When it comes to high-performance polymers, TIVAR and UHMWPE are two of the most popular options on the market. While TIVAR is a brand that produces products made from UHMWPE with its own proprietary formula, UHMWPE is a material name that refers to ultra-high molecular weight polyethylene. In this blog post, we will explore the differences between TIVAR and UHMWPE, as well as introduce Shandong Lijiu New Material Co., Ltd’s unique UHMWPE product that boasts comparable performance to TIVAR’s brand products, but with a more competitive price.
What is TIVAR?
TIVAR is a brand of ultra-high molecular weight polyethylene products produced by — MCAM – Mitsubishi Chemical Advanced Materials (formerly Quadrant Engineering Plastics Products). TIVAR products are known for their high wear resistance, low coefficient of friction, and excellent impact strength. They are commonly used in industries such as agriculture, mining, and food processing, as well as in the production of conveyor systems, liners, and bearings.
What is UHMWPE?
UHMWPE, or ultra-high molecular weight polyethylene, is a type of polyethylene with a molecular weight of 3.5 million to 7 million g/mol, which is much higher than other types of polyethylene. It is known for its excellent abrasion resistance, high impact strength, and low coefficient of friction. UHMWPE is used in a variety of applications, including medical implants, military armor, and industrial components.
Comparison of TIVAR and UHMWPE
TIVAR and UHMWPE share many similar properties, such as high wear resistance, low coefficient of friction, and excellent impact strength. However, there are some differences between the two materials that make them suitable for
Different applications ofTIVAR and UHMWPE:
TIVAR products are generally more expensive than UHMWPE products. This is because TIVAR has its own proprietary formula that adds to the cost of production. On the other hand, UHMWPE is a standard material that is widely available and can be produced by many manufacturers, which helps keep the cost down.
TIVAR is a well-known brand in the industry and has built a reputation for producing high-quality UHMWPE products. This brand recognition is a significant advantage for TIVAR, especially for customers who value the trust and reliability that comes with a well-known brand.
TIVAR products are only available through authorized dealers and distributors, while UHMWPE products can be purchased from a variety of manufacturers and distributors. This can make it easier to source UHMWPE products and gives customers more options to choose from.
Customization: TIVAR offers more customization options for its products than UHMWPE. This is because TIVAR has its own proprietary formula, which allows for more precise control over the material’s properties and characteristics. And TIVAR always is the special blue color. However, UHMWPE can still be customized to some extent by adjusting the molecular weight and other parameters during the manufacturing process.
Shandong Lijiu New Material Co.,Ltd’s Unique UHMWPE Product
Shandong Lijiu New Material Co., Ltd is a manufacturer of UHMWPE products based in China. With a more competitive price, their products have similar properties to TIVAR products, including high wear resistance, low coefficient of friction, and excellent impact strength.
Shandong Lijiu New Material Co., Ltd’s UHMWPE products are also available in a wide range of sizes and shapes, which makes them suitable for various applications. Additionally, the company offers customization options, allowing customers to tailor the material’s properties to their specific needs.
In summary, TIVAR and UHMWPE are high-performance polymers with similar properties. TIVAR is a well-known brand that produces UHMWPE products with its own proprietary formula, while UHMWPE is a standard material that can be produced by many manufacturers. Shandong Lijiu New Material Co., Ltd’s UHMWPE product offers comparable performance to TIVAR’s brand products, but at a more competitive price. When choosing between TIVAR and UHMWPE, customers should consider cost, brand recognition, product availability, and customization options to determine which material is best for their specific application.