Surface modification for enhancement of barrier and adhesion properties of rubber/mild steel bonding system in salt environment / Ismaliza Ismail

The bond durability of rubber/mild steel components exposed to aggressive environments depends on the types of environments and duration to which the components are exposed to. Corrosion reactions on mild steel substrate have induced premature adhesion failures of rubber/mild steel components after...

Full description

Saved in:
Bibliographic Details
Main Author: Ismail, Ismaliza
Format: Thesis
Language:English
Published: 2020
Subjects:
Online Access:https://ir.uitm.edu.my/id/eprint/61102/1/61102.pdf
https://ir.uitm.edu.my/id/eprint/61102/
Tags: Add Tag
No Tags, Be the first to tag this record!
id my.uitm.ir.61102
record_format eprints
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Organic chemistry
spellingShingle Organic chemistry
Ismail, Ismaliza
Surface modification for enhancement of barrier and adhesion properties of rubber/mild steel bonding system in salt environment / Ismaliza Ismail
description The bond durability of rubber/mild steel components exposed to aggressive environments depends on the types of environments and duration to which the components are exposed to. Corrosion reactions on mild steel substrate have induced premature adhesion failures of rubber/mild steel components after exposure to marine conditions. An alkaline media generated by the cathodic reduction reaction in a corrosion process, was found to have degraded the commercial phenolic modified chlorinated rubber primer coating used in the bonding system leading to premature adhesion failure of the components. Thus, the strategic goal of this research is to reduce corrosion and minimize the effects of its processes on adhesion loss of primer coating through surface modification of the mild steel substrate. This research emphasizes on developing a multifunctional mild steel surface modification system using silane-based compound with the intention of improving the surface energy for adhesion while simultaneously inhibiting corrosion through the use of inhibitors. In this work, a synergistic effect of silane coupling agent, 3-glycidoxypropyltrimethoxysilane (3-GPS), surfactant inhibitor, sodium dodecylbenzene sulfonates (SDBS) and ZnSO4 pretreatment on mild steel has been investigated. The surface characterizations were done using FTIR, SEM, EDX, XPS and contact angle analysis. The effects of surface modification on the electrochemical reactions were examined through potentiodynamic measurement combined with the electrochemical impedance spectroscopy (EIS), while, its effect on the surface energy was evaluated through adhesion analysis. A two-pack polyamide cured epoxy, and a commercial phenolic modified chlorinated rubber coatings were used to measure the effectiveness of the surface modification of mild steel. The overall performance of the coated mild steel against corrosion was further evaluated through EIS, cathodic, and anodic delamination tests. The result found that SDBS:ZnSO4 mixtures resist the mild steel corrosion in 0.05 M NaCl solution with inhibition efficiency of 96 % obtained at a 200:200 ppm ratio. This phenomenon was due to the formation of a compact insoluble layer of zinc hydroxide/oxide together with SDBS complex on the metal surface, which then impedes both the oxygen reduction and oxidation reactions on mild steel. The dense hydrophobic tail of SDBS compound that deposited on the metal surface further hinders the electrolyte diffusion towards the mild steel surface. This formation of the protective layer was confirmed through surface characterizations. A neat 3-GPS silane was not able to provide an effective corrosion-resistant film on mild steel although it did significantly improves the adhesion of epoxy coating. On the other hand, 3-GPS silane used in combination with SDBS:ZnSO4 inhibitors was found to have improved both the corrosion resistance of mild steel substrates as well as adhesion of the epoxy coating. However, the result shows that the adhesion strength is lower if compared to the neat silane indicating that SDBS:ZnSO4 inhibitors has distrupted the bond formation between epoxy and mild steel substrate. However, this sample has higher resistance towards cathodic and anodic delamination. These combined results show that there is no correlation between adhesion and corrosion resistance. It shows that excellent adhesion is not always necessary to prevent corrosion in which underfilm corrosion depends on inhibition rather than adhesion. Phenolic modified chlorinated rubber coating applied on 3-GPS/SDBS:ZnSO4 treated mild steel was found to be more resistant towards cathodic and anodic delamination despite having a lower adhesion compared to the untreated mild steel.
format Thesis
author Ismail, Ismaliza
author_facet Ismail, Ismaliza
author_sort Ismail, Ismaliza
title Surface modification for enhancement of barrier and adhesion properties of rubber/mild steel bonding system in salt environment / Ismaliza Ismail
title_short Surface modification for enhancement of barrier and adhesion properties of rubber/mild steel bonding system in salt environment / Ismaliza Ismail
