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HS Code |
931339 |
| Chemical Name | Triglycidyl Isocyanurate |
| Cas Number | 2451-62-9 |
| Appearance | White crystalline powder |
| Molecular Weight | 297.24 g/mol |
| Melting Point | 90-110°C |
| Solubility | Insoluble in water, soluble in organic solvents |
| Purity | ≥99% |
| Application | Crosslinker in polyester powder coatings |
| Storage Temperature | Below 25°C, dry conditions |
| Flash Point | >200°C |
| Toxicity | May cause irritation to skin and eyes |
| Density | 1.42 g/cm3 |
| Stability | Stable under recommended conditions |
| Functional Groups | Epoxy (glycidyl) groups |
| Odor | Odorless |
As an accredited TGIC for Powder Coating factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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Purity 99%: TGIC for Powder Coating with purity 99% is used in architectural aluminum profiles, where it ensures superior weather resistance and color retention. Melting Point 210°C: TGIC for Powder Coating with a melting point of 210°C is used in automotive parts coating, where it delivers excellent curing efficiency and film formation. Particle Size <45μm: TGIC for Powder Coating with particle size less than 45μm is used in electronic appliance enclosures, where it achieves smooth surface finish and uniform coverage. Low Viscosity Grade: TGIC for Powder Coating of low viscosity grade is used in metal furniture applications, where it promotes optimal flow and minimizes surface defects. Hydrolytic Stability: TGIC for Powder Coating with high hydrolytic stability is used in outdoor exposed steel structures, where it provides long-term durability under humid conditions. Thermal Stability up to 240°C: TGIC for Powder Coating with thermal stability up to 240°C is used in industrial equipment coatings, where it maintains mechanical properties after high-temperature exposure. Molecular Weight 297 g/mol: TGIC for Powder Coating with molecular weight 297 g/mol is used in general industrial coatings, where it offers balanced crosslinking density for improved mechanical strength. Free Acid Content <1.0%: TGIC for Powder Coating with free acid content below 1.0% is used in pipeline coatings, where it reduces yellowing and enhances corrosion resistance. |
| Packing | TGIC for Powder Coating is packaged in 25kg net weight fiber drums with inner polyethylene liners for safe, moisture-proof storage. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): 16MT packed in 640 drums, each 25kg net, on wooden pallets, shrink-wrapped for export safety. |
| Shipping | TGIC for powder coating is shipped in tightly sealed, moisture-proof bags or drums, typically lined with polyethylene. Containers are packed in sturdy cartons or on pallets to prevent damage during transit. Products are labeled according to regulations, and shipping is managed to avoid extreme temperatures and humidity, ensuring product integrity. |
| Storage | TGIC (Triglycidyl Isocyanurate) for powder coating should be stored in a cool, dry, and well-ventilated area away from direct sunlight, heat sources, and ignition sources. Keep containers tightly closed and use only original packaging. Avoid moisture and contamination. Store separately from acids, bases, and strong oxidizers to prevent dangerous reactions and maintain product stability and quality. |
| Shelf Life | TGIC for powder coating typically has a shelf life of 12 months when stored in a cool, dry, and well-ventilated area. |
Competitive TGIC for Powder Coating prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615651039172 or mail to sales9@alchemist-chem.com.
We will respond to you as soon as possible.
Tel: +8615651039172
Email: sales9@alchemist-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Walking through the plant on a working day, the unmistakable smell and hum of production provide more insight than any textbook chart. TGIC, or Triglycidyl Isocyanurate, stands out in our daily run because every batch, every specification change, and every shipment holds years of accumulated know-how. We’ve watched TGIC shape the landscape of polyester powder coatings for decades, thanks to both its versatility and how reliably it reacts in the curing process. There’s a direct, traceable line between the careful controls in our reactors and the dependable performance expected on customer lines.
Our TGIC sits around a melting range of 85-90°C, with each drum leaving our facilities undergoing strict checks for epoxide equivalent values and purity. These numbers aren’t just figures—at the extruder, a slight deviation shows up fast if we don’t keep within the narrow window set by international standards. Typical specifications fall into the 97-98% purity band, but every customer, from appliance manufacturers to architectural powder coaters, chases this purity because a little contamination or excess free chlorine risks yellowing or inconsistent cure.
Over years of collaboration with application plants, we have mapped out the real needs from TGIC. Polyester resin producers demand TGIC blends with good reactivity and a clean cure profile, while applicators expect repeatable mechanical properties and resistance to weathering. Our technical teams don’t just supply a bag and walk away; we’ve tracked how even changes in grinding speed or pre-mix handling can affect finished coating toughness and gloss. Customers scaling up new lines frequently ask us to recommend dosing rates—typically 7-9 parts of TGIC per 100 parts of polyester resin for exterior coatings—and many have told us that a small drift in ratio can shift a coating from top performer to reject bin.
