1) Compensation of magnetic resistance effect
磁阻效应补偿
2) compensation effect
补偿效应
1.
The reviews of study on water deficit compensation and over_compensation effect for crops;
作物水分亏缺补偿与超补偿效应的研究现状
2.
Compensation effect of millet after drought.;
谷子旱后的补偿效应研究
3.
Compensation effect for electrical conductivity in minerals and its constraints on element diffusivity.;
矿物电导率补偿效应研究及其对元素扩散性质的制约
4) compensatory effect
补偿效应
1.
Advances in compensatory effects response to water stress;
作物水分胁迫补偿效应研究进展
2.
The compensatory effect in drought resistance of plants and its application in water-saving agriculture;
植物抗旱性中的补偿效应及其在农业节水中的应用
3.
Research progress on compensatory effects of crops in drought stress and rehydration
作物干旱胁迫及复水的补偿效应研究进展
5) compensatory effects
补偿效应
1.
Research on Compensatory Effects of Growth under Simulated Water Stress and Rewatering on Maize;
模拟干旱胁迫及复水条件下玉米生长补偿效应
2.
However,the present studies explored its positive effects from a view of the compensatory effects of rice to water stress.
水稻地上和地下部生长对轻度胁迫也存在明显的补偿效应。
3.
Highlight on the basic principle of crop high efficient use of water is as follows: after suffering light-moderate water deficit in a given growth stage and rewatering to the suitable conditions, crops produce compensatory effects on physiological growth and yield formation, which promote crop water use efficiency obviousl.
提出作物高效用水的基本原理在于一定生育阶段适度水分亏缺后覆水作物可以产生生理、生长和产量形成上的补偿效应,促使水分利用效率显著增高。
补充资料:磁补偿材料
磁补偿材料
magnetic compensation materials
引匕IJc目ang col!旧。磁补偿材料(magnetieeotnpensationma-terials)补偿因温度变化而引起的磁路磁通变化的材料。含有永久磁铁的磁路,气隙磁通常随温度而变化,精密仪表需进行温度补偿,即磁补偿。常用的磁补偿合金有Ni一Fe,Ni一Cu和Ni一Fe一Cr等。仪表的使用温度一般为室温左右。磁补偿材料的居里温度就在室温附近。因此,当温度升高时,鱼是经尧五降‘为了得到良好的补偿,应选用磁导率与温度成线性关系的区域。不同的磁补偿合金有不同的线性区,分别适用于不同的温度范围。例如在20一80’C范围内选用31:69的Ni一Fe合金,在一20一40℃范围内选用30:70的Ni一Fe合金。在o~一40℃范围内选用掺Cr的Ni一Fe合金。当Ni、Fe、C:的比例为31:61:8时,在上述磁导率与温度成线性关系的温度范围内使用,该磁补偿合金的磁导率基本上随温度升高而线性地下降,可以用来设计出良好的磁补偿分路。
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