方案摘要
方案下载| 应用领域 | 能源/新能源 |
| 检测样本 | 其他 |
| 检测项目 | |
| 参考标准 | none |
The need to survey the stability and compatibility of explosives in general and propellants in particular is beyond discussion. During the more than 100 years that nitrocellulose has been in use as a propellant, an enormous number of tests have been devised to survey its stabiliiy. The majority of these tests are rather simple and empirical in nature. During the last decade or so, however, modern analytical methods have been introduced in the explosives feld, and are often used in parallel with older methods. Modern methods give real information about the components studied, but the translation of the result into terms of stability, compatibility and remaining stable life of the complex mixture of ingredients in a propellant is no easy task.
The need to survey the stability and compatibility of explosives in general and propellants in particular is beyond discussion.
During the more than 100 years that nitrocellulose has been in use as a propellant, an enormous number of tests have been devised to survey its stabiliiy. The majority of these tests are rather simple and empirical in nature. During the last decade or so, however, modern analytical methods have been introduced in the explosives feld, and are often used in parallel with older methods. Modern methods give real information about the components studied, but the translation of the result into terms of stability, compatibility and remaining stable life of the complex mixture of ingredients in a propellant is no easy task.
利用微量热技术研究病毒结构与宿主细胞受体结合反应
等温量热法研究水泥水化
等温微量热法研究生物制品长时间稳定性评价
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