[1] 陈传尧.疲劳与断裂[M].武汉:华中科技大学出版社,2002:1.
[2] 李秀芬,吴佩刚,赵光仪.高强混凝土梁抗弯疲劳性能的试验研究[J].土木工程学报,1997, 30(5):37-42. LI Xiu-fen, WU Pei-gang, ZHAO Guang-yi. Experimental research on bending fatigue behavior of high-strength concrete beams[J]. China Civil Engineering Journal, 1997, 30(5):37-42.
[3] 金伟良,张军,陈才生,等.基于压磁效应的钢筋混凝土疲劳研究新方法[J].建筑结构学报,2016,37(4):133-142. JIN Wei-liang, ZHANG Jun, CHEN Cai-sheng et al. A new method for fatigue study of reinforced concrete structures based on piezomagnetism[J]. Journal of Building Structures, 2016, 37(4):133-142.
[4] ERBER T, GURALNICKZ S A, DESAIZ R D. Piezomagnetism and fatigue[J]. Journal of Physics D:Applied Physics, 1997, 30(20):2818-2836.
[5] JILES D C. Theory of the magnetomechanical effect[J]. Journal of Physics D:Applied Physics, 1995,28(8):1537-1546.
[6] JILES D C, LI L. A new approach to modeling the magnetomechanical effect[J]. Journal of Applied Physics, 2004, 95(11):7058-7060.
[7] GURALNICK S A, BAO S, ERBER T. Piezomagnetism and fatigue:Ⅱ[J]. Journal of Physics D:Applied Physics, 2008, 41(11):1-11.
[8] BAO S, ERBER T, GURALNICK S A, et al. Fatigue, magnetic and mechanical hysteresis[J]. Strain, 2010, 47(4):372-381.
[9] VANDENBOSSCHE L, DUPR L. Fatigue damageassessment by the continuous examination of the magnetomechanical and mechanical behavior[J]. Journal of Applied Physics, 2009, 105:07E707.
[10] 中国科学院金属研究所.GB/T15248-2008:金属材料轴向等幅低循环疲劳试验方法[S].北京:中国标准出版社,2008.
[11] BIRSS R R, FAUNCE C A, ISAAC E D. Magnetomechanical effects in iron and iron-carbon alloys[J]. Journal of Physics D:Applied Physics. 1971, 4(7):1040-1048.
[12] DUBOV A A. A study of metal properties using the method of magnetic memory[J]. Metal Science and Heat Treatment. 1997, 39(9):401-405.
[13] BAO S, FU M,GU Y. Evolution of the piezomagnetic field of ferromagnetic steels subjected to cyclic tensile stress with variable amplitudes[J]. Experimental Mechanics, 2016, 56(6):1017-1028. |