title_full Surface modification for enhancement of barrier and adhesion properties of rubber/mild steel bonding system in salt environment / Ismaliza Ismail
title_fullStr Surface modification for enhancement of barrier and adhesion properties of rubber/mild steel bonding system in salt environment / Ismaliza Ismail
title_full_unstemmed Surface modification for enhancement of barrier and adhesion properties of rubber/mild steel bonding system in salt environment / Ismaliza Ismail
title_sort surface modification for enhancement of barrier and adhesion properties of rubber/mild steel bonding system in salt environment / ismaliza ismail
publishDate 2020
url https://ir.uitm.edu.my/id/eprint/61102/1/61102.pdf
https://ir.uitm.edu.my/id/eprint/61102/
_version_ 1735389683386417152
spelling my.uitm.ir.611022022-06-08T01:34:57Z https://ir.uitm.edu.my/id/eprint/61102/ Surface modification for enhancement of barrier and adhesion properties of rubber/mild steel bonding system in salt environment / Ismaliza Ismail Ismail, Ismaliza Organic chemistry The bond durability of rubber/mild steel components exposed to aggressive environments depends on the types of environments and duration to which the components are exposed to. Corrosion reactions on mild steel substrate have induced premature adhesion failures of rubber/mild steel components after exposure to marine conditions. An alkaline media generated by the cathodic reduction reaction in a corrosion process, was found to have degraded the commercial phenolic modified chlorinated rubber primer coating used in the bonding system leading to premature adhesion failure of the components. Thus, the strategic goal of this research is to reduce corrosion and minimize the effects of its processes on adhesion loss of primer coating through surface modification of the mild steel substrate. This research emphasizes on developing a multifunctional mild steel surface modification system using silane-based compound with the intention of improving the surface energy for adhesion while simultaneously inhibiting corrosion through the use of inhibitors. In this work, a synergistic effect of silane coupling agent, 3-glycidoxypropyltrimethoxysilane (3-GPS), surfactant inhibitor, sodium dodecylbenzene sulfonates (SDBS) and ZnSO4 pretreatment on mild steel has been investigated. The surface characterizations were done using FTIR, SEM, EDX, XPS and contact angle analysis. The effects of surface modification on the electrochemical reactions were examined through potentiodynamic measurement combined with the electrochemical impedance spectroscopy (EIS), while, its effect on the surface energy was evaluated through adhesion analysis. A two-pack polyamide cured epoxy, and a commercial phenolic modified chlorinated rubber coatings were used to measure the effectiveness of the surface modification of mild steel. The overall performance of the coated mild steel against corrosion was further evaluated through EIS, cathodic, and anodic delamination tests. The result found that SDBS:ZnSO4 mixtures resist the mild steel corrosion in 0.05 M NaCl solution with inhibition efficiency of 96 % obtained at a 200:200 ppm ratio. This phenomenon was due to the formation of a compact insoluble layer of zinc hydroxide/oxide together with SDBS complex on the metal surface, which then impedes both the oxygen reduction and oxidation reactions on mild steel. The dense hydrophobic tail of SDBS compound that deposited on the metal surface further hinders the electrolyte diffusion towards the mild steel surface. This formation of the protective layer was confirmed through surface characterizations. A neat 3-GPS silane was not able to provide an effective corrosion-resistant film on mild steel although it did significantly improves the adhesion of epoxy coating. On the other hand, 3-GPS silane used in combination with SDBS:ZnSO4 inhibitors was found to have improved both the corrosion resistance of mild steel substrates as well as adhesion of the epoxy coating. However, the result shows that the adhesion strength is lower if compared to the neat silane indicating that SDBS:ZnSO4 inhibitors has distrupted the bond formation between epoxy and mild steel substrate. However, this sample has higher resistance towards cathodic and anodic delamination. These combined results show that there is no correlation between adhesion and corrosion resistance. It shows that excellent adhesion is not always necessary to prevent corrosion in which underfilm corrosion depends on inhibition rather than adhesion. Phenolic modified chlorinated rubber coating applied on 3-GPS/SDBS:ZnSO4 treated mild steel was found to be more resistant towards cathodic and anodic delamination despite having a lower adhesion compared to the untreated mild steel. 2020-11 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/61102/1/61102.pdf Surface modification for enhancement of barrier and adhesion properties of rubber/mild steel bonding system in salt environment / Ismaliza Ismail. (2020) PhD thesis, thesis, Universiti Teknologi MARA.
score 13.211869