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HS Code |
316305 |
| Chemical Name | Ethylamine Solution |
| Cas Number | 75-04-7 |
| Molecular Formula | C2H7N |
| Molecular Weight | 45.08 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Odor | Strong ammonia-like odor |
| Concentration | Typically 70% solution in water |
| Boiling Point | 16.6°C (pure ethylamine) |
| Density | 0.8-0.9 g/cm³ (solution dependent) |
| Solubility | Miscible with water |
| Ph | Strongly basic |
| Flash Point | -17°C (pure ethylamine) |
| Storage Temperature | Store at 2-8°C |
| Hazard Class | Flammable, corrosive |
| Un Number | 2270 |
As an accredited Ethylamine Solution factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Ethylamine Solution, 500 mL, supplied in a clear, tightly sealed HDPE bottle with a hazard label and secure screw cap. |
| Shipping | Ethylamine Solution should be shipped in tightly sealed, chemically resistant containers, labeled according to hazardous material regulations. It must be transported upright, away from sources of ignition, heat, and incompatible substances, with adequate ventilation. Ensure compliance with local, national, and international shipping regulations, including appropriate hazard classification and emergency response information. |
| Storage | Ethylamine solution should be stored in a cool, well-ventilated area away from direct sunlight and incompatible substances such as acids and oxidizers. Keep containers tightly closed in a dry place and use corrosion-resistant materials for storage. Ensure the storage area is equipped with spill containment and appropriate ventilation to minimize exposure to vapors. Clearly label containers and restrict access to trained personnel. |
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Purity 70%: Ethylamine Solution 70% purity is used in the synthesis of pharmaceuticals, where it ensures high-yield amide formation. Boiling Point 16.6°C: Ethylamine Solution with a boiling point of 16.6°C is used as an intermediate in agrochemical production, where rapid volatility enhances reaction efficiency. Molecular Weight 45.08 g/mol: Ethylamine Solution of 45.08 g/mol molecular weight is used in rubber accelerator synthesis, where consistency in composition supports reliable vulcanization. Stability Temperature below 30°C: Ethylamine Solution stabilized for temperatures below 30°C is applied in specialty resin manufacturing, where its controlled reactivity minimizes decomposition risks. Low Impurity <0.1%: Ethylamine Solution with impurity levels below 0.1% is used in photographic developing agents, where high purity preserves image clarity. Aqueous Concentration 40%: Ethylamine Solution at 40% aqueous concentration is used for epoxy curing agents, where optimized dilution allows uniform curing rates. Density 0.83 g/mL: Ethylamine Solution with a density of 0.83 g/mL is used as a chemical blowing agent, where precise density improves product porosity control. Melting Point -81°C: Ethylamine Solution with a melting point of -81°C is utilized in low-temperature adhesives, where its liquidity at subzero temperatures maintains adhesive processability. |
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Ethylamine Solution, with its model 70% concentration, plays a quiet yet pivotal role in many corners of industry and science. From years spent working alongside chemical engineers and lab techs, I’ve noticed how everyday products often rely on ingredients that never make the label. Ethylamine Solution stands out in that respect—a backbone for essential reactions, not a front-row-shelf name, but one that quietly supports agricultural chemicals, pharmaceuticals, and dye making. In my own work on industrial chemistry projects, I’ve seen Ethylamine’s value both on the shop floor and in research, always appreciated by those who understand its quirks and strengths.
With a clear, colorless form and a familiar but sharp odor, Ethylamine Solution (70%) usually arrives in HDPE drums or steel containers to guard against leaks and air exposure. The 70% concentration means 700 grams per liter blend of ethylamine in water—a robust standard for bulk use but not something you splash around carelessly. I’ve heard colleagues prefer 70% because it balances reactivity with manageability, creating less risk than anhydrous ethylamine but enough punch to drive strong reactions. Its density, boiling point, and pH fall within well-documented ranges (boiling around 16-18°C for the solution) and it stays stable in recommended storage. Stability stands out when you need reliable, repeatable results, and this solution delivers.
You might not notice the journey ethylamine takes from lab to product shelf, but the fingerprints are everywhere. Work in agricultural chemistry often means blending ethylamine into herbicide formulas—helping control weeds more efficiently for farmers worldwide. In my team’s experience, this lets crops flourish, feeding both local markets and export demands. Pharmaceuticals form another major audience. During my earlier years in a chemical plant, I’d see lines of drums earmarked for shipment to drug manufacturers—ethylamine acting as a building block for pain medications, antiallergics, and even treatments for heart conditions.
