TABLE OF CONTENTS Polymers do not normally consist of a particular molecule with a unique molecular weight, but rather are a mixture of molecules with a molecular weight range that follows a particular distribution. With some types of polymers the picture is further complicated by the appearance of what are known as crosslinks. These are chemical bonds that link one polymer chain to another. Crosslinking will, therefore, increase the molecular weight of a polymer and, incidentally, decrease its solubility in organic solvents. These are some of the features that make it possible to produce for a given polymer, say polypropylene (PP), a range of grades of the polymer, each with different physical properties and end uses and each characterised by a different molecular weight distribution (MWD) curve and degree of crosslinking. The factors that control these parameters in a polymer are complex, and are linked with the details of the manufacturing process used. They will not be discussed further here.
The measurement of the molecular weight is a task undertaken in its own right by polymer chemists, and is concerned with the development of new polymers and process control in the case of existing polymers. Additionally, however, it is necessary to separate a polymer not into unique molecules each with a particular molecular weight, but into a series of narrower MWD fractions. This is required in order to obtain a more detailed picture of the polymer composition and structure, and these separated fractions may be required for further analysis by a...
