Enzymes (Amylases for Desizing)
Textile Enzyme
Textile Biotechnology

Enzymes (Amylases for Desizing)

High-performance amylase enzymes engineered for exceptional textile desizing applications. Our specialized enzyme formulations provide superior starch removal, enhanced fabric preparation, improved processing efficiency, and optimal performance for demanding cotton desizing operations requiring eco-friendly biotechnology solutions.

  • Superior Starch Removal
  • Enhanced Fabric Preparation
  • Improved Processing Efficiency
  • Eco-Friendly Biotechnology
  • Cotton Desizing Optimized
  • Professional Enzyme Grade
Request Quote Technical Support

Technical Specifications

Enzyme Type: α-Amylase Enzymes
Activity: 50,000-150,000 U/g
pH Range: 6.0-8.0
Temperature Range: 60-90°C
Optimal Temperature: 70-80°C
Substrate Specificity: Starch, glycogen, dextrins
Processing Time: 30-120 minutes
Stability: Thermostable formulation
Storage: Cool, dry conditions (4-25°C)
Packaging: 25kg drums, 50kg bags

Applications

Cotton Desizing
Starch Removal
Textile Processing
Pretreatment Processes
Eco-friendly Processing
Fabric Preparation
Bio-scouring
Sustainable Desizing

Industry-Specific Grades

DRAVYOM offers specialized amylase enzyme formulations tailored for specific textile desizing applications, ensuring optimal starch degradation and processing efficiency across diverse fabric preparation operations.

High Temperature Grade
Temperature: 80-90°C Activity: 100,000+ U/g Stability: Thermostable Application: High-temperature desizing
Cotton Grade
pH: 6.5-7.5 Temperature: 70-80°C Efficiency: Rapid desizing Application: Cotton fabric preparation
Eco-Friendly Grade
Biodegradable: 100% COD Reduction: Significant Energy Saving: Lower temperature Application: Sustainable processing
Industrial Grade
Concentration: High Cost: Economic Efficiency: Maximum Application: Large-scale operations

Quality Standards

DRAVYOM's Amylase Enzymes are manufactured under stringent quality control protocols, meeting international textile processing standards including ISO, FDA, and industry-specific requirements. Our biotechnology-grade production ensures consistent enzyme activity and processing reliability.

ISO 9001:2015 Certified Manufacturing
OEKO-TEX ECO PASSPORT Certified
High Enzyme Activity
Advanced Activity Testing
Eco-Friendly Biotechnology
Batch-to-Batch Consistency
Comprehensive Quality Control
Cold Chain Storage

Advanced Chemical Properties & Performance

Amylase Enzymes exhibit exceptional hydrolytic properties essential for starch removal in textile desizing applications. Their unique catalytic activity and substrate specificity ensure reliable performance in demanding textile preparation processes across diverse fabric types and processing conditions.

Enzyme Properties
Enzyme Type: α-Amylase (EC 3.2.1.1)
Molecular Weight: 55-60 kDa
Activity: 20,000-100,000 U/g
Substrate Specificity: Starch, glycogen, amylose
Operating Conditions
Optimal Temperature: 60-90°C
pH Range: 6.0-8.5 (neutral to alkaline)
Optimal pH: 7.0-7.5
Calcium Requirement: Ca²⁺ ions for stability
Catalytic Performance
Hydrolysis Rate: Rapid starch breakdown
Product Pattern: Oligosaccharides, maltose
Reaction Mechanism: Endo-acting hydrolysis
Dosage Range: 0.1-2.0 g/L
Application Properties
Reaction Time: 30-120 minutes
Thermostability: Stable at process temperature
Salt Tolerance: Moderate salt tolerance
Detergent Compatibility: Compatible with non-ionic surfactants
Stability Properties
Storage Stability: 12-24 months dry form
Solution Stability: 24-48 hours at 25°C
pH Stability: Stable pH 6-9 range
Temperature Stability: Activity retained at working temp

Performance Characteristics

Detailed performance metrics demonstrate Amylase Enzymes superiority in textile desizing applications with exceptional starch removal efficiency, fast processing times, and reliable performance across diverse fabric types and varying starch concentrations.

Starch Removal

95%+ starch removal efficiency achieved

Complete desizing performance
Rapid Processing

30-120 minute processing time

Fast production cycles
Temperature Efficiency

Optimal activity at 60-90°C

Energy efficient processing
Substrate Specificity

Selective starch hydrolysis

No fiber damage
Eco-Friendly

Biodegradable enzyme technology

Sustainable processing
Universal Application

Effective on all fabric types

Versatile desizing solution

Safety Information

Handle amylase enzymes with appropriate protective equipment including gloves, safety goggles, and dust masks when handling powder forms. Enzyme dust may cause respiratory sensitization. Ensure adequate ventilation during mixing and avoid inhalation of enzyme particles. Follow proper dilution procedures and maintain emergency eyewash facilities.

