DD140798A1 - HALL-MEASURING CELL FOR ELECTRONIC AND ION-LEADING FLUIDS - Google Patents

Abstract

The Hall measuring cell for electronically and ionically conductive Liquids is used to determine the Hall coefficient of liquid metals, semiconductors and ionic conductors. The goal of Invention is reproducible and Hallkoef.fizientmessungen to carry out higher temperatures. The solution according to the invention consists of a Hallmeßzelle from a single temperature resistant body, z, B. made of quartz glass, manufacture and the measuring volume with the Hall geometry by means of Ultrasonic or laser technology to drill. The invention finds Application in the investigation of transport mechanisms in Liquids.

Description

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Hall measuring cell for electronically and ionically conductive liquids Field of application of the invention

The Hall measurement cell is used to determine the Hall coefficient of liquid metals, semiconductors and ionic conductors.

Characteristic of the known technical solutions

Visher known and used Hallmeßzellen go to developments of G. Busch and Y. Tieche (Helvetica Phys Acta 35, 1962, 273), J.E. Enderby (Proc. Phys. Society 81,

1963, 772) and P.W. Kendall (Journal Scientific Instruments 41,

1964, 485) and consist of several individual parts (which no longer ensure leak-tightness of the cell at higher temperatures). There are two plates, one of which contains the Hall geometry and the other serves as a cover. At higher temperatures, the electronically or ionically conductive liquid runs between the plates, which leads to a short circuit of the measuring contacts or a destruction of the Hall geometry.

Object of the invention

The object of the invention is to perform Hall measurements reproducibly and at higher temperatures.

Explanation of the essence of the invention

The invention has for its object to produce a Hallmeßzelle that excludes a short circuit of the measuring contacts by leaking liquid and thus maintains the Hall geometry, which is necessary for precise measurements maintained.

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According to the invention this object is achieved by a Hallmeßzelle is made of a uniform temperature-resistant body. By means of suitable processing methods such as ultrasound or laser technology, the measuring volume and the corresponding Hall geometry are drilled in the block. Then the electrodes are fixed in the holes. At the other end of the gap there is an evasive volume for the remainder of the protective gas remaining in the gap. It serves to prevent. Bubble formations in the gap and to ensure complete filling of the Hallmeßzelle.

The measurement of the Hall coefficient then takes place by means of the usual measuring method, whereby it is guaranteed that the measurements are accurate even at higher temperatures.

embodiment

The invention will be explained in more detail using an exemplary embodiment. The accompanying drawing shows a Hallmeßzelle invention. · '. It consists z. B. from a quartz glass block in which by means of ultrasound, the gap 2, in which the molten sample is located, the volume for the thermocouple 3, the channel to the escape volume 4, "the escape volume 5, the openings for the current electrodes 6 and for the voltage electrodes 7 and the connecting channels between the voltage electrodes 7 and the gap 8 and the filling channel 9. The carbon electrodes are cemented with talc / water glass The measuring sample, eg tellurium, is placed in the filling tube 1 at a temperature of 450 ⁰ O melted under vacuum, degassed and printed with argon as inert gas in the Hallmeßzelle.

The measurement of the Hall coefficient then takes place according to the known method.

Claims (3)

invention claim 1. Hall measuring cell for electronic and ion-conducting liquids, characterized in that the Hallraeßzelle aua a uniform temperature-resistant base body (10), which is provided with the necessary Hall geometry exists. 2. Hall measuring cell according to item 1, characterized in that the uniform temperature-resistant base body (10) is preferably made of quartz, sapphire or ceramic. 3. Hall measuring cell according to item 1 and 2, characterized in that the measuring volume with the corresponding Hall geometry in the base body (10) is produced by means of ultrasonic or laser drilling. For this λ side drawing