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Quenching Product List and Ranking from 35 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Aug 06, 2025~Sep 02, 2025
This ranking is based on the number of page views on our site.

Quenching Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Aug 06, 2025~Sep 02, 2025
This ranking is based on the number of page views on our site.

  1. 富士高周波工業 Osaka//Manufacturing and processing contract
  2. 横浜高周波工業 Kanagawa//Manufacturing and processing contract 本社工場
  3. カナプレスト Wakayama//Manufacturing and processing contract 本社
  4. 富士電子工業 Osaka//Industrial Machinery
  5. 5 ネツレン 高周波熱錬株式会社 Tokyo//Machine elements and parts
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Quenching Product ranking

Last Updated: Aggregation Period:Aug 06, 2025~Sep 02, 2025
This ranking is based on the number of page views on our site.

  1. Measures against soft zones using laser hardening 富士高周波工業
  2. High-frequency hardening 横浜高周波工業 本社工場
  3. It's too late to ask now! Basic knowledge of high-frequency hardening. カナプレスト 本社
  4. Netsuren "Induction Heating Equipment" High-Frequency Hardening ネツレン 高周波熱錬株式会社
  5. 4 [Processing Technology] Flame Hardening (Frame Hard) 遠州熱研

Quenching Product List

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Screw Strengthening Manual (Vol. 41) Sometimes it can be partially hardened!

Screw Strengthening Manual (Vol. 41) Sometimes it can be partially hardened!

Introducing a method to heat only the surface of materials that can be hardened, in a blog format!

This time, I will talk about high-frequency hardening. It is a heat treatment method where a copper wire coil, called a high-frequency coil, is wrapped around a product that you want to harden, and heat is applied by passing an electric current to harden only the surface. While one might think that general heat treatments like quenching or annealing would suffice for hardening, there are valid reasons for choosing high-frequency hardening. *For more detailed content, you can view it through the related links. Please feel free to contact us for more information.*

  • Other consumables

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[Processing Report] Hardening of S45C Cam

[Processing Report] Hardening of S45C Cam

Introducing laser hardening that leverages the features of S45C!

This report introduces "Laser Hardening of S45C." S45C is a material that has a high carbon content, making it prone to welding cracks and difficult to weld. However, the high carbon content can be utilized through the hardening process. Laser hardening is suitable for parts with special shapes, such as egg shapes, blocks, or the edges of cutting tools, where partial hardness and wear resistance are required. 【Overview】 ■ Material: S45C ■ Test Processing: Hardening of S45C egg-shaped plate (t=7.0mm) ■ Results: Hardness before hardening approximately HV200 → Hardness after hardening approximately HV650 *For more details, please refer to the PDF document or feel free to contact us.

  • Welding Machine
  • Processing Contract
  • Prototype Services

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To suppress distortion and increase surface hardness, nitriding hardening is used.

To suppress distortion and increase surface hardness, nitriding hardening is used.

Compared to carbonization, deformation and dimensional changes are minimal!

- It is possible to achieve a surface hardness of 800 HV or higher even with low carbon steel. - The amount of gas used is about 1/10 of that for gas nitriding. - There is a high resistance to temper softening. - The finish is better compared to carburizing and similar processes. - Corrosion resistance is better than that of carburizing.

  • Processing Contract

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High-frequency hardening

High-frequency hardening

High-frequency quenching

Our company aims to improve technology by accumulating a vast amount of processing data, such as the shape of processed items, frequency, and the depth of heat treatment layers, and we will respond to all customer needs, including the creation of custom coils.

  • Processing Contract
  • Surface treatment contract service

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Salt quenching

Salt quenching

Salt hardening

We heat and dissolve salt bath agents made from raw materials with different melting points (such as nitrates and barium chloride) depending on the application, and process the products within that solution.

  • Processing Contract

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What is high-frequency hardening?

What is high-frequency hardening?

Introduction to quenching using high-frequency induction heating, a technology that has been around for a long time and was also used by swordsmiths.

First, "quenching" is a heat treatment technique that involves rapidly heating steel components and then cooling them quickly in water or other mediums, making the components hard and strong. The process of quenching using high-frequency induction heating is called "high-frequency quenching." While hardening steel components can make them brittle, applying quenching only to the surface while leaving flexibility in the interior (maintaining a state where the outside is hard and the inside is soft) can enhance strength. 【Features】 ■ Hardens and strengthens components by rapidly heating steel parts and then cooling them quickly in water or other mediums. ■ Improves strength by applying quenching only to the surface and retaining flexibility in the interior. *For more details, please refer to the PDF document or feel free to contact us. ★ For inquiries by phone, please call: Osaka Headquarters → TEL: 072-991-1361 Nagoya → TEL: 052-322-1361 Tokyo → TEL: 03-5472-1361 *When calling, please mention "Ipros was seen." Operating hours: Monday to Friday, from 9 AM to 5 PM.

