1) Pre-flashover fire temperature
轰燃前火灾温度
2) pre-flashover temperature
轰燃前温度
3) pre-flashover temperature estimation
轰燃前温度估算
4) post flashover fire
轰燃后火灾
5) fire temperature
火灾温度
1.
On judgment method for fire temperature of concrete structure after fire accidents
火灾后钢筋混凝土结构火灾温度的判断方法
2.
The varying characters on capability of fired steel structure and their exterior deformation are expatiated, and the relationship between deformation form of leftover and fire temperature is presented after fire.
阐述了经历大火后钢结构材料性能的变化特点,钢结构构件火灾后可能发生的外观变形;现场残留物的变形形态与大火温度的关系;介绍了几种判定火灾温度的方法。
6) conflagration temperature
火灾温度
1.
Method for identifying "conflagration temperature" of concrete;
混凝土“火灾温度”鉴定方法研究
2.
According to the forecasting of the conflagration time and the conflagration temperature of the buildings, the conflagration temperature of the steel work and the physical mechanics properties of the high temperature steel, this paper systematically introduces the protecting measures for fire prevention in the steel structure.
根据对建筑物火灾时间、火灾温度及钢结构构件火灾温度的预测及钢材在高温下的物理力学性质,较系统地介绍了钢结构防火保护措施。
补充资料:燃速温度敏感系数
分子式:
CAS号:
性质:在燃烧压强恒定的条件下,推进剂线性燃速随便初始温度的变化率,可表示为:通常推进剂的值在0.002~0.008/K之间,当某推进剂的值为0.005/K时,则在233~333K温度范围,其线性燃速变化率可达50%。
CAS号:
性质:在燃烧压强恒定的条件下,推进剂线性燃速随便初始温度的变化率,可表示为:通常推进剂的值在0.002~0.008/K之间,当某推进剂的值为0.005/K时,则在233~333K温度范围,其线性燃速变化率可达50%。
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