方法根据股骨头、颈的解剖特点和生物力学原理,设计制造股骨头内撑器。
Methods the new type of femoral head interior supporting system was designed according to biomechanical principles and the characteristics of femoral head and neck.
该方法考虑了支护结构和土的相互作用;考虑了支护结构和内撑结构之间的整体协调。
This method considers the interaction of soil-structure and the whole harmony of the retaining structure and inner-support structure.
基于明确的地质条件、地质参数,以及地质条件的影响方式,我们可以更加有效的设计计算多层内撑式深基坑工程。
Based on the specific the geological conditions and detailed soil parameters, we can effectively simulation the excavation in urban environment.
当你发现你自己可以很从容的做俯卧撑,试着看看你一分钟内可以做几个。
When you find yourself becoming more and more comfortable with the push-up, try and see how many you can do within a minute.
可将多种不同的有益剂装载进所述撑条内的不同开口中用于递送至组织。
A plurality of different beneficial agents may be loaded into different openings within the struts for delivery to the tissue.
为此,我们借助于现代先进的生物力学技术,并紧密结合临床,对经椎弓根撑压内固定系统进行了较为系统的研究。
In this study, current biomechanical techniques and clinical results were used to analyse the effectiveness of this system extensively.
当你发现你自己可以很从容的做俯卧撑,试着看看你一分钟内可以做几个。
When you find yourself becoming more and more comfortable with the push-up, try and see how many you can do within a minute. A good sprinter can do 60 in a minute.
当你发现你自己可以很从容的做俯卧撑,试着看看你一分钟内可以做几个。
When you find yourself becoming more and more comfortable with the push-up, try and see how many you can do within a minute. A good sprinter can do 60 in a minute.
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