探讨了高应变速率(动态)和低温对10NiCrMo船体钢拉伸力学性能的影响.拉伸试验结果表明:室温下,在应变速率较低时(1.6×10-3/s ~ 1.6 × 10-1/s),随着应变速率增加,强度和塑性变化不大;而当应变速率较高时(2.8×102/s~1.2×103/s),总体上强度和塑性随应变速率的增加而有所增加,未发生脆化现象.在室温至-196℃温度范围内,常规应变速率下,抗拉强度Rm随温度的降低而增加,-196℃时的强度增加约30%;而断后伸长率随温度的降低也有增加,增加约14%,不但未出现低温脆性,而且有好于室温的塑性.但当较高应变速率和低温共同作用时,与常规拉伸试验结果相比,试验钢的强度明显增加,而塑性明显下降,下降约50%.10NiCrMo船体钢在高应变速率、低温条件下独特的力学性能与均匀变形能力和断裂机制的变化有关,材料的塑性与其断裂方式无对应关系.
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