|
HS Code |
700502 |
| Productname | Trifloxystrobin Pesticide Grade |
| Chemicalformula | C20H19F3N2O4 |
| Casnumber | 141517-21-7 |
| Appearance | Off-white to light brown powder |
| Purity | ≥95% |
| Modeofaction | Strobilurin fungicide (QoI inhibitor) |
| Molecularweight | 408.37 g/mol |
| Solubilityinwater | 0.61 mg/L at 20°C |
| Meltingpoint | 50-60°C |
| Stability | Stable under normal storage conditions |
| Toxicitytohumans | Low (WHO Class III, slightly hazardous) |
| Primaryuse | Fungicide for cereals, fruits, and vegetables |
| Storageconditions | Keep in a cool, dry, and well-ventilated place |
As an accredited Trifloxystrobin Pesticide Grade factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Trifloxystrobin Pesticide Grade: 25 kg net weight, packed in high-density polyethylene drum, sealed, labeled with hazard symbols and product information. |
| Shipping | Trifloxystrobin Pesticide Grade is shipped in tightly sealed, high-density polyethylene (HDPE) drums or containers, typically 25 kg or 200 kg, compliant with international chemical transport regulations. Packages are clearly labeled, protected from moisture, heat, and direct sunlight, and include safety data sheets for secure handling and storage during transit. |
| Storage | Trifloxystrobin Pesticide Grade should be stored in a cool, dry, and well-ventilated area, away from direct sunlight, heat sources, and incompatible substances like strong oxidizers. Keep the container tightly closed and clearly labeled. Store away from food, feed, and drinking water. Implement measures to prevent environmental contamination and unauthorized access, in accordance with local regulations and safety guidelines. |
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Purity 95%: Trifloxystrobin Pesticide Grade with 95% purity is used in cereal crop protection, where it delivers robust control of fungal pathogens and maximizes yield quality. Molecular Weight 408.4 g/mol: Trifloxystrobin Pesticide Grade with molecular weight 408.4 g/mol is used in vineyard disease management, where it achieves uniform leaf coverage and consistent disease suppression. Melting Point 74°C: Trifloxystrobin Pesticide Grade with a melting point of 74°C is used in greenhouse vegetable protection, where its thermal stability enhances spray application efficiency. Particle Size D90 <10 µm: Trifloxystrobin Pesticide Grade with particle size D90 <10 µm is used in foliar pesticide formulations, where it enables rapid absorption and improved rainfastness. Stability Temperature 50°C: Trifloxystrobin Pesticide Grade with stability temperature 50°C is used in high-temperature orchard environments, where it maintains potency and ensures prolonged residual activity. |
Competitive Trifloxystrobin Pesticide Grade prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615365186327 or mail to sales3@ascent-chem.com.
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Tel: +8615365186327
Email: sales3@ascent-chem.com
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Trifloxystrobin has become one of our key products because growers expect more than a name-brand fungicide—they want something consistently reliable, cost-efficient, and safe for their crop cycles. Year after year, we hear from partners across various regions who face unpredictable fungal pressure. Growers in humid climates, for example, have very different priorities compared to those in drier environments, so we pay close attention to field performance across a range of conditions.
We manufacture Trifloxystrobin with a focus on thorough crystallization and particle size control. Our production line achieves a technical grade that disperses evenly without clumping, making it easier to apply through modern farm machinery. The technical product serves as the backbone for our pesticide-grade formulation, which has been refined over years of pilot production and feedback from agricultural engineers and crop consultants. Working closely with field professionals helps us continuously adapt our approach.
We produce pesticide-grade Trifloxystrobin, primarily in the form of wettable powders (WP) and suspension concentrates (SC), with the active ingredient usually available in 50% WP and 100g/L SC specifications. Our process always starts with agricultural technical requirements in mind. By maintaining tight production parameters in our reactor systems—temperature, solvent recovery, and filtration cycles—every batch matches specification for purity, stability, and shelf life. Our team knows each stage, from raw material sourcing to final sieving and mixing, must align. Stories of batches with inconsistent particle distribution result in nozzle blockages during spray applications—farmers cannot afford those setbacks, and neither can we.
