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Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3

    • Product Name: Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3
    • Chemical Name (IUPAC): 2,5-Dimethyl-2,5-bis(tert-butylperoxy)hex-3-yne
    • CAS No.: 78-63-7
    • Chemical Formula: C16H30O4
    • Form/Physical State: Liquid
    • Factroy Site: Qinghai Salt Lake Industry Co., Ltd., 28 huanghe road, Golmud City, Qinghai Province
    • Price Inquiry: sales3@liwei-chem.com
    • Manufacturer: Qinghai Salt Lake Industry Co., Ltd
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    Specifications

    HS Code

    315993

    Product Name Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3
    Chemical Formula C16H30O4
    Cas Number 1068-27-5
    Molecular Weight 286.41 g/mol
    Appearance Clear, colorless to pale yellow liquid
    Odor Characteristic
    Solubility Insoluble in water, soluble in organic solvents
    Boiling Point Decomposes before boiling
    Density 0.89 g/cm3 (at 20°C)
    Flash Point 56°C (closed cup)
    Active Oxygen Content 11.15%
    Self Accelerating Decomposition Temperature 60°C
    Storage Temperature Below 0°C
    Use Polymerization initiator
    Hazard Classification Organic Peroxide Type D

    As an accredited Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing The packaging is a 25 kg blue HDPE drum, featuring a hazard label and product details for Enox YNE 2,5-Dimethyl-2,5-di(tert-butylperoxy)-hexyne-3.
    Container Loading (20′ FCL) Container Loading (20′ FCL): 12 MT (240 kg/drum). Chemical: Enox YNE 2,5-Dimethyl-2,5-di(tert-butylperoxy)-hexyne-3.
    Shipping **Shipping Description:** Enox YNE (2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3) must be shipped as a hazardous material. It is temperature sensitive, requires cool, dry conditions, and must be packed in sealed, certified containers, with appropriate UN labeling (UN 3106, Organic Peroxide Type D, Liquid) and documentation per international transport regulations.
    Storage Store Enox YNE (2,5-Dimethyl-2,5-di(tert-butylperoxy)-hexyne-3) in a cool, dry, and well-ventilated area, away from direct sunlight, heat, and sources of ignition. Keep in original, tightly sealed containers. Avoid contact with reducing agents, acids, and combustible materials. Use explosion-proof equipment and ensure proper labeling. Store separately from incompatible substances and follow all regulatory and manufacturer’s guidelines.
    Shelf Life The typical shelf life of Enox YNE (2,5-Dimethyl-2,5-di(tert-butylperoxy)hexyne-3) is 12 months when stored correctly.
    Application of Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3

    Purity 98%: Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3 with purity 98% is used in cross-linking polyethylene cables, where it ensures optimal dielectric strength and enhanced chemical resistance.

    Decomposition Temperature 165°C: Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3 at decomposition temperature 165°C is used in rubber vulcanization, where it delivers uniform curing and improved mechanical properties.

    Active Oxygen Content 8.5%: Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3 with active oxygen content 8.5% is used in the production of thermoplastic elastomers, where it achieves efficient cross-linking and increased thermal stability.

    Viscosity 120 mPa·s: Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3 with viscosity 120 mPa·s is used in resin modification applications, where it facilitates uniform dispersion and promotes consistent polymer chain extension.

    Storage Stability 12 months at 25°C: Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3 with storage stability 12 months at 25°C is used in compounding masterbatches, where it ensures product reliability and process safety during extended storage.

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    Certification & Compliance
    More Introduction

    Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3: A Reliable Choice from the Source

    A Legacy of Responsible Peroxide Manufacturing

    Walking the production floor of any chemical plant, you can smell the history and see the lessons built into every step of the process. We’ve worked with dialkyl peroxides for decades, and Enox YNE 2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3 shows the kind of experience that only direct, hands-on manufacturing brings. This compound, sometimes simply referred to as Enox YNE, has shaped the way many polymer and rubber processors look at organic peroxides, offering a reliable balance of reactivity and controlled decomposition.

    Details of the Model We Produce

    Enox YNE is synthesized as a pale yellow to clear liquid, a result of precise handling during production. Each batch is monitored, and production history stretches back to early adoption in wire and cable insulation, where performance pressures forced industry to demand cleaner, precisely formulated peroxides. Moisture and impurity content receives careful attention—not just at the final analysis, but at every preparatory stage, because the wrong impurity profile can mean incomplete crosslinking or even plant downtime on site for our clients.

    Our standard grades fall within a tight purity window, generally above 96%, because deviations tend not to go unnoticed in customer operations. The compound contains two tertiary-butyl peroxy groups bonded at the 2 and 5 positions of a hexyne backbone, a structure that encourages efficient decomposition at elevated temperatures without the erratic pressure spikes that have dogged cheaper, less refined peroxides. Viscosity, color, and storage behavior have all been refined through years of scale-up and client feedback, with direct input from operators and process engineers at both pilot and commercial scales.

