Last Updated: Aggregation Period:Mar 11, 2026~Apr 07, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Mar 11, 2026~Apr 07, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Mar 11, 2026~Apr 07, 2026
This ranking is based on the number of page views on our site.
2431~2460 item / All 2639 items
Compatible with quartz glass up to a maximum of W1500×H200×t10mm.
This device is a two-tank (release agent application and rinse) release agent application system. Each tank has a circulation function and can apply release agent to large-sized quartz glass up to 45 kg per sheet.
"What is electromagnetic wave?" "What are conductive paints and types of paints?" This book contributes to addressing the malfunction of devices caused by electromagnetic wave noise.
Introducing a technical document from Pluscoat, which specializes in conductive coatings for electromagnetic wave shielding as an EMC and noise countermeasure! This document answers basic questions such as "What is electromagnetic wave?" and "What types of shielding measures are available?" It includes sections like "Basic Knowledge of Electromagnetic Waves - Beginner's Edition," "Effects and Types of Electromagnetic Wave Shielding Coatings," and "Examples of Conductive Coating Applications." This book contributes to addressing equipment malfunctions caused by electromagnetic wave noise. [Contents] ■ Basic Knowledge of Electromagnetic Waves - Beginner's Edition ■ Mechanism of Electromagnetic Wave Shielding ■ Effects and Types of Electromagnetic Wave Shielding Coatings ■ Types and Characteristics of Conductive Paints ■ Conductive Coating - Actual Application Examples, etc. *For more details, please refer to the PDF document or feel free to contact us.
By changing the film formation method, we improve gas barrier properties such as wettability, sliding properties, and sealing! *Demo, testing, and prototypes are currently being accepted.
"DLC (Diamond Like Carbon)" is a hard coating that is positioned between diamond and graphite. Its hardness is 1500 Hv, and the friction coefficient ranges from 0.1 to 0.2. It has heat resistance and can be used at temperatures up to about 200°C. By adding Si (silicon), water repellency and sliding properties are improved. 【Suitable for such parts】 ■ Gaskets ■ Packing ■ Pistons ■ Cylinder-related *For more details, please refer to the PDF document or feel free to contact us.
By changing the film formation method, it is possible to achieve prevention of material adhesion to rolls and improved wear resistance! *Demo, testing, and prototype applications are currently being accepted.
"DLC (Diamond Like Carbon)" is a hard coating that lies between diamond and graphite. Its hardness is 1500 Hv, and the friction coefficient ranges from 0.1 to 0.2. It has heat resistance and can be used at temperatures up to around 200°C. By adding Si (silicon), water repellency and sliding properties are improved. 【Suitable for such components】 ■ Gravure (coating) rolls ■ Microgravure cylinders ■ Conveying rolls ■ Doctor blades *For more details, please refer to the PDF document or feel free to contact us.
![[Case Studies] Coating of Mechanical Parts](https://image.mono.ipros.com/public/product/image/3f8/2001142492/IPROS8908684946506396242.png?w=280&h=280)
New functions for mechanical parts! By modifying the surface, we can meet various demands.
This introduces coatings for mechanical parts. Industrial products and their materials and components require various functions, characteristics, and performances simultaneously, depending on the environment and load in which they are used. Adhesive wear is effectively addressed by coatings with low affinity to the counterpart material and control of surface properties. By modifying the outermost surface, it is possible to impart various functions and characteristics, thereby meeting diverse requirements. 【Wear Modes of Mechanical Parts】 ■ Adhesive Wear: Coatings with low affinity to the counterpart material, control of surface properties ■ Abrasive Wear: Surface hardness increase with Jcoat + α treatment ■ Corrosive Wear: Selection of coatings suitable for corrosive environments ■ Fatigue Wear: Neo-Slick, CrN, etc. *For more details, please refer to the catalog or feel free to contact us.
Thanks to its reliable biodegradability, it has obtained national certifications and environmental marks in countries around the world!
