1) volume of gaseous explosion products
爆容
2) anti-explosion container
抗爆容器
1.
The main research results about the anti-explosion container made by resin matrix and fiberglass reinforced composite are summarized in this paper.
综述了国内外树脂基玻璃纤维增强复合材料抗爆容器的主要研究成果,对纤维材料及粘合剂的选取、纤维缠绕方式、壳体的动态响应及失稳抑制、容器的抗爆能力和尺度效应等方面进行了较全面的总结。
3) explosion container
爆炸容框
1.
Through the experimental research on explosive forming of heating panel with annular recess,the forming mechanism of large size plate part in explosion container is briefly introduced.
通过对带环形槽散热板的爆炸成形的实验研究,简要介绍了大尺寸板状零件在爆炸容框内进行成形的机理,并对其实验方法、装置、过程以及能量、药量估算进行了分析。
4) explosive containment vessel
爆炸容器
1.
Analysis of dynamic elastic response of flat ribbon wound explosive containment vessel;
扁平绕带式爆炸容器的弹性动力响应分析
2.
By using the HS2 high strength fiberglass and 0Cr18Ni9 stainlesssteel, one spherical and cylindrical resin matrix fiberglass composite explosive containment vessel with 500mm inner diameter have been designed.
采用HS2高强玻璃纤维及0Cr18Ni9不锈钢内衬,设计了内径500mm的球形及柱形树脂基玻璃纤维复合材料爆炸容器,容器通过了6MPa的水压试验和系列爆轰加载考核实验,炸药与球形及柱形容器的质量比分别达到3。
3.
According to the physical and mechanical character of explosive containment vessel, a set of virtual instrument system based on ISA bus and TOP View 2000 software for measuring the dynamic strain of the vessel has been built.
根据爆炸容器的具体物理及力学结构特点,建立了一套基于ISA总线和TopView2000软件的爆炸容器动态应变虚拟仪器测试系统,运用应变计的双片重叠安装、密封屏蔽接线和隔离电源等综合技术实现了强电磁干扰环境下的动态应变精密测量。
5) explosion-containment vessel
爆炸容器
1.
The paper described the design method of explosion-containment vessel and an explosion-containment vessel with 5 kg TNT equivalent was designed by this method.
介绍了爆炸容器的设计方法 ,用此方法设计了一台 5kgTNT当量爆炸容器并对该容器进行了动态测试 ,测试结果表明 :该容器设计合理 ,工作安全、可
2.
The first explosion-containment vessel with 1kg TNT equivalent made of the clad metal materials was introduced in this paper.
并应用爆炸相似律、解析方法及数值模拟等方法对该爆炸容器进行了物理设计 ,确定出等效载荷 ,然后进行了机械设计。
3.
The reflected shock pressures on the inner wall of the spherical explosion-containment vessels are calculated by the Eulerian method in the DYTRAN code.
运用DYTRAN程序中的欧拉计算方法,模拟了作用于球形爆炸容器内壁的反射超压波形。
6) explosion vessel
爆炸容器
1.
A new explosion vessel used to recover warhead fragments and its application;
回收战斗部破片的新型爆炸容器及应用
2.
Theoretical Analysis of and Experimental Research on the Vibration Characteristics of Cylindrical Explosion Vessel;
柱形爆炸容器振动特性的理论分析与实验研究
3.
Based on the Donnell theories,the formula for the inherent frequency of the cylindrical explosion vessel is derived.
根据唐纳尔简化理论,推导了柱形爆炸容器固有频率的计算公式。
补充资料:爆容
分子式:
CAS号:
性质:也称爆容(volume of gaseous explosion products),是单位质量炸药爆炸时生成的气态产物在标准状态下(25℃,101.325kPa)占有的体积。爆炸产物中的水为液体时,其余气态爆炸产物的体积称为干爆容(dry specific volume of explosion products);水为气态时,全部气态爆炸产物的体积称为全爆容(total specific volume of explosion products)。爆谷是衡量爆炸作用的一个重要标志,因为高温高压的气体产物是对外作功的工质。爆容越大,越易于将爆热转化为功。爆容可根据爆炸反应式计算,也可采用量热弹实验测定。一般炸药的全爆容为300~1100L/kg。
CAS号:
性质:也称爆容(volume of gaseous explosion products),是单位质量炸药爆炸时生成的气态产物在标准状态下(25℃,101.325kPa)占有的体积。爆炸产物中的水为液体时,其余气态爆炸产物的体积称为干爆容(dry specific volume of explosion products);水为气态时,全部气态爆炸产物的体积称为全爆容(total specific volume of explosion products)。爆谷是衡量爆炸作用的一个重要标志,因为高温高压的气体产物是对外作功的工质。爆容越大,越易于将爆热转化为功。爆容可根据爆炸反应式计算,也可采用量热弹实验测定。一般炸药的全爆容为300~1100L/kg。
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