blade Product List and Ranking from 43 Manufacturers, Suppliers and Companies

[Production Example] Non-woven Fabric Mask Manufacturing Machine Ear Strap (Ear Hook) Cutting Blade

We will introduce a case where the shape was adjusted so that the upper and lower blades of the scissors make contact at a point, improving cutting performance and extending lifespan!

We received an inquiry about the scissors-type blade used for continuously cutting the ear straps of masks in non-woven fabric mask manufacturing machines, and we would like to introduce a case we have developed. The conventional blades had issues with low durability and were prone to leaving uncut sections. Therefore, while maintaining the conventional shape, we improved the blade shape and material. For the blade material, we adopted a steel type with excellent wear resistance and adjusted the shape so that the upper and lower blades of the scissors make proper point contact, enhancing cutting performance and extending lifespan. 【Case Overview】 ■Issues - Conventional blades have low durability - Prone to leaving uncut sections ■Processing Details - Adopted a steel type with excellent wear resistance for the blade material - Adjusted the shape for proper point contact between the upper and lower blades of the scissors *For more details, please download the PDF or feel free to contact us.

Company：アルスコーポレーション
Price：Other

Cutter/Scissors

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[Production Example] Sulfur-Cured Rubber / Raw Rubber Cutting Blade

By applying a fluorine-based resin coating to the blade, we have achieved higher release properties and improved the cleanliness of the cutting surface. Here is an example!

We would like to introduce a case where we addressed concerns regarding cutting uncured rubber and raw rubber. This time, the consultation was about rubber in a sheet form. Uncured rubber has a high viscosity, making it prone to deformation, and when cut by sliding, there is a tendency for the workpiece to stick to the blade. Using a Thomson blade for a push-cut or pressing a round blade against it are effective methods. Additionally, it is important not to apply excessive force. By applying a fluorine-based resin coating to the blade, the release properties are improved, resulting in cleaner cut surfaces. 【Case Overview】 ■ Issue: Prone to deformation and tendency for the workpiece to stick to the blade when cut by sliding ■ Processing Details: Coated the blade with a fluorine-based resin ■ Result: Improved release properties, resulting in cleaner cut surfaces *For more details, please download the PDF or feel free to contact us.

Company：アルスコーポレーション
Price：Other

Cutter/Scissors

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[Production Example] Non-woven Fabric Cutting Octagonal Blade

We would like to introduce a case where an octagonal blade with an outer diameter of 200φ or more was manufactured for cutting non-woven fabric rolls!

Here is an introduction to a case where we manufactured and delivered an octagonal blade for cutting non-woven fabric used in textiles. In textile cutting applications, there are more examples of using round blades, but by using a polygonal shape, the blade engages more with the fibers, increasing straightness and allowing for more efficient cutting. In the case of polygonal blades, each edge needs to be sharpened individually, but we can accommodate special sizes and shapes. We can suggest blades suitable for your needs and applications, so please feel free to contact us with your requests. 【Case Overview】 ■ Product: Octagonal blade with an outer diameter of over 200φ ■ Purpose: Cutting non-woven fabric used in textiles *For more details, please download the PDF or feel free to contact us.

Company：アルスコーポレーション
Price：Other

Cutter/Scissors

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[Production Example] Cutting Saw Blade for Packaging Materials and Cushion Packaging Materials

We will introduce a case that reduced resistance on the blade and improved the way it penetrates the workpiece!

We would like to introduce a case where we received a request from a fiber machinery manufacturer to produce and deliver a circular blade for cutting cushioning material for packaging all at once. Since the workpiece was made of thick kraft paper, we arranged the saw blades in a V-shape to reduce the resistance on the blades compared to a straight alignment, thereby improving the penetration into the workpiece. Although the increased blade length affects the stroke length of the cylinder, this method is sometimes used for workpieces such as coated paper. 【Case Overview】 ■ Purpose - To cut cushioning material for packaging all at once ■ Processing Details - By arranging the saw blades in a V-shape, we reduced the resistance on the blades compared to a straight alignment, improving the penetration into the workpiece. *For more details, please download the PDF or feel free to contact us.

Company：アルスコーポレーション
Price：Other

Cutter/Scissors

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[Production Example] Carbide Round Blade for Cutting Film and Copper Foil Composite Material Sheets

We will introduce a case where even with blade wear, the impact on cutting performance is reduced, allowing for stable cutting even with composite materials!