We would like to introduce the public certification of our microbial degradation plastic additive, 'P-Life'. Numerous verifications of the microbial degradation of non-degradable plastics have been conducted, and due to its proven microbial degradability, it has obtained national certifications and environmental marks (Green Label) in various countries around the world. Please feel free to contact us if you have any inquiries. 【National Certifications and Environmental Marks (Green Label)】 ■ Kingdom of Sweden ■ UAE (United Arab Emirates) ■ Hong Kong ■ Kingdom of Saudi Arabia ■ Federative Republic of Brazil *For more details, please refer to the related links or feel free to contact us.
- Surface treatment, low friction and wear resistance, plastic containers, transparency, movements towards international standardization -
**Lecture Summary** DLC (Diamond-Like Carbon) is rapidly gaining popularity as a surface treatment for sliding parts in automotive and machinery components due to its characteristics of low friction, wear resistance, seizure resistance, and corrosion resistance. Recently, it has attracted attention as a solution to global environmental issues, such as energy conservation through low friction and resource conservation through the extended lifespan of components. Various structures of DLC are being proposed. This seminar will provide an explanation of the processes, structures, and characteristics of various types of DLC, along with practical case studies, and will conclude with an overview of future technologies and market trends.
It has many excellent properties such as heat resistance, non-stickiness, wear resistance, low friction, chemical resistance, and insulation!
Teflon (fluororesin) coating has many excellent properties, including heat resistance, non-stickiness, wear resistance, low friction, chemical resistance, and insulation. The surface of fluororesin coating repels both water and oil. Most substances do not adhere, and due to the water-repellent properties of fluororesin, it becomes significantly more resistant to dirt. Additionally, cleaning when dirty is easy, which not only greatly reduces cleaning time but also significantly decreases the amount of water, solvents, and detergents needed for cleaning. Furthermore, the low friction coefficient makes it slippery, preventing stick-slip. It can be used in high-load, low-speed applications and in areas where contamination is undesirable. Due to the low friction coefficient, there is almost no frictional resistance. (Note: Stick-slip refers to the phenomenon where contact surfaces alternate between sticking and sliding.) There are coatings for ultra-fine pipes with an inner diameter of φ0.5 for inspection equipment, catheters, and other flasks or test tubes that use chemicals, as well as coatings commonly used for high-temperature lighting around 200°C. By preventing splashes of liquids and fragments, it allows for safe use.
![[Basic Knowledge] What is surface treatment coating?](https://image.mono.ipros.com/public/product/image/ea8/2000621257/IPROS98828970651829436657.jpeg?w=280&h=280)
Surface treatment refers to the process of applying modifications to the surface of a substrate to impart various properties that are not inherent to the substrate itself.
Surface treatment is a processing method that enhances properties by applying treatment to the surface of a substrate, imparting various characteristics that the substrate itself does not possess. It aims to improve several of these properties, such as hardness, wear resistance, lubricity, corrosion resistance, heat resistance, and insulation. 【Benefits of Coating】 ■ Improved operational rate ■ Increased productivity ■ Maintenance-free ■ Cost reduction ■ Enhanced quality *For more details, please download the PDF document or feel free to contact us.
Environmentally friendly paint that makes the Earth happy, without using organic solvents!
Self-repairing paint is a functional coating developed through our urethane acrylate synthesis technology and unique paint formulation technology. We have newly added a UV-curable, solvent-free type to our lineup. Since the drying process is no longer necessary, it significantly shortens the process, and it can also be applied to substrates that are sensitive to solvents.
Measures against release in medical device manufacturing. Supporting precision molding.
