|
HS Code |
237165 |
| Chemical Name | Bismuth Vanadate |
| Color Index | PY 184 |
| Cas Number | 14059-33-7 |
| Ec Number | 237-898-0 |
| Molecular Formula | BiVO4 |
| Appearance | Yellow powder |
| Density | 6.9 g/cm3 |
| Oil Absorption | 17-23 g/100g |
| Lightfastness | Very good |
| Heat Stability | Up to 300°C |
| Particle Size | 0.1-1.0 μm |
| Resistance To Acids | Good |
| Chemical Class | Inorganic pigment |
| Specific Surface Area | 6-12 m²/g |
| Toxicity | Low |
As an accredited Pigment Yellow 184 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Pigment Yellow 184 is packaged in a 25 kg net weight fiber drum with a sealed inner plastic bag for moisture protection. |
| Shipping | **Pigment Yellow 184** is shipped as a non-hazardous solid, typically packaged in tightly sealed, moisture-proof bags or fiber drums, each lined with polyethylene. Containers are clearly labeled and protected from physical damage, moisture, and contamination. Transport follows general safety practices for non-toxic powders and complies with international shipping regulations. |
| Storage | Pigment Yellow 184 should be stored in a tightly sealed container in a cool, dry, and well-ventilated area. Protect it from moisture, direct sunlight, and incompatible materials such as strong acids and bases. Ensure proper labeling and keep it away from food and beverages. Always use spill-proof containers and follow standard industrial hygiene and safety practices when handling and storing this chemical. |
Competitive Pigment Yellow 184 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.
We will respond to you as soon as possible.
Tel: +8615365186327
Email: sales3@ascent-chem.com
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After years of manufacturing a range of inorganic pigments, the significance of Pigment Yellow 184 stands out in everyday production and application. In our factory, the synthesis of Pigment Yellow 184 takes focus due to its performance for high-demand coloration, especially under harsh physical and chemical conditions. The chemical backbone of Pigment Yellow 184 relies not on organic structures but on bismuth vanadate. This composition grants the pigment a lasting, clean yellow color that holds fast even when long-term weather resistance or heat stability presents a challenge.
Every manufacturer faces its own set of recurring headaches in pigment production. Not all yellow pigments stay bold under strong sunlight, and some show rapid fading or lose intensity in the slightest exposure to alkalis and acids. Our line of Pigment Yellow 184 avoids this trouble with natural resistance to both ultraviolet light and chemicals encountered in real-life end use. Years of controlled batch synthesis and repeated process adjustments brought us a particle size that balances color strength and processing performance, whether the pigment blends into plastics, industrial coatings, or specialized inks.
Back at the beginning, organic pigments dominated the cost-sensitive market. For price-driven disposable goods, these options make sense, but paintwork and polymer engineering need something else entirely. Bismuth vanadate delivers chromatic brilliance as well as opacity. In our operation, we refine our Pigment Yellow 184 for both value and performance. Its model—often listed in technical literature as PY184—results from a stable blend of bismuth, vanadium, and oxygen. This chemical foundation sets its characteristics apart, especially once it gets introduced to processing temperatures beyond 200°C, where other yellow options rapidly decompose or drift in color.
During testing, granule consistency and shade uniformity require strict process discipline. From pigment milling to filtration and calcination, the entire production cycle matters. Due to the density and structure of bismuth vanadate, our final pigment offers covering power unmatched by organic yellows—one coat often delivers the depth others need several coats to reach. Experience with coatings manufacturers and plastics converters underlines the pigment’s role in hiding power, letting formulators cut down on pigment loadings without sacrificing outcome.
Manufacturers who craft pipes, containers, outdoor signage, and automotive plastics value reliable performance under both heat and weather. During production runs, we have seen ordinary yellow pigments lose vibrancy or show chalking after moderate outdoor weathering. Pigment Yellow 184’s core advantage lies in its stability under UV exposure and its ability to lock color even when plastic components remain outdoors for years. Skilled processing controls, from initial composition through calcination and post-treatment, keep this property strong across every lot.
