"Combined polyether" typically refers to polyether polyols that are synthesized through the combination of different types of polyether chains or by blending polyether polyols with other chemical compounds. These combined polyether polyols offer a diverse range of properties and applications in the production of polyurethane materials.
Composition: Combined polyethers are formulated by combining various polyether chains, often derived from different alcohol initiators or by incorporating additives and modifiers into the polyol formulation. These additives may include chain extenders, crosslinkers, flame retardants, antioxidants, and other functional compounds.
Variety of Polyether Chains: Combined polyether polyols may incorporate polyether chains with different molecular weights, functionalities, and compositions. By varying the type and proportion of polyether chains, manufacturers can tailor the properties of the polyol to meet specific requirements for the end application.
Blending with Additives: In addition to combining different polyether chains, combined polyether polyols may also involve blending with additives or modifiers to impart desired characteristics to the polyurethane material. For example, flame retardant additives can enhance the fire resistance of polyurethane foams, while antioxidants can improve their stability and durability.
Mode | Product name | Viscosity | Appearance | Application field |
5110F | Panel raw material | 220±50 mPa*s | Yellow transparent | Mainly Used For Pir C ontinuous Panel Production,polyurethane sandwich panel |
W1018 | Imitation wood | 500±200mPa*s | Yellow transparent | Mainly used as the polyurethane wood imitation foam raw material |
W1018 | Imitation wood | 500±200mPa*s | Yellow transparent | Mainly used as the polyurethane wood imitation foam raw material |
5104J-Z | Castable raw | 300±50 mPa*s | Yellow transparent | Mainly Used For Filling And Insulation Of Solar Water Heaters,molded Parts |
5104_L | Pultrusion raw | 1500±300mPa*s | Yellow transparent | Mainly Used For Pultrusion Bridge Frame, |
Applications: Combined polyether polyols find diverse applications across various industries, including:
Foams: Combined polyether polyols are used to produce flexible foams for furniture, bedding, automotive seating, and cushioning applications. They are also employed in the production of rigid foams for insulation, packaging, and structural components.
Coatings and Adhesives: Combined polyether polyols are utilized in the formulation of polyurethane coatings, adhesives, and sealants for architectural, automotive, industrial, and marine applications.
Elastomers: Combined polyether polyols are used to manufacture polyurethane elastomers for applications such as wheels, rollers, seals, gaskets, and other mechanical components.
Resins: Combined polyether polyols are employed in the production of specialty resins, casting compounds, potting materials, and composite matrices for electrical, electronic, and construction applications.
Customization: Manufacturers can customize combined polyether polyols to achieve specific performance requirements, such as improved mechanical properties, enhanced flame retardancy, increased resilience, and better chemical resistance. This flexibility allows for the formulation of polyurethane materials tailored to the needs of various industries and applications.
In summary, combined polyether polyols offer a versatile platform for the formulation of polyurethane materials with tailored properties and functionalities. By combining different polyether chains and additives, manufacturers can create polyols that meet the diverse demands of modern industrial and consumer applications.
"Combined polyether" typically refers to polyether polyols that are synthesized through the combination of different types of polyether chains or by blending polyether polyols with other chemical compounds. These combined polyether polyols offer a diverse range of properties and applications in the production of polyurethane materials.
Composition: Combined polyethers are formulated by combining various polyether chains, often derived from different alcohol initiators or by incorporating additives and modifiers into the polyol formulation. These additives may include chain extenders, crosslinkers, flame retardants, antioxidants, and other functional compounds.
Variety of Polyether Chains: Combined polyether polyols may incorporate polyether chains with different molecular weights, functionalities, and compositions. By varying the type and proportion of polyether chains, manufacturers can tailor the properties of the polyol to meet specific requirements for the end application.
Blending with Additives: In addition to combining different polyether chains, combined polyether polyols may also involve blending with additives or modifiers to impart desired characteristics to the polyurethane material. For example, flame retardant additives can enhance the fire resistance of polyurethane foams, while antioxidants can improve their stability and durability.
Mode | Product name | Viscosity | Appearance | Application field |
5110F | Panel raw material | 220±50 mPa*s | Yellow transparent | Mainly Used For Pir C ontinuous Panel Production,polyurethane sandwich panel |
W1018 | Imitation wood | 500±200mPa*s | Yellow transparent | Mainly used as the polyurethane wood imitation foam raw material |
W1018 | Imitation wood | 500±200mPa*s | Yellow transparent | Mainly used as the polyurethane wood imitation foam raw material |
5104J-Z | Castable raw | 300±50 mPa*s | Yellow transparent | Mainly Used For Filling And Insulation Of Solar Water Heaters,molded Parts |
5104_L | Pultrusion raw | 1500±300mPa*s | Yellow transparent | Mainly Used For Pultrusion Bridge Frame, |
Applications: Combined polyether polyols find diverse applications across various industries, including:
Foams: Combined polyether polyols are used to produce flexible foams for furniture, bedding, automotive seating, and cushioning applications. They are also employed in the production of rigid foams for insulation, packaging, and structural components.
Coatings and Adhesives: Combined polyether polyols are utilized in the formulation of polyurethane coatings, adhesives, and sealants for architectural, automotive, industrial, and marine applications.
Elastomers: Combined polyether polyols are used to manufacture polyurethane elastomers for applications such as wheels, rollers, seals, gaskets, and other mechanical components.
Resins: Combined polyether polyols are employed in the production of specialty resins, casting compounds, potting materials, and composite matrices for electrical, electronic, and construction applications.
Customization: Manufacturers can customize combined polyether polyols to achieve specific performance requirements, such as improved mechanical properties, enhanced flame retardancy, increased resilience, and better chemical resistance. This flexibility allows for the formulation of polyurethane materials tailored to the needs of various industries and applications.
In summary, combined polyether polyols offer a versatile platform for the formulation of polyurethane materials with tailored properties and functionalities. By combining different polyether chains and additives, manufacturers can create polyols that meet the diverse demands of modern industrial and consumer applications.