Peroxides
Crosslinking Initiator
Polymer Additives

Peroxides

High-performance Peroxides designed for precise crosslinking, vulcanization, and polymerization initiation applications. Our premium peroxide products deliver excellent thermal stability, controlled reactivity, and superior processing characteristics for advanced polymer modification and curing processes.

  • Excellent Crosslinking Efficiency
  • Superior Polymerization Initiation
  • Outstanding Thermal Stability
  • Controlled Reactivity
  • Precise Processing Control
  • Wide Application Range
Request Quote Technical Support

Technical Specifications

Product Type: Organic Peroxide Initiators
Active Component: Benzoyl peroxide (BPO), Dicumyl peroxide (DCP)
Active Oxygen Content: 3.5-6.5% (varies by type)
Physical State: White crystalline powder/paste
Decomposition Temperature: 100-180°C (grade dependent)
Half-Life (at 100°C): 1-10 hours (type dependent)
Bulk Density: 0.5-0.8 g/cm³
Particle Size: 50-200 μm (powder grades)
Moisture Content: ≤ 0.5%
pH Value: 6.0-8.0
Solubility: Soluble in organic solvents
Thermal Stability: Stable below 40°C
Processing Temperature: 80-180°C (application dependent)
Recommended Loading: 0.5-3.0% by weight
Packaging: 25kg fiber drums with PE liner

Applications

Polymerization Initiator
Plastic Crosslinking
Curing Agent
Chemical Synthesis
Automotive Applications
Thermoset Processing
Coating Systems
Construction Materials
Medical Devices
Electronics Applications
Marine Applications
Adhesive Systems

Industry-Specific Grades

DRAVYOM offers specialized Peroxide grades designed for specific polymerization and crosslinking applications, ensuring optimal initiation efficiency and processing characteristics across diverse industrial requirements.

Low Temperature Grade (PX-100)
Decomposition Temp: 80-100°C Half-Life: 1-2 hours at 100°C Activity: High efficiency Application: Low-temperature curing
High Temperature Grade (PX-200)
Decomposition Temp: 160-180°C Thermal Stability: Enhanced Storage Life: Extended Application: High-temperature processing
Crosslinking Grade (PX-300)
Crosslinking Efficiency: Superior Gel Content: High Scorch Safety: Excellent Application: Cable and wire
Safe Handling Grade (PX-400)
Stability: Enhanced Phlegmatized: Yes Safety: Improved handling Application: Industrial processing

Quality Standards

DRAVYOM's Peroxides are manufactured under stringent quality control protocols, meeting international initiator standards including ISO, ASTM, and pharmaceutical regulations for polymerization applications.

ISO 9001:2015 Certified Manufacturing
ASTM D2180 Standards
Consistent Active Oxygen Content
Advanced Thermal Analysis
Ultra-High Purity Standards
Batch-to-Batch Consistency
Complete Decomposition Analysis
Cold Chain Logistics

Advanced Chemical Properties & Performance

Peroxides exhibit exceptional initiation properties essential for polymerization and crosslinking reactions. Their controlled decomposition ensures reliable free radical generation for diverse polymer processing applications.

Initiation Properties
Active Oxygen: 3.5-6.5% available oxygen
Decomposition Rate: Controlled kinetics
Radical Efficiency: High initiation efficiency
Selectivity: Targeted reaction initiation
Thermal Properties
Decomposition Temperature: 100-180°C (type dependent)
Half-Life: 1-10 hours at 100°C
Activation Energy: 125-140 kJ/mol
Temperature Coefficient: Predictable kinetics
Crosslinking Properties
Crosslinking Efficiency: High gel content formation
Scorch Safety: Controlled activation
Cure Rate: Optimized kinetics
Network Formation: Uniform crosslink density
Stability Properties
Storage Stability: Stable below 40°C
Shelf Life: 6-12 months
Compatibility: Good with most polymers
Handling Safety: Controlled decomposition

Performance Characteristics

Detailed performance metrics demonstrate Peroxides' superiority in initiation applications with exceptional decomposition control, crosslinking efficiency, and thermal stability across processing conditions.

Initiation Efficiency

Active oxygen: 3.5-6.5% available content

Excellent radical generation
Crosslinking Performance

Gel content: 85-95% achievable

Superior network formation
Thermal Control

Decomposition: Predictable kinetics

Controlled activation temperature
Processing Time

Cure time: 5-30 minutes at temperature

Optimal processing window
Safety Profile

Scorch safety: Excellent processing safety

Controlled decomposition rate
Product Quality

Consistency: ±2% active oxygen content

Batch-to-batch reliability

Safety Information

Organic peroxides are potentially explosive materials requiring extreme care. Store in cool, dry conditions away from heat sources, friction, and incompatible materials. Use appropriate protective equipment and follow strict handling procedures.

