1) APT
[英][æpt] [美][æpt]
仲钨酸铵
1.
Recycling High Calcium APT;
高钙仲钨酸铵再处理应用
2.
The Study on Control Technology of Fsss and Size Distribution of APT;
仲钨酸铵费氏粒度及粒级分布控制工艺研究
3.
Study on the Solubility of NH_4Cl-NH_3·H_2O-H_2O System APT;
NH_4Cl-NH_3·H_2O-H_2O系仲钨酸铵溶解度研究
2) ammonium paratungstate
仲钨酸铵
1.
Separation of molybdenum in production process of ammonium paratungstate
仲钨酸铵生产工艺中钼的分离
2.
On the basis of proving the influence of temperature,concentration of solution and stiring intension to the granularity of ammonium paratungstate(APT),micron-level APT.
在探明温度、溶液浓度,搅拌强度对仲钨酸铵粒度影响的基础上,研究了表面活性剂制备微米级仲钨酸铵的工艺。
3.
In the paper, the linear growth order of ammonium paratungstate crystal is studied by the "method of initial rate".
应用“初始速率法”研究了仲钨酸铵(APT)晶体的线生长级数。
3) ammonium paratungstate(APT)
仲钨酸铵
1.
According to Arrhenius theory, using the method of nucleation period integral mean rate, the apparent activation energy of ammonium paratungstate(APT) crystal growth is calculated as 94.
采用“成核期积分平均速率法”,运用阿累尼乌斯实验定律,求出仲钨酸铵晶体生长的表观活化能E表=94。
2.
In order to solve the problem of determination of boron in ammonium paratungstate(APT), the authors began with the study on determination way by ICP AES.
为了解决高纯仲钨酸铵中杂质元素硼的测定问题 ,采用ICP AES测定方法 ,对测定中基体效应及光谱干扰进行了研究 ,考察了酸度、蒸干程度、放置时间等因素对钨的沉淀程度及硼的回收率的影响 ;此外 ,将基体分离与干扰系数校正法相结合 ,建立了简便、快速、准确测定高纯仲钨酸铵中微量硼的新方法 。
4) ammonium paratungstate
仲钨酸铵<冶>
5) monoclinic ammonium paratungstate
单斜仲钨酸铵
1.
Rapid thermal decomposition of monoclinic ammonium paratungstate;
单斜仲钨酸铵快速热分解研究
2.
With DSC instrument and laser granularity analysis instrument, the result of monoclinic ammonium paratungstate (APT) at the rate of 3℃/min in argon gas turns out: the thermal decomposition rapidity of monoclinic ammonium paratungstate (APT) from 0 to 131.
通过差热分析仪和激光粒度分析仪对单斜仲钨酸铵(APT)以3℃/min进行热分解的试验结果分析可以得出,如要制备细颗粒氧化钨,在0℃到131。
6) ammonium paratungstate(APT)-sodium paratungstate(SPT) complex salt
仲钨酸铵-钠复盐
补充资料:仲钨酸铵
分子式:仲钨酸铵
分子量:(NH4)10.H2.(W2O7)6.H2O
CAS号:11120-25-5
性质:密度2.3。熔点>300°C。
分子量:(NH4)10.H2.(W2O7)6.H2O
CAS号:11120-25-5
性质:密度2.3。熔点>300°C。
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