Polymer Chemistry: An Introduction by Malcolm P. Stevens
Polymer Chemistry: An Introduction is a textbook that covers the fundamentals and applications of polymer science. The book is divided into two parts: Part I deals with polymer structure and properties, and Part II deals with various types of polymers, such as vinyl polymers, nonvinyl polymers, and natural polymers. The book also includes chapters on polymer characterization, polymer reactions, and polymer synthesis.
The book is written in a clear and concise style, with numerous examples, problems, and figures to illustrate the concepts. The book is suitable for undergraduate and graduate students of chemistry, chemical engineering, materials science, and related fields. The book is also a valuable reference for researchers and professionals who work with polymers.
The book is available in hardcover and paperback editions from Oxford University Press. The third edition was published in 1998 and has 576 pages. The ISBN-10 is 0195124448 and the ISBN-13 is 978-0195124446. The book can be downloaded for free from the Internet Archive[^1^] [^2^] in PDF or EPUB formats.
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Polymer chemistry is a branch of chemistry that studies the synthesis, structure, properties, and applications of polymers. Polymers are large molecules that consist of repeating units called monomers, which are linked together by covalent bonds. Polymers can be classified into two main categories: natural and synthetic.
Natural polymers are those that are produced by living organisms or derived from biological sources. Some examples of natural polymers are proteins, nucleic acids, cellulose, starch, rubber, and silk. Natural polymers play a crucial role in living things, providing basic structural materials and participating in vital life processes. For example, proteins are polymers of amino acids that perform various functions such as catalysis, transport, and regulation. Nucleic acids are polymers of nucleotides that store and transmit genetic information. Cellulose is a polymer of glucose that forms the cell wall of plants and gives them strength and rigidity. Starch is another polymer of glucose that serves as a storage form of energy in plants. Rubber is a polymer of isoprene that provides elasticity and resilience to many plants and animals. Silk is a polymer of fibroin that forms the strong and flexible fibers of spider webs and cocoons.
Synthetic polymers are those that are artificially created by human intervention. Synthetic polymers can be designed to have specific properties and functions that are not found in natural polymers. Some examples of synthetic polymers are plastics, fibers, elastomers, adhesives, coatings, and composites. Synthetic polymers have a wide range of applications in various fields such as medicine, engineering, electronics, biotechnology, and nanotechnology. For example, plastics are polymers of ethylene or other monomers that can be molded into various shapes and forms for packaging, insulation, and fabrication. Fibers are polymers of nylon or other monomers that can be spun into threads and fabrics for clothing, textiles, and carpets. Elastomers are polymers of styrene or other monomers that can be stretched and deformed without breaking for rubber bands, tires, and seals. Adhesives are polymers of acrylate or other monomers that can stick to different surfaces for glue, tape, and stickers. Coatings are polymers of vinyl or other monomers that can form thin films on substrates for paint, varnish, and lacquer. Composites are mixtures of polymers with other materials such as metals, ceramics, or carbon nanotubes for enhanced strength, stiffness, or conductivity. 0efd9a6b88