浜松熱処理工業 List of Products and Services

"Heat treatment" breathes life into processed steel components, providing them with the hardness and strength necessary to withstand practical use as machine parts. By performing various heat treatments such as quenching and tempering, annealing, and normalizing, we can achieve a range of characteristics tailored to specific purposes, whether softening, hardening, or toughening the material. In other words, heat treatment involves improving the properties of metals by accurately controlling the application and removal of heat, as well as the temperature and time. 【Sales Items (Partial)】 ■ Gas carburizing ■ Carburizing and nitriding ■ LODIQ ■ LODIQ-AS ■ LODIQ-N *For more details, please download the PDF or feel free to contact us.

• Processing Contract
• Surface treatment contract service

We would like to introduce our "Research and Analysis" services. We possess analytical equipment for quality control/assurance in heat treatment, FPP, etc. Services are also available for a fee. Using X-ray diffraction analysis equipment, we conduct residual stress measurements and residual austenite percentage measurements. Additionally, we perform surface observation (SEM) and simple elemental analysis (EDS) using a scanning electron microscope. 【Features of each measurement using X-ray diffraction】 ■ Non-destructive analysis ■ Sample collection data up to several tens of microns in depth ■ Local residual stress analysis of small portions of the sample is possible *For more details, please download the PDF or feel free to contact us.

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"Shot peening" is a cold working method in which hard small balls, called shot materials, with a particle size of approximately 40μm to 1.3mm are accelerated and sprayed onto the workpiece at high speed using a projection device, causing them to collide with the surface. "FPP (fine particle peening)" is a type of shot peening that uses very small shot materials with a particle size of less than 0.2mm, and is projected onto the workpiece at significantly higher speeds than conventional shot peening, distinguishing it from the standard shot peening that uses larger shot materials. In addition, "barrel polishing" utilizes the relative friction between the workpiece, media (abrasive stones, abrasives), and compounds (polishing aids) to address various finishing purposes such as deburring, scale removal, rounding edges, smooth finishing, and gloss finishing for machined parts, pressed parts, sintered parts, and heat-treated parts. [Characteristics (partial)] ■ High compressive residual stress is imparted to the surface layer ■ Hardness is improved due to the combined effects of work hardening, grain refinement, and processing-induced martensitic transformation, among others. *For more details, please download the PDF or feel free to contact us.

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"Plasma nitriding treatment" is a method that utilizes glow discharge to ionize a small amount of mixed gas of N2 and H2 introduced into the furnace, and nitrides the treated items with the ionized N ions. A compound layer of iron nitrides is formed on the product surface, enhancing wear resistance, fatigue strength, and corrosion resistance. Furthermore, if sputtering is performed to collide H ions with the product surface before nitriding to clean nitriding inhibitors, nitriding can be achieved even for steel types that cannot undergo conventional ammonia gas nitriding due to strong passive films like stainless steel. The greatest advantage compared to other nitriding methods is the ability to partially cover the treated items with fixtures and block the glow discharge, allowing for localized prevention of nitriding. [Characteristics (partial)] ■ Applicable steel types: all iron-based metals ■ The ions clean the surface, suppressing the formation of surface embrittlement layers, resulting in a smooth finish that eliminates the need for post-processing. ■ A wide range of nitriding temperatures can be selected according to the application of the product, and processing at low temperatures minimizes thermal distortion. *For more details, please download the PDF or feel free to contact us.

• Processing Contract
• Plasma surface treatment equipment

The "Iso-Nite treatment method" is an improved version of salt bath nitriding treatment introduced in Japan by Hamamatsu Heat Treatment Industry and its group company, Nippon Parkerizing Co., Ltd. The main features are that it can be applied to any type of steel, and due to the low-temperature treatment, there is extremely little dimensional change, allowing for processing in a short time (0.5 to 3 hours). By immersing in a salt bath agent at 580°C, a compound layer is formed on the surface, with a diffusion layer beneath it. By applying "Iso-Nite treatment" to steel materials, their lifespan is significantly improved. Additionally, a treatment method called "QPQ," which makes the Iso-Nite treatment even more effective, has also been established. 【Characteristics (partial)】 ■ Applicable steel types: carbon steel, alloy steel, cast iron, stainless steel, high alloy steel, sintered metals, and all ferrous metals ■ Fatigue strength is significantly improved ■ Dimensional and precision changes are extremely minimal ■ Strong wear resistance *For more details, please download the PDF or feel free to contact us.

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"Gas soft nitriding treatment" involves heating products placed in a furnace to 530-600°C in a mixed gas atmosphere of NH3, N2, and CO2. Nitriding is performed using the nitrogen component derived from the decomposition of NH3, while carburizing is conducted using the carbon component derived from the decomposition of CO2, resulting in the formation of a compound layer coating made of iron carbonitrides approximately 5-20μm thick on the product surface. The generated compound layer is dense and possesses high hardness along with moderate toughness, primarily contributing to improved wear resistance of the component surface. Additionally, by covering the surface with the compound layer, corrosion resistance is also enhanced. Furthermore, by performing oil cooling after gas soft nitriding, a solid solution nitrogen diffusion layer is created approximately 0.5mm deep beneath the compound layer, which is effective in improving fatigue strength. 【Characteristics (partial)】 ■ Applicable steel types: low carbon steel, carbon steel, alloy steel, cast iron, sintered steel, etc. (excluding stainless steel) ■ Capable of accommodating shapes unsuitable for isonitride due to salt clogging, such as deep holes, blind holes, and fine holes ■ The surface is less prone to scaling, and surface roughness is minimized, resulting in a clean and smooth appearance finish. *For more details, please download the PDF or feel free to contact us.

