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resin Product List and Ranking from 437 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

resin Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

  1. 三菱ガス化学ネクスト(旧日本ユピカ) 本社 Tokyo//Resin/Plastic
  2. 寺田 Tokyo//Electronic Components and Semiconductors
  3. 吉田SKT Aichi//Manufacturing and processing contract
  4. 4 MUROMACHI CHEMICALS INC. Chemicals Division Fukuoka//Chemical
  5. 5 ヤスハラケミカル Tokyo//Chemical
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resin Product ranking

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

  1. Epoxy Resin Zero Mar Series for Sample Grinding [Made in Japan] アイエムティー
  2. Joint Surface Treatment Agent "Hitlock B" イチネンケミカルズ
  3. Concrete joint surface treatment agent "Tritex CB-20" Sanyo Trading Co., Ltd.
  4. 4 Liquid Bismaleimide Resin LMI-5000 OSAKA ORGANIC CHEMICAL IND., LTD.
  5. 5 Vinyl ester resin "Ripoxy" IMCDジャパン

resin Product List

211~225 item / All 1455 items

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High Purity Ion Exchange Resin "Muromac HG Series"

High Purity Ion Exchange Resin "Muromac HG Series"

High-purity ion exchange resin suitable for various liquid purification - Muromac HG Series

The Muromac HG series is a newly developed high-purity ion exchange resin designed to enable the high purification of various chemicals and process liquids required in the manufacturing process of electronic industrial products. ● To minimize elution from the resin, impurities such as metal and TOC contained in the resin are reduced in advance. ● Suitable for the purification of electronic material chemicals and process liquids in both aqueous and organic solvent systems. ● Specializes in the removal of ionic impurities in the ppm and ppb range.

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Track Record of Ion Exchange Resin Adoption for Pure Water Production

Track Record of Ion Exchange Resin Adoption for Pure Water Production

Water that has removed dissolved ions and consists only of H2O! "Pure water" is also used in boilers and humidifiers.

Water that has had dissolved ions removed and consists only of H2O is called "pure water." Pure water is necessary for cleaning electronic components and circuit boards, as well as for the raw water used in food and beverages, and for the manufacturing of pharmaceuticals and daily necessities. Additionally, pure water is used in boilers and humidifiers. [Applications] ■ Cleaning of electronic components and circuit boards, such as semiconductors ■ Raw water for food and beverages ■ Manufacturing water for pharmaceuticals and daily necessities ■ Boilers and humidifiers, etc. *For more details, please refer to the PDF document or feel free to contact us.

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Elevated Bridge Cation Exchange Resin "Muromac UL Series"

Elevated Bridge Cation Exchange Resin "Muromac UL Series"

High oxidation resistance elevated bridge cation exchange resin - Muromac UL series

The Muromac UL series is a high-level cross-linked cation exchange resin that has successfully achieved high oxidation resistance by increasing the degree of cross-linking, significantly reducing the leaching of high molecular weight organic substances. ≪Features of the UL Series≫ ● Due to its high degree of cross-linking, it exhibits outstanding oxidation resistance. ● Because of its excellent oxidation resistance, it has low organic substance leaching. ● It has low leaching of high molecular weight organic substances, which can cause performance degradation in anion resins. ● Compared to general-purpose resins, its exchange capacity is approximately 20% larger. ● With a larger exchange capacity, the amount of water that can be sampled is greater, reducing the frequency of regeneration. ● From these perspectives, it is expected to help suppress water quality deterioration, extend resin lifespan, and increase sampling capacity.

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[Case Study] Proposal for Ion Exchange Resin Cleaning to Meet User Standard Values

[Case Study] Proposal for Ion Exchange Resin Cleaning to Meet User Standard Values

Retaining knowledge of various ion exchange resins! We have solved the concerns of establishing cleaning methods and implementing cleaning operations.

We would like to introduce a case where we resolved the construction of a cleaning method to meet individual user quality requirements and the contracting of cleaning work. The user has an ion exchange resin used for analytical purposes, but issues arose due to trace contaminants (such as residues from surfactants) on the surface of the ion exchange resin. However, according to the Certificate of Analysis (COA) from the resin manufacturer, it was deemed a pass, and the manufacturer stated that further cleaning was difficult. Since the ion exchange resin from the LOT that experienced issues during user testing could no longer be used, we sought a cleaning method to meet the required quality. Umemura Chemical has extensive knowledge of various ion exchange resins, so we received a request to consider a resin cleaning method. [Overview] - Industry: Analytical Testing - Area: Confidential - Key Technology: Cleaning of Ion Exchange Resins *For more details, please refer to the PDF document or feel free to contact us.

