VCI stands for vapor corrosion inhibitor technology and in a nutshell, it’s the “secret sauce” we infuse into our products — primarily packaging materials like paper or poly film — to fight off the unwanted advances of rust. VCI is a class of chemical compounds that emit rust-inhibiting vapors into an enclosed air space. When metal is present, the VCI molecules form a nano-sized layer of protection on the surface of ferrous and non-ferrous metal that displaces moisture and prevents corrosion. At ARMOR, we make the analogy that VCI vapors knit together to form an invisible blanket that covers the surface of metal to shield it from moisture and the damaging effects of rust and corrosion.
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ARMOR engineered highly-specialized vapor corrosion inhibitors to create its unique VCI formulation called ARMOR VCI Nanotechnology. This “secret recipe” of VCI forms a rust-resistant protective shield on the surface of metal that is only a few molecules thick called a “nanocoating.”
Nanotechnology is described as the imaging, measuring, modeling and manipulation of matter in extremely small sizes of between 1 and 100 nanometers. To illustrate just how small a nanometer is, consider these examples:
ARMOR VCI Nanotechnology protects metal in ways that traditional oil and grease rust prevention methods can’t – it delivers a clean, dry ultra-thin and ultra-strong layer of protection on the surface of metal that is only 4-to-6 nanometers thick. The VCI molecules form a hydrophobic (aka, water-repelling) barrier that keeps dirt, water, moisture and other corrosion-causing contaminates away from metal. ARMOR’s VCI formulation forms a layer of protection that is undetectable and that does not alter metal properties — it does not change the look, weight or feel of metal parts; it does not compromise metal surface coatings or treatments; and it leaves metal parts ready for immediate use without cleaning or degreasing.
When you wrap or enclose a metal part in an ARMOR VCI product, VCI vapors are released and they attach themselves to the surface of metal to form a nano-sized layer of protection that repels water, moisture and other contaminates that cause corrosion. Traditional rust preventatives such as oil and grease offer a physical barrier to protect the surface of metal parts, but they are messy, time consuming to apply and remove, and are harmful to humans and the environment. Vapor corrosion inhibitors (VCI), such as ARMOR VCI Nanotechnology, work on a molecular level and they are clean, dry, easy-to-apply, and VCI protection dissipates once metal part is removed from VCI packaging, which eliminates the need for removal.
ARMOR combines it proprietary VCI Nanotechnology with materials such as Kraft paper, poly film, chipboard or foam pad to create clean and dry packaging materials with the added benefit of rust prevention. We infuse VCI into the packaging materials and manufacture them into rolls, sheets, VCI bags or tubing. When metal/metal parts are wrapped or covered in VCI sheets or enclosed in VCI bags or tubing and placed in an enclosed container for storage or shipping, the VCI vapors release and form a protective layer on the surface of metal that repels rust.
When used properly, ARMOR VCI can protect metal parts for years. The VCI length of protection varies based on factors such as temperature and humidity, airflow, production and process methods, the surface conditions of metal parts and whether VCI products are stored properly before their use. ARMOR offers a range of VCI products to protect a variety of metals and specific packaging requirements and ARMOR VCI products can also be combined or used together to extend the length of protection or to enhance the level of protection for more extreme conditions.
ARMOR VCI packaging materials are clean, safe and easy. ARMOR’s VCI formulations are considered safe from causing serious harm. When used as directed, ARMOR VCI products are safe to handle and once the VCI packaging is removed, the VCI can dissipate from the metal surface without risk of contact or inhalation. ARMOR strongly recommends that users follow the specific usage guidelines for handling and applying each VCI product to ensure users are safe.
Corrosion is the natural mechanism by which metal returns to its original state of ore. If metal is exposed to moisture/water and oxygen, it breaks down and corrodes. Corrosion of metal is an electro-chemical process. The flow of electrons from high-energy areas of metal to low energy areas takes place through a solution on the surface of the metal, capable of supporting corrosion. Corrosion will not take place without a conducting solution called an electrolyte – this conducting solution is caused by water, rain, moisture, and humidity. As little as 65% relative humidity will form an electrolyte, which can cause corrosion.