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We would like to introduce our heat treatment process of "gas carburizing and carburizing nitriding." "Gas carburizing" involves heating steel materials to approximately 900 to 940°C in an atmosphere of endothermic gas primarily composed of CO, N2, and H2, with the addition of enriching gases such as butane and propane, allowing carbon to penetrate the surface of the material. This is followed by quenching to harden the material. On the other hand, "carburizing nitriding" is a process where carbon and nitrogen are simultaneously penetrated into the surface of steel at a lower temperature of approximately 800 to 880°C compared to standard gas carburizing, followed by quenching to harden the material. 【Characteristics of Gas Carburizing】 ■ Applicable steel types: Low carbon alloy steels such as skin-hardening steels (SCM, SCr, SNCM, etc.) ■ Achieves a thick surface hardening layer while ensuring high toughness internally ■ Depth of hardening layer and surface hardness can be adjusted according to requirements ■ Several types of quenching oils can be selected based on internal hardness and component shape ■ The surface has a smooth finish with a light gray color (in the case of low-temperature tempering) ■ Improves wear resistance, impact strength, and fatigue strength *For more details, please download the PDF or feel free to contact us.

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LODIQ (Low Distortion Quenching) is our unique surface heat treatment method that fills the gap between "soft nitriding" and "carburizing hardening (carburizing nitriding)." It addresses issues such as "normal soft nitriding does not provide sufficient strength" and "normal carburizing (carburizing nitriding) results in excessive thermal distortion." Additionally, while maintaining the low distortion characteristics of LODIQ, we have achieved an increase in the strength of alloy steel with "LODIQ-AS," and we also offer "LODIQ-N," which allows for arbitrary changes in the compound layer composition to enable strengthening according to specific objectives. **Characteristics of LODIQ-AS** - Significantly reduces heating distortion and hardening distortion through ultra-low temperature treatment. - Increases resistance to temper softening of the re-surface, improving anti-seizing and anti-pitting properties. - Enhances effective hardened layer depth, internal hardness, and fatigue strength for low carbon steel LODIQ. - Enables the omission of finishing processes due to the suppression of abnormal grain boundary oxidation layers and the low distortion effect. *For more details, please download the PDF or feel free to contact us.*

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This technology is a nitriding treatment method that maintains the low distortion characteristic of nitriding while allowing for arbitrary changes in the compound layer composition to enable enhancements according to specific purposes. The composition of ε(Fe2-3N), which is typical for gas soft nitriding, achieves hardness with its hexagonal crystal lattice but has the property of being brittle due to its high porosity. Therefore, this technology generates a compound layer with the composition of γ’(Fe4N), which significantly reduces porosity by increasing γ’, imparting excellent fatigue strength and wear resistance characteristics. 【Features】 ■ Strengthening of the compound layer from gas soft nitriding ■ Improved fatigue strength and wear resistance ■ Low distortion, a benefit of nitriding, is maintained ■ Arbitrary changes in compound layer composition allow for enhancements according to specific purposes ■ Effective for improving fatigue in high alloy steels like SKD molds, where embrittlement of the compound layer is a concern *For more details, please refer to the PDF document or feel free to contact us.

• others

This technology is an ultra-low temperature carburizing and nitriding quenching process that achieves both low distortion and high strength through our unique atmosphere/temperature control technology. It has lower distortion than carburizing and nitriding and higher strength than soft nitriding. It allows for a significant increase in strength compared to conventional soft nitriding. It addresses issues such as insufficient strength in conventional soft nitriding and excessive thermal distortion in conventional carburizing (carburizing and nitriding). 【Features】 ■ Lower distortion than carburizing quenching ■ Higher strength than soft nitriding ■ Improved internal hardness ■ Capable of bridging the gap between "soft nitriding" and "carburizing quenching (carburizing and nitriding)" ■ Achieves both low distortion and high strength *For more details, please refer to the PDF document or feel free to contact us.

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Our company conducts "gas carburizing treatment" in an atmosphere enriched with gases such as butane and propane, using endothermic transformation gas (RX gas) primarily composed of CO, N2, and H2. We heat steel materials to approximately 900 to 940°C, allowing carbon to penetrate the surface and then quenching to harden the material. After machining low carbon steel and low carbon low alloy steel with good workability into component shapes, we can create a hard and tough carburized hardened layer on the surface. 【Characteristics】 ■ Applicable steel types: case-hardened steel (low carbon alloy steels such as SCM, SCr, SNCM, etc.) ■ Achieves a thick surface hardened layer while ensuring high toughness internally ■ Depth of hardened layer and surface hardness can be adjusted according to requirements ■ Several types of quenching oil can be selected based on internal hardness and component shape ■ The surface has a smooth finish with a light gray color (in the case of low-temperature tempering), etc. *For more details, please download the PDF or feel free to contact us.

• Heating device
• Processing Contract