| 1. | We will now treat some examples of the temperature field in the crust .
现在我们讨论一下地壳温度场的某些例子。 |
| 2. | The true temperature field is approximated by iterations with this formula .
用这个公式进行重复演算,就可以趋近于真正的温度场。 |
| 3. | No conformity was found between the measured values and the calculated stationary temperature field .
人们发现实测值和预测的稳态温度场之间并不相符。 |
| 4. | The geoisotherms around a gallery can be explained as a superposition of the original temperature field .
一个坑道周围的等温线可以理解为原始温度场的叠加。 |
| 5. | This normal temperature field has to be considered for the planning of the field work and for interpretation of the data .
布置现场工作和解读资料时,必须考虑正常温度场。 |
| 6. | Up to now, we have treated the stationary temperature field under the influence of lateral changes of thermal conductivities in the underground .
截至目前为止,我们讨论的一直是处于地下热导率侧向变化影响下的稳定温度场。 |
| 7. | Reconstruction of wavelet - based 3 - d temperature field
基于小波变换的三维温度场重建 |
| 8. | Optimized reconstruction algorithm of 3 - d temperature field
三维温度场重建算法的优化 |
| 9. | Pile - up effect of temperature field generated by energy flux
能束加工的温度场叠加效应 |
| 10. | Numerical simulation of co2 arc welding temperature field
2气体保护焊温度场的数值模拟 |
