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HS Code |
129563 |
| Chemical Name | ELASTAMINE HE-1000 Polyetheramine |
| Cas Number | 9046-10-0 |
| Appearance | Clear, colorless to pale yellow liquid |
| Amine Number | 15-19 mg KOH/g |
| Average Molecular Weight | 1000 g/mol |
| Viscosity 25c | 50-90 cP |
| Density 25c | 0.98 g/cm3 |
| Boiling Point | >200°C |
| Flash Point | >175°C (closed cup) |
| Vapor Pressure 25c | <0.01 mmHg |
| Solubility In Water | Miscible |
| Odor | Ammonia-like |
As an accredited ELASTAMINE HE-1000 Polyetheramine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | ELASTAMINE HE-1000 Polyetheramine is typically packaged in 200 kg net weight blue steel drums with secure, sealed closures for safe transport. |
| Shipping | ELASTAMINE HE-1000 Polyetheramine is shipped in sealed, high-density polyethylene drums or steel containers, typically in 200 kg quantities. Ensure containers are tightly closed, stored upright, and protected from direct sunlight, moisture, and extreme temperatures. Handle with appropriate safety precautions, including proper labeling and compliance with hazardous goods transport regulations. |
| Storage | ELASTAMINE HE-1000 Polyetheramine should be stored in tightly closed containers, in a cool, dry, and well-ventilated area away from heat sources, direct sunlight, and incompatible materials such as strong oxidizers. Keep the storage temperature between 5°C and 40°C to maintain product stability. Ensure proper labeling, and avoid moisture contamination to preserve product quality and safety. |
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Purity 99%: ELASTAMINE HE-1000 Polyetheramine with purity 99% is used in epoxy curing formulations, where it ensures enhanced crosslinking density and improved mechanical strength. Viscosity 90 mPa·s: ELASTAMINE HE-1000 Polyetheramine with viscosity 90 mPa·s is used in polyurea coatings, where it provides optimal flowability and uniform film formation. Molecular Weight 1000 g/mol: ELASTAMINE HE-1000 Polyetheramine with molecular weight 1000 g/mol is used in polyurethane elastomer synthesis, where it delivers superior elasticity and tensile performance. Amine Value 56 mg KOH/g: ELASTAMINE HE-1000 Polyetheramine with amine value 56 mg KOH/g is used in composite resin systems, where it achieves rapid curing and high thermal stability. Hydroxyl Content 0.02%: ELASTAMINE HE-1000 Polyetheramine with hydroxyl content 0.02% is used in adhesive formulations, where it promotes low moisture absorption and long-term bonding durability. Stability Temperature 120°C: ELASTAMINE HE-1000 Polyetheramine with stability temperature 120°C is used in hot melt adhesive applications, where it maintains structural integrity under elevated thermal conditions. Color APHA ≤30: ELASTAMINE HE-1000 Polyetheramine with color APHA ≤30 is used in optical coating systems, where it ensures transparency and minimizes color distortion. Water Content ≤0.1%: ELASTAMINE HE-1000 Polyetheramine with water content ≤0.1% is used in isocyanate-based sealants, where it prevents unwanted side reactions and increases product shelf life. Primary Amine Content ≥99%: ELASTAMINE HE-1000 Polyetheramine with primary amine content ≥99% is used in fuel additive production, where it guarantees efficient reactivity and consistent product quality. |
Competitive ELASTAMINE HE-1000 Polyetheramine prices that fit your budget—flexible terms and customized quotes for every order.
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There’s a certain reassurance that comes from working with a product that does as promised, every time. ELASTAMINE HE-1000 Polyetheramine has earned its stripes through consistency and dependable results, particularly in industries where little mistakes turn into big headaches. After years in manufacturing and polymers, I’ve seen firsthand how even the choice of a base ingredient such as HE-1000 can determine the difference between a process that runs smoothly and one that leads to troubleshooting late into the night.
In the world of epoxy systems, coatings, adhesives, and dispersants, selection of a polyetheramine isn’t just a box to check. Ingredients like ELASTAMINE HE-1000 show their worth where processing speed and system strength matter. With its average molecular weight and the right balance of amine functionality, this model stands out in practices ranging from elastomer modification to curing agents for tough composite materials. The things you notice as an end user—fast wet-out, strong bond, lasting flexibility—often come down to the hidden groundwork laid by choices such as this one.
