曲げを受けるクランク軸の応力状況と疲労強度の評価
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概要
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Two kinds of crankshafts for automotive engines were employed in the present study. One was the forged product of 0.55%C steel, quenched & tempered (crankshaft A), and the other was the normalized nodular iron casting (crankshaft B). The states of stress under uniform bending were investigated on the crank-pin, web and journal along with the stress concentration on the fillet with the use of brittle coating and strain gages. The stress distributions on the middle section of the crank-pin and on the web section across the pin and journal fillets were, also, studied by photoelastic observation and Finite Element Method for a two dimensional model of crankshaft A. Then, reversed plane bending fatigue tests were made on both kinds of crankshafts with a resonance type fatigue test device. Based on the results of stress analysis, the nominal stress on the web section across both fillets was selected as the significant stress of the crankshaft under bending. Reversed bending fatigue tests were also carried out with plain specimens of nodular iron taken from B crankshafts. Finally, the S-N diagrams of the crankshafts expressed in terms f nominal stress of the web section were discussed in relation to the S-N diagrams of plain and notched specimens of the same material as the crankshafts. The results obtained are as follows: (1) The stress distribution on the crank-pin section seemed to be similar to that of a curved beam under bending. On the other hand, he stress distribution of the web section across the pin and journal fillets could be fundamentally regarded as simple bending of a straight beam. (2) The stress concentration factor (the measured maximum stress over the nominal stress) of crankshaft A on the web section across both fillets was estimated to be about 2.9 at the journal fillet. (3) Reversed bending fatigue fracture of crankshafts A and B occured actually through the web sections. (4) The fatigue test results of crankshaft A expressed by the nominal stress of web section mostly agreed with the evaluated S-N diagram of the crankshaft A based on the stress concentration factor of web section and the S-N relation of crankshaft material. The fatigue strength of the material of crankshaft A (quenched & tempered 0.55%Cl steel) was also evaluated from its hardness and microstructure. (5) The S-N relation of crankshaft B under reversed bending was found to lie about a quarter nominal stress level lower than the S-N relation of crankshaft A. Reversed bending S-N relations of plain specimens of normalized nodular iron (material of crankshaft B) were also found a quarter stress level lower than the evaluated S-N relation of the material of crankshaft A.
- 社団法人日本材料学会の論文
- 1976-01-15
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