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Download Free PDF. Noted that the model of the data logger and its driver software were surement results were used in the following sections to validate the TMR-211 and TMR-7200, respectively (Tokyo Sokki Kenkyujo numerical analysis. (Tokyo Sokki Kenkyujo numerical analysis. A combination of rosettes and axial strain gauges (FRA-3-11 and FLA-311-3LT, Tokyo Sokki Kenkyujo Co, LTD) were placed at the following locations (Fig. 6): femoral neck (M1 -rosette), medial shaft opposite to the plate (M2-rosette, M3-rosette), medial-distal region (M4-axial gauge) and lateral- distal region approximately 2 cm beneath the end. Turdo charged RS Watanabe 13 inch &Hoosier 20.5 × 7.0 R13 ① 8GC2 YAMAHA PHAZER ② 499.2cc ③ 80ps/11250rpm ④ 5.2kgf/9000rpm Naturally aspirated 7.2L Continuously Variable Transmission FCC TRAC ① 2outboard ② 2outboard CVT Edge Racing Flik Fork 15' on Achilles 123 195/50R15 front and rear ① PC40E HONDA CBR600RR ② 600cc ③ 88 HP.

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Purpose: The objective of this study was to understand the operating mechanism of the rock-drill drifter, to explain how to setup an experimental test system and measure the strain of the drifter’s rod, and to evaluate the drifter’s performance with respect to the impact energy and blow frequency. Methods: The structure of the rock-drill drifter and its operating principle regarding the impact process were analyzed. Static calibration was carried out to calculate the correction factor using a drifter rod as the first step of the experimental test. The impact energy and blow frequency were then calculated based on strain measurements of the drifter’s rod. Results: Experimental results showed that the tested drifter elicited a blow frequency of 3330 BPM (Blows Per Minute) and generated impact energy of 170 J/blow. This indicates that the drifter elicits a higher percussion speed and results in a lower impact energy compared to the hydraulic breaker at the same input power. Conclusions: The study proposed methodologies that deal with the experimental setup and the evaluation of the performance of the rock-drill drifter. These methodologies can be extensively used for validating and improving the percussion performance of the drilling equipment.

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  • Strain gauge
    • General use strain gauge
    • Waterproof strain gauge
    • High Temperature Use Strain Gauge
    • High and low temperature strain gauge
    • Cryogenic temperature use strain gauge
    • High Temperature Weldable Strain Gauge
    • Concrete Material Use Strain Gauge
    • Mold Strain Gauge
    • Composite Strain Gauge
    • Low elastic strain gauge
    • Low Elastic Strain Gauge Wood, Gypsum Use
    • Magnetic field strain gauge
    • Post-yield Strain Gauge
    • High Endurance Strain Gauge
    • One-side Strain Gauge
    • Crack Detection Gauge
    • Stress Gauge
    • Temperature Gauge
    • Bolt Strain Gauge
    • Temperature-integrated strain gauges
    • Strain gauge with a connector
    • Strain Checker
  • Strain gauge adhesives
    • Strain Gauge Adhesives
  • Coating materials
    • Coating Materials
    • Gauge Protector
    • Coating Tape for Reinforcing Bar
  • Lead wire, Connecting Terminals
    • Leadwires Dedicated to Strain Gauges
    • Recommended Leadwires for Leadwire-integrated Strain Gauges
    • Relay Cable
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  • Strain gauge related products
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    • Strain Gauge Clamping Jig
    • Spot Welder
    • Bolt axial force measuring wrench
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  • Windows Driver Package - TokyoSokkiKenkyujo TMR-211 TML is developed by TokyoSokkiKenkyujo TMR-211. The most popular version of this product among our users is 4.0. The product will soon be reviewed by our informers.
  • Experimental and Numerical Study of Micropiles to Reinforce High Railway Embankments Morteza Esmaeili1; Morteza Gharouni Nik2; and Farid Khayyer3 Abstract: The construction of railway embankments on loose beds using reinforcing elements results in a modification of the embankments slope, which significantly reduces the amount of earthworks.