tap density

[tæp ˈdensəti]
  • tap density
  • 释义

    振实密度

纠错 数据更新时间:2026-04-19 14:56:27
1、

Study on the Preparation of Spherical Nickel Powders of High Tap Density

高振实密度球形镍粉研制

互联网摘选

2、

Synthesis and performance of high tap density LiFePO_4 cathode materials doped with copper ions

Cu~(2+)掺杂高密度LiFePO4/C正极材料的合成及性能

互联网摘选

3、

The physical properties of nickel hydroxide samples such as tap density, particle surface shape, particle size and distribution and flow ability were investigated to confirm above conclusion.

并对Ni(OH)2产品的堆积密度、表面形貌、粒度及粒度分布及流动性等物理性质进行了表征。

互联网摘选

4、

The nickel hydroxide with tap density> 2.1g/cm 3 and discharge capacity> 270mAh/ g is prepared by the most efficient process which was determined by many experiments.

在实验中确定了反应的最佳工艺,使氢氧化镍的堆积密度>2.1g/cm3,放电比容量>270mAh/g。

互联网摘选

5、

The experiment results showed that with enough baking, the MnO 2% of the product increased, but the tap density decreased;

实验结果表明,焙烧充分时,产品的MnO2百分含量会有所提高,但堆实密度会有所下降;

互联网摘选

6、

Preparation of boron carbide powders with high tap density

高振实密度碳化硼粉的制备

互联网摘选

7、

Discussed is a new preparation process for the spherical nickel powders of high tap density by liquid phase reducing method.

论述了液相还原法直接制备高振实密度球形镍粉的新工艺。

互联网摘选

8、

Study on synthesis and electrochemical performance of high tap density LiFePO_4/ C as cathode material

高密度LiFePO4/C正极材料的合成其及电化学性能研究

互联网摘选

9、

Such powders with good flow ability and high tap density are suitable for thermal spray used in the deposition of nanostructured thermal barrier coatings.

粉末流动性好、振实密度高,可以用来热喷涂制备纳米结构热障涂层。

互联网摘选

10、

Influence of Roasting Factors on Discharge Capacity and Tap Density

电池用改性二氧化锰&焙烧条件对放电性能及视比重的影响

互联网摘选

11、

When the stirring strength is enhanced, the tap density and the average particle size increase.

搅拌强度提高,堆积密度和平均粒径增大。

互联网摘选

12、

High dispersion and tap density of silver can significantly improve the photoelectric conversion efficiency of solar cell.

高分散和高振实密度银粉能显著提高电池片的光电转换效率。

互联网摘选

13、

Powder tap density is closely related to particle morphology, particle size and its distribution.

粉体材料的振实密度与粉体颗粒的形貌、粒径及其分布密切相关。

互联网摘选

14、

Product tap density achieved 1.86g/cm3.

产品的振实密度达到1.86g/cm3。

互联网摘选

15、

By sieving the rice husk particles ( RHPs), the paper presents the loose and the tap bulk density of different sizes of rice husk.

通过对稻壳粉进行筛分,测量了不同粒径稻壳粉的松散堆积密度和振实堆积密度。

互联网摘选

16、

Preparation of Ultrafine and Spherical Nickel Powders by Aqueous Reducing Method Of the obtained power, the tap density is up to 3.0g/cm3 and weight-mean diameter about 1 mm.

反应温度为80℃。新工艺可制备振实密度高达3.0以上、质量中位径约为1mm的高质量球形镍粉。

互联网摘选

17、

And this spherical has a greater tap density.

而且这种类球形的锰酸锂具有更高的压实密度。

互联网摘选

18、

The low tap density was the main impediment to commercialization.

振实密度低是商品化的主要障碍。

互联网摘选

19、

Effect of Tw-80 on Tap Density and Discharge Capability of Combination Electrode of Nano-Scale Ni ( OH)_2

Tw-80对纳米Ni(OH)2振实密度及其复合电极放电性能的影响

互联网摘选

20、

The results showed that the process of Co, Ni and Zn deposition on spherical Ni ( OH) 2 surface was accompanied by hydrogen gas evolution, a porous covering layer was formed and the tap density was reduced.

结果表明,在球形Ni(OH)2表面上包覆钴、镍和锌的过程中伴随着析氢反应,形成了多孔包覆层,降低了其堆积密度。

互联网摘选

21、

Compared with the traditional technology, the non-spherical Ni ( OH)_2 prepared using the improved technology is much better for the tap density, shape, electrochemical performance, etc.

通过比较,表明采用此改进的工艺制备的非球形Ni(OH)2,其振实密度、形貌、电性能等明显优于传统的制备方法。

互联网摘选

22、

A special device is used to measure the tap density of Ta2O5/ Nb2O5 powder.

采用一种特制的摇实装置,对Ta2Os/Nb2O5粉末的摇实密度进行测定。

互联网摘选

23、

Metallic powders& Determination of tap density

GB/T5162-1985金属粉末&振实密度的测定

互联网摘选

24、

Tap density of Ta_2O_5/ Nb_2O_5 powder measure

Ta2O5/Nb2O5粉末摇实密度的测定

互联网摘选

25、

The spheroidizing of cathode material particles is the best way to improve tap density and volumetric capacity.

正极材料粉体颗粒的球形化是提高材料振实密度和体积比容量的有效途径。

互联网摘选

  • 相关词组
  • 今日热词
  • 热门搜索

英语网英语词典(dict.25820.com)为您提供在线翻译英语词典单词大全英译汉汉译英等英语服务!可按单词字数词义分类查询。支持lj:关键词格式查询例句。

用户反馈
请选择反馈类型(可多选):
您的联系方式:
反馈内容:
提交成功 小编会尽快处理
回到顶部
点击反馈