Understanding 13463 67 7 CAS: Why It Matters Globally
So, you’ve probably come across 13463 67 7 CAS while browsing chemical databases or industry specs, but what is it exactly? At its core, this CAS number refers to the chemical compound titanium dioxide (TiO2), a white pigment that's everywhere — from paint on your walls, toothpaste tubes to food coloring and sunscreen. Its global importance is no joke: classified by the World Health Organization and monitored under many industrial standards, titanium dioxide contributes massively to modern manufacturing, insulation, and even pharmaceutical industries.
With increasing demands for sustainable, non-toxic, and durable materials globally, understanding 13463 67 7 CAS means better product development, compliance with environmental laws, and ultimately, safer and more effective consumer goods. Whether you're in R&D, procurement, or quality assurance, a clear grasp of titanium dioxide's specs, applications, and future trends can set you up for success.
The Global Context: Why 13463 67 7 CAS Plays a Key Role
Titanium dioxide is produced on a massive scale worldwide. According to data from [the International Titanium Association](https://www.titanium.org), annual global production is roughly 7 million metric tons, with major production hubs in China, the US, and Europe. The UN’s efforts toward reducing hazardous substances in manufacturing include regulating compounds like titanium dioxide, ensuring safer occupational environments and consumer protection.
Yet, challenges remain: responsibly sourcing and processing 13463 67 7 CAS without harmful emissions, or finding alternatives when sustainability is a priority. The COVID-19 pandemic also highlighted the need for antimicrobial coatings and safer materials — several industries rely on titanium dioxide’s optical and chemical properties to improve surface resilience and hygiene.
What Is 13463 67 7 CAS Exactly?
Let's break it down simply: a CAS number is like a chemical’s social security number — a unique identifier used internationally. 13463 67 7 CAS specifically belongs to titanium dioxide, which has this cool white pigment that’s both bright and inert. In practice, it’s prized for brightness, UV resistance, and stability.
Industrially, it comes in two crystalline forms: rutile and anatase. Both have slightly different optical and chemical properties, affecting their use—for example, rutile is favored in paints for better durability, while anatase can be more reactive and used in photocatalysts. This flexibility is why titanium dioxide is sort of a quiet superstar across sectors.
Key Aspects of 13463 67 7 CAS in Practical Use
Durability & Stability
Titanium dioxide is chemically inert, meaning it doesn’t react with most substances, making surfaces last longer — a massive boon for coatings, plastics, and even solar panels. Many engineers swear by its stability under UV radiation; it slows down discoloration, which is a common issue with outdoor materials.
Optical Properties
Its high refractive index and white brightness allow coatings and paper products to look crisp and vibrant. This feature also plays a role in creating protective sunscreens, where blocking UV light safely is critical. Oddly enough, it’s not just about looking good — it also protects underlying materials.
Cost Efficiency
its abundance and relatively low production costs keep products affordable despite rising raw materials prices. Manufacturers can count on steady supplies, and emerging processing methods continue to reduce environmental impact, balancing cost with green credentials.
Eco-Friendly Potential
While titanium dioxide production does involve energy use and emissions, innovations in cleaner synthesis and recycling methods are making it greener. In recent years, there’s also been research into nano-titanium dioxide for environmental applications such as air purification and water treatment.
Versatility in Formulations
13463 67 7 CAS is used in powders, pigments, coatings, and even engineered nanoparticles. This versatility means it’s adaptable to custom blends, modifying gloss, opacity, or resistance depending on customer needs.
Global Applications & Real-World Use Cases
- Paint & Coatings: Dominates as a pigment creating white, bright, durable paints worldwide, from urban skyscrapers in Dubai to eco-friendly homes in Scandinavia.
- Plastic Manufacturing: Used to whiten plastics and enhance UV resistance, extending product life spans for everything from packaging to durable consumer goods.
- Food & Pharmaceutical: Provides opacity in tablets and brightens certain foods as a safe additive, adhering to stringent ISO and FDA guidelines.
- Sunscreens & Cosmetics: Blocks harmful UV rays while being gentle on skin — pretty much a consumer staple across continents.
- Environmental Tech: New developments in photocatalytic coatings utilize anatase forms of titanium dioxide for breaking down pollutants in air purification systems.
For instance, in post-disaster construction efforts, fast-curing coatings with 13463 67 7 CAS ensure temporary shelters withstand harsh weather while being light and cost-efficient. NGO procurement teams rely on suppliers with stringent quality control to keep relief operations safe and functional.
