kvp
- 网络管电压;千伏峰值
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These phosphors characteristically exhibit an extremely linear response over a broad kVp range .
这些荧光粉在管电压范围内具有非常直的反应。
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Results Corresponding filtering plate should be used in exposure by different KVP .
结果在不同KV摄片时必须使用不同性质和厚度的滤过板。
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Results A novel digital kVp meter has been developed .
结果研制了一种非介入式kVp计。
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The actual codes necessary are computed during the digital KVp calibration procedure .
实际所必须的数字码会在数字千伏值的校正过程中被计算出来。
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In this paper , Passive definition of differential algebraic systems and KVP property definition were proposed .
本文提出了微分代数系统无源的定义以及KVP特性的定义。
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The most vessels were showed with the X-ray tube voltage of 85 kVp .
当X线管电压为85kVp时显示的体模管最多。
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The Effect of KVP Cardioplegic Solution on Diastole of Ischemic Hearts
钾维普停搏液对幼鼠心脏缺血期舒张力的影响
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The Effect and Mechanism of Single Perfusion of " KVP " Cardioplegia on Immature Ischemia Myocardium
单次灌注钾维普停搏液保护未成熟缺血心肌效应与机制
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The WFS specification has more information on KVP encoding .
WFS规格拥有关于KVP解密的更多信息。
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Data is loaded into the KVp digital to analog converter on A4 and A8 .
这个数据会被载入A4和A8区的数模转换器。
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The experimental study of the optimized kVp and it 's relationships with the surface dose of phantom and the phantom thickness
最佳kVp与体模表面剂量和体模厚度关系的实验研究
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Conclusions : The kVp on X-ray tube should be indicated whenever specification of the lead equivalent for protective materials is described .
结果:含铅防护材料的铅当量随X射线峰值管电压变化不大;非含铅防护材料的铅当量随X射线峰值管电压变化较大。
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" KVP " cardioplegic solution can lower diastole of the ischemic hearts , is beneficial for ischemic myocardial protection .
“钾维普”停搏液停搏的心脏缺血期间基础张力降低,有利于缺血心肌的保护。
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Results From blank exposure experiments of seven combinations , the shortest response time of all seven combinations at 125 kVp was 0.7ms .
结果7种探测点组合的空曝光实验说明125kV时7种探测点组合的最短响应时间均为0.7毫秒;
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Conclusion The optimal tube potential for chest DR is considered to be 80 ~ 100 kVp , while the high KV technique is no longer suitable for digital equipment .
结论间接DR拍摄正位胸片的适宜管电压为80~100kV,高千伏摄影不再适用于DR。
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It works at 33 kVp , 0.3 mA with exposures duration of 4 seconds and magnification of 1.5 . The objective of this research is to study the X-ray attenuation at different area , which represented by gray-scale value .
系统工作在33kVp,0.3mA下,曝光时间4s,采用1.5×放大倍率。