Bio-SAH™ 342Liquid
Bio-SAH™
Bio-SAH™ 342Liquid
Bio-SAH™ 342Liquid is an innovative liquid-form hydrolysis stabilizer designed to protect ester-based polymers from moisture degradation. As a high-efficiency plastic additive, it extends the lifespan of polyurethane (PU), PET, PLA, and other engineering plastics in demanding environments.
Superior Hydrolysis Resistance
Forms a protective barrier against water molecule attack on ester groups.
Maintains polymer integrity in high-humidity and high-temperature conditions.
Liquid Formulation Advantages
Easier handling and more uniform dispersion than powder additives.
No dust generation, improving workplace safety.
Enhanced Thermal Stability
Effective at processing temperatures up to 250°C.
Prevents thermal degradation during polymer processing.
Broad Material Compatibility
Works effectively with PU, PET, PBAT, PLA, and other polyesters.
Compatible with both biodegradable and conventional plastics.
Eco-Friendly Composition
Contains bio-based components.
Complies with REACH, RoHS, and FDA regulations.
Moisture Protection: Prevents hydrolytic chain scission in ester-based polymers.
Mechanical Property Preservation: Maintains tensile strength and elongation.
Process Stability: Reduces viscosity variation during processing.
Sustainability Support: Enhances durability of biodegradable plastics.
Bio-SAH™ 342Liquid is a clear to slightly yellow viscous liquid with excellent flow properties. Its unique liquid formulation ensures homogeneous distribution throughout polymer matrices without requiring special mixing equipment. The product is non-volatile and non-migrating, making it ideal for long-term applications.
Technical Specifications:
Appearance: Clear to pale yellow liquid
Active Content: ≥85%
Viscosity (25°C): 500-1500 mPa·s
Density (20°C): 1.05-1.15 g/cm³
Flash Point: >150°C
Polyurethane Systems
Elastomers: Improves hydrolytic stability in automotive parts.
Foams: Extends service life of mattress and insulation foams.
Packaging Materials
PET Bottles: Enhances resistance to hot-fill processes.
Biodegradable Films: Protects PLA/PBAT films in humid conditions.
Textile Fibers
Increases wash resistance of PET fibers.
Engineering Plastics
Protects nylon and polyester components in electronic and automotive applications.
✅ Easier Processing: Liquid form simplifies incorporation into polymer systems.
✅ Higher Efficiency: Provides better dispersion and more consistent results than powder alternatives.
✅ Long-Term Protection: Continues to function throughout product lifespan.
✅ Versatile Application: Suitable for multiple polymer types and processing methods.
Polyurethanes: 0.5-2% by weight
PET/PLA/PBAT: 0.3-1.5% by weight
Nylon/Engineering Plastics: 1-3% by weight
Note: Optimal dosage depends on polymer type, processing conditions, and end-use requirements.
As a next-generation hydrolysis stabilizer, Bio-SAH™ 342Liquid combines exceptional performance with user-friendly liquid processing. It represents the perfect solution for manufacturers seeking to enhance product durability while simplifying production processes.
Contact us today for technical consultation or sample requests!
Introducing our Polymeric Carbodiimide Liquid Anti-hydrolysis Additive, Bio-SAH™ 342Liquid, specially designed for use in Polyurethane (PU) applications. Crafted with utmost precision, this professional-grade product offers a range of exceptional features to enhance the performance and longevity of your PU materials.
Our Polymeric Carbodiimide Liquid Anti-hydrolysis Additive, Bio-SAH™ 342Liquid, acts as a powerful shield against hydrolysis, ensuring that your PU materials remain intact and resistant to water damage. This additive effectively prevents the degradation caused by moisture, thus extending the lifespan of your PU products.
With its liquid form, our Bio-SAH™ 342Liquid is easy to handle and incorporate into your PU manufacturing process. Its compatibility with PU systems allows for seamless integration, enabling you to effortlessly enhance the hydrolysis resistance of your final products.
Polyurethane (PU) Aare susceptible to hydrolysis, especially when exposed to moisture over time. To counteract the effects of hydrolysis in polyurethane formulations, various anti-hydrolysis additives can be incorporated. Here are some common types of anti-hydrolysis additives used for polyurethane:
Isocyanate Blocking Agents: Blocking isocyanate groups within the polyurethane formulation can protect against hydrolysis. Blocking agents, such as phenols or alcohols, react with unreacted isocyanate groups, preventing their exposure to moisture.
Stabilizers and Antioxidants: Hindered phenols, phosphites, and other antioxidant compounds are often used to stabilize polyurethanes against oxidative degradation, including hydrolysis. These additives help scavenge free radicals and protect the polymer from the effects of water exposure.
Silane Coupling Agents: Silane-based additives can enhance the moisture resistance of polyurethane by improving the adhesion between the polymer matrix and fillers or reinforcing materials. This can create a hydrophobic surface that reduces water absorption.
Moisture Scavengers: Certain additives are designed to actively scavenge and absorb moisture within the polyurethane formulation. These moisture scavengers can help prevent water from participating in hydrolytic reactions.
Chain Extenders: Incorporating chain extenders can improve the resistance of polyurethane to hydrolysis. Chain extenders promote cross-linking between polymer chains, enhancing the material's overall stability.
Polymer Modification: Modifying the polyol or isocyanate components of the polyurethane formulation can enhance its resistance to hydrolysis. For example, incorporating hydrophobic segments or using specialized polyols can reduce water absorption.
When formulating polyurethane with anti-hydrolysis properties, it's crucial to consider the specific application, processing conditions, and environmental exposure. The effectiveness of these additives may vary based on the intended use of the polyurethane product. Manufacturers often conduct extensive testing to ensure that the chosen anti-hydrolysis additives provide the desired protection without compromising other essential properties of the polyurethane.
