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Industrial Resin
| Application | Cooling Tower, Hand Layup, Water Tank, Spray Up, Roofing Sheet, Panel, Lamination, Moulding, Door Skin, General Purpose |
| Resin Type | Low Shrink |
| Packaging Size | 1kg,5kg,10kg,35kg. |
| Curing System | Room Temp Cure |
| Usage/Application | FRP |
| Form | Liquid |
| Gel Time | <8 min |
| Thixotropy | Low Thixotropic |
| Viscosity | 200 to 800 centipoise (cP) |
| Grade Standard | Industrial Grade |
| Color | Clear |
| Packaging Type | Cans |
| Styrene Content | 30-35 % |
| Compressive Strength | MPa to 150 MPa (around 7,200 psi to 21,800 psi) |
| Packaging | 225 kg Drum |
| Brand | Local Manufacturer |
| Melting Point | 250 DegreeC to 350 DegreeC (482 DegreeF to 662 DegreeF) |
GP (General Purpose) clear resin is a versatile type of resin commonly used in a variety of applications where clarity and ease of use are important. Here’s a detailed description:
1. Composition:Base Material: GP clear resin is usually based on polyester or epoxy. Polyester resins are often used for general-purpose applications due to their ease of use and cost-effectiveness, while epoxy resins are chosen for their superior clarity and strength.Hardener/Catalyst: It requires a hardener or catalyst to cure, which initiates the chemical reaction that transforms the liquid resin into a solid state.
2. Key Characteristics:Clarity: As a "clear" resin, it is designed to be transparent, making it ideal for applications where the aesthetic appearance of transparency is desired. It can be used to embed objects, create clear coatings, or produce visually appealing components.Ease of Use: GP clear resins are formulated to be user-friendly, with manageable working times and good flow characteristics. This makes them suitable for a range of DIY projects and small-scale applications.Curing Time: The curing time can vary depending on the formulation and environmental conditions. GP clear resins typically have a moderate curing time, allowing for adjustments during application.
3. Applications:Casting: Used for casting small objects, jewelry, and decorative items. Its clarity allows for detailed visibility of embedded objects or intricate designs.Coating: Applied as a clear protective coating over surfaces such as wood, metal, or art projects. It provides a glossy finish and protection against wear and environmental damage.Encapsulation: Suitable for encapsulating electronic components, art pieces, or other items where a clear, protective layer is required.Repairs: Used for repairing or restoring surfaces where a transparent finish is needed.
4. Properties:Strength and Durability: GP clear resins generally offer good mechanical strength and durability. However, the specific properties can vary between polyester and epoxy formulations.Chemical Resistance: Offers varying levels of resistance to chemicals and environmental factors, depending on the formulation. Epoxy resins typically provide better chemical resistance compared to polyester resins.UV Resistance: Some GP clear resins include UV stabilizers to prevent yellowing and degradation from prolonged exposure to sunlight. This is particularly important for outdoor applications.
5. Processing:Mixing: Requires accurate mixing of the resin and hardener/catalyst according to the manufacturer's instructions to ensure proper curing and performance.Application Methods: Can be applied using brushes, rollers, or poured into molds. For casting and coating, it's important to ensure even application to avoid bubbles and ensure clarity.Curing Conditions: Typically cures at room temperature, but some formulations may require heat for optimal curing.
6. Safety and Handling:Ventilation: Good ventilation is important when working with GP clear resin to avoid inhaling fumes.Protective Gear: Use gloves and protective eyewear to avoid skin and eye contact.Storage: Store the resin and hardener in a cool, dry place away from direct sunlight and sources of ignition.
7. Environmental Impact:Disposal: Follow local regulations for the disposal of resin and associated materials. Some resins may require special handling due to their chemical content.In summary, GP clear resin is a versatile and user-friendly resin suitable for various applications requiring a clear, durable finish. Its ease of use and adaptability make it popular for both hobbyist and professional projects. Always refer to the specific product’s technical data sheet for detailed information on its properties and application guidelines.
