|
HS Code |
373704 |
| Cas Number | 2582-30-1 |
| Molecular Formula | CH6N4·H2CO3 |
| Molecular Weight | 152.12 g/mol |
| Appearance | White to off-white crystalline powder |
| Solubility In Water | Soluble |
| Melting Point | Decomposes before melting |
| Purity | Typically ≥98% |
| Storage Temperature | Store at room temperature, dry place |
| Odor | Odorless |
| Ph | Approximately 5-6 (aqueous solution) |
As an accredited Aminoguanidine Bicarbonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of Aminoguanidine Bicarbonate is securely packed in a sealed, labeled HDPE bottle with hazard and handling instructions included. |
| Shipping | Aminoguanidine Bicarbonate should be shipped in well-sealed, clearly labeled containers, protected from moisture and incompatible substances. Transport in accordance with local, national, and international regulations for chemical safety. Maintain at a stable, cool temperature, and ensure appropriate documentation accompanies the shipment to guarantee safe and compliant handling during transit. |
| Storage | Aminoguanidine Bicarbonate should be stored in a tightly closed container in a cool, dry, well-ventilated area, away from direct sunlight and incompatible substances such as strong oxidizers and acids. It should be protected from moisture and heat. Proper labeling and secure containment are essential to avoid accidental exposure or contamination. Use appropriate protective equipment when handling the chemical. |
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Purity 98%: Aminoguanidine Bicarbonate with 98% purity is used in pharmaceutical intermediate synthesis, where it ensures high yield and product consistency. Molecular Weight 136.13 g/mol: Aminoguanidine Bicarbonate at 136.13 g/mol is used in polymer stabilization, where it optimizes chain termination efficiency. Melting Point 170°C: Aminoguanidine Bicarbonate with a melting point of 170°C is used in specialty chemical manufacturing, where it enables controlled thermal processing. Particle Size <50 μm: Aminoguanidine Bicarbonate with particle size below 50 μm is used in fine chemical reactions, where it provides increased surface area for faster dissolution rates. Stability Temperature 120°C: Aminoguanidine Bicarbonate stable up to 120°C is used in catalyst preparation, where it maintains structural integrity under reaction conditions. Water Solubility 40 g/L: Aminoguanidine Bicarbonate with water solubility of 40 g/L is used in aqueous formulation processes, where it allows for homogeneous dispersion. pH (1% solution) 7.2: Aminoguanidine Bicarbonate at pH 7.2 in 1% solution is used in biochemical assay development, where it provides a neutral reaction environment. Assay ≥99%: Aminoguanidine Bicarbonate with assay ≥99% is used in analytical reagent manufacturing, where it ensures reliable and reproducible assay results. Bulk Density 0.65 g/cm³: Aminoguanidine Bicarbonate with bulk density of 0.65 g/cm³ is used in automated dosing systems, where it provides consistent flowability and dosage accuracy. Residue on Ignition ≤0.2%: Aminoguanidine Bicarbonate with residue on ignition ≤0.2% is used in electronics-grade applications, where it minimizes contamination in sensitive manufacturing processes. |
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In our production halls, Aminoguanidine Bicarbonate is not just another specialty chemical; it’s the backbone that helps many industries move from theory into practice. Our direct involvement in the synthesis of this compound gives us a clear outlook on its behavior, consistency, and dependable character. Over decades of development, we have honed a process that delivers an Aminoguanidine Bicarbonate meeting strict standards suitable for chemical, pharmaceutical, and research applications. The product sits firmly in a spot between innovation and hands-on utility.
In our workflow, Aminoguanidine Bicarbonate with the model code AGBC-99 consistently exceeds 99 percent purity. This is not just a number on a specification sheet. Purity matters at every step, shaping how chemicals interact in downstream synthesis, catalysis, and process reliability. We keep our moisture levels below 0.5 percent. This helps minimize caking and ensures reliable dosing, especially in environments where stability counts just as much as reactivity. Our crystalline, free-flowing powder lets users weigh and dissolve with confidence, without the need to break up lumps or recalculate for water content.
Unlike compounds that tolerate broader specs, we discovered that even small deviations in impurity profiles with Aminoguanidine Bicarbonate can derail batch consistency, alter yields, or risk unintended reactions further down the manufacturing chain. Our plant design, drum filling procedures, and analytical lab routines all help maintain clean, reproducible output from one lot to the next.
Through years of direct collaboration with technical teams in pharmaceuticals, dyes, and polymer-modifiers, we see Aminoguanidine Bicarbonate’s role in many cornerstone reactions. For hydrazine replacement, it outshines traditional reagents by simplifying safe handling and waste streams, while maintaining high conversion rates. It’s a trusted intermediate in synthesizing pharmaceuticals like hydralazine and other agents requiring clean aminoguanidine input free from excess moisture or raw material carry-over.
