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Wie beeinflusst die MAH-Funktionalisierung die mechanischen, thermischen und chemischen Beständigkeitseigenschaften von Polymeren?
The ability of maleic anhydride (MAH) to improve the mechanical, thermal, and chemical resistance qualities of polymers has attracted a lot of interest in the field of polymer research.

1. Improving Mechanical Properties

MAH functionalization improves the tensile strength, flexural strength, and impact resistance of polymers. greater interfacial adhesion and greater load transfer between polymer chains are both caused by the presence of MAH moieties in the polymer matrix. The increased mechanical qualities brought about by the higher interfacial adhesion make MAH-functionalized polymers suitable for uses demanding great strength and endurance.

2. Increasing Thermal Stability

By raising the decomposition temperature and lowering the rate of thermal degradation, the addition of MAH to polymers improves their thermal stability. The establishment of covalent connections between the MAH moieties and the polymer chains gives MAH-functionalized polymers greater heat stability. This covalent bonding limits the mobility of polymer chains, lowering the likelihood of thermal breakdown and raising the material’s general thermal stability.  

3. Increasing Chemical Resistance

Polymers with MAH functionalization also have better chemical resistance. The polymer matrix’s crosslinking density is increased by the inclusion of MAH moieties, increasing its resistance to chemical attack. This enhanced crosslinking density decreases the likelihood of chemical degradation by limiting the migration of chemical species into the polymer. In sectors including automotive, aerospace, and chemical processing where resistance to corrosive chemicals is essential, MAH-functionalized polymers are used.

4. Impact on Polymer Processing

The MAH moieties in polymers have an impact on how they process. In comparison to unmodified polymers, MAH-functionalized polymers have better melt flow characteristics, a lower melt viscosity, and are easier to process. This is explained by the fact that the presence of MAH moieties reduces the intermolecular interactions between polymer chains. MAH-functionalized polymers are more appropriate for several processing methods as injection molding, extrusion, and blow molding due to their better processability.

5. MAH-Functionalized Polymers Applications

MAH-functionalized polymers are highly sought-after in numerous industries due to their distinctive mix of improved mechanical, thermal, and chemical resistance qualities. They are used in coatings, packaging, electrical and electronic equipment, and automobile parts. Manufacturing strong and light products that can survive extreme weather conditions and chemical exposure uses MAH-functionalized polymers. Polymer mechanical, thermal, and chemical resistance characteristics are strongly influenced by MAH functionalization. Polymers are excellent for a variety of applications due of the increased mechanical strength, thermal stability, and chemical resistance brought about by the addition of MAH moieties. The development of innovative materials in a variety of industries is now possible thanks to the increased characteristics and processability of MAH-functionalized polymers. New MAH-functionalized polymers with even better qualities will certainly be found as a result of additional research and development in this area.
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