Citations (16)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (8)
Xingang Wang, Shengtian Zhai, Kai Wang & Tao Xie. (2018) Modification of bonding properties and microstructure of resin-cement interface by coupling agents. Composite Interfaces 25:1, pages 27-37.
Read now
Read now
Kyle Caldwell & John C. Berg. (2014) The use of COSMO-SAC to predict relative adhesion between polymer matrices and silane-treated glass surfaces in filled particulate composites. Journal of Adhesion Science and Technology 28:13, pages 1312-1322.
Read now
Read now
Boxin Zhao, Lulu Bursztyn & Robert Pelton. (2006) Simple Approach for Quantifying the Thermodynamic Potential of Polymer–Polymer Adhesion. The Journal of Adhesion 82:2, pages 121-133.
Read now
Read now
WilliamT. Y. Tze, DouglasJ. Gardner, CarlP. Tripp & ShaneC. O'Neill. (2006) Cellulose fiber/polymer adhesion: effects of fiber/matrix interfacial chemistry on the micromechanics of the interphase. Journal of Adhesion Science and Technology 20:15, pages 1649-1668.
Read now
Read now
FelixN. Nguyen & JohnC. Berg. (2006) Adhesion promotion of poly(phenylene sulfide) to aluminum treated with silane coupling agents. Journal of Adhesion Science and Technology 20:2-3, pages 197-208.
Read now
Read now
M. L. Jenkins,
R. H. Dauskardt &
J. C. Bravman. (2004) Important factors for silane adhesion promoter efficacy: surface coverage, functionality and chain length. Journal of Adhesion Science and Technology 18:13, pages 1497-1516.
Read now
Read now
A. C. Miller &
J. C. Berg. (2002) The prediction of adhesion between polymer matrices and silane-treated glass surfaces in filled composites . Journal of Adhesion Science and Technology 16:5, pages 495-507.
Read now
Read now
A. C. Miller &
J. C. Berg. (2002) Predicting adhesion between a crystalline polymer and silane-treated glass surfaces in filled composites . Journal of Adhesion Science and Technology 16:14, pages 1949-1956.
Read now
Read now
Articles from other publishers (8)
Md. Mokter Hossain, Quang Hung Trinh, Duc Ba Nguyen, M.S.P. Sudhakaran & Young Sun Mok. (2019) Formation of plasma-polymerized superhydrophobic coating using an atmospheric-pressure plasma jet. Thin Solid Films 675, pages 34-42.
Crossref
Crossref
Abdullah Alghunaim, Eric T. Brink, Eli Y. Newby & Bi-min Zhang Newby. (2017)
Retention of poly(
N
-isopropylacrylamide) on 3-aminopropyltriethoxysilane
. Biointerphases 12:2.
Crossref
Crossref
Ramzi Bel‐Hassen, Sami Boufi, Marie‐Christine Brochier Salon, Makki Abdelmouleh & Mohamed Naceur Belgacem. (2008) Adsorption of silane onto cellulose fibers. II. The effect of pH on silane hydrolysis, condensation, and adsorption behavior. Journal of Applied Polymer Science 108:3, pages 1958-1968.
Crossref
Crossref
Robert Lacombe. 2005. Adhesion Measurement Methods. Adhesion Measurement Methods
399
428
.
A. C. Miller & J. C. Berg. (2003) Unexpected behavior between polystyrene and untreated and silane‐treated glass beads in filled polymeric composites. Journal of Applied Polymer Science 89:2, pages 521-526.
Crossref
Crossref
A.C Miller & J.C Berg. (2003) Effect of silane coupling agent adsorbate structure on adhesion performance with a polymeric matrix. Composites Part A: Applied Science and Manufacturing 34:4, pages 327-332.
Crossref
Crossref
Chenhang Sun, D.Eric Aston & John C. Berg. (2002) Structural Evolution of Octyltriethoxysilane Films on Glass Surfaces during Annealing at Elevated Temperature. Journal of Colloid and Interface Science 248:1, pages 96-102.
Crossref
Crossref
John C. Berg. 2002. Adhesion Science and Engineering. Adhesion Science and Engineering
1
73
.