| Customization: | Available |
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| Function: | Pressed |
| Material: | Steel |
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raw materials we |
stainless steel,Music wire Carbon steel(SWC),Alloy steel SEA9260/9254/6150/SUP9/SUP10/SUP12,51CrV4,etc. |
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material diameter or thickness |
0.1~8mm |
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workcraft or process |
CNC processing, mannual work |
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surface treatment |
painting, electroplating, polishing , blacken etc |
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Applications |
Industrial facilities.automobiles, Motorcycles, electronics, Sports facilities, telecommunications products etc |
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Quality Certification |
ISO9001-2000,ISO14000 |
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Payment term |
T/T,L/C |
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Packing |
plastic bags,and then cartons , wooden or plastic |
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Shipment |
By sea from Ningbo or shanghai, by air from Shanghai or Hangzhou |
Here are some ways in which compression springs can be engineered to meet various requirements:
Load Capacity: Compression springs can be designed to withstand a wide range of loads, from very light to extremely heavy. The load capacity is determined by factors such as wire diameter, coil diameter, number of coils, and the material properties of the spring wire.
Spring Rate: The spring rate, also known as spring stiffness or spring constant, refers to the amount of force required to compress the spring by a certain distance. Compression springs can be engineered with different spring rates to suit specific applications, with stiffer springs requiring more force to compress and softer springs requiring less force.
Free Length and Solid Height: The free length of a compression spring is the length of the spring when it is not under any load, while the solid height is the length of the spring when fully compressed. These dimensions can be adjusted to meet space constraints or specific requirements for deflection and travel distance.
Materials: Compression springs can be made from a variety of materials, including high-carbon steel, stainless steel, music wire, and various alloys. The choice of material depends on factors such as strength, corrosion resistance, temperature resistance, and cost considerations.
End Configurations: The ends of compression springs can be configured in different ways to suit specific mounting or attachment requirements. Common end configurations include closed and ground ends, open ends, squared ends, or specially designed ends for easy installation or connection to other components.
Surface Finish: The surface finish of compression springs is important for ensuring smooth operation and preventing premature wear or corrosion. Proper surface finishing techniques can be employed to achieve the desired surface texture and protection against environmental factors.
Special Coatings and Treatments: Compression springs can be coated or treated with various materials to enhance their performance and durability. This may include coatings for corrosion resistance, lubrication for reduced friction, or heat treatments for improved strength and fatigue resistance.
Because of their versatility, compression springs can be used in many applications, including:
Compression springs are undoubtedly used in our everyday lives, everyday products, machines, etc.
Major original equipment manufacturers (OEMs) that produce products for various industries use compression springs in many of their products.
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