Sensitizer Risk
Avoid Dust Inhalation
Use Protective Gloves

Storage & Handling

Store amylase enzymes in original sealed containers in a cool, dry environment away from direct sunlight and heat sources. Maintain cold chain for liquid formulations. Protect from moisture to prevent enzyme activity loss. Use clean, stainless steel mixing equipment and prepare fresh solutions for optimal activity.

Cold storage (2-8°C liquid)
Protect from moisture
Use fresh solutions
Stainless steel equipment

Chemical Mechanisms & Reaction Pathways

Amylase enzymes exhibit hydrolytic mechanisms through specific substrate binding and catalytic water addition, enabling efficient starch breakdown with predictable enzymatic pathways and controlled polymer degradation for optimal textile desizing.

Substrate Specificity

Enzyme active site specifically binds α-1,4 glycosidic bonds

High selectivity for starch polymer cleavage
Hydrolytic Cleavage

Water molecule insertion breaks polymer chain bonds

Controlled degradation into soluble fragments
Temperature Optimization

Thermostable variants maintain activity at processing temperatures

Enhanced activity under textile conditions
pH Stability

Stable enzyme activity across textile pH ranges

Consistent performance in alkaline conditions

Regulatory Compliance & Documentation

Comprehensive regulatory compliance ensures global textile biotechnology access with complete documentation packages supporting international safety standards and enzyme application regulations.

OEKO-TEX Standards

Compliance with international textile safety standards

FDA Recognition

GRAS status for enzyme safety

AATCC Methods

American Association of Textile Chemists test compliance

REACH Registration

European Union chemical regulation compliance

Enzyme Activity Testing

Comprehensive enzymatic activity documentation

SDS Documentation

Multi-language Safety Data Sheets (16 sections, GHS compliant)

Technical Support & Value-Added Services

DRAVYOM's biotechnology team provides comprehensive enzyme application optimization, desizing process guidance, and troubleshooting to maximize amylase effectiveness in your specific textile processing applications.

Enzyme Optimization
  • Desizing process optimization
  • Enzyme concentration recommendations
  • Temperature and pH profiling
  • Custom enzyme formulations
Activity Testing
  • Enzymatic activity evaluation
  • Substrate specificity analysis
  • Thermal stability assessment
  • Performance validation
Technical Support
  • Enzyme application troubleshooting
  • Process optimization guidance
  • Training and protocols
  • Textile biotechnology best practices
Supply Solutions
  • Consistent activity batching
  • Cold chain distribution
  • Specialized packaging systems
  • Global biotech distribution

Environmental Impact & Sustainability

Our amylase enzyme production emphasizes environmental responsibility through biotechnology sustainability, renewable feedstocks, and comprehensive environmental impact management for responsible textile bioprocessing.

Biodegradable

Completely biodegradable enzyme proteins

Reduced Chemical Use

Replaces harsh chemical desizing agents

Green Biotechnology

Fermentation-based sustainable production

Worker Safety

Safe biological agents for textile workers

ISO 14001

Environmental management system certified production

Sustainable Packaging

Eco-friendly packaging and container recycling programs

Manufacturing Excellence & Quality Control

DRAVYOM's state-of-the-art biotechnology facility employs advanced fermentation technology and continuous monitoring systems to ensure consistent amylase enzyme activity and stability across all production batches.

Fermentation Process

Advanced microbial fermentation with controlled expression

Optimized conditions for maximum enzyme yield
Enzyme Testing

12-point testing protocol including activity and stability

Kinetic analysis and thermal profiling
Quality Systems

ISO 9001:2015 quality management with biotechnology accreditation

GMP compliance and bioanalytical validation
Cold Chain Control

Temperature-controlled packaging with activity preservation

Enzyme stability and contamination prevention

Market Applications & Performance Data

Comprehensive textile bioprocessing data demonstrating amylase enzyme effectiveness across diverse desizing applications with quantified performance metrics and sustainability validations.

Cotton Desizing
Efficiency: 95% starch removal in 30 minutes Temperature: Active at 60-70°C processing Quality: Complete size elimination
Blended Fabrics
Versatility: Effective on cotton blends Selectivity: Preserves synthetic fibers Performance: Uniform starch removal
Industrial Processing
Scale: Large-scale production suitable Economics: Cost-effective vs chemical methods Environment: 80% reduction in chemical usage

DRAVYOM Competitive Advantages

Superior Enzyme Technology

Leading biotechnology with exceptional activity and thermal stability for optimal textile processing

Reliable Cold Chain

Guaranteed enzyme activity with specialized distribution and cold chain management

Biotechnology Expertise

Dedicated biotech team provides enzyme optimization and bioprocessing support

Quality Assurance

Comprehensive certificates with enzyme activity data and bioprocess validation support

Global Bio-Standards

International compliance with biotechnology and textile safety standards worldwide

Biotech Partnership

Collaborative biotechnology relationships and custom enzyme solution development