BLOG | 07 March 2024
Molecular Weight and The Effects on Polymer Properties
Author Insights from our Engineers at Bamberger Amco Polymers
Molecular weight can have a huge impact on a material’s final properties. Understanding this materials characteristic can help you better position the proper material for your application. Looking for assistance? Contact Bamberger Amco Polymers today.
What is Molecular weight?
When we talk about molecular weight in terms of polymers, we are really talking about the length of the individual chains. Molecular weight is the average weight of the molecules that make up a polymer and gives an indication of the length of the polymer chains
The polymerization process is subject to variation so there is no single chain length, there is actually a wide range of lengths, so when we discuss molecular weight, we really mean the average molecular weight of the material. This average is found by measuring samples of the material as it is produced.
How does Molecular weight affect a material’s properties?
Molecular weight and MWD (or molecular weight distribution) determine the polymers properties
This table shows the effects of molecular weight on selected properties. In general, as molecular weight increase the strength, toughness and chemical stress crack resistance increase. Lower molecular weight will typically flow easier.
TABLE 1
This table shows the influence of melt flow on the impact properties of polycarbonate. With increasing melt flow index, there is a significant drop off in notched Izod impact properties. Low Molecular Weight polymers have lower properties due to lack of chain entanglement and higher molecular mobility.
TABLE 2
Shorter chains have more end groups which increase free volume and molecular mobility which makes it easier for the polymer chains to respond to stresses. This is why the strength and modulus are reduced for lower MW (higher melt flow) polymer.
