SteelPaint Lands Major Chinese Contract

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Leading Source of Industry News on Protective Coatings for Oil & Gas, Pipelines, Marine and Construction


NEWSMAKERS:  * Akzo Nobel * Coating Condition Survey * Coating Failures * Crack Detection * CUI * Epoxy Coatings * Epoxy Phenolics * ExcelPlas Labs * Failure Analysis * Glass Flake * Graphene Oxide * Hempel * Jotun * Inhibition Containers * International Paint * PCN * Protective Coatings * PPG * Self-Healing Coatings * Sher-Bar TEC™ * Sherwin Williams * Sparc* SteelPaint

BREAKING NEWS

German Coating Specialist SteelPaint Lands Major Chinese Contract for Corrosion Protection of Cargo Ships

Sherwin-Williams Launches Sher-Bar TEC – The First Damage-Tolerant Textured Epoxy Coating for Steel

INDUSTRY NEWS

Defending a Leadership Position Against Price Competition: Akzonobel International’s Strategic Overhaul

Hempel Researchers Develop Innovative Pathway for Synthesis of Mesoporous Silica Particles as Inhibitor Containers for Anticorrosive Coatings

Jotun at COP29: Navigating towards Cleaner Shipping

AkzoNobel Finds High Lamellar Glass Flake Coatings Extend Offshore Asset Lifetimes

Study by International Reveals Coatings with High Lamellar Glass Flake Extends Offshore Asset Life

Sparc Extends Benefits of Graphene to Water-based Epoxy Coatings

Use of Modified Graphene Oxide (GO) in Epoxy Corrosion Protection Coatings

NEW RESEARCH

Evaluation of Corrosion Resistance of Citric Acid Secondary Doped Poly(o-toluidine)/Titanium Dioxide Epoxy Coatings

Influence of Corrosion Inhibitors on Aging Mechanism of Epoxy Coatings in Simulated Marine Environment

Significant Performance Improvements Achieved in Graphene Enhanced Water-Based Epoxy Coatings

An Epoxy Resin-based Superhydrophobic Coating Incorporating pH-responsive Functional Multiwall Carbon Nanotubes Assembled L-proline for Corrosion Protection

Enhancing Corrosion Resistance of Epoxy Coatings through Dual Modification of Graphene Oxide with Maleic Anhydride and Paraphenylenediamine

Facile Modification of Sepiolite and its Application in Wear-Resistant and Superhydrophobic Epoxy Coatings by Mimicking the Structure of Shark Skin

Dynamic Polymer/Metal–Organic Framework Hybrid Microcapsules for Self-Healing Anticorrosion Epoxy Coatings

Design of Dual-functional Mg/Al layered Double Hydroxide for Smart Protective Epoxy Coatings

Unveiling the Potential of Dual-Extrinsic/Intrinsic Self-healing Epoxy Coatings for Anticorrosion Applications

Enhanced Protective Performance of Carbon Nanotube-Reinforced Waterborne Epoxy Zinc-Rich Coatings for Corrosion Protection of Steel Structures

Ti3C2Tx MXene/MoS2 Hybrid Nanocomposites for Synergistic Smart Corrosion Protection of Epoxy Coatings

COATINGS FAILURE ANALYSIS

Exploring Epoxy Coating Failures with ExcelPlas Labs
While epoxy coatings are generally durable and effective at preventing corrosion, there are a few common types of epoxy coating failures that can occur:

  • Adhesion failure: This occurs when the epoxy coating fails to properly adhere to the surface of the pipe, which can be caused by factors such as improper surface preparation or a poorly formulated coating. Adhesion failure can result in the coating peeling or flaking off, exposing the underlying steel surface to corrosion.
  • Blistering: This occurs when small bubbles or blisters form on the surface of the epoxy coating, which can be caused by improper surface preparation, moisture contamination, or excessive heat during curing.
  • Cracking: This occurs when the epoxy coating develops small cracks, which can be caused by factors such as thermal expansion and contraction, improper coating thickness, or exposure to chemicals.
  • Delamination: This occurs due to intercoat or interfacial adhesion failure due to the presence of a weak boundary layer such as silicone or hydrocarbon oil contamination.

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Failure Analysis and Investigation of Protective Coatings in Mining, Marine Offshore Oil & Gas Chemical Plants, Energy Infrastructure and Bridges (Ask the Experts)
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Critical Questions for Protective Coatings for Asset Protection in Oil & Gas, LNG:

  • Why is the coating not stopping corrosion?
  • Why is the coating delaminating or blistering?
  • Has the coating been correctly specified / applied?
  • Does the coating meet the manufacturing standard, including properties such as correct hardness/cure, adhesion and thickness?
  • What surface preparation and atmospheric conditions must be achieved to successfully apply the coating?
  • Does the coating have any defects in it? How will these affect performance?
  • Why did the coating fail? Root cause assessment.
  • How can the coating be successfully repaired/remediated so that it doesn’t fail again?

ExcelPlas Labs can answer these questions and more…
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This newsletter is brought to you by ExcelPlas Coating Labs (http://www.excelplas.com/)

ExcelPlas Labs provides independent testing, analysis, and investigation on protective coatings to prevent corrosion.

ExcelPlas has extensive analytical capabilities for testing of Protective Coatings and Insulation Consulting for major oil and gas companies.

We conduct corrosion surveys, coating sampling, coating analysis, and testing to ensure coating specifications for a wide range of onshore and offshore clients in Australia and the Asia-Pacific Region.

ExcelPlas Labs offer a full range of coating testing and analytical services to Australia’s mining, oil, gas, and infrastructure sectors.

Forensic analysis for undertaking various coating-based failure investigations and problem-solving.

ExcelPlas Undertakes Analysis & Testing of Polymer Coating Systems including:

  • Epoxy Protective Coatings
  • Epoxy-Phenolic Protective Coatings
  • Fusion bonded epoxy (FBE) 
  • Dual-Layer Fusion bonded epoxy (DLFBE)
  • Liquid applied epoxy (LAE)
  • Abrasion-resistant overcoat (ARO)
  • Three-layer PE (3LPE)
  • Multi-component liquid spray  (MCL)
  • Heat shrink sleeves (HSS)

Testing on Coatings that ExcelPlas can Undertake includes:

  • Coating identification by Infra-red Analysis (FTIR)
  • Degree of Cure by Thermal Analysis (DSC)
  • Coating Filler Identification by X-ray Analysis (EDS/XRD)
  • Coating Microstructure by Embedding, Polishing, and Optical Microscopy (OM)
  • Coating Thermal Stability and Composition by Thermogravimetric Analysis (TGA)

DSC – Phase transition/volatiles / Tg / degree of cure/characterisation
TGA – Volatile compounds, inorganic mass % mix ratio
Element mapping for chlorides on paint flakes
Microscopy -Count layers and thickness of layers

  • Assess porosity and voids
  • Check distribution and orientation of filler particles

Condition monitoring and analysis of corrosion prevention coatings (epoxies, epoxy-phenolics)
http://www.excelplas.com/

Testing of Epoxy Coatings (LAE, FJC, FBE), heat shrink sleeves and tapes, barrier tapes, and meshes.
http://www.excelplas.com/

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