DD273332A1 - ROENTGEN TROUGH FOR THE STUDY OF SUBSTANCES - Google Patents

Abstract

The invention relates to a Roentgenroehre for the investigation of substances by X-ray fluorescence analysis and X-ray diffractometry. The goal and task was to specify a tube tube with such an anode construction, which does not require a layer structure, but is nevertheless suitable for universal analysis methods. According to the invention, the object is achieved in that the anode is formed as a reflection anode and the roentgen-active material of the anode beryllium is with a layer thickness of 20 mm to 500 mm.

Description

X-ray tube for the investigation of substances

Field of application of the invention

The invention relates to an X-ray tube for the investigation of substances. It is applicable to the X-ray analysis probe as a primary ray source in X-ray fluorescence analysis, X-ray diffraction, and X-ray absorbance for material characterization, for example, in the case of carbon dioxide measurements or partial size determinations.

Characteristics of the known state of Teohnik

X-ray tubes for the investigation of substances are z. B. from DE-OS 29 24 244, BP 127 229 and EP 127 230 known. In EP 127,229 z. Example, an X-ray tube for generating soft X-rays described, the reflection anode made of silver or copper, to which an intermediate layer and then a Skandiumachioht is applied. This X-ray tube produces a relatively large long-wave radiation fraction and is used for the Naohweia of low atomic number elements. A disadvantage is the layer structure of the anode, which causes technological difficulties and the characteristic scandium lines veruraaohenden in the spectra disturbances. ,

Object of the invention

The object of the invention was to provide an X-ray tube, which is characterized by a einfaohen as possible technical structure and suitable for the quantitative and qualitative detection of elements of a large atomic number range.

Explanation of the essence of the invention

Based on the object of the invention, the object was to provide an X-ray tube with such Anodenkonatxuktion that does not require a layer structure, but is still suitable for universal Analysve'fahren. According to the invention the object has been achieved in that the anode was formed as a reflection anode and the anode material is beryllium.

-I- ZUiU

Surprisingly, it has been found that when using beryllium as the anode material, the determined energy spectra of the objects to be examined have a sufficient intensity and - since they are not affected by the sohwaohen characteristic lines of the Be - can be very well evaluated · Since the exciting spectrum only Bremsstrahlung shares contains, z. For example, in the energy-dispersive Böntgenflubreszenzanalyse also the possibility that the fluorescence spectra can be calculated relatively accurately preceded · The layer thickness of beryllium can be 20 / Um to 500> to.

AusführunKsbeispiel

The invention will be explained in more detail below in an exemplary embodiment. The X-ray tube according to the invention has an anode support which consists of copper or silver and is designed as a reflection anode with a porous anode. This can be achieved by soldering, sintering, diffusion bonding or other known methods. The layer thickness of the beryllium can be chosen to be 20, .mu.m and 500 / .mu.m corresponding to the operating voltage range of the x-ray tube.

The use of beryllium as the anode material has the advantage that a complex sole structure of the anode is avoided. In addition, the excited lines can be determined much more simply and accurately in the evaluation of the spectra, since the fluorecence spectrum is not influenced by characteristic lines of the exciting spectrum , Furthermore, especially in the energy-dispersive X-ray fluorescence analysis, the spectrum can be precalculated relatively accurately ·

Claims (1)

claim X-ray tube for the examination of substances with a reflection anode, characterized in that the active substance of the anode is beryllium 1 with a density of 20 to 500 / μm.