Products

Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100%]

    • Product Name: Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100%]
    • Alias: Peroxydicarbonic acid, bis(2-phenoxyethyl) ester
    • Einecs: 221-110-7
    • Mininmum Order: 1 g
    • Factroy Site: Yudu County, Ganzhou, Jiangxi, China
    • Price Inquiry: admin@ascent-chem.com
    • Manufacturer: Ascent Petrochem Holdings Co., Limited
    • CONTACT NOW
    Specifications

    HS Code

    300979

    Cas Number 33178-52-0
    Molecular Formula C18H18O8
    Molecular Weight 362.33 g/mol
    Physical State Liquid or crystalline solid (depending on temperature)
    Color Colorless to pale yellow
    Odor Faint ester-like odor
    Purity 85% to 100%
    Melting Point 13°C
    Decomposition Temperature 39°C (approximate)
    Solubility Insoluble in water, soluble in organic solvents
    Main Use Polymerization initiator
    Boiling Point Decomposes before boiling
    Density 1.18 g/cm³ (approximate)
    Hazard Classification Organic peroxide, hazardous and unstable
    Storage Conditions Refrigerated, avoid heat and sunlight

    As an accredited Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100%] factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing The chemical is packaged in a 25 kg net weight steel drum with an inner polyethylene bag for safe storage and transport.
    Shipping Bis(2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤ 100%] must be shipped as a hazardous material. It requires temperature control (keep cool, avoid heat), must be protected from shock and friction, and packed in appropriate, sealed containers with proper UN/ADR labeling. Handle with care; emergency procedures must be readily available.
    Storage Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100%] should be stored in a cool, dry, well-ventilated area away from direct sunlight and sources of heat or ignition. Keep the container tightly closed and protected from moisture. Store separately from acids, bases, reducing agents, and combustible materials. Use only approved, compatible containers, and avoid contamination. Handle with care, as the material is sensitive and potentially hazardous.
    Application of Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100%]

    Purity: Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100% purity] is used in suspension polymerization of PVC, where it enables high polymerization efficiency and uniform particle morphology.

    Melting Point: Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100% melting point 25-30°C] is used in vinyl chloride copolymer production, where it ensures precise temperature control and consistent polymer structure.

    Decomposition Temperature: Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100% decomposition temperature 40°C] is used in emulsion polymerization, where it provides controlled radical release and enhanced polymer yield.

    Active Oxygen Content: Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100% active oxygen content >5.1%] is used in acrylic resin manufacturing, where it achieves rapid polymer initiation and improved molecular weight distribution.

    Viscosity: Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100% low viscosity] is used in solution polymerization processes, where it enables easy mixing and homogeneous initiator dispersion.

    Storage Stability: Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100% stability at ≤10°C] is used in bulk polymerization of specialty polyolefins, where it maintains initiator potency and batch-to-batch consistency.

    Particle Size: Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100% fine particle size] is used in polyurethane synthesis, where it ensures rapid dissolution and uniform nucleation rates.

    Residual Solvent: Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100% low residual solvent] is used in specialty elastomer production, where it minimizes contamination and meets high purity standards.

    Free Quote

    Competitive Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100%] prices that fit your budget—flexible terms and customized quotes for every order.

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    Certification & Compliance
    More Introduction

    Bis (2-Phenoxyethyl) Peroxydicarbonate [85% < Content ≤100%]

    Genuine Perspective from the Production Floor

    Every kilo of Bis (2-Phenoxyethyl) Peroxydicarbonate that leaves our production site tells a story of real-world manufacturing. We handle the raw materials and oversee every reaction. Here, quality isn’t handed down on paper—it comes from hands-on control and precise adjustments. From charging reactors with starting monomers to purifying crystals in the final wash, our facility always keeps safety and consistency at the forefront. As a manufacturer, we don’t rely on paperwork guarantees; our expertise shows up in stable batches and customer feedback that drives what we improve next.

