Description
EO3-TMPTA Monomer / Ethoxylated trimethylolpropane triacrylate CAS 28961-43-5
| Appearance | Colorless or light yellow clear liquid |
| Solid Content(wt) | ≥99.0% |
| Color (Pt-Co) | ≤60APHA |
| Viscosity @25 deg. C | 45-80cps |
| Acid Value | ≤1.0mg KOH/g |
| Moisture (K.F) | ≤0.2% |
EO3-TMPTA Applications
In terms of the versatility of its applications, EO3-TMPTA can be considered “versatile” and performs well in many coatings and printing fields. In terms of wood coatings, wood, as a traditional and widely used building and decorative material, has always attracted attention for its surface protection and decorative needs. Wood coatings formulated with EO3-TMPTA can provide wood with excellent wear and weather resistance, effectively preventing wood from problems such as decay, discoloration and deformation due to long-term exposure to the natural environment. For example, the use of coatings containing EO3-TMPTA on outdoor wooden structures such as wooden houses and boardwalks, as well as high-quality indoor wooden furniture, can significantly extend the service life of the wood while maintaining its attractive appearance and good texture.
When it comes to PVC coatings, PVC materials are widely used in many industries such as construction, packaging, and electronics due to their unique physical and chemical properties. However, they also face problems such as poor scratch resistance and poor gloss retention. The addition of EO3-TMPTA . Through its efficient radiation curing reaction mechanism, it can form a tightly cross-linked polymer network, enhancing the hardness and wear resistance of the PVC coating. This makes the surface of the PVC product less prone to damage during long-term use, and it can maintain good gloss and color stability. Take common PVC pipes and decorative panels as an example. After being treated with EO3-TMPTA modified coatings, not only do they have a brighter appearance, but they also better resist external friction and impact during daily handling, installation and use, reducing the occurrence of surface scratches and wear, thereby improving product quality and added value.
In the field of plastic coatings, there are many different types of plastics, each with its own unique surface characteristics and performance requirements. EO3-TMPTA, with its good compatibility and reactivity, can closely bond with different types of plastic substrates to provide excellent protection and decorative effects for plastics. For some high-performance plastics, such as engineering plastics used in automotive parts and electronic equipment housings, the use of coatings containing EO3-TMPTA can improve the surface hardness, chemical resistance and UV resistance of the plastic, meeting the requirements of these products in complex use environments. For example, plastic parts in automotive interiors treated with this coating not only resist daily scratches and chemical attacks, but also maintain their color vibrancy in long-term light exposure, improving the overall quality and durability of the automotive interior.
Metal coatings are also an important area where EO3-TMPTA excels. Metal materials are widely used in industrial production and daily life, but metals are susceptible to problems such as oxidation and corrosion. Metal coating systems involving EO3-TMPTA can form a dense protective film on the metal surface, effectively blocking the intrusion of oxygen, moisture and other corrosive media, thereby significantly improving the corrosion resistance of the metal. At the same time, through reasonable formulation design, it can also give the metal coating good adhesion, flexibility and decorative properties, making it widely used in industries such as architectural curtain walls, metal furniture, and machinery manufacturing. For example, in the surface protection of some large steel buildings, the use of metal coatings containing EO3-TMPTA not only ensures that the building does not rust in the long-term wind and rain, but also can present different colors and gloss effects according to design requirements, achieving the dual goals of protection and aesthetics.
EO3-TMPTA also plays an indispensable role in the printing industry. In offset printing inks, with the continuous increase in printing speed and the increasingly stringent requirements for printing quality, the drying speed and curing properties of the ink have become key factors. EO3-TMPTA, as a radiation-curing monomer, can undergo a rapid polymerization reaction under the action of a radiation source such as ultraviolet light, achieving rapid drying and curing of the ink. This greatly improves printing production efficiency, while at the same time reducing the problem of smudging and adhesion of the printed matter during the drying process, ensuring the clarity and vibrancy of the printed matter. For example, in the printing process of some high-quality commercial printed products, such as exquisite picture albums and magazine covers, the use of offset printing inks containing EO3-TMPTA can make the printed patterns clearer and sharper, and the colors more full and bright, meeting the market demand for high-quality printed products.
In the field of flexographic printing and screen printing, due to the particularity of the printing method, there are unique requirements for the rheological and curing properties of the ink. The addition of EO3-TMPTA can optimize the rheological properties of the ink, giving it better transferability and printability during the printing process. At the same time, radiation curing can achieve rapid drying, improve production efficiency and expand the application scope of these two printing methods. For example, in the fields of food packaging and label printing, flexographic and screen printing using inks containing EO3-TMPTA can meet the requirements of fast production and environmental protection while ensuring print quality, providing a reliable solution for product packaging and labeling.
In addition, EO3-TMPTA also makes a unique contribution in the field of varnishes. Varnishes are mainly used to protect and decorate the surface of objects, while also displaying the original texture and color of the object. Varnish formulations with EO3-TMPTA provide good hardness, abrasion resistance and chemical resistance, so that the varnish can protect the surface of the object while maintaining a long-lasting luster and transparency. For example, in the varnish treatment of some high-end wooden handicrafts and musical instrument surfaces, the use of varnishes containing EO3-TMPTA not only highlights the natural texture and feel of the wood, but also provides long-lasting protection against daily wear and tear and stains on the surface, extending the service life and artistic value of the handicrafts and musical instruments.
Looking to the future, with the continuous advancement of technology and people’s ever-increasing demand for material performance, we can imagine that if the molecular structure and synthesis process of EO3-TMPTA can be further optimized, is it possible to develop a radiation-curable monomer with even more outstanding performance? For example, by introducing new functional groups or changing the length and branching structure of the molecular chain, a more perfect balance can be achieved in terms of curing speed, hardness, flexibility, adhesion, and environmental performance. This will not only bring new technological breakthroughs and product upgrades to the existing coatings and printing industries, but also expand their applications in emerging fields such as 3D printing materials and electronic packaging materials, opening up broader prospects for the development of materials science.
EO3-TMPTA Packaging and Shipping
Packing:25kg/drum or 200 kg/drum
Delivery:with in 5-7 working days.
EO3-TMPTA Storage
Being kept in dry, clean warehouse with well ventilation.
Avoid exposing to light and heating.
Protecting the product from leakage, rain and insolation during transportation.
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| 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 |
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