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  • 2-Hydroxypropyl methacrylate

    2-Hydroxypropyl methacrylate

    nature Hydroxypropyl methacrylate (HPMA) is a commonly used polymer material. 1. Appearance: The appearance of hydroxypropyl methacrylate is a colorless transparent liquid 2. Solubility: Soluble in water and also in most organic solvents, such as alcohols, ethers, esters, and aromatics. 4. Density: The density of hydroxypropyl methacrylate is 1.11-1.18 g/cm3. 6. Chemical stability: It has good chemical stability, is not easy to decompose, and will not react with most chemical substances. 7. Thermal stability: Hydroxypropyl methacrylate has good thermal stability, and its thermal stability is relatively high at high temperatures. 8. Oxidation stability: It has a certain resistance to oxidation and is not prone to oxidation and deterioration. Preparation 1. Add initiators such as hydroxypropyl methacrylate (HPMA) and hydrogen peroxide to the reactor, as well as an appropriate amount of solvents (such as methanol, ethanol, etc.). 2. Seal and shake the reaction kettle or heat it to react, causing the initiator to crack at an appropriate temperature, resulting in free radical polymerization of HPMA. After the reaction is completed, precipitate or precipitate the product with acidic water or organic solvents. 4. Filter and collect the product, wash and dry to obtain the pure product. The above is a simple preparation process for hydroxypropyl methacrylate, and the specific operating parameters and process flow may vary depending on different preparation methods and requirements. application 1. Paint and ink industry: it can be added to paint and ink as lotion and diluent to improve its viscosity, rheology and adhesion. 2. Cosmetics: Can be used in cosmetic products, such as hair gel, curling agents, sunscreen, etc., to thicken, moisturize, and prevent sun damage. 3. Daily necessities: It can be added as a thickener to daily necessities, such as detergents, facial cleansers, toothpaste, etc. 4. Pharmaceutical field: It can be used in drug sustained-release systems, such as artificial joint lubricants or eye drops for injection. In the future, with the continuous development of technology, the application prospects of hydroxypropyl methacrylate will become increasingly broad. For example, in the fields of biomedicine and drug delivery, cell delivery, and the preparation of nanomaterials, polymer materials such as hydroxypropyl methacrylate are also useful

    Tags : 2-Hydroxypropyl methacrylate 2-HPMA

  • 2-Hydroxy Ethyl Methacrylate CAS: 868-77-9

    2-Hydroxy Ethyl Methacrylate CAS: 868-77-9

    Hydroxyethyl methacrylate (HEMA) is a non-toxic, harmless, and widely used reagent, commonly used for soft lens materials, lens materials, or as a monomer for preparing dense ceramics and glass. Polyhydroxyethyl methacrylate (PHEMA) is a promising biopolymer with significant inertness, biocompatibility, and insolubility. Method 1: Place 100 ml of toluene, 62.1 (1 mol) parts of ethylene glycol, and enzymes (Novozym 435, 0.04 parts, 0.01 parts of sodium carbonate, and 0.01 parts of hydroquinone manufactured by Novo) into a 1-liter glass flask connected to a cooling tube receiver (for measuring moisture) and a reflux side tube, and heat to 40 ° C. 72.1 parts (1mol) of acrylic acid were added in batches within 10 minutes, while stirring step by step. After completing the total addition, the mixture was stirred at the same temperature under reduced pressure of 10mPa. After the reaction, the target acrylate was obtained by filtering and separating the catalyst and additives. The time required for the reaction is approximately 6 hours. The yield and composition of the obtained acrylate were determined by gas chromatography (hereinafter abbreviated as GC). [0044] [Example 2] [0045] Except for changing 72.1 parts (1 mol) of acrylic acid to 86.1 parts (1 mol) of methacrylic acid in Example 1, the target compound was obtained in a similar manner to Example 1. The time required for the reaction is approximately 5 hours. The yield of hydroxyethyl methacrylate (HEMA) was 98.5% by gas chromatography. The synthesis is continuous as shown in Figure 1. Method 2: Add 31.05g ethylene glycol (EG, 0.5mol), 47.35g (0.55mol) methacrylic acid, 40g (inside, 22g water in the catalyst before use, 18g dry weight) strong acid ion exchange resin (Amberlite IR124: gel type, 12% cross-linking degree, no pore), 0.086g HO-TEMPO, 0.086g hydroquinone and 200g toluene into a 500ml glass flask equipped with Dean Stark device, cooling pipe, thermometer and air inlet pipe, Then heat and stir at 100 ℃, while using a pump to add water at a rate of 2g/h. The water formed in the reaction is azeotropic with toluene and removed through the Dean Stark device. After 5 hours, the conversion rate of hydroxyethyl methacrylate was 87.3%. The synthesis is continuous as shown in Figure 1. purpose Hydroxyethyl methacrylate is mainly used for modifying resins and coatings. Copolymerization with other acrylic monomers can produce acrylic resins with active hydroxyl groups in the side chains, which can undergo esterification and crosslinking reactions, synthesize insoluble resins, improve adhesion, and can be used as fiber treatment agents. It reacts with melamine formaldehyde (or urea formaldehyde) resin, epoxy resin, etc. to manufacture two component coatings. Adding it to high-end car paint can maintain the mirror gloss for a long time. It can also be used as an adhesive for synthetic textiles and as a medical polymer monomer

