| 1. | An exothermic reaction releases heat(energy) . 放热反应释放出热量(能)。 |
| 2. | Exothermic reaction can be reduced by adding hexahydrophthalic anhydride to the phthalic anhydride . 用六氢化邻苯二酸酐加入到邻苯二酸酐中,可使其放热反应减慢。 |
| 3. | An exothermic reaction releases heat ( energy ) 放热反应释放出热量(能) 。 |
| 4. | Aerospace ; fibre reinforced plastics ; determination of temperature difference on exothermic reaction 航空航天.纤维增强塑料.放热反应时温差的测定 |
| 5. | Through numerical simulations on the composition control for an exothermic chemical reactor system , the comparative evaluation between the proposed control and the nonlinear model predictive control ( nmpc ) are given 藉由数?模拟一放热反应器系统内的组成控制,将提出控制方法与非线性模式预测控制做比较性评价。 |
| 6. | Then an approach was put forward to evaluate the potential risk of thermal runaway in exothermic reaction system by use of system safety index , and the equilibrium region of exothermic reaction systems was analyzed 提出用系统安全指数概念来评价放热反应系统发生热爆炸的潜在危险性,分析化学放热系统的平衡域。 |
| 7. | It is based on the exothermic reaction of the corresponding metal nitrates with a reducing agent and yields extremely fine - grained ashes that readily convert into pure znfe2o4 when treated thermally 该法是在还原条件下,以相应的金属硝酸盐的放热反应为基础从而产生了超细粉末,然后通过加热使其转化为纯的znfe _ 2o _ 4相。 |
| 8. | Before 900 c , ti reacts with al to form tial intermetallics ; above 900 c , c reacts with remain ti to form tic triggered by the exothermal reaction of ti and al ; tial reacts with tic to produce dense tial / ti2alc composites 间的放热反应引发c和未反应完全的ti反应生成tic ; tiai金属间化合物和tic反应并合成致密tiai / tizaic复合材料。通过保温阶段, tizaic长成层状多品结构,同时复合材料致密化。 |
| 9. | The relative momentum of two final particles and the cross section are zero at the threshold energy for an endothermic reaction , while the relative momentum of two initial particles is zero and the cross section at the threshold energy for an exothermic reaction is infinite 在吸热反应的阈能处,出射粒子的相对动量以及截面均为零。在放热反应的阈能处,入射粒子的相对动量为零,截面趋于无穷大。由于强子的动量仅提供如此低的质心系能量,强子物质中x 。 |
| 10. | The experiments showed that wc and vc can dissolve mutually in the carbonizing reaction . when wc ' s content exceeds vc ' s , vc will dissolve into wc and make wc ' s crystal lattice bring aberrance and become wc1 - x , contrarily when vc ' s content exceeds wc ' s , wc will dissolve into vc and also make vc ' s crystal lattice bring aberrance . the surface cermet composite has high rigidity and well wear - resistance ( 7 )采用铸造烧结技术,通过加入毗颗粒和v班一vc的原位放热反应成功制取了碳化物陶瓷质量百分数超过60 %的表面金属陶瓷材料,实验证实wc与高温碳化反应生成的vc相互可以很好的固溶,当wc的含量超过vc时, vc可以固溶到wc中,使wc的晶格发生畸变,成为昵卜: ,反之当vc的含量超过wc的含量时, wc可以固溶到vc中,也会造成vc的晶格畸变。 |