In labs and on shop floors, producers reach for ELASTAMINE HE-1000 when they want a high-performance polyetheramine based on a polypropylene oxide backbone. This feature allows for unique interaction with other formulation components, producing mixtures that stay workable yet cure into final products with desirable toughness. The molecular weight hovers near the sweet spot, making this amine a staple for epoxy formulations that call for balance—enough reactivity for quick work, but not so much that users sacrifice working time or flexibility.
Some polyetheramines feel more at home in low-viscosity blends, others end up favored for their solid content or chain extension ability. HE-1000 makes a name as a versatile, middle-weight solution. You’ll see it as a core ingredient in both ambient and heat-cure epoxy adhesives and in structural composites where you don’t want brittleness but can’t afford too much give. That’s why, among professionals, HE-1000 has become a shorthand for reliability—whether blended to tweak a specific modulus or used as a main curing agent in high-strength, high-impact products.
Not all polyetheramines are made the same, and ignoring the differences often leads to costlier experiments. A closer look at HE-1000 reveals a structure that’s clean, predictable, and tightly controlled. It has two primary amine groups, hanging off either end of a polyoxypropylene chain. This configuration brings a good degree of reactivity, allowing chemical engineers and formulators to dial in a range of mechanical and thermal properties for the cured material.
What’s really helpful is that HE-1000 doesn’t bring along the baggage of volatile organic content or complex impurity profiles, which can hurt manufacturability and long-term product safety. Instead, it lends a soft hand, keeping mixtures manageable at room temperature while showing stable crosslinking once the curing kicks off. In my experience helping troubleshoot failed batches of two-part adhesives, finding a solid amine like HE-1000 can make the difference between weeks of reworking and a release-ready product.
The best products seamlessly blend into both major industrial operations and custom-run specialty shops. HE-1000 shows its versatility in sectors as varied as advanced composites, electrical encapsulation, coatings, sealants, and polymer modification. In the composites field, for example, HE-1000 helps reinforce epoxies used for wind turbine blades, automotive interiors, or lightweight sports equipment. These large-volume, high-performance applications often demand impeccable consistency and reproducibility—something HE-1000 repeatedly delivers.
In the world of adhesives and coatings, the performance bar stays high. HE-1000 allows for adjustable setting times, rapid handling strength, and strong final bonds that resist temperature shifts and chemical exposure. That’s not just a technical bragging point; it affects worker safety, production throughput, and warranty costs out on a job site. From experience, no foreman wants to repeat a job because an adhesive failed in freeze-thaw cycles or under a pounding sun. In those moments, a polyetheramine like HE-1000 proves its worth many times over.
For those working on flexible foams, cast elastomers, or specialty inks, HE-1000 enters the scene as both a modifier and as a building block. It brings flexibility and impact resistance to polyurethane systems and can also soften or toughen thermosets as needed. Its utility in dispersions means pigments or active agents find even distribution—meaning fewer rejects and callbacks to the drawing board.
In the polyetheramine lineup, each model brings its own strengths: some run light and fast for quick curing and low viscosity; others feel sluggish but offer beefed up mechanical performance or extended working times. HE-1000 carves out territory in that middle ground. Products with higher molecular weight may offer greater elasticity but can gum up mixing equipment or increase cycle times. Those with shorter chains can flash cure but may trend toward brittleness or poor adhesion under stress.
One of the more noticeable advantages of HE-1000 comes through its balance. It’s not so reactive that you lose control during processing, nor does it slow production down to a crawl. Having worked in production lines where every minute counts, and downtime chews through budgets, it’s products like HE-1000 that set the pace for sustainable, efficient throughput. Its processing window offers flexibility to both manual batch work and automated dispensing, reducing misfires and wasted batches.
Besides the technical edge, HE-1000 holds up in cost-to-performance calculations too. Some specialty amines promise marginal gains but demand premium pricing. With HE-1000, the gains come from reliable, repeatable quality within a competitive price bracket. For purchasing teams and end users alike, that reliability matters—especially with fluctuating feedstock costs and shifting supply chains.
No product solves every challenge, and ELASTAMINE HE-1000 has its learning curve. Overuse or incorrect blending can tip a formulation toward softness, just as excessive mixing can reduce pot life. Technically inclined users know that optimal results come from careful ratio adjustment—too little and you leave bonds weak, too much and you compromise hardness or clarity.
Quality assurance teams have to pay close attention to storage conditions for polyetheramines, HE-1000 included. Exposure to moisture or poorly maintained storage tanks can lead to unexpected side reactions, or in some cases, color shifts and impurities that affect final product features. The answer is simple yet often overlooked: good inventory management and clear communication throughout the production chain. I’ve seen lines lose days because teams neglected humidity controls, only to find batches turning cloudy or setting unpredictably.
Worker safety, always a concern in chemical processing environments, depends on understanding the material at hand. While HE-1000 comes with relatively favorable handling characteristics, using appropriate PPE and adequate ventilation remains essential. Training and regular refresher courses help prevent careless mishandling, a lesson every OHS team learns either the easy or the hard way. From spills in the mixing bay to skin exposures in the production line, safety practices must match the professional standards set by the product itself.
As sustainability standards rise, manufacturers now look past raw performance to see how a material fits into responsible production cycles. HE-1000 offers some advantages here: lower volatile organic compound release compared to several legacy curing agents, and a cleaner breakdown profile in most waste treatment systems. It still requires attentive waste handling and responsible disposal, but compared to older amines with lingering toxicity, it marks a step in the right direction.
Choosing HE-1000 can help manufacturing teams meet stricter emissions targets without sacrificing operational reliability. For companies trying to meet both performance and environmental benchmarks, this product offers a middle road—blending the benefits of modern chemical innovation with a smaller environmental footprint. Having helped several facilities shift toward greener formulations, I notice how these transitional choices, like switching to a better amine, can cut emissions, smooth audits, and create a more positive workplace culture.
Industry keeps moving. Even a solid performer like HE-1000 prompts innovation: improved batch tracking, advances in molecular design, and more granular process controls. Producers now experiment with new catalytic systems, finer filtration methods, and tighter molecular-weight distribution to drive even better consistency from this base ingredient. As a result, users see higher lot-to-lot uniformity, less scrap, and more reliable long-term performance.
An uptick in digital process monitoring also helps manufacturers spot subtle shifts in HE-1000-based processes long before they turn into defects or warranty issues. Smart sensors, process analytics, and improved operator training all play a role in getting the best from an already proven product. It’s not just about faster output—it’s about understanding how a polyetheramine interacts at every stage of the formulation and tuning parameters to suit each unique end use.
Competitive pressures force constant re-evaluation. A supplier who keeps refining the HE-1000 process not only helps their clients stay ahead, but also reduces waste and unnecessary energy consumption. Supply chain transparency—the ability to see backward all the way to raw materials—gains importance too. In a time of globalized production, knowing your polyetheramine comes from a responsible, traceable source almost matters as much as price-per-kilo or molecular spec.
Experience on the ground often reveals more than technical data sheets ever could. In one high-volume composites operation, switching to ELASTAMINE HE-1000 led to a measurable reduction in bond failures under thermal cycling. The old formulation couldn’t handle seasonal flux in warehouse conditions—panels would sometimes delaminate in sub-zero winters. With HE-1000, those failures dropped, and rework turnaround nearly disappeared.
In a specialty adhesives company, targeting tight timelines on a major infrastructure project, the team leaned on HE-1000’s predictable gel time and robust bond, even when environmental humidity spiked. That level of real-world resilience speaks louder than glossed-over marketing claims. Operators across shifts quickly built confidence in the mix—no need to second guess themselves or worry about unexpected failures.
I recall a medium-sized producer of decorative coatings who began facing color stability issues. Careful substitution of HE-1000 for a less consistent amine improved batch-to-batch color, leading to fewer client complaints and less time consumed in quality disputes. It’s the small, steady wins that leave the biggest mark—the margins matter in production, especially when reputation is on the line.
No single ingredient solves every problem in industrial chemistry, but a stalwart like ELASTAMINE HE-1000 Polyetheramine earns its reputation through decades of solid performance and adaptability. For process engineers, plant managers, and formulators tasked with stretching budgets and chasing ever-more ambitious performance targets, products like HE-1000 offer a foundation to build on. The product’s track record in critical applications, from aerospace-grade composites to everyday adhesives, shows the confidence professionals place in it.
Market needs change, raw materials shift, and regulations tighten. Still, the basics never lose value—trustworthy inputs, clear traceability, and a focus on both end performance and workplace safety. For those building the next generation of coatings, sealants, and composites, it’s materials like HE-1000 that help tackle today’s challenges without tying future hands. Engineers know that reliable chemistry doesn’t always grab headlines, but it forms the backbone of quality manufacturing from the shop floor to the end user.
Practical lessons gleaned from years alongside chemical formulators and production teams point one clear direction: the right base materials lead to fewer headaches, lower costs, and more satisfied clients. ELASTAMINE HE-1000 Polyetheramine fills that key role across the industries where performance under pressure matters. It’s bridging laboratory science and shop floor demands—turning potential into real, everyday results.
