As the third most widely used thermoplastic polymer, polyvinyl chloride (PVC) has made significant inroads across various industries in recent years. From construction to a range of commercial sectors, PVC’s broad application is undeniable. However, using PVC in its raw form isn’t always feasible, and that’s precisely where PVC additives become essential. This blog of TLD Vietnam will elaborate on the applications of different PVC additives.
PVC Additives Definition
Using raw PVC alone often doesn’t meet the full range of performance, durability, or processing requirements needed in commercial applications. That’s where PVC additives come in.
PVC additives are chemical compounds added during the production process to modify, enhance, or improve specific properties of PVC, such as flexibility, thermal stability, UV resistance, flame retardancy, or ease of processing.
The combination of base PVC resin with the right additives results in a finished product that meets the technical standards for various end uses. To ensure optimal performance, it’s important to work with a trusted PVC additive manufacturer who can provide the right additive solutions tailored to your needs. Let’s take a look at some of the most commonly used PVC additives.
PVC Stabilizers
Lead stabilizer
Enhancing Heat Resistance
Improving Durability
UV Protection
Another key challenge for PVC products is prolonged exposure to UV radiation, which can lead to material degradation over time. Lead stabilizers provide essential UV protection, helping to minimize the damaging effects of sunlight and extend the lifespan of PVC used in outdoor environments. This added UV resistance is particularly valuable in applications like outdoor signage, roofing, and window profiles, where constant sun exposure can compromise both performance and appearance. By using lead stabilizers, manufacturers can deliver PVC products that stay durable and visually intact for longer periods.
Ca-Zn stabilizer
Calcium-Zinc (Ca-Zn) stabilizers are a non-toxic and environmentally friendly alternative to traditional lead-based stabilizers in PVC formulations. Composed primarily of calcium and zinc compounds, these stabilizers are widely used in applications that demand compliance with international environmental standards such as RoHS and REACH.
Most notably, Ca-Zn stabilizers are free from heavy metals, making them significantly safer for human health and the environment. They are fully compliant with global safety and sustainability regulations, unlike lead stabilizers, which are increasingly banned or restricted. Ca-Zn stabilizers also offer better initial color stability and improved whiteness in finished products.
PVC Lubricants
Internal Lubricants
Internal lubricants work within the polymer matrix, acting as softeners or partial plasticizers. Unlike traditional plasticizers, they are less compatible with PVC due to their longer carbon chains and lower polarity, allowing only a limited number of lubricant molecules to penetrate the polymer chains. This reduces intermolecular attraction, lowers melt viscosity, and promotes chain slippage, enhancing flow.
In processes like injection molding, internal lubricants reduce shear-induced burning by minimizing friction between particles before the PVC melts. This leads to improved mold filling, reduced back pressure in extrusion, and better control over part dimensions. The result is a smoother surface finish, reduced sink marks, and enhanced mechanical properties.
External Lubricants
External lubricants work by forming a thin molecular layer on the surface of processing equipment or molten PVC, serving as a barrier that reduces friction between the material and machine parts. Their effectiveness depends on factors like melting point and processing temperature, with longer carbon chains generally offering better lubrication by increasing separation between contact surfaces.
External lubricants ease the movement of PVC stock through machinery, preventing the formation of thick layers that could burn or stick to hot metal surfaces. They also delay gelation, extending fusion time and enhancing the thermal stability of PVC, resulting in a glossy finish on the final product.
TLD Vietnam, with many years of experience, provides chemicals and additives. Backed by a team of highly experienced industry experts, we provide technical support and customized materials formulated specifically for your business. Exploring the PVC lubricants of TLD Vietnam in the following section.
Zinc Stearate
Calcium Stearate
Calcium stearate is a versatile lubricant that minimizes friction between particles and surfaces, enhancing powder flow and preventing material adhesion during processing. In plastics, it supports smooth extrusion and molding, improving processing efficiency and product quality.
Stearic Acid
Stearic acid is an excellent lubricant used in plastics and polymer manufacturing. By reducing friction, it simplifies and accelerates processing, ensuring smoother production and high-quality finishes.
PE Wax
Polyethylene wax is a highly effective lubricant used across industries to reduce friction between polymer chains. As both an internal and external lubricant, it enhances molding and extrusion efficiency, leading to faster production and superior surface finishes.
G60
G60 is a specialized internal lubricant designed for rigid and semi-rigid PVC products, such as transparent sheets, bottles, low-foaming profiles, and wire/cable sheaths. It reduces melt viscosity, improves resin flow, and imparts transparency, making it ideal for specific PVC applications.
PVC Impact Modifiers
Enhanced impact resistance
Improved weather and UV resistance
CPE boosts PVC’s ability to withstand weather by offering strong resistance to ultraviolet (UV) rays, ozone, and oxidation. Its chlorinated composition enables PVC to endure extended exposure to sunlight and harsh conditions without deteriorating or fading. As a result, CPE-enhanced PVC products retain their strength and appearance over time, making them ideal for outdoor uses such as siding, fencing, and exterior panels.
Better low-temperature flexibility
A significant benefit of CPE in PVC formulations is its ability to maintain flexibility in cold temperatures. Unmodified PVC tends to become brittle and prone to cracking in chilly environments, but CPE-modified PVC retains its elasticity, performing reliably in freezing conditions. This makes it suitable for products like cold storage doors, outdoor cables, and flexible tubing in refrigeration systems.
Flame resistance
CPE enhances the flame resistance of PVC compounds thanks to its high chlorine content, which helps prevent burning. When exposed to fire, CPE releases hydrogen chloride gas, acting as a flame suppressant and forming a protective char layer that slows heat and oxygen transfer. This feature is especially valuable in applications requiring strict fire safety standards, such as electrical insulation, building materials, and protective coverings.
Effective processing compatibility
CPE integrates well with PVC during melt blending and processing, allowing easy incorporation into various formulations without issues like phase separation or instability. It disperses evenly during extrusion or molding, ensuring a consistent material structure and reliable performance. This compatibility enables manufacturers to achieve the desired balance of mechanical and thermal properties in the final product with minimal complexity.
PVC Applications
PVC has been used as a versatile material to manufacture construction goods and accessories for a long span of time. From window seals to flooring and roofing solutions, the usage of PVC is evident in different important aspects of construction.
PVC is an outstanding element for various piping solutions. The element is used for pipe molding, hose manufacturing, and tubing.
Conclusion
The performance and versatility of PVC heavily rely on the intelligent use of additives that enhance its thermal stability, processability, impact resistance, and longevity. From stabilizers like lead and calcium-zinc to essential lubricants such as zinc stearate, PE wax, and stearic acid, each additive plays a vital role in tailoring PVC for specific applications. Impact modifiers like CPE further extend the material’s functionality, enabling it to perform reliably in demanding environments.
As industries increasingly demand safer, more efficient, and environmentally responsible materials, choosing the right combination of PVC additives is more critical than ever.
At TLD Vietnam, we offer a comprehensive portfolio of high-quality PVC additives tailored to your manufacturing needs. Backed by years of industry expertise and a commitment to technical excellence, we are your trusted partner in optimizing PVC performance across a wide range of applications. Let us help you unlock the full potential of your PVC products with customized additive solutions that deliver lasting value.
