Description
AAEM Monomer / Acetylacetoxyethyl methacrylate CAS 21282-97-3
| Item | Specification |
| CAS No | 21282-97-3 |
| Color(Pt-Co),Hazen | 10 |
| Pueity,% ≥ | 95 |
| Water content,% ≤ | 0.1 |
| VAcidity(as methacrylic acid),% ≤ | 0.5 |
This product is used in low VOC solvent based coating resins to reduce viscosity. Improves the elasticity and toughness of coatings, reduces the glass transition temperature Excellent elasticity and corrosion resistance. Reacts with commonly used cross-linkers such as dense amines (melamine) and isocyanates. Room temperature film formation without isocyanate cross-linking. The enamine structure can react with aldehydes and hydrazides through the Michael reaction. Chelating metal ions by chelating action improves adhesion to metal layers. Excellent adhesion ability under humid environment Acetoacetate esterified polymers pesticide intermediates high solid acrylic resin solution for light curing reactive monomers crosslinker polymers cosmetic polymers pharmaceutical intermediates self-crosslinking acrylic emulsions can be a substitute for N-hydroxymethacrylamide, bis(acetone)acrylamide, HEMA, etc., the reaction is better controlled, the product performance is better.
Other Name:
Acetylacetoxyethyl methacrylate;
Ethylene Glycol Monoacetoacetate Monomethacrylate;
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| CHLUMICRYL® AAEM Monomer | CAS 21282-97-3 | Acetylacetoxyethyl methacrylate |
| CHLUMICRYL® ADAMA Monomer | CAS 16887-36-8 | 1-Adamantyl Methacrylate |
| CHLUMICRYL® AMA Monomer | CAS 96-05-9 | Allyl methacrylate |
| CHLUMICRYL® BDDMA | CAS 2082-81-7 | 1,4-Butanedioldimethacrylate |
| CHLUMICRYL® BDDMP Monomer | CAS 92140-97-1 | 1,4-Butanediol Di(3-mercaptopropionate) |
| CHLUMICRYL® Bis-GMA Monomer | CAS 1565-94-2 | Bisphenol A Glycidyl Methacrylate |
| CHLUMICRYL® BZA Monomer | CAS 2495-35-4 | benzyl prop-2-enoate |
| CHLUMICRYL® BZMA Monomer | CAS 2495-37-6 | Benzyl methacrylate |
| CHLUMICRYL® CHA Monomer | CAS 3066-71-5 | cyclohexyl prop-2-enoate |
| CHLUMICRYL® CHMA | CAS 101-43-9 | Cyclohexyl methacrylate |
| CHLUMICRYL® DCPA Monomer | CAS 12542-30-2 | Dihydrodicyclopentadienyl Acrylate |
| CHLUMICRYL® DCPEMA Monomer | CAS 68586-19-6 | Dicyclopentenyloxyethyl Methacrylate |
| CHLUMICRYL® DCPMA Monomer | CAS 30798-39-1 | Dihydrodicyclopentadienyl methacrylate |
| CHLUMICRYL® DEAEA Monomer | CAS 2426-54-2 | 2-(diethylamino)ethyl prop-2-enoate |
| CHLUMICRYL® DEAM Monomer | CAS 105-16-8 | Diethylaminoethyl methacrylate |
| CHLUMICRYL® DMAEA Monomer | CAS 2439-35-2 | Dimethylaminoethyl acrylate |
| CHLUMICRYL® DMAEMA | CAS 2867-47-2 | N,M-Dimethylaminoethyl methacrylate |
| CHLUMICRYL® DMES | CAS 3570-55-6 | 2,2′-Thiodiethanethiol/Bis(2-mercaptoethyl) sulfide/Dimercapto diethyl sulfide/THIOCURE DMDS/Polythiol DMDS/Mercaptan DMDS |
| CHLUMICRYL® DMPT | CAS 131538-00-6 | THIOCURE DMPT |
| CHLUMICRYL® ECPMA Monomer | CAS 266308-58-1 | 1-Ethylcyclopentyl Methacrylate |
| CHLUMICRYL® EEMA | CAS 2370-63-0 | 2-ethoxyethyl 2-methylprop-2-enoate |
| CHLUMICRYL® EGDMA Monomer | CAS 97-90-5 | Ethylene glycol dimethacrylate |
| CHLUMICRYL® EGDMP Monomer | CAS 22504-50-3 | Ethylene glycol Bis(3-mercaptopropionate) |
| CHLUMICRYL® EHMA | CAS 688-84-6 | 2-Ethylhexyl methacrylate |
| CHLUMICRYL® EMA Monomer | CAS 97-63-2 | Ethyl methacrylate |
| CHLUMICRYL® EO10-BPADA Monomer | CAS 64401-02-1 | ethoxylated bisphenol A diacrylate |
| CHLUMICRYL® EO4-BPADA Monomer | CAS 64401-02-1 | ethoxylated bisphenol A diacrylate |
| CHLUMICRYL® HDCPA Monomer | CAS 79637-74-4 | Dicyclopentenyl acrylate (hydrogenation) |
| CHLUMICRYL® IBA Monomer | CAS 106-63-8 | Isobutyl acrylate |
| CHLUMICRYL® i-BMA | CAS 97-86-9 | Isobutyl methacrylate |
| CHLUMICRYL® MCPMA Monomer | CAS 178889-45-7 | 1-Methylcyclopentyl Methacrylate |
| CHLUMICRYL® MEMA | CAS 6976-93-8 | 2-Methoxyethyl Methacrylate |
