Add to ORKGFurnaces are among the most crucial components in the glass and metallurgical industry. Nowadays, furnaces are being operated at higher temperatures and for longer periods of time thus increasing the rate of wear on the furnace refractory lining. Consequently, there is a great need for a nondestructive tool that can accurately measure refractory wall thickness at high temperatures. In this paper the utility of a frequency-modulated continuous-wave (FM-CW) radar is investigated for this purpose
The blast furnace hearth refractories are exposed to complex chemical attack and thermal stress eros...
This report provides a progress update for establishing a laboratory for material characterization i...
Ultra Wideband Radar has the potential of dramatically improving the control and surveillance of ind...
Furnaces are the most crucial components in the glass and metallurgical industry. Like any other com...
The refractory walls of glass tank furnaces degrade during their operational lifetime while prematur...
Refractory materials used in glass melting furnaces are etched away over time by molten glass. This ...
A frequency-modulated continuous-wave (FM-CW) handheld radar operating in the frequency range of 8-1...
A frequency-modulated continuous-wave (FM-CW) handheld radar operating in the frequency range of 8-1...
Knowledge of the electrical behavior of refractory materials may enable the development and optimiza...
Knowledge of the electrical behavior of refractory materials may enable the development and optimiza...
A systematic study using microwaves to facilitate refractory wall thickness measurements under vario...
Regression of refractory linings of furnaces occurs due to a variety of mechanisms. The specific mec...
Monitoring the wall thickness of a refractory furnace while in operation is a difficult task due to ...
The method was tested on lab. scale. Exptl. results with fused cast refractories at different temps....
Acousto – Ultrasonic – Echo (AU-E) method of non-distractive testing of refractory lining conditions...
The blast furnace hearth refractories are exposed to complex chemical attack and thermal stress eros...
This report provides a progress update for establishing a laboratory for material characterization i...
Ultra Wideband Radar has the potential of dramatically improving the control and surveillance of ind...
Furnaces are the most crucial components in the glass and metallurgical industry. Like any other com...
The refractory walls of glass tank furnaces degrade during their operational lifetime while prematur...
Refractory materials used in glass melting furnaces are etched away over time by molten glass. This ...
A frequency-modulated continuous-wave (FM-CW) handheld radar operating in the frequency range of 8-1...
A frequency-modulated continuous-wave (FM-CW) handheld radar operating in the frequency range of 8-1...
Knowledge of the electrical behavior of refractory materials may enable the development and optimiza...
Knowledge of the electrical behavior of refractory materials may enable the development and optimiza...
A systematic study using microwaves to facilitate refractory wall thickness measurements under vario...
Regression of refractory linings of furnaces occurs due to a variety of mechanisms. The specific mec...
Monitoring the wall thickness of a refractory furnace while in operation is a difficult task due to ...
The method was tested on lab. scale. Exptl. results with fused cast refractories at different temps....
Acousto – Ultrasonic – Echo (AU-E) method of non-distractive testing of refractory lining conditions...
The blast furnace hearth refractories are exposed to complex chemical attack and thermal stress eros...
This report provides a progress update for establishing a laboratory for material characterization i...
Ultra Wideband Radar has the potential of dramatically improving the control and surveillance of ind...