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When it comes to resin cotton, there are still many people who don't know what it is. In fact, there are many other names, such as non-rubber cotton, hot air cotton, Khmer elastic cotton and so on. The main components of resin cotton are polyester fibers and 4080 low melting point fibers. In the production process, 4080 low melting point fibers are used instead of adhesives, and the combing and netting technology is adopted. The product has good elasticity. The research and development of China resin manufacturers  has always been a professional level. Environmental friendly resin cotton has many characteristics. Because resin cotton has the characteristics of environmental protection, good elasticity and tasteless .   S unresin , one of China resin manufacturers seize the business opportunities, so it is widely used, such as sofas, mattresses, outdoor furniture, baby carriages, tatami and other software filling common in life can be used. The main application fields of re

There are many kinds of ion exchange resins, the most basic of which is anion cation exchange resins . The application fields of different types of ion-exchange resins are also different. What are the uses of different ion exchange resins? Now, Sunresin  will give you a brief explanation. Strong alkaline styrene anion exchange resin has good mechanical strength and heat resistance, so it is often used for water extraction and wastewater treatment, in addition, it is also used for lining non-toxic plastic bags. Macroporous strong alkaline styrene anion exchange resin has stable chemical properties and macroporous structure. Therefore, it is used to adsorb large-scale impurities and recover heavy metals. Strong acidic styrene cation exchange resin has the characteristics of high exchange capacity and fast speed, so it is mostly used in softening hard water, desalted water, food, sugar making, and pharmaceuticals. In a word, the use of different ion exchange resins is different.

Ion exchange resin contains a certain amount of water, which should be kept as much as possible during transportation and storage. If the resin is dehydrated during storage, it should be soaked in concentrated salt water (about 10%) and then diluted gradually. The resin should not be directly put in water to avoid rapid expansion and crushing. In long-term storage, strong resin should be changed into salt type, weak resin can be changed into hydrogen type or free alkali type, or salt type, and then immersed in clean water. During storage or transportation, resin should be kept in a temperature environment of 5-40 degrees C to avoid supercooling or overheating and affect quality. If there is no insulation equipment in winter, the resin can be stored in salt water, the concentration of salt water can be determined according to the temperature. The industrial products of ion exchange resins often contain a small amount of oligomers and monomers that do not participate in the reac

 Ion exchange resin contains a certain amount of water, which should be kept as much as possible during transportation and storage. If the resin is dehydrated during storage, it should be soaked in concentrated salt water (about 10%) and then diluted gradually. The resin should not be directly put in water to avoid rapid expansion and crushing. In long-term storage, strong resin should be changed into salt type, weak resin can be changed into hydrogen type or free alkali type, or salt type, and then immersed in clean water. During storage or transportation, resin should be kept in a temperature environment of 5-40 degrees C to avoid supercooling or overheating and affect quality. If there is no insulation equipment in winter, the resin can be stored in salt water, the concentration of salt water can be determined according to the temperature. The industrial products of ion exchange resins often contain a small amount of oligomers and monomers that do not participate in the rea

"Debittering" olives is a complex process. In their natural state, olive fruits are rich in a compound called phenol, which is unacceptable. If olive is to be squeezed into oil, its phenolic substances are not important. Most of them just need to be pressed to produce meat (just wait for the oil to be squeezed). However, edible olives must remove phenolics from them before they are eaten. At present, the main way to "debitter" olives is to soak them in water, or brine, or brine, and then soak them in sodium hydroxide solution. Later, it was found that tiny resin beads could be used to accomplish this task. Ion exchange resin is a high porosity polystyrene resin, which adds additional chemical groups to capture different kinds of molecules. There are many kinds of ion exchange resins on the market, usually in the form of hollow beads. These beads have larger surface areas than their volumes, maximizing the number of polymers available for reactions. Beads ar

SEPLITE ® Weak Base Anion Exchange Resin The Weak Base Anion  Exchange Resin with primary, secondary, tertiary amine or mixed amine group as active functional groups show different strengths of alkalinity. Most weak Base Anion Exchange Resins with mixed amine group equiped a extremely high operating capacity with the ability to remove both strong and weak acids from solution. There are two kinds of weak base anion exchange resins, Gel type and Macroporous type, which have acrylic backbone, styrene backbone or mixed backbone. Weak base anion exchange resins are more chemically stable and higher resistant to organic fouling than strong base anions. The weak base anion exchange resin  is easier to regenerate than the strong base resin, and can be efficiently regenerated with a small amount of sodium hydroxide. Weak base anion exchange resins are commonly used in pharmaceutical, food engineering, and chemical engineering, such as the removal of mineral acid, organic acids

"Debittering" olives is a complex process. In their natural state, olive fruits are rich in a compound called phenol, which is unacceptable. If olive is to be squeezed into oil, its phenolic substances are not important. Most of them just need to be pressed to produce meat (just wait for the oil to be squeezed). However, edible olives must remove phenolics from them before they are eaten. At present, the main way to "debitter" olives is to soak them in water, or brine, or brine, and then soak them in sodium hydroxide solution. Later, it was found that tiny resin beads could be used to accomplish this task. Ion exchange resin is a high porosity polystyrene resin, which adds additional chemical groups to capture different kinds of molecules. There are many kinds of ion exchange resins on the market, usually in the form of hollow beads. These beads have larger surface areas than their volumes, maximizing the number of polymers available for reactions. Beads ar