Bio-SAH™ 342Liquid is an innovative liquid-form hydrolysis stabilizer designed to protect ester-based polymers from moisture degradation. As a high-efficiency plastic additive, it extends the lifespan of polyurethane (PU), PET, PLA, and other engineering plastics in demanding environments.
Superior Hydrolysis Resistance
Forms a protective barrier against water molecule attack on ester groups.
Maintains polymer integrity in high-humidity and high-temperature conditions.
Liquid Formulation Advantages
Easier handling and more uniform dispersion than powder additives.
No dust generation, improving workplace safety.
Enhanced Thermal Stability
Effective at processing temperatures up to 250°C.
Prevents thermal degradation during polymer processing.
Broad Material Compatibility
Works effectively with PU, PET, PBAT, PLA, and other polyesters.
Compatible with both biodegradable and conventional plastics.
Eco-Friendly Composition
Contains bio-based components.
Complies with REACH, RoHS, and FDA regulations.
Moisture Protection: Prevents hydrolytic chain scission in ester-based polymers.
Mechanical Property Preservation: Maintains tensile strength and elongation.
Process Stability: Reduces viscosity variation during processing.
Sustainability Support: Enhances durability of biodegradable plastics.
Bio-SAH™ 342Liquid is a clear to slightly yellow viscous liquid with excellent flow properties. Its unique liquid formulation ensures homogeneous distribution throughout polymer matrices without requiring special mixing equipment. The product is non-volatile and non-migrating, making it ideal for long-term applications.
Technical Specifications:
Appearance: Clear to pale yellow liquid
Active Content: ≥85%
Viscosity (25°C): 500-1500 mPa·s
Density (20°C): 1.05-1.15 g/cm³
Flash Point: >150°C
Polyurethane Systems
Elastomers: Improves hydrolytic stability in automotive parts.
Foams: Extends service life of mattress and insulation foams.
Packaging Materials
PET Bottles: Enhances resistance to hot-fill processes.
Biodegradable Films: Protects PLA/PBAT films in humid conditions.
Textile Fibers
Increases wash resistance of PET fibers.
Engineering Plastics
Protects nylon and polyester components in electronic and automotive applications.
✅ Easier Processing: Liquid form simplifies incorporation into polymer systems.
✅ Higher Efficiency: Provides better dispersion and more consistent results than powder alternatives.
✅ Long-Term Protection: Continues to function throughout product lifespan.
✅ Versatile Application: Suitable for multiple polymer types and processing methods.
Polyurethanes: 0.5-2% by weight
PET/PLA/PBAT: 0.3-1.5% by weight
Nylon/Engineering Plastics: 1-3% by weight
Note: Optimal dosage depends on polymer type, processing conditions, and end-use requirements.
As a next-generation hydrolysis stabilizer, Bio-SAH™ 342Liquid combines exceptional performance with user-friendly liquid processing. It represents the perfect solution for manufacturers seeking to enhance product durability while simplifying production processes.
Contact us today for technical consultation or sample requests!
Introducing our Polymeric Carbodiimide Liquid Anti-hydrolysis Additive, Bio-SAH™ 342Liquid, specially designed for use in Polyurethane (PU) applications. Crafted with utmost precision, this professional-grade product offers a range of exceptional features to enhance the performance and longevity of your PU materials.
Our Polymeric Carbodiimide Liquid Anti-hydrolysis Additive, Bio-SAH™ 342Liquid, acts as a powerful shield against hydrolysis, ensuring that your PU materials remain intact and resistant to water damage. This additive effectively prevents the degradation caused by moisture, thus extending the lifespan of your PU products.
With its liquid form, our Bio-SAH™ 342Liquid is easy to handle and incorporate into your PU manufacturing process. Its compatibility with PU systems allows for seamless integration, enabling you to effortlessly enhance the hydrolysis resistance of your final products.
Polyurethane (PU) Aare susceptible to hydrolysis, especially when exposed to moisture over time. To counteract the effects of hydrolysis in polyurethane formulations, various anti-hydrolysis additives can be incorporated. Here are some common types of anti-hydrolysis additives used for polyurethane:
Isocyanate Blocking Agents: Blocking isocyanate groups within the polyurethane formulation can protect against hydrolysis. Blocking agents, such as phenols or alcohols, react with unreacted isocyanate groups, preventing their exposure to moisture.
Stabilizers and Antioxidants: Hindered phenols, phosphites, and other antioxidant compounds are often used to stabilize polyurethanes against oxidative degradation, including hydrolysis. These additives help scavenge free radicals and protect the polymer from the effects of water exposure.
Silane Coupling Agents: Silane-based additives can enhance the moisture resistance of polyurethane by improving the adhesion between the polymer matrix and fillers or reinforcing materials. This can create a hydrophobic surface that reduces water absorption.
Moisture Scavengers: Certain additives are designed to actively scavenge and absorb moisture within the polyurethane formulation. These moisture scavengers can help prevent water from participating in hydrolytic reactions.
Chain Extenders: Incorporating chain extenders can improve the resistance of polyurethane to hydrolysis. Chain extenders promote cross-linking between polymer chains, enhancing the material's overall stability.
Polymer Modification: Modifying the polyol or isocyanate components of the polyurethane formulation can enhance its resistance to hydrolysis. For example, incorporating hydrophobic segments or using specialized polyols can reduce water absorption.
When formulating polyurethane with anti-hydrolysis properties, it's crucial to consider the specific application, processing conditions, and environmental exposure. The effectiveness of these additives may vary based on the intended use of the polyurethane product. Manufacturers often conduct extensive testing to ensure that the chosen anti-hydrolysis additives provide the desired protection without compromising other essential properties of the polyurethane.
