Hard UPVC Construction Sewage Fittings
$0.00Introduction
Unplasticized polyvinyl chloride (UPVC) is one of the lightweight polymers that have high strength and impact resistance. Pipes and fittings made of this material exhibit excellent resistance in corrosive environments. Nano-scale fillers due to their high specific surface area give these polymers unique properties. Addition of nanoparticles to the UPVC polymer improves its mechanical and physical properties. This product is a nanocomposite 90 degree elbow, in which the addition of nanoparticles has improved the impact resistance, thermal stability and Vicat softening temperature.
Hard UPVC Construction Sewage Fittings
$0.00Introduction
Unplasticized polyvinyl chloride (UPVC) is one of the lightweight polymers that have high strength and impact resistance. Pipes and fittings made of this material exhibit excellent resistance in corrosive environments. Nano-scale fillers due to their high specific surface area give these polymers unique properties. Addition of nanoparticles to the UPVC polymer improves its mechanical and physical properties. This product is a nanocomposite 90 degree elbow, in which the addition of nanoparticles has improved the impact resistance, thermal stability and Vicat softening temperature.
Hard UPVC Construction Sewage Fittings
$0.00Introduction
Unplasticized polyvinyl chloride (UPVC) is one of the lightweight polymers that have high strength and impact resistance. Pipes and fittings made of this material exhibit excellent resistance in corrosive environments. Nano-scale fillers due to their high specific surface area give these polymers unique properties. Addition of nanoparticles to the UPVC polymer improves its mechanical and physical properties. This product is a nanocomposite 90 degree elbow, in which the addition of nanoparticles has improved the impact resistance, thermal stability and Vicat softening temperature.
Hard UPVC Fittings
$0.00Introduction
Hard polyvinyl chloride (UPVC) is used to produce a wide range of plastic pipes and fittings. This material is remarkably resistant to chemical erosion and has a smooth interior surface which improves water flow. UPVC has high chemical resistance across its working temperature range, with a wide range of operating pressures. Due to some features including long-term strength, high stiffness and affordability, UPVC systems are widely used in plastic fittings and pipes. It has been demonstrated that the addition of nanoparticles significantly improves the strength and stiffness of UPVC.
Hard UPVC Fittings
$0.00Introduction
Hard polyvinyl chloride (UPVC) is used to produce a wide range of plastic pipes and fittings. This material is remarkably resistant to chemical erosion and has a smooth interior surface which improves water flow. UPVC has high chemical resistance across its working temperature range, with a wide range of operating pressures. Due to some features including long-term strength, high stiffness and affordability, UPVC systems are widely used in plastic fittings and pipes. It has been demonstrated that the addition of nanoparticles significantly improves the strength and stiffness of UPVC.
Hard UPVC Fittings
$0.00Introduction
Hard polyvinyl chloride (UPVC) is used to produce a wide range of plastic pipes and fittings. This material is remarkably resistant to chemical erosion and has a smooth interior surface which improves water flow. UPVC has high chemical resistance across its working temperature range, with a wide range of operating pressures. Due to some features including long-term strength, high stiffness and affordability, UPVC systems are widely used in plastic fittings and pipes. It has been demonstrated that the addition of nanoparticles significantly improves the strength and stiffness of UPVC.
Silent Sewage Pipes
$0.00Introduction
Silent Sewage Pipes
$0.00Introduction
Silent Sewage Pipes
$0.00Introduction
Structural Lightweight Concrete (NSLC-1230)
$0.00Introduction
Structural lightweight concrete has an in-place density on the order of 1400 to 1900 kg/m3 compared to normal-weight concrete with a density in the in the range of 2000 to 2400 kg/m3. For structural applications, the concrete strength should be greater than 17 MPa. The concrete mixture is made with lightweight coarse aggregate. In some cases, a portion or the entire fine aggregate may be a lightweight product. Lightweight aggregates used in structural lightweight concrete are typically expanded shale, clay or slate materials that have been fired in a rotary kiln to develop a porous structure.
Structural Lightweight Concrete (NSLC-1230)
$0.00Introduction
Structural lightweight concrete has an in-place density on the order of 1400 to 1900 kg/m3 compared to normal-weight concrete with a density in the in the range of 2000 to 2400 kg/m3. For structural applications, the concrete strength should be greater than 17 MPa. The concrete mixture is made with lightweight coarse aggregate. In some cases, a portion or the entire fine aggregate may be a lightweight product. Lightweight aggregates used in structural lightweight concrete are typically expanded shale, clay or slate materials that have been fired in a rotary kiln to develop a porous structure.
Structural Lightweight Concrete (NSLC-1230)
$0.00Introduction
Structural lightweight concrete has an in-place density on the order of 1400 to 1900 kg/m3 compared to normal-weight concrete with a density in the in the range of 2000 to 2400 kg/m3. For structural applications, the concrete strength should be greater than 17 MPa. The concrete mixture is made with lightweight coarse aggregate. In some cases, a portion or the entire fine aggregate may be a lightweight product. Lightweight aggregates used in structural lightweight concrete are typically expanded shale, clay or slate materials that have been fired in a rotary kiln to develop a porous structure.
UPVC Door and Window Profiles containing Nanoparticles
$0.00Introduction
UPVC Door and Window Profiles containing Nanoparticles
$0.00Introduction
UPVC Door and Window Profiles containing Nanoparticles
$0.00Introduction
UPVC Nanocomposite Profiles
$0.00Introduction
This product is unplasticized polyvinyl chloride (UPVC) nanocomposite profile containing nanoparticles. UPVC is among the widely used polymers in building construction which is the more suitable option compared to metal and wooden profiles due to features such as high durability and performance, easy formability, low thermal expansion, prevention of the energy loss and non-flammability. However, the brittleness and loss of color during exposure to UV radiation are some disadvantages of these profiles. as a solution, nanomaterials are added to the UPVC which improve the impact strength of the product.
UPVC Nanocomposite Profiles
$0.00Introduction
This product is unplasticized polyvinyl chloride (UPVC) nanocomposite profile containing nanoparticles. UPVC is among the widely used polymers in building construction which is the more suitable option compared to metal and wooden profiles due to features such as high durability and performance, easy formability, low thermal expansion, prevention of the energy loss and non-flammability. However, the brittleness and loss of color during exposure to UV radiation are some disadvantages of these profiles. as a solution, nanomaterials are added to the UPVC which improve the impact strength of the product.
UPVC Nanocomposite Profiles
$0.00Introduction
This product is unplasticized polyvinyl chloride (UPVC) nanocomposite profile containing nanoparticles. UPVC is among the widely used polymers in building construction which is the more suitable option compared to metal and wooden profiles due to features such as high durability and performance, easy formability, low thermal expansion, prevention of the energy loss and non-flammability. However, the brittleness and loss of color during exposure to UV radiation are some disadvantages of these profiles. as a solution, nanomaterials are added to the UPVC which improve the impact strength of the product.