Prevent, Protect, Perfect with Advanced Analytical Solutions for Corrosion

|   Event

You are invited to register for our new webinar: Tuesday, March 11th, at 2:00 PM (GMT); 3:00 PM (CET)

Event

Beginning: 03/11/25

Location: Online

Webinar presented by Alice Stankova, ICP-OES Product Manager, HORIBA France SAS, and Patrick Chapon, GDOES Product Manager, HORIBA France SAS

For corrosion purposes, to predict failures, optimize material lifespan, and develop effective corrosion protection strategies, ensuring durability and reliability in demanding environments, different advanced analytical solutions are needed. We will present a comprehensive range of advanced analytical solutions for the corrosion market, designed to address the complexities of corrosion processes and protection strategies.

  1. Elemental Analysis: Techniques such as Inductively Coupled Plasma (ICP) and X-ray Fluorescence (XRF) are used to assess the elemental composition of materials, helping in the selection of corrosion-resistant materials[1].
  2. Surface Reactivity Studies: Atomic Emission Spectroelectrochemistry (AESEC) is employed to study surface reactivities in operando, providing real-time insights into corrosion mechanisms[2].
  3. Coating Analysis: Glow Discharge Optical Emission Spectroscopy (GDOES) and Raman Spectroscopy are used to assess the composition, thickness, and degradation of passivation films and multi-layer protective coatings[2].
  4. Plating Efficiency and Contamination Detection: XRF and ICP are utilized to control plating efficiency and detect contamination in plating baths[2].
  5. Surface Mapping: Techniques like Atomic Force Microscopy (AFM) and Raman Spectroscopy are used to map surfaces and detect local corrosion[2].
  6. Formulation Analysis: Particle Characterization Analyzer (PCA), Molecular Fluorescence, Raman Spectroscopy, and GDOES are used to analyze the formulations of conversion coatings, organic coatings, and paints[2].

References:
[1]Corrosion - HORIBA
[2]Studying Corrosion Processes and Corrosion Protection Coatings

Learning Objectives:

  • Learn about recent advances in TERS imaging and the importance of varied excitation wavelength in TERS characterization of 2D materials.
  • Explore new, exciting discoveries in TERS response of monolayer h-BN.
  • Understand the power of TERS imaging for characterization of the nanoscale defects in 2D materials.

Who Should Attend:

The key participants who would benefit the most include:

  • Materials Scientists and Engineers: working in materials science, metallurgy, and engineering will gain valuable insights into the latest techniques and methodologies for studying and mitigating corrosion.
  • Industry Professionals: Engineers, project managers, and technical experts from industries such as oil and gas, automotive, aerospace, construction, nuclear and marine will find practical information on corrosion prevention and control strategies.
  • Researchers and Academics: University professors, researchers, and students in relevant fields will have the opportunity to enhance their knowledge and engage with cutting-edge research and industry practices related to corrosion.

Benefits of attending the webinar:
By attending this webinar, participants will be equipped with the knowledge and tools necessary to address the challenges of corrosion, fostering collaboration and innovation across sectors.

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