    Model, Formulation, and Core Technical Features

    Our most current model covers the content range from 85% up to neat product, brought to purity we can confirm with direct instrument readings. No filler claims or off-the-shelf figures—only what walks out the door, batch by batch. The high-active concentration supports reliable performance in PVC polymerization, and we let those numbers lead our process choices. The di-ester backbone and carbonate structure provide the right decomposition profile for vinyl monomer, even across production runs with different stabilizer systems or impurity profiles.

    As each drum or lined carton comes off the line, it’s the result of control over reaction kinetics, precise temperature staging, and careful selection of phase separation techniques. Checkpoints through nuclear magnetic resonance and titration spot any deviation early. Losses rarely hit a full percentage, thanks to the way our operators and analysts intercept out-of-bounds readings right at source, without waiting for someone in a distant office to catch up.

    The Frontline View: Why Usability Matters

    Polyvinyl chloride production teams need reliable, consistent peroxydicarbonate for a fine, controlled particle size in the end product. Polymerization histories in many plants are littered with stories of off-quality powder or unplanned downtime due to raw material variables. We’ve seen the frustration in lines that lost reaction control because an initiator wasn’t cut right or brought in out-of-spec. We maintain close integration between the analytics lab and operations floor, giving our customers the real chemistry—nothing tweaked, nothing intangible.

    We stock—and test—initiator that customers request for next-day runs, and if a client wants input data or reaction profiles, we show our own logbooks and methods. Production teams have come to trust that nothing shows up with “mystery” content or surprise stabilizers, so they can get straight to work, solvent in, and dose peroxydicarbonate with the PLC without recalculating every week.

    Chemistry at Work: Polymerization Experience

    Decades of full-shift operation in peroxide and peroxydicarbonate lines have taught us the hard details of monomer initiation. The unique breakpoints of Bis (2-Phenoxyethyl) Peroxydicarbonate offer a broad, reliable half-life window at the temperature bands that suit most VCM plants. At typical polymerization setpoints, polymer chains form with minimal tailing or byproduct color. Plant engineers have often told us that a “clean” initiator keeps filters and strainers free during extended campaigns, stretching routine maintenance farther than less-refined alternatives.

    Unlike certain symmetrical carbonates or lower-purity blends that drift in decomposition or bring unpredictable additive effects, our compound maintains a consistent, single-path breakdown. This means fewer exothermic spikes or dropouts, and better powder properties at the end. It shows up in things like filterability, grain structure, and the clear, faint odor signature of a well-cut peroxydicarbonate—no hard solvent punch, no odd sweet offnote.

    Specs That Hold Up in Real Reactor Conditions

    Technical details don’t always match up with the lived reality of plant production. That’s why we keep specs focused on what actually makes a difference: content, particle size, packaging integrity, and chemical stability under both controlled storage and “hot summer” logistics. Our product resists phase separation and caking even when shipments face days of weather swings crossing borders. The wet content stays low due to filtration tuned for both removal of fines and preservation of reactivity. We take our own monitoring data seriously, because a claims department never rescued a batch of off-spec resin—only upstream fixes and transparent sharing of real numbers matter.

    We don’t chase “polished” analytical data for trade shows or websites. Instead, we trust the evidence from repeated plant cycles and feedback from operators running these lines for decades. Each adjustment, from tweaks in carbonate dosing to small variances in feed temperature, gets logged and reviewed. What ends up as “final specs” in our plant is shaped by facing chemical realities—not what looks impressive on paper, but what actually helps teams maintain line speed and quality.

    Handling, Storage, and Worker Realities

    Life on the production floor looks different from the neat diagrams in textbooks. In our experience, the risks in handling peroxydicarbonate come not from its classification, but from the everyday details: residue in the bins, humidity on the skin, and how many hours a drum spends on a dock in August. We protect both product and people with strict temperature and moisture controls throughout the warehouse. Field feedback keeps us grounded—operators stress-test seals, run calculations for expected vent-off, and share back when an older hose valve or a simple packing error puts supply reliability at risk.

