| 1. | A perspective of the stress system is shown in fig. 1-6 . 图1-6中表示了应力系的立体图。 |
| 2. | A perspective of the stress system is shown in fig . 1 - 6 图1 - 6中表示了应力系的立体图。 |
| 3. | With respect to the analytical methods , this article stresses system theory and comparison 在研究方法上,本文尤其强调系统论的方法和比较的方法。 |
| 4. | A selfequilibrating stress system must be found . force density method is deve1oped for form finding 本文推导了用力密度法进行索膜结构形状确定的理论公式。 |
| 5. | To explore the relationship between pvn - crh and lc - ne neuronal systems , which are considered as two most important stress systems , we studied the c - fos expression in rats brain after cold stress , including pvn and lc 最后用6 -羟基多巴胺( 6 - ohda )损毁脑内去甲肾上腺素( ne )能系统后,观察应激诱导的脑内fos表达和血浆acth含量的改变。 |
| 6. | According to guibin - zhang et . recent research hi this aspect , we propose a model in which the mountain root and lithoshpheric root may contribute more to the regional stress system in collision mountain ranges Bott 、高锐和张贵宾等一批学者已经从理论或数值模拟方面对岩石圈根进行了研究,在这些研究的基础上,本文明确提出岩石圈根拖曳模式。 |
| 7. | Making matters worse ( for the pessimists , naturally ) is research favoring optimists . optimists biological stress systems arent perpetually running at full steam , taxing immune systems and inviting chronic disease 更糟的是(自然是对悲观主义者而言)研究结果都支持乐观主义者。乐观主义者的生物应激系统不会一刻不歇地保持高度警惕状态,所以不会破坏免疫系统,让慢性病乘虚而入。 |
| 8. | The surface loading of the mountains and the associated root of thickened crust produce horizontal deviatoric tension in the strong upper crust . in contrast , the deep , dense lithospheric root and its associated downflexing of the surface produce horizontal compressive deviatoric stress in the strong near - surface layer . the actual state of stress in the strong layer of the upper crust is the combined effect of these two opposite stress systems together with bending and other local and regional stresses such as due to ridge push 模拟结果表明:由于均衡机制,造山带下部的低密度山根促使地壳隆升、造山,山根是地壳刚性层中张性构造应力的主要力源;与此相反,冷的高密度岩石圈向软流圈插入、拆离、下沉,从而形成岩石圈根,它引起挤压造山和岩石圈地幔物质的重新调整,也是地壳刚性层中挤压性构造应力的主要力源。 |
| 9. | After succeeding in doing simulation with matlab , the model is simulated through matrix software . it include two parts , single mill and multi - mills . they both are separated into four parts , which are speed system , tension system , stress system and shape change system 然后,在利用matlab对速度系统仿真基础上,转换到matrix仿真软件平台,分别对单机架速度控制系统,单机架速度、张力、压下、形变控制系统,五机架速度、张力、压下、形变整个控制系统进行了仿真。 |