Atomic Emission X Ray Spectrometer Standards

1.1 This practice covers the general planning of a spectrochemical laboratory, the equipment necessary for efficient operation of such a laboratory, and recommended safety precautions to be considered. Principal equipment housed in such a laboratory may include optical emission...

This practice covers the general planning of a spectrochemical laboratory, the equipment necessary for efficient operation of such a laboratory, and recommended safety precautions to be considered. Principal equipment housed in such a laboratory may include optical emission spectrographs,...

1.1 This practice covers the general planning of a spectrochemical laboratory, the equipment necessary for efficient operation of such a laboratory, and recommended safety precautions to be considered. Principal equipment housed in such a laboratory may include optical emission...

1.1 This practice covers guidance for establishing and controlling atomic emission spectrochemical analytical curves. The generation of analytical curves and their routine control are considered as separate although interrelated operations. This practice is applicable to atomic...

This practice is intended as a fundamental guide for the calibration, standardization, and daily control of the analytical curves for atomic emission spectrometers. It is assumed that this practice will be used by trained operators capable of performing the procedures described...

This practice covers guidance for establishing and controlling atomic emission spectrochemical analytical curves. The generation of analytical curves and their routine control are considered as separate although interrelated operations. This practice is applicable to atomic...

5.1 This practice is intended to provide fundamental direction for the calibration, drift correction, and periodic control of the analytical curves for spark atomic emission spectrometers. 5.2 It is assumed that this practice will be used by trained operators capable of...

5.1 This sampling practice is useful for converting material taken from ingots or other solid materials into a homogeneous solid sample suitable for direct excitation on a spark atomic emission or X-ray fluorescence spectrometer. The resultant button may itself be...

5.1 This sampling practice is useful for converting material taken from ingots or other solid materials into a homogeneous solid sample suitable for direct excitation on a spark atomic emission or X-ray fluorescence spectrometer. The resultant button may itself be...

This method provides for the non-destructive analysis of treated wood and treating solutions by X-ray fluorescence spectroscopy. The method is applicable to the determination of elements of atomic number 5 or higher that are present in significant quantity in the wood (usually...

Using the quantum approach to the subject of atomic physics, this text keeps the mathematics to the minimum needed for a clear and comprehensive understanding of the material. Beginning with an introduction and treatment of atomic structure, the book goes on to deal with quantum...

This sampling practice is useful for converting chips, turnings, and wires taken from ingots or other solid materials into a homogeneous solid sample suitable for direct excitation on an optical emission or X-ray fluorescence spectrometer. The resultant button may itself...

This sampling practice is useful for converting chips, turnings, and wires taken from ingots or other solid materials into a homogeneous solid sample suitable for direct excitation on an optical emission or X-ray fluorescence spectrometer. The resultant button may itself...

This Japanese Industrial Standard specifies general rules when quantitative analysis is conducted using atomic emission spectrometer.

1.1 This guide covers guidelines for developing and describing analytical procedures using a wavelength-dispersive X-ray spectrometer. 1.2 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user...

This standard test method covers the determination of silicon in engine coolant concentrates by atomic absorption spectroscopy. Apparatus and reagents used for this test method include atomic absorption spectrometer, hollow-cathode lamp, reagent grade chemicals, standard...

1.1 This test method covers the X-ray emission spectrometric analysis of limestone, quicklime, hydrated lime, and hydraulic lime using wavelength dispersive instruments. 1.2 The values stated in SI units are to be regarded as the standard. 1.3 This standard does not purport to...

FOREWORD Recently developed, high-resolution X-ray detectors such as lithium-drifted silicon and germanium have resulted in widespread application of nondiffractive (also called nondispersive) analysis as an alternative or complementary technique to X-ray emission...

1.1 This practice describes the components of a direct current plasma (DCP) atomic emission spectrometer. This practice does not attempt to specify component tolerances or performance criteria. This practice does, however, attempt to identify critical factors affecting bias,...

X-ray fluorescence spectrometry can provide an accurate and precise determination of metallic and many non-metallic elements. This guide covers the information that should be included in an X-ray spectrometric analytical method and provides direction to the analyst for...