Nitrites are used in VCI in the form of sodium nitrite. Sodium nitrite has been used as a food preservative for over 100 years. It is found in the bacon you eat for breakfast and the salami you eat for lunch. It has been approved as a food additive for over two-thirds of a century. In fact, over 85% of the sodium nitrite present in our body is produced by our own body. In order to consume the MSDS reported hazardous dosage of sodium nitrite, for a normal VCI at 1.0 g/sq. ft. a person would have to EAT all of the sodium nitrite present in 31 sq. ft. of VCI treated paper. Not only does a person not ingest VCI paper, but rarely comes into contact with it, given the fact that workers should wear gloves to avoid the acidity that our fingerprints give off on the metal surfaces.
Similar to most ordinary household chemicals, sodium nitrite is not without risk. It simply must be handled in the same judicious fashion as such ordinary chemicals as household bleach, windshield washer fluid, floor wax, and several others. None of these components would be considered as “hazardous” within normal usage; however, sodium nitrite is often singled out as if it is. While sodium nitrite in VCI Paper should not be construed in the same light as a food preservative, it is not the lethal enemy that some make it out to be. It is used in the VCI industry because it is an excellent inhibitor of rust, especially for steel products. Armor Protective Packaging® manufactures several different VCI products, with and without sodium nitrite. Please contact an ARMOR representative for information and help in specifying the correct product(s) for your application.
VCI paper — such as ARMOR WRAP® VCI paper — is a neutral pH Kraft paper that is infused with VCI and is manufactured in sheets or rolls. When compared to VCI poly film, VCI paper has a faster diffusion rate – paper releases VCI faster, which allows VCI to form its protective shield on the surface of metal parts more quickly. That is not to say that VCI poly – such as ARMOR POLY® VCI film – is not an excellent rust preventative or that it does not have its place. VCI poly, which is a polyurethane film with added VCI that has been manufactured in rolls, sheets, bags, tubing and shrink film, offers strong, moisture barrier properties and provides a physical barrier to protect metal from dust and contaminants. While VCI paper diffuses VCI more quickly, VCI poly offers a greater level of barrier protection. Both have their advantages depending on the environment that metal is being shipped or stored in.
Ferrous metals contain iron and while they are known to be durable and strong, they also have a high carbon content that makes them more susceptible to rust. Examples of ferrous metals include steel, carbon steel and cast iron. Non-ferrous metals do not contain iron and they are known to be malleable, lightweight and less likely to rust. Examples of non-ferrous metals include aluminum, copper, brass, gold, silver and lead.
VCI and desiccants protect metal parts in very different ways using very different chemistry. One way to explain their differences is using a give-and-take analogy. ARMOR’s proprietary VCI Nanotechnology “gives” or emits a vapor that prevents corrosion by forming a protective layer on the surface of metal. Desiccants are drying agents that “take” or adsorb moisture from the packaging environment, which is one of the main causes of corrosion. Depending on the application and the particulars of the storage or shipping environment, one method may provide better results than the other or, VCI and desiccants are often used together to provide premium protection of metal parts in highly-demanding packaging environments.
In , ARMOR formally combined VCI and desiccant together to create its SMARTY PAK™. The SMARTY PAK design not only emits ARMOR VCI Nanotechnology, it uses a specialty desiccant that adsorbs moisture faster than traditional desiccants and holds on to the moisture even at high temperatures. SMARTY PAKs are available in three sizes, they deliver multi-metal protection, and they are non-dusting and lint-free making them ideal for use in applications where fibrous packaging materials are not allowed.
VCI paper — such as ARMOR WRAP® VCI paper — is a neutral pH Kraft paper that is infused with VCI chemistry and is manufactured in sheets or rolls with the option to add barrier coatings such as wax or poly for increased protection against moisture, grease/oils or a scrim coating for added durability and tear resistance. ARMOR WRAP is also available in different formulations including global, multi-metal protection and military-approved. The key advantages of ARMOR WRAP VCI paper are:
ARMOR WRAP VCI paper is infused with VCI on BOTH sides of the paper (different from the one-sided format manufactured by most VCI companies) to eliminate confusion as to which side of the paper to place against metal part when wrapping and to enhance interleaving capabilities within a pallet of metal parts. The result is less paper, less waste and less cost.