It’s striking how a simple molecule takes on such broad utility. Dye production also finds ethylamine indispensable, creating vivid colors for fabrics. Water treatment often borrows a page from its playbook, utilizing the solution to neutralize acids and help maintain consistent pH in municipal systems—a lesson learned during work on rural water projects, where every step in purification counts. Less talked about, but still important, are the surfactants and cleaning products built from ethylamine, which help keep industries (and homes) running cleaner and safer.
After enough years trekking through laboratories, I’ve seen both ethylamine gas and its aqueous form in action. The solution model, especially at 70%, earns its popularity by mitigating risks tied to flammability and volatility. These differences matter when you’re handling hundreds of liters: fewer headaches tracing vapor leaks, more straightforward safety protocols, and easier mixing for downstream applications. From my own perspective, moving from pure anhydrous ethylamine to the aqueous solution changed the rhythm of daily operations—spills brought a bit less panic, and inventory teams enjoyed fewer “emergency drills.”
Comparisons often come up during team training or procurement meetings. Many prefer the solution for its liquid state at room temperature, removing the need for high-pressure cylinders. Chemists and engineers appreciate the simplicity—less training, fewer permits, and smoother compliance with safety codes. I once helped coordinate a pilot project where the switch to solution form cut training time for new staff by almost half, simply because the handling procedures fell within their comfort zone.
The market offers a range of amines—from methylamine through to heavier versions like propylamine—but ethylamine brings its Goldilocks quality to the table. Not too volatile, not too sluggish, and highly predictable. In practice, that means less wasted material and more consistent results. My colleagues in agricultural labs, for example, often choose ethylamine to avoid the extra security costs linked with more volatile amines, while still getting reactivity that enables the synthesis of targeted herbicides.
Other amines bring different features: methylamine is lighter and often more reactive but trickier to safely handle. Propyl- and butyl-amines push into different sectors, bringing increased viscosity or distinct reactivity profiles—better for more niche manufacturing, not everyday large-scale production. In my own projects, I’ve found ethylamine’s size gives it the right balance for most common syntheses, making workflows smoother and production lines more predictable. There’s comfort in its reliability—reproducible results, affordable costs, and ease of shipping.
You hear a lot about “safe handling” in industry guidelines, but field experience sharpens that message. Ethylamine solution, despite its more manageable form, still asks for respect. Its sharp, ammonia-like smell seeps through quickly if storage slips up. My early days on the floor taught me the value of good ventilation and gloves, lessons written in stinging eyes and skin irritation from a careless splash. Emergency eyewash stations and spill kits often stand ready near any storage area—a testament to the unpredictable moments inherent in real-world handling.
In storage, keeping containers tightly sealed and away from incompatible chemicals (like strong acids or oxidizers) protects not only inventory but also workers. Over the years, I’ve seen facilities invest in better pallet racks, seal-welded drums, and regular inspection routines. These investments pay off: reduced incidents, happier teams, smoother audits. Reports from regulatory bodies show that, compared to more volatile amines, ethylamine solution incidents trend lower, especially where proper training is standard.
Use of ethylamine solution brings its share of environmental considerations. If released without treatment, ethylamine can contribute to water pollution and pose a hazard to aquatic life. In my work supporting compliance initiatives, I’ve seen facilities set up dedicated secondary containment and real-time leak detection, motivated as much by community responsibility as regulatory demands. Proper neutralization and waste stream monitoring go a long way. The trend over the past decade has seen increased adoption of closed-loop systems to recapture and recycle vapors, a major leap from less protected processes of years past.
Ethylamine’s relatively short environmental half-life compared to some persistent chemicals offers a bit of relief, but that’s no excuse for shortcuts. Always, the best operations put prevention above remediation. That ethic, in my view, builds trust with neighbors and with regulators alike.
Confidence in ethylamine solution depends on consistent quality and traceable sourcing. I’ve managed procurement for high-spec lab operations, where even small variations in solution strength spark headaches for researchers. Suppliers providing full certificates of analysis, batch records, and testing for impurities simplify troubleshooting. In competitive pharmaceutical manufacturing, meeting GMP (Good Manufacturing Practice) expectations drives the demand for transparency up another notch. Over time, more customers ask about backward traceability—not just certification, but proof of ethical sourcing and environmental stewardship at every supply chain step.