In the medical device industry, the release from molds in precision parts manufacturing is a critical issue that affects both quality and production efficiency. Particularly for parts with fine shapes or complex structures, poor release can lead to product defects and increased manufacturing costs. Adroncoat enables molding without the use of release agents as a countermeasure against epoxy binder release, making post-processing easier. This contributes to improved quality and cost reduction in medical device manufacturing. 【Usage Scenarios】 - Molding of precision medical device parts - Application of epoxy binder to molds - When wanting to avoid contamination from release agents 【Effects of Implementation】 - Improved quality of post-processing due to the absence of release agents - Cost reduction through the reduction of molding defects - Enhanced quality of medical devices
Release measures for inclined magnetic field coils! No release agent needed.
In the manufacturing process of inclined magnetic field coils, the wire sections arranged are solidified with epoxy resin. Ensuring mold release properties during this process is crucial. Insufficient mold release can lead to molding defects and decreased productivity. Adron Coat enables molding without the use of release agents, addressing these challenges. 【Application Scenarios】 - Mold release during the manufacturing of inclined magnetic field coils - Mold release during the manufacturing of copper wire coils - Mold release during prepreg press molding 【Effects of Implementation】 - Reduction in the amount of release agent used - Easier re-bonding and painting due to the absence of release agent residue from not using a release agent - Increased productivity and reduced environmental pollution
Solve kitchen scorch marks and cleaning issues with Adron coating!
In the kitchen industry, the sticking of cooking utensils and food materials leads to decreased work efficiency and increased cleaning efforts. Particularly with cooking utensils used at high temperatures, preventing sticking and improving cleanability are crucial. Adron coating addresses these issues and enhances cooking efficiency. 【Usage Scenarios】 - Frying pans - Ovens - Baking sheets - Prevention of sticking in cooking utensils - Improved cleanability 【Benefits of Implementation】 - Reduces sticking and shortens cooking time - Makes cleaning easier and improves work efficiency - Reduces food waste - Extends the lifespan of cooking utensils
We contribute to improving the lubricity of medical devices!
In the robotics industry, lubrication is crucial for improving safety and operability. Particularly in industrial equipment that requires precise movements, it is essential to reduce friction and achieve smooth operation. Ensuring appropriate lubrication also contributes to the durability of the equipment. Adron Coating provides optimal solutions to these challenges. 【Usage Scenarios】 - Moving parts of articulated robots - Cable guides during robot operation 【Effects of Implementation】 - Reduction of friction resistance - Achievement of smooth operation - Improvement of durability
Solve the release agent problem in food manufacturing! Improve efficiency with Adron Coating!
In the food manufacturing industry, the adhesion and sticking of ingredients and products pose significant challenges that reduce production efficiency. Particularly in processes involving heating or handling highly adhesive ingredients, ensuring release properties is crucial. Without appropriate release treatment, the effort required for cleaning increases, potentially leading to a decline in product quality and a worsening of yield. Fluorocoat's Adron coating supports the food manufacturing environment by providing excellent release properties to address these challenges. 【Application Scenarios】 - Baking and molding processes for food - Prevention of ingredient adhesion - Improvement of cleanability 【Benefits of Implementation】 - Increased production efficiency - Stabilization of product quality - Reduction in cleaning time
Achieving lightweight and durability for drones with Mg alloy and coating technology.
In the drone industry, the length of flight time is an important factor. The longer the flight time, the more extensive surveys and tasks can be performed, expanding business opportunities. However, the weight of the drone significantly affects flight time, creating a dilemma where increasing battery capacity leads to increased weight, resulting in shorter flight times. Magnesium alloys are lightweight yet possess high strength, contributing to weight reduction when used in drone bodies, which leads to extended flight times. Adroncoat addresses the challenges of corrosion, galvanic corrosion, and oxidation associated with magnesium alloys, making their adoption in drone bodies feasible. 【Use Cases】 - Long-duration aerial photography - Extensive surveying - Infrastructure inspection - Material transportation 【Benefits of Implementation】 - Extended flight time - Improved lifespan of the drone body - Reduced operational costs
For those struggling with release in semiconductor manufacturing. Supported by 70 years of experience and evaluation equipment.
