VSR-38D
FSE
SV.010804
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Ratchet Crimping Pliers for Non-Insulated Terminals:
Designed for versatility and precision, these crimping pliers are capable of handling a wide range of non-insulated terminals, delivering consistent and high-quality crimps across various sizes. Ideal for professionals seeking reliable and efficient tools.
Crimping Tool Specifications:
Applicable End Sleeve Range: | 10-50mm² |
Versatile Tool: | For double-crimping of non-insulated disconnectors |
Self-Adjusting Die: | Automatically adapts to the correct ferrule size. |
Crimping Style: | Double-roll crimping. Point type. |
Adjustable Pressure: | Allows fine-tuning of the crimping force. |
Ratchet System: | Ensures the crimping process is fully completed before releasing. |
Ergonomically Designed Handles: | Double-component construction for comfortable grip. |
Weight: | 650g |
Total Length: | 335mm |
This tool jaw is made using forging technology. The following forging process is introduced, and you will know why we chose forging technology to make this jaw.
Forging process is a machining method that changes the shape and structure of metal materials by placing them at high temperatures and applying pressure. This process is commonly used to manufacture high-strength, high-precision metal parts, with the following characteristics:
High strength and wear resistance: Through forging process, the grain structure of metal materials is rearranged, resulting in an increase in density and refinement of grains, thereby improving the strength and wear resistance of the parts.
High precision: Forging technology can achieve precise forming of metal materials and produce parts with complex shapes and precise dimensions, meeting the engineering requirements of high precision.
Material saving: Compared to other processing methods, forging technology can effectively save materials, reduce waste generation, and improve material utilization.
Improving material properties: By using forging technology, the mechanical properties of metal materials can be improved, such as increasing hardness, ductility, toughness, etc., making the parts more durable and stable.
High production efficiency: Forging technology has the characteristic of high efficiency, which can quickly complete large-scale production, improve production efficiency, and reduce production costs.
Overall, forging technology plays an important role in the manufacturing industry, producing high-quality and high-performance metal parts that are widely used in fields such as automotive, aerospace, and mechanical manufacturing. Through continuous technological innovation and process improvement, forging technology will continue to play an important role in meeting the demand for high-quality parts in different industries.
Ratchet Crimping Pliers for Non-Insulated Terminals:
Designed for versatility and precision, these crimping pliers are capable of handling a wide range of non-insulated terminals, delivering consistent and high-quality crimps across various sizes. Ideal for professionals seeking reliable and efficient tools.
Crimping Tool Specifications:
Applicable End Sleeve Range: | 10-50mm² |
Versatile Tool: | For double-crimping of non-insulated disconnectors |
Self-Adjusting Die: | Automatically adapts to the correct ferrule size. |
Crimping Style: | Double-roll crimping. Point type. |
Adjustable Pressure: | Allows fine-tuning of the crimping force. |
Ratchet System: | Ensures the crimping process is fully completed before releasing. |
Ergonomically Designed Handles: | Double-component construction for comfortable grip. |
Weight: | 650g |
Total Length: | 335mm |
This tool jaw is made using forging technology. The following forging process is introduced, and you will know why we chose forging technology to make this jaw.
Forging process is a machining method that changes the shape and structure of metal materials by placing them at high temperatures and applying pressure. This process is commonly used to manufacture high-strength, high-precision metal parts, with the following characteristics:
High strength and wear resistance: Through forging process, the grain structure of metal materials is rearranged, resulting in an increase in density and refinement of grains, thereby improving the strength and wear resistance of the parts.
High precision: Forging technology can achieve precise forming of metal materials and produce parts with complex shapes and precise dimensions, meeting the engineering requirements of high precision.
Material saving: Compared to other processing methods, forging technology can effectively save materials, reduce waste generation, and improve material utilization.
Improving material properties: By using forging technology, the mechanical properties of metal materials can be improved, such as increasing hardness, ductility, toughness, etc., making the parts more durable and stable.
High production efficiency: Forging technology has the characteristic of high efficiency, which can quickly complete large-scale production, improve production efficiency, and reduce production costs.
Overall, forging technology plays an important role in the manufacturing industry, producing high-quality and high-performance metal parts that are widely used in fields such as automotive, aerospace, and mechanical manufacturing. Through continuous technological innovation and process improvement, forging technology will continue to play an important role in meeting the demand for high-quality parts in different industries.