1) Nonmagnetic
[英]['nɔnmæg'netik] [美]['nɑnmæg'nɛtɪk]
无磁
1.
The Design of a New Flow Meter with Low Power and Nonmagnetic;
一种新型低功耗无磁流量计的设计
2.
Then a nonmagnetic and nonmetal-lic co-axial PTC was constructed.
本文系统分析了脉冲管制冷机的主要干扰源并给出其相应的解决办法,并据此设计制造了一台无磁低振微型同轴脉冲管制冷机。
3.
Then a nonmagnetic and nonmetallic miniature pulse tube cryocooler was designed and fabricated.
分析了脉冲管制冷机系统中存在的主要干扰源 ,并给出了其相应的解决方法 ,在此基础上设计并制作了一台无磁非金属微型同轴脉冲管制冷机。
2) non-magnetic
无磁
1.
The WC-10%Ni cemented carbide changed from magnetic into non-magnetic when proper VC was added even with high carbon content.
在 WC- 10 % Ni合金中添加适量 VC会使合金在两相区高碳的情况下 ,从有磁性转变为无磁性。
3) anhysteresis
无磁滞磁化
4) no-leakage magnetic circuit
无漏磁磁路
5) nonmagnetic cast iron
无磁铸铁
1.
The critical points of the thermal analysis curves of primary cryatallization and structure had been effected obviously while the manganese content in manganese subgroup nonmagnetic cast iron varied from 5% to 8%.
锰系无磁铸铁的含锰量在5%~8%范围内变化时,对其一次结晶的热分析曲线特征点和结晶组织将产生明显的影响。
2.
The forming mechanism of manganese subgroup nonmagnetic cast iron is analyzed and the action of manganese and other elements were shown.
对锰系无磁铸铁的形成机理进行了分析,指出了锰及其它元素在无磁铸铁中的作用,并对锰系无磁铸铁的成分进行了优选,确定了锰系无磁铸铁的金相组织特征、力学性能和电工性能。
6) non-magnetic steel
无磁钢
1.
1N non-magnetic steel during isothermal ageing with a range of 800~950 ℃ was investigated by metallography,X-ray diffractometry(XRD) and electron probe microanalyzer(EPMA),and the isothermal precipitation-dissolution kinetic curves of nitro-carbides were established.
1N无磁钢在800~950℃区间等温时效过程中氮碳化物的析出行为,并建立了氮碳化物的等温析出-溶解动力学曲线。
2.
4C non-magnetic steel has a serious detrimental effect on the production quality of steel.
4C无磁钢的碳氮化合物是影响钢材生产质量的主要因素之一。
3.
The analysis of the chemical constitution,the macrograph pattern,the fracture pattern and the metallic phase was operated on the fracture non-magnetic steel bolt,which was used for fixation on one\' s equipment.
采用化学成分分析、宏观及微观断口形貌分析和金相检验等方法,对某用于紧固作用而断裂的无磁钢螺栓进行了分析。
补充资料:13C 磁共振谱
13C(核自旋量子数I为1/2)在静磁场中能级分裂和从射频电磁波吸收能量由低能级跃迁至高能级而产生的磁共振谱,与质子磁共振谱相似,但有以下差别:①它在高能级的寿命较长,限制了使之进行跃迁的射频电磁波的功率;②磁共振的灵敏度与旋磁比γ 的三次方成正比,而,致使13C磁共振是1H磁共振的灵敏度的1/64;③13C的天然同位素丰度为1.1%,而1H则为99.8%,所以它的灵敏度又要比1H磁共振低两个数量级;④13C磁共振谱的分辨能力高,其化学位移范围为600微克(1H磁共振的仅为20微克),从而对分子量为300~500的有机化合物几乎可分辨每一个13C峰,这在1H磁共振中决不可能。从13C磁共振可以观测不与质子相连的基团,如C=O、C呏N等基团。
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