    Where Enox YNE Shows Its Value

    Plant reliability rests on chemicals that perform the same way batch to batch, and Enox YNE’s decomposition profile reflects a long-term commitment to industrial consistency. The activation energy required to initiate the homolytic cleavage of the O-O bonds sits in a sweet spot for high-temperature polymer processing. That means manufacturers who run continuous vulcanization, peroxide crosslinking of polyethylene, or specialty elastomer curing don’t run into half-cured batches or runaway exotherms.

    This peroxide earns trust on line after line, especially in low-smoke, halogen-free cable compounds, and in peroxide-cured elastomers for automotive and consumer applications. Downstream feedback does not highlight surface tackiness, unpredictable foaming, or migration issues. End users who’ve made the switch from less stable dialkyl peroxides often mention not only improved throughput but a meaningful reduction in reject rates for insulation and gaskets. You can trace that performance back to the pure, stable structure that only manufacturers can guarantee batch by batch.

    We’ve spent years talking directly with process managers facing downtime from batch variation or contamination in their mixes. While distributors can promise quality, only the original manufacturer sees the entire picture, running start-to-finish checks on every lot and offering traceability that intermediaries can’t deliver. Outages caused by inconsistent decomposition rates and peroxides with extra stabilizers and impurities are less common for those who opt for production-backed supply straight from our facility.

    The Chemistry that Drives Process Performance

    What distinguishes Enox YNE most from other dialkyl and dialkyl peroxides lies in its blend of thermal activity and robust shelf stability. The compound initiates decomposition at a temperature high enough to avoid premature crosslinking in storage and compounding, but not so high that excessive energy or specialized equipment is required during curing or extrusion.

    Conventional alternatives such as 2,5-dimethyl-2,5-di(tert-butylperoxy)hexane and dicumyl peroxide force processors to choose between workability and cure completion. Enox YNE offers a thermally activated profile that lets processors run high output rates, lessening the risk of scorching or pre-curing, especially in PE cable compounds and specialty elastomer systems.

    After years of running different peroxides for various clients, we concluded that Enox YNE’s kinetic package—how it breaks down and releases radicals—offers smoother processing at lower concentrations for certain polymers. That has a direct impact on cost, efficiency, and waste. Fewer side products mean less odor, fewer post-processing cleanups, and minimized yellowing in final articles. These details make a difference not only during continuous production but throughout the plant’s maintenance schedule as well.

    Hands-On Experience with Batch Control

    Direct oversight at every production stage means we monitor important variables: pH adjustment after synthesis, intermediate separation, filtration, and careful packaging to prevent peroxide decomposition. One lesson learned early in manufacturing is how fast minor deviations in synthesis conditions can impact reactivity profiles and storage lifetimes. Full vertical integration gives us the chance to proactively spot these shifts before they ever make it to the shipping dock.

    Enox YNE is shipped in specialized drums and containers designed for controlled temperatures. As the manufacturer, we have refined these choices based on real-life temperature excursions and field reports from long-distance hauls. We understand the practical risks facing every shipment, and take precautionary steps in packaging and labeling. Our focus on operational integrity stops unstable peroxides from ever seeing the light of day outside our plant.

    We see requests for analytical traceability increase every year because end-users want assurance that the peroxide they’re using today matches last month’s or last year’s batch. Our archive samples and process records allow us to pull up details from any manufacturing run. This type of historical record-keeping and sample preservation cannot be handled by intermediaries or non-manufacturing brokers. The ability to answer traceability questions with data, not guesswork, stands as a distinguishing mark of genuine chemical production.

    Field Stories and Practical Usage Cases

    Field engineers and production managers give the most honest review of any product. Feedback received on Enox YNE most often centers around reduced downtime on line startups and fewer adjustments needed during product changeovers. Companies running high-throughput PE and EVA extrusion appreciate the lower required initiator levels compared to other peroxide systems.

    Staff in cable and automotive parts facilities notice tighter control of physical properties—tensile strength, elongation, and compression set numbers hold within narrower process windows. Maintenance intervals for equipment exposed to crosslinking peroxides see less build-up, cutting cleaning times and extending tooling life. In rubber compounding, the interaction between Enox YNE and common antioxidants or co-agents has raised few compatibility flags, a factor that can turn routine formulations into problem-free scale-ups.

    Some manufacturers voiced earlier concerns that switching peroxides might impact finished part performance. Case histories show that Enox YNE’s specific breakdown mechanism supports a fast but even cure, especially in peroxide-vulcanized silicone and EPDM mixes. As a result, the need for blend ‘tuning’ often drops after only a few production runs, reducing scrap and speeding up project development.

