1) microdamage detecting
骨微损伤检测
2) microdamage
骨微损伤
1.
Role of microdamage in bone remodeling and metabolic bone diseases;
骨微损伤、骨重建与代谢性骨病
3) damage identification
损伤检测
1.
The results show that the method of canceling noise is better,and this grounds for the bug detection and location of damage identification.
结果表明,该方法消噪效果好,为损伤检测的缺陷定位分析打下了基础。
2.
An analysis method of structural damage identification is presented based on.
在位移模态振型的基础上,提出了一种基于小波变换的结构损伤检测方法。
3.
Vibration_based damage identification is one of the few methods that detect changes in the structure on a global basis.
基于振动的损伤识别方法是少有的几种全局损伤检测方法之一 。
4) crack detection
损伤检测
1.
An improved crack detection method using modal frequencies of jacket platforms;
基于固有频率的海洋平台损伤检测方法的改进
2.
And the newest development in the area of crack detection is also summarized.
针对海洋平台损伤检测技术进行了分析,总结了国内外海洋平台损伤检测技术的最新进展。
3.
The lowest ten natural frequencies and modal shapes of the jacket models are calculated by finite element method,The evaluated modal parameters of the models with a crack at different location or of different depth in the underwater structure are calculated numerically for crack detection.
将基于不同模态特性参数的损伤检测方法应用于海洋平台 ,研究适用于海洋平台裂纹损伤的模态参数检测方法。
5) damage detection
损伤检测
1.
Application study of an improved genetic algorithm for frame structure damage detection;
运用改进的遗传算法进行框架结构损伤检测
2.
Structural damage detection based on modulus maximized wavelet transform of vibration mode;
基于振动模态小波变换模极大的结构损伤检测
3.
Application of BP artificial neural networks to structural damage detection and recognization;
BP人工神经网络在结构损伤检测与识别中的应用
6) structural damage detection
损伤检测
1.
Vibration-based structural damage detection of long-span bridges;
基于振动测试的大跨桥梁损伤检测
2.
Since the particle swarm optimization(PSO) algorithm is effective for the constrained optimization problem,it can also be a useful method for structural damage detection.
结构损伤检测问题常常可转化为数学上的约束优化问题。
3.
Modal analysis technology draws more and more attention in the development of study in structural damage detection.
选用一工程上常用的截面开口槽形梁,通过试验模态分析对结构损伤引起的模态频率移动进行了分析,从试验角度对四种损伤检测方法进行了有效性比较。
补充资料:微库仑检测器
分子式:
CAS号:
性质:又称电量检测器(coulometric detector)。将有机试样中的N,S及卤素分别转化为NH3,SO2及HX等,然后通过特制的库仑池,由库仑池吸收,与其中的溶液发生反应,使库仑池失去平衡,于是库仑池就通过电解特定物质来恢复平衡。电解中所耗电量可自动记录下来。
CAS号:
性质:又称电量检测器(coulometric detector)。将有机试样中的N,S及卤素分别转化为NH3,SO2及HX等,然后通过特制的库仑池,由库仑池吸收,与其中的溶液发生反应,使库仑池失去平衡,于是库仑池就通过电解特定物质来恢复平衡。电解中所耗电量可自动记录下来。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条