Non-destructive testing (NDT) methods include a wide range of analytical techniques that can evaluate various kinds of materials, elements, welds, systems, etc., without rendering any damage or harm ...

Rising Focus on Quality Standards in Manufacturing Industries fuels the NDT industry. The growing focus on safety and quality standards across diverse industries such as aerospace, automotive, ...

The rail industry’s federal regulatory structure is complex, with varying levels of rules, regulations and standards. While most of the industry is regulated by standards applied by the Association of ...

Non-destructive testing (NDT) is the name given to the family of techniques that can investigate materials or components without damaging them or impairing their function. The main applications of NDT ...

Unlike destructive testing, NDT inspects parts without affecting their future usability. As a result, it is frequently more practical for inspecting AM parts, which are often produced in small-batch ...

Nondestructive testing (NDT) refers to the inspection of materials to ensure their integrity and serviceability without damaging the components in the process. There are various NDT methods used by ...

In today’s industrial setting, material and component integrity is of great importance for safety, performance, and long-term reliability. It is observed that ...

Well-established regulations have been used worldwide to certify the mechanical characteristics of advanced materials like polymer nanocomposites across different industries. To establish a ...

The field of archaeology has faced a tricky dilemma since its inception in the 1800s: how to unearth and examine precious historical artifacts and structures without damaging them. Inevitably, ...

Nondestructive Testing for Additive Manufacturing provides an overview of the most common nondestructive testing (NDT) methods used in additive manufacturing (AM). Unlike destructive testing, NDT ...