|
HS Code |
263376 |
| Chemicalname | Guanidine Nitrate |
| Chemicalformula | CH6N4O3 |
| Molarmass | 122.08 g/mol |
| Casnumber | 506-93-4 |
| Appearance | White crystalline powder |
| Meltingpoint | 213 °C (decomposes) |
| Solubilityinwater | Very soluble |
| Density | 1.44 g/cm³ |
| Odor | Odorless |
| Ph | Approximately 5.7 (1% solution) |
| Stability | Stable under normal conditions |
| Flashpoint | Non-flammable |
| Explosiveproperties | Explosive under certain conditions |
| Boilingpoint | Decomposes before boiling |
As an accredited Guanidine Nitrate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
|
Purity 99%: Guanidine Nitrate with 99% purity is used in airbag gas generants, where rapid and consistent gas output ensures effective airbag deployment. Melting Point 213°C: Guanidine Nitrate with a melting point of 213°C is used in pyrotechnic delay compositions, where its controlled melting behavior ensures predictable reaction timing. Particle Size <100 μm: Guanidine Nitrate with particle size below 100 μm is used in propellant blends, where improved homogeneity enhances burn rate uniformity. Moisture Content <0.2%: Guanidine Nitrate with moisture content less than 0.2% is used in energetic formulations, where low moisture minimizes degradation and maximizes shelf life. Thermal Stability up to 200°C: Guanidine Nitrate with thermal stability up to 200°C is used in demolition charges, where reliable performance under heat prevents premature detonation. Free-Flowing Granules: Guanidine Nitrate in free-flowing granule form is used in continuous manufacturing processes, where easy handling supports automated dosing and mixing. |
| Packing | Guanidine Nitrate is packaged in a 25 kg white fiber drum with a tightly sealed lid, labeled with hazard and handling warnings. |
| Container Loading (20′ FCL) | 20′ FCL container holds approximately 16 metric tons of Guanidine Nitrate, packed in 25kg bags, palletized or as per safety regulations. |
| Shipping | Guanidine Nitrate must be shipped in accordance with hazardous materials regulations. It is classified as an oxidizer (UN 1467) and should be packed in tightly sealed, approved containers. Store away from heat, moisture, and incompatible substances. Transport is typically restricted to road, rail, or sea, with clear hazard labeling required. |
| Storage | Guanidine Nitrate should be stored in a cool, dry, well-ventilated area, away from sources of heat, ignition, and direct sunlight. Keep the container tightly closed and store separately from incompatible materials such as strong acids, bases, and oxidizing agents. Avoid storing with combustible materials. Use only approved containers, and ensure proper labeling and easy access to emergency spill cleanup equipment. |
| Shelf Life | Guanidine nitrate typically has a shelf life of 3–5 years when stored under cool, dry, and tightly sealed conditions away from moisture. |
Competitive Guanidine Nitrate prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615651039172 or mail to sales9@bouling-chem.com.
We will respond to you as soon as possible.
Tel: +8615651039172
Email: sales9@bouling-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Guanidine Nitrate offers a unique combination of energy, stability, and versatility. Over several decades, our production team has focused on fine-tuning every aspect of its synthesis. This compound, chemically described as CH6N4O3, brings together guanidine and nitric acid, yielding a white, crystalline powder that has proven itself in a variety of demanding applications. As a long-term manufacturer, we recognize the importance of producing material that performs consistently, both in terms of its physical properties and its chemical reliability.
Manufacturing in our facility centers around two main production models: high-purity Guanidine Nitrate and a slightly lower-grade material intended for less demanding processes. For high-purity grades, each batch passes through rigorous monitoring, with attention paid to chloride, sulfate, and moisture content. The majority of our customers pursue material ranging from 98.5% to over 99.5% purity, measured by direct titration and infrared spectroscopy. Trace impurities like heavy metals must stay well below commonly accepted thresholds, and we use batch-based documentation so traceability is always possible.
Grain size and flowability have a direct effect on downstream applications. Through decades of production, we recognized that certain processes, such as continuous mixing for pyrotechnics or airbag inflator assemblies, demand particles of a tight size range and minimal caking. We achieve this through controlled crystallization and sieving, reviewed for every lot. Excess moisture or irregular particle sizes challenge handling, so each batch leaves our site meeting a strict specification for both.
The chemical industry relies on Guanidine Nitrate as a strong, nitrogen-rich intermediate. Airbag propellants in the automotive sector represent a leading application. Automotive safety engineers require a propellant that delivers repeatable, controlled gas release at the critical moment of impact and holds up under years of temperature changes inside a vehicle. Impurities or uneven grain size can disrupt combustion efficiency or lead to incomplete burns, so our focus remains on consistency and purity.
