1) ablation rate
烧蚀速率
1.
Some calculations and analysis for three examples under different ablation rates were demonstrated.
针对金属表面的烧蚀过程,采用一维传热模型,将物体内的传热、温度变化分为2个阶段,即物体被加热到熔点温度的阶段及物体开始烧蚀阶段,使用积分近似的分析方法,完整地建立了表面烧蚀速率与表面加热功率之间的近似计算关系式。
2.
The effects of the respective content of silica aerogel and boron-phenolic resin on the properties of EPDM/NBR flexible insulation material,such as tensile strength,elongation-to-break,mass ablation rate,linear ablation rate and relative density were analyzed and compared.
通过比较分析白炭黑与硼酚醛树脂用量对EPDM/NBR柔性绝热层材料拉伸强度、断裂伸长率、质量烧蚀速率和线烧蚀速率以及相对密度的影响,得出随着白炭黑或硼酚醛树脂用量的增加,柔性绝热层材料的拉伸强度和相对密度呈递增趋势,烧蚀速率呈递减趋势,断裂伸长率在白炭黑和FB用量各自为20份时有极大值。
2) arc ablate rate
电弧烧蚀速率
3) ablating velocity
烧蚀速度
4) Thermal ablation rate
热烧蚀率
5) ablation rate
烧蚀率
1.
Unsaturated polyester(UP) inhibitor has many advantages and has been widely used in many rocket motors and gas generators,but it also has the disadvantage of high ablation rate.
通过功能填料选择试验,探索出基体材料中加入阻燃剂和耐烧蚀纤维的技术,研究了阻燃剂和耐烧蚀纤维加入量及耐烧蚀纤维长度对烧蚀率的影响。
2.
The results of line ablation rate,scanning electron microscope and thermal analysis showed that the type of polyorganosiloxane affected the ablative properties of silicone rubber most;the ablative properties of phenyl silicone rubber was superior to that of vinyl silicone rubber.
线烧蚀率、扫描电镜及热分析结果表明 :聚有机硅氧烷生胶的种类对硅橡胶烧蚀性能的影响最大 ,苯基硅橡胶的烧蚀性能优于乙烯基硅橡胶的烧蚀性能 ,生胶的残炭率是影响硅橡胶的烧蚀性能的主要原因 ;芳纶纤维和羟基硅油的用量对硅橡胶的烧蚀性能影响较大 ;气相法白炭黑的用量对硅橡胶烧蚀性能的影响最小 ,纤维和填料的分散状态对硅橡胶的烧蚀性能也有一定影响。
3.
The effect of varying the content of PSA pulp in the silicone rubber on its dispersion was analyzed,as well as the effect on the tensile strength,elongation at break,ablation rate and hardness of the resulting composite.
研究了PSA浆粕纤维含量对硅橡胶绝热材料的分散效果、抗拉强度、断裂伸长率、线烧蚀率、密度和硬度等性能的影响。
6) linear ablative rate
线烧蚀率
1.
The mechanical properties,linear ablative rate,smoke production and density of the EPDM/OPS heat insulation materials were determined.
将笼形八苯基硅倍半氧烷(OPS)应用于三元乙丙橡胶(EPDM)绝热材料,测定了EPDM/OPS绝热材料的力学性能、线烧蚀率、烟雾和密度等主要性能。
补充资料:弹头烧蚀(见弹头防热)
弹头烧蚀(见弹头防热)
warhead ablation
dantou shaoshi弹头烧蚀(warhead的lation)见弹头防热。
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