机械工程学报
機械工程學報
궤계공정학보
CHINESE JOURNAL OF MECHANICAL ENGINEERING
2015年
8期
9-13
,共5页
张卫民%邱忠超%袁俊杰%于霞
張衛民%邱忠超%袁俊傑%于霞
장위민%구충초%원준걸%우하
金属磁记忆%磁机械效应%应力定量化%应力磁化反转
金屬磁記憶%磁機械效應%應力定量化%應力磁化反轉
금속자기억%자궤계효응%응력정양화%응력자화반전
metal magnetic memory%magneticmechanical effect%stress quantification%stress-induced magnetization reversal phenomenon
对利用金属磁记忆检测技术在应力评价方面的研究现状进行总结,分析磁记忆检测原理和磁机械效应理论之间、应力磁化反转现象和接近定律之间的关系,认为金属磁记忆效应,是稳恒弱磁场激励下的一种力磁效应,符合磁机械效应理论的相关描述和结论。指出弱磁激励情况下力磁关系的非线性、以及检测结果易受众多干扰因素影响的特点,给利用磁记忆检测技术进行应力定量化评价带来实质性困难。磁记忆检测技术的优势,应在研究铁磁材料塑性阶段濒临损伤前的微观缺陷和信号异变的复杂关系以及应力集中和损伤综合作用下异变磁信号的快速和有效识别等方面。
對利用金屬磁記憶檢測技術在應力評價方麵的研究現狀進行總結,分析磁記憶檢測原理和磁機械效應理論之間、應力磁化反轉現象和接近定律之間的關繫,認為金屬磁記憶效應,是穩恆弱磁場激勵下的一種力磁效應,符閤磁機械效應理論的相關描述和結論。指齣弱磁激勵情況下力磁關繫的非線性、以及檢測結果易受衆多榦擾因素影響的特點,給利用磁記憶檢測技術進行應力定量化評價帶來實質性睏難。磁記憶檢測技術的優勢,應在研究鐵磁材料塑性階段瀕臨損傷前的微觀缺陷和信號異變的複雜關繫以及應力集中和損傷綜閤作用下異變磁信號的快速和有效識彆等方麵。
대이용금속자기억검측기술재응력평개방면적연구현상진행총결,분석자기억검측원리화자궤계효응이론지간、응력자화반전현상화접근정률지간적관계,인위금속자기억효응,시은항약자장격려하적일충력자효응,부합자궤계효응이론적상관묘술화결론。지출약자격려정황하력자관계적비선성、이급검측결과역수음다간우인소영향적특점,급이용자기억검측기술진행응력정양화평개대래실질성곤난。자기억검측기술적우세,응재연구철자재료소성계단빈림손상전적미관결함화신호이변적복잡관계이급응력집중화손상종합작용하이변자신호적쾌속화유효식별등방면。
Research status on stress quantitative evaluation using metal magnetic memory method is summarized. The relationship between magnetic memory principle and magnetomechanical effect theory, and the relationship between stress-induced magnetization reversal phenomenon and “law of approach” are analyzed, respectively. Magnetic memory effect is stress-magnetic effect in steady weak magnetic field excitation, consistent with the relevant descriptions and conclusions of magneticmechanical effect theory. The factors that the non-linear relationship of stress-magnetization in weak magnetic field excitation and the testing results susceptible to numerous interference factors bring substantial difficulties for stress quantitative evaluation. The complex relationship between microscopic defects and magnetic field aberration in plastic stage of ferromagnetic material, and the rapid and effective identification of abnormal magnetic signal under the combined effect of stress concentration and damage should be focused on in the future.