We would like to introduce a case study in response to the inquiry regarding the high wear rate and frequent blade replacements of existing circular blades when cutting rolls of copper foil film at various stages of processing. We propose a carbide circular blade made from ultra-fine particle alloy, featuring a double-edged design. By altering the cutting angle at the start and the angle at the blade's base, we have reduced the impact on cutting performance even as the blade wears, enabling stable cutting even with composite materials. As a result, we have achieved more than double the lifespan compared to conventional blades, thereby reducing the frequency of replacements. [Case Overview] ■ Issue - Existing circular blades wear out quickly, leading to high replacement frequency. ■ Proposal - A carbide circular blade made from ultra-fine particle alloy with a double-edged design. *For more details, please download the PDF or feel free to contact us.

Company：アルスコーポレーション
Price：Other

Cutter/Scissors

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[Production Example] Carbide Circular Blade for Cutting Solar Panel Film

We will introduce a case where the sharp edge is maintained even after continuous cutting, allowing for a clean cut surface!

We would like to introduce a case study in response to the request to minimize the irregularities on the cutting surface during the process of cutting thin film used for solar panels into long lengths. We selected a long-lasting, high-hardness carbide circular blade and adjusted the blade angle and thickness to suit the workpiece, allowing for cutting without applying unnecessary stress to the film. Since the sharp edge is maintained even during continuous cutting, the cutting surface can be kept clean. This method can also be applied to other functional films (such as PET and EVA). 【Case Overview】 ■ Challenge - To minimize irregularities on the cutting surface during the process of cutting thin film into long lengths. ■ Processing Details - Selected a long-lasting, high-hardness carbide circular blade. - Adjusted the blade angle and thickness to suit the workpiece, allowing for cutting without applying unnecessary stress to the film. *For more details, please download the PDF or feel free to contact us.

Company：アルスコーポレーション
Price：Other

Cutter/Scissors

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[Production Example] Catheter Tube Medical Blade

We will introduce a case where the adoption of super hard materials has significantly improved the durability of the blade!

We would like to introduce a case in which we received an inquiry from a medical device manufacturer regarding the desire to "cut a silicone tube with a diameter of less than 1mm, without burrs, and at an angle." The tubes used for catheters are extremely thin and are inserted into narrow internal pathways such as blood vessels, making them critical components that require high safety standards. An angled cut expands the cross-section, so the thickness of the blade and the angle of the cutting edge are directly linked to the quality. In response, we proposed a thin-blade design of a carbide round blade, which achieved an extremely smooth cutting surface while suppressing deformation of the tube. Additionally, the use of carbide material significantly improved the durability of the blade. 【Case Overview】 ■ Challenge: To cut a silicone tube with a diameter of less than 1mm, without burrs, and at an angle ■ Proposal: Thin-blade design of a carbide round blade ■ Processing Details: Achieved an extremely smooth cutting surface while suppressing deformation of the tube ■ Result: The use of carbide material significantly improved the durability of the blade *For more details, please download the PDF or feel free to contact us.

Company：アルスコーポレーション
Price：Other

Cutter/Scissors

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[Production Example] Food Machinery Large Diameter Round Blade for Processed Meat Slicing

We will introduce a case of selecting materials with excellent corrosion resistance and manufacturing large-diameter round blades for food processing applications!

We would like to introduce a case where we received a request from a food manufacturer to produce and deliver a carbide round blade for slicing processed meat. Due to the food processing application, we previously used stainless steel blades, but we changed the material to carbide to minimize wear on the cutting edge. Since this is for food use, we selected materials that are excellent in corrosion resistance. The outer diameter is 300mm to slice large workpieces all at once. We also accept requests for special materials and large-diameter blades like this case, so please feel free to consult us. 【Case Overview】 ■ Purpose of Use - Slicing processed meat ■ Processing Details - Changed the material to carbide to minimize wear on the cutting edge - Selected materials that are excellent in corrosion resistance for food use - The outer diameter is 300mm to slice large workpieces all at once *For more details, please download the PDF or feel free to contact us.

Company：アルスコーポレーション
Price：Other

Cutter/Scissors

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[Production Example] Cutter Blade for Film Roll Width Cutting

We present a case that achieved approximately 20 times the durability compared to existing carbon steel cutter blades!

We received inquiries about extending the lifespan of blades used for cutting film rolls and would like to introduce a case we developed. The customer's current product was a carbon steel cutter blade, but due to rapid wear and high replacement frequency, we proposed a carbide blade. Compared to the existing carbon steel cutter blade, we achieved approximately 20 times the durability. Our company produces some carbide cutter blades in small quantities, allowing us to offer them with short lead times and at low prices. [Case Overview] ■ Issue: Extending the lifespan of blades used for cutting film rolls ■ Proposal: Carbide blades ■ Result: Achieved approximately 20 times the durability compared to existing carbon steel cutter blades *For more details, please download the PDF or feel free to contact us.

