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What Material Analysis Involves and Its Benefits

The material analysis encompasses testing raw materials in the laboratory to make sure they meet certain specifications. Analyzers can study the chemical composition of substances and get the right chemical information to understand their properties.

Material analysis can be categorized into the quantitative and qualitative analysis. Quantitative analysis refers to the weight and amount of compounds as well as elements present. On the other hand, qualitative analysis helps to determine which compounds and elements are present in your material.

Material Analysis Techniques and Types

Industry chemical labs perform chemical analysis and testing, including failure identification, metal testing, trace contamination detection, and compositional analysis, which are used for reserve engineering and manufacturing quality control.

In order to develop new materials, solve problems, and determine the composition, you will need analytical instrumentation as well as apply the right methods for every purpose.

What You Should Look for in the Material Analysis Equipment

Equipment for material analysis is important to companies in most major industries, including jewelry, gold, engineering materials, electronics, automotive, and aeronautics.

Most labs know that material analysis's precision should be a priority when optimizing quality processes. Assessing the quality of materials gives insight required to resolve contamination issues, rectify failures, or increase performance.

Elemental compositions of materials define their characteristic properties. So it is important to evaluate materials with razor-sharp accuracy. This may involve using instruments, which guarantee the analysis of high-quality materials.

If you are looking for the right material analysis equipment so as to improve processes, the following are key traits you need to look at:

  • Flexibility
  • Outstanding precision
  • Non-destructive analysis
  • High-quality and reliable components
  • Access to very responsive customer services
  • Ease-of-use

Material Analysis Methods for Electronic Elements and Components

Usually, material analysis is carried out to identify and detect materials used in the production of microelectronic packages/parts and semiconductors.

One certain use of material analysis is the detection of all prohibited materials, particularly in the lead finish. This helps to identify reliability issues, like undesirable whisker growth that pure tin finishes cause. Validation of lead finish for all types of components to be soldered is important to determine their right soldering profile.

Advantages of Material Analysis

Material analysis is a straightforward yet effective way of improving efficiency while engaging your team. Any plant, irrespective of products, may do it. The material analysis aims to improve customer service/deliveries, minimize lead times, reduce inventory, and decrease the number of non-valuable activities, like moving materials around the plant.

The material analysis also ensures the quality of products. Material analysis and testing are often performed to establish that the incoming raw materials match all the requirements and specifications. In other words, an incorrect supply of materials may compromise the quality and safety of end products. 

Plus, it can cause a significant waste of costs/time and manufacturing delays. Thus, testing laboratories and manufacturing companies lay down specifications for raw materials right from the first stage of production.

Final Say!

High-quality material analysis generates insightful information, which may solve a lot of issues. Laboratory services have a wide range of materials, chemical experience, and a comprehensive range of analytical techniques. When these are applied, customers are provided with simple-to-understand information to give the answers they need to reduce costs and solve issues.

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