  • Processing Contract

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The relationship between high-frequency hardening and other heat treatments.

The relationship between high-frequency hardening and other heat treatments.

Due to the short processing time, the cycle time is also reduced! It is a quenching method that consumes less energy and has excellent controllability.

We would like to introduce the relationship between our high-frequency quenching and other heat treatment methods. High-frequency quenching can be considered an efficient heat treatment method due to its short processing time, resulting in minimal distortion. Because the processing time is short, the cycle time can also be reduced. The equipment cost is comparable to that of nitriding treatment, but it achieves a deeper hardened layer. Additionally, because it consumes less energy, running costs can be saved. 【Features】 ■ Efficient with minimal distortion due to short processing time ■ Reduced cycle time ■ Equipment cost is comparable to nitriding treatment, but achieves a deeper hardened layer ■ Lower energy consumption leads to cost savings ■ Excellent controllability *For more details, please refer to the PDF document or feel free to contact us. ★ For inquiries by phone, please call: Osaka Headquarters → TEL: 072-991-1361 Nagoya → TEL: 052-322-1361 Tokyo → TEL: 03-5472-1361 *When calling, please mention "Ipros" for reference. Operating hours: Monday to Friday, 9 AM to 5 PM.

  • Processing Contract

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[Case Study 4 on Heat Treatment Challenges] A must-see for those struggling with tolerances due to distortion!

[Case Study 4 on Heat Treatment Challenges] A must-see for those struggling with tolerances due to distortion!

Control over the total process is necessary for distortion! The factors causing dimensional changes are various.

In recent years, the precision required for parts has become more advanced, and it is not uncommon for tolerances in drawings to be specified at less than a micron. Incorporating dimensional tolerances is a challenge, but when heat treatment is applied, dimensional changes will inevitably occur to some extent. There are various factors involved, but broadly speaking, two main causes can be identified: "dimensional changes due to the release of residual stress" and "dimensional changes due to structural transformation." It would be simple if we could just set a grinding allowance and achieve the dimensions in the final process, but a larger grinding allowance increases the amount of work required, and there are some features, such as knurling or surfaces with subtle angles, that are difficult to correct. Control over distortion requires a total process approach, and our company is engaged in efforts and development to minimize distortion for various parts. In particular, when changing processes from atmospheric treatment to high-frequency quenching, significant effects can be expected. If you are facing issues with distortion, please feel free to consult us. *For more details, please refer to the PDF materials or feel free to contact us.*

  • others

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Seven Differences Between Laser Hardening and High-Frequency Hardening

Seven Differences Between Laser Hardening and High-Frequency Hardening

Explaining the differences between laser hardening and high-frequency hardening classified into seven categories! Introducing heating methods and hardening ranges.

This document is a technical report introducing the seven differences between laser hardening and high-frequency hardening. While high-frequency hardening and laser hardening are very similar techniques for surface treatment known as partial hardening, there are various differences in the heating process, cooling process, and quality control items for hardening. By understanding the differences in each technique, it becomes possible to effectively differentiate between the two technologies. This document categorizes and explains these differences into "seven" points. Please take a moment to read it. [Contents] ■ Introduction ■ Seven Differences Between Laser Hardening and High-Frequency Hardening ■ Conclusion *For more details, please refer to the PDF document or feel free to contact us.

  • Processing Contract

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Tips for Setting Laser Hardening Conditions

Tips for Setting Laser Hardening Conditions

Introducing differences based on the state of work! Explaining tips for setting conditions for laser hardening!

This document is a technical report that discusses tips for setting laser hardening conditions. Typical parameters for laser hardening include laser output, travel speed, spot diameter, and irradiation angle. It explains how variations in each of these parameters affect the quality of heat treatment. Additionally, it notes that factors influencing heat treatment quality are not limited to the equipment and laser side, but also include the surface condition of the workpiece and its thickness. By understanding these fundamental aspects, insights into setting laser hardening conditions can be gained. We encourage you to read it. [Contents] ■ Introduction ■ Relationship between laser parameters and heat treatment quality ■ Differences based on the condition of the workpiece ■ Conclusion *For more details, please refer to the PDF document or feel free to contact us.

