SN8 PIPES

SN8 PVC pipes refer to a specific type of polyvinyl chloride (PVC) pipe that conforms to a particular stiffness class, similar to the explanation provided earlier. The “SN” designation stands for “Stijfheid Nominale,” which translates to “Nominal Stiffness” in English, and the number “8” indicates the nominal stiffness class.

Here are some key features and information about SN8 PVC pipes:

USED IN DRAIN , SEWER SYSTEMS IN
RESIDENCES, COMMERCIAL COMPLEXES.

AVAILABLE IN RING FIT &  SOL FIT

WIDE RANGE , COMPATIBILITY

CHEMICAL AND CORROSION RESISTANCE

MAXIMUM FLOW RATE

SN8 PIPES

Conforming to IS: 15328

SN8 PIPE(SELFIT)
SN8 PIPE (RINGFIT)

APPLICATION

Applications of SN8 Pipes in different areas are:

Underground Drainage

SN8 PVC pipes are commonly employed in underground drainage and sewer systems where they are subjected to the pressures and stresses associated with buried installations.

Sewerage System

The stiffness of SN8 pipes helps them maintain their shape and structural integrity under the surrounding soil pressure.

MATERIAL

Material: PVC is a synthetic plastic polymer widely used for various applications due to its durability, corrosion resistance, and versatility. SN8 PVC pipes are designed for use in underground drainage and sewer systems.
Nominal Stiffness Class: The “8” in SN8 denotes the nominal stiffness class. This class signifies the pipe’s ability to resist deformation under load, and a higher number generally indicates a stiffer pipe.
Corrugated Design: SN8 PVC pipes often feature a corrugated exterior, which enhances their structural strength while maintaining flexibility. The corrugations also provide additional surface area, contributing to improved hydraulic performance.
Standards: The manufacturing and performance standards for SN8 PVC pipes are typically set by industry and regulatory bodies. Adherence to these standards is crucial to ensure that the pipes meet the necessary criteria for strength, durability, and other relevant characteristics.
Installation: SN8 PVC pipes are installed using appropriate methods, and they are designed to withstand the challenges of burial and backfilling during the installation process.