| CHLUMICRYL® MPEG Monomer | CAS 26915-72-0 | MPEG Monomer |
| CHLUMICRYL® Muscomer Tricyclodecanedimethanol | CAS 26896-48-0 | Muscomer Tricyclodecanedimethanol |
| CHLUMICRYL® N,N-Dimethyl Acrylamide | CAS 2680-03-7 | N,N-Dimethyl Acrylamide |
| CHLUMICRYL® n-BMA | CAS 97-88-1 | n-Butyl methacrylate |
| CHLUMICRYL® PETMP Monomer | CAS 7575-23-7 | PETMP Monomer |
| CHLUMICRYL® Polythiol PM839 | CAS 72244-98-5 | Polythiol PM839 |
| CHLUMICRYL® TBAEMA | CAS 3775-90-4 | 2-(Tert-butylamino)ethyl methacrylate |
| CHLUMICRYL® THFMA Monomer | CAS 2455-24-5 | Tetrahydrofurfuryl methacrylate |
| CHLUMICRYL® ACMO Monomer | CAS 5117-12-4 | 4-acryloylmorpholine |
| CHLUMICRYL® DCPEOA Monomer | CAS 65983-31-5 | Dicyclopentenyloxyethyl Acrylate |
| CHLUMICRYL® DI-TMPTA Monomer | CAS 94108-97-1 | DI(TRIMETHYLOLPROPANE) TETRAACRYLATE |
| CHLUMICRYL® DPGDA Monomer | CAS 57472-68-1 | Dipropylene Glycol Dienoate |
| CHLUMICRYL® DPHA Monomer | CAS 29570-58-9 | Dipentaerythritol hexaacrylate |
| CHLUMICRYL® EO3-TMPTA Monomer | CAS 28961-43-5 | Ethoxylated trimethylolpropane triacrylate |
| CHLUMICRYL® EOEOEA Monomer | CAS 7328-17-8 | 2-(2-Ethoxyethoxy)ethyl acrylate |
| CHLUMICRYL® GPTA ( G3POTA ) Monomer | CAS 52408-84-1 | GLYCERYL PROPOXY TRIACRYLATE |
| CHLUMICRYL® HDDA Monomer | CAS 13048-33-4 | Hexamethylene Diacrylate |
| CHLUMICRYL® HEMA Monomer | CAS 868-77-9 | 2-hydroxyethyl methacrylate |
| CHLUMICRYL® HPMA Monomer | CAS 27813-02-1 | 2-Hydroxypropyl methacrylate |
| CHLUMICRYL® IBOA Monomer | CAS 5888-33-5 | Isobornyl acrylate |
| CHLUMICRYL® IBOMA | CAS 7534-94-3 | Isobornyl methacrylate |
| CHLUMICRYL® IDA Monomer | CAS 1330-61-6 | Isodecyl acrylate |
| CHLUMICRYL® IPAMA Monomer | CAS 297156-50-4 | 2-isopropyl-2-adamantyl methacrylate |
| CHLUMICRYL® LMA Monomer | CAS 142-90-5 | Lauryl methacrylate |
| CHLUMICRYL® NP-4EA Monomer | CAS 50974-47-5 | (4) ethoxylated nonylphenol |
| CHLUMICRYL® NPGDA Monomer | CAS 2223-82-7 | Neopentyl glycol diacrylate |
| CHLUMICRYL® PDDA | Phthalate diethylene glycol diacrylate | |
| CHLUMICRYL® PEGDA Monomer | CAS 26570-48-9 | Polyethylene Glycol Diacrylate |
| CHLUMICRYL® PEGDMA Monomer | CAS 25852-47-5 | Poly(ethylene glycol) dimethacrylate |
| CHLUMICRYL® PETA Monomer | CAS 3524-68-3 | PETA; 2-(Hydroxymethyl)-2-[[(1-oxoallyl)oxy]methyl]-1,3-propanediyl diacrylate; 3-(acryloyloxy)-2-[(acryloyloxy)methyl]-2-(hydroxymethyl)propyl acrylate |
| CHLUMICRYL® PHEA Monomer | CAS 48145-04-6 | 2-PHENOXYETHYL ACRYLATE |
| CHLUMICRYL® PO2-NPGDA | CAS 84170-74-1 | |
| CHLUMICRYL® TEGDMA Monomer | CAS 109-16-0 | Triethylene glycol dimethacrylate |
| CHLUMICRYL® THFA Monomer | CAS 2399-48-6 | Tetrahydrofurfuryl acrylate |
| CHLUMICRYL® TMPTA Monomer | CAS 15625-89-5 | Trimethylolpropane triacrylate |
| CHLUMICRYL® TMPTMA Monomer | CAS 3290-92-4 | Trimethylolpropane trimethacrylate |
| CHLUMICRYL® TPGDA Monomer | CAS 42978-66-5 | Tripropylene glycol diacrylate |
| CHLUMICRYL® UV Functional Monomers | Acrylic Monomers |
Some industry trends and achievements are obvious! By the resin film-forming agent and other raw material price inflation and property market turnover of the shock of the fall, the coatings industry has begun to swing up again, not in the calm. Rising raw materials or will lead directly to the price of paint products, thus causing a major reshuffle in the paint industry. Specific things towards, remains to be seen!
At present, there have been a number of coatings raw materials enterprises formally announced that they will increase product prices, and the wide range of coatings raw materials prices, whether it will prompt the paint companies to increase product prices to maintain the pressure of rising costs, or an uncertainty, however, with the changes in the upstream and downstream markets of the coatings, the paint industry or will usher in another market change. Just in these two days TDI wildly rose 6000 yuan! This is a data that makes people in the industry scared to pee!!!! It is reported that the global de-capacification led to TDI, MDI supply and demand imbalance, the future trend will only remain high.