  • Processing Contract

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Laser Hardening Case Studies Vol. 01-10

Laser Hardening Case Studies Vol. 01-10

A collection of laser hardening case studies addressing various projects with top-class domestic facilities.

We will introduce examples of laser hardening that prevents distortion and cracking, making it possible to harden precision parts and complex-shaped components. 【Example Lineup】 ■ M1 Gear One Tooth One Shot Laser Hardening ■ Eyebrow Type Piston A Laser Hardening ■ Fan-Shaped Plate Laser Hardening ■ 100mm Width Laser Hardening ■ M1.5 Small Gear Tooth Surface Movement Laser Hardening ■ High-Frequency Hardened Shaft Key Groove Bottom Surface Laser Hardening ■ Roller Sliding Surface Laser Hardening ■ Small Punching Die Laser Hardening ■ Thin-Walled Roller Laser Hardening ■ Scroll Cam Laser Hardening

  • Processing Contract

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Shaft machining examples

Shaft machining examples

We would like to introduce our company's "shaft" processing examples.

【High-Frequency Hardening Case Lineup】 ■ Intermediate Joint High-Frequency Hardening ■ φ150 Shaft High-Frequency Hardening ■ Large Shaft High-Frequency Hardening 【Laser Hardening Case Lineup】 ■ High-Frequency Hardened Shaft Keyway Bottom Laser Hardening ■ Rotating Shaft Laser Hardening ■ Spindle Laser Hardening ■ Small Diameter Ball Screw Keyway Laser Hardening ■ Piston Shaft Laser Hardening ■ Thin-Walled Hollow Bolt Spiral Laser Hardening ■ Large Tapered Roll Laser Hardening 【Laser Cladding Case Lineup】 ■ High-Speed Laser Cladding ■ Shaft with Keyway Laser Cladding ■ Repair Laser Cladding for Shaft with Keyway ■ Center Pin Laser Cladding Repair

  • Processing Contract

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Plate processing examples

Plate processing examples

We would like to introduce our company's "plate" processing examples.

【High-Frequency Hardening Case Lineup】 ■ L-Shaped Plate High-Frequency Hardening 【Laser Hardening Case Lineup】 ■ Fan-Shaped Plate Laser Hardening ■ L1200×10t Plate Laser Hardening ■ Knurled Surface Laser Hardening ■ Truck Plate Tip Laser Hardening ■ Wide Laser Cladding ■ Drill Hole Laser Cladding Repair

  • Processing Contract

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Other shape processing examples

Other shape processing examples

We would like to introduce examples of our "other shapes" processing.

【High-Frequency Hardening Case Lineup】 ■ Gripper Pit High-Frequency Hardening 【Laser Hardening Case Lineup】 ■ Eyebrow Type Piston A Laser Hardening ■ Complex Shape Block Laser Hardening ■ Head Wrench Mounting Part Laser Hardening ■ Convex End Face Laser Hardening ■ Stopper Tip Laser Hardening ■ Taper Cone Outer Circumference Laser Hardening ■ Chuck Raw Jaw Laser Hardening ■ Small Holder Laser Hardening 【Laser Cladding Case Lineup】 ■ Wide Laser Cladding

  • Processing Contract

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高周波焼入れ事例集 Vol.01〜13

高周波焼入れ事例集 Vol.01〜13

単品、量産、試作、大型品まで自社製コイルで対応する高周波焼入れ事例集

耐摩耗性、疲れ強さ、じん性の向上を目的とした鋼の表面硬化法として広く活用されている高周波焼入れの事例をご紹介します。 【事例ラインアップ】 ■ヘリカルギヤ一歯移動歯先高周波焼入れ ■Φ720ギヤ歯底一発高周波焼入れ ■L字プレート高周波焼入れ ■中間ジョイント高周波焼入れ ■スピンドルインターナルギヤ高周波焼入れ ■リングガイドウェイ高周波焼入れ ■ウォーム軸一歯回転高周波焼入れ ■φ150シャフト高周波焼入れ ■大型レバー高周波焼入れ ■ラックギヤ高周波焼入れ ■グリッパーピット高周波焼入れ ■大型シャフト高周波焼入れ ■大型リング溝高周波焼入れ

  • Metal bearings
  • Processing Contract

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