coating Product List and Ranking from 342 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Mar 18, 2026~Apr 14, 2026
This ranking is based on the number of page views on our site.

coating Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Mar 18, 2026~Apr 14, 2026
This ranking is based on the number of page views on our site.

  1. イデア Hyogo//Trading company/Wholesale
  2. TOAシブル Chiba//Other construction industries
  3. ゆはかのこ Saitama//Service Industry
  4. 日本ビソー Tokyo//Other construction industries
  5. 5 G-POWER Tokyo//Building materials, supplies and fixtures manufacturers
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coating Product ranking

Last Updated: Aggregation Period:Mar 18, 2026~Apr 14, 2026
This ranking is based on the number of page views on our site.

  1. Solvent Recycler イデア
  2. Powerful anti-rust coating agent "Guard Scepter 101P" TOAシブル
  3. Elevator construction gondola | Covers all concerns during construction 日本ビソー
  4. 4 Glass Coating G-POWER 88 G-POWER
  5. 5 Solvent Recycler 日本ジェット・オン 本社

coating Product List

511~540 item / All 1058 items

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WPC treatment <Extension of lifespan for metal parts and molds>

WPC treatment <Extension of lifespan for metal parts and molds>

The dimples on the processed surface form oil reservoirs and significantly improve friction and wear characteristics!

"WPC processing" is a type of cold working that involves high-speed collisions of fine particles (media) measuring several tens of micrometers against the surface of metals, forming countless tiny dimples while simultaneously strengthening only the surface layer. This process enhances fatigue strength by introducing compressive residual stress and refining the crystal grains. As a result, it is increasingly being used as a surface modification technology to improve strength and functionality in various metal products such as machine parts, cutting tools, and molds. [Added Surface Functions] ■ Lubricity ■ Release properties ■ Fluid control ■ Durability ■ Optical properties *For more details, please download the PDF or feel free to contact us.

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WPC processing <Powder adhesion suppression>

WPC processing <Powder adhesion suppression>

Improved powder flow, 1.2 to 2.0 times better permeability! Reduces maintenance and replacement hassle due to mesh clogging.

"WPC processing" stands for Wide Peening Cleaning and is a type of shot peening (impact method). It doubles the passability by improving slip properties, reduces clogging, and minimizes material loss. It suppresses adhesion and allows for easy cleaning with air. It forms uneven surfaces and reduces contact area. In other words, since it is not a coating, you can use it with confidence. 【Benefits】 ■ Increases productivity ■ Improves yield ■ Reduces cleaning time ■ Cuts labor and utility costs ■ Measures against foreign matter contamination *For more details, please download the PDF or feel free to contact us.

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[Data] Extension of rolling fatigue life due to DLC coating

[Data] Extension of rolling fatigue life due to DLC coating

Examination of the changes in the metal structure of the surface layer of the metal substrate under DLC film formation!

This document is a research paper on the extension of rolling fatigue life due to DLC coating. The experimental methods are explained in sections including sample preparation, evaluation of film properties, fatigue testing, and evaluation of fatigue test samples, along with the experimental results, discussions, and conclusions. Currently, in the automotive parts sector, lightweight design and friction reduction aimed at improving fuel efficiency are urgent challenges, and the power transmission systems, including gears for transmissions, are also being targeted for miniaturization, weight reduction, and low friction. [Contents] ■ Introduction ■ Experimental Methods ■ Experimental Results ■ Discussion ■ Conclusion *For more details, please download the PDF or feel free to contact us.

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  • coating

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Fluororesin (Teflon) coating

Fluororesin (Teflon) coating

Can be applied to the inside of pipes with an inner diameter of just 1mm! Excellent in lubrication, corrosion resistance, and release properties, making it suitable for a wide range of applications from kitchen equipment to aerospace equipment.

Our fluoropolymer (Teflon) coating has a wealth of experience, particularly with small products. It can be applied to the inside of pipes with an inner diameter of just 1mm, so if you have any processing requests that other companies have declined, please feel free to consult us. Fluoropolymers possess excellent physical, chemical, and electrical properties that cannot be obtained with other industrial materials, and their applications range widely from everyday kitchen appliances to space equipment. 【Features】 - Can be applied to the inside of pipes with an inner diameter of 1mm - Excellent lubrication, corrosion resistance, and release properties - Wide range of applications from household kitchen appliances to space equipment *For more details, please contact us or download the PDF.

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【Basic Knowledge】What is fluoropolymer coating?

