Transformer And Electric Reactor Used insulation Dogbone

Transformer And Electric Reactor Used insulation Dogbone System 1

Transformer And Electric Reactor Used insulation Dogbone System 2

Transformer And Electric Reactor Used insulation Dogbone

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Loading Port:: Qingdao

Payment Terms:: TT or LC

Min Order Qty:: 10000 kg

Supply Capability:: 200000 kg/month

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1.Brief Introduction

Trasformer insulation parts series of our company mainly including insulation sheet,i-shape,corner piece and so on.It could be classfied as class F,H and C according to temperature resistant.We can produuce epoxy series,cinyl series and polyester series according to client's requirements.

2.Characteristics

Based on productive technology and long time experience.the advantages of our product as following

1)High mechanical strength.

2)High grade of temperature resistant.

3)Smooth and elegant surface

3.Technical Data Sheet

4.FAQ

a.Test Method:All the products have passed the full set of test.especially the related inspection of SGS.Our products have been sold to dozens of countries and regions,What is the most important.our products have passed all the technical inspections of most strict japanese clients.

b.Operative Norm:The operative norm of our product is JB/T10943-2010 "Brace used in Dry-type Transformer"and part of IEC60076.

c.New mold could be made according to customersrequirements.

Q:How do FRP pultrusion profiles perform in high-humidity environments?: FRP pultrusion profiles have a reputation for their exceptional performance in environments with high levels of humidity. The combination of reinforced fibers and polymer matrix in FRP profiles gives them the ability to withstand the detrimental effects of moisture and humidity. One of the main advantages of FRP materials is their natural resistance to corrosion, which is particularly important in high-humidity environments where moisture levels are significantly higher. Unlike traditional materials like steel or wood, FRP pultrusion profiles don't rust, rot, or decay when exposed to moisture. This makes them ideal for various applications that involve constant exposure to humidity, such as coastal areas or industrial settings. Moreover, the polymer matrix used in FRP profiles acts as a barrier against moisture absorption. This prevents the profiles from expanding, warping, or cracking, even under extreme humidity conditions. The high-strength fibers embedded in the polymer matrix provide additional reinforcement, ensuring the profiles maintain their structural integrity and dimensional stability over time. Furthermore, FRP pultrusion profiles are also resistant to the growth of mold and mildew, which are commonly associated with high-humidity environments. This feature is highly advantageous as it reduces the need for frequent maintenance and cleaning, making FRP profiles a cost-effective and low-maintenance solution. In conclusion, FRP pultrusion profiles demonstrate exceptional performance in environments with high levels of humidity. Their resistance to corrosion, moisture absorption, and mold growth make them a reliable choice for applications that require durability and longevity in such conditions.

Q:What are the typical lifespan of FRP pultrusion profiles?: The typical lifespan of FRP (Fiber Reinforced Polymer) pultrusion profiles can vary depending on various factors such as the quality of materials used, environmental conditions, and the specific application in which they are used. However, on average, FRP pultrusion profiles have a lifespan of 25 to 30 years. FRP pultrusion profiles are known for their durability and resistance to corrosion, rot, and UV radiation, which contributes to their extended lifespan. The use of high-quality resins and fibers in the manufacturing process ensures that the profiles can withstand harsh conditions and maintain their structural integrity over time. It is important to note that proper installation, regular maintenance, and adherence to recommended usage guidelines can further enhance the lifespan of FRP pultrusion profiles. Additionally, factors such as exposure to extreme temperatures, chemical exposure, and mechanical stress can affect the lifespan of these profiles. Overall, FRP pultrusion profiles offer a reliable and long-lasting solution for various applications in industries such as construction, infrastructure, transportation, and marine.

Q:What does M23 grade of glass fiber reinforced plastic section mean?: Glass fiber reinforced plastic profiles are mainly used in the field: general and environmental units of manhole covers, factories and mines units of insulated cable tray; chemical units of the transmission pipeline; insulation protection fence; including floor and so on. More fields. Advantage is obvious, if the corrosion resistance, insulation resistance, quality is lighter than steel; strength and steel strength comparable.