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[Case Study] Examination of Cu and Cd Treatment Using Chelating Resin

[Case Study] Examination of Cu and Cd Treatment Using Chelating Resin

You have confirmed that the ion exchange resin can process Cu and Cd at lower and more stable levels!

We would like to introduce a case study confirming the effectiveness of treating Cu and Cd in on-site water using chelating resin. The facility was struggling with the desire to "lower and stabilize the values of Cu and Cd in the on-site water generated at the site," and the challenge was whether the chelating resin could achieve a lower and more stable treatment. Currently, the generated on-site water is stored in a reservoir, and treatment is performed by adding neutralizing agents and coagulants, but they were considering whether there might be a better treatment method. In response, Muromachi Chemical proposed "conducting actual treatment data acquisition using a testing machine on-site with chelating resin." [Overview] - Area: Chubu region - Treatment capacity: 60m3/h - Main technology: Ion exchange resin *For more details, please refer to the PDF document or feel free to contact us.

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[Case Study] Drying and Crushing of Ion Exchange Resin

[Case Study] Drying and Crushing of Ion Exchange Resin

A case that solved the selection of ion exchange resins and the processing into powder form for use as filter materials!

We will introduce a case of drying and grinding ion exchange resin. The recurring challenge was the selection method for ion exchange resin, which serves as the material for developing new filters. Additionally, to use the ion exchange resin in filters, it needed to be dried and ground. Since we relied on outsourcing to companies capable of handling each process, manufacturing took longer, leading to increased material costs. By managing the entire process from application development to processing of ion exchange resin in-house, we were able to select suitable products from a wide range of ion exchange resins and perform the drying and grinding of the resin in the same factory, resulting in improved efficiency. [Overview] ■Industry: Chemical Manufacturer ■Area: Ion Exchange Resin (Drying and Grinding) *For more details, please refer to the PDF document or feel free to contact us.

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  • Drying Equipment

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[Case Study] Wastewater Treatment (Fluorine and Boron) Using Ion Exchange Resin

[Case Study] Wastewater Treatment (Fluorine and Boron) Using Ion Exchange Resin

We will introduce a case where the fluoride and boron contained in the drainage were reduced to the standard values!

We would like to introduce a case of removing fluoride (F) and boron (B) from wastewater using ion exchange resin. In the cleaning process of a new product being manufactured at a facility, fluoride is generated, and we want to treat it to meet the sewer discharge standards. However, the chemicals used in the production contain hydrofluoric acid and boric acid, and after cleaning the products, the concentrations of fluoride and boron in the wastewater exceeded the standard values. Since the existing wastewater treatment facility could not accept this, it was a challenge to reduce the concentrations to the standard values before merging with the existing treatment facility. Therefore, Muromachi Chemical proposed "removal of fluoride and boron using a device with cartridges." 【Overview】 ■ Industry: Manufacturing ■ Area: Kanto region ■ Source water type: Cleaning wastewater from manufactured products ■ Treatment capacity: 0.1 m3/h ■ Main technology: Ion exchange resin *For more details, please refer to the PDF document or feel free to contact us.

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  • Wastewater/wastewater treatment equipment

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[Case Study] Selenium Removal from Drainage

[Case Study] Selenium Removal from Drainage

There were no major construction works required for the sedimentation equipment, which helped keep costs and time down!

Selenium at a concentration of 0.4 ppm is present in the drainage generated from tunnel construction, and since construction cannot proceed unless the drainage is reduced to below the standard value of 0.1 ppm, we considered whether treatment using ion exchange resin could be implemented. Generally, the drainage generated from tunnel construction undergoes coagulation and sedimentation treatment; however, this requires a large equipment space and may lead to factors causing poor coagulation. Therefore, we sampled the actual drainage occurring at the site and conducted a liquid flow test using ion exchange resin at our lab. We confirmed the adsorption performance for selenium and demonstrated that treatment from 0.4 ppm to below 0.1 ppm is possible. [Issues with Coagulation and Sedimentation Treatment] ■ Removal of Selenium from Drainage - The concentration of selenium in the drainage generated from construction fluctuates, causing variations in the selenium concentration of the treated water from coagulation and sedimentation. - These fluctuations can also lead to variations in the amount of coagulant used, potentially resulting in poor coagulation. ■ Large equipment space required. *For more details, please refer to the related links or feel free to contact us.