【Basic Knowledge】What is fluoropolymer coating?

Fluororesin (also known as Teflon) has various properties, but in short, it is particularly stable against heat.

Fluororesins possess excellent properties such as physical, chemical, and electrical characteristics that cannot be obtained with other industrial materials. Their applications are diverse, ranging from household cooking appliances to cutting-edge space equipment. 【Types of Fluororesins】 ■ PTFE (Polytetrafluoroethylene) ■ PFA (Perfluoroalkoxy polymer) ■ FEP (Fluorinated ethylene propylene copolymer) ■ ETFE (Ethylene tetrafluoroethylene copolymer) ■ ECTFE (Ethylene chlorotrifluoroethylene copolymer) *For more details, please download the PDF document or feel free to contact us.

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Fluororesin (Teflon) coating on the inner surface of ultra-thin pipes.

Fluororesin (Teflon) coating on the inner surface of ultra-thin pipes.

Because the pipe is thin, we can solve the problem of the adhesive clogging or corroding in a short time!

The evolution of technology continues to bring about increasingly high-precision techniques, as well as ongoing challenges. At Daito Kasei, we are developing new technologies every day to meet such demands.

  • Water and sewerage pipe fittings
  • coating

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Fluororesin coating for non-metal materials.

Fluororesin coating for non-metal materials.

Can it meet all applications other than fluororesin coating?

The evolution of technology continues to increase high-precision techniques. At the same time, challenges continue to grow alongside technological advancements. At Daito Kasei, we are developing new technologies every day to meet such demands.

  • Heating and cooling equipment and facilities
  • coating

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Re-coating of fluororesin

Re-coating of fluororesin

Fluororesin coatings can be recoated multiple times.

The fluoride resin coating that has lost its effectiveness can be stripped off once and then recoated.

  • Heating and cooling equipment and facilities
  • coating

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Fluororesin coating "Main products required"

Fluororesin coating "Main products required"

Introducing the main products that require fluororesin coatings and examples of applications by product!

Here are the main products that require fluororesin coating. 【Food Manufacturing】 ■Non-stick - Mochi: rollers, hoppers, screws, knives, etc. - Senbei: baking plates, scrapers, molds, etc. - Bread: baking sheets, bread cases, molds, etc. - Rice: rice cookers, stirring blades, hoppers, screws, etc. - Candy, caramel: shoots, molds, knives, plates, etc. *For more details, please refer to the external link page or feel free to contact us.

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Fluororesin coating "recoating"

Fluororesin coating "recoating"

Re-coating is possible multiple times! We also introduce a peeling method that reduces the burden on the substrate.

Fluororesin coatings can be "re-coated" multiple times. When re-coating with fluororesin, it is necessary to first strip the current fluororesin coating. This is done using sandblasting, which inevitably takes a long time. Therefore, for plates under 1mm or precision parts, it is essential to choose a coating that will not affect the substrate even after stripping the fluororesin coating. At Daito Kasei, we also offer processing methods that do not burden the substrate during re-coating. 【Stripping Methods for Each Coating】 ■ Polyurethane Coating - Soak in solvent to strip → Sandblast ■ Ceramic Coating - Clean → Heat treatment → Sandblast ■ Polyethylene Coating - Heat until the surface softens, then strip → Heat treatment → Sandblast *For more details, please refer to the external link page or feel free to contact us.

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Heat-Discoloration Ceramic Coating Infinity HSP Series

Heat-Discoloration Ceramic Coating Infinity HSP Series

We have started the application of Japan's first thermochromic ceramic coating, the Infinity HSP series. Please take a look at YMM's unique technology.

The heat-changing ceramic coating Infinity HSP series changes color from 80°C to 250°C while maintaining the performance of conventional ceramic coatings. Pink → Purple Red → Brown It is available in two colors. Additionally, since it uses inorganic materials, it does not contain PFAS or PFOA. ■ PFAS and PFOA free ■ Heat resistance that can be used at high temperatures of 350°C ■ Non-stick properties equivalent to fluoropolymer (PTFE, PFA, etc.) ■ Steam resistance that prevents water vapor penetration ■ Expected energy-saving effects due to thermal conductivity, further enhanced by far-infrared radiation ■ Safety with no harmful substances generated even when used beyond the heat resistance temperature ■ Wear resistance improved by high hardness with a pencil hardness of 9H and enhanced slip properties

  • Showcases (for general store use, freezing, refrigeration, heat retention, etc.)
  • coating

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Water-based coating "nano Glass Veil F'zero"

Water-based coating "nano Glass Veil F'zero"

High-quality water-based coating without added silicone or fluorine.

