Equal Tee Connector
| ITC-HSN: | 87089900 |
| Minimum Order Quantity: | 500 |
| Accept Small Orders | No |
| Fulfilment Capacity (Per Month): | 10000 |
| Country Of Origin: | India |
An Equal Tee Connector is a three-way pipe fitting used to join three pipes of the same diameter at 90-degree angles, forming a “T” shape. It is designed to split or combine fluid flow in plumbing, hydraulic, pneumatic, or industrial piping systems, allowing fluid or gas to flow evenly through all connected branches.
Key Features:
Connection Type: Three-way, equal diameter ports
Material Options: Brass, stainless steel, carbon steel, PVC, nylon, and other plastics
Thread Types: BSP, NPT, or compression fitting options
Sizes Available: Common sizes from 1/8" up to 2" or more
Pressure Rating: Varies based on material; typically up to several thousand psi in metal variants
Surface Finish: Polished, plated, or coated options for corrosion resistance
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Additional Information
We are manufacturer and exporter of Equal Tee as per IS 9389, DIN 2353 and ISO 8434, we also manufacture customized Equal Tee.
The Equal Tee Connector is a fundamental pipe fitting designed to join three pipes or tubes of equal diameter at right angles, forming a “T” shape. This connector facilitates the even distribution or combination of fluid or gas flow within plumbing, hydraulic, pneumatic, and industrial piping systems.
Manufactured from a variety of materials including brass, stainless steel, carbon steel, PVC, and nylon, the equal tee connector offers excellent durability, corrosion resistance, and pressure handling suitable for a broad range of applications. The fitting is available with different thread types such as BSP, NPT, or compression fittings, ensuring compatibility with diverse piping systems.
Ideal for use in water supply networks, HVAC systems, chemical processing plants, and fluid power systems, the equal tee connector is engineered for easy installation and long-lasting performance. Its robust design ensures leak-proof connections and reliable operation under various pressure and temperature conditions.
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