Abstract: In the copper-alloy-based sliding material, alloy steel particles containing fine carbides are dispersed in a range of 1 to 20 wt % of the total weight into a Cu-based matrix containing 5 to 15 wt % of Sn, and the copper-alloy-based sliding material has a Vickers hardness in a range of 44 to 148 as a macro hardness.

Abstract: In the copper-alloy-based sliding material, alloy steel particles containing fine carbides are dispersed in a range of 1 to 20 wt % of the total weight into a Cu-based matrix containing 5 to 15 wt % of Sn, and the copper-alloy-based sliding material has a Vickers hardness in a range of 44 to 148 as a macro hardness.

Abstract: A pressure-type flow rate control apparatus controls the flow rate of fluid passing through an orifice to a target flow rate. The flow rate of a compressible fluid under non-critical conditions (sub-sonic) passing through the orifice is calculated by: Qc=KP2m(P1?P2)n so that the flow rate can be controlled to the target flow rate with high precision and speed. Also provided is an improved pressure-type flow rate control apparatus in which a pressure ratio P2/P1=r, obtained from an upstream pressure P1 and a downstream pressure P2 is constantly compared with a critical value r, and under critical conditions (r?rc), the flow rate is calculated by: Qc=KP1. Under non-critical conditions (r>rc), the flow rate is calculated by Qc=KP2m(P1?P2)n.

Abstract: A pressure-type flow rate control apparatus controls the flow rate of fluid passing through an orifice to a target flow rate.

Abstract: In a surge absorber, capable of suppressing a voltage surge and a current surge together without interrupting a signal transmission, an input electrode and an output electrode are spaced apart on the surface of a varistor substrate, and a resistance element is connected between the electrodes. A ground electrode is provided on the reverse side of the varistor substrate so as to face the input electrode with the varistor element therebetween. Thereby, a varistor element is formed by the input electrode and the ground electrode where a voltage surge and a current surge can be suppressed by the resistance element, and where a signal waveform is not weakened by capacitance of the varistor element, and ordinary signal transmission is not interrupted.

Abstract: A brilliance control circuit capable of automatically controlling the brilliance of fluorescent display tubes, comprising a lighting voltage regulating circuit incorporating a circuit element which decreases the lighting voltage when the current flowing through the fluorescent display tube increases, and increases the lighting voltage when the current decreases.