TURNKEY PROJECT PROVIDED BY SMOOTH.
1. HOW TO MAKE A GOOD PANEL?
2. HOW TO USE A PANEL?
3. HOW TO CHOOSE THE RAW MATERIALS & MACHINES?
4. HOW TO IMPROVE THE PRODUCTION?
5. WHOM TO SELL THE PANELS TO?
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YOU ARE MOST WELCOME TO VISIT OUR OPERATING PRODUCTION LINE.
About Inorganic fiber cement board :
Inorganic fiber cement boards have a wide range of applications in both present and future construction projects due to their numerous advantages. Some of the current applications include:
Exterior Cladding: Fiber cement boards are commonly used as exterior cladding materials for buildings. They provide durability, weather resistance, and aesthetic appeal. With advancements in manufacturing technology, they now come in various textures and colors, enhancing their architectural versatility.
Interior Wall Partitioning: These boards are also utilized for interior wall partitioning in both residential and commercial buildings. They offer sound insulation properties, fire resistance, and are resistant to moisture and mold, making them ideal for use in areas like bathrooms, kitchens, and basements.
Soffits and Fascia: Fiber cement boards are often used for soffits and fascia in roofing applications. Their durability and resistance to moisture make them suitable for protecting roof edges and providing a finished look to the roofline.
Floor Underlayment: Inorganic fiber cement boards can serve as underlayment for flooring materials such as tiles, hardwood, and laminate. They provide a stable and moisture-resistant base for flooring installations, ensuring longevity and stability.
Exterior Trim and Molding: Due to their ability to mimic the appearance of wood, fiber cement boards are frequently used for exterior trim and molding applications. They offer the aesthetic appeal of wood without the susceptibility to rot, decay, or insect damage.
As for the future applications, there is a growing trend towards sustainable and eco-friendly construction materials. Inorganic fiber cement boards align well with these objectives due to their composition, which typically includes cement, cellulose fibers, sand, and water. They are non-toxic, recyclable, and have low embodied energy compared to traditional building materials like wood or aluminum. Therefore, we can expect to see an increased adoption of fiber cement boards in green building projects and environmentally-conscious construction practices in the future. Additionally, ongoing research and development efforts may lead to further enhancements in the properties and performance of these boards, opening up new avenues for their application in various construction sectors.
Production line general info:
| Annual production capacity: |
5 million square meters (6mm) |
| Output Panel Density |
0.85g/cm³ - 1.2g/cm³ |
| Output Panel Size |
1220mm * 2440mm, 1220mm * 2750mm, 1220mm * 3050mm |
| Output Panel Thickness |
6-20mm |
| Panel characteristics |
heat resistance, frost resistance, non flamma- bility, and resistance to termite harm |
| Panel Application |
exterior walls, roofs, and interior walls |
| Panel type |
Inorganic fiber cement board / Calcium silicate Panels |
Production Flow Chart:
Raw material preparation (pulp, cement, and additives) → automatic dosing and mixing → sheet forming → high-pressure water cutting and pressurization → autoclaved curing → drying → sanding → post-processing
Our Advantages
Advantages of production line:
· A single production line can produce multiple specifications of products, meeting
the needs of diversified production.
Energy consumption report
· Stable operation and high level of automation, requiring only 10-12 operators, which
can save 6-10 people compared to other sheet-making lines.
· Adopting an intelligent data recording system to reduce management costs.
· Production efficiency is high, and the rate of finished products up to 99%. Compared
to other sheet-making lines, its production capacity is higher than 20-30%, energy
consumption is reduced by 10-20%, and raw materials can be saved by about 5-10%.
Extra Update:
Inorganic fiber cement coating & printing board production line.
FAQ
Cement fiber board and calcium silicate board are both widely used in construction, especially for interior and exterior wall applications. While they share some similarities, they also have distinct differences based on their composition, properties, and applications. Here's a detailed comparison:
Similarities
Composition:
-
- Both are made from inorganic materials, making them durable and fire-resistant.
- They contain fibers (often cellulose or synthetic) to enhance strength and flexibility.
Properties:
-
- Fire Resistance: Both boards are non-combustible and offer excellent fire resistance.
- Water Resistance: Both are resistant to moisture, although their performance may vary under prolonged exposure.
- Durability: Both are sturdy and designed for long-term use, resisting warping, cracking, and impact.
Applications:
-
- Suitable for cladding, partitions, ceilings, flooring, and external wall panels.
- Often used in environments requiring fire safety and moisture resistance, such as bathrooms, kitchens, and industrial settings.
Workability:
-
- Both boards can be cut, drilled, and installed using similar tools and techniques.
- They support various surface finishes, including paint, wallpaper, or tiles.
Differences
| Feature |
Cement Fiber Board |
Calcium Silicate Board |
| Main Composition |
Cement, cellulose fibers, and sometimes sand. |
Calcium silicate, cellulose fibers, and mineral fillers. |
| Weight |
Heavier due to higher cement content. |
Lighter because of less cement and different fillers. |
| Moisture Resistance |
Performs well in wet environments but absorbs more water. |
Superior moisture resistance with lower water absorption. |
| Thermal Insulation |
Moderate thermal insulation properties. |
Better thermal insulation than cement fiber boards. |
| Flexibility |
Less flexible and more prone to cracking under bending. |
More flexible and less likely to crack. |
| Density |
Higher density (around 1,200-1,500 kg/m³). |
Lower density (around 800-1,200 kg/m³). |
| Installation |
Requires stronger structures due to weight. |
Easier installation due to lighter weight. |
| Cost |
Generally cheaper than calcium silicate boards. |
Typically more expensive due to enhanced properties. |
Choosing Between Them
- Cement Fiber Board: Ideal for applications requiring high strength and durability, such as external walls, flooring, or areas exposed to harsh conditions.
- Calcium Silicate Board: Better for applications where weight, superior moisture resistance, or thermal insulation are critical, such as ceilings or partitions in high-humidity areas.
Comparison of Production Procedures
| Aspect |
Cement Fiber Board (Curing) |
Calcium Silicate Board (Autoclaving) |
| Primary Process |
Air or steam curing. |
High-pressure steam autoclaving. |
| Time Required |
Longer curing time (days to weeks). |
Faster autoclaving process (hours). |
| Temperature Range |
Lower temperatures (~50-70°C). |
Higher temperatures (~170-200°C). |
| Energy Efficiency |
More energy-efficient and simpler. |
Energy-intensive but precise. |
| Material Strength |
Denser but prone to shrinkage/cracks. |
Lighter and dimensionally stable. |
| Equipment Needed |
Minimal (curing chambers). |
Complex (autoclave system). |
Audited Supplier 
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