Our product’s reliable reactivity lets R&D teams set up experiments without pausing over contaminant troubleshooting. When scale-up happens, manufacturers rarely need to reformulate, because our tight control during small-lot trials matches what’s delivered on bulk scale. This consistency cuts down on expensive troubleshooting or batch loss—an underappreciated value until something goes wrong in the middle of a production run.
Those who have switched from aminoguanidine hydrochloride or sulfate variants to our bicarbonate form notice a shift in operational simplicity. The bicarbonate variant reduces sodium or sulfate residue risk, and neutral byproducts are easier to manage with less downstream neutralization. Especially for pharmaceutical synthesis, the fewer extraneous ions present in the system, the easier it becomes to purify the final active product.
Many vendors claim interchangeability, but real-world runs show key differences in solubility and stability. Bicarbonate offers greater water solubility and easier removal of carbon dioxide during decompositions or reductions, trimming extra purification steps. Our own process control depends on these advantages. Where minute amounts of inconvenience grow exponentially in full-scale reactors, switching to our bicarbonate streamlines workflow and cuts the number of column washes required after synthesis.
Practical use defines good chemicals more than literature ever can. Year after year, we supply Aminoguanidine Bicarbonate for production of triazole-based compounds, giving polymer modifiers the precision needed to drive desired mechanical properties. In corrosion inhibition chemistry, formulators need consistent, reproducible results to pass QC for oilfield additives and industrial water treatment blends. Here, impurity drift or slight batch variation can ripple through performance tests, costing end-users time and money. Our customers report smooth operation and fewer reworks, suggesting that attention to process detail pays dividends outside our factory, not just inside the lab.
Our bicarbonate form also sees utility in textile finishing and color-fixing industries where contaminants from the starting material can drag down dye strength or cause uneven deposition. After hearing feedback from these industries, we adjusted our washing and drying steps, focusing not just on purity, but also on physical flow characteristics. Faster, cleaner dissolution means less wasted time in batch prep and less need to screen or grind the powder ahead of time.
Manufacturers care about upstream supply chain just as much as what goes into the reactor. That’s why our raw material sourcing sticks to reliable, fully-audited suppliers—cutting out inconsistencies that cause costly delays. We rely on in-house lab analytics using high-performance liquid chromatography, infrared, and Karl Fischer titration. Each lot passes through our testing bench with records matched to retain samples so future traceability is never an issue. If a lab or plant manager has concerns, we find the root quickly—because our documentation and samples run parallel in storage for years.
We listen to feedback from experienced operators who handle the product every day. Several years ago, regular users flagged a tendency for powder compaction during long-term storage in humid climates. We responded by adjusting packaging liners. Every improvement comes from a hands-on need, not theoretical optimization in a sales brochure.
From the manufacturing angle, safety matters as much as purity. Aminoguanidine Bicarbonate compares favorably to older salts or hydrazine-based intermediates because it doesn’t carry the same acute toxicity markers, nor does it fume or emit strong odors at expected process temperatures. We train our teams to handle it respectfully and track exposure as part of routine plant safety, but the risk profile is far less daunting than many similar reactive amines or hydrazine derivatives.
We also care about what happens after shipment. Downstream byproducts from our bicarbonate are easier on wastewater treatment, cutting the risk of corrosive ion contamination and making environmental compliance more manageable for users across pharmaceutical, agricultural, and specialty chemical industries. Every batch runs alongside a certificate of analysis that lists key physical and chemical properties—not as an afterthought, but as a commitment to real-world accountability.
Packaging needs go beyond convenience. We deal with climate and logistical variations, so every drum is lined to block moisture, and weight consistency is validated by calibrated scales. Our warehouse team pays attention to the stacking patterns and handling, reducing the risk of powder bridging or compacting. For bulk shipments, we use antistatic liners and heavy-gauge drums to prevent loss during long-distance haulage or extreme weather incidents. If end users request, we can also fill smaller packs for lab or pilot-scale use, using the same process controls as bulk runs.
Last winter, a customer in a high-humidity region reported localized caking in several drums during offloading. After a direct site visit, we modified seal design and altered drum stacking in our trucks. Since then, not a single similar complaint has reached us. Continuous improvement only happens through direct communication and a willingness to adapt.
