Detection
Shimadzu Spectrometer
The core function of Shimadzu's Japanese spectroscopic analyzer is to rapidly and accurately detect the elemental composition, content, and chemical structure of substances by analyzing their spectra (absorption, emission, or scattering spectra), enabling qualitative or quantitative analysis. It precisely identifies the elements or chemical components present in samples, serving applications such as raw material acceptance, production process monitoring, and finished product inspection to ensure compliance with material composition specifications.
Tensile Testing Machine
By continuously applying tensile force, key parameters such as tensile strength, yield strength, elongation, and elastic modulus are measured to determine the material's tensile limit and deformation capacity. Based on test results, suitable materials are selected and verified to ensure their tensile properties comply with industry standards or design specifications.
Impact Testing Machine
The core function of an impact testing machine is to evaluate the ability of materials or products to withstand instantaneous impact loads, thereby determining their impact resistance and brittleness/toughness. Based on the test results, appropriate materials are selected for different operating conditions to ensure their impact resistance meets industry standards or design requirements.
Metallographic Analyzer
The core function of metallographic analyzers is to observe and analyze the microstructural organization of metals, alloys, and other materials, revealing the relationship between microstructure and material properties. They clearly present grain size, metallographic structure, impurity distribution, and metallographic defects (such as cracks and porosity). By analyzing and observing metallographic structures, it explains the causes of variations in macroscopic properties like strength, hardness, and toughness, enabling optimization of process parameters for heat treatment, casting, and other techniques. It also identifies the root causes of issues like fracture and corrosion, and determines whether the microstructure meets standards or design requirements.
Salt Spray Tester
The core function of a salt spray tester is to simulate marine, coastal, or industrial salt spray environments to assess the extent of damage samples sustain under salt spray erosion. This process yields critical metrics such as salt spray endurance time and corrosion rating. It evaluates the corrosion resistance of materials or products, assesses the durability of their surface protective coatings, and determines overall corrosion resistance performance. By comparing test results from different processes, it optimizes surface protection techniques to enhance product corrosion resistance.
Coordinate Measuring Machine
The core function of a coordinate measuring machine (CMM) is to precisely measure the three-dimensional spatial dimensions, shape, and positional tolerances of parts, ensuring their geometric accuracy fully meets design requirements. It serves as the core equipment for high-precision quality inspection in mechanical manufacturing. It can measure complex part dimensions such as length, diameter, distance, and angle, and is particularly suited for curved surfaces and irregular structures that are difficult to measure with traditional gauges. It precisely evaluates part shape errors (such as roundness and flatness) and positional errors (such as parallelism and coaxiality), verifying compliance with the tolerance requirements specified in design drawings.
2D Image Measuring Instrument
The core function of the 2D imaging measuring instrument is to precisely measure the two-dimensional planar dimensions, geometric tolerances, and contour features of parts through optical imaging technology. It is particularly suitable for non-contact, high-precision quality inspection of small, complex planar parts. It can rapidly measure planar dimensions such as length, width, diameter, angle, distance, and radius, addressing challenges posed by traditional measuring tools in measuring minute dimensions or complex contours. It accurately assesses planar geometric errors in parts, supports automated measurement program creation, and enables rapid inspection of batch components like electronic components, precision molds, and hardware fittings. This significantly enhances quality inspection efficiency and consistency.
Roughness Tester
The core function of a roughness tester is to precisely measure the microscopic unevenness of a workpiece's surface (i.e., surface roughness), obtaining quantitative parameters to evaluate surface quality and ensure compliance with design specifications and operational requirements. It precisely measures core metrics such as Ra (arithmetic mean deviation of the profile) and Rz (maximum height of the profile), objectively quantifying the degree of microscopic surface undulations to eliminate subjective judgment errors. Surface roughness directly impacts a part's wear resistance, sealing integrity, and fit precision. Measurement ensures products meet functional requirements.
Ultrasonic Flaw Detector
The core function of the 2D imaging measuring instrument is to precisely measure the two-dimensional planar dimensions, geometric tolerances, and contour features of parts through optical imaging technology. It is particularly suitable for non-contact, high-precision quality inspection of small, complex planar parts. It can rapidly measure planar dimensions such as length, width, diameter, angle, distance, and radius, addressing challenges posed by traditional measuring tools in measuring minute dimensions or complex contours. It accurately assesses planar geometric errors in parts, supports automated measurement program creation, and enables rapid inspection of batch components like electronic components, precision molds, and hardware fittings. This significantly enhances quality inspection efficiency and consistency.
