Glass Fiber Reinforced Microporous Calcium Silicate Insulation Board
- Ref Price:
-
$125.00 - 165.00
/ m²
- Loading Port:
- Tianjin
- Payment Terms:
- TT or LC
- Min Order Qty:
- 100 m²
- Supply Capability:
- 10000 m²/month
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OKorder Financial Service
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Quick Details for Micropore Insulation Board ,Heat Insulation materials
| Type: | Other Heat Insulation Materials | Place of Origin: | China (Mainland) | Brand Name: | |
| Model Number: | HCS | Color: | white | Apparent Density: | 220 +/- 10% |
| Heat Conductivity: | 0.060 | Highest Working Temperature: | 1050 | Material: | Xonotlite and reinforced glass fiber |
Packaging & Delivery
| Packaging Details: | Standard Fumigation Wooden pallet or Carton Package with Plastic Sheet inside |
| Delivery Detail: | Generally within 2 weeks after receipt of deposit |
Specifications
Microporous calcium silicate insulation board
experienced manufacturer
Size:1000*600mm,600*150mm
ISO9001:2008
Microporous calcium silicate insulation board
It is mixed with Xonotlite and reinforced glass fibre with high service temp. (1050 celsius),good heat insulation, low bulk density, high strength, good durability and so on.
Product characteristics:
² Good durability, can bear high temperature within the limit of continuous heat load,
² Low thermal conductivity, in the whole range are used with unmatched adiabatic performance.
² Light weight, high strength. It is the highest in these hard thermal insulation products.
² Better durability, use for a long time without powder.
² Construction with ordinary carpenter applicability, tools can be optional cut products.
² Used safety, hygiene. Excluding asbestos, sulfur, chlorine such poisonous substances.
² Fear water, but after drying also can be used.
HCS Physical Performance Index
Items | Unit | HCS-170 | HCS-220 | HCS-270 |
Bulk Density | Kg/m3 | 170(±10%) | 220(±10%) | 270(±10%) |
Pressure Strength | MPa | ≥0.40 | ≥0.50 | ≥0.60 |
Flexural Strength | MPa | ≥0.30 | ≥0.35 | ≥0.40 |
Thermal Conductive | W/m.k | ≤0.048 +0.00011t | ≤0.050 +0.00011t | ≤0.056 +0.00011t |
Temp. limit | degrees | 1000 | 1050 | 1050 |
Linear Shrinkage | % | ≤1.50 (1000,3hrs) | ≤1.50 (1000,3hrs) | ≤1.50 (1000,3hrs) |
Block Sizes and Dimensional Tolerances
Length(±3mm) | Width(±3mm) | Thickness(+2mm,—1.5mm) |
610 | 303,300,150 | 25—140 |
600 | 300 | 25—140 |
400 | 250 | 25—140 |
1000 | 500 | 25—140 |
1200 | 600 | 25—140 |
We also supply special size and type.
Standard Dimension:
1000(900)×600(500)×5-20mm
We can also manufacture the special dimensions as customers need.
Q1:Are you a manufacture or trader?
A:Factory+trade(mainly factories,at the same time,we operates other related products).
Q2:Can we visit your factory?
A:Sure,welcome at any time,seeing is believing.
Q3:What's the MOQ of trial order?
A:No limit,We can offer the best suggestions and solutions according to your condition.
Q4:Which payment terms can you accept?
A:T/T,L/C,Western Union,Moneygram,Paypal are available for us.
Q5:After an order is confirmed,when to deliver?
A:15-25days after deposit.
Q6:Is your company accept customization?
A:We have own factory and excellent technical team,and we accept OEM service.
Q7:How about your company's certification?
A:ISO9001 and Test Report,also we could apply other necessary certification.
Q8:How to slove the quality problems?
A:If the products are not confirmed to customer samples or have quality problems,our compay will be responsible to make compensation for it.
Q9:Can you offers samples?
A:Of coures,samples are free but freight paid by the buyers.
Q10:What is the service life of your bricks?
A:The service life of different bricks is unlike.It also depends on your using condition and method.
Thanks for your coming in,if there is any question,I will be glad to help you.
- Q: Is recycled glass recycled high in value? What's the value of it?
- Yes, it can be made into ornaments, such as rabbits, or fruit, and so on
- Q: Are glass fiber textiles resistant to weathering?
