© 1991

Silane Coupling Agents

Table of contents

  1. Front Matter
    Pages i-xiii
  2. Edwin P. Plueddemann
    Pages 1-29
  3. Edwin P. Plueddemann
    Pages 31-54
  4. Edwin P. Plueddemann
    Pages 55-78
  5. Edwin P. Plueddemann
    Pages 79-114
  6. Edwin P. Plueddemann
    Pages 115-152
  7. Edwin P. Plueddemann
    Pages 153-181
  8. Edwin P. Plueddemann
    Pages 183-220
  9. Edwin P. Plueddemann
    Pages 221-250
  10. Back Matter
    Pages 251-253

About this book


* Much progress has been made in the last 8 years in understanding the theory and practice of silane coupling agents. A major advance in this direction was the measurement of true equilibrium constants for the hydroly­ sis and formation of siloxane bonds. Equilibrium constants for bond reten­ tion are so favorable that a silane coupling agent on silica has a thousandfold advantage for bond retention in the presence of water over an alkoxysilane bond formed from hydroxy-functional polymers and silica. In practice, the bonds of certain epoxies to silane-primed glass resist debonding by water about a thousand times as long as the epoxy bond to unprimed glass. Oxane bonds of silane coupling agents to metal oxides seem to follow the same mechanism of equilibrium hydrolysis and rebonding, although equilibrium constants have not been measured for individual metal-oxygen­ silicon bonds. This suggests, however, that methods of improving bond retention to glass will also improve the water resistance of bonds to metals. of standard coupling agents with a hydrophobic silane or one Modification with extra siloxane cross-linking have improved the water resistance of bonds to glass and metals another hundredfold over that obtained with single coupling agents.


Silane bonding glass metals oxygen polymer polymers silicon

Authors and affiliations

  1. 1.Dow Corning CorporationMidlandUSA

Bibliographic information