In the semiconductor industry, the release properties of parts from molds and jigs are crucial for improving product quality and production efficiency. Particularly in fine processing and high-precision manufacturing processes, poor release can lead to product damage and reduced yield. FluoroCoat, with 70 years of experience and comprehensive evaluation facilities, supports aspects such as initial evaluations and post-use (after testing) evaluation comparisons (sample evaluations, actual machine evaluations), assisting in solving release property challenges. We also accommodate prototype requests starting from one piece, including processing consultations and coating selection. 【Application Scenarios】 - Molds in semiconductor manufacturing - Jigs - Other parts requiring release properties 【Benefits of Implementation】 - Improved release properties - Increased product yield - Enhanced production efficiency
No oil needed for food to release! A video explanation of the release effect of Adron® coating!
In the food industry, the sticking and burning of ingredients is a major challenge that leads to decreased production efficiency and deterioration of product quality. This is especially important for foods that are cooked at high temperatures, such as baked goods and fried foods, where the quality of release properties is crucial. Adron® coating allows ingredients to release easily without the need for oil, contributing to reduced cooking times and improved cleanability. 【Usage Scenarios】 - Parts that come into contact with food, such as frying pans, baking sheets, and molds - Manufacturing processes for various foods, including baked goods, fried foods, and bread - When there is a need to prevent sticking and burning of ingredients 【Benefits of Implementation】 - Improved release properties of ingredients, leading to reduced cooking times - Enhanced cleanability, resulting in increased work efficiency - Improved product quality and better yield
Improved slip resistance with Adron® coating! Please check the video for the effects!
In the semiconductor manufacturing industry, a clean environment is essential, and the generation of fine particles due to friction between components is a significant factor that undermines product quality. Particularly in devices that require precise movements, the slip properties of components are crucial. By reducing friction, the generation of fine particles can be suppressed, contributing to improved product yield. Adron® coating addresses these challenges by enhancing slip properties, maintaining a clean environment, and supporting quality improvement in semiconductor manufacturing. 【Usage Scenarios】 - Sliding components of semiconductor manufacturing equipment - Transport mechanisms in clean rooms - Moving parts of precision machinery 【Benefits of Implementation】 - Suppression of fine particle generation - Improvement of product yield - Extension of equipment lifespan
Improved slip properties with Adroncoating! Check the effects in the video!
In the FA industry, the sliding properties of components significantly affect performance and durability. Poor sliding properties can lead to wear and unusual noises due to friction, as well as a decrease in the lifespan of the components. Additionally, wear is a major enemy in maintaining positioning accuracy. Adron coating contributes to addressing these challenges by improving sliding properties. 【Application Scenes】 - Sliding screws - Engine components - Suspension parts - Door hinges - Seat rails 【Effects of Implementation】 - Reduction of friction resistance - Extended lifespan of components - Achievement of smooth operation - Suppression of unusual noises
Introducing the effects of fluoropolymer coating in a YouTube video!
In the automotive industry, excellent lubrication is required to reduce friction between parts and improve durability. This is particularly important for moving parts such as engines and transmissions, where it is crucial to prevent wear caused by friction and extend product lifespan. Inadequate lubrication can lead to premature deterioration of parts and a decline in performance. Our fluoropolymer coating addresses these challenges by reducing friction resistance and enhancing lubrication. Please check the video to see the effects. 【Usage Scenarios】 - Engine parts - Transmission parts - Sliding parts 【Benefits of Implementation】 - Reduction of friction resistance - Extended lifespan of parts - Reduction of maintenance costs
On the official YouTube channel, we introduce the effects of fluoropolymer coating in a video!
