requirements to combine bending, punching, and cutting in a single step. Second, using raw materials such as Grade 304 or 316 stainless steel, which are renowned for their corrosion resistance and mechanical properties. Third, production of the clips at 200–800 strokes per minute on high-speed pressing equipment. Finally, secondary operations like deburring and electropolishing end up providing mirror-like surface finish with surface roughness below Ra0.8μm.
Stainless clips are ubiquitous in industries. They find applications in the production of automobiles for retention of automotive wiring harness due to their resistance to heat up to 800°C. Grade 316L clips are utilized in electronic devices to supply stable conductivity for grounding gadgets.
Architecturally, they are utilized to withstand over 20 years of salt spray exposure along the coast. Their usage extends to medical usage with recent advances, where passivated clips meeting ISO 13485 standards are utilized in reusable surgical instruments.
Major competitive advantages include: <1mm-thick walls with greater than 20kg tensile strength, 70% lower in cost when compared to the machined varieties, and abrasion-free sealed cable constructions. Intelligent manufacturing-focused, RFID-ready clips now provide real-time monitorable assembly tracking, a move toward digitalized industrial fasteners.
Email: nurul@emaxmetal.com
Product Description:
Production and Uses of Stainless Steel Stamping Clips
Metal stamping technology is at the center of stainless steel clip manufacturing. This technology involves using precision progressive dies to shape stainless steel sheets quickly, making mass production of high-precision, identical clips possible. Production takes four essential steps: First, designing progressive dies specific to clip requirements to combine bending, punching, and cutting in a single step. Second, using raw materials such as Grade 304 or 316 stainless steel, which are renowned for their corrosion resistance and mechanical properties. Third, production of the clips at 200–800 strokes per minute on high-speed pressing equipment. Finally, secondary operations like deburring and electropolishing end up providing mirror-like surface finish with surface roughness below Ra0.8μm.
Stainless clips are ubiquitous in industries. They find applications in the production of automobiles for retention of automotive wiring harness due to their resistance to heat up to 800°C. Grade 316L clips are utilized in electronic devices to supply stable conductivity for grounding gadgets.
Architecturally, they are utilized to withstand over 20 years of salt spray exposure along the coast. Their usage extends to medical usage with recent advances, where passivated clips meeting ISO 13485 standards are utilized in reusable surgical instruments.
Major competitive advantages include: <1mm-thick walls with greater than 20kg tensile strength, 70% lower in cost when compared to the machined varieties, and abrasion-free sealed cable constructions. Intelligent manufacturing-focused, RFID-ready clips now provide real-time monitorable assembly tracking, a move toward digitalized industrial fasteners.
Email: nurul@emaxmetal.com
