Unequal Tees

Do you know how to choose the right type of unequal tee when fabricating a piping system? Choosing the wrong type can be an expensive and time-consuming mistake that results in costly rework or replacement. It is important to understand what type of material will work best for your project and what sizes and shapes are available. In this blog post, we’ll delve deep into the different types of unequal tees that are out there on the market today, as well as discuss their particular characteristics and uses for various plumbing configurations. We’ll explore traditional materials like stainless steel, brass, copper and iron, plus novel solutions such as plastic composites, alloys, specialty metals and more! With an understanding of these options, you’ll be better prepared to decide whether to build an industrial job or simply replace old pipes in your home!

What is Unequal Tees?

Unequal Tees is an innovative clothing company that provides custom-fitted t-shirts for men and women. By utilizing a unique Tailor Fit system, the company allows customers to select their size, style and fabric preferences before placing an order. The result is a tailored piece of apparel that fits perfectly according to the wearer’s body measurements. In addition, Unequal Tees also offers exclusive designs and access to their patented 3D Virtual Fit Technology, allowing shoppers to try on different t-shirt styles from anywhere in the world without having to leave home. With its cutting-edge technology and quality personalized products, Unequal Tees has become a favorite among fashion-conscious consumers who demand comfort with individuality!

Types of Unequal Tees


Unequal tees can be made from different materials, depending on the requirements and the fluids flowing through them. Metals such as stainless steel, carbon steel, and brass are commonly used for unequal tees. Stainless steel ensures resistance to corrosion and high temperatures, making it ideal for fluid transfer in chemical processing, pharmaceutical, and food processing industries. Carbon steel, on the other hand, is more durable and robust and is used in industries such as oil and gas. Brass is popular for fluid transfer in plumbing systems because it can resist water corrosion.


Unequal tees come in different sizes to match different pipe configurations, and the pipe diameter and wall thickness determines these sizes. Different industrial applications require different sizes; the larger the pipe diameter, the larger the unequal tee required. In most cases, an unequal tee should support the mainline and the branch, determining the support size and the entire piping system.


The shape of an unequal tee also plays a critical role in determining its effectiveness in fluid transfer. Common shapes of unequal tees include tapered, round, and square. Tapered unequal tees ensure a smooth transition from a larger pipe diameter to a smaller pipe while maintaining fluid flow. Round unequal tees are ideal when adjusting the horizontal direction of fluid flow and when the mainline and the branch have different diameters. Square unequal tees are best suited for vertical adjustments of fluid flow since they are designed to effectively manage both the horizontal and vertical fluid flow direction.


Unequal tees are used in various industrial applications requiring fluid transfer. In the oil and gas industry, unequal tees transfer crude oil, natural gas, and refined petroleum products between different locations. In chemical and food processing industries, unequal tees transfer acids, gasses, and other fluids. They are common in water treatment plants, where pipe diameters and flow rates vary.


Unequal tees are essential components in piping configurations that require a smooth and consistent flow of fluids in different directions. The choice of materials, sizes, and shapes suitable for a specific piping configuration is crucial in ensuring the proper transfer of fluids with minimal energy losses. When choosing unequal tees, it’s important to consider the application, fluid type, and required flow rates to ensure effective process management and avoid potential accidents caused by mismanagement.