|
HS Code |
747585 |
| Product Name | D110 Chemically Magnesium Hydroxide |
| Chemical Formula | Mg(OH)2 |
| Appearance | White powder |
| Molecular Weight | 58.32 g/mol |
| Purity | ≥ 95% |
| Solubility In Water | Slightly soluble |
| Ph Of Suspension | 10.5 (10% slurry) |
| Bulk Density | 0.3 - 0.6 g/cm³ |
| Melting Point | 350°C (decomposes) |
| Specific Gravity | 2.36 |
| Odor | Odorless |
| Main Application | Flame retardant, wastewater treatment, antacid |
As an accredited D110 Chemically Magnesium Hydroxide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | D110 Chemically Magnesium Hydroxide is packaged in 25 kg high-density polyethylene bags, featuring moisture-resistant lining and clear labeling for safety. |
| Shipping | D110 Chemically Magnesium Hydroxide should be shipped in tightly sealed, corrosion-resistant containers. Protect from moisture and carbon dioxide during transport. Handle with care to prevent damage and spills. Store upright in a cool, dry, and well-ventilated area, following all applicable local, state, and international regulations for chemical transportation. |
| Storage | D110 Chemically Magnesium Hydroxide should be stored in a cool, dry, and well-ventilated area away from acids and incompatible materials. Containers must be tightly closed to prevent moisture absorption and contamination. The storage area should be clearly labeled, protected from direct sunlight, and equipped with appropriate spill control measures. Store at ambient temperature and follow all safety guidelines for handling chemicals. |
Competitive D110 Chemically Magnesium Hydroxide prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615365186327 or mail to sales3@ascent-chem.com.
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Tel: +8615365186327
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Relying on chemical manufacturing to solve real-world production problems often comes down to two things: purity and predictability. D110 Chemically Magnesium Hydroxide came to life in our factory not as an experiment, but out of genuine demand from water treatment engineers, flue gas desulfurization specialists, and plastics compounders who wanted higher reactivity and cleaner performance. Our intent is simple: create a magnesium hydroxide product that stands up to rigorous applications, batch after batch, without variability that throws off process control.
On the shop floor, we hear customers talking about magnesium hydroxide that clumps, introduces trace metals, or reacts unpredictably—all pain points that cut into productivity. Most operators don’t ask for miracle materials; they want something they can count on every shift, from Monday morning through plant shutdown on Friday night. We focused on that ramping consistency when developing D110, which brings us to the heart of how this product came into existence and what it now makes possible.
Every manufacturer likes to stake a claim to ‘purity’ and ‘high specification,’ but what does this mean in practice? In our shop, chemical magnesium hydroxide is made by reacting high-purity brine with quality lime under strictly controlled conditions. Process control means more than temperature readings and pH charts; it’s about calibrating reaction times and filtration steps so impurities never sneak past the line. If one batch drifts from spec—even if the deviation is barely above background—it triggers a halt, and nothing leaves the warehouse until every metric lands within our operational window. It is a point of pride rooted in production reality, not marketing.
Our D110 product delivers a magnesium hydroxide content above 98 percent, with trace metals like iron, nickel, and manganese kept well below thresholds that would foul catalysts, discolor plastic, or spike heavy metal limits in environmental systems. Unlike lower-cost alternatives that use fused magnesite or recycled brine and leave a wild card in every drum, we stick with top-quality inputs, which frankly cost us more, but guarantee a steady chemical backbone for users.
We commit to a near-white, finely-divided powder or wet slurry, depending on plant needs. Targeted particle sizing has practical consequences. Too coarse, and dispersion in water treatment applications lags, leaving lumps in tanks or causing pump strain. Too fine, and material flies up during transfer or plugs filter beds in production. After hundreds of trials, we standardized our D110 at D90 less than 10 microns, which reflects what worked best across full-scale runs, not just in the lab.
Another key factor comes from controlling surface area, typically landing between 20 and 30 square meters per gram, measured by BET. This level allows for a strong neutralization rate in acidic environments and more predictable magnesium ion release, which drives outcomes in wastewater treatment, flue gas desulfurization, and as a halogen-free flame retardant.
Focusing on what matters day-to-day in the plants, we measure our product's success through feedback from the field. In chemical wastewater treatment, consistency in pH and low grit levels translate to easier pump-outs and less unplanned downtime. For customers in the power sector, reliable magnesium hydroxide reduces SO2 without caking in spray nozzles or forming stubborn scaling on scrubber walls. Plastic compounding lines running halogen-free systems see clean dispersion along the screw, without streaks or die buildup.
