In summer, Cha No. 39 of 292 bags and 205 of 244 bags were inter- planted with Dendrobium officinale on cultivation bed, respectively, whose yields and biological efficiencies reached 102.46 kg and 103.98%, and 96.77 ...In summer, Cha No. 39 of 292 bags and 205 of 244 bags were inter- planted with Dendrobium officinale on cultivation bed, respectively, whose yields and biological efficiencies reached 102.46 kg and 103.98%, and 96.77 kg and 113.32%, accordingly. The seedlings of Dendrobium officinale interplanted with Pleurotus os- treatus grew by 2.78 cm during 10 weeks on cultivation beds, and the seedlings grew by 2.68 cm in the cultivation beds without interplanting arrangement. These demonstrated that the interplanting of Dendrobium officinale and Pleurotus ostreatus has none adverse effects on growth of Dendrobium officinale.展开更多
A new structural configuration with better impact stability for increasing energy absorbing efficiency is found. Based on finite element analysis, deformation modes of double-hat structure under axial impact loading a...A new structural configuration with better impact stability for increasing energy absorbing efficiency is found. Based on finite element analysis, deformation modes of double-hat structure under axial impact loading are categorized to find the main reasons that affect deformation stability. It is revealed that, in a double-hat structure, the location of the flanges is highly related to the deform- ation mode and energy absorbing efficiency. Moving the flanges away from their traditional mid-loca- tion may result in more regular and stable deformation mode and achieve higher energy absorbing ef- ficiency. The flange offset value needs to be controlled within a certain range, otherwise, the doub- le-hat structure would tend to deform like a top-hat structure and the energy absorbing efficiency could be compromised. These findings and analyses lead to a new structural design configuration- asymmetric flange locations--for enhancing the deformation mode stability in double-hat structures.展开更多
基金Supported by Fundamental Research Funds for Guangxi Academy of Sciences(13YJ22SWS20)~~
文摘In summer, Cha No. 39 of 292 bags and 205 of 244 bags were inter- planted with Dendrobium officinale on cultivation bed, respectively, whose yields and biological efficiencies reached 102.46 kg and 103.98%, and 96.77 kg and 113.32%, accordingly. The seedlings of Dendrobium officinale interplanted with Pleurotus os- treatus grew by 2.78 cm during 10 weeks on cultivation beds, and the seedlings grew by 2.68 cm in the cultivation beds without interplanting arrangement. These demonstrated that the interplanting