Abstract
In laboratory tests a method was found to control continuously and non-contacting the degree of admission of filler rods. Behind the filling station the absorption of the ionizing radiation of a {sup 90}Sr beta source is measured. After successful tests with the laboratory equipment on the manufacturing machine of filler rods a prototype plant was constructed. The calibration is made by setting the measuring value of the empty filler rod equal to 0% and the measuring value of the optimum degree of admission equal to 100%. Between these two joints a scale is calculated so that to each measuring value a degree of admission can be assigned. The measuring time is 1 s. The limits of the allowable degrees of admission are freely adjustable. The construction of the plant is described. (authors).
Citation Formats
Frevert, E, Markowitsch, P, and Volkmann, W.
Continuous non contacting control of the degree of admission of filler rods; Kontinuierliche beruehrungslose Kontrolle des Fuellgehaltes von Roehrchenschweissdraehten.
Austria: N. p.,
1991.
Web.
Frevert, E, Markowitsch, P, & Volkmann, W.
Continuous non contacting control of the degree of admission of filler rods; Kontinuierliche beruehrungslose Kontrolle des Fuellgehaltes von Roehrchenschweissdraehten.
Austria.
Frevert, E, Markowitsch, P, and Volkmann, W.
1991.
"Continuous non contacting control of the degree of admission of filler rods; Kontinuierliche beruehrungslose Kontrolle des Fuellgehaltes von Roehrchenschweissdraehten."
Austria.
@misc{etde_10139724,
title = {Continuous non contacting control of the degree of admission of filler rods; Kontinuierliche beruehrungslose Kontrolle des Fuellgehaltes von Roehrchenschweissdraehten}
author = {Frevert, E, Markowitsch, P, and Volkmann, W}
abstractNote = {In laboratory tests a method was found to control continuously and non-contacting the degree of admission of filler rods. Behind the filling station the absorption of the ionizing radiation of a {sup 90}Sr beta source is measured. After successful tests with the laboratory equipment on the manufacturing machine of filler rods a prototype plant was constructed. The calibration is made by setting the measuring value of the empty filler rod equal to 0% and the measuring value of the optimum degree of admission equal to 100%. Between these two joints a scale is calculated so that to each measuring value a degree of admission can be assigned. The measuring time is 1 s. The limits of the allowable degrees of admission are freely adjustable. The construction of the plant is described. (authors).}
place = {Austria}
year = {1991}
month = {Dec}
}
title = {Continuous non contacting control of the degree of admission of filler rods; Kontinuierliche beruehrungslose Kontrolle des Fuellgehaltes von Roehrchenschweissdraehten}
author = {Frevert, E, Markowitsch, P, and Volkmann, W}
abstractNote = {In laboratory tests a method was found to control continuously and non-contacting the degree of admission of filler rods. Behind the filling station the absorption of the ionizing radiation of a {sup 90}Sr beta source is measured. After successful tests with the laboratory equipment on the manufacturing machine of filler rods a prototype plant was constructed. The calibration is made by setting the measuring value of the empty filler rod equal to 0% and the measuring value of the optimum degree of admission equal to 100%. Between these two joints a scale is calculated so that to each measuring value a degree of admission can be assigned. The measuring time is 1 s. The limits of the allowable degrees of admission are freely adjustable. The construction of the plant is described. (authors).}
place = {Austria}
year = {1991}
month = {Dec}
}