Our Products

PVC Resin

Polyvinyl chloride, commonly known as PVC, is a synthetic polymer made from vinyl chloride monomers. PVC resin is the raw material used in the production of various PVC-based products e.g., Pipes & Fitting, Vinyl Flooring, Cables & Wires, Vinyl Sliding, Windows Profiles, Medical Devices, Artificial Leather, Bags, and Accessories. It's a white or light-colored powder with a range of applications due to its versatility, durability, and cost-effectiveness. We offer a wide selection of PVC Resin at competitive prices ex stocks and also facilitate direct imports ex our renowned manufacturer ex USA, Japan, and Malaysia.

Polyethylene Resin

Polyethylene resin is a lightweight plastic material that is widely used in a variety of applications. It is strong, durable, and corrosion-resistant, making it the ideal choice for many industrial and commercial applications. Furthermore, it is recyclable and cost-effective, making it an attractive option for many businesses. It is available in a variety of grades and densities, ensuring that you have the perfect product for your needs. IBC facilitates the direct import of PE Resin from world-renowned manufacturers ex Japan and the Far East.

One Pack Stabilizers

One-pack stabilizers for PVC processing are specialized additives that are used to enhance the stability and performance of polyvinyl chloride (PVC) during various processing stages, such as extrusion, injection molding, and calendering. These stabilizers are formulated with a combination of different components to provide multiple functions at different stages of processing, including heat stability, good flow rate, and metal deactivation. We offer a wide selection of one-pack stabilizers at competitive prices ex stocks

Polypropylene Resin

Polypropylene resin is a type of thermoplastic made from propylene monomers that is widely used in the plastics industry. It is lightweight, durable, and resistant to many chemicals and temperatures. It is also an economical choice for a variety of applications, from medical devices to automotive parts. Polypropylene resin is available in a variety of forms, including injection molding grade, extrusion grade, and film grade. It is also used in many consumer items, such as food storage containers, furniture, and carpets. We offer a wide selection of different grades of polypropylene resins, suitable for different applications for direct imports ex our world-renowned manufacturers in Taiwan and Japan.

Nylon 6 Resin

Nylon 6 Resin is a strong and lightweight plastic that is ideal for injection molding and extrusion. It has great resistance to abrasion and a wide range of chemical solvents and oils. It has good mechanical properties and excellent electrical properties, allowing it to be used for high-performance applications. Additionally, it has high impact strength and dimensional stability over a wide range of temperatures. IBC facilitates the direct import of Nylon 6 Resin from world-renowned manufacturers ex Japan.

Tin Stabilizers

Tin-based stabilizers are a class of additives used in the processing of polyvinyl chloride (PVC) to enhance its stability and performance during various manufacturing processes, such as extrusion, injection molding, and calendering. These stabilizers contain tin compounds as their primary active ingredients and are known for their excellent heat stability, lubricating properties, transparency, and long-term stability and overall processing efficiency. They have a proven track record in enhancing the processability and performance of PVC products across a wide range of applications.

Impact Modifiers for Plastics

Impact modifier finds wide application in multiple industries, serving as a vital additive for enhancing the toughness of polyvinyl chloride (PVC) resins and engineering plastics. Notably, it is utilized in the following sectors:

1. Construction:

High impact pipes and fittings.

PVC door and window frames.

2. Packaging:

Transparent packaging for tablets.

Blister packages for stationery, toys, and general merchandise.

Key Characteristics of Impact Modifier for Rigid or Semi-Rigid PVC Compounds are:

1. Remarkable high impact strength enhancement.

2. Produces glossy surfaces and crystal-clear end products.

3. Facilitates seamless processing in blow molding, extrusion, injection, and calendaring.

4. Yields distinct and deep vacuum forming results.

Methyl Methacrylate-Butyl Acrylate Copolymer types:

Demonstrates excellent weather resistance.

Provides high impact strength.

Reduces heat shrinkage, promoting dimensional stability.

Impact modifier stands as a versatile solution, elevating the performance of PVC resins and engineering plastics across various applications. Its effectiveness in improving impact resistance, ease of processing, and maintaining transparency makes it an indispensable component in numerous industries

Internal & External Lubricants

Lubricants are additives used in the processing of polyvinyl chloride (PVC) to improve its flow characteristics and reduce friction during various stages of production. There are two main types of lubricants: internal lubricants and external lubricants.

1. Internal Lubricants:

Internal lubricants are those that are incorporated directly into the PVC polymer matrix. They migrate to the polymer's surface during processing and reduce the interaction between PVC molecules, making the material more fluid. Internal lubricants are often used in PVC processing to improve melt flow, reduce torque during extrusion, and prevent sticking to processing equipment. Fatty Acid Esters, Metal Soaps, Polyethylene Waxes and Polyethylene Glycol (PEG are commonly used as Internal Lubricants.

2. External Lubricants:

External lubricants are added to the PVC compound during mixing and provide a lubricating layer on the surface of the PVC particles. They are intended to reduce friction between the PVC compound and processing equipment. External lubricants do not become part of the polymer matrix. Stearates,

Polyethylene Wax, Acrylic Polymers, and Mineral Oils are commonly used as external lubricants.

Performance of Internal and External Lubricants:

Internal lubricants primarily affect the flow characteristics of the PVC melt. They improve melt flow, reduce processing temperature, and enhance the release of trapped air during processing. However, excessive use of internal lubricants can lead to surface defects and reduce mechanical properties.

External lubricants are more focused on reducing friction between the PVC compound and processing equipment. They help prevent sticking, reduce wear on machinery, and improve the overall processing efficiency. However, too much external lubricant can lead to surface defects and poor fusion of PVC particles.

