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Home > chinese-english > "离子电导率" in English

English translation for "离子电导率"

ion-conductivity
ionic conductivity


Related Translations:
电导:  conduction; conductance; conductivity; electric conductance
摩尔电导:  molar conductance
电导子:  electrode
电导电流:  conduction currentelectrification current
输入电导:  input conductance
自身电导:  self-conductance
电导法:  conductance methodconductometric methodconductometryelectric conductivity methodelectroconductivity method
发射极电导:  emitter conductance
标量电导:  scalar conductivity
界面电导:  interfacial conductance
Example Sentences:
1.From sem of the polymer , we can found that , the polymer containing no dbp made by solvent of nmp had more and large pores than solvent of dmac , so it had larger liquid uptake and higher ionic conductivity
从sem测试图上也可以看出,不含dbp时,溶剂为nmp条件下制备的聚合物膜孔径比溶剂为dmac时大,孔隙多,吸液率大,离子电导率高。
2.Recent advances of all - solid - state polymer electrolyte systems that can be probably used in lithium ion batteries are reviewed , focusing on their electrochemical performances , especially the ionic conductivity at room temperature
综述了锂离子电池聚合物常温固体电解质的最新研究进展。主要关注的是电化学性能,尤其是室温下的离子电导率。对性能较好的聚合物固体电解质体系进行了概述。
3.Recent advances of all - solid - state polymer electrolyte systems that can be probably used in lithium ion batteries are reviewed , focusing on their electrochemical performances , especially the ionic conductivity at room temperature
摘要综述了锂离子电池聚合物常温固体电解质的最新研究进展。主要关注的是电化学性能,尤其是室温下的离子电导率。对性能较好的聚合物固体电解质体系进行了概述。
4.The addition of pmma will reduce the crystallinity of blends and improve of the uptake of liquid electrolyte ( 260 % ) and the ion conductivity ( ims / cm ) . at the same time the pvdf - hfp maintains the mechanical strength of blends film acting as polymer framework
Pmma的加入可以降低共混体系的结晶度,提高共混物的电解液吸收能力( 260 )和离子电导率( 1ms / cm ) ;同时pvdf - hfp起到骨架作用,使共混物膜具有足够的机械强度。
5.Solvents of dmac and nmp were used to prepare polymer electrolyte membrane , when the ratio of dbp and solvent was 20 % , both of the ionic conductivity can arrive at 10 - 3 s ? cm - 1 , and the ionic conductivity of polymer made by nmp was 35 % higher than by dmac
分别用溶剂dmac及nmp制备了聚合物电解质膜,在增塑剂与溶剂体积比为20 %时,聚合物膜的离子电导率均能达到10 - 3s ? cm - 1 ,且以nmp为溶剂的聚合物膜的电导率比以dmac为溶剂的电导率高出大约35 % 。
6.In the mean time , i test the separator ’ s performance , including the rate of hole 、 the performance of absorbing electrolyte and the conductance eletrochemical steady range 、 machine intensity test , and then make bettery to test its cycle performance . the test result show that , the spreading separator get better performance , when dbp ’ s percentum reach 50 % , and dry temperature reach 90 , after ultraviolet radiation disposal . the test show that , the separator has high conductance reach 6 . 1 10 - 3s / cm ( 25 ) , and the machine intensity can reach 3 . 92 mpa , this separator can meet the need of making bettery , the bettery capability will go down after 30 cycle . and the bettery show worse performance under high temperature , under 70 , the bettery will get fire . making the intensified seprator , i find that when dbp % : pvdf % = 40 % : 60 % , dbp % + pvdf % : sio2 % = 70 % : 30 % , the separator get
但用其制备的电池循环30周期后容量发生衰减,并且电池高温性能差, 70下电池燃烧;强化聚合物膜的最佳制备配比条件为: dbp : pvdf为40mass % : 60mass % , dbp含量与pvdf含量之和与纳米sio2含量比值为70mass % : 30mass % ;强化电解质隔膜的室温离子电导率也可达4 10 - 3s / cm左右,完全能满足聚合物锂离子电池的使用需要;机械强度远远大于流延法制得的隔膜,达到108 . 84mpa 。
7.The liquid uptake of polymer electrolyte membrane first increase , then remaining the same as the increasing of ratio of solvents . mechanism capability and ionic conductivity fist increase then decrease during the process , but it changed not much in total . through the test of sem it can be found that the structure of membrane changed little during the process
在增塑剂含量及聚合物基质含量一定的条件下,随溶剂含量的增大,聚合物膜的吸液率先增大后基本保持不变,机械强度及离子电导率则先增大后减小,通过sem测试可知,膜的表面形貌无明显变化。
8.Now the ion conductivity of gel polymer electrolyte ( gpe ) can reach the magnitude of 10 - 3s / cm , which can satisfy the practical request . however , it is still lower than that of liquid electrolyte ( 10 - 2 s / cm ) , which causes the fall of high rate discharge and low temperature performance of lithium battery
目前凝胶聚合物电解质( gpe )的室温离子电导率可达10 ~ ( - 3 ) s cm数量级,已经能基本满足应用的要求,但相比液态电解液的电导率( 10 ~ ( - 2 ) s cm ) , gpe的电导率仍然偏低,使得凝胶聚合物锂离子电池的高充放电速率和低温性能都大大的降低。
9.Secondly , the sorts and weights of the components of the gel electrolyte are optimized , and a gpe with excellent performance is prepared , whose ion conductivity reachs 9 . 2ms / cm . we analyze all the factors influencing the performance of the gpe , and study many performances of the gpe , including the microstructure , conductivity performance , liquid electrolyte holding ability , electrochemical stability , thermodynamics stability , and interfacial stability between electrolyte and electrode , et al
其次,对gpe各组份进行了改进和优化,找到了最佳的配比,制备了性能良好的凝胶电解质,该gpe的室温离子电导率最高可达9 . 2ms cm ;考察了影响凝胶电解质性能的各种因素;研究了凝胶电解质的微观结构、导电性、保液性、电化学稳定性、热力学稳定性以及电解质与电极间的界面稳定性等性质。
10.In this paper , pure and doped ktp crystals were grown from the flux using a top - seeded method , and special technique have been used to lower the electrical conductivity to three orders of magnitude than common flux ktp , the values is up to 10 - 10 ( cm ) - 1 , this overcame the shortcoming that common flux ktp cannot be used in e - o application field because of having higher electrical conductivity . the growth condition , doped elements and annealing technology were investigated . single crystals of ktp with high quality and big z - cut cross section were obtained by optimizing the parameter of crystal growth
本实验采用顶部籽晶熔剂法生长了纯的以及不同掺杂的ktp晶体,用特殊工艺处理技术将普通熔剂法ktp的电导率降低了三个数量级,达到了10 ~ ( - 10 ) ( cm ) ~ ( - 1 ) ,解决了普通熔剂法ktp晶体由于离子电导率太大而无法用于电光应用领域的困难;对ktp晶体的生长条件、掺杂元素以及退火工艺等进行了研究,通过优化生长工艺技术参数,突破了工艺技术生长难关,得到了高光学均匀性、具有大z切面的ktp单晶。
Similar Words:
"离子点阵" English translation, "离子电冰酌" English translation, "离子电冰作用" English translation, "离子电池" English translation, "离子电导" English translation, "离子电导性" English translation, "离子电镀" English translation, "离子电镀法" English translation, "离子电荷" English translation, "离子电荷分布" English translation