Polyethylene Pipes: Unbreakable Solutions for All Industries
Highest quality materials provide highest quality products
Monarch II Systems Model "MS" uses Chevron CP Chem™ high density polyethylene material. Often called the "third generation", this PE 4710 material has combined the high tensile strength of high-density polyethylene with superior long time performance properties.
High-density polyethylene materials in Monarch II Systems Model 'MS' offer exceptional strength and lasting performance.
High Density Polyethylene Power: Monarch II Systems Model "MS" utilizes Chevron CP Chem™ high density polyethylene, known as "third generation" PE 3408, offering unparalleled tensile strength and enduring performance properties.
Polyethylene Pipe Evolution:
Versatile Industry Adoption: In the 1950s, polyethylene pipes found initial use in oil fields and soon expanded to industries like power and mining due to their remarkable durability and chemical resistance.
Heat Fusion Method:
Reliable Joining Solution: Heat fusion was innovated as a necessity to bond polyethylene pipes, becoming the most effective, cost-efficient, and reliable joining method, ensuring supreme joint integrity over the years.
HEAT FUSION PIPE PROCESS
Clamping the Pipe
Securing the pipe pieces in axial alignment enables subsequent operations to be conducted effectively.
Facing the Pipe
Preparing the pipe ends involves facing them to create clean, parallel mating surfaces that are perpendicular to the centerline of each pipe.
Heating the Pipe
Heating the pipe involves creating a melt pattern that penetrates into both pipe ends, forming a secure connection.
Heating the Pipe
During the fusion process, the melt patterns are joined with a designated force, which is maintained until the joint cools down.
Be in the Know
Monarch Silencer/Separators* are designed using HDPE material, yielding a rust-free and less expensive silencer compared to carbon steel and stainless. We also manufacture Inlet and discharge manifolds, as well as custom tanks up to 84'' in diameter.