Specialty Gaskets: What Are They and When Do We Use Them?

Specialty Gaskets: What Are They and When Do We Use Them?

For over 500 years, iron pipe joints have been connected in a variety of ways. From the first flanged joints developed in 1785 that used gaskets made with various materials to the evolution of the bell and spigot joint around 1950 that used caulking yarn or braided hemp.

Today’s modern push-on gaskets are comprised of different types of rubber compounds, and the development of the push-on gasket has proven to be instrumental to the success of the leak-free water and sewer joint. Let’s take a closer look at each specialty gasket available on the market today.

Special Jobs Call for Special Gaskets

Did you know that not all push-on gaskets are intended for all applications? In order to maximize the effectiveness in any application, it’s essential to use the proper gasket material for your specialty application.

Soil conditions, other types of pipelines near your installation location, and fluid temperature are primary factors when determining which specialty gasket is right for the job. Specialty gaskets are made of various types ofelastomers to resist whatever a job may require.

How Do You Select the Right Specialty Gasket for the Job?

First, be sure to use specialty gaskets provided by the pipe manufacturer. Additionally, be sure gaskets are NSF61 and NSF372 approved. Now, let’s take a closer look at the various specialty gaskets available, their differences, and their uses.

SBR (Styrene Butadiene)

Styrene Butadiene (SBR) gaskets are the most commonly used push-on joint gasket in the Ductile iron pipe (DI pipe) industry. Every piece of DI pipe is shipped standard with an SBR gasket. SBR is the closest to natural rubber of all the specialty gaskets.

Common uses for the SBR gasket are:

Drinking-Water; Sea Water; Sanitary Sewer; Reclaimed Water; Raw Water; Storm Water

The maximum service temperature for SBR push joint gaskets is 150 degrees Fahrenheit for water and sewer applications.

EPDM (Ethylene Propylene Diene Monomer)

EPDM gaskets are commonly used with Ductile Iron pipe when there are the presences of:

Alcohols; Dilute Acids; Dilute Alkalis; Ketones (MEK, Acetone); Vegetable Oils

Other acceptable services included are:

Drinking-Water; Sea Water; Sanitary Sewer; Reclaimed Water; Raw Water; Storm Water

EPDM push joint gaskets have one of the highest service temperatures of the five major specialty gaskets at 212 degrees Fahrenheit for water and sewer applications.

Nitrile (NBR) (Acrylonitrile Butadiene)

Nitrile gaskets are commonly used with Ductile iron pipe when there are the presences of:

Hydrocarbons; Fats; Oils; Fluids; Refined Petroleum

Other acceptable services include:

Drinking Water; Sea Water; Sanitary Sewer; Reclaimed Water; Raw Water; Storm Water

Nitrile push joint gaskets for a maximum service temperature of 150 degrees Fahrenheit for water and sewer applications.

Neoprene (CR) (Polychloroprene)

Neoprene gaskets are commonly used with Ductile iron pipe when dealing with greasy waste. Their use includes:

Drinking Water; Sea Water; Sanitary Sewer; Reclaimed Water; Raw Water; Storm Water; Viton, Fluorel (FKM) (Fluorocarbon)

These are considered the “Mack Daddy” of specialty gaskets — Viton gaskets can be used for:

Aromatic Hydrocarbons; Fuels Acids; Vegetable Oils; Petroleum Products; Chlorinated Hydrocarbons; Most Chemicals and Solvents

Other acceptable services include:

Drinking Water; Sea Water; Sanitary Sewer; Reclaimed Water; Raw Water; Storm Water

Additionally, Viton push-on joint gaskets have the highest maximum service temperature of 212 degrees Fahrenheit, making the Viton gasket the best overall and all-around specialty gasket for Ductile iron pipe. But being the best comes with a cost; this is the most expensive specialty gasket on the market.

Caring for Your Specialty Gaskets

Now, once your gaskets have been delivered to the job site, be sure to take proper care of your investment. Several factors can harm the overall performance of your gaskets.

Such negative factors include, but are not limited to:

Direct sunlight; Temperature; Weather; Dirt; Debris

The expected lifecycle of DI pipe is more than 100 years, and now that you’re able to identify the correct specialty gasket for any job site situation, you can be confident that your project is Iron Strong in the long run.