It's important to note that the choice and concentration of lubricants depend on the specific processing conditions, the desired properties of the final product, and the type of equipment being used. Balancing the use of lubricants is essential to achieve optimal processing and product quality.

All lubricants are available ex-stocks for sale.

Bioplastics

Bioplastics are a type of plastic derived from renewable biomass sources, such as plants, agricultural byproducts, and microorganisms. They are designed as an eco-friendly alternative to traditional petroleum-based plastics derived from non-renewable fossil fuels and are a major contributor to environmental pollution and climate change. Bioplastics offer several advantages over conventional plastics

1. Renewable Resource: Bioplastics are made from renewable resources like corn, sugarcane, potato starch, and algae. This means they can be produced sustainably without depleting finite fossil fuel reserves.
2. Reduced Carbon Footprint: Bioplastics typically have a lower carbon footprint compared to traditional plastics. The production of bioplastics often involves capturing carbon dioxide during the growth of biomass feedstocks, offsetting emissions.

7. Energy Efficiency: The production of bioplastics can be more energy-efficient than traditional plastics, especially when they are derived from agricultural byproducts or waste materials.
8. Innovation Potential: Ongoing research and development in bioplastics are leading to the creation of new materials with improved properties, such as greater durability and heat resistance, expanding their potential applications.
9. Public Perception: Bioplastics are often perceived as a more environmentally friendly alternative, which can enhance a company's image and appeal to environmentally conscious consumers.

Processing Aids for Plastics

Processing Aids (PAs) are additives used in the processing of polyvinyl chloride (PVC) to improve various properties of the final product. They promote the fusion and gelation of PVC by enhancing the interaction between PVC molecules and aiding in the overall processing. Here's how processing aids can improve different properties of PVC products:

Reduced Process Temperature: PAs allow for processing PVC at lower temperatures, minimizing the risk of PVC degradation and maintaining product integrity.
Prevention of PVC Degradation: By aiding in PVC fusion and gelation, processing aids prevent the breakdown of PVC molecules, reducing burnt resin and maintaining long-run property stability.
Extended Machine/Die Life: Processing aids help reduce the formation of hydrogen chloride during processing, which can extend the lifespan of processing equipment.
Energy Efficiency: Lower process temperatures enabled by processing aids lead to reduced energy consumption during PVC processing.
Improved Mechanical Properties: Processing aids enhance properties like elongation, bending strength, and impact strength, resulting in stronger and more durable products.
Enhanced Surface Finish: Processing aids can improve the surface roughness of PVC products, leading to a glossier finish.
Uniform Molten State: PAs facilitate uniform melting of PVC, even when fillers are used, enhancing the reliability of the process and product.
Increased Productivity: Improved melt flow and reduced PVC degradation lead to higher productivity and output.
Reduced Flow Marks and Silver Streaks: Processing aids can help mitigate visual defects such as flow marks around injection gates and silver streaks on the product surface.
Metal Release: Processing aids contribute to smoother surface finishes, reducing the likelihood of metal adhesion or release issues.

In summary, processing aids play a crucial role in enhancing the processing and properties of PVC products. They promote fusion and gelation, enabling manufacturers to achieve consistent quality, improved mechanical properties, and energy-efficient processing while reducing defects and extending the lifespan of processing equipment.

Different grades for specific applications are available ex-stocks for sale.

Chloroprene Rubber

Chloroprene rubber, also known as Neoprene rubber, is a synthetic material created by combining chloroprene monomers through polymerization. It possesses a unique blend of physical and chemical attributes that render it valuable for diverse applications. Resistant to various environmental factors like ozone, sunlight, oxidation, and water, it sustains its flexibility across a broad temperature spectrum. Additionally, it demonstrates strong resistance to oil and chemicals.

Chloroprene rubber finds widespread use across multiple industries due to its versatility. It's employed in Industrial Applications, Automotive Industry, Electrical Insulation, Sporting Goods, Medical Devices, Construction Industry, Adhesive and Sealant Industry, Vibration Isolation, and Consumer Goods. Its adaptability, durability, and ability to withstand diverse environmental conditions make it a preferred choice across numerous industries where both flexibility and resilience are essential.

IBC facilitates the direct import of Neoprene Rubber from world-renowned manufacturers ex Japan and keeps the stocks availability as well

3. Biodegradability: Some bioplastics are biodegradable, meaning they can break down naturally into harmless substances like water, carbon dioxide, and organic matter under specific conditions. This can reduce the persistence of plastic waste in the environment.
4. Reduced Dependency on Petroleum: By shifting away from petroleum-based plastics, bioplastics help reduce our reliance on fossil fuels, which are both finite and contribute to greenhouse gas emissions.
5. Lower Toxicity: Bioplastics generally exhibit lower levels of toxicity during production and disposal compared to traditional plastics, which often involve the use of hazardous chemicals.
6. Versatility: Bioplastics can be engineered to have properties similar to traditional plastics, making them suitable for a wide range of applications, including packaging, textiles, automotive parts, and more.

However, it's important to note that not all bioplastics are biodegradable, and some may still require specific conditions for proper disposal or recycling. Additionally, there are debates about the sustainability of using agricultural land for bioplastic feedstock production, as it may compete with food production and lead to other environmental concerns.

In summary, bioplastics offer several advantages over traditional petroleum-based plastics, including being made from renewable resources, having a reduced carbon footprint, and the potential for biodegradability. Nonetheless, the sustainability of bioplastics depends on various factors, including their sourcing and disposal methods, and ongoing research and development efforts are aimed at addressing these challenges.