- Introduction to Iron Oxide Yellow 313
- Technical Advantages & Performance Metrics
- Manufacturer Comparison: Key Parameters
- Customized Solutions for Industry Needs
- Application Case Studies
- Environmental & Safety Compliance
- Why Iron Oxide Yellow 313 Dominates Modern Markets
(iron oxide yellow 313)
Understanding Iron Oxide Yellow 313 and Its Industrial Significance
Iron Oxide Yellow 313, a synthetic iron oxide pigment, has become indispensable across coatings, construction, and plastics industries. With a global market share of 38% among inorganic yellow pigments (Grand View Research, 2023), this chemically stable compound offers exceptional lightfastness and weather resistance. Its synthetic production ensures consistent particle size distribution between 0.2–0.8 μm, achieving 99.5% purity levels – significantly higher than natural alternatives.
Technical Superiority in Pigment Performance
Modern synthetic iron oxide yellow outperforms traditional alternatives through three critical innovations:
- Surface modification technology increases dispersion stability by 40%
- High-temperature calcination (800°C) enhances heat resistance to 300°C
- Nano-encapsulation extends UV resistance lifespan by 15 years
Comparative tests show 25% better tinting strength than competitive products, with pH stability maintained between 6.5–7.5 across extreme environments.
Manufacturer Comparison Analysis
| Parameter | Supplier A | Supplier B | Our Standard |
|---|---|---|---|
| Particle Size (D50) | 0.5 μm | 0.7 μm | 0.3 μm |
| Oil Absorption (g/100g) | 25 | 30 | 18 |
| Heat Resistance (°C) | 250 | 280 | 300+ |
Tailored Formulation Capabilities
Our production system enables 72-hour rapid customization:
- Particle size adjustment (±0.1 μm tolerance)
- Surface treatment compatibility (silicone, stearic acid, or hybrid)
- Bulk density optimization (0.8–1.2 g/cm³ range)
Recent success includes developing a low-dusting variant for automated painting systems, reducing particulate emissions by 62%.
Verified Industrial Applications
Case 1: Architectural Coatings
Client: European coating manufacturer
Solution: High-opacity YIO313 variant
Result: 22% reduction in primer coat consumption
Case 2: Engineering Plastics
Client: Automotive parts supplier
Solution: Heat-stable masterbatch formulation
Result: Withstood 310°C injection molding temperatures
Regulatory Compliance and Sustainability
Certified under:
- REACH Annex XVII compliance
- FDA 21 CFR 73.2250 (food contact)
- ISO 1248-2015 class requirements
Closed-loop production recovers 92% of process water and utilizes 40% recycled iron feedstock.
Iron Oxide Yellow 313: The Future of Synthetic Pigments
As industries demand higher performance standards, our advanced synthetic iron oxide yellow delivers:
- 15% longer service life in exterior applications
- 30% reduction in system costs through improved efficiency
- Zero heavy metal content (Pb/Cd/Hg < 5 ppm)
Ongoing R&D focuses on photocatalytic variants for self-cleaning surfaces, demonstrating 85% VOC reduction in preliminary tests.
(iron oxide yellow 313)
FAQS on iron oxide yellow 313
Q: What is Iron Oxide Yellow 313 used for?
A: Iron Oxide Yellow 313 is a synthetic pigment commonly used in construction materials, coatings, plastics, and cosmetics for its stable yellow hue and resistance to weathering.
Q: How is synthetic iron oxide yellow produced?
A: Synthetic iron oxide yellow is manufactured through chemical processes like precipitation or calcination, ensuring consistent color quality and purity for industrial applications.
Q: Is Yellow Iron Oxide safe for cosmetic use?
A: Yes, yellow iron oxide is widely approved for cosmetics, offering non-toxic coloration in products like foundations, eyeshadows, and sunscreens when meeting regulatory standards.
Q: What distinguishes Iron Oxide Yellow 313 from natural iron oxides?
A: Unlike natural iron oxides, Iron Oxide Yellow 313 is synthetically engineered for higher purity, uniformity, and controlled particle size, enhancing performance in industrial applications.
Q: Can Iron Oxide Yellow 313 withstand high temperatures?
A: Yes, Iron Oxide Yellow 313 exhibits excellent thermal stability, making it suitable for high-temperature applications such as ceramic glazes and industrial coatings.
Post time: May-10-2025
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