Some high-performance requirements—sub-zero impact, wet adhesion, UV resistance—push the upper boundaries of TGIC formula. We’ve partnered with customers evaluating outdoor fixtures, automotive finishes, and rigid appliance linings where moisture uptake or sunlight exposure could pose problems. Here, the consistency of our TGIC’s particle size and melting profile matters even more, because uneven melting or segregation drags down both productivity and final performance.
Plenty of customers question why TGIC continues to act as the workhorse for polyester powders despite a growing catalog of curing agents on the market. In our experience, isocyanate-based and all-epoxy systems carry their own benefits, but TGIC stands apart primarily because of its balance between mechanical resilience and chemical resistance. Compared to hydroxyalkylamide (HAA, or Primid-type) systems, TGIC offers a wider choice of polyester resins and can be processed at slightly lower temperatures, which proves crucial for sensitive applications or temperature-sensitive substrates.
On our floor, the debates turn practical. Large runs aimed at Europe need to comply with REACH and voluntary industry restrictions on hazardous impurities. We’ve dialed in our process to minimize free epichlorohydrin and DGE impurities, because a missed target can cause headaches for downstream batch testing. HAA-based curing agents have carved out market share for indoor systems due to classification concerns over TGIC, but customers continue coming back for the durability and flexibility that TGIC offers—especially in harsher climates where salt spray or ultraviolet exposure wipes out lesser coatings in a single season.
We also see interest in new alternative crosslinkers, especially from producers focused on greener chemistries and complying with upcoming regulations. Through conversations along the supply chain, it’s clear that while bio-based options are in development, current replacements often suffer from higher processing temperatures or less robust weather resistance. This means TGIC remains a reliable benchmark. Performance audits conducted side-by-side in European climate simulations consistently show that TGIC-cured systems retain gloss, adhesion, and color stability even after prolonged cycles.
Manufacturing TGIC is a responsibility we don’t take lightly; as a chemical that has drawn regulatory attention over the years, our process engineers monitor emissions, dust, and worker exposure at every step. We work under continuous oversight—both internal audits and third-party inspections regularly test staff health and site environmental compliance. The chemical’s established occupational limits mean we use rigorous enclosure, dust collection, and personal protective equipment. These investments aren’t optional for us—they form the basis of safe and sustained operations, forging long-term relationships with global customers who demand traceability and reliability not only in product quality but also in manufacturing standards.
Market pressures are building globally for cleaner alternatives to traditional crosslinking agents. While the regulatory landscape is evolving fast—especially in the European Union and parts of North America—we invest directly in updating our lines and in product education for users, focusing on safe handling, storage, and hygiene. No single solution works for every scenario, so we continually push to improve both TGIC process and application guidance.
Seeing TGIC from our vantage point, its success depends on cooperation between resin manufacturers, formulators, and application specialists. Each stakeholder helps drive improvements, from clearer particle sizing to reductions in free chlorine or volatile byproducts. Over decades supplying to powder lines in both mature and developing markets, we’ve adjusted our filtration, blending, and drying steps based directly on practical bottlenecks—clumping in humid climates, need for rapid melting in fast-cycle ovens, or reduction in offensive odor emissions.
A powder coating only performs as well as its weakest link—whether that’s inconsistent particle distribution in the extruder or contamination introduced at bagging. On average, batches that test below 0.3% volatiles and maintain epoxide equivalent weight within a tight range see less waste during curing, especially in larger automated plants. Cold storage and low-humidity packaging cut risk of hardening over storage. End-users appreciate that, over the years, our proactive approach to technical support helps head off application hurdles.
As a chemical manufacturer, we don’t only pull data from lab reports. We ask for and listen closely to the painting lines running at capacity during peak construction or appliance seasons. For example, customer requests to reduce dust and improve flow have led us to invest in more advanced grinding and dust suppression. This feedback loops back into new process checks, direct adjustments in mixing cycles, and tweaking of final bagging techniques. Our R&D staff not only test in controlled chambers but also visit customer sites, observing firsthand the impact of subtle property changes—such as the flow rate or reactivity—on total production throughput.
Another recurring request from high-volume users relates to improving storage stability without sacrificing reactivity. Hot climates, where some products may cake or degrade, drive us to refine our stabilizer and anti-caking additives. This real-world challenge showcases the edge TGIC offers in customizability, but achieving consistent results means staying vigilant about both vendor raw material quality and internal controls over each production step.