Company：アルスコーポレーション
Price：Other

Cutter/Scissors

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[Production Example] Special Saw Blade for Continuous Cutting of Cardboard

We will introduce examples that emphasize a smooth cutting balance, contributing to improved cutting efficiency and durability!

We would like to introduce a case in which a customer consulted us, stating, "With the current blade, frequent blade replacements are necessary, which incurs effort and cost." We proposed a saw blade optimized for the angle and shape specifically for cardboard. The pitch of the blade was set to a balanced intermediate setting, ensuring that the blade does not penetrate too deeply into the cardboard and cuts smoothly. Additionally, we optimized the angle of the blade for smooth cutting through front and back movement using a cylinder. As a result, we were able to contribute to improved cutting efficiency and durability. [Case Summary] ■ Issues - The current blade requires frequent replacements, leading to effort and cost. - We want to achieve both a clean cutting surface and minimal waste. ■ Processing Details - The pitch of the blade was set to a balanced intermediate setting, ensuring that the blade does not penetrate too deeply into the cardboard and cuts smoothly. - The angle of the blade was optimized for smooth cutting through front and back movement using a cylinder. *For more details, please download the PDF or feel free to contact us.

Company：アルスコーポレーション
Price：Other

Cutter/Scissors

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4-flute radius end mill, short blade (high hardness)

100% German materials, applicable from 45HRC to 70HRC.

1. The base material uses ultra-fine particle carbide made in Germany. 2. Base material hardness: 94HRA (HV30 = 1930N/mm²). 3. Flexural strength: over 3900N/mm² (TRS > 3900N/mm²). 4. Processed using a CNC 5-axis controlled grinding machine made by Walter in Germany. 5. ALDURA coating. 6. Recommended for high hardness and high-speed cutting processing.

Company：HKF 虹鋼富企業有限公司（HKF カッティングツール）台湾本社
Price：Other

End Mills

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4-flute square end mill long blade (high hardness)

100% German materials, applicable from 45HRC to 70HRC.

1. The base material uses ultra-fine particle carbide made in Germany. 2. Base material hardness: 94HRA (HV30 = 1930N/mm²). 3. Flexural strength: over 3900N/mm² (TRS > 3900N/mm²). 4. Processed using a CNC 5-axis controlled grinding machine made by Walter in Germany. 5. ALDURA coating. 6. Recommended for high hardness and high-speed cutting processing.

Company：HKF 虹鋼富企業有限公司（HKF カッティングツール）台湾本社
Price：Other

End Mills

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Electrode material cutting blade

Achieving both improved cutting surface quality and cost reduction!

1. High-quality cutting that suppresses burrs, coating material peeling, and leftover cuts! Cutting defects such as burrs in electrode cutting can lead to short circuits and a decline in electrode quality. Our company leverages its experience and know-how from supplying blades to other fields and cutting various electrode materials to optimize not only blade design but also cutting conditions and methods, contributing to problem-solving with a comprehensive proposal. 2. Cost reduction through our unique joining technology! Our proprietary joining technology allows for the bonding of rare metals only to the cutting edges necessary for cutting, proposing blades with minimized initial costs. Since it is not brazing, it does not use metals like copper, preventing the risk of short circuits in electrodes. Additionally, by reducing the amount of rare metals used, we create environmentally friendly products. 3. Reduced downtime through increased longevity with carbide! By adopting our joining technology, it becomes possible to use wear-resistant carbide. This leads to improved productivity by maintaining good cutting surfaces for longer and reducing downtime. We will confirm the workpiece and processing conditions and conduct cutting tests using in-house testing machines to propose suitable blade specifications and cutting methods.

Company：兼房本社・工場
Price：Other

Other cutting tools
Secondary Cells/Batteries
Lithium-ion battery

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Slitter knife lower blade

Custom and standard products for slitter knife lower blades.

For ultra-hard products, we accept orders starting from 10 pieces. Please feel free to contact us if you have any requests. *For more details, please refer to the PDF document or feel free to reach out to us.

Company：大井工業　株式會社
Price：Other

Other machine elements
cutter

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Slitter knife upper blade

Custom and standard upper blades for slitter knives.

Regarding super hard products, we accept orders starting from 10 pieces. Please feel free to contact us if you have any requests. *For more details, please refer to the PDF document or feel free to reach out to us.*

Company：大井工業　株式會社
Price：Other

Other machine elements
cutter

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blade Product List and Ranking from 43 Manufacturers, Suppliers and Companies

blade Manufacturer, Suppliers and Company Rankings

blade Product ranking