|
HS Code |
684544 |
| Chemical Name | 1-Naphthol Glycidyl Ether |
| Cas Number | 1458-99-1 |
| Molecular Formula | C13H12O2 |
| Molecular Weight | 200.24 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Boiling Point | 156-158°C at 3 mmHg |
| Density | 1.18 g/cm³ at 25°C |
| Refractive Index | 1.6000-1.6050 |
| Flash Point | 143°C |
| Solubility | Insoluble in water, soluble in organic solvents |
| Purity | Typically ≥98% |
| Storage Conditions | Store in a cool, dry place, tightly closed |
As an accredited 1-Naphthol Glycidyl Ether factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The 1-Naphthol Glycidyl Ether is packaged in a 500g amber glass bottle, sealed, with a tamper-evident cap and labeled for safety. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for 1-Naphthol Glycidyl Ether: 80-100 drums per 20-foot container, typically 16-20 metric tons net weight. |
| Shipping | 1-Naphthol Glycidyl Ether is shipped in tightly sealed, chemical-resistant containers to prevent leakage and moisture exposure. It should be handled as a hazardous material, following applicable regulations. Transport in a cool, dry, and well-ventilated area, away from incompatible substances. Proper labeling and documentation are required for safe and compliant shipping. |
| Storage | **1-Naphthol Glycidyl Ether** should be stored in a tightly closed, clearly labeled container in a cool, dry, and well-ventilated area, away from heat sources, ignition sources, and direct sunlight. Keep it separate from incompatible materials such as strong acids, bases, and oxidizers. Proper storage prevents degradation and reduces risks of hazardous reactions or accidental exposure. |
| Shelf Life | 1-Naphthol Glycidyl Ether typically has a shelf life of 12–24 months when stored in a cool, dry, and tightly sealed container. |
Competitive 1-Naphthol Glycidyl Ether prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615371019725 or mail to sales7@boxa-chem.com.
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Tel: +8615371019725
Email: sales7@boxa-chem.com
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Working as a chemical manufacturer, every day brings new reminders of the difference between making a specialty chemical and just offering a commodity. 1-Naphthol Glycidyl Ether has played a crucial role in specialty resins, electronics, and advanced coatings for years. Before it ever ships out the door, it passes through careful checks. Our teams do not focus on abstract ideals, but on what gives real value to chemists, production lines, and R&D labs. Every drum starts as raw naphthol sourced directly and processed using controlled synthesis routes. Our plant keeps impurities low and consistency high, even as volumes fluctuate with the changing needs of the market.
This material offers more than simple epoxidation capability. The naphthyl group in the molecule changes how the ether behaves—especially during curing or polymerization steps. Many customers ask for tougher films, improved heat resistance in circuit boards, or better adhesion to substrates that do not always bond easily. The chemical backbone of 1-Naphthol Glycidyl Ether delivers those benefits. Unlike standard aliphatic or phenolic glycidyl ethers, its aromatic nature brings increased rigidity and a unique balance of reactivity and physical properties.
Commercial epoxy resins often depend on bisphenol A diglycidyl ether or simpler mono-functional epoxides. Those materials offer a good price-performance ratio, but sometimes fall short when used in electronics or specialty adhesives. 1-Naphthol Glycidyl Ether meets higher demands for stability at both low and elevated temperatures. The difference shows up in real processing windows: Electronics manufacturers report improvements in signal insulation, potting compound manufacturers get cleaner cure profiles, and composite formulators find stronger interfaces in finished laminates. The product earns its place through tested long-term performance as well as ease of formulation adjustment.
We manufacture 1-Naphthol Glycidyl Ether with a typical purity of 98% or more. Careful distillation and monitoring keep side products minimal. The epoxide equivalent weight usually falls within a tight range, as many resin applications require predictable crosslinking densities. Low moisture and chlorinated byproducts are critical—especially in electronics and aerospace. Unlike some suppliers who focus mostly on volumes, our team gives equal attention to batch-to-batch consistency, so researchers and engineers spend less time on trial reformulations and more time on process innovation.
