text.skipToContent text.skipToNavigation

PVC Additives Performance, Chemistry, Developments, and Sustainability von Schiller, Michael (eBook)

  • Erscheinungsdatum: 02.04.2015
  • Verlag: Carl Hanser Fachbuchverlag
eBook (PDF)
109,99 €
inkl. gesetzl. MwSt.
Sofort per Download lieferbar

Online verfügbar

PVC Additives

PVC differs in its stabilization compared to other commodity plastics. Various metal compounds are suitable for the stabilization of PVC: lead, tin, calcium, magnesium, zinc, rare earths, and also almost-metal-free systems. These differences are described in the introductory part of this book, with their advantages, possibilities, and problems, from the perspective of the chemist but made understandable for salespeople and technicians. Numerous tables and figures are included, providing structures and physico-chemical data. A special section for beginners is dedicated to guiding formulations and test methods. A relatively short section deals with development trends in Europe. Sustainability is a major theme, and it is demonstrated that PVC has a strong potential to develop into a fully sustainable material. Another section deals with the everyday problems in the processing of PVC, such as the formation of specks, photo-effects, and plate-out. Plate-out is a common problem in the processing of PVC but only relatively few publications cover it. The causes, influencing factors, and mechanisms are still poorly understood. This section, unique in the literature, provides assistance in the selection and dosage of raw materials to PVC processor, based on the influencing factors during processing.


    Format: PDF
    Kopierschutz: watermark
    Seitenzahl: 432
    Erscheinungsdatum: 02.04.2015
    Sprache: Englisch
    ISBN: 9781569905449
    Verlag: Carl Hanser Fachbuchverlag
    Größe: 10482 kBytes
Weiterlesen weniger lesen

PVC Additives

1. PVC Stabilizers
2. Additional PVC Additives
3. Uncharted Territory in PVC Processing: Plate-Out
4. Uncharted Territory in the Use of PVC Products: Photo Effects
5. PVC and Sustainability

Weiterlesen weniger lesen