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.
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
