Jindal MLC Pipes combine the advantage of metal and plastic pipes and eliminate the disadvantages of both materials at the same time. The aluminum core is absolutely diffusion tight and reliably prevents oxygen or gases from permeating into the pipe. It compensates and reduces snap-back forces and heat expansion with changes in temperature. Jindal MLC Pipes consist of an overlapped aluminum core with an inner and outer layer of polyethylene – PE. All the layers are permanently bonded together by intermediate adhesive layers. The aluminum thickness of Jindal MLC Pipes has been selected to meet compressive and flexural strength requirements.
PE(Polyethylene) Layers in Jindal MLC pipes provides all the advantages of plastic pipes such as, corrosion resistance scale resistant ,chemically inert ,smooth surface for better flow properties ,toxic free & rust free.
The Adhesive Layers in Jindal MLC Pipes plays an important roleas it perfectly bond the metal and plastic,absorbs eventual shifting movements between the plastic and the mental, likely to occur in opposite directions and gives the Composite pipe the advantages of a single component pipe.
The Aluminum Layer in Jindal MLC Pipes play an important role in additional to all the inherent advantages of plastic pipes the inclusion of the metallic pipe gives Composite pipe the qualities of metal, such as it act as permeation barrier against entry of contaminants, Limits oxygen permeability to virtually zero, Provide absolute tightness, mechanical resistance to deformation, Dilation within reasonable limits, Increases malleability so bendable and Low heat expansion.
Corrosion / rust resistant
Improved air / gas quality
Food – grade material
Smoot surface for better flow
Perfectly bonds PE and AL layer
Absorbs eventual shifting movement Between PE and AL Layers
Makes the pipe function as single Component pipe
No memory – stays where it lays
High mechanical strength
High temperature withstanding Capability
Permanent permeation barrier
Low thermal linear expansion
Mechanical resistance to deformation