ISO/IEC 17025 Analytical Equipments
By taking advantages of our analytical equipments and tools to meet specific application, the material analysis is conducted to identify its property and problem. With our own extensive equipments, a complex analysis can be conducted using a combination of instrumental techniques that enable to lead a true result for the case with difficulty in solving problem only by a single tool. The analytical equipments we own are mainly categorized in 5 types.
Thermal analysis
| Technique |
Application and feature |
| Dynamic Mechanical Analysis(DMA) |
Measurement of Tg, Storage elastic modulus,Loss elastic modulus |
| Differential Scanning Calorimeter(DSC) |
Measurement of Tg, Endothermic-exothermic energy
(including photo-curing reaction) |
| Thermo-Mechanical Analysis(TMA) |
Measurement of Tg, linear expansion coefficient |
| Thermogravimetry/Differential Thermal Analysis(TG/DTA) |
Measurement of thermogravimetric |
| Laser Flash Analyzer(LFA) |
Measurement of thermal diffusivity |
| Rheo meter |
Measurement of melt viscosity,shear viscosity |
Morphological observation
| Technique |
Application and feature |
| Stereo Microscope(SM) |
Observation of surface at magnification from 35× to 330×. Allowing images to be viewed in colors similar to be viewd by naked eyes. |
| Optical Microscope(OM) |
Observation of surface at magnification from 150x to 3000x. Allowing images to be viewed in colors similar to be viewed by naked eyes. |
| Scanning Electron Microscope(SEM) |
Morphological observation (Magnification in several K times) |
| Field-Emission Scanning Electron Microscope (FE-SEM) |
Morphological observation (Magnification in several 100K times) |
| Equipped with STEM |
Equipped with transmittance detector |
| Laser microscope(LM) |
Observation and measurement of surface concavo-convex shape and gap |
| White Light Interferometric Microscope |
Observation and measurement of surface concavo-convex shape and roughness |
Inorganic-organic analysis / Chemical composition analysis
| Technique |
Application and feature |
| Energy Dispersive X-ray spectrometer(EDX) |
Micro region, Surface elemental analysis (Equipped with SEM,FE-SEM) |
| X-ray Fluorescence spectrometer(XRF) |
Bulk, Liquid, Elemental analysis (Na to U) |
| Fourier transform Infrared spectrum photometer(FT-IR) |
Chemical composition analysis |
Chromatograph
| Technique |
Application and feature |
| Gas chromatograph(GC) |
Qualitative and quantitative of gaseous substance |
| Gas chromatograph mass spectrometer(GC/MS) |
Qualitative and quantitative of Organic compound |
| Volatile Organic Compounds analyzer(VOC) |
Quantitative analysis of volatile organic compounds |
| Ion chromatograph(IC) |
Quantitative analysis of cations and anions, Halogen analysis |
| Liquid chromatograph(LC) |
Qualitative and quantitative of liquid materials |
| Liquid chromatography–mass spectrometry (LC-MS) |
Qualitative and quantitative of analysis |
| Gel permeation chromatograph(GPC) |
Measurement of distribution and average of molecular weight |
Pre-treatment equipment
| Technique |
Application and feature |
| Specimen grinder |
Grinding of casting mold for microscope and SEM. |
| Rotary microtome(MT) |
Specimen fabrication for micro scope and SEM |
| Ultra microtome(UT-MT) |
Specimen fabrication for SEM and TEM
Freeze sectioning method available |
| Ion-milling |
Specimen fabrication for SEM and TEM (with Ar ion beam) |
| Electric Micro Manipulator(MP) |
Collection of minute object |