The "nano Glass Veil F'zero" is a high-quality, water-based coating that can be easily applied. Its pure glass composition creates a hydrophilic film that shines and repels dirt. It is highly safe and can be used on various surfaces such as bodywork, resin, glass, rubber, and leather. Additionally, by combining it with optional functional coatings, various features can be added. 【Features】 ■ Being pure glass, it does not cause stains or unevenness ■ The glass material penetrates and adheres to the vehicle's paint, maintaining the shine of your car for a long time ■ It forms a film that adapts to different materials, making it versatile for all applications ■ The hydrophilic film, similar to glass, exhibits dirt-repellent and self-cleaning effects ■ It penetrates fine gaps to lift dirt ■ Optional coatings are available for salt damage protection and hardness enhancement *For more details, please refer to the PDF document or feel free to contact us.

  • paint
  • coating

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Fire-resistant sheet, cable fire-resistant sheet, railway fire-resistant sheet

Fire-resistant sheet, cable fire-resistant sheet, railway fire-resistant sheet

Fire-resistant sheet for railway construction certified by JR East.

- Excellent fire resistance performance (compliant with IEEE std. 383-1974) - Fire resistance performance that protects cables from fire - Moderate flexibility and excellent abrasion resistance make installation work easy.

  • Heat shielding sheet
  • coating

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Vacuum reaction vessel Teflon coating

Vacuum reaction vessel Teflon coating

If you need design and manufacturing of mixing tanks, leave it to UIK. We promise low prices, high quality, and short delivery times by leveraging our extensive know-how.

If you need design and manufacturing of mixing tanks, please leave it to us at U.I.K. We provide comprehensive support from design and manufacturing to installation and aftercare. Leveraging our extensive know-how, we promise "low prices," "high quality," and "short delivery times." Thanks to this, we have gained the loyalty of many customers and have numerous achievements with major companies. While we handle a wide range of plant equipment, we are particularly confident in our mixing tanks, which have satisfied many customers. We often receive feedback like, "The equipment we installed a long time ago is still in operation today." At U.I.K., we deliver the best equipment to all our customers as a trusted and proven manufacturing factory. Please feel free to contact us first. "U.I.K. Business Overview" - Design and manufacturing of equipment related to the production of chemicals, food, and pharmaceuticals, mixing tanks with agitators, jacketed tanks, transport tanks, storage tanks, box-type dryers, ribbon blenders - Installation work, removal and relocation work, piping work, trailer transport services, relocation work using cranes and rough terrain forklifts, piping work for SUS, PVC, gas pipes - Maintenance work including mechanical seal replacement, gear reducer and agitator replacement, and repair or replacement of damaged parts.

  • pump
  • Steel
  • Secondary steel products
  • coating

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Diffusion coating × hydrophilic coating

Diffusion coating × hydrophilic coating

Maintain the panel surface and light diffusion in their original state for a long time!

We introduce a technology that uses "diffusion coating" and "hydrophilic coating" to maintain the panel surface and light diffusion in their original state for a long time. To prevent dirt and dust from adhering to the panel surface through static electricity prevention and self-cleaning effects from rain, light can diffuse beautifully for an extended period without being scattered by dirt and dust. 【Features】 ■ It is possible to apply a hydrophilic coating over the diffusion coating. ■ Static electricity prevention ■ Self-cleaning effect from rain ■ Light does not scatter due to dirt and dust ■ Maintains a long-lasting and beautiful state of light diffusion *For more details, please refer to the PDF document or feel free to contact us.

  • Synthetic Resin Plywood
  • panel
  • coating

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This is a case study of photocatalytic treatment for deodorization and antibacterial measures in public facility restrooms.

This is a case study of photocatalytic treatment for deodorization and antibacterial measures in public facility restrooms.

The photocatalytic oxidation power suppresses and reduces the substances causing unpleasant odors in the toilet, creating a clean environment.

By coating a titanium dioxide aqueous solution, which serves as the raw material for photocatalysts, on the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated, which decompose organic substances that cause dirt and odors into harmless water and carbon dioxide. Additionally, the surface of the outdoor photocatalyst, when exposed to rain, utilizes a hydrophilic effect that allows water to spread thinly beneath the dirt, contributing to self-cleaning as the dirt flows away with the water, thus maintaining the aesthetic of the building and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effects continue for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is a case study of photocatalytic treatment for dirt prevention on glass in detached houses.