Based on years of production troubleshooting, it’s clear subtle shifts in formulation technology can make a big difference. For example, our SC products use dispersants and anti-settling agents that keep the Trifloxystrobin well-suspended, even after long storage periods or transport. On the WP front, we adjust wetting and dispersing agents for fast, complete dissolution. Some alternative products on the market use cheaper surfactant packages or skip expensive micronization steps; these shortcuts show up during application as uneven spray patterns or filter clogging. We’ve compared notes and seen the result in both lab work and real field tests.
Every real manufacturer has faced challenges during scale-up. Early-stage production sometimes delivered technical grades with brownish tint or excessive fines, which reduced product stability or left visible residues on treated crops. Over the years, we fine-tuned our washing, drying, and sieving parameters, improving not just the chemical purity but the physical appearance. Too fine, and you get dust-off and measuring losses. Too coarse, and the active ingredient doesn’t distribute appropriately in the tank mix.
Choosing to invest in automated filling lines and in-line monitoring devices let us pick up deviations quickly, cut manual errors, and standardize packaging. One year, a shipment intended for orchards developed caking during shipment to a tropical region. That prompted an overhaul of our humidity management and packing materials. We introduced improved liner bags, constantly tested for shelf-life stability, and worked directly with suppliers willing to meet our anti-caking requirements. This focus on logistics beyond just raw production separates our pesticide-grade Trifloxystrobin from generic offerings.
Growers often rely on Trifloxystrobin for the control of a wide range of diseases, from powdery mildew on cucurbits and grapes to rust on cereals and Sigatoka on bananas. Trifloxystrobin disrupts mitochondrial respiration in target fungus cells, stalling their growth early. Many growers report visual crop improvements within days of application, especially where conditions favor rapid disease spread. Combining Trifloxystrobin with properly selected adjuvants and rotating its use with fungicides of other classes slows resistance development—this strategy pays off every harvest.
We test our product across multiple crops and seasons. Results show a clear reduction in leaf spotting, yield loss, and secondary infections. During particularly wet growing periods, our contracted growers experience less surprise from late-emerging blight. Education around application timing and droplet coverage remains critical, so we supply not just the product but also advice on nozzle selection and water volumes. In some regions, local partners demonstrate side-by-side comparisons with other strobilurin products; consistent feedback points to easier tank mixing and less sediment with our batches. These are practical advantages, shaping daily farming decisions.
Every batch runs through rigorous quality control: HPLC purity analysis, water-insoluble material testing, wet sieve analysis, accelerated stability trials, and environmental exposure simulation. On a recent contract, our pesticide-grade Trifloxystrobin faced extreme high-humidity storage. Regular spot checks let us proactively intervene at the source, without waiting for complaints or product recalls. Over time, such vigilance avoids waste, guarantees regulatory compliance, and builds trust with both commercial farms and agrochemical formulators.
Years ago, a competitor’s technical product failed to dissolve in cold water, causing entire batches to settle at the bottom of tankers. That lesson led us to strictly monitor our product’s dispersibility at variable temperatures. Each time we ship, random samples undergo off-site third-party audit testing, in addition to our own in-house batch records and certificates of analysis. We report these findings transparently to partners who request documentation. This openness matters more each year, as compliance requirements become stricter and traceability becomes central to export markets.
As a primary manufacturer, environmental responsibility sits at the core of our operation. Managing solvent recovery from synthesis, maximizing energy efficiency, and minimizing waste water discharge have all become non-negotiable. After a regional authority raised questions about strobilurin residue levels, our unit invested in fine-tuning process parameters and compliance analytics. Independent labs now provide additional assays for each shipment, ensuring active ingredient levels remain well within safe, government-specified limits. Our production byproducts undergo safe handling and documented neutralization before discharge or recycling.
Regulations governing export of Trifloxystrobin formulations have continued to evolve. For shipments bound for the EU and North America, we comply with strict limits on dioxin/furan content, inert carrier composition, and heavy metal residues. Our registration team closely tracks every change in international standards, updating documentation and ensuring secure digital traceability throughout the supply chain. Should exporters miss a regulatory update, whole shipments may stay stuck in port, so we work closely with logistics partners to pre-clear containers and provide advance notice on evolving rules.
Many products on the market originate from intermediary traders or are reprocessed by small blending houses. Over the years, we’ve helped clients troubleshoot recurring problems with gray-market batches: unstable suspensions, misleading labeling, adulterated technical input, and outdated packaging practices. Genuine manufacturers build in testing, traceability, and cross-checks at each stage—from synthesis to finished product—resulting in fewer surprises at the point of application.