For heat resistance, plastics processing regularly reaches temperatures between 230°C and 280°C, which pushes many organic pigments past their limit. As one of the main producers handling high-throughput lines, we see Pigment Yellow 184 withstand these temperatures without moving away from its initial tone. Coating manufacturers working with baking procedures, such as coil and can coatings, also report that this pigment holds bright yellow intensity even after curing cycles above 200°C—something few alternatives offer.
From the point of view of an on-site producer, diversification of end uses keeps our production schedules stable. Plastics (PVC, polyolefins, engineering resins), coil coatings, powder paint, and offset inks all incorporate Pigment Yellow 184 due to its broad performance profile. In the field of architectural coatings, laborers and designers both prepare for years of sunlight and mechanical cleaning without the fading that dulls cheaper coloring agents. Producers of plastic consumer goods also see lower reject rates due to the pigment’s migration resistance, which limits color bleeding into surrounding materials or packaging inks.
Pipe and profile extruders return to Pigment Yellow 184 each season when harsh outdoor testing shows that competing yellows, especially organic diarylides or monoazo pigments, wash out or brown after exposure. The pigment’s low solubility and minimal interaction with polymer matrices cut the risk of warping or blooming within finished components. In automotive paints—especially undercoats and high-end OEM finishes—the pigment fits stringent durability standards. Year after year, auto part suppliers and refinishers chase color retention and chemical resistance up to the mark set by Pigment Yellow 184.
The market never stays still. Over the past decade, pigment manufacturers watched both regulatory requirements and end-use demands tighten. Organic yellow pigments, such as azo yellow (PY14, PY17), attract attention for cost savings but routinely disappoint against weather and baking. Our own test panels coated with organic yellows start to fade, lose intensity, or chalk within a year of outdoor exposure, a result customers consistently reject. In comparison, Pigment Yellow 184 keeps its chroma with little shift, and its opaque structure provides the hiding power that organic alternatives lack, particularly in PVC panels and powder coatings.
Lead chromate pigments, once the standard for brightness and opacity, now face regulatory bans worldwide, especially in Europe and North America. As a manufacturer, watching this transformation drove the need for safer, high-performing alternatives without environmental baggage. Pigment Yellow 184 filled this space, being free from heavy metals while matching and surpassing the brightness and opacity of classic lead-based yellows. The replacement process posed its challenges—particle engineering, improved dispersion, batch-to-batch shade consistency—but the results now speak for themselves in both safety profiles and application performance.
A common discussion with formulation chemists centers on dispersibility and viscosity impact. Due to the fine-tuned manufacturing controls applied to our production process, Pigment Yellow 184 disperses thoroughly without clogging or settling in solvent and waterborne systems. By keeping particle size distribution controlled and reducing unnecessary surface treatments, we cut down on adverse effects within finished batches. Cheaper pigments often disrupt film integrity or demand additional stabilizers, which cost time and resources for paint plants and extrusion lines alike.
Restriction of hazardous substances remains a concrete reality for industrial producers. In the past, lead chromate pigments dominated the yellow spectrum but brought environmental liabilities—repercussions that long outlasted production runs. Modern Pigment Yellow 184 contains no intentionally added heavy metals that raise regulatory trouble under RoHS, EN71-3, or similar guidelines. Safe production and downstream application take on growing importance. We designed our process to prevent airborne dust and manage metal traces well under regulatory limits.
From a producer’s view, independent certifications and third-party analysis of the pigment’s hazardous substances levels reassure both our customers and our own operational safety teams. Certifications alone never replace intentional process design, though. Every production shift applies routine monitoring and material checks to achieve repeat safety standards—even as raw material supply chains lean on global sources.
Years of firsthand work in pigment production unpack the many ways things can go wrong, especially as volume scales up. Surface treatment reactions, inconsistent firing temperatures, or improper filtration can produce aggregates, compromise shade, or reduce hiding power. Many pigments fall short on key performance if these variables wander outside strict control. In times of equipment downtime or fluctuations in bismuth vanadate quality, pigment lots may show unwanted undertone or irregular particle size.
