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Experimental Investigation on Relationship Between Steel Barâ€™s Compressive Stress and Induction EMF

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ã€Authorã€‘ CHEN Geng-ye~1, LI Yan-feng~1, TIAN Jun~1, YAO Guang-ren~2(1. School of Resources & Civil Engineering, Northeastern University, Shenyang 110004, China; 2. School of Information Science & Engineering, Northeastern University, Shenyang 110004, China. )

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ã€Abstractã€‘ A compression test was done in combination with induction EMF(electromotive force) to investigate the relationship between the EMF variable Îµ and compressive stress Ïƒ, taking the D25mm HPB 235 and HRB 335 steel bars as specimens. The specimens were passing through an AC induction coil and a tiny EMF was produced axially in the steel bar. Then the specimens were compressed by a hydraulic press. Testing results showed that the EMF Îµ decreases with the increasing stress Ïƒ, but Ïƒ increases with the increasing EMF increment Î”Îµ, and the relationship between the two variables, i.e., Îµ and Ïƒ, or Ïƒ and Î”Îµ, can be expressed respectively by a linear fitting equation. The stress obtained from the induction EMF measured was compared to that obtained from the strain measured one by one, from which the relative mean error was 2.94%. According to the Biot and Savart Law, the reason why the axial current component I_h in the induction coil winding obliquely around a specimen forms a traverse magnetic field B_x was explored.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ HPB235 steelï¼› compressive stressï¼› induction electromotive forceï¼› experimental investigationï¼› traverse magnetic fieldï¼›

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Experimental Investigation on Relationship Between Steel Barâ€™s Compressive Stress and Induction EMF

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