Surface Analysis (Allentown Lab)

Surface analysis encompasses a wide range of techniques that individually examine specific properties of materials at the surface. These techniques work in conjunction to provide a clear picture of the material at the surface level to assist in research and development, failure analysis, troubleshooting, quality control, and contaminant identification.

Intertek Allentown scientists are experts across a wide breadth of materials and techniques. We work with our customers to understand and help define your surface related problem.  We then recommend and execute the appropriate approach to solve the problem. Factors, such as depth, film thickness and lateral resolution needs, are critical in determining the correct analysis technique.

Surface analysis helps you understand how properties, including:

• Adhesion (Roughness & Chemistry)
• Visual Appearance
• Chemical Reactivity
• Photodegradation
• Wetting
• Reflectivity
• Electrical and Ionic Transport

Intertek Allentown can help answer your surface questions, such as:

• What does the surface look like?
• Is surface texture impacting adhesion?
• Are there defects on the surface of my material that are affecting surface properties?
• Is there phase segregation?
• What is the modulus/hardness of my film?
• What is the roughness of my surface?
• Why is my coating failing?
• Is there variation in composition or texture of my treated material?
• How thick and uniform is my coating?

The table below shows how various techniques can be used alone or in conjunction with each other to provide a comprehensive surface analysis package.

Topography and surface texture, material structure

Stylus Profilometry – A sharp probe tip is scanned across a material in a linear fashion to create a line profile of height vs distance. With this technique, we can obtain a general understanding of a material’s surface texture. Challenges do occur if the material is soft, or if higher spatial resolution is required.

Scanning White Light Interferometry – A broadband source illuminates a surface rather than a physical probe touching a surface as with stylus profilometry. With the technique, we can obtain three-dimensional maps of the surface structure. These maps help us to understand properties such as defects, dimension analysis, and roughness – properties that can be linked to material performance.

Scanning Electron Microscopy (SEM) – SEM services are used to study surfaces and particles, targeting failure analysis of components, visualization of texture and morphology, or contamination of materials or chemicals.

Surface chemistry and composition, material composition

X-ray Photoelectron Spectroscopy (XPS) – XPS analysis is used to study surface chemistry of thin films, residues, and surface defects to provide quantitative elemental composition information and the chemical states of components.