We regularly visit user sites to see firsthand where our product helps or hinders. One operator running multiple neutralization tanks told us grinding noise was their biggest headache with another supplier; after switching to D110, that issue disappeared, because the product doesn’t introduce grit or oversized particles. Such input steers our internal review loops more than any focus group ever did.
Some magnesium hydroxide brands on the market try to compete mainly on cost. Cutting corners can shave pennies off a ton, but it also opens the door to unwanted minerals, who then create extra sludge, scaling, or corrosion risk. Trace calcium or silica might sound trivial, but once you scale up, even small contaminant levels jam valves or pump impellers. We consider every contaminant a future maintenance call, and our approach is to minimize hassle before it starts.
Take, for example, applications requiring minimal leachates—landfill leachate treatment or pharmaceutical wastewater are two notorious cases. Here, D110 earns its keep through very low solubility of undesired ions and a complete absence of harmful organic residues. These are direct outcomes of continual process improvements; operators running compliance testing have found that sticking to D110 streamlines their reporting workflow, because there is rarely a batch that triggers a retest thanks to non-compliance.
Physical form matters in daily use. D110 comes as a powder or a slurry: the powder is easy to convey and feed through gravimetric or volumetric dosing rigs, while the slurry streamlines integration into high-throughput process water systems. In both forms, the product remains free-flowing and avoids bridging or arching in hoppers, issues we have addressed with trials involving bin design and agitation methods.
Slurry handling taught us some hard lessons. Viscosity can creep up if solids content rises too high during storage, leading to pumping headaches. We put in place strict controls not just during manufacture, but also in storage, to keep D110 slurry within a manageable viscosity window. Operators can pump, meter, and clean tanks using standard CIP cycles, without fighting stubborn sludge at the end of each batch.
Power plants, mining, and chemical process plants need robust products that won’t underperform at elevated temperatures. The magnesium hydroxide in D110 holds up without breaking down or forming troublesome byproducts. It resists the formation of heavily adhered silicate or sulfate crusts in scrubbers, a problem seen in some lower-quality products. Since our own people have faced the fallout from scaling and maintenance shutdowns, we keep a narrow spec window to avoid surprises for users in these harsh environments.
Our material also tolerates storage and minor temperature swings without caking. We filter and spray-dry under precise settings to hit optimal moisture content, so the D110 powder can sit in a warehouse for weeks—even months—without forming hard clumps that slow start-up. This isn’t an academic concern; years of customer audits and delivery checks have shown that stable storage characteristics pay off, especially for operations with variable consumption needs.
Industrial users often juggle complex permitting and reporting requirements for heavy metals and total suspended solids. D110’s controlled manufacturing eliminates the vast majority of US EPA-regulated metal contaminants at the source. This translates directly into easier discharge compliance and lower sludge disposal costs on the back end.
Because we do not rely on recycled brines or byproduct streams, the product’s chemical fingerprint stays consistent and low in non-target ions. End users in environmentally sensitive applications—pharmaceutical wastewater, drinking water, and municipal sludge—consistently report that D110 avoids side reactions and doesn’t introduce unmanageable solubles. This makes the product helpful where system audits and outside laboratory checks are frequent.
Some customers voiced concerns about nutrient carryover or unexpected byproducts from magnesium hydroxide in closed-loop or zero-discharge systems. Our R&D team worked with them to refine washing and classification steps, reducing organics and trace volatile compounds below detection thresholds. These changes didn’t just happen in response to a market trend, but out of on-the-ground trials at sites where seemingly “minor” differences made or broke compliance.
Magnesium hydroxide brings slower, more controlled alkalinity than caustic soda or quicklime, which makes a difference in fine-tuned pH management. The D110 model consistently buffers acidic streams while preventing overshooting pH set points, reducing chemical usage and minimizing the frequency of operator intervention. Plant operators have noted that automated dosing systems stay more stable when running D110, due to its slower dissolution and high reactivity.
Chlor-alkali plants, food processors, and wastewater operators all benefit from pH curves that rise steadily without rapid spiking. During onsite start-ups, our application specialists review trends directly on customer panels, watching for process upsets and fine-tuning dosing to align with local water parameters. This hands-on fieldwork ensures users get predictable pH response and fast troubleshooting support—a process grounded in years of performance data review, not abstract chemical theory.
Halogen-free flame retardancy is a growing requirement in plastics, rubber compounds, and building products, especially as environmental scrutiny grows. D110 serves as a cornerstone in intumescent systems due to reliable thermal decomposition properties and minimal impact on base polymer color or mechanical properties. Some magnesium hydroxide grades introduce residual grit or off-colors, which show up as streaks in finished parts—these might sound cosmetic, but for cable makers or extrusion lines, surface defects translate directly into scrap.