- Yes, glass fiber textiles are highly resistant to weathering. Glass fibers are made from inorganic materials, primarily silica, which gives them excellent resistance to the effects of weathering. They are resistant to ultraviolet (UV) radiation, moisture, and temperature fluctuations. This makes them suitable for outdoor applications, such as in the construction industry for roofing, insulation, and reinforcement materials. Glass fiber textiles also maintain their strength and durability over time, even when exposed to harsh weather conditions, making them a reliable choice for long-lasting and weather-resistant products.
- Q: How do glass fiber textiles affect carbon footprint?
- The use of glass fiber textiles can make a significant contribution to reducing carbon footprint. These textiles are produced from glass fibers, which are sourced from silica sand, a renewable resource. In contrast to cotton or polyester textiles, glass fiber textiles do not rely on fossil fuels during production, resulting in lower greenhouse gas emissions. Furthermore, glass fiber textiles have a longer lifespan compared to other textiles. They are highly durable and resistant to wear and tear, reducing the need for frequent replacements. This decrease in textile demand leads to lower carbon emissions associated with manufacturing processes. Moreover, glass fiber textiles possess excellent insulating properties. They effectively retain heat, minimizing energy loss from buildings and reducing the necessity for artificial heating. This improved energy efficiency reduces carbon emissions generated by the combustion of fossil fuels for heating purposes. Additionally, glass fiber textiles are recyclable. When they reach the end of their useful life, these textiles can be recycled and utilized as raw materials in the production of new products. This practice reduces landfill waste and the need for new manufacturing, ultimately lowering carbon footprint. In conclusion, glass fiber textiles offer numerous benefits for reducing carbon footprint, including their renewable sourcing, durability, energy-saving characteristics, and recyclability. Incorporating these textiles into various industries can contribute to a more sustainable and environmentally friendly future.
- Q: Can glass fiber textiles be used for making sporting goods or equipment?
- Yes, glass fiber textiles can be used for making sporting goods or equipment. Glass fiber textiles, also known as fiberglass, are lightweight and have high strength-to-weight ratio, making them suitable for various sports applications. They are commonly used in the production of sports equipment such as tennis rackets, golf club shafts, hockey sticks, and fishing rods. The unique properties of glass fiber textiles, including their durability, flexibility, and resistance to moisture and corrosion, make them ideal for withstanding the demands of sporting activities. Additionally, glass fiber textiles can be molded into different shapes and designs, allowing manufacturers to create customized and high-performance sporting goods. Overall, glass fiber textiles are a popular choice in the sports industry due to their excellent mechanical properties and versatility.
- Q: Are glass fiber textiles resistant to abrasion?
- Glass fiber textiles have a general resistance to abrasion. They are produced by weaving strands of glass fibers, which are widely recognized for their exceptional strength and durability. These textiles find frequent use in contexts that prioritize protection against abrasion, such as in protective clothing, industrial fabrics, and reinforcement materials. The robust and inflexible characteristics of glass fibers enable them to endure rubbing or scraping against various surfaces without succumbing to wear or fraying easily. As a result, glass fiber textiles are highly favored within industries that demand materials possessing superb resistance to abrasion.
- Q: Can glass fiber textiles be used for protective gear?
- Yes, glass fiber textiles can be used for protective gear. Glass fiber textiles, also known as fiberglass textiles, are materials made from fine fibers of glass. These textiles have several properties that make them suitable for protective gear applications. Firstly, glass fiber textiles have excellent strength and durability. They have high tensile strength, meaning they can withstand a great amount of pulling or stretching force without breaking. This property makes them ideal for protective gear, where the material needs to withstand external forces and provide reliable protection. Secondly, glass fiber textiles have high heat resistance. The melting point of glass fiber textiles is typically above 1000 degrees Celsius, which makes them suitable for applications where exposure to high temperatures is a concern, such as firefighting or industrial applications. Additionally, glass fiber textiles are lightweight and flexible, which allows for ease of movement and comfort when wearing protective gear. This is especially important in applications where the gear needs to be worn for extended periods. Furthermore, glass fiber textiles have good resistance to chemicals, corrosion, and UV radiation. This makes them suitable for applications where the gear needs to be resistant to various hazardous substances or environmental conditions. However, it is worth noting that glass fiber textiles can be irritating to the skin and respiratory system if the fibers become airborne and are inhaled or come into contact with the skin. Therefore, proper safety precautions, such as using appropriate protective clothing and equipment, should be taken when working with or wearing glass fiber textiles. In conclusion, glass fiber textiles can indeed be used for protective gear due to their strength, durability, heat resistance, lightweight and flexible nature, as well as their resistance to chemicals and UV radiation. However, it is important to ensure proper safety measures are in place to prevent any potential health risks associated with glass fiber textiles.
