1) sodium chloride
NaCl
1.
Effect of sodium chloride and sodium sulfate on the seed germination and seedlings establishment of Chinese dandelion;
NaCl和Na_2SO_4胁迫对蒲公英种子发芽及成苗的影响
2.
The influence of three different salts on the forming of granular resistant starch was studied and the results showed that the optimum amount of sodium chloride and potassium chloride content was 20% and 12% respectively.
文中考察了盐(NaCl、KCl和CaCl2)对颗粒态抗性淀粉形成的影响,得出NaCl和KCl的最适添加量分别为20%和12%,而CaCl2的添加对抗性淀粉形成不利。
3.
High-amylose cornstarch was used as material to study on effects of concentrations of sodium chloride and glucose on the formation of RS.
以高直链玉米淀粉为试材,分别研究了NaCl浓度和葡萄糖浓度对抗性淀粉形成的影响,发现当NaCl浓度提高到10%以上时,抗性淀粉得率从10。
2) 3.5% NaCl
3.5%NaCl
1.
Effect of Heat Treatment on Corrosion Property of CuZnAl Alloy in 3.5% NaCl Solution;
热处理对CuZnAl合金在3.5%NaCl溶液中腐蚀性能的影响
3) NaCl corrosion
NaCl腐蚀
4) CaCl_2-NaCl molten salt
CaCl2-NaCl熔盐
1.
The mechanism of ZrO_2 direct electrodeoxidation into Zr in CaCl_2-NaCl molten salt was studied by Cyclic Voltammetry and Chronoamperometry in the temperature range of 800~860℃.
采用循环伏安法和记时电流法研究800~860℃下ZrO2电极在CaCl2-NaCl熔盐中还原过程的反应机理。
5) NaCl solution
NaCl溶液
1.
Research on the capability of permeability and frost-resistant of concrete in NaCl solution;
混凝土在NaCl溶液中抗冻及抗渗性能的研究
2.
Study on the corrosion behavior of Cu-Te-Li multiple alloy in the 3.5% NaCl solution;
铜碲锂多元合金在3.5% NaCl溶液中腐蚀行为的研究
3.
Impact of rubber powder on frost resistance of concrete in water and NaCl solution;
橡胶粉对混凝土在水和NaCl溶液中抗冻性的影响
6) Nacl crystal
Nacl晶体
1.
The value of Madelung constant in the two-dimensional Nacl crystal is obtained by program simulation,then,the effect of crystal parameter on Madelung constant is also discussed.
用埃夫琴(Evjen)法建立计算二维Nacl晶体马德隆常数的普适公式,并用程序模拟的办法,讨论晶体参数对马德隆常数的影响。
2.
Then we amend the Madlung's formula and get the constant of NaCl crystal by program simulation which is compared with the experimental measured value.
考虑晶体表面离子与内部离子对结合能贡献的不同,作者对马德隆常数定义公式进行修正,用程序模拟的办法确定了NaCl晶体的实验参数马德隆常数,并与实验确定值进行了比较。
3.
Based on the formulation for Grüneisen parameter γ developed by Cui and Chen and combining with some thermodynamic relations, a new calculative formula for the thermal pressure is proposed in this paper and compared with two other common expressions used in many literatures on NaCl crystal.
基于Cui和Chen报导的Grüneisen参数计算公式并结合热力学关系式,本文导出了一个关于晶体热压强的计算公式,并以NaCl晶体为例与文献中常用的其他两个热压强的表达式进行了比较,结果发现,本文得到的关于晶体热压强的计算公式略优于其它两个。
补充资料:Neo-naclex
分子式:C15H14F3N3O4S2
分子量:421.41
CAS号:73-48-3
性质:白色结晶性粉末。熔点221-223℃(226-227℃)。不溶于水、氯仿、苯、乙醚,溶于丙酮、乙醇。
制备方法:将甲苯氯化生成三氯甲苯,进一步氟化得三氟甲苯,经硝化生成间硝基三氟甲苯,用铁粉还原得间氨基三氟甲苯,用氯磺酸作氯磺化反应,再进行胺化生成2,4-二氨基磺酰-5-氨基-三氟甲苯。最后与苯乙醛环合,得苄氟噻嗪。
用途:利尿式。可用于治疗各种水肿,如充血性心力衰竭、肾脏病、肝硬化、妊娠毒血症,经前期症候群和可的松类药物治疗时引起的水肿。可以单独应用或配合其他降压药治疗高血压。
分子量:421.41
CAS号:73-48-3
性质:白色结晶性粉末。熔点221-223℃(226-227℃)。不溶于水、氯仿、苯、乙醚,溶于丙酮、乙醇。
制备方法:将甲苯氯化生成三氯甲苯,进一步氟化得三氟甲苯,经硝化生成间硝基三氟甲苯,用铁粉还原得间氨基三氟甲苯,用氯磺酸作氯磺化反应,再进行胺化生成2,4-二氨基磺酰-5-氨基-三氟甲苯。最后与苯乙醛环合,得苄氟噻嗪。
用途:利尿式。可用于治疗各种水肿,如充血性心力衰竭、肾脏病、肝硬化、妊娠毒血症,经前期症候群和可的松类药物治疗时引起的水肿。可以单独应用或配合其他降压药治疗高血压。
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