This is a case study of photocatalytic treatment for dirt prevention on glass in detached houses.

The hydrophilic effect of photocatalysts makes it easier for rain to wash away dirt from the glass of detached houses, creating a clean environment.

By coating the titanium dioxide aqueous solution, which is the raw material for photocatalysts, on the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. The surface of the outdoor photocatalyst, when exposed to rain, utilizes hydrophilic effects that cause water to spread thinly beneath the dirt, contributing to self-cleaning as the surface dirt flows away, thus maintaining the aesthetic of the building and reducing cleaning costs. When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated, which decompose organic substances that cause dirt and odors into water and carbon dioxide, rendering them harmless. Since the raw material of the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effectiveness continues for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is a case study of photocatalytic antibacterial and antiviral treatment in the office of a beverage factory.

This is a case study of photocatalytic antibacterial and antiviral treatment in the office of a beverage factory.

Using the oxidative decomposition power of photocatalysts, we suppress and reduce the causes of bacteria and viruses in the office, creating a clean environment.

By coating the ceilings and walls of buildings with a titanium dioxide aqueous solution, which is the raw material for photocatalysts, it exhibits effects such as anti-soiling, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst application, reactive oxygen species are generated on the surface, breaking down organic substances that cause dirt and odors into harmless water and carbon dioxide. Additionally, the surface of the outdoor photocatalyst application has a hydrophilic effect, where rainwater spreads thinly beneath the dirt, contributing to self-cleaning as it washes away the surface dirt, thus maintaining the building's aesthetic and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effectiveness lasts for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is a case study of photocatalytic application for anti-fouling measures on industrial gas tanks.

This is a case study of photocatalytic application for anti-fouling measures on industrial gas tanks.

The decomposition of organic dirt using photocatalysts and self-cleaning creates a clean environment by breaking down substances that cause dirt, odors, bacteria, and mold both inside and outside buildings.

By applying a titanium dioxide aqueous solution, which is the raw material for photocatalysts, to the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst application, reactive oxygen species are generated on the surface, decomposing organic substances that cause dirt and odors into harmless water and carbon dioxide. Additionally, the surface of the outdoor photocatalyst application has a hydrophilic effect that causes water to spread thinly beneath the dirt when it rains, contributing to self-cleaning as the dirt flows away with the water, thus maintaining the aesthetic of the building and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effectiveness continues for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is a case study of photocatalytic treatment for anti-dirt measures on solar panels.

This is a case study of photocatalytic treatment for anti-dirt measures on solar panels.

The hydrophilic effect of photocatalysts (self-cleaning effect) makes it easier for rain to wash away dirt from building exteriors and glass, creating a clean environment.

By applying a titanium dioxide aqueous solution, which serves as the raw material for photocatalysts, to the ceilings and walls of buildings, it exhibits effects such as anti-soiling, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated, which decompose organic substances that cause dirt and odors into harmless water and carbon dioxide. Additionally, the surface of the outdoor photocatalyst, when exposed to rain, utilizes a hydrophilic effect that allows water to spread thinly beneath the dirt, contributing to self-cleaning as the dirt flows away with the water, thereby maintaining the aesthetic of the building and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effects continue for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is an example of photocatalytic treatment for anti-contamination and anti-mold measures in bathing facility premises.

This is an example of photocatalytic treatment for anti-contamination and anti-mold measures in bathing facility premises.

The decomposition of organic contaminants using photocatalysts and self-cleaning creates a clean environment by breaking down substances that cause dirt, odors, bacteria, and mold both inside and outside buildings.

By applying a titanium dioxide aqueous solution, which is the raw material for photocatalysts, to the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated, which decompose organic substances that cause dirt and odors into harmless water and carbon dioxide. Additionally, the surface of the outdoor photocatalyst, when exposed to rain, utilizes a hydrophilic effect that spreads water thinly beneath the dirt, allowing for self-cleaning as the dirt flows away with the water, contributing to the maintenance of the building's aesthetics and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effectiveness continues for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is a case study of photocatalytic treatment for anti-dirt measures on the exterior walls and glass of detached houses.

This is a case study of photocatalytic treatment for anti-dirt measures on the exterior walls and glass of detached houses.

The decomposition of organic contaminants using photocatalysts and self-cleaning creates a clean environment by breaking down substances that cause dirt, odors, bacteria, and mold both inside and outside buildings.