The appearance of our product is a colorless to pale yellow liquid, with viscosity controlled according to the customer's needs. Those working with automated dosing, vacuum infusion, or thin-layer application typically mention the improved handling that comes with narrow viscosity specs. Our chemists have fine-tuned the process to minimize color body formation and smell, in large part because those factors often affect the end-use appearance or trigger regulator flags.
Our 1-Naphthol Glycidyl Ether does not usually headline glossy brochures, but it gets referenced in technical meetings, troubleshooting calls, and process improvements. Manufacturers of high-performance printed circuit boards turn to this molecule when standard epoxies do not hold up to lead-free soldering or sustained electrical loads. The aromatic structure helps prevent breakdown under continuous use in demanding environments.
Adhesive producers working on specialty substrates—metal, glass, or engineered plastics—find that 1-Naphthol Glycidyl Ether gives both improved wetting and strong chemical anchoring. Several customers in the automotive sector report reduced delamination after high-temperature cycles, attributing the result largely to this ether’s compatibility with a range of hardeners. For resins aimed at casting, potting, and encapsulation, formulators integrate our product to achieve specific dielectric properties or to lower cure-induced stresses that can cause cracks.
Coatings represent another field relying on our product’s performance attributes. Marine and aerospace coatings often need materials that balance chemical resistance and hardness. Our 1-Naphthol Glycidyl Ether provides strong adhesion, excellent weatherability, and a more uniform cured finish. While new green chemistry routes continue to emerge, this molecule still occupies a niche where certain performance metrics remain hard to match.
Every manufacturer faces pressure from both sides: Customers need fast delivery on top of strict specifications, but regulatory and safety compliance never loosens. Our years in the sector have shown that supply disruptions seldom result from raw material shortages alone—they often trace directly to inconsistent process control or insufficient quality assurance. We respond with practical redundancy in our process lines and invest in skilled technical staff who understand the specifics of 1-Naphthol Glycidyl Ether. Not all variables show up in batch records or certificates of analysis. Some differences—like trace impurities or subtle viscosity shifts—only become clear during large-scale production or long-term storage.
Making specialty glycidyl ethers means stepping beyond the minimum needed for technical data sheets. For instance, maintaining throughput means investing in dedicated glass-lined reactors and analytical methods tuned for aromatic epoxides. Years of handling customer claims reinforce how details like reaction temperature control, storage conditions, and even operator shifts can tilt product quality. Our operation keeps these variables tightly managed to steadily deliver a product that works in the real world.
Users in research and advanced manufacturing environments often compare our 1-Naphthol Glycidyl Ether to other monoepoxides like allyl glycidyl ether or cresyl glycidyl ether. The differences go beyond the molecular formula. Each time we receive feedback from epoxy composite workshops or electronics makers, new reasons emerge for selecting our naphtholic ether instead of alternatives.
Longer pot life during preparation and more robust mechanical properties after curing jump out as advantages. The aromatic naphthol ring limits flexibility but grants increased modulus, leading formulators to use lower filler loadings or achieve the same hardness with reduced crosslinker concentration. That detail affects cost saving down the production line, not just technical specifications.
Some users need improved compatibility with flame retardants or non-traditional curing agents. For example, those developing high-performance FR-4 boards or next-generation wind blade resins find 1-Naphthol Glycidyl Ether more suitable than cycloaliphatic epoxides when pursuing performance boosts without changing the rest of the formulation. Blending with bisphenol A-type resins can fine-tune viscosity profiles or cure kinetics without sacrificing electrical or chemical resistance.
Working with 1-Naphthol Glycidyl Ether means facing both regulatory changes and customer-driven environmental requirements. Our company takes this issue seriously, not by copying broad claims but by acting on concrete findings. Volatile organic content, safe handling information, and traceability always sit at the top of our production discussions. The aromatic structure of the glycidyl ether brings both advantages and challenges: enhanced thermal properties, yet also the need for disciplined environmental controls during process steps like distillation and purification.
We do not make vague promises about green chemistry, but practical steps add up. Our plant uses closed systems and solvent recovery, and every waste stream undergoes review not just for compliance but for minimization. Experience shows the process never stands still: Each regulation or standard that enters the market means another review of raw material sources, emissions control, or worker safety protocols. Collaboration with downstream users leads to new packaging options and shipping formats that match both safety and process convenience.