    Every workplace learns some things the hard way. Years ago, a rush-load skipped secondary wrapping; humidity bit deep into product and lost a whole container to off-spec. That incident overhauled our checks, and we now double up on sensors for every loading, trusting both machinery and experienced people. That lesson shows up every time someone at a converting plant calls us about a drum that “looks a bit off.” We bring a field-tested eye to each step, from production to loading dock, and keep our guidance honest and pragmatic: open lots as close to use as possible, avoid unnecessary handling, and double-check ventilation.

    Setting the Bar: Distinction from Similar Products

    Our Bis (2-Phenoxyethyl) Peroxydicarbonate isn’t a commodity item or a white-label blend. Unlike lower-grade alternatives, which skim off byproducts or introduce liquid carriers to mask purity swings, ours comes pure—from 85% concentration up. Lesser products often hide instability or mix in initiators not identified by label. We subject every batch to more extensive purity and decomposition curve checks, especially after a few market suppliers cut corners by “doping” product to hit apparent specs.

    You can spot our product by its fine, near-uniform crystalline appearance and consistent pungency—markers that show it’s made from real, fresh stock and not reblended or heavily stabilized. Many producers slip lower-cost substitutes or leak stabilizer overages that can throw off a plant’s polymerization controls. We’ve had direct experience troubleshooting for downstream clients—an entire campaign “twitchy” with off-curve initiator, traced to unstable carbonate from a lower-tier supplier—so we set hard lines on ingredients and refuse to chase margin at the expense of reliability.

    Lead time matters too. As a full-process manufacturer, we manage our own stocks of critical raw materials, so sudden buying shifts or global supply swings don’t trap us. Clients don’t get “out-of-stock” messages or unexplained price jumps in a tight market. Our knowledge base and setup allow us to respond to technical requests and plant-specific needs honestly, and directly. We refuse to outsource process control or relegate critical steps to offsite contractors, which helps us guard against contamination and spec drift seen in products from more fragmented supply chains.

    Industry Experience: Why Origin Matters

    Plant managers have told us point-blank: consistency and transparency in upstream chemicals drive profitability and safety. We know from the inside that cost savings from a cut-price supplier can vanish in one bad reactor cycle. The confidence that comes from using initiator straight from a verified, hands-on facility can’t be replaced with slick brochures or promises from resellers.

    Our background includes solving issues for clients facing everything from unexpected side reactions in emulsion production to changes in granular flow that left plants struggling with yield. We stay available to help; when an on-site test doesn’t match plant needs, we help troubleshoot—not with distant technical notes, but by revisiting the process with lab samples and direct calls to the plant chemists. It’s a partnership born in shared challenges, and it shapes the way we tackle product improvement.

    Once, a supply chain disruption forced a client to try a substitute from a global trader. The difference stood out in practice: color metrics shifted up, unexpected oligomers built slowly until filter backpressure shut a whole line. After two shifts of troubleshooting, the operators asked for our product back. The change returned their process to spec—not because of any magic, but because nothing beats the performance of a compound made with close control and responsive support. We bring decades of that learned experience to each shipment.

    Challenges, Growth and Solutions

    No chemical manufacturer avoids challenges with regulatory shifts, supplier interruptions, or occasional raw material variability. In our experience, product performance and customer trust suffer most when companies take shortcuts. We’ve faced market highs and lows, and through both, we have stuck by direct engagement and rigorous self-monitoring.

    For instance, with changes in environmental standards, some have tried to trim stabilizers or seek shortcuts in purification to save a few percentage points of margin. By trialing and rejecting these, we learned that end users notice every shortcut: slower reaction rates, yellowing in end polymer, unexpected gas evolution, or a harder-to-handle texture in their machines. We don’t mask these issues or “explain away” feedback; we bring results from our own lines and, if needed, repeat pilot lots to check any reported difference.