Explosive
Oxidizer
Sensitizer

Storage & Handling

Store in original containers in a cool, dry, well-ventilated area at temperatures below 30°C. Keep away from heat sources, friction, shock, and incompatible materials. Use dedicated storage areas with appropriate safety systems.

Store below 30°C
Excellent ventilation required
Away from heat and ignition
Dedicated storage area

Chemical Mechanisms & Reaction Pathways

Organic peroxides function through radical initiation mechanisms, providing crosslinking and polymerization via controlled radical generation to create enhanced polymer networks and improved material properties.

Radical Generation

Thermal decomposition creates reactive free radicals

Primary initiation mechanism
Crosslinking Action

Radicals create covalent bonds between polymer chains

Enhanced mechanical properties and durability
Controlled Decomposition

Temperature-dependent activation for precise timing

Process control and reproducibility
Network Formation

Three-dimensional polymer network development

Superior thermal and chemical resistance

Regulatory Compliance & Documentation

Comprehensive regulatory compliance ensures global market access with complete documentation packages supporting international standards and organic peroxide safety requirements.

UN Classification

Proper hazard classification and shipping compliance

EU Regulations

REACH compliant with restricted transportation

Industrial Standards

Meets international crosslinking agent requirements

Global Standards

International organic peroxide approvals

Safety Testing

Complete thermal stability and decomposition data

SDS Available

Multi-language Safety Data Sheets (GHS compliant)

Technical Support & Value-Added Services

DRAVYOM's crosslinking team provides comprehensive technical support, formulation assistance, and application services to optimize organic peroxide performance in your specific crosslinking applications.

Crosslinking Optimization
  • Radical generation studies
  • Crosslink density optimization
  • Cure profile development
  • Custom peroxide formulations
Testing Services
  • Thermal decomposition analysis
  • Crosslink density measurement
  • Cure monitoring
  • Safety assessment
Technical Support
  • Processing troubleshooting
  • Safety guidance
  • Cure optimization
  • Training programs
Supply Solutions
  • Temperature-controlled inventory
  • Safe packaging systems
  • Quality consistency programs
  • Global distribution

Environmental Impact & Sustainability

Our organic peroxide production emphasizes environmental responsibility through controlled synthesis, safety-first operations, and comprehensive environmental impact management for crosslinking applications.

Controlled Synthesis

Precision manufacturing with minimal waste

Clean Production

Advanced containment and treatment systems

Safety First

Comprehensive safety protocols and monitoring

Responsible Handling

Safe transportation and storage guidelines

ISO 14001

Environmental management system certified production

Material Efficiency

Optimized crosslinking with minimal material usage

Manufacturing Excellence & Quality Control

DRAVYOM's state-of-the-art organic peroxide manufacturing facility employs advanced synthesis technology and continuous monitoring systems to ensure consistent crosslinking performance and safety across all production batches.

Synthesis Process

Controlled peroxide synthesis with precise decomposition characteristics

Consistent crosslinking efficiency and safety
Quality Testing

Comprehensive analysis including thermal decomposition testing

Safety validation and performance verification
Quality Systems

ISO 9001:2015 quality management with safety protocols

Continuous improvement and safety optimization
Packaging Control

Temperature-controlled packaging with safety measures

Activity preservation and safe handling

Market Applications & Performance Data

Comprehensive crosslinking data demonstrating organic peroxide effectiveness across diverse applications with quantified performance metrics and validated curing benefits.

Rubber & Elastomers
Crosslinking: Enhanced mechanical properties Durability: Superior aging and thermal resistance Processing: Controlled cure characteristics
Wire & Cable
Performance: Improved electrical properties and insulation Durability: Enhanced thermal aging resistance Quality: Consistent crosslinking throughout
Composite Materials
Enhancement: Superior matrix-fiber bonding Properties: Improved strength and stiffness Processing: Controlled cure profiles

DRAVYOM Competitive Advantages

Superior Crosslinking Performance

Advanced organic peroxides with precise radical generation and controlled decomposition characteristics

Reliable Supply

Guaranteed availability with temperature-controlled storage and consistent peroxide production

Technical Expertise

Dedicated crosslinking team provides cure optimization and safety support

Quality Assurance

Comprehensive testing with crosslinking validation and safety documentation

Global Standards

International compliance with safety, transportation, and crosslinking agent standards

Partnership Approach

Collaborative relationships with crosslinking users and custom peroxide development