In the kitchen industry, there is a demand for reducing the burden of daily cleaning. In particular, grease and food residue can require significant time and effort to clean, which can decrease work efficiency. Fluoropolymer coatings help to suppress the adhesion of these stains and improve cleanability, contributing to hygiene management and efficiency in the kitchen. 【Usage Scenarios】 - Kitchen equipment (frying pans, pots, etc.) - Cooking surfaces - Food processing trays 【Benefits of Implementation】 - Stains are less likely to adhere and easier to remove - Reduced cleaning time - Maintenance of a hygienic environment
Solving challenges in the pharmaceutical industry! Achieving non-stick properties and improving production efficiency.
In the pharmaceutical industry, adhesion and sticking during drug manufacturing are serious issues that can lead to decreased quality and reduced production efficiency. In particular, when powders or viscous substances adhere to manufacturing equipment, it can increase cleaning efforts and may necessitate halting the production line. Adron Coating addresses these challenges by providing excellent non-stick properties, contributing to improved production efficiency. 【Application Scenarios】 - Powder supply hoppers in pharmaceutical manufacturing - Inside mixers - Nozzles of filling machines - Guides of packaging machines 【Effects of Implementation】 - Reduced cleaning time due to decreased adhesion - Improved product yield - Stable operation of the production line - Reduced risk of foreign matter contamination
Solve your burning issues! Contribute to increased production efficiency.
In the cooking utensil industry, issues such as time loss due to sticking and the hassle of cleaning are significant challenges. In particular, sticking in areas that come into direct contact with food can lead to a decline in product quality and customer satisfaction. Our fluoropolymer coating, "Adron Coating," addresses these challenges by suppressing sticking and enhancing the performance of cooking utensils. 【Usage Scenarios】 - Cake pans and mochi makers - Rice cookers - Takoyaki plates 【Benefits of Implementation】 - Reduced cooking time due to prevention of sticking - Improved cleanability - Extended product lifespan
The sliding performance of fluororesin coatings that contribute to safety and security!
In the construction industry, the durability of buildings is crucial for maintaining safety and asset value. To protect buildings from natural disasters such as earthquakes, the adoption of seismic isolation structures is effective; however, to maximize the performance of seismic isolation devices, coating technologies that reduce friction and enhance durability are essential. Our fluororesin coating is used on the sliding plates of seismic isolation devices, effectively reducing building sway and minimizing damage to the structure and indoor shaking. 【Usage Scenarios】 - Sliding plates of buildings with seismic isolation structures - High-rise buildings - Buildings requiring earthquake countermeasures 【Benefits of Implementation】 - Reduces building damage - Minimizes indoor shaking - Maintains asset value - Enhances safety
To those struggling with release properties in food manufacturing, we support your problem-solving.
In the food industry, excellent release properties are required to prevent food ingredients from sticking or burning, thereby maintaining product quality. This is particularly important for foods that are cooked at high temperatures, such as baked goods and fried items, where the quality of release properties significantly affects product yield and work efficiency. FluoroCoat leverages the characteristics of fluoropolymer to prevent ingredient adhesion and achieve smooth release. This contributes to improved food quality, enhanced cleanability, and increased work efficiency. 【Application Scenarios】 - Baking molds in food manufacturing - Fryers for fried foods - Films for food packaging 【Benefits of Implementation】 - Prevention of ingredient burning and adhesion - Improvement in product yield - Reduction in cleaning time - Increase in work efficiency
Over 100 times wear resistance! Achieving longer lifespan for automotive parts.
In the automotive industry, the durability and reliability of parts are crucial. Particularly in sliding parts and areas where friction occurs, performance degradation due to wear is a challenge. An increase in the frequency of part replacements can lead to higher costs and a potential decrease in customer satisfaction. Nano Coat-S boasts more than 100 times the wear resistance of hard chrome plating, contributing to the longevity of parts. 【Application Scenarios】 - Engine parts - Transmission parts - Suspension parts 【Effects of Implementation】 - Reduction in part replacement frequency - Reduction in maintenance costs - Improvement in product reliability