Q:Can FRP pultrusion profiles be used in the construction of modular buildings?: Modular buildings can utilize FRP (Fiber Reinforced Polymer) pultrusion profiles. These profiles possess various advantages that render them suitable for modular construction. To begin with, FRP pultrusion profiles are not only lightweight, but also highly durable and strong. This makes them perfect for modular buildings, where reducing weight is crucial for transportation and assembly. In fact, the strength-to-weight ratio of FRP pultrusion profiles often surpasses that of traditional construction materials like steel or concrete. Furthermore, these profiles are resistant to corrosion, chemicals, and weathering. This becomes particularly significant for modular buildings, as they may face different environmental conditions during transportation and on-site assembly. The corrosion resistance also guarantees the longevity and durability of the modular building. Moreover, FRP pultrusion profiles can be designed to possess excellent thermal insulation properties. This proves advantageous for modular buildings that prioritize energy efficiency, as it helps minimize heating and cooling costs. Additionally, these profiles are easily shaped and customized to meet the specific requirements of the modular building design. This versatility allows for the creation of intricate and complex structural components, thereby facilitating the modular construction process. Furthermore, FRP pultrusion profiles are non-conductive, which enhances safety in modular buildings. Their inability to conduct electricity makes them appropriate for applications necessitating electrical insulation. In conclusion, FRP pultrusion profiles offer a viable choice for constructing modular buildings due to their lightweight, durability, corrosion resistance, thermal insulation properties, versatility, and non-conductive nature. These attributes make FRP pultrusion profiles a reliable and efficient solution for modular construction projects.

Q:Can FRP pultrusion profiles be used in the construction industry?: Yes, FRP (Fiber Reinforced Polymer) pultrusion profiles can be used in the construction industry. FRP pultruded profiles offer several advantages that make them suitable for various construction applications. Firstly, FRP pultrusion profiles are lightweight yet exceptionally strong. This makes them an excellent choice for construction projects as they provide high strength-to-weight ratio, reducing the overall weight of the structure while maintaining structural integrity. This can be particularly advantageous in applications such as bridges, walkways, and platforms. Secondly, FRP pultrusion profiles are highly corrosion resistant. Unlike traditional construction materials like steel or wood, FRP does not rust, rot, or corrode when exposed to harsh environmental conditions, chemicals, or moisture. This makes FRP profiles ideal for outdoor or marine applications where corrosion is a concern, such as seawalls, docks, or offshore structures. Additionally, FRP pultrusion profiles have excellent electrical and thermal insulation properties. This makes them suitable for applications where electrical conductivity needs to be minimized, such as electrical enclosures or cable trays. FRP profiles also have low thermal conductivity, which can help improve energy efficiency in buildings by reducing heat transfer. Furthermore, FRP pultrusion profiles are highly durable and require minimal maintenance. They have a long service life and do not require regular painting, sealing, or treatment like traditional materials. This can result in significant cost savings over the life cycle of a construction project. Lastly, FRP pultrusion profiles can be designed to meet specific strength, stiffness, and dimensional requirements. They can be manufactured in various shapes, sizes, and colors, allowing for flexibility in design and customization. This versatility makes FRP profiles suitable for a wide range of construction applications, including beams, columns, gratings, handrails, and structural components. In summary, FRP pultrusion profiles are a viable option for the construction industry due to their lightweight, high strength, corrosion resistance, electrical and thermal insulation properties, durability, low maintenance requirements, and design flexibility.

Q:Can FRP pultrusion profiles be used in aerospace applications?: Yes, FRP (Fiber Reinforced Plastic) pultrusion profiles can be used in aerospace applications. FRP materials have several advantages that make them suitable for aerospace use. Firstly, they have excellent strength-to-weight ratios, which is crucial in the aerospace industry to reduce weight and enhance fuel efficiency. Secondly, FRP materials exhibit high corrosion resistance, making them suitable for prolonged exposure to harsh environments, such as high altitude and extreme temperatures. Additionally, FRP pultrusion profiles offer design flexibility, allowing for complex shapes and geometries to be manufactured. This flexibility enables aerospace engineers to tailor the profiles to specific requirements and optimize performance. Furthermore, FRP materials have low thermal conductivity, which helps in insulation applications and reducing heat transfer. Lastly, FRP pultrusion profiles have demonstrated good fatigue resistance, which is essential for aerospace applications subjected to cyclic loading. Overall, these properties make FRP pultrusion profiles a viable choice for various aerospace components, including structural members, interior parts, and electrical enclosures.