By applying a titanium dioxide aqueous solution, which is the raw material for photocatalysts, to the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated, which decompose organic substances that cause dirt and odors into harmless water and carbon dioxide. Additionally, the surface of the outdoor photocatalyst, when exposed to rain, utilizes a hydrophilic effect that spreads water thinly beneath the dirt, allowing for self-cleaning as the surface dirt flows away, contributing to the maintenance of the building's aesthetics and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effectiveness continues for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is a case study of photocatalytic treatment for anti-fouling measures on solar panel glass.

This is a case study of photocatalytic treatment for anti-fouling measures on solar panel glass.

The hydrophilic effect of photocatalysts (self-cleaning effect) makes it easier for rain to wash away dirt from building exteriors and glass, creating a clean environment.

By applying a titanium dioxide aqueous solution, which is the raw material for photocatalysts, to the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst application, reactive oxygen species are generated on the surface, decomposing organic substances that cause dirt and odors into harmless water and carbon dioxide. The surface of the outdoor photocatalyst application utilizes a hydrophilic effect, where rainwater spreads thinly beneath the dirt, contributing to self-cleaning as the surface dirt flows away, thereby maintaining the aesthetic of the building and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effectiveness continues for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is an example of photocatalytic treatment for anti-fouling measures on museum glass.

This is an example of photocatalytic treatment for anti-fouling measures on museum glass.

The hydrophilic effect of photocatalysts (self-cleaning effect) makes it easier for rain to wash away dirt from building exteriors and glass, creating a clean environment.

By coating the titanium dioxide aqueous solution, which is the raw material for photocatalysts, on the ceilings and walls of buildings, it exhibits effects such as anti-soiling, deodorization, antibacterial, antiviral, and mold prevention. When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated on the surface, breaking down organic substances that cause dirt and odors into harmless water and carbon dioxide. The surface of the outdoor photocatalyst, when exposed to rain, utilizes a hydrophilic effect that allows water to spread thinly beneath the dirt, contributing to self-cleaning as the dirt flows away with the water, thus maintaining the aesthetic of the building and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effects continue for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is a case study of photocatalytic application for anti-dirt measures on store windows.

This is a case study of photocatalytic application for anti-dirt measures on store windows.

The hydrophilic effect of photocatalysts (self-cleaning) makes it easier for rain to wash away dirt from glass, creating a clean environment.

By applying a titanium dioxide aqueous solution, which serves as the raw material for photocatalysts, to the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst application, reactive oxygen species are generated on the surface, breaking down organic substances that cause dirt and odors into harmless water and carbon dioxide. The surface of the outdoor photocatalyst application utilizes a hydrophilic effect, where rainwater spreads thinly beneath the dirt, contributing to self-cleaning as it washes away the surface dirt, thereby maintaining the aesthetic of the building and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effects continue for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is an example of photocatalytic treatment in a smoking room of a lodging facility (anti-soiling and deodorization measures).

This is an example of photocatalytic treatment in a smoking room of a lodging facility (anti-soiling and deodorization measures).

The photocatalytic oxidation decomposition power (decomposition of dirt) breaks down and suppresses/reduces the harmful substances such as tar stains from smoking, creating a clean environment.

■Raw Material Titanium Dioxide By coating a titanium dioxide aqueous solution, which is the raw material for photocatalysts, on the ceilings and walls of buildings, it exhibits effects such as anti-soiling, deodorization, antibacterial properties, antiviral properties, and mold prevention. ■Indoor Photocatalyst When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated on the surface, decomposing organic substances that cause dirt and odors into water and carbon dioxide, rendering them harmless. ■Outdoor Photocatalyst When rain hits the surface of the outdoor photocatalyst, a hydrophilic effect causes water to spread thinly beneath the dirt, contributing to self-cleaning as the dirt flows away with the water, thus maintaining the aesthetic of the building and reducing cleaning costs. ■Duration of Photocatalyst Effect Since titanium dioxide, the raw material for photocatalysts, is inorganic, it does not degrade due to ultraviolet light or other factors, and the effect continues for a long time as long as the coating substrate's paint surface or wallpaper does not peel off.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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This is a case study of photocatalytic coating (anti-soiling) for glass in detached houses.

This is a case study of photocatalytic coating (anti-soiling) for glass in detached houses.

The hydrophilic effect of photocatalysts (self-cleaning effect) allows rain to wash away dirt from the glass of detached houses, keeping it clean and reducing the effort required for cleaning.