    Our plant also had to adapt when raw material quality swung due to geopolitical events. We invested in on-site testing and diversified critical suppliers, always holding fast on specifications. That flexibility, grounded in a practical understanding of chemical engineering, keeps orders on track, even as world events shake supply chains. Real innovation, we see, comes from refusing to offload essential steps to intermediate handlers—every part of our supply is checked directly.

    Trained staff make the real difference. Continuous retraining with updated safety and quality protocols means we adjust process controls every time new risk shows up. If a batch misses target, we halt and repeat as many times as necessary. No process gets “pushed through” with paperwork alone; every output is what we’d use for our own sample runs.

    A Nod to Sustainability and Workplace Safety

    Manufacturers of chemicals like Bis (2-Phenoxyethyl) Peroxydicarbonate have a big role to play in sustainability. It touches not only the environment, but everyone working in a plant or handling the finished product. Our facility designed containment and waste channels starting with the production teams’ feedback—not what’s cheapest, but what keeps people out of harm’s way and preserves product integrity. By regularly running plant audits and process simulations with our own veteran teams, we stay alert for issues that matter on a hands-on shift basis.

    Our used wash solvents get recycled with strong internal controls, cutting emissions and reducing disposal costs. This approach also keeps unwanted contamination from ending up in final product, which benefits users downstream as much as it does our immediate environment. We keep robust records for process traceability, which both aligns with evolving regulatory expectations and provides immediate answers to customer queries about origin, history, and incident response.

    Direct and Transparent Partnership

    We don’t hide behind distributors or layers of sales infrastructure. Plants calling us have a direct line to chemists and process leaders who know the production by experience. Our field team knows the difference between a regulatory audit and a real-life production hiccup. Rather than push blame or patch over problems, we open up the process so each client sees how the chemistry and the craft come together. We believe that those who use our Bis (2-Phenoxyethyl) Peroxydicarbonate on tough, high-stakes lines deserve full honesty—good or bad—about batch specifics, improvement cycles, and shipment timing.

    Routine communication with plants guides our ongoing technical development. We invite questions about not only product specs, but also about underlying chemistry, handling advice, or alternate application trials. We can share firsthand insight into how the compound will behave from uncrating through reaction—details that simply don’t show up in technical literature. Clients often recognize that our product comes with deeper technical support, and those relationships end up being two-way learning channels, benefitting both ends of the supply chain.

    Staying Close to End-User Needs

    Our organization doesn’t run on autopilot; product development is always an ongoing conversation. Clients’ plant leads and chemists call in with troubleshooting questions and results from their new processes. We answer with our own trial data and don’t hesitate to adapt a process when a plant’s operational reality exposes some new angle we hadn’t foreseen.

    On one project, a customer needed higher flex in initiator activity due to a process change toward lower-temperature reaction. Rather than push a standard model, we recalibrated the reaction window and did pull samples across every phase—in the end, product quality and plant efficiency both stepped up. New techniques learned in that process became part of our standard operation, further strengthening future client work.

    What Sets True Manufacturing Apart

    Bis (2-Phenoxyethyl) Peroxydicarbonate is often treated as a “silent” ingredient—one you notice only when it fails. As an actual manufacturer, we know every variable counts. From plant safety to running cost, from downtime risk to resin finish, every kilo needs careful attention from real people doing real work. The difference between genuine and generic shows up not just in a test report but in daily production realities on every continent.

    We welcome scrutiny and constant discussion with end users of our product. If plant teams want historical batch data, test results, or ideas for process tweaks, we stand ready to share and adapt. With each cycle, we invest knowledge and effort, supporting not only polymer producers but also the operators and engineers who stand on the production lines. That approach sets us apart and keeps the work honest—real, responsive manufacturing powering the backbone of countless industrial processes.

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