"Copolymerization" Example Sentences
1. The copolymerization of styrene and butadiene produces a tough and durable material.
2. Researchers are studying the copolymerization of different monomers to improve material properties.
3. Copolymerization can result in homopolymers or copolymers, depending on the reaction conditions.
4. The rate of copolymerization can be influenced by the type and concentration of catalyst used.
5. Random copolymerization produces polymers with varying chemical properties throughout the material.
6. Block copolymerization can result in materials with distinct blocks of different chemical compositions.
7. The copolymerization of olefins can lead to polymers with high thermal stability.
8. The mechanism of copolymerization involves the addition of two or more monomers to form a polymer chain.
9. Gradient copolymerization produces materials with a gradual change in chemical composition along the material.
10. The properties of copolymers can be tailored by adjusting the ratio of monomers used in copolymerization.
11. Copolymerization of polar and nonpolar monomers can result in materials with amphiphilic properties.
12. The kinetics of copolymerization can be modeled using mathematical equations and simulation software.
13. Functional copolymerization involves the incorporation of functional groups into the polymer chain.
14. Copolymerization of acrylic acid and its derivatives can lead to materials with responsive properties.
15. Copolymerization of vinyl acetate and ethylene produces a copolymer with high tensile strength.
16. Reverse copolymerization involves the addition of a monomer to an already formed polymer chain.
17. The properties of copolymers can be influenced by the sequence of monomers used in copolymerization.
18. The stereochemistry of copolymerization can influence material properties such as melting point and glass transition temperature.
19. The formation of a copolymer can be confirmed through various analytical techniques such as NMR spectroscopy and X-ray diffraction.
20. Living copolymerization can result in materials with controlled molecular weight and narrow polydispersity.
21. The use of surfactants can improve the homogeneity of copolymerization reactions.
22. High-pressure copolymerization can lead to the formation of branched or cross-linked copolymers.
23. Chain transfer agents can be used to control the molecular weight distribution of the copolymer produced.
24. The heat of copolymerization can be calculated from the enthalpies of the monomer and polymer involved.
25. The copolymer produced from a copolymerization reaction can have different properties than the individual homopolymers produced from each monomer.
26. Copolymerization can improve the stability and mechanical properties of materials used in various applications.
27. The use of controlled radical polymerization techniques can improve the efficiency and selectivity of copolymerization reactions.
28. The copolymerization of maleic anhydride and styrene can lead to materials with high chemical resistance.
29. The copolymer produced from free radical copolymerization can have a random or block polymer chain structure.
30. Terpolymerization involves the copolymerization of three different monomers to produce a copolymer with unique properties.
Common Phases
1.
Copolymerization is a useful polymerization technique;
2.
Copolymerization increases polymer chain diversity;
3.
Copolymerization involves the combination of two or more monomers;
4.
Copolymerization can produce materials with unique properties;
5.
Copolymerization can be used to control polymer morphology;
6.
Copolymerization is widely used in the production of plastics and elastomers;
7.
Copolymerization can improve the mechanical properties of a material;
8.
Copolymerization requires careful selection of monomers and reaction conditions;
9.
Copolymerization can be carried out using a variety of polymerization techniques;
10.
Copolymerization is an important step in the synthesis of block copolymers.