We run multiple formulation lines dedicated solely to Trifloxystrobin pesticide use, with purpose-built cleanrooms, dedicated milling equipment, and QA supervision. Unlike secondary blenders who sometimes deal with contaminated equipment or mixed product lines, we avoid cross-contamination through both hardware and documentation control. Our formulations come with up-to-date usage instructions based on field feedback, highlighting tank compatibility and best practices.
Value doesn’t just lie in the bag or bottle. Packaging quality and after-sales technical support matter as much as chemical payload. Some distributors source from manufacturers lacking the infrastructure to troubleshoot user complaints, resulting in slow response and blame-shifting. By owning the entire production and supply process, we deliver both answers and corrective steps quickly. Stories from clients switching to our Trifloxystrobin show improved spray coverage and lower post-spray residue, reducing visible “white spots” on tender crops.
Manufacturing at scale means accepting accountability for every ton produced. Years of serving both local cooperatives and multinational agrochem customers taught us to factor in local water hardness, operating temperatures, and mixing protocols. We keep a record of each batch’s performance, and field staff routinely visit major growing areas to gather user impressions. When local agronomists asked for a wettable powder that resisted caking after repeated weather swings, we reformulated and retested.
Anticipating market changes has steered our investment in automation and residue testing. With disease resistance to single-site fungicides on the rise, we invest in ongoing R&D to explore combination products and multi-molecule blends—not just basic Trifloxystrobin. Post-sales support has expanded far beyond technical data sheets to include in-person demonstrations and on-site troubleshooting, sharing insights from both chemistry benches and field plots.
Seasonal demand changes how we manage production schedules. Large orders for industrial-scale cereal crops in spring put pressure on both raw material sourcing and quality assurance windows. Our planning teams balance furnace schedules, maintenance shutdowns, and inventory levels to avoid bottlenecks, always with the memory of past delivery delays at the back of our minds. Every shortfall becomes a learning opportunity to adjust procurement or upskill production teams.
For Trifloxystrobin producers, responding to evolving pathogen resistance and increasingly demanding market standards calls for adaptability and continuous improvement. Pathogenic fungi are notorious for evolving resistance; the chemical structure of Trifloxystrobin targets fungal respiration, but misuse—like repeated applications without rotation—can accelerate resistance. Through partnerships with pathology researchers, we constantly test new application protocols and formulations to sustain field effectiveness. We also search for new co-formulants and tank-mix options that help maintain consistent disease control.
Supply chain disruptions, such as raw material shortages or trade restrictions, present obstacles that manufacturers cannot ignore. Our site maintains secondary supplier relationships, multi-regional inventory storage, and flexible production lines to weather unexpected regulatory or market shifts. This structure lets us deliver uninterrupted supply to our customers, though it demands greater investment in traceability and oversight.
Farmers need solutions that suit both their crop schedules and application infrastructure. Our team continues to develop more user-friendly packaging, such as single-dose soluble bags and improved liquid concentrate designs that reduce operator exposure and waste. Feedback from direct users, such as cooperative managers and crop advisors, highlights opportunities for both incremental change—like better-matched wetters—or more significant leaps, like automated tank-mix systems compatible with modern GPS-guided sprayers.
Public demand is increasing for crop protection products with lower environmental impact and improved worker safety profiles. Trifloxystrobin’s relatively low mammalian toxicity and reduced impact on beneficial insects offer some reassurance, but pressure remains to lower application rates and develop slow-release or reduced-drift formulations. Our product development team now incorporates risk assessment and environmental fate modeling during the design phase. Regular dialogue with regulatory and advocacy groups ensures the product evolves not just as a technical commodity, but as part of a necessary shift toward smarter agricultural practices.
Years of hands-on experience in synthesis, formulation, logistics, and application have taught us that strong manufacturer-client relationships make the best products possible. We pay attention to every detail, from reactor operation to final field test, because that’s where the real difference in product performance is made. Each step earns real-world feedback, and over time, the compound itself improves through this continuous loop between manufacturing floor and crop row.
Our Trifloxystrobin pesticide grade formulation reflects not just a molecular structure, but the combined input of hundreds of people: chemists, operators, maintenance crews, field advisers, and growers across regions and climates. Choosing a pesticide from a true manufacturer brings the reliability, authenticity, and accountability that spray operators expect—and, more importantly, that the world’s growing population increasingly demands.