VCI Poly – such as ARMOR POLY® VCI film — is a polyurethane film with added VCI chemistry that has been manufactured in rolls, sheets, bags, tubing and shrink film for use in packaging and protecting metal parts from rust and corrosion. The key advantages of ARMOR POLY VCI film are:
Corrugated cardboard is made from paper. An early step in the method for making paper involves treating raw wood with chemicals to break it down into a fibrous pulp – it is an acidic process and it can leave an acidic residue on cardboard. One characteristic of corrugated cardboard is it is absorbent and when it absorbs water/moisture it causes the acidic residue to activate. If metal or metal parts in storage or transit are placed directly on or near damp corrugated cardboard, the moisture and acidity will induce corrosion on the surface of metal parts. Placing ARMOR VCI products between metal and corrugated cardboard will prevent corrosion and keep metals clean and rust-free.
Diverse needs call for diverse solutions. That is why ARMOR offers over 12 types of ARMOR WRAP® papers to choose from for your specific VCI needs. Some VCI manufacturers incorrectly claim that a single formulation will protect everything from steel to copper, others are vague or cannot tell you how much VCI is actually in the product. The fact is no single VCI formulation for paper can provide true corrosion-free protection for all metals and applications.
Due to the abundance of metals available, as well as the numerous coolants, washes, rust preventative oils and other substances used within a manufacturing process, it is important to check VCI compatibility with these substances. While it is rare, on occasion there may be factors that either react adversely with a particular VCI formula or react to diminish the performance of an ARMOR VCI product.
Metal parts are manufactured in different sizes, shapes and metal compositions. In addition, they are exposed to a variety of environmental conditions and vary greatly in the length of protection they require. VCI is not a one size fits all formulation or product and for that reason, ARMOR offers a wide range of VCI products to keep metal rust-free. ARMOR WRAP® VCI paper, ARMOR POLY® VCI film, chip board, foam pad, emitters and liquids are designed to ensure that metal is protected from corrosion while in process, in storage or in shipping/transport.
It is not required but, the more airtight the packaging the more effective the VCI protection. To optimize the rust-prevention benefits of VCI, airtight packaging is recommended. If packaging is less than airtight, VCI can protect metal parts but its effectiveness will be reduced. What is most important when using VCI packaging is keeping VCI vapors contained as much as possible — the more airtight the enclosure the more effective the VCI protection will be. Conversely, if the packaging is not airtight and the VCI vapors are able to escape, the strength of the VCI (and its ability to protect metal parts from rust) will diminish.
ARMOR carries a variety of military-approved papers that are listed on the U.S. Department of Defense Qualified Products List (QPL). These products are tested in accordance with, and labeled as, required in the Military specification MIL-PRF- (Wrapping Materials, Volatile Corrosion Inhibitor Treated, Opaque).
Human hands contain moisture and acidity that can be directly transferred onto metal parts and ultimately, cause corrosion. To prevent the transfer of moisture, acidity and other contaminants, employees must wear gloves when handling metal parts. The use of clean, cotton gloves (replaced once dirty), is essential to reducing overall rust and corrosion within the manufacturing process.
ARMOR offers full-service, in-house, accelerated corrosion testing at NO CHARGE to its customers. We use two, distinct methods to subject metal parts to accelerated conditions–a humidity chamber controlled at 98°F – 105°F and maintaining a relative humidity of 95 – 99% and traditional ovens with humidity features.
The ARMOR Stock & Ready® Program was designed to bring the ease and convenience of online shopping that we experience in our personal lives to the world of rust prevention/rust removal products. ARMOR tripled its in-stock inventory, simplified order placement to include no order minimums, and implemented quick processing and turbo-fast shipping to establish the ARMOR Stock & Ready Program where all rust prevention/rust removal products on our stock list are in-stock and ready-to-ship.
In our more than 40 years in business, ARMOR has never been contacted regarding an issue with VCI compatibility to non-metallic surfaces such as plastics, rubbers or wood. However, since there are so many possible combinations of ingredients, processes and types of these substrates it is impossible to guarantee their suitability with ARMOR VCI. Without question, rust prevention methods such as oils, greases and other liquid RPs (rust preventatives) have a much higher likelihood of reacting with plastics, rubbers and wood, but ARMOR strongly recommends a check of VCI compatibility with these substances for each application due to the complexity and number of plastics, rubber materials and woods in the marketplace.
With ARMOR VCI Nanotechnology, you will not see or feel any film, coating or finish on metal parts because our VCI delivers a clean, dry ultra-thin and ultra-strong layer of protection on the surface of metal that is only 4-to-6 nanometers thick. ARMOR’s VCI formulation forms a layer of protection that is undetectable and that does not alter metal properties — it does not change the look, weight or feel of metal parts; it does not compromise metal surface coatings or treatments; and it leaves metal parts ready for immediate use without cleaning or degreasing.