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[Case Study] Processing (Cleaning) of Ion Exchange Resins to Meet Customer Quality Requirements

[Case Study] Processing (Cleaning) of Ion Exchange Resins to Meet Customer Quality Requirements

We will introduce a case where two issues, the establishment of a cleaning method and the implementation of cleaning work, were resolved!

There is an ion exchange resin used for analytical purposes, but issues have arisen due to trace contaminants (such as residues from surfactants) on the surface of the ion exchange resin. Additionally, the manufacturer has indicated that further cleaning beyond what has already been done is difficult, and we have been exploring cleaning methods to meet the customer's specific quality requirements. Since the customer's quality evaluation test methods were not disclosed, we created several cleaning samples by adjusting the chemicals and process times used for cleaning. After evaluating multiple samples, we established a cleaning method that meets the required quality. 【Case Overview】 ■ Industry: Analytical Testing ■ Key Technology: Cleaning of Ion Exchange Resin ■ Challenge: Resolving issues caused by surface contaminants on ion exchange resin used for analytical purposes *For more details, please refer to the related links or feel free to contact us.

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[Technical Column] Particle Size Distribution and Hydraulic Characteristics of Ion Exchange Resins

[Technical Column] Particle Size Distribution and Hydraulic Characteristics of Ion Exchange Resins

I will explain topics such as "differences in characteristics due to particle size distribution" and "backwashing expansion and separation characteristics"!

Ion exchange resins are spherical substances with a diameter of approximately 0.3 to 1.2 mm, and there are ion exchange resins with a wide range of particle size distributions known as "Gaussian distribution" and those with a nearly uniform particle size distribution called "uniform particle size distribution." These are used differently depending on their applications, but ion exchange resins with a uniform particle size distribution often have advantageous characteristics. In this column, we explain topics such as "differences in particle size distribution due to manufacturing methods" and "differential pressure characteristics (pressure loss)." [Overview] ■ Differences in particle size distribution due to manufacturing methods ■ Differences in characteristics based on particle size distribution ■ Differential pressure characteristics (pressure loss) ■ Backwashing expansion and separation characteristics ■ Swelling ratio *For detailed content of the column, please refer to the related links. For more information, feel free to contact us.

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[Technical Column] Reaction Rate of Ion Exchange Resins

[Technical Column] Reaction Rate of Ion Exchange Resins

In methods for evaluating reaction rates, it is necessary to conduct tests under controlled conditions!

As an evaluation item for the performance of ion exchange resins, an important physical property alongside "ion exchange capacity" is "reaction rate." Generally, those with a large ion exchange capacity have a low reaction rate, while those with a small ion exchange capacity have a high reaction rate. Therefore, the priority of either characteristic depends on the application conditions. In this column, we introduce an example where a water solution is prepared in a beaker and ion exchange resin is added. *For detailed content of the column, please refer to the related links. For more information, feel free to contact us.*

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[Technical Column] Selectivity of Ion Exchange Resins

[Technical Column] Selectivity of Ion Exchange Resins

It is necessary to select appropriately based on the properties of the solution, such as the pH of the aqueous solution and the type of metal ions to be removed!

There are various types of ion exchange resins, and to select the appropriate type, it is necessary to recognize their characteristics. One particularly important characteristic is called "selectivity," which can be described as the "preferences of the ions" for the ion exchange resin. Additionally, the ease of adsorption varies depending on the type of ion exchange resin and the type of ions it reacts with, with characteristics such as "ions with higher valence are easier to adsorb" and "for elements in the same group, ions with a larger atomic number are easier to adsorb." In this column, we will provide a detailed explanation with reference to the periodic table and the selectivity coefficients of cation exchange resins and anion exchange resins. *For more detailed content of the column, please refer to the related links. For further inquiries, feel free to contact us.

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High Purity Ion Exchange Resin "Muromac SG Series"

High Purity Ion Exchange Resin "Muromac SG Series"

"Effective for the purification of aqueous and organic solvent-based chemicals and process liquids" Muromac SG Series

The Muromac SG series is a higher-grade product of our HG series. It is a newly developed high-purity ion exchange resin that enables the high purification of various chemicals and process liquids required in the manufacturing process of electronic industrial products. ● To minimize elution from the resin, impurities and TOC are reduced by addressing unreacted materials contained in the resin. ● Effective for the purification of aqueous and organic solvent-based chemicals and process liquids. ● Specializes in the removal of ionic impurities at levels below ppb (patented technology).

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