 Ion exchange resin contains a certain amount of water, which should be kept as much as possible during transportation and storage. If the resin is dehydrated during storage, it should be soaked in concentrated salt water (about 10%) and then diluted gradually. The resin should not be directly put in water to avoid rapid expansion and crushing. In long-term storage, strong resin should be changed into salt type, weak resin can be changed into hydrogen type or free alkali type, or salt type, and then immersed in clean water. During storage or transportation, resin should be kept in a temperature environment of 5-40 degrees C to avoid supercooling or overheating and affect quality. If there is no insulation equipment in winter, the resin can be stored in salt water, the concentration of salt water can be determined according to the temperature. The industrial products of ion exchange resins often contain a small amount of oligomers and monomers that do not participate in the rea

Ion exchange resin contains a certain amount of water, which should be kept as much as possible during transportation and storage. If the resin is dehydrated during storage, it should be soaked in concentrated salt water (about 10%) and then diluted gradually. The resin should not be directly put in water to avoid rapid expansion and crushing. In long-term storage, strong resin should be changed into salt type, weak resin can be changed into hydrogen type or free alkali type, or salt type, and then immersed in clean water. During storage or transportation, resin should be kept in a temperature environment of 5-40 degrees C to avoid supercooling or overheating and affect quality. If there is no insulation equipment in winter, the resin can be stored in salt water, the concentration of salt water can be determined according to the temperature. The industrial products of ion exchange resins often contain a small amount of oligomers and monomers that do not participate in the reac

SEPLITE ® Strong Acid Cation Exchange Resin The strongly acidic ion exchange resin  is the type of ion exchange resin with functional group of sulfonic acid The Strong Acid Cation Exchange Resins have two types, the gel and the macroporous type. The macroporous strong acid cation exchange resin shows an excellent dynamic characteristics. The gel type has excellent properties for industrial water softening and demineralization application. It has standard crosslinkage, which is usually used in mixed bed; the higher crosslinkage resin shows a longer operating life, and used in regenerable mixed bed. The Strong Acid Cation Exchange Resin shows an excellent physical and chemical stability, which operates at any pH(0-14), and are relatively stable to temperture, even in high temperatures of 100-120℃. The Strong Acid Cation Exchange Resin is applied in a wide variety of fields including water purification, water softening, waste water treatment, purification of pharmaceutica

SEPLITE ® Strong Base Anion Exchange Resin The Strong Base Anion Exchange Resin  ( sba resin )  is the type of ion exchange resin with functional group of quaternary ammonium, which is strongly alkaline and dissociates just like NaOH and KOH. In chemical structure, there are two types of strong base anion exchange resin with different alkalinity strengths, Type Ⅰ with a trimethyl ammonium group, Type Ⅱ with a dimethylethanol ammonium group. Type Ⅰ shows a higher alkaline than Type Ⅱ. Compared with type 1 strong base anion, this resin is more suitable for applications needing good rinsing performance and excellent regeneration efficiency. The strong base anion   shows an excellent physical and chemical stability, which is capable of exchanging the different anion under a wide range of pH. The Strong Base Anion Exchange Resin is mainly used in water treatment, to produce high purity demineralized water, making use of the ability to adsorb anions strongly. Typical App

4-(2', 4'-Dimethoxyphenyl-Fmoc-aminomethyl)-phenoxymethyl resin A mide r ink resin  is an excellent support for the Fmoc SPPS of peptide amides. This resin is more acid sensitive than Rink Amide-AM and Rink Amide-MBHA resins. Cleavage with high concentrations of TFA can lead to the breakdown of the linker, with the concomitant formation of by-products that can not be removed by simple washes. These problems appear to be minimized through the use of low TFA concentrations or by the addition of trialkylsilanes to the cleavage mixture. Product No. Particle size（mesh） Loading（mmol/g resin） LXSS07-1-1201 100-200; 200-400 0.3-0.6 LXSS07-1-1202 100-200; 200-400 0.6-0.8 LXSS07-1-1203 100-200; 200-400 0.8-1.0

4-(2',4'-Dimethoxyphenyl-Fmoc-aminomethyl)-phenoxyacetamido-AM resin This rink amide am resin  attached to aminomethyl resin, and is an ideal tool for the Fmoc SPPS of peptide amides. Cleavage from this resin can be effected by single step treatment with 95% TFA, providing peptide amides in high yields and purities. Product No. Particle size （mesh） Loading （mmol/g resin） LXSS08-1-1201 100-200; 200-400 0.3-0.6 LXSS08-1-1202 100-200; 200-400 0.6-0.8 LXSS08-1-1203 100-200; 200-400 0.8-1.0

SEPLITE ® Weak Base Anion Exchange Resin The Weak Base Anion  Exchange Resin with primary, secondary, tertiary amine or mixed amine group as active functional groups show different strengths of alkalinity. Most weak Base Anion Exchange Resins with mixed amine group equiped a extremely high operating capacity with the ability to remove both strong and weak acids from solution. There are two kinds of weak base anion exchange resins, Gel type and Macroporous type, which have acrylic backbone, styrene backbone or mixed backbone. Weak base anion exchange resins are more chemically stable and higher resistant to organic fouling than strong base anions. The weak base anion exchange resin  is easier to regenerate than the strong base resin, and can be efficiently regenerated with a small amount of sodium hydroxide. Weak base anion exchange resins are commonly used in pharmaceutical, food engineering, and chemical engineering, such as the removal of mineral acid, organic acids