    Tags : 2-Hydroxy Ethyl Methacrylate CAS: 868-77-9 C6H10O3 HEMA

  • 2-hydroxy ethyl methacrylate CAS: 868-77-9

    2-hydroxy ethyl methacrylate CAS: 868-77-9

    Hydroxyethyl methacrylate (HEMA) is a non-toxic, harmless, and widely used reagent, commonly used for soft lens materials, lens materials, or as a monomer for preparing dense ceramics and glass. Polyhydroxyethyl methacrylate (PHEMA) is a promising biopolymer with significant inertness, biocompatibility, and insolubility. Method 1: Place 100 ml of toluene, 62.1 (1 mol) parts of ethylene glycol, and enzymes (Novozym 435, 0.04 parts, 0.01 parts of sodium carbonate, and 0.01 parts of hydroquinone manufactured by Novo) into a 1-liter glass flask connected to a cooling tube receiver (for measuring moisture) and a reflux side tube, and heat to 40 ° C. 72.1 parts (1mol) of acrylic acid were added in batches within 10 minutes, while stirring step by step. After completing the total addition, the mixture was stirred at the same temperature under reduced pressure of 10mPa. After the reaction, the target acrylate was obtained by filtering and separating the catalyst and additives. The time required for the reaction is approximately 6 hours. The yield and composition of the obtained acrylate were determined by gas chromatography (hereinafter abbreviated as GC). [0044] [Example 2] [0045] Except for changing 72.1 parts (1 mol) of acrylic acid to 86.1 parts (1 mol) of methacrylic acid in Example 1, the target compound was obtained in a similar manner to Example 1. The time required for the reaction is approximately 5 hours. The yield of hydroxyethyl methacrylate (HEMA) was 98.5% by gas chromatography. The synthesis is continuous as shown in Figure 1. Method 2: Add 31.05g ethylene glycol (EG, 0.5mol), 47.35g (0.55mol) methacrylic acid, 40g (inside, 22g water in the catalyst before use, 18g dry weight) strong acid ion exchange resin (Amberlite IR124: gel type, 12% cross-linking degree, no pore), 0.086g HO-TEMPO, 0.086g hydroquinone and 200g toluene into a 500ml glass flask equipped with Dean Stark device, cooling pipe, thermometer and air inlet pipe, Then heat and stir at 100 ℃, while using a pump to add water at a rate of 2g/h. The water formed in the reaction is azeotropic with toluene and removed through the Dean Stark device. After 5 hours, the conversion rate of hydroxyethyl methacrylate was 87.3%. The synthesis is continuous as shown in Figure 1. purpose Hydroxyethyl methacrylate is mainly used for modifying resins and coatings. Copolymerization with other acrylic monomers can produce acrylic resins with active hydroxyl groups in the side chains, which can undergo esterification and crosslinking reactions, synthesize insoluble resins, improve adhesion, and can be used as fiber treatment agents. It reacts with melamine formaldehyde (or urea formaldehyde) resin, epoxy resin, etc. to manufacture two component coatings. Adding it to high-end car paint can maintain the mirror gloss for a long time. It can also be used as an adhesive for synthetic textiles and as a medical polymer monomer

    Tags : CAS No. 868-77-9 2-hydroxy ethyl methacrylate

  • 2-HYDROXYPROPYL ACRYLATE  CAS NO.:25584-83-2

    2-HYDROXYPROPYL ACRYLATE CAS NO.:25584-83-2

    Chemical properties This product is a transparent liquid with a chromaticity below 30. Relative density 1.0536, boiling point 77 ℃ (666.61Pa), refractive index 1.4443, flash point (open cup) 100 ℃, freezing point below -60 ℃. The glass transition temperature of the polymer is -70 ℃. Dissolve in water and general organic solvents. It can be mixed with water in any proportion. Purpose It can be used as a modifier in the production of thermosetting coatings, adhesives, fiber treatment agents, and synthetic resin copolymers. It can also be used as one of the main cross-linking functional group monomers for acrylic resins. Production method Acrylic acid and epoxy propane undergo an addition reaction in the presence of a catalyst and polymerization inhibitor to produce a crude product of 2-hydroxypropyl acrylate, which is then degassed and distilled to obtain the final product. Acrylic acid is obtained by oxidation of propylene or hydrolysis of acrylonitrile.