Keep VCI products in original and/or tightly-sealed packaging that is stored inside and away from the elements. For best results, do not leave ARMOR VCI product out in an open environment, either indoors or outdoors. Keep VCI product in airtight plastic packaging to preserve VCI and to protect product from contamination due to water, moisture, dirt, debris, etc… Store VCI products under shelter, securely inside a shipping carton, external bag, box or container and out of direct sunlight.
ARMOR can tell you exactly how much VCI is contained in our products to give your products the added insurance they need to remain corrosion free. For example, our papers contain a specified and measured amount of VCI additive, as measured in grams/square foot. This ability to monitor and control the amount is a testament to our quality and continued improvement. If a company cannot specify and consistently meet a given coating weight of VCI on a substrate, one runs the risk of having too little VCI to get the job done.
Armor Protective Packaging® corrosion management products provide approximately three years of protection for metal parts and surfaces when used properly in normal warehouse conditions. To ensure successful results, parts must be completely wrapped or enclosed – airtight packaging is the most effective for best results and longest protection time. Variable conditions such as temperature and humidity extremes, airflow, production and process methods, surface conditions of metal to be protected, customer employee training and other factors are impossible for ARMOR to control so it is impossible to guarantee a specific length of protection. Contact your ARMOR representative for details related to your specific application.
ARMOR uses a special mathematical formula for calculating the proper size VCI bag/bin liner/pallet cover to effectively protect metal parts. Not only is it important that the VCI bag is large enough to completely cover metal parts, but allowances must be given to ensure the VCI bag also has ample overage to allow for proper tie off and sealing. Insufficient overage can result in faulty seals and that can allow moisture to enter the bag while at the same time allowing VCI to escape. Accurate bag sizing and proper seals are critical in export where temperature fluctuations and transport handling conditions can be extreme.
ARMOR VCI products are not recommended for re-use for three primary reasons:
For those instances when re-use is necessary, be sure VCI is like your favorite pair of jeans — clean, dry, free of tears, holes, or other contaminants. It is also important to note that the length of time the packaging material has been exposed to the environment (especially high heat/humidity) will greatly impact the VCI’s effectiveness. Do not re-use VCI packaging more than two times and note, ARMOR cannot guarantee the amount of VCI that remains in the packaging or substrate upon re-use.
It’s widely known that recycling helps to reduce the pollution caused by waste, it reduces the use of raw materials and it positively impacts the environment. ARMOR WRAP VCI paper and ARMOR POLY VCI film are fully recyclable. In addition, ARMOR utilizes recycled content in the manufacture of its VCI products whenever possible and we do it without sacrificing performance or raising price.
Oil, lubricants, and/or transmission fluids typically do not have any adverse effects when used in combination with VCI other than they inhibit the full potential of the VCI. ARMOR VCI was developed to be used on parts that are clean and dry (free of RPs and oils). If parts are coated with these types of liquids, the VCI may not be able to penetrate through the coatings to get to the metal surfaces. ARMOR VCI, will however, protect recessed areas or other areas where the oil/lubricant/transmission fluid is not, thereby guarding against corrosion in that regard. ARMOR recommends lab testing if there is concern regarding compatibility.
ARMOR VCI products are available for purchase both through industrial packaging distributors and the ARMOR Stock & Ready® Program. Our Stock & Ready program was designed to bring the ease and convenience of online shopping that has become commonplace in our personal lives to the world of rust prevention/rust removal products. ARMOR tripled its in-stock inventory, simplified order placement to include no order minimums, and implemented quick processing and turbo-fast shipping to establish the ARMOR Stock & Ready Program where all rust prevention/rust removal products on our stock list are in-stock and ready-to-ship.
For an authorized ARMOR distributor nearest you, please contact Armor Protective Packaging® by , (517) 546- or toll-free at (800) 365-, by fax, (248) 573- or by at .
Additive masterbatch is one of the most important game-changers in plastic manufacturing, enabling essential enhancements that allow plastic products to meet specific performance and aesthetic needs. It achieves improved durability, functionality, and appearance in a variety of applications. Additive masterbatches applications support not just industries from packaging to automotive but also cost-effectiveness and environmental sustainability.