Additional Information:
- Production Capacity: 10000
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| Application | Marine Parts, Hand Layup, Aeronotical Parts , Wind mill Parts, Pultrusion, RTM, Button Casting, Automotive Parts, FRP Moulding, Casting, Bathware, Lamination |
| Resin Type | Isophthalic |
| Packaging Size | 5kg, 35kg. |
| Curing System | Low Temp Cure |
| Gel Time | <8 min |
| Styrene Content | <30 % |
| Viscosity | 1100 to 1400 kilograms per cubic meter |
| Grade Standard | Industrial Grade |
| Type | Isopthalic |
| Form | Gel |
| Color | Translucent white |
| Reactivity | Medium |
| Thixotropy | Medium Thixotropic |
| Packaging | 35 kg Drum |
| Melting Point | 250 DegreeC to 300 DegreeC (482 DegreeF to 572 DegreeF) |
| Density | 500 to 800 cP |
| Packaging Type | cans |
| Grade | Standard Gel Coat |
| Material | unsaturated polyester gel coat |
Gel coat is a specialized resin used primarily in the production and finishing of fiberglass composite products. It provides a smooth, protective surface and is commonly used in the marine, automotive, and construction industries. Here’s a comprehensive description of gel coat:
1. Composition and Types:
Base Material: Gel coats are typically made from polyester or vinyl ester resins. Polyester gel coats are the most common and are used for general applications. Vinyl ester gel coats offer enhanced chemical resistance and are used in more demanding environments.Additives: Gel coats may include various additives, such as pigments for color, fillers for thickness, and UV stabilizers to prevent degradation from sunlight.
2. Key Characteristics:
Finish: Gel coat provides a glossy, smooth finish that is visually appealing and resistant to weathering. It is often used to create the outer layer of composite products for a high-quality appearance.Durability: It offers excellent resistance to water, chemicals, and UV radiation, which helps protect the underlying composite structure from environmental damage.Thickness: Gel coats are applied in a relatively thick layer compared to other resins, typically ranging from 0.5 mm to 1.5 mm (0.02 to 0.06 inches). This thickness helps ensure a durable and protective surface.
3. Applications:
Marine Industry: Commonly used for the hulls and decks of boats and yachts. The gel coat provides a smooth, glossy finish that enhances the boat’s appearance and protects against the harsh marine environment.Automotive Industry: Applied to fiberglass body panels and custom car parts to achieve a high-quality finish and protect the underlying materials.Construction: Used in the production of fiberglass panels, tub and shower enclosures, and other composite materials where a durable, smooth surface is required.Recreational Vehicles: Used in RVs and trailers for exterior surfaces, providing both aesthetics and protection.
4. Properties:
Chemical Resistance: Gel coats are resistant to many chemicals, including water, solvents, and acids, making them suitable for harsh environments.UV Resistance: UV stabilizers in gel coats help protect the surface from sun damage, reducing yellowing and degradation over time.Flexibility: While gel coats are durable, they can be somewhat brittle compared to the underlying fiberglass, and they may crack or chip under impact.
5. Application Process:
Preparation: The surface to which the gel coat will be applied must be clean and free of contaminants. It is usually applied to a mold or directly to a prepared fiberglass surface.Application Methods: Gel coat can be applied using brushes, rollers, or spray guns. In marine and automotive applications, it is often sprayed on to achieve a smooth, even coating.Curing: After application, gel coat needs to cure. Curing can be done at room temperature or with the help of heat, depending on the specific formulation and application requirements. Curing time varies, but it usually takes several hours to achieve a full cure.
6. Maintenance and Care:
Cleaning: Regular cleaning with mild detergents is recommended to maintain the gel coat’s appearance and performance. Harsh chemicals or abrasive cleaners should be avoided.Repair: Minor scratches and chips in the gel coat can often be repaired using touch-up kits or by sanding and reapplying a new layer of gel coat.
Additional Information:
- Production Capacity: 10000
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| IV Value | 0.72 dl/g |
| Grade | Sheet Grade |
| Application | Sheet, Film, Strapping, Fibre |
| Form | Liquid |
| Usage/Application | FRP |
| Melting Point | 250 DegreeC to 265 DegreeC (482 DegreeF to 509 DegreeF) |
| End Use Process | Blow Moulding, Injection Stretch Blow |
| Color | Pale Yellow |
| Packaging Type | Cans |
| Material | PET (Polyethylene Terephthalate) resin |
| Packaging Size | 35kg |
| Country of Origin | Made in India |
PET (Polyethylene Terephthalate) resin is a widely used thermoplastic polymer with various applications in packaging, textiles, and industrial products. Here’s a detailed description of PET resin, including its characteristics, properties, and applications:
1. Composition and Types:
Basic Composition: PET resin is made from polymerizing terephthalic acid (TPA) and ethylene glycol (EG). This polymerization results in a polyester with a repeating unit of ethylene terephthalate.
Forms: PET resin can come in various forms, including:
Amorphous PET: Known for its clarity and used in applications like food and beverage containers.
Crystalline PET (or PETG): Known for its strength and impact resistance, used in more demanding applications.
2. Key Characteristics:
Clarity: PET can be produced with high transparency, making it suitable for applications where clear materials are desired.
Durability: It is known for its excellent tensile strength, impact resistance, and dimensional stability.
