Handbook of Plasticizers
eBook - ePub

Handbook of Plasticizers

  1. 870 pages
  2. English
  3. ePUB (mobile friendly)
  4. Available on iOS & Android
eBook - ePub

Handbook of Plasticizers

About this book

Handbook of Plasticizers, Third Edition, is an essential professional reference, providing information that enables R&D scientists, production chemists, and engineers the information they need to use plasticizers more effectively, and to avoid certain plasticizers in applications where they may cause health or material durability problems. Plasticizers are vital to the plastics industry, particularly in improving the properties of materials such as PVC. Plasticizers are commonly added to complex mixtures containing a variety of materials, so successful incorporation requires a broad understanding of the mechanisms of plasticizer action, and compatibility with different materials and blends. There is a large selection of commercial plasticizers, and various environmental issues which impact on selection decisions. The book discusses new and historical approaches to the use of plasticizers, explaining mechanisms of plasticizers' action and their behavior in plasticized systems. It goes into detail on the use of plasticizers in a range of specific polymers, polymer blends, and other industrial products. This includes coverage of the impact of plasticizers on processing. George Wypych provides the data and know-how from the most recent sources and updated information required by engineers and scientists working in the plastics industry and the many industry sectors that use plastics in their products. The book covers the uses, advantages, and disadvantages of plasticizers, historical and theoretical background, their effects on process conditions, and health, safety, and environmental issues. - Enables materials scientists, chemists and engineers to use plasticizers more effectively, and avoid health and safety or performance risks - Includes detailed coverage of the impact of plasticizers on polymers, and processing methods - Provides the broad background of information required to select the correct plasticizer for any application - Covers the uses, advantages, and disadvantages of plasticizers, including historical and theoretical background

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Yes, you can access Handbook of Plasticizers by George Wypych in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Materials Science. We have over one million books available in our catalogue for you to explore.
1

INTRODUCTION

This chapter contains brief summaries of
historical developments of plasticizers
expectations from plasticizers
definitions
classification

1.1 HISTORICAL DEVELOPMENTS

Many anonymous inventors were the first in their geographic areas to use water as the first plasticizer. Pottery was most likely the first product which was produced with a plasticizer. The short history of pottery on various continents is presented in Table 1.1.
Table 1.1
Short history of pottery
Period Events
24,000 BC earliest known clay figurines of fertility images of women found in Europe
7,500 BC first fired pottery produced in Japan in Jomon period
7,000 BC the oldest known pottery available in Heiseikan Building of the Tokyo National Museum
5,500 BC houses are built in Jericho which have a stone foundation, and half meter thick walls built from sun-dried bricks
5,000 BC oldest pottery in Schleswig-Holstein, Europe
5,000-3,000 BC Valdivia pottery in Ecuador. So-called Venus of Valdivia resembles Venus of Jomon from Tanabatake, Japan. Each are made from local clays
3,500 BC pottery produced by neolithic cultures in Tigris and Euphrates river valleys, Middle East
3,150 BC oldest pottery in Maluku, Indonesia
3,000-2,600 BC bowls, plates, and platters were produced in Egypt
2,700-2,200 BC potters wheel was introduced in Egypt
1,600-1,100 BC pre-Olmec pottery made in Mexico to Honduras, Central America
1,000 BC oldest pottery found in Colombia, South America
900-500 BC Etruscan pottery in North-west Italy
550 BC beginning of potter’s art in Greece
The above chronology of events shows that the development of technology was not evenly spread throughout the world in spite of the fact that some more developed locations were close to each other but some political barriers did not allow for technology to spread. On the other hand, technology could also travel very far for example as seen in Valdivia, Ecuador which may have gotten technology from Japan.
Painting is another example of early application of plasticizers. The following chronological developments show how technology was modified until there was a need to use plasticizers (Table 1.2).
Table 1.2
Technological developments in painting
Period Event
30,000 BC imprints of hands (Lascaux Caves in France). In this early period two methods were used: hands were dipped into fluid colorant or surface was coated with greasy material and pigment blown through a tube. Animal fat, urine, blood, eggs, or milk-casein were used as organic binders or dispersants of pigments
6,000 BC development of secco technique which is painting on dry wall surface with pigment and binder (neolithic period)
2,500 BC in Egypt arriccio layer to smooth surface and intonaco layer of gypsum plaster form surface on which pigment in binder are applied. Binder is usually gum arabic (referred to as tempera binder) plasticized with honey
Ancient Egypt is also credited with the use of plasticizers to preserve skin. This was practiced in the mummification process in which the body was dried which made dry skin very fragile and thus a mixture of cedar oil, wax, natron, and gum was rubbed to soften the skin and prevent it from cracking.
Preparation of nitrocellulose by Shoenbein and Bottger in 1846 is generally considered as the beginning of the use of plasticizers although plasticizers were not mentioned in their patent and later related discoveries.1 The first US Patent, which specifically mentioned plasticizer was obtained by Turkington in 1924 for high boiling aldehyde used to plasticize phenol resin.2 The second US Patent, which mentioned plasticizers was obtained in 1924 by Lindsay, who used aromatic phosphates to plasticize celluloid.3 The next patents were issued in 1930s for plasticization of zein, gelatin, cellulose acetate, and vinylchloride/vinylacetate copolymers. And these included many known today plasticizers, such as phthalates and phosphates. It is well documented that German scientist Friedrich Klatte was the first to receive patent for PVC in 1913. The patent also included plasticization with many known plasticizers.4 1930s and 1940s were the golden age of plasticizers synthesis and application, whereas 2000-2010 can be credited with elimination of many previously important plasticizers.
15-30% of Americans (45-90 million people) report that they are unusually sensitive or allergic to certain common chemicals such as detergents, perfumes, solvents, pesticides, pharmaceuticals, foods, or even the smell of dry-cleaned clothing.5 An estimated 5% (15 million people) have been diagnosed by a physician as being especially sensitive. This calls for attention of product designers and manufacturers.5
All these examples from past show that new technological developments were dictated by requirements of processing or a need to soften material. There was little exchange of information during these early technological developments.