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Seizing this opportunity is extremely important for the sustainable development and cost efficiency of manufacturers. Let’s analyze in more detail the types, applications and properties of additive masterbatch to upgrade the quality of your project as quickly as possible
Additive masterbatch is a mixture of additives and carrier resin that enhances plastic properties during manufacturing. When combined with raw plastic materials, it creates products with specialized features such as UV resistance, anti-static properties, flame retardance, and increased durability. This versatile solution allows manufacturers to customize their plastic products according to specific applications and customer requirements, making it widely used across various industries.
By using additive masterbatch, plastic manufacturers can not only improve the functional properties of plastics but also modify their appearance and performance in challenging environments. This makes it an essential component in modern plastic manufacturing.
The components of additive masterbatches are complex but they are the ones that give plastics specific functional advantages. Here is some composition of additive masterbatch:
Remarkable benefits of additive masterbatch have been the key to the production of high-quality, efficient, and sustainable plastic products and. That is why it has been used by numerous industries. Here are some outstanding advantages of additive masterbatch in plastic manufacturing:
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Every type of additive masterbatch brings about plastic polymer characteristic differences to optimally satisfy diverse application requirements in different sectors. Here are common types of additive masterbatch and their applications:
EuP Egypt is proud to be one of the world’s leading suppliers of additive masterbatch. With many years of experience in the plastic material manufacturing industry, EuP Egypt carries the mission of bringing customers high quality products and the best material performance.
EuP Egypt’s additive masterbatch is produced from the most powerful and advanced production technology system. We offer a variety of additive masterbatch lines with the function of improving the properties of existing materials and improving production cost efficiency. Our team of skilled experts will always be ready to listen and share customers’ wishes to give the most accurate advice for each project.
Coming to EuP Egypt, you will have access to a variety of the world’s leading additive lines and a series of accompanying materials. Let’s take a look at some of our outstanding products as follows:
In conclusion, additive masterbatch is an essential raw material for the plastics industry, enhancing performance, toughness, and good looks of any product. With these additives, manufacturers are able to modify plastics to the desired use and more closely meet industrial standards and consumers’ needs.
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Additive masterbatch, often regarded as the unsung hero of the plastics industry, is a transformative tool that brings versatility and ingenuity to polymer materials. From enhancing color and protecting against UV radiation to making plastics more flame-resistant, this innovative technology is at the heart of creating materials for diverse applications.
In this blog, we will discover the world of additive masterbatch, unraveling its secrets, applications, and advantages. We will explore how masterbatch components work their magic within polymers, offering precision, cost-efficiency, and customization. From controlling moisture and odors to ensuring fire safety and anti-aging properties, additive masterbatch plays a pivotal role. Let’s get started!
Read more: What are plastic additives? 8 most common plastic additives in plastic industry
Additive masterbatch is a versatile and essential component in the field of polymer processing, providing a range of benefits and functionalities to polymer materials. In this section, we will delve into the definition of additive masterbatch, its components, and explore the various advantages it offers to industries and manufacturers.
Additive masterbatch, often referred to simply as masterbatch, is a concentrated mixture of pigments, additives, or other substances that are uniformly dispersed in a polymer carrier. The primary purpose of additive masterbatch is to enhance or modify specific properties of the base polymer, making it suitable for various applications. These masterbatches are available in various forms, including granules, pellets, or powders, and they play a pivotal role in the coloration, protection, and customization of plastic materials.
Read more: Masterbatch - definition, applications, market trends and more
Additive masterbatches consist of several key components, each serving a unique function in the modification of polymer materials. The main components typically include:
The polymer carrier serves as the base material for the masterbatch. It is usually made from the same polymer as the one being modified. For example, if the base polymer is polyethylene, the carrier polymer in the masterbatch will also be polyethylene.
Additives are substances incorporated into the masterbatch to impart specific properties to the polymer. These additives can be further categorized into various types:
The utilization of additive masterbatch provides a multitude of benefits to industries and manufacturers working with polymers. Some of the key advantages include:
Additive masterbatch ensures precise and consistent distribution of additives throughout the polymer, eliminating variations in the material's properties. This level of control is crucial for meeting specific performance requirements.
By using masterbatch, manufacturers can minimize waste and reduce the costs associated with handling and blending additives. It also simplifies inventory management by reducing the number of separate additive components needed.