Chemical Resistance: PET has good resistance to many chemicals, including acids and bases, but can be susceptible to certain solvents.
Thermal Properties: PET has a melting point around 250°C (482°F) and a glass transition temperature of about 70-80°C (158-176°F).
3. Mechanical Properties:
Tensile Strength: PET resin typically has a tensile strength ranging from 50 to 80 MPa (7250 to 11600 psi), depending on the specific formulation and processing conditions.
Impact Resistance: PET is known for its good impact resistance, making it suitable for applications requiring durability.
4. Processing:
Injection Molding: Commonly used to create various plastic parts and components. PET’s ability to flow well during molding makes it suitable for complex shapes.
Blow Molding: Often used for manufacturing bottles and containers. PET’s clarity and strength make it ideal for packaging applications.
Extrusion: Used to produce PET films and fibers for textiles.
5. Applications:
Packaging: PET is extensively used in the packaging industry for bottles, containers, and trays due to its clarity, strength, and recyclability.
Textiles: PET fibers are used in clothing and upholstery. The material is known for its durability and resistance to wrinkling and stretching.
Automotive Parts: Used in automotive applications for components requiring high strength and resistance to wear and impact.
Electrical Insulation: PET’s electrical insulating properties make it useful in certain electrical and electronic applications.
6. Environmental and Recycling Considerations:
Recyclability: PET is highly recyclable and is one of the most recycled plastics globally. It can be reprocessed into new bottles, fibers, and other products.
Environmental Impact: While PET is recyclable, there are concerns about plastic waste and its environmental impact if not properly managed.
7. Safety and Handling:
Safety: PET is generally considered safe for food and beverage contact, but it’s important to follow manufacturer guidelines for specific applications.
Handling: During processing, PET can release fumes, so good ventilation and protective equipment are recommended.
**8. Special Properties and Variants:
High-Performance Variants: Modified PET resins, such as PETG (a glycol-modified version of PET), offer improved clarity, impact resistance, and processing characteristics for specialized applications.
Barrier Properties: PET can be coated or blended with other materials to enhance barrier properties for gases and moisture, extending the shelf life of packaged products.
Additional Information:
- Production Capacity: 10000
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| Form | Liquid Resin |
| Packaging Size | 35kg |
| Grade Standard | Industrial Grade |
| Type | Isopthalic |
| Brand | ISO POLY |
| Packaging Type | 35kg |
| Color | Translucent light Yellow |
| Viscosity | approximately 200 to 600 centipoise (cP) at room temperature (around 25 DegreeC or 77 DegreeF) |
| Melting Point | 200 DegreeC to 300 DegreeC (392 DegreeF to 572 DegreeF). |
FRP (Fiberglass Reinforced Plastic) ISO resin is a type of resin used in the production of composite materials. It combines an isophthalic polyester resin with fiberglass to create a strong, durable, and lightweight material. Here's a more detailed description:
Key Characteristics:-
Composition:
- Isophthalic Polyester Resin: This type of resin is known for its superior mechanical properties and chemical resistance compared to general-purpose polyesters. It’s particularly good at resisting degradation from environmental factors and chemicals.
- Fiberglass Reinforcement: The resin is reinforced with glass fibers, which provide strength and rigidity to the final composite material.
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Properties:
- Strength and Durability: The combination of isophthalic resin and fiberglass creates a material that is both strong and durable, making it suitable for demanding applications.
- Chemical Resistance: It offers good resistance to chemicals, making it useful in environments where exposure to acids, alkalis, or solvents might occur.
- Weather Resistance: It is resistant to weathering and UV degradation, which makes it ideal for outdoor or marine applications.
- Lightweight: Despite its strength, FRP ISO resin composites are relatively lightweight compared to metals.
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Applications:
- Marine Industry: Often used in boat hulls, decks, and other marine components due to its resistance to water and salt.
- Construction: Utilized in building panels, roof sheets, and structural components.
- Automotive: Used in parts and panels for its lightweight and strength characteristics.
- Industrial: Applied in tanks, pipes, and other equipment that require resistance to chemicals and wear.
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Processing:
- Curing: It typically requires a curing agent to harden the resin, which can vary depending on the specific formulation and intended use.
- Application Methods: It can be applied using various methods such as hand lay-up, spray-up, and filament winding.
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Advantages:
- High Strength-to-Weight Ratio: Provides strong structural performance while being lighter than many alternative materials.
- Versatility: Can be molded into complex shapes and sizes.
- Longevity: Offers a long service life with minimal maintenance.
FRP ISO resin is valued in industries where performance and durability are critical, making it a popular choice for high-performance applications.
Additional Information:
- Production Capacity: 10000
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