1.2 EXPECTATIONS FROM PLASTICIZERS

A large number of applications of plasticizers are driven by even larger number of expectations of improvement of original properties of polymers and products into which these polymers are formulated with the use of plasticizers. A list below shows the most important expectations of plasticizer influence on the development of desired properties:
decrease the glass transition temperature of the polymer – the most typical reason for plasticizer use. This expectation is frequently related to and explained by mechanism of plasticizer action
making material more flexible – the influence related to the changes in polymer structure – frequently measured by decrease in glass transition temperature
increased elongation and decreased tensile strength are typical results from glass transition decrease on addition of plasticizers, although in some polymers or products specific results are also observed, especially when the plasticizer concentration in material varies
decrease in ductility of materials and improvement of its impact resistance
low temperature properties of many materials are improved by different types and concentrations of plasticizers
viscosity control – plasticizers are low viscosity liquids, which reduce viscosity of polymer solutions and improve workabil...

Table of contents

  1. Cover image
  2. Title page
  3. Table of Contents
  4. Copyright
  5. Chapter 1: INTRODUCTION
  6. Chapter 2: PLASTICIZER TYPES
  7. Chapter 3: TYPICAL METHODS OF QUALITY CONTROL OF PLASTICIZERS
  8. Chapter 4: TRANSPORTATION AND STORAGE
  9. Chapter 5: MECHANISMS OF PLASTICIZERS ACTION
  10. Chapter 6: THEORIES OF COMPATIBILITY
  11. Chapter 7: PLASTICIZER MOTION AND DIFFUSION
  12. Chapter 8: EFFECT OF PLASTICIZERS ON OTHER COMPONENTS OF FORMULATION
  13. Chapter 9: PLASTICIZATION STEPS
  14. Chapter 10: EFFECT OF PLASTICIZERS ON PROPERTIES OF PLASTICIZED MATERIALS
  15. Chapter 11: PLASTICIZERS USE AND SELECTION FOR SPECIFIC POLYMERS
  16. Chapter 12: PLASTICIZERS IN POLYMER BLENDS
  17. Chapter 13: PLASTICIZERS IN VARIOUS INDUSTRIAL PRODUCTS
  18. Chapter 14: PLASTICIZERS IN VARIOUS PROCESSING METHODS
  19. Chapter 15: SPECIALIZED ANALYTICAL METHODS IN PLASTICIZER TESTING
  20. Chapter 16: MATHEMATICAL MODELLING IN APPLICATION TO PLASTICIZERS
  21. Chapter 17: HEALTH AND SAFETY ISSUES WITH PLASTICIZERS AND PLASTICIZED MATERIALS
  22. Chapter 18: THE ENVIRONMENTAL FATE OF PLASTICIZERS
  23. Chapter 19: REGULATIONS AND DATA
  24. Chapter 20: PERSONAL PROTECTION
  25. Chapter 21: PLASTICIZER RECOVERY & RECYCLING
  26. INDEX