Shanghai Advanced Metallurgical Technology Corporation-Test&Analysis

> Chemical composition analysis:

Qualitative or quantitative detection of the alloy element composition of metal materials through methods such as spectrometer, electron microscopy energy spectrum analysis, nitrogen hydrogen oxygen analysis, infrared carbon sulfur analysis, wet titration, etc.

> Comprehensive mechanical performance testing:

By using equipment such as hardness testers, universal testing machines, and impact testing machines, the mechanical properties of metal materials such as hardness, tensile strength, shear strength, impact toughness, high-temperature creep resistance, fatigue strength, and residual stress are tested.

> Physical performance testing:

The testing and analysis of the physical properties of metal materials, mainly including magnetism, thermal expansion coefficient, elasticity, thermal sensitivity, resistance, and other properties.

> Metallographic structure analysis:

By using metallographic preparation methods, the microstructure of metal materials is observed and analyzed, including macroscopic morphology, microscopic structure analysis, evaluation of martensite and other microstructure levels, evaluation of carbide levels, evaluation of non-metallic inclusion levels, segregation of microstructures, detection of infiltration depth, residual austenite detection, etc.

> Non destructive testing:

also known as non-destructive testing, it identifies whether there are defects inside the material without damaging the material itself through methods such as ultrasonic, magnetic powder, eddy current, fluorescent penetration, and radiation.

> Corrosion resistance testing:

Using artificial simulated salt spray environmental conditions created by salt spray testing equipment, such as neutral salt spray test, alternating salt spray test, accelerated salt spray test, etc., to assess the corrosion resistance performance of metal materials.

> Cleanliness testing:

a method of detecting the surface cleanliness of metal materials through methods such as weight method and particle method.

> Reverse analysis

> Failure analysis

> Coating analysis

> Welding qualification

etc.

Metal testing and analysis:

In materials science and engineering, there are famous material four element diagrams, namely composition and microstructure, synthesis and processing technology, physical and chemical properties, and performance. Different element ratios constitute different types of alloy materials, and different heat treatments endow the materials with different organizational structures, combined with specific processing procedures to achieve performance requirements in different environments. The four elements are interrelated and influence each other, which leads to the detection of materials.

The testing of metal materials mainly includes chemical composition analysis, comprehensive mechanical property testing, physical property testing, metallographic structure analysis, non-destructive testing, corrosion resistance testing, cleanliness testing, and other categories.

Testing & Analysis