    Differences from Other Peroxides: Tested by Direct Trial

    Years of running and observing side-by-side trials with major customers allow us to speak to real comparison, not just theory. Many dialkyl peroxides, particularly 2,5-dimethyl-2,5-di(tert-butylperoxy)hexane, generate more breakdown products that raise odor levels and sometimes promote blooming or plate-out in finished goods. Dicumyl peroxide, often favored for historical reasons, brings a higher volatility and creates more handling risk in large-scale compounding shops.

    Enox YNE, because of the triple bond in its backbone, resists decomposition under moderate process upsets—spikes in line temperatures or delays in molding don’t translate into catastrophic pre-cure. That resistance gives downstream processors more room for operational error and supports modern, automated production lines that need less manual intervention.

    Unlike some peroxides stabilized with phthalates or heavy metal salts, Enox YNE contains no intentionally added phthalate or aromatic hydrocarbons. This composition helps makers meet ever-tightening regulatory and customer-driven restrictions on hazardous additives, especially in markets focusing on eco-toxicity and end-of-life recyclability.

    In certain cable and wire applications, our clients have reported lower smoke generation under fire testing compared to standard DCP-based formulations, an advantage that flows from the cleaner degradation path of Enox YNE.

    Supply Chain Transparency and Customer Education

    We understand the concerns about quality and supply security that dominate chemical procurement in today’s market. Traders may offer mixtures at lower costs, but only the original manufacturer provides transparency from raw material intake to packaging. Our site hosts customer visits, technical audits, and line trials because transparency creates trust, and direct dialogue with engineers and procurement specialists speeds up problem-solving.

    Over the years, changes in environmental regulation and evolving customer standards have altered production methods. We invest in process automation, in-line analytics, and robust quality checks to ensure our product reaches specifications with every single drum. Instead of relying on shelf tests alone, we simulate real-life shipping and storage conditions, looking for breakdowns and shifts in product performance before final shipping.

    Customer education plays a key role in how we approach Enox YNE supply. Our technical team runs regular training and troubleshooting sessions to close the gap between manufacturing and plant operations. Plenty of process issues stem from a lack of open discussion—by connecting directly with end-users, we adapt production in real time when warranted, rather than react too late after problems surface in the field.

    Improving Future Operations Through Collaboration

    Innovation isn’t only about chemistry—it grows out of collaboration. Routine meetings between our technical team and end-users keep us ahead of developing needs, whether involving new polymer grades, tighter emissions controls, or advanced testing regimes. As regulators and customers ask more from every supply chain step, having direct conversation with source manufacturers of Enox YNE helps customers prove compliance and solve problems faster.

    Feedback collected from extrusion, molding, and compounding lines drives investment in process safety and environmental controls. Incidents and near-misses get logged and analyzed, and these lessons feed back into safer manufacturing, not just for Enox YNE, but for every peroxide we ship. Connections with downstream users prompt us to keep improving not just the molecule, but the way it’s delivered and supported.

    Our long relationship with Enox YNE allows us to share not only theoretical knowledge, but lessons drawn from thousands of metric tons produced, shipped, and used in diverse industries worldwide. No third party can replace the insight taken from seeing each production step—and from listening to the needs of those who convert chemical resources into finished goods.

    Responsible Chemical Production—Beyond the Label

    Making and supplying peroxides like Enox YNE brings a heavy sense of responsibility, because the impact of chemistry spills well beyond the point of manufacture. Our focus extends to ensuring product conformity, safe shipment, and purposeful customer engagement. Any bottle that doesn’t measure up to production records never leaves the site, and each container carries documentation to back its journey from synthesis to end use.

    Handling peroxides always brings risk, but it’s the unseen factors—subtle contamination, micro-impurities, or product fatigue from light—that drive our commitment to disciplined batch control and frequent in-house audits. Having spent years troubleshooting breakdowns in both plant and field, we design safeguards into every stage of production, because only manufacturers see the direct costs when quality is overlooked or assumed.

    Many industry partners have toured our facility, reviewed test logs, and validated that on-site production control delivers real difference. The push for traceability keeps rising, and facility audits no longer remain reserved for the world’s largest processors. Today, small and mid-sized converters also look for evidence that their peroxide source stands up to scrutiny. Our doors stay open because real manufacturing output can always withstand a closer look.

    In Conclusion: A Manufacturer’s Perspective on Building Reliability

    The value of Enox YNE links directly to years of chemical production wisdom and feedback from those who actually handle real polymers and rubbers. The designed reactivity, easier handling, and record of safe use make this compound more than just a line item in a catalog—it’s a tested tool for today’s competitive, quality-driven manufacturing world. Direct supply from those who blend, purify, and test each lot gives buyers confidence not only in consistent specifications, but in practical, day-to-day plant reliability.

    Our mission remains focused on making better, safer, and more practical chemicals. Enox YNE stands as a product of teamwork between manufacturer and end user—a stable, high-purity peroxide grounded in years of applied experience and ongoing dialogue with those shaping the next generation of materials.