Equipment

FTIR IN10【傅立葉紅外光譜】

分析快速﹝可在大氣及室溫環境下操作﹞,非破壞性的材料檢測與定性分析,可配合顯微鏡物件作微小汙染物分析,作為未知物分析、新材料開發。

FTIR AVATAR 330【傅立葉紅外光譜】

分析快速﹝可在大氣及室溫環境下操作﹞,非破壞性的材料檢測與定性分析,作為未知物分析、新材料開發。

TGA Q500【熱重量分析法】

了解材料的熱裂解溫度與成分比例,例如:加工油、膠、填充劑等訊息。

TGA i1000【熱重量分析法】

了解材料的熱裂解溫度與成分比例,例如:加工油、膠、填充劑等訊息。

DSC Q20【差示掃描量熱法】

了解材料的熱容量變化,例如:熔點、Tg點﹝玻璃轉化溫度﹞。

TMA 【熱機械分析】

藉由樣品的膨脹收縮現象,了解材料的熱容量變化,例如:Tg點(玻璃轉化溫度) 或是CTE﹝膨脹係數﹞等數據。

XRF 【X螢光光譜分析】

非破壞性檢測,針對RoHS﹝重金屬﹞、無鹵等元素分析。可分析元素範圍﹝12鎂(Mg)~92鈾(U)﹞。

SEM-EDS 6000plus 【掃描式電子顯微鏡元素分析】

針對各種材料表面微結構觀察,而EDS可提供樣品表面之微區定性或半定量之成份元素分析

Py-GC-MS 【熱裂解氣相層析質譜儀】

可精密分析高分子的有機成分。

Microtype Fourier Transform Infrared Spectroscopy (IN10)

FTIR is used for quick analysis (can be operated in the atmosphere and room temperature), non-destructive material testing and qualitative analysis. Incorporating with microscope, FTIR (IN10) could be used in small pollutants analysis, unknown analysis and new material development.

Fourier Transform Infrared Spectroscopy (AVATAR 330)

FTIR is used for quick analysis (can be operated in the atmosphere and room temperature), non-destructive material testing and qualitative analysis. FTIR could be used in unknown analysis and new material development.

Thermogravimetric analysis (Q500)

TGA is a thermoanalytical technique, it can be used for materials characterization (such as decomposition temperature and composition) through analysis of characteristic decomposition patterns. TGA analysis in rubber provides valuable composition information of plasticizer, polymer, carbon black, and inorganic filler.

Thermogravimetric analysis (i1000)

TGA is a thermoanalytical technique, it can be used for materials characterization (such as decomposition temperature and composition) through analysis of characteristic decomposition patterns. TGA analysis in rubber provides valuable composition information of plasticizer, polymer, carbon black, and inorganic filler.

Differential scanning calorimetry (Q20)

DSC is a thermoanalytical technique. The thermal transitions such as glass transition and melt point temperatures of rubber or other materials could be observed thourgh DSC analysis.

Thermomechanical Analysis

TMA is a thermoanalytical technique. The glass transition temperature and the coefficient of thermal expansion (CTE) of rubber could be observed thourgh TMA analysis.

X-ray Fluorescence Spectrometer

XRF is used for quick, non-destructive and semi-quantitative analysis. It could be used in RoHS (heavy metal), halogen and other elements of analysis. The range of analyzing elements is between magnesium(12) and uranium (92).

Scanning Electron Microscope-Energy Dispersive Spectrometer (6000 Plus)

The surface morphology of the material microstructure could be observed through SEM. EDS could provide the micro-region qualitative or semi-quantitative element analysis of the samples.

Pyrolysis-Gas Chromatography-Mass Spectrometry

Py-GC-MS is a chemical analysis in which the sample is heated to decomposition to produce smaller molecules that are separated by gas chromatography and detected using mass spectrometry. It could be used in organic components analysis of rubber.

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