Guanidine Nitrate also supports the industrial sector as a key starting point for certain organic syntheses. Synthesis of pharmaceuticals, herbicides, and other performance chemicals regularly calls for guanidine intermediates. Batch records from our customers underline the need for low-salt content and stable shelf-life. Our team established storage and packaging procedures to prevent contamination and limit clumping during transit—a lesson learned from close feedback with end-users who struggled with inconsistent supply from less attentive sources.
In the field of explosives and pyrotechnics, safety and energetic predictability remain paramount. We learned through years of direct consultation with safety engineers that the chemical’s exothermic properties offer controlled energy release when combined with the right oxidizers. Unlike some alternative propellants, Guanidine Nitrate provides less toxic decomposition products, and its detonation properties stand out for lower sensitivity to shock and friction compared to some older-generation explosives. This trait helps our customers maintain higher safety standards in both transport and storage.
Chemical users often ask what sets Guanidine Nitrate apart from ammonium nitrate, urea nitrate, or simple guanidine compounds. Guanidine Nitrate brings a distinctly higher nitrogen content while keeping a stable crystalline form at standard temperatures. Those relying on ammonium nitrate, for example, see different hygroscopic properties—meaning ammonium nitrate can draw in moisture from the environment and degrade faster in non-ideal storage. Guanidine Nitrate holds its structure much longer, offering longer shelf-life and superior predictability in chemical mixtures.
Some applications require a better balance of sensitivity and stability. Urea nitrate can provide similar energetic properties, but field experience shows that environmental and handling safety become more challenging, especially under humid conditions or where high purity is not maintained. Guanidine-based propellants offer a lower vapor pressure and don’t break down as quickly in the presence of ambient moisture. This reduces risk during transport and extends usability for shelf-stable products.
In addition, manufacturing flexibility matters to formulators. Guanidine Nitrate possesses a neutral pH when dissolved in water—assuming production remains precise—which minimizes negative interactions with other additives during further processing in pharmaceuticals or specialty chemical blends. Where other nitrates may introduce unwanted acidity, Guanidine Nitrate offers predictable pH profiles. This fact allows for broader compatibility and reduces the chance of side reactions that can otherwise limit performance or safety.
Through ongoing collaboration with partners in different sectors, we identified greater demand for reproducibility in Guanidine Nitrate's properties. Many downstream users require not only purity, but batch-to-batch uniformity in particle size and thermal behavior. To meet these expectations, our team invests in continuous improvement for crystallization systems and employs advanced analytical equipment to validate properties after each production cycle. This close alignment with user specifications has reduced quality complaints and increased the reliability of delivered product.
During scaling, we work with chemical engineers to adjust formulation and delivery. The fertilizer industry, though not a principal outlet for Guanidine Nitrate, occasionally uses the compound as a high-nitrogen specialty ingredient. We received requests for technical support on safe integration with other fertilizers and have been able to reduce instances of clumping and uneven distribution through targeted granulation changes and moisture control.
Manufacturing and handling Guanidine Nitrate brings environmental responsibilities. Through years of plant operation, we recognized the necessity of minimizing nitrogen oxide emissions and waste acid byproducts. Internal recycling systems reclaim unreacted nitric acid and neutralize process wastes. The product’s low volatility helps with on-site containment, and we maintain dust capture systems in production and packaging lines to keep workplace contamination under control.
Storage and safe handling remain constant priorities. Industry best practices recommend storing Guanidine Nitrate away from strong acids or reducing agents, in cool, dry environments. Based on feedback from logistics partners, we updated our container designs to reduce the risk of moisture ingress and caking, and we adapted to regulations that govern shipping of energetic chemicals. Training programs emphasize proper palletization and inventory rotation, which keeps product fresh and safe, lowering the risk profile for industrial users.
We’ve participated in industry working groups focused on best practices for high-nitrogen materials. Direct communication with pyrotechnic manufacturers, pharmaceutical formulators, and safety engineers guides the steady evolution of our product and manufacturing systems. For example, requests for more precise thermal decomposition characteristics led us to install additional calorimetric analysis stations, allowing real-time adjustment of process parameters.
By keeping production responsive to feedback, we see fewer returns and technical inquiries. Our records show a consistent decrease in out-of-specification shipments year over year, which tracks closely with investments in analytic technology and controlled environment storage. User-driven changes remain a cornerstone of our chemical operations, bringing both satisfied repeat customers and a clearer sense of chemical safety and responsibility.
Modern airbag systems have moved away from sodium azide in favor of safer, more stable propellants. Guanidine Nitrate serves as a preferred alternative due to its clean decomposition and reliable burn characteristics. The automotive sector’s demand for lower toxicity and non-volatile residues meant investing in better purification and analytical processes. Through field testing and close partnerships, we proved that properly manufactured Guanidine Nitrate creates a propellant mixture that meets strict safety and environmental testing.