We streamline our process by implementing strict batch traceability, monitoring both temperature and residence time during calcination, and confirming each lot with application testing. Correlating pigment shade outcomes to real processing conditions lets us adapt in real time. Hands-on monitoring by skilled operators, reinforced by automating critical stages such as slurry filtration and vacuum drying, makes a difference to the quality our customers see. Chemical companies without this diligence often suffer returns or customer complaints over inconsistent batches.
Our job never ends when the pigment leaves the plant gates. Through ongoing collaboration with plastics compounders, coil coating formulators, and ink manufacturers, we gain real insight into customer pain points. Discoloration, processing haze, and unplanned color drift often result from formulation missteps, not just raw pigment fault. We supply calibrated color standards, offer support in dispersion technique, and advise on processing temperatures to help end-users cut minutes off their production lines and boost yield.
A frequent request arises for custom shade matching, especially from branding teams locked into legacy color cards. Our laboratory teams compare CIELAB and Munsell values, then recommend minor tweaks in letdown ratios or co-pigmentation to hit the perfect tone. Because bismuth vanadate’s crystal structure is so consistent, we help customers dial in precisely the match they want with confidence batch after batch. This degree of commitment helps both sides minimize waste, reduce color rejects, and keep production on track.
As the pigment market grows and globalizes, steady technical quality outweighs one-time cost savings. Experience running a pigment plant—a perspective often missed in slick ad copy—brings home the need for tight controls, continuous operator training, and transparent communication down the supply chain. Pigment Yellow 184 never solves every coloration challenge, but its blend of brightness, weather resistance, and minimal health risks earns loyalty from both seasoned manufacturers and innovators pushing new applications.
From a technical perspective, the pigment’s mild refractive index supplies a clean yet natural yellow that avoids the harsh glare or green undertone that cheaper alternatives introduce. Its moderate oil absorption allows for flexible use in low- or high-binder formulations, while high tinting strength means smaller pigment loadings suffice in most scenarios—helpful for cost savings and viscosity control. Those factors together yield both cheerful consumer packaging and rigorous industrial signage that endures years of daily exposure.
Production doesn’t always run smoothly. Everything from energy prices to ore supply can tighten margins overnight. Still, controlling every part of the process, from raw material sourcing to roasting temperatures, helps us adapt and keep quality consistent. Blending years of hands-on plant experience with technical investment in R&D keeps Pigment Yellow 184 relevant even as markets shift and clients seek tougher, brighter, and cleaner color solutions.
Each year brings new sets of regulations, higher customer expectations, and tighter margins. For us, Pigment Yellow 184 threads the needle between a high-performance yellow that works inside strict compliance lines and a tool capable of real-world production. Investments in production automation, supply chain risk controls, and in-house expertise allow us to keep pace. Our confidence in recommending Pigment Yellow 184 stems from the lessons absorbed over years of field failures, wins, and continuous process improvement.
End users across plastics, paint, and ink industries want pigment grades that don’t complicate their own processing—and never force compromises between performance, safety, and cost. Pigment Yellow 184 fits easily into these conversations. Its clear yellow color suits everything from children’s toys to weather-exposed metalwork without skimping on safety or longevity. The consistent feedback from users—long color life in the field, stable handling at scale, and a basic confidence in regulatory compliance—shows why this pigment continues to earn its place.
The future will surely call for new formulas, color demands, and tighter technical expectations. Our job as manufacturers isn't only keeping up; it’s anticipating and learning along the way. Every batch, every new customer application, and every long-term weathering test helps us build a clearer picture of what high-performance pigment production still requires. Pigment Yellow 184 doesn’t just fill a color space; it stands as the practical outcome of innovation grounded in real production. As more markets shift away from old standards, it remains our tested, proven workhorse for applications where color, stability, and responsibility can’t be left to chance.