- Q: Can glass fiber textile be used in solar panel applications?
- Indeed, solar panel applications can utilize glass fiber textile. With their lightweight nature, flexibility, and impressive thermal and electrical insulation properties, glass fiber textiles prove to be ideal substrate materials for solar panels. Acting as a backing material, glass fiber textiles not only provide structural support but also offer protection for solar cells. Furthermore, they can be combined with other materials through lamination to enhance the durability and performance of the solar panels. In conclusion, glass fiber textiles provide a cost-effective and environmentally friendly solution for incorporating solar panels into a wide range of applications.
- Q: Is glass fiber textile hypoallergenic?
- Glass fiber textiles are commonly regarded as hypoallergenic due to their lack of organic matter, unlike natural fibers like wool or cotton. This absence of allergens makes them ideal for individuals with allergies or sensitivities, as they are resistant to mold, mildew, and other allergy triggers. Moreover, these textiles are typically non-toxic and do not emit any harmful substances into the air, further minimizing the risk of allergic reactions. Nevertheless, it is worth mentioning that individual sensitivities may vary, and some individuals may still encounter slight irritation or discomfort when exposed to glass fiber textiles.
- Q: Can glass fiber textiles be used in automotive door panels?
- Glass fiber textiles, also referred to as fiberglass textiles, possess lightweight and robust qualities, rendering them appropriate for multiple purposes within the automotive sector. One such application is the utilization of these textiles in automotive door panels. By incorporating glass fiber textiles into door panels, manufacturers can enhance their strength, rigidity, and resistance to impact. Furthermore, the use of these textiles contributes to a reduction in the vehicle's overall weight, which consequently improves both fuel efficiency and performance. Moreover, glass fiber textiles exhibit favorable thermal and acoustic insulation properties, thereby enhancing the comfort and noise reduction capabilities of automotive door panels. Consequently, it is common practice to incorporate glass fiber textiles in the production of automotive door panels in order to enhance their structural integrity and overall performance.
- Q: What are the different cutting methods for glass fiber textile?
- Glass fiber textiles can be cut using various methods, depending on specific requirements and desired results. Firstly, there is scissor cutting, which is the most basic and commonly used method. It involves using sharp scissors or shears to cut through the fabric. However, scissor cutting may not provide clean and precise edges. Another method is hot knife cutting, which utilizes a heated blade to cut through the glass fiber textile. The heat from the blade melts and seals the edges of the fabric, preventing fraying. This method is particularly useful for cutting thick or layered glass fiber textiles. Laser cutting is a highly precise method that employs a laser beam to cut through the glass fiber textile. It offers clean and accurate cuts with minimal fraying, making it ideal for intricate designs or when precise measurements are required. Water jet cutting, on the other hand, uses a high-pressure jet of water to cut through the fabric. This versatile method can handle various thicknesses and types of fabrics. It provides precise and clean cuts without any heat affecting the fabric. Lastly, die cutting involves using a specialized tool called a die with a sharp edge to cut through the glass fiber textile. The die is pressed onto the fabric, creating a clean and accurate cut. Die cutting is commonly used for mass production or when consistent and repeatable cuts are necessary. Each cutting method has its own advantages and limitations, and the choice depends on factors such as the desired outcome, complexity of the design, fabric thickness, and production volume. It is crucial to consider these factors in order to select the most suitable cutting method for glass fiber textiles.
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Glass Fiber Reinforced Microporous Calcium Silicate Insulation Board
- Ref Price:
-
$125.00 - 165.00
/ m²
- Loading Port:
- Tianjin
- Payment Terms:
- TT or LC
- Min Order Qty:
- 100 m²
- Supply Capability:
- 10000 m²/month
OKorder Service Pledge
OKorder Financial Service
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