Feedback from users often involves making two or three modifications at once. Someone reformulating a potting polymer for improved electrical resistance can run into unexpected issues like microbubbling, color shifts, or altered cure times. With 1-Naphthol Glycidyl Ether, many engineers notice a more predictable cure and less shrinkage, especially when switching from a strictly bisphenol-based system. The difference in epoxide reactivity gets managed by tweaking catalyst levels or optimizing cure cycles. Through our technical support, we supply practical guidance learned from pilot plant trials and long-term production, sharing not only numbers on paper but the real adjustments needed on factory lines.
Working directly with users brings out gaps that standard documentation misses. Many processors grapple with scaling up from lab to batch production, especially when small factors—mix order, temperature ramp speeds, or agitation rates—influence the finished resin or coating. We offer recommendations rooted in experience rather than guesswork. Our team has set up joint trials, shipped custom sample lots, and, on occasion, adjusted our own process controls to meet special purity or viscosity targets. That flexibility leads to relationships built on shared technical learning instead of one-sided transactions.
1-Naphthol Glycidyl Ether has earned its reputation not through marketing, but from consistent returns in production and field use. In electronics, resins carrying this component remain stable through thermal cycling, soldering, and extended use. Mechanical properties persist after thousands of hours at elevated temperatures. In situations where adhesives undergo shear, peel, or impact, results documented over years show fewer failures and reduced maintenance costs.
Beyond direct feedback, independent material tests confirm the differentiation against standard epoxides. Dielectric breakdown resistance stays within tight tolerances, aging tests reveal slower physical degradation, and accelerated weathering checks support the choice for marine and transportation uses. We keep records from customer case studies and internal testing that confirm the molecule’s robust function over both short run and continuous manufacturing periods.
Major advances in electronics miniaturization, energy storage, and lightweight composites push raw materials to new limits. Each year, process engineers and R&D teams bring up use cases no one thought of a decade ago: higher voltage insulation, tougher resins for additive manufacturing, or multi-use adhesives that replace legacy materials. Our product’s unique chemical profile unlocks design space that mass-market glycidyl ethers cannot reach.
Working alongside formulators, chemists, and process engineers, we help tackle roadblocks not addressed by off-the-shelf solutions. This could mean setting up new purification steps for tighter impurity limits or documenting new application successes for regulatory filings. As clean energy and electronics markets change rapidly, customers rely on suppliers who understand both the chemistry and the pressing technical problems. We take pride in supporting these advances by keeping the supply of 1-Naphthol Glycidyl Ether reliable, high-performing, and fit for next-generation manufacturing.
No specialty chemical exists in a vacuum. Prices for raw materials fluctuate, new regulations tighten allowable emissions, and demand sometimes shifts overnight. We stay prepared by maintaining diverse supplier networks, routinely monitoring global market trends, and re-investing in process upgrades. Our backlog of practical solutions grows with each challenge—not by issuing generic advice, but by working out new storage, handling, or application protocols.
Research into greener alternatives and improved process efficiency starts in our pilot labs and continues right up to full-scale reactors. We review each change for downstream effects, so a tweak upstream does not trade one problem for another farther along the chain. Continuous feedback from users means that innovation flows both ways: Our customers influence R&D priorities, and our team passes along fresh technical insights for new application fields—whether in electronics, automotive, composites, or custom coatings.
We recognize that sharing technical know-how truly matters. Our technical support does not stop at sample shipment or answering emails. We invest time running joint studies, reviewing test results, and—if needed—tuning production to suit specific process requirements. Those efforts reflect our larger commitment to seeing real-world projects succeed, not just moving product off the shelf.
By manufacturing 1-Naphthol Glycidyl Ether based on first-hand understanding of its chemistry and performance, we build lasting partnership with customers who need results under real industrial conditions. Each batch that leaves our facility reflects not just a process, but practical experience—helping businesses unlock new innovations and solve operational challenges in demanding applications.
