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| Quantity: | |
|---|---|
| Parameter | Value |
| Compressive Strength (fcm) | >125 MPa |
| Flexural Tensile Strength | 15 MPa |
| Central Tensile Strength | 5 MPa |
| Static Elastic Modulus (E) | 46,500 MPa |
| Dynamic Elastic Modulus (E) | 55,600 MPa |
| Poisson's Ratio | 0.19 [-] |
| Hardened Concrete Density | 2,480 kg/m³ |
| Specific Heat Capacity (p) | 1.2 J/g |
| Thermal Conductivity | 3.0 W/m³ |
Heat Resistance
UHPC has a high heat capacity and low thermal conductivity, making it resistant to rapid temperature changes.
Slow Heat Buildup
It transfers ambient temperature fluctuations more slowly than traditional materials such as grey cast iron.
Energy Efficiency
It consumes 30% less primary energy in its production process than grey cast iron.
Eco-Friendly Materials
It has a smaller ecological footprint than mineral castings bonded with epoxy resins.
Recyclability
It can be easily processed as construction waste and reused in the construction industry.
Durability
It uses less material but lasts longer than regular concrete.
High Temperature Environments
For applications exposed to extreme heat and temperature fluctuations.
Sustainable Building Projects
Ideal for environmentally friendly projects that require low environmental impact materials.
Structural Engineering
For bridges, high-rise buildings, and load-bearing components.
Industrial Machinery Foundations
Provide thermal stability and vibration damping for machinery.
Recyclable Solutions
For projects where waste reduction and material reuse are a priority.
Precision Engineering
Ideal for components that require high stiffness and minimal deformation.
1. What is Ultra High Performance Concrete (UHPC)?
UHPC is a cement-based material enhanced with nanotechnology. It provides exceptional strength, durability, and heat resistance for demanding structural applications.
2. What are the main benefits of UHPC?
UHPC offers excellent compressive strength, heat resistance, reduced material usage, and long-lasting performance. It also offers better energy efficiency than traditional materials.
3. How does UHPC perform in high-temperature environments?
UHPC has high heat capacity and low thermal conductivity, making it highly resistant to temperature fluctuations and heat buildup.
4. Is UHPC sustainable?
Yes, UHPC has a lower ecological footprint than other materials. It uses 30% less primary energy and is more easily recycled.
5. What are the main applications of UHPC?
UHPC is widely used in structural engineering, industrial machinery foundations, high-temperature environments, and sustainable building projects.
6. How does UHPC compare to traditional concrete?
UHPC is stronger, more durable and requires less material than traditional concrete
Innovative Materials
UHPC is a cement-based composite material based on nanotechnology with advanced mechanical properties.
Superior Strength
Provides excellent compressive strength to meet high structural requirements.
Durability
Provides long-lasting resistance to mechanical and environmental stresses.
Thermal Stability
Withstands extreme temperatures without performance degradation.
Precision and Stiffness
Ensures precise shaping and stiffness in complex applications.
Vibration Reduction
Effectively reduces vibrations and improves operational stability.
Wide Applications
Suitable for structural, mechanical and industrial engineering.
| Parameter | Value |
| Compressive Strength (fcm) | >125 MPa |
| Flexural Tensile Strength | 15 MPa |
| Central Tensile Strength | 5 MPa |
| Static Elastic Modulus (E) | 46,500 MPa |
| Dynamic Elastic Modulus (E) | 55,600 MPa |
| Poisson's Ratio | 0.19 [-] |
| Hardened Concrete Density | 2,480 kg/m³ |
| Specific Heat Capacity (p) | 1.2 J/g |
| Thermal Conductivity | 3.0 W/m³ |
Heat Resistance
UHPC has a high heat capacity and low thermal conductivity, making it resistant to rapid temperature changes.
Slow Heat Buildup
It transfers ambient temperature fluctuations more slowly than traditional materials such as grey cast iron.
Energy Efficiency
It consumes 30% less primary energy in its production process than grey cast iron.
Eco-Friendly Materials
It has a smaller ecological footprint than mineral castings bonded with epoxy resins.
Recyclability
It can be easily processed as construction waste and reused in the construction industry.
Durability
It uses less material but lasts longer than regular concrete.
High Temperature Environments
For applications exposed to extreme heat and temperature fluctuations.
Sustainable Building Projects
Ideal for environmentally friendly projects that require low environmental impact materials.
Structural Engineering
For bridges, high-rise buildings, and load-bearing components.
Industrial Machinery Foundations
Provide thermal stability and vibration damping for machinery.
Recyclable Solutions
For projects where waste reduction and material reuse are a priority.
Precision Engineering
Ideal for components that require high stiffness and minimal deformation.
1. What is Ultra High Performance Concrete (UHPC)?
UHPC is a cement-based material enhanced with nanotechnology. It provides exceptional strength, durability, and heat resistance for demanding structural applications.
2. What are the main benefits of UHPC?
UHPC offers excellent compressive strength, heat resistance, reduced material usage, and long-lasting performance. It also offers better energy efficiency than traditional materials.
3. How does UHPC perform in high-temperature environments?
UHPC has high heat capacity and low thermal conductivity, making it highly resistant to temperature fluctuations and heat buildup.
4. Is UHPC sustainable?
Yes, UHPC has a lower ecological footprint than other materials. It uses 30% less primary energy and is more easily recycled.
5. What are the main applications of UHPC?
UHPC is widely used in structural engineering, industrial machinery foundations, high-temperature environments, and sustainable building projects.
6. How does UHPC compare to traditional concrete?
UHPC is stronger, more durable and requires less material than traditional concrete
Innovative Materials
UHPC is a cement-based composite material based on nanotechnology with advanced mechanical properties.
Superior Strength
Provides excellent compressive strength to meet high structural requirements.
Durability
Provides long-lasting resistance to mechanical and environmental stresses.
Thermal Stability
Withstands extreme temperatures without performance degradation.
Precision and Stiffness
Ensures precise shaping and stiffness in complex applications.
Vibration Reduction
Effectively reduces vibrations and improves operational stability.
Wide Applications
Suitable for structural, mechanical and industrial engineering.