    Tags : 2-HYDROXYPROPYL ACRYLATE CAS NO.:25584-83-2 2-HPA

  • 2-Hydroxyethyl acrylate CAS NO :818-61-1

    2-Hydroxyethyl acrylate CAS NO :818-61-1

    Hydroxyethyl acrylate is used as an additive for lubricating oil washing in the oil and fat industry, and as a dehydrating agent for electron microscopes in the electronics industry. Adhesives used in the textile industry to manufacture fabrics. In addition, it is used as a chemical reagent in analytical chemistry and also as an embedding agent for water solubility. Place 108g (1.5mmol) of acrylic acid, 88g (2mol) of ethylene oxide, and 2g (0.019mol) of triethylamine used for the production of 2-hydroxyethyl acrylate in a 1L high-pressure vessel, heat at 70 ℃, and stir for 12 hours. After heating, cool it to room temperature, and then distill the resulting reaction mixture under reduced pressure (64 71 ° C/0.3KPa) to obtain 164g (1.41mol; yield 94%) of hydroxyethyl acrylate. Hydroxyethyl acrylate is used as an active diluent and crosslinking agent in radiation curing systems, as well as as as a resin crosslinking agent, plastic, and rubber modifier.

    Tags : 2-Hydroxyethyl acrylate 2-HEA CAS NO :818-61-1

  • Hexamethyldisilazane(HMDZ) CAS NO: 999-97-3

    Hexamethyldisilazane(HMDZ) CAS NO: 999-97-3

    Product name: Hexamethyldisilazane(HMDZ) CAS NO: 999-97-3 Assay: 99% Instruction for use: organic intermediate MF:C6H19NSi2 EIENECS NO:213-668-5

    Tags : Hexamethyldisilazane Quality service Hexamethyldisilazane CAS NO: 999-97-3 HMDZ Fast delivery Hexamethyldisilazane Factory direct sales Hexamethyldisilazane

  • Heptamethyldisilazane(HPMDZ) CAS NO.920-68-3

    Heptamethyldisilazane(HPMDZ) CAS NO.920-68-3 as Silicone origin from China.

    Name:  Heptamethyldisilazane CAS No.:  920-68-3 Molecular formula: C7H21NSi2 Molecular weight: 175.42 UN Number: 2924 Product standard: HG/T 5797-2021 Appearance: Colorless transparent liquid

    Tags : Heptamethyldisilazane(HPMDZ) CAS NO.920-68-3 Heptamethyldisilazane CAS NO.920-68-3 HPMDZ CAS NO.920-68-3 N,1,1,1-tetramethyl-N-(trimethylsilyl)silylamine CAS 920-68-3 HPMDZ CAS 134340-00-4 HPMDZ CAS 37074-17-2

  • Methyldiphenylchlorosilane CAS NO.144-79-6

    Methyldiphenylchlorosilane CAS NO.144-79-6 as Silicone origin from China.

    Name: Methyldiphenylchlorosilane CAS No.: 144-79-6 Appearance: Colorless transparent irritating liquid Molecular weight: 232.78 Relative density: 1.107 Purity: ≥ 98.0% Flash point: 230 ℃ Boiling point: 295 ℃ Melting point: -22 ℃ Refractive index nD20:1.6480

    Tags : Methyldiphenylchlorosilane CAS NO.144-79-6 Diphenylmethylchlorosilane CAS NO.144-79-6 Chlorodiphenylmethylsilane CAS NO.144-79-6 CAS NO.144-79-6 C13H13ClSi Methyldiphenylchlorosilane CAS 144-79-6

  • Chlorodimethylphenylsilane CAS NO.768-33-2

    Chlorodimethylphenylsilane CAS NO.768-33-2 as Silicone origin from China.

    Name:  Chlorodimethylphenylsilane CAS No.:  768-33-2 Appearance: Colorless or light yellow liquid Molecular weight: 170.71 Relative density: 1.032 Purity: ≥98.0% Flash point: 61℃ Boiling point: 198℃ Melting point: <0℃ Refractive index nD20:1.506-1.510

    Tags : Chlorodimethylphenylsilane CAS NO.768-33-2 Phenyldimethylchlorosilane CAS NO.768-33-2 Dimethylphenylchlorosilane CAS NO.768-33-2 DMPSCl CAS NO.768-33-2 chlorodimethyl(phenyl)silane CAS NO.768-33-2 C8H11ClSi

  • Methoxytriphenylsilane CAS NO.1829-41-0

    Methoxytriphenylsilane CAS NO.1829-41-0 as Silicone origin from China.

    Name: Methoxytriphenylsilane CAS No.: 1829-41-0 Appearance: White powdery crystals Molecular weight: 290.43 Bulk density: 1.08 Purity: ≥98% Flash point: No data available Boiling point: 165℃ Melting point: 57℃ Refractive index nD20: No data

    Tags : Methoxytriphenylsilane CAS NO.1829-41-0 Methoxytriphenylsilane CAS 1829-41-0 C19H18OSi C19H18OSi CAS NO.1829-41-0

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