Additive masterbatch allows for tailored modification of polymer properties. Manufacturers can choose from a wide range of additives to achieve the desired color, UV resistance, flame resistance, or other specific characteristics.
The use of masterbatch simplifies the polymer processing steps, ensuring efficient and uniform dispersion of additives. This, in turn, enhances the overall manufacturing process.
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Additive masterbatch enables the production of polymer materials with superior performance characteristics, making them suitable for a wide array of applications, from packaging materials to automotive parts and construction components.
In summary, additive masterbatch is a valuable tool for achieving precise and consistent modifications to polymer materials, offering a cost-effective means of customizing properties to meet the demands of various industries and applications. Whether enhancing color, protection, or performance, additive masterbatch plays a vital role in the world of polymer processing.
Additive masterbatch offers a wide array of options, each tailored to address specific needs and challenges in the world of polymer processing. In this section, we will explore various types of additive masterbatch, highlighting their functions and applications.
Read more: Masterbatch - definition, applications, market trends and more
Function: Lubricating additive masterbatch is designed to reduce friction between polymer surfaces, improving their slip and handling characteristics. It ensures smooth processing during manufacturing, preventing materials from sticking to equipment.
Applications: This type of masterbatch is widely used in the production of films, sheets, and molded products, where easy release and handling are essential.
Function: Flexible plasticized additive masterbatch enhances the flexibility and pliability of polymer materials, making them more suitable for applications requiring flexibility. It is commonly used to achieve a balance between strength and flexibility.
Applications: Flexible plasticized masterbatch finds its applications in products such as cables, hoses, and soft-touch components in automotive interiors.
Function: Stability-enhancing masterbatch is formulated to improve the stability of polymers, preventing degradation due to heat or exposure to oxygen. It prolongs the material's lifespan and maintains its integrity.
Applications: This masterbatch type is vital in applications where long-term durability and stability are essential, such as outdoor furniture, construction materials, and automotive components.
Function: Anti-aging additive masterbatch helps polymers withstand the effects of aging, including UV radiation, weathering, and temperature fluctuations. It extends the material's life and maintains its appearance.
Applications: Commonly used in outdoor products like roofing materials, pipelines, and garden furniture, anti-aging masterbatch ensures materials retain their quality over time.
Function: Anti-static masterbatch prevents the buildup of static electricity on the surface of plastic materials. This prevents dust and other particulate matter from adhering to the product, keeping it clean and dust-free.
Applications: Essential for electronics and cleanroom environments, anti-static masterbatch is used in the production of products like computer housings and packaging for sensitive electronic components.
Function: Fire retardant additive masterbatch enhances the fire resistance of polymers, reducing their flammability and the spread of flames. This is crucial for safety in applications where fire hazards are a concern.
Applications: Fire retardant masterbatch is commonly employed in building materials, cables, and transportation components, where fire safety is paramount.
Function: Porosity-increasing masterbatch is used to create porous structures within polymer products. This is achieved by incorporating special additives that promote porosity, allowing the passage of air or fluids.
Applications: Products that require controlled permeability, such as breathable films, filters, and drainage materials, benefit from the use of porosity-increasing masterbatch.
Function: Deodorizing additive masterbatch is formulated to eliminate or reduce undesirable odors associated with plastic materials, enhancing consumer comfort and satisfaction.
Applications: Often used in products like automotive interiors, packaging, and household items, deodorizing masterbatch ensures that products maintain a pleasant odor or remain odor-free during use.
When it comes to acquiring top-tier plastic solutions that excel in both performance and sustainability, EuroPlas stands out as a global industry leader. With over 15 years of expertise, EuroPlas has solidified its reputation for delivering innovative and eco-conscious products to customers in more than 85 countries.
As a masterbatch manufacturer based in Vietnam, we take immense pride in our world-class facilities, utilization of unique natural resources, and the application of cutting-edge technology. These assets empower us to tailor products for a wide array of industries and applications. At EuroPlas, we remain unwavering in our commitment to shaping a sustainable future by providing cost-effective and eco-friendly options that cater to the ever-evolving needs of our global clientele.
As one of the trusted plastic additives suppliers, EuroPlas offers a comprehensive list of plastic additives designed to enhance various aspects of polymer materials. Our range of additives includes:
At EuroPlas, we understand that each application is unique, and that's why we're here to help you choose the right additive type and usage rate to create the final product according to your specific requirements.
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