Product Specification Table
| Property | Specification | Typical Use |
|---|---|---|
| CAS Number | 13463-67-7 | Universal Identifier |
| Chemical Formula | TiO2 | Pigments, coatings |
| Crystal Structure | Rutile & Anatase | UV resistance, catalysis |
| Bulk Density | 0.3-0.6 g/cm³ | Manufacturing flow |
| Particle Size | 0.2 - 0.5 μm | Color intensity, surface area |
Vendor Comparison for 13463 67 7 CAS Suppliers
| Supplier | Product Range | Quality Certifications | Sustainability Initiatives | Global Reach |
|---|---|---|---|---|
| Yaguan HPMC | Rutile, Anatase grades | ISO 9001, REACH | Energy-efficient production | Asia, Europe, Americas |
| TiCoat Industries | Specialty nano TiO2 | ISO 14001, FDA | Recycling byproduct reuse | Global with Asia focus |
| PurePigments LLC | Bulk and custom blends | REACH, ISO 9001 | Low-emission kilns | US and Europe |
Advantages & Long-Term Benefits of 13463 67 7 CAS
In real terms, titanium dioxide’s biggest advantage is trust. Manufacturers trust it to deliver consistent color, protection, and longevity. For consumers, it translates into products that don’t fade, degrade, or pose health risks. Socially, it's instrumental in enhancing safety — think sunscreen that truly shields or medical devices coated to resist microbes. The sustainability angle is emerging fast too. Cleaner synthesis reduces harmful waste, and ongoing nano-research promises air and water purification technologies that could shape eco-friendly urban futures.
Cost-wise, it’s reliable and competitively priced compared to alternatives, thus supporting industries in both developed and developing markets.
Looking Ahead: Trends & Innovations
Innovation never sleeps with titanium dioxide. Nano-engineered forms are being tested for solar panels, self-cleaning surfaces, and even antibacterial paints. At the same time, policy shifts encourage zero-waste production cycles, pushing vendors to improve energy efficiency dramatically.
Digital transformations mean better quality control via AI-powered sensors and real-time analytics in manufacturing plants. Plus, the green energy push aligns with titanium dioxide’s roles in photocatalysis-based hydrogen generation — literally turning sunlight into fuel.
Challenges & How the Industry Is Tackling Them
Despite all the goodness, challenges persist. Fine particles of titanium dioxide pose inhalation risks, so workplace safety must be top-notch. Environmental concerns about nanoparticle release have stirred some debates, calling for stringent testing and handling protocols.
Thankfully, many manufacturers adopt closed-system production lines and invest in encapsulation tech to prevent airborne exposure. Research into biodegradable coatings and safer nanoforms continues — meaning those limitations might just be hurdles soon overcome.
FAQ: Your Questions About 13463 67 7 CAS Answered
- What makes titanium dioxide (13463 67 7 CAS) essential in paints compared to other pigments?
- Its extremely high refractive index delivers unmatched whiteness and opacity, ensuring vibrant, durable colors. Plus, it resists UV degradation better than most pigments, extending product lifespan.
- Is 13463 67 7 CAS safe for use in food and cosmetics?
- Yes, titanium dioxide is approved by several agencies like the FDA and EFSA when used within regulated limits. It provides color brightness without toxicity, though ongoing reviews monitor nano-size particle safety.
- How can manufacturers ensure sustainable sourcing of titanium dioxide?
- Vendors with ISO 14001 environmental management certification and those investing in cleaner production processes offer better sustainability. Recycling waste and reducing emissions are key approaches.
- Can titanium dioxide’s properties be tailored through processing?
- Absolutely! Adjusting particle size, coating the particles, and controlling crystal form lets manufacturers customize brightness, UV protection, or catalytic activity for specific applications.
- Where can I find reliable suppliers for 13463 67 7 CAS?
- You can explore trusted vendors like Yaguan HPMC who have global reach, certifications, and sustainable initiatives to ensure quality and compliance.
Wrapping Up: Why 13463 67 7 CAS Deserves Your Attention
To sum up, titanium dioxide identified by 13463 67 7 CAS is quietly woven into modern life in ways we rarely stop to appreciate. Its chemical resilience, optical brilliance, and evolving green credentials make it a true industry workhorse. By understanding its specifications, applications, and future direction, you open doors to innovation and smarter sourcing.
If you want to dive deeper or explore quality products and suppliers, check out our website — trust me, it’s worth bookmarking.
References:
1. Wikipedia - Titanium dioxide
2. International Titanium Association (ITA) - Production and Usage Report
3. World Health Organization - Chemical Safety Guidelines
