原位熱軋和熱循環(huán)對電弧增材制造低合金鋼微觀組織和力學性能的影響

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Abstract：Utilizing in-situhotrollng-assistedarcadditive manufacturing technology，this studyconductedadditive remanufacturing of motor shafts withlow-alloy steel wire.Through comparative analysis of single-layer and doublelayersamples，thestudyaimedtoelucidatetheeffectsofin-situhotrolingandthermalcyclingonthemicrostructure and mechanical properties of low-alloy steel.The results demonstrated that the microstructure without rolling was predominantly lath martensite. After undergoing roling，the lath martensite became fragmented and refined，and could further transform into tempered martensiteunder the influence of thermal cycling.The austenitic grains in the double-layer rolled samples were primarily equiaxed and exhibited characteristicsof discontinuous dynamic recrystallization.Compared to the single-layer rolled samples，the average grain size of the original austenite in the double-layerrolled samples wassignificantly reduced from 95.1μm to 32.8μm .Furthermore，in the dilution zone of the cladding layer of the double-layer rolled samples，a notable decrease in microhardnesswas observed.When comparing the roled samples to the unrolled samples，the tensile strength increased from 734MPa to 856MPa ，with a slight reduction in elongation.

Keywords：wire-arc additive manufacturing;in-situ roling; high-strength low-alloy steel; microstructure; mechanical property

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軸向組件廣泛應(yīng)用于需要旋轉(zhuǎn)運動、動力傳輸或結(jié)構(gòu)支撐的眾多行業(yè)和機械系統(tǒng)。（剩余5324字）