We continue to collaborate with researchers and industrial partners on novel synthesis applications. For example, as organic chemists look for safer ways to introduce nitrogen into aromatic rings, Guanidine Nitrate works as a building block that avoids harsher nitrosation agents. The broader agrochemical field leverages this variability in application, from herbicide formulation to specialty feed additive production. Our ongoing relationships with technical users across these verticals fuel process optimization and responsive product development.
Years spent in commercial synthesis teach the hard lessons that no laboratory protocol translates seamlessly to production scale. Batch-to-batch uniformity must account for real-world conditions: humidity spikes, raw material quality changes, unpredictable shipping routes. We maintain batch records and full traceability for every shipment, so our end-users gain the confidence that comes from transparency. Most product returns stemmed not from inherent chemical flaws, but from packaging or logistics issues, prompting us to annually review—and continually upgrade—our distribution processes.
A clear channel for real-time customer feedback now connects our production and application support teams. Technical service lines run directly to plant engineers and analytical labs, so when a customer faces mixing or reactivity challenges, we bring application-minded solutions within one production cycle, not quarters later. The closer we listen, the better we can anticipate needs: finer grinding for certain detonator charges, tighter pH control for process chemists, more robust double-layer packaging for export.
The competitive landscape for high-purity Guanidine Nitrate keeps raising expectations. Our investment in quality systems—ISO certification, in-house analysis, and ongoing staff training—anchors our approach. By validating each lot against both chemical and physical parameters, we consistently deliver on what customers require. This reputation allowed us to build long-term partnerships and adapt to an evolving regulatory environment with fewer surprises or supply disruptions.
The most rewarding aspect of specialty chemical manufacturing remains the growth that emerges from honest, open relationships with process users. By factoring in the true needs of those using Guanidine Nitrate—beyond the textbook expectations—we stay alert to where our efforts will make the biggest impact.
Chemicals like Guanidine Nitrate come under scrutiny as safety and environmental policies advance. Experience in adapting plant protocols to evolving rules proved critical. Early engagement with regulatory authorities and independent auditors creates greater consistency between our internal controls and those expected by industry and government bodies. Product labeling, hazard communication, and transportation procedures follow current standards, reducing the chance of legal or reputational setbacks.
In the past, shifting regulations meant scrambling to update procedures or manage stockpiles shipped under old classification schemes. To address this, we added cross-functional teams in regulatory affairs and process engineering, ensuring every process step—from raw material intake to outbound logistics—meets the latest requirements. These teams participate in yearly audits and scenario trainings, so our crew is better prepared for inspection or incident.
Resource efficiency now forms an integral part of specialty chemical production. As a manufacturer, we embrace closed-system waste management, solvent recycling, and energy monitoring for every process cell. This not only reduces operational footprint but reassures our customers that the Guanidine Nitrate they receive matches their own sustainability goals. As the markets for safer, cleaner chemicals expand, our stewardship of raw materials and emissions increasingly factors into how downstream partners select their suppliers.
In the long run, being transparent—about process changes, audit outcomes, and even challenges faced—cultivates confidence among users. Chemical production does not stand still, especially as end users expect cleaner technologies and higher standards. We innovate both by introducing new purification streams and by drawing on decades of hands-on, plant-floor knowledge.
Customer partnerships often point us toward performance adjustments and new application profiles for Guanidine Nitrate. For example, working with safety device manufacturers, we pushed to refine our drying and granulation protocols, yielding material that flows better in high-speed filling operations. Conversations with pyrotechnics formulators led us to deliver custom particle size options, reducing dust and enhancing dispersal properties for precision ignition.
Not every new idea works on the first try. Sometimes, scaling up experimental parameters uncovers unexpected bottlenecks or requires new safety reviews. We treat these hurdles as learning opportunities, relying on production staff and R&D teams to dissect and resolve issues quickly.
Large multinational companies, mid-sized formulators, and specialty innovators all value timely information and dependable quality. From the first technical inquiry to final delivery, we align our production process with the realities of chemical supply: weather delays, long customs clearance, end-user ramp-ups. This broader perspective allows us to adapt flexibly to demand spikes or shortfalls without sacrificing oversight or control.
Dedicated technical staff stay available to respond to user queries—whether about compatibility, reactivity, or formulation challenges. This type of communication builds partnerships that last, helping us support both established processes and emerging innovations.
Manufacturing Guanidine Nitrate for a demanding marketplace goes well beyond achieving a percentage purity. Real-world users count on consistency, safe delivery, technical support, and a manufacturer who owns quality at every link. Maintaining ongoing dialogue with business partners and adapting production in real time forms the foundation for future growth.
As industrial users pursue ever-safer, cleaner, and more controllable chemical solutions, our factory will continue leveraging decades of operational experience, robust quality processes, and lessons hard-won on the factory floor. This approach lets us supply Guanidine Nitrate not just as a standard commodity, but as a result of continuous listening, learning, and shared success with end users across countless sectors.