In Japan, Mitsui announced the permanent closure of Kashima 120,000 tonnes TDI device, France Vencorex shut down its 126,000 tonnes TDI device, Mitsui Omuta, Basf South Korea Yeosu, as well as China’s Yantai Juli device focused on maintenance, and Covestro U.S. Baytown device force majeure parking, the major chemical giants have to declare force majeure on the European MDI and TDI! With these chemical giants have ‘parking’, and the chemical industry has a close connection with the coatings industry to ask how to be spared. This heralds the paint industry ‘winter’ is now just coming.
This year, due to real estate, automotive and other important market adjustments, the coating industry is facing downward economic growth and rising costs of the double pressure, labour, environmental protection, safety requirements are getting higher and higher, and intensify the coating market’s brutal competition, the survival of the fittest, the trend of industry mergers and reorganisations are gradually clearing up. In such a complex economic environment, but also accelerated China’s coatings industry is in the structural adjustment and transformation and upgrading of the arrival of the critical period: domestic demand will continue to expand, technological innovation will become the main theme of the industry’s development, cleaner production, energy saving and environmental protection, recycling economy, high functionality and other processes or products will become the industry’s development of new growth points.
However, the ‘winter’ is not the end of the road, because hope is around the corner. The so-called ‘winter’ is just a policy adjustment under the transformation of a season of adjustment and integration. Such a season contains unlimited hope. We can cross the ‘winter’ to see the hope: no matter how the current industry is affected by the rising pressure of raw materials, architectural coatings, marine coatings and other areas of the situation how bad, China’s coatings industry is still a high-growth industry containing a lot of business opportunities and hope.
Experts believe that, even if it is cold, the industry will still see the emergence of high-growth enterprises, or the emergence of new enterprises and new business models. So how do these companies actually know their own winter, and develop an effective winter plan for their own sustained growth? In the face of the current industry downturn, the mainstream coatings companies have been in the practice of upgrading products, energy saving, environmental protection is becoming an industry trend, industrial upgrading is also accelerating, which will help China’s coatings industry a solid foundation and enhance competitiveness.
With the improvement of the consumption level and the change of consumer concept, consumer demand for paint is gradually from the original single function, a single product to the diversification of function change, can let consumers feel the charm of science and technology, access to colour and emotional experience and in line with the green trend of paint products will be more popular in the market.
All said and done, or to paint enterprises have awareness, to ensure product quality at the same time, continuous innovation, improve the overall competitiveness of the enterprise itself, and only then in order to preserve their own at the same time, but also walk in the front of the industry. Without further ado, paint companies hurry up and take action!
Elijah Kim –
Ordering was a breeze, and the delivery was speedy. Highly recommended!