[{"title":"( 16 个子文件 4.93MB ) 基于Comsol仿真的涡流无损检测模型研究:探究频率、电导率、提离与线径对阻抗特性的影响,无损检测涡流检测模型的Comsol仿真分析:频率、电导率与阻抗关系研究,无损检测:涡流Comsol仿真 \n图一","children":[{"title":"2.jpg <span style='color:#111;'> 269.65KB </span>","children":null,"spread":false},{"title":"标题无损检测技术在涡流仿真中的应用.docx <span style='color:#111;'> 18.92KB </span>","children":null,"spread":false},{"title":"6.jpg <span style='color:#111;'> 111.10KB </span>","children":null,"spread":false},{"title":"无损检测涡流在仿真中的应用.html <span style='color:#111;'> 1.34MB </span>","children":null,"spread":false},{"title":"1.jpg <span style='color:#111;'> 224.60KB </span>","children":null,"spread":false},{"title":"无损检测技术涡流仿真分.html <span style='color:#111;'> 1.34MB </span>","children":null,"spread":false},{"title":"5.jpg <span style='color:#111;'> 133.30KB </span>","children":null,"spread":false},{"title":"无损检测是一种非破坏性的测试方法广泛应用于工业.docx <span style='color:#111;'> 13.99KB </span>","children":null,"spread":false},{"title":"无损检测技术中的涡流仿真研究在无.html <span style='color:#111;'> 1.34MB </span>","children":null,"spread":false},{"title":"无损检测技术与仿真分析随着科技的不.docx <span style='color:#111;'> 43.49KB </span>","children":null,"spread":false},{"title":"无损检测涡流仿真图一二维涡流检测模型图二电导.html <span style='color:#111;'> 1.34MB </span>","children":null,"spread":false},{"title":"题目涡流无损检测技术的深入探讨一初探涡流.html <span style='color:#111;'> 1.34MB </span>","children":null,"spread":false},{"title":"3.jpg <span style='color:#111;'> 85.76KB </span>","children":null,"spread":false},{"title":"无损检测涡流在仿真中的应用一引言随.docx <span style='color:#111;'> 42.90KB </span>","children":null,"spread":false},{"title":"无损检测是一种通过非接触方式对材料进行检测的.docx <span style='color:#111;'> 42.23KB </span>","children":null,"spread":false},{"title":"4.jpg <span style='color:#111;'> 184.16KB </span>","children":null,"spread":false}],"spread":true}]