Q:Are FRP pultrusion profiles resistant to fungi and mold?: Yes, FRP (Fiber Reinforced Polymer) pultrusion profiles are generally resistant to fungi and mold. This is due to the non-porous nature of the materials used in their construction, such as fiberglass and epoxy resins. These materials do not provide a suitable environment for fungi and mold to grow, making FRP pultrusion profiles highly resistant to their growth and colonization. Furthermore, FRP pultrusion profiles are inherently moisture-resistant, which is another factor that discourages the growth of fungi and mold. Unlike traditional materials like wood, which can absorb moisture and provide a conducive environment for fungal and mold growth, FRP profiles do not absorb water and are therefore highly resistant to these issues. The combination of non-porous materials and moisture resistance makes FRP pultrusion profiles a suitable choice for applications where fungi and mold resistance is crucial, such as in humid or damp environments. However, it is important to note that no material is entirely immune to fungi and mold growth under all circumstances. In certain extreme conditions, where there is prolonged exposure to high levels of moisture and organic matter, it is still possible for some fungi and mold to colonize FRP profiles. However, compared to other materials, FRP pultrusion profiles offer a significantly higher level of resistance to these issues.

Q:Are FRP pultrusion profiles resistant to hail or impact damage?: Yes, FRP (Fiber Reinforced Polymer) pultrusion profiles are highly resistant to hail or impact damage. The combination of reinforcing fibers, such as carbon or glass, and a polymer resin matrix provides exceptional strength and durability to FRP pultrusions. These profiles have superior impact resistance compared to other materials like wood, steel, or aluminum. FRP pultrusion profiles are designed to withstand harsh environmental conditions, including hailstorms. The composite nature of FRP allows it to absorb and distribute impact energy, preventing the formation of cracks or fractures. This makes them an ideal choice for applications that require resistance to hail or impact damage, such as building facades, bridges, handrails, or utility poles. Furthermore, FRP pultrusion profiles have a high strength-to-weight ratio, meaning they can withstand heavy impacts without compromising their structural integrity. They are also non-corrosive, which makes them immune to rust or degradation caused by hail or impact. In summary, FRP pultrusion profiles are highly resistant to hail or impact damage due to their composite construction and excellent strength-to-weight ratio. They provide a reliable and long-lasting solution for applications that require durability and resistance to harsh environmental conditions.

Q:Can FRP pultrusion profiles be used in walkway systems?: Walkway systems can indeed utilize FRP (Fiber Reinforced Polymer) pultrusion profiles. These profiles are renowned for their impressive strength-to-weight ratio, resistance to corrosion, and durability, which makes them an excellent option for various applications, including walkway systems. Due to the lightweight nature of FRP pultrusion profiles, they are easy to handle and install, which ultimately reduces construction time and cost. Moreover, their corrosion resistance ensures that they can endure harsh environmental conditions, such as exposure to moisture, chemicals, and UV radiation, without deteriorating or requiring frequent maintenance. FRP pultrusion profiles can be tailored to meet specific design requirements, enabling the creation of walkway systems with diverse shapes, sizes, and load-bearing capacities. These profiles can be manufactured with anti-slip surfaces or integrated with other safety features to enhance traction and prevent accidents on the walkways. Furthermore, FRP pultrusion profiles possess excellent electrical insulation properties, making them suitable for walkway systems in areas where minimizing electrical conductivity is necessary, such as power plants or electrical substations. All in all, the distinctive properties of FRP pultrusion profiles make them a dependable and versatile material choice for walkway systems. They offer long-lasting performance, low maintenance requirements, and enhanced safety.

Q:What is the lifespan of FRP pultrusion profiles?: The lifespan of FRP pultrusion profiles may differ depending on various factors. Generally, FRP pultrusion profiles are renowned for their durability and longevity, often having a long lifespan. The quality of materials utilized in constructing FRP pultrusion profiles is a significant factor that influences their lifespan. High-quality FRP materials, including premium resins and strong fibers, tend to have a lengthier lifespan in comparison to lower-quality materials. Furthermore, the lifespan of FRP pultrusion profiles can be affected by the environmental conditions under which they are installed. Exposure to extreme temperatures, moisture, UV radiation, chemicals, and mechanical stresses can all impact the performance and lifespan of FRP profiles. Hence, proper installation and maintenance play a vital role in ensuring their longevity. When FRP pultrusion profiles are designed, manufactured, and installed correctly, they can last anywhere from 25 to 50 years or more. However, it is important to note that this estimate can vary depending on the specific application, level of exposure to harsh conditions, and overall care and maintenance of the profiles over time. To extend the lifespan of FRP pultrusion profiles, regular inspections, cleaning, and necessary repairs are recommended. Seeking advice from manufacturers or industry experts can provide more precise information regarding the anticipated lifespan of FRP profiles in a particular application or environment.

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