| 1. | Imbibition is thus displacement due only to capillary forces .
于是,吸吮是仅仅依靠毛细力的一种驱替。 |
| 2. | In seeds of most varieties imbibition of water takes place rapidly following planting .
大多数品种种子的水分吸胀作用在播种后进行很快。 |
| 3. | Effect of initial water saturation and rock lithology on spontaneous imbibition
岩石性质对自吸的影响 |
| 4. | Effect of pre - imbibition on the desiccation - tolerance of imbibed vigna radiata seeds
预吸胀对绿豆种子脱水耐性的影响 |
| 5. | The method and the application of parameter determination for imbibition model in fractured reservoir
裂缝性油藏渗吸模型参数确定方法及应用 |
| 6. | Temporal pattern of changes in desiccation tolerance during imbibition of phaseolus radiatus l . seeds
绿豆种子吸胀过程中脱水耐性变化的时间模式 |
| 7. | Changes in desiccation tolerance during imbibition of zea mays l . relate to activity of reactive - oxygen - scavenging enzymes
吸胀玉米种子脱水耐性变化与活性氧清除酶活性的关系 |
| 8. | Basing on this , the paper researches the mechanism of floor heave , and analyzes the effects of gravity stress , tectonic stress , the strength of surrounding rock , terrestrial heat and imbibition water on floor heave
在此基础上,研究深部开采条件下巷道底鼓发生的机理,并对自重应力、构造应力、围岩强度、地温、水对底鼓的影响进行了分析。 |
| 9. | The thesis analyzes the effect of the increase of mining depth on the floor heave , discusses the laws that gravity stress , tectonic stress , the strength of surrounding rock , terrestrial heat and imbibition water change with the increase of mining depth
分析了采深对巷道底鼓的影响,以及自重应力、构造应力、围岩强度、地温、水随开采深度变化的规律。 |
| 10. | Due to the effect of uentrapment of water and air is considered during the generation of water - filled cells , the method presented here can simulate the objective existing hysteresis between drainage and imbibition process , which can " t be reflected by the previous numerical simulation methods
由于该法在生成裂隙充水域时考虑了水和气的“圈闭”效应,故能模拟出裂隙排水与吸水过程间客观存在的滞后现象,这是以往数值试验法所不能的。 |