We went through significant effort developing our finishing and milling steps to guarantee that D110 particles disperse cleanly, minimizing “ghosting” or surface haze. In cleanup runs or process transitions, operators can switch over without flushing entire lines, since our additive keeps flow consistent along extruders and injection barrels. It’s these feedback loops with plastics processors that shaped our current product, not just a top-down spec sheet from the lab.
Every improvement to D110 grew out of plant visits, customer returns, and troubleshooting long after initial sales. We regularly audit batches in our own QA facility and at customer sites. Once, a client in the tannery sector raised concerns about slower settling during waste treatment; by reviewing their process with samples, we identified particle agglomeration due to local water chemistry. That feedback led to tweaks in our surfactant blend, resolving the issue for future production.
In another case, a customer in pulp and paper raised worries about magnesium residuals affecting downstream equipment cleans. Joint lab trials led us to new batch filtration steps, sharply reducing fines that could pass into filtrate. These practical learnings circle back into our ongoing process improvement efforts, which are steered by production staff, not just R&D managers in an office. In this way, we see product evolution as a living process—not a one-time design.
Health and safety adherence starts at our input sourcing and carries through packaging and logistics. Powdered D110 is manufactured to avoid fine dust, thanks to moisture stabilization and anti-dust handling during filling. In the few site audits we’ve seen where airborne magnesium hydroxide was a challenge, we responded by modifying our filling nozzles and testing sealed bagging systems. For bulk slurry shipments, we cooperate directly with carriers to guarantee tankers or IBCs remain easy to agitate, and our loading crews receive direct training from safety specialists.
We carry full product traceability; every batch arrives at the customer with a history of inputs, process logs, and analytical results. If there is a spike or deviation, we alert users and hold shipment until the matter is reviewed. This might seem like an extra step, but speaking as both manufacturer and user, preventing occupational exposures or out-of-spec batches matters more than moving extra volume in a given week.
We see many magnesium hydroxide products attempt to serve all sectors under one generic label. In practice, the difference between a chemical-grade and an industrial mineral alternative shows up on customer bottom lines and compliance reports. D110 is not an agricultural byproduct, a waste stream recycle, or an unwashed magnesite crush—it’s a purpose-made chemical with low impurity load and precise performance metrics, shaped by hands-on interaction with industrial users.
Comparing our product to other offerings in the market, several things stand out. Most obvious is the difference in batch homogeneity; users who switch to D110 report fewer equipment jams, lower filter cake volume, and steadier dosing rates. Beyond the manufacturing differences, we differentiate ourselves through extensive pre-shipment review, ongoing technical support, and a willingness to iterate on process parameters alongside users. Feedback from both new and established customers demonstrates how switching to D110 reduces unforeseen maintenance, unplanned shutdowns, or non-compliance fines.
Price competition in this sector can push some producers to relax on quality controls. Our outlook favors long-term supply security, meaning we don’t compromise raw material input or cut steps that protect process integrity. Buyers gain by investing in a chemically-consistent magnesium hydroxide, not chasing price lows at the expense of system reliability.
Sticking with a trusted chemical source pays back over time. Facility managers, plant engineers, and purchasing leads recognize that when performance stays predictable, budgets stabilize, and compliance risk drops. D110 exists because of this shared commitment among end users and production partners, pushing us to raise standards incrementally and respond to emerging site needs. Our staff—operators, lab technicians, and application specialists—contribute to this cycle of improvement by maintaining direct lines of communication and support.
Years of supplying chemical magnesium hydroxide worldwide have shown us the real value of deep partnership, not just product delivery. When a customer calls late in the shift with a process question or supply request, our team responds based on a working knowledge of both product and user plant operations. This bridges the gap between factory and field, creating real outcomes rather than abstract claims.
The D110 line represents a continuous investment in chemical engineering and on-the-ground needs. The work behind each batch delivers safety, compliance, and process stability to industries facing tight tolerances and complex regulations. Our next steps involve further refining quality controls, trialing new applications with industry partners, and maintaining the open problem-solving mindset that got us here. Real partnerships with users—engineers, operators, and compliance specialists—keep us honest and push the boundaries of chemical manufacturing in ways no outside spec sheet could.
By trusting in practical experience and ongoing customer dialogue, we’re confident D110 Chemically Magnesium Hydroxide will continue to set benchmarks for reliability and support in every system that depends on precision, purity, and unbroken performance.
