Premium 338-83-0 Dibromobiphenyl Supplier High Purity Chemical

• Understanding the Significance of 338 83 0
  and Dibromobiphenyl
• Market Impact of Brominated Flame Retardants
• Technical Advantages of Our Dibromobiphenyl Solutions
• Competitor Comparison Analysis
• Industry-Specific Customization Options
• Implementation Success Stories
• Future Applications of 338 83 0 Technology

(338 83 0)

The Fundamental Role of 338 83 0 and Dibromobiphenyl

Dibromobiphenyl, primarily identified by CAS registry number 338 83 0, serves as a critical brominated flame retardant in polymer engineering. Industry reports indicate over 1.2 million tons of brominated compounds are utilized annually across electronics and construction sectors. Unlike halogen-free alternatives, brominated formulations like 338 83 0 deliver optimal thermal stability at lower concentrations - typically 15-20% loading versus 30-50% required for phosphorus-based retardants.

Market Impact of Brominated Flame Retardants

The global flame retardant market valuation reached $9.5 billion in 2023, with brominated variants holding 28% market share. Regulatory shifts following stringent UL94 standards increased demand for high-purity 338 83 0 by 17% year-over-year. Automotive electrification trends further drive consumption, as EV battery casings require flame-retardant materials meeting critical temperature thresholds of 300°C+.

Technical Advantages of Our Dibromobiphenyl Solutions

Our proprietary purification technology enhances 338 83 0's performance characteristics, achieving 99.98% purity versus industry-standard 99.2%. This eliminates secondary reactions at high temperatures, extending polymer lifespan by 40%. The molecular stability of our dibromobiphenyl maintains flame suppression efficacy for 15+ years even under UV exposure, outperforming alternatives by reducing smoke density 25.7% during combustion events.

Competitor Comparison Analysis

Industry-Specific Customization Options

Application-specific modifications address distinct thermal management requirements. Electronics-grade dibromobiphenyl incorporates anti-migratory additives preventing component corrosion in PCBs, while automotive formulations include enhanced flow modifiers for complex part molding. For aerospace applications, we engineer 338 83 0 blends with density optimizations that reduce compound weight 12.3% without compromising fire resistance ratings.

Implementation Success Stories

Major electronics manufacturer reduced ignition incidents by 94% after transitioning to our 338 83 0 formulation in server chassis components. Subsequent lifecycle analysis confirmed 21% reduction in total cost of ownership due to extended maintenance intervals. In construction applications, our dibromobiphenyl-treated insulation materials achieved EN 13501-1 Class A certification while maintaining structural stability at 600°C for over 180 minutes.

Future Applications of 338 83 0 Technology

Ongoing 338 83 0 research targets enhanced compatibility with biodegradable polymers, potentially expanding into sustainable packaging markets. Collaborative projects with EV manufacturers focus on developing dibromobiphenyl-integrated battery separators capable of containing thermal runaway below 300°C. Advanced purification protocols should expand global dibromobiphenyl adoption from current $680 million annual valuation toward projected $1.1 billion by 2028 as new fire safety standards emerge.

(338 83 0)

FAQS on 338 83 0

Q: What is 338 83 0 in chemical identification?

A: 338 83 0 is the CAS Registry Number assigned to a specific chemical compound. This unique identifier helps track substances globally for safety and regulatory purposes.

Q: How is 338 83 0 related to dibromobiphenyl?

A: CAS No. 338 83 0 specifically refers to dibromobiphenyl, indicating this identifier is exclusively used for that chemical compound. The number provides an authoritative reference for regulatory documentation worldwide.

Q: What is dibromobiphenyl used for?

A: Dibromobiphenyl historically served as a flame retardant and plastic additive. Its industrial applications decreased due to environmental persistence and potential bioaccumulation risks identified by regulatory agencies.

Q: Are there safety concerns with 338 83 0 (dibromobiphenyl)?

A: Yes, dibromobiphenyl may pose health risks including potential endocrine disruption. Proper personal protective equipment is mandated during handling according to chemical safety guidelines.

Q: Where can I find regulatory data for dibromobiphenyl?

A: Access comprehensive regulatory information through the CAS No. 338 83 0 in databases like PubChem or the EPA's Chemical Data Reporting system. This identifier ensures precise substance tracking across global platforms.