We’ve helped powder coating users develop finishes from matte to high gloss, with TGIC-based systems catering both to functional and decorative needs—mailboxes, garden machinery, fencing, radiators, and office equipment. Especially in outdoor grades, the chemical crosslink created by TGIC contributes to the finish’s edge retention and chemical resistance. In the move toward more environmentally friendly production, we support user efforts by providing detailed technical solutions for venting, dust handling, and safe disposal of off-spec product.
For those applying powder coatings in more complex or automated lines, the melting point and flow properties of TGIC must fit both rapid and slower throughput. We adjust our product’s grinding and sieving protocols to match requests for finer or coarser particle distributions, reducing the risk of uneven fusion or incomplete curing that can appear as surface pinholes or poor scratch resistance. Each change gets validated on both our test lines and at selected customer factories.
Looking back, TGIC-based polyester coatings extend the repaint interval on exterior metal surfaces compared to several alternative curing systems. This translates to cost savings for property owners and less frequent maintenance disruptions. Extended salt spray and humidity chamber exposures on coated aluminum and steel panels confirm that TGIC-cured finishes hold up without blistering, peeling, or significant color fade. The flexibility in formulation also lets producers dial in precise gloss and smoothness profiles, depending on whether the target use is architectural, automotive, or industrial componentry.
Our production teams routinely work with customers who specify everything from graffiti resistance and chemical wash-down tolerance to anti-graffiti or easy-clean properties. Depending on the end-use, we adjust recipe and technical documents to ensure users meet relevant ISO or ASTM performance standards, with TGIC as the backbone of the crosslink structure. While alternative systems often need trade-offs in cure time or finish hardness, our TGIC supports balance across application, curing, and aesthetic performance.
Although TGIC is produced globally, differences in plant design, purification steps, and raw material sourcing shape the final product quality. Our continuous upgrades—new reactors, improved dust filtration, real-time process control—directly impact lot-to-lot consistency. This means end-users get fewer surprises when they open a new drum, especially in high-specification projects like infrastructure or transport equipment.
Our commitment to reducing impurity profiles—whether residual solvents, epichlorohydrin, or chlorinated byproducts—means fewer headaches for users trying to meet ever-tightening regulatory targets. Every year, we push our production process toward tighter emission controls and greener sourcing, as demanded by both law and our largest customers. At the same time, quality assurance teams track feedback cycles on product handling, application troubleshooting, and in-field performance. These lessons don’t just build brand loyalty; they reduce environmental footprint by minimizing waste and unplanned downtime.
Producing TGIC at scale comes with challenges. We’re always adapting our equipment and practices to limit exposure, dust generation, and potential emissions. Every improvement—such as closed system bagging or higher-efficiency dust scrubbers—translates into a safer workplace and more consistently high-quality output. Our team undergoes regular safety training, and we consult with outside experts to anticipate both new regulations and voluntary industry standards, keeping ahead of shifts in customer expectations and compliance needs.
We also provide extensive technical literature and hands-on workshops for application partners, which cover best practices for blending, mixing, storage, and application. Supporting safe use across powder application plants isn’t just about meeting legal requirements; it’s about keeping relationships strong by showing how TGIC can be handled safely and efficiently within their process flows.
New trends in sustainable coatings push us to innovate in both TGIC chemistry and alternative crosslinkers. We’ve invested in life cycle assessments of our process and product, working with downstream users on recycling, safe disposal, and emissions reduction in powder line operation. The challenge remains to maintain the mechanical performance and durability that TGIC delivers while narrowing its environmental impact and expanding viable, eco-friendly alternatives. Years of technical knowledge and customer feedback prove that any new material must meet or surpass stringent outdoor and industrial benchmarks before it can step in as a replacement.
Our customers don’t just want a drum of chemicals—they want reliability, technical backing, and a partner who keeps pace with industry changes. As a manufacturer, our reputation is on the line with every batch, so we invest in both product quality and practical, on-the-ground support. TGIC remains a key solution where robust mechanical properties, weather resistance, and production efficiency matter most. We continue pushing our process closer to zero-defect levels and tighter impurity profiles, learning from partners across the globe and turning practical plant know-how into a consistently strong product.
TGIC for powder coatings has earned its place through persistence and adaptation, both in chemical engineering and in day-to-day manufacturing realities. From reactor settings to the hands-on skill of blending experts, every aspect of production is aimed at helping users reap the rewards of advanced durability and appearance. As the world shifts and demands change, we keep one foot firmly in the present while looking ahead—ready to answer each new challenge with the experience gained from decades in chemical manufacturing.