Process chemists often run our Aminoguanidine Bicarbonate side by side with competitors’ batches for pilot reactions. Where we win most often is not just on initial purity but on reactivity and ease of downstream rinsing. A cleaner reaction profile trims labor hours, solvent costs, and energy inputs during purification. Minor differences in the manufacturing process lead to significant time savings in multi-step synthetic routes.
In one customer’s case—a mid-scale pharmaceutical synthesizer—they saw a 6 percent increase in final product yield with our material compared to a generic sourced from two other vendors. They credited this difference not solely to higher purity, but a narrower moisture range and lower unwanted salt content, which let them run reactions on tighter parameters and reduce neutralization waste.
Manufacturers are under more scrutiny than ever to document origins, batch processing, and traceability. Our document trails—developed not for superficial compliance but for our own operational accountability—track every drum from first kilo to pallet. Analytical records, stability data, and sample retention aren’t simply external requirements; they back our own operational troubleshooting and continuous improvement efforts. This helps our partners clear regulatory hurdles with fewer questions and eliminates surprises if a regulatory agency requests follow-up details months or years after delivery.
We approach every product challenge as a shared problem to solve, not a one-way sale. In production, occasional mixing or synthesis issues stem from unexpected interactions with other batch inputs, storage conditions, or sudden climate swings. We respond by sending technical experts directly or remotely, reviewing on-site batch records, or pulling retained samples ourselves for confirmatory analysis.
An industrial explosives manufacturer once encountered color shift in a downstream intermediate. After a full review of their process water and our retained samples, it turned out a difference in their plant’s pre-mixing protocol, partly due to a new water source, had interacted with a trace impurity. Quick corrective action—advised jointly by our technical and their plant team—eliminated the issue and improved both our process and theirs.
We focus on delivering not only a high-performing chemical, but one that stands up to real-world storage, shipment, and batch consistency. This ensures formulators, process chemists, and regulatory groups can count on the same results yesterday, today, and tomorrow. Unlike brokers or traders, we know the handling, environmental, and performance quirks are not just academic. They affect the economics and safety profiles of every batch and every end-user product. That means repair and improvement on our shop floor translates to less frustration and lower hidden costs down the road for our partners.
As production demands evolve, so does our approach to process efficiency and reliability. We’ve shifted energy inputs, reduced solvent loads without undermining purity, and rolled out more sustainable waste handling. A focus on safe batch handling lets us maintain both environmental stewardship and high output. Close ties to our industry peers, raw material suppliers, and customers sharpen our ability to provide directly relevant support when scaling up new projects or troubleshooting plant-level difficulties. Aminoguanidine Bicarbonate, as we make it, stands as a model of what careful attention and practical feedback can achieve.
Real stories from our customers shape how we manufacture and package Aminoguanidine Bicarbonate. An agricultural chemical producer dealing with plug-forming in feeder lines found relief when switching from a clumpy generic to our batch, which moves cleanly even in semi-automated dosing. In R&D labs, analysts say less time is spent dissolving or filtering out insolubles. QC departments facing regulatory and audit pressure have praised our batch and document consistency, reducing back-and-forth with their own compliance teams.
In dye-works and fiber mills, end-product consistency rose noticeably when they switched from hydrochloride salt to our bicarbonate version—less downtime, smoother run cycles, better archival stability for stored lots, and lower expenses allocated to troubleshooting dye bleed or fixative drift. The benefit comes not just from what’s in our product, but in what isn’t—unwanted ions, excess water, or heavy caking during transport or storage.
We expect more changes ahead. As regulatory agencies press for transparency and environmental controls tighten, we build flexibility into our operation. That means improved packaging, sharper analytics, and tighter networked feedback between production floor and client site. Feedback loops—direct calls, site visits, and shared R&D tests—keep our output aligned to the challenges people face with actual products, not just paperwork.
Our Aminoguanidine Bicarbonate is more than a chemical formula—it’s the result of attention, adaptation, and accountability tested every day in real-world conditions. Our plant, analytic teams, and logistics partners all carry a stake in every drum shipped. By staying engaged, receptive, and responsive, we ensure our material rises to the challenges faced across the sectors it serves.
Aminoguanidine Bicarbonate leaves our plant consistent and clean, but it’s the service philosophy and technical engagement behind every shipment that set the product apart. We guard against short-term cost-cutting in favor of repeatable performance. Instead of chasing novelty for its own sake, we double down on reliability and user-driven improvement. Whether for pharmaceuticals, dyes, polymers, or specialty chemicals, our teams offer not just a chemical, but a commitment to enduring results in both product and everyday partnership. Anyone needing real-world reliability finds long-term value with our Aminoguanidine Bicarbonate, shaped by experience, grounded in fact, and proven in practice.