This section provides an overview for material characterization as well as their applications and principles. Also, please take a look at the list of 4 material characterization manufacturers and their company rankings. Here are the top-ranked material characterization companies as of November, 2024: 1.KEYCOM Corporation.
Table of Contents
Material Characterization measures and evaluates the physical, chemical, and mechanical properties and performance of materials.
Properties such as strength, hardness, durability, thermal conductivity, electrical conductivity, and chemical stability of materials are tested. This provides a quantitative understanding of how a material will behave under certain conditions. Test results are used for material design, selection, and durability prediction.
Material Characterization allows objective evaluation of material properties, improving product quality control and quality assurance and reducing the risk of defective products. Additionally, the behavior of materials under specific environmental conditions can be evaluated, enabling the selection of the most appropriate material.
Material Characterization is used in a variety of applications. The following are some examples:
Research institutes perform Material Characterization to characterize new materials and determine how their properties affect material design and application. This leads to the development of new high-strength materials, energy-efficient materials, and environmentally friendly materials, among others. A better understanding of the physical and chemical properties of materials is possible.
Material Characterization of automotive parts and bodies evaluates their safety in collisions and durability in long-term use. Material strength, fatigue properties, durability, and corrosion resistance are important. Additionally, material property tests are conducted when developing new lightweight materials yet maintain strength and safety, as vehicle bodies are required to be lighter following stricter fuel consumption and environmental regulations.
Materials for aircraft engine parts and airframe parts must withstand high temperatures and extreme environmental conditions. Material Characterization can evaluate the strength and heat resistance of specific materials at elevated temperatures.
Additionally, aircraft require lightweight yet high-strength materials to improve fuel efficiency and flight performance. Through Material Characterization, materials such as composite materials and titanium alloys that have both of these characteristics can be evaluated.
This test is performed to evaluate the strength and fire resistance of concrete, reinforcing steel, wood, and other materials. This is essential to meet building and safety standards.
Material Characterization evaluates the physical, chemical, and mechanical properties of materials. The first step is to prepare the specimen to be tested. The specimen is machined to a specific shape and size and adjusted to fit the test equipment.
The necessary testing equipment is then prepared to perform the various tests. These testing machines are designed to apply precise loads to the test specimens. The loads defined by these testing machines are applied to the specimen.
During the test, physical quantities such as loads and displacements or stresses in the specimen are measured. This allows the behavior and properties of the specimen to be quantified. The measured data are recorded for later analysis and comparison.
The data obtained from the test results are used for characterization and analysis. This is often used to determine the performance and applicability of the material. Through the above procedures, material characterization testing provides reliable data for various industrial and research fields, contributing to the design of materials and the development of new technologies.
There are many different types of Material Characterization. The following are some examples:
Impact testing is used to evaluate how a material behaves under impact or sudden loading. It is performed to measure the toughness of a material and to evaluate its fracture behavior and energy absorption, especially when subjected to sudden loading. Charpy impact testing is an example.
Fatigue testing is used to evaluate how a material will hold up under repeated loading. The fatigue failure or failure behavior caused by the repeated loading of a material over a long period can be verified. The fatigue life is evaluated by the number of cycles and stress amplitude by applying a specified cyclic load to the specimen.
Thermophysical property tests are used to determine the thermal conductivity and coefficient of thermal expansion of materials. These are important factors in determining the performance of a material under design and usage conditions.
Electrical and magnetic property tests are used to measure the electrical conductivity, magnetic properties, and insulation properties of materials. These properties directly affect the design and performance of electronic devices. Electrical resistance, capacitance, and magnetic permeability can be determined.
*Including some distributors, etc.
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ANSYS, Inc., established in 1970, is an American multinational manufacturer headquartered in Canonsburg, Pennsylvania, specializing in simulation software. The company develops ANSYS Simulation Software, a suite of tools used for computer-aided engineering analysis. These software tools empower engineers and designers to simulate and assess product and system behavior across various industries, including aerospace, automotive, electronics, healthcare, and energy. The software offers a wide array of simulation capabilities, encompassing electromagnetics, fluid dynamics, multiphysics simulations, and structural analysis. By utilizing ANSYS software, engineers can streamline product development, enhance overall product performance, address complex engineering challenges, and foster innovation throughout the design process.
ATS Scientific Inc. operates as a distributor of scientific instruments and laboratory equipment, founded in 1989 and based in Ontario, Canada. Its product offerings encompass particle size analyzers, spectroscopy instruments, and thermal analysis equipment, among other equipments. The company's clientele includes research institutions, pharmaceutical companies, and material testing laboratories. The company's portfolio find application as it provides tools to study particle properties, analyze chemical compositions, and investigate thermal behavior, thus beng used for test such as cannabis testing, chromatography, image analysis and many more.
HORIBA RADIO LABORATORY was established in Japan in 1945 and has spent the last three-quarters of a century growing as an R&D company and engaged in international operations. HORIBA Scientific offers 200 years of experience developing high-performance scientific instruments and analytical solutions. The HORIBA Group of worldwide companies provides an extensive array of instruments and systems for applications ranging from automotive R&D, process and environmental monitoring, in-vitro medical diagnostics, semiconductor manufacturing, and metrology to a broad range of scientific R&D and QC measurements. Operating in Asia, Europe, and North and South America, HORIBA scientific develops solutions that go beyond just products.
Ranking as of November 2024
Derivation MethodRank | Company | Click Share |
---|---|---|
1 | KEYCOM Corporation |
100.0%
|
Derivation Method
The ranking is calculated based on the click share within the material characterization page as of November 2024. Click share is defined as the total number of clicks for all companies during the period divided by the number of clicks for each company.Number of Employees
Newly Established Company
Company with a History
*Including some distributors, etc.
*Including some distributors, etc.
Country | Number of Companies | Share (%) |
---|---|---|
United States of America | 2 | 50.0% |
japan | 1 | 25.0% |
Japan | 1 | 25.0% |