Well knowing that prevention of environmental destruction is imperative on global scale, we perform atmospheric analyses, water quality analyses, etc., based on accepted environmental standards. Tailored to our customers' needs, we offer fast, accuarate and reliable analysis services, ranging from screening of the six substances restricted by the RoHS directive using flourescent X-ray to a rigorously precise analysis.
The purpose of the RoHS directive is improvement of legal provisions regarding hazardous substances contained in electrical and electronic systems in order to minimize the negative impacts on the environment and human health. Based on our Company's abundant record of achievements, we undertake ingrediant analyses of numerous specimen from screening to a rigorously precise analysis.
Environmental analyses of the atmosphere and water quality and, upon request, selection of measures and propositions.
Measurement Accredition Registration:
Tokyo Inspection Institute of Measure & Weights No 595
Various measurements in working environments based on environmental standards and, upon request, selection of measures and propositions.
General support of ambient research analysis of the use of harzardous substances and environmental restoration.
Metal elements in solution samples are excited by argon plasma, high precision in the order of ppb to ppt with a quadrupole mass spectrometer.
Metal elements in solution samples are excited by argon plasma causing light emission which is measured in particular wavelengthes specific to certain metals. Operates with high precision in the order of ppb to ppt with a quadrupole mass spectrometer.
Examines the content and nature that elements are composed of by analysis of X-ray energy returned from X-ray irradiation on the specimen.
This fluorescent X-ray analyzer examines category and amount of a sample element by exposure with X-rays and subsequent analysis of generated energy. It is further capable of mapping the entire product and point (precision) analysis. The device seemlessly couples optical microscope observation and elemental analysis with an X-ray analyzer whilst scanning a sample with exposure of x-ray radiation in conjunction with a CCD camera and an X-ray detector.
This gaschromatograph mass spectroscope (GC-MS) passes a cylindrical 'column tube' carrying a specimen with its GC and is capable of separate quantitative element identification and further allows qualitative analysis of the thus separated peak by means of measuring the mass spectrum inside the MS. It enables high precision measurements thanks to screening and detection by selection of atomic mass numbers.