Traceability matters on the receiving end, too. Regular testing with proven titration methods reassures end users that claimed concentrations match reality. Partnering with reputable suppliers—those willing to share lab data and open to third-party audits—makes a big difference. In my experience, buyers who push for this openness enjoy fewer recalled batches and less wasted production. Quality ties directly to the safety and effectiveness of downstream products, whether it’s herbicides or a life-saving medicine.
Ethylamine solution, particularly at 70%, usually sits at a price point attractive to bulk consumers—not so cheap as to encourage careless use, but reasonable enough for large-scale adoption. During my own tenure running cost analyses, this price/utility balance made it a staple choice in chemical manufacturing budgets.
Handling and shipping costs also influence its popularity. Compared to more volatile amines, less investment in pressure-resistant containers and hazmat staff training keeps overhead manageable. That margin opens room for smarter allocation of staff and equipment—more automation on the line, and cross-trained team members instead of niche specialists. Moving to the 70% solution often lets managers streamline delivery schedules and storage, freeing up space otherwise dedicated to hazardous goods handling.
Different regions operate under various regulatory umbrellas. In my experience working across North America, Europe, and Asia, ethylamine solution faces diverse expectations: more stringent reporting in the EU, fast-paced procurement cycles in North America, sharp attention to waste management practices in parts of Asia. The common ground is a focus on reliable supply and unwavering safety—two lessons I’ve heard echoed at industry conferences and behind the scenes at factories from Texas to Tianjin.
International trade in ethylamine solution drives home just how connected our industries have become. Anytime disruptions—trade restrictions, logistical delays, or new material standards—appear on the horizon, the effect ripples wide. I’ve seen teams scramble to secure alternate suppliers or navigate new compliance codes. Local partnerships and advanced planning help insulate production lines, making adaptability a key trait among leading buyers and distributors.
One challenge that comes up often is worker exposure. Even at 70%, ethylamine solution is a skin and inhalation irritant. Based on feedback from safety officers and my own daily rounds, simple measures pay big dividends—fit-for-purpose PPE, routine air quality checks, frequent employee refreshers on “what to do if.” Higher-tech solutions—automated mixing, robotic unloading—build on these basics, cutting direct contact between people and chemical.
Another issue can be storage and waste management. Ethylamine reacts with strong acids to create flammable or toxic byproducts, so mistake-proof labeling, clear SOPs, and digital inventory checks add insurance. I’ve seen barcode-based tracking systems sharply reduce spill incidents, mainly by flagging incompatible storage, and paired with remote temperature monitoring, they take some of the guesswork out of warehouse management.
On the supply chain side, ensuring that batches are shipped promptly and kept at a steady temperature stops concentration drift or unwanted impurities. In recent years, smart logistics and IoT sensors in chemical transit have become more common among major shippers, with real-time tracking easing both insurance claims and stock management.
The push for greener chemistry and sustainable sourcing puts new expectations on old standards like ethylamine solution. Research into lower-impact production methods is already underway. Cleaner supply chains, including bio-based feedstocks and reduced emissions processing, could hit the market in the years ahead. My own conversations with development chemists point to increasing demand for circular economy solutions—closed-loop production where waste isn’t just minimized but fed back into new cycles.
Blending digital monitoring tools with chemical supply management will likely keep growing. Automated handling, blockchain-backed traceability for raw materials, and machine-learning-enhanced safety analytics are more than buzzwords; they could shape how both suppliers and end users reduce risks and fine-tune quality in the years ahead.
After spending years hands-on with industrial chemicals, I’ve come to see ethylamine solution as both a workhorse and a benchmark for best practices. From smooth running production lines to sharp focus on safety and environmental care, the 70% model remains popular for a simple reason—it works, and it fits the practical needs of industry. Where regulations grow tougher and quality demands stay high, it still delivers performance without drama.
New technologies and market pressures may tweak how it’s made, tracked, and distributed, but the basic value stays. It’s in the routines of operators, the reliability of pharmacy shelves, and even the crops in distant fields. Conversations with peers always circle back to these themes: economic value, safe use, predictability, and a willingness to keep improving. The details might change, but the heart of the solution—dependable chemistry blended with lessons from the front lines—remains steady.