■Titanium Dioxide Raw Material By coating a titanium dioxide aqueous solution, which serves as the raw material for photocatalysts, on the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. ■Indoor Photocatalyst When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated on the surface, which decompose organic substances that cause dirt and odors into water and carbon dioxide, rendering them harmless. ■Outdoor Photocatalyst When rain hits the surface of the outdoor photocatalyst, a hydrophilic effect causes water to spread thinly under the dirt, contributing to self-cleaning as the dirt flows away with the water, thus maintaining the aesthetic of the building and reducing cleaning costs. ■Duration of Photocatalytic Effect Since titanium dioxide, the raw material for photocatalysts, is inorganic, it does not degrade due to ultraviolet rays or other factors, and the effect continues for a long time as long as the coating substrate's paint surface or wallpaper does not peel off.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • coating

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M-Tech Exhibition! Non-stick coating technology for non-adhesive surface treatment.

M-Tech Exhibition! Non-stick coating technology for non-adhesive surface treatment.

[Sample Presentation] Non-stick treatment that surpasses fluorine and silicone! Compatible with strong adhesive substances!

The "non-stick coating" is a new non-stick surface treatment technology developed to prevent the adhesion of strong adhesive substances that cannot be addressed by fluorine or silicone resins. By coating a substrate with a non-stick material and pre-ceramic (thermosetting silicon-based polymer), we have significantly improved non-stick properties and surface strength. =================================     ◎A sample will be given to everyone who inquires◎ 【Conditions for receiving the gift】 Please fill out the following two points in the "Inquiry Details" section at the bottom of the page and send it. ■Material to be coated *Choose from the options below Stainless steel / Aluminum / Iron ■Required properties *Choose from the options below Non-stick / Heat resistance ================================= *Additionally, we will send a comprehensive catalog for free to those who wish.

  • Heating and cooling equipment and facilities
  • coating

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[Free samples available!] Byserum

[Free samples available!] Byserum

[IPROS Exclusive Project] A new inorganic coating with excellent adhesion applied to various materials that utilize the properties of fine ceramics, such as hardness and high-temperature resistance.

The resistance to NOx, SOx, and H2S gases is excellent, and applications for pollution-related equipment are also being considered. Coating can be applied to metals as well as inorganic products. For metals, it can be applied to iron, aluminum plates, aluminum die-cast, aluminized steel plates, stainless steel, etc., and for inorganic products, it can be applied to ceramics, carbon, refractory bricks, and more. =======≪Campaign Information≫========= ◎Everyone who contacts us will receive a sample!◎ 【Conditions for Receiving the Gift】 Please fill in the following two points in the 'Inquiry Details' section at the bottom of the page when you contact us. ■Material you want to coat ■Required properties *Please select from the options below. We encourage you to take this opportunity to try it out! ========================== 【Coating Target Materials】 ・Stainless Steel ・Aluminum ・Iron ・Rubber 【Required Properties】 ・Corrosion Resistance ・Non-Stick Properties ・Heat Resistance ・Low Friction Properties ・Slidability ・Insulation ・Conductivity ・Ion Leaching Prevention ・Wear Resistance ・Water Repellency ・Antibacterial Properties ・ECO Coating ・Others *We will send a comprehensive catalog free of charge to those who request it.

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【Free samples available!】 Low-temperature curing fluororesin coating

【Free samples available!】 Low-temperature curing fluororesin coating

[IPROS Exclusive Project] Fluororesin Coating for Plastic and Rubber!! FU-1000 Series.

The FU-1000 series of fluororesin coatings features excellent non-stick properties, lubricity, water repellency, and dirt resistance. It is a low-temperature curing fluororesin coating for plastics and rubber. For more details, please contact us or refer to the catalog. =======≪Campaign Information≫========= ◎Everyone who contacts us will receive a sample!◎ 【Conditions for Receiving the Gift】 Please fill in the following two points in the 'Inquiry Details' section at the bottom of the page when contacting us. ■Material to be coated ■Required properties *Please select from the options below. Take this opportunity to try it out! ========================== 【Materials for Coating】 - Stainless steel - Aluminum - Iron - Rubber 【Required Properties】 - Corrosion resistance - Non-stick properties - Heat resistance - Low friction - Sliding properties - Insulation - Conductivity - Ion leaching prevention - Wear resistance - Water repellency - Antibacterial properties - ECO coating - Others *We will send a comprehensive catalog free of charge to those who request it.

  • Heating and cooling equipment and facilities
  • coating

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