Ebook: Introduction to Industrial Polyethylene: Properties, Catalysts, and Processes
Author: Dennis B. Malpass
- Year: 2010
- Publisher: Wiley-Scrivener
- Edition: 1
- Language: English
- pdf
Endorsement for Introduction to Industrial Polyethylene
"I found this to be a straightforward, easy-to-read, and useful introductory text on polyethylene, which will be helpful for chemists, engineers, and students who need to learn more about this complex topic. The author is a senior polyethylene specialist and I believe we can all benefit from his distillation of knowledge and insight to quickly grasp the key learnings."
—R.E. King III; Ciba Corporation (part of the BASF group)
Jargon used in industrial polyethylene technology can often be bewildering to newcomers. Introduction to Industrial Polyethylene educates readers on terminology commonly used in the industry and demystifies the chemistry of catalysts and cocatalysts employed in the manufacture of polyethylene.
This concise primer reviews the history of polyethylene and introduces basic features and nomenclatures for this versatile polymer. Catalysts and cocatalysts crucial to the production of polyethylene are discussed in the first few chapters. Latter chapters provide an introduction to the processes used to manufacture polyethylene and discuss matters related to downstream applications of polyethylene such as rheology, additives, environmental issues, etc.
Providing industrial chemists and engineers a valuable reference tool that covers fundamental features of polyethylene technology, Introduction to Industrial Polyethylene:
Identifies the fundamental types of polyethylene and how they differ.
Lists markets, key fabrication methods, and the major producers of polyethylene.
Provides biodegradable alternatives to polyethylene.
Describes the processes used in the manufacture of polyethylene.
Includes a thorough glossary, providing definitions of acronyms and abbreviations and also defines terms commonly used in discussions of production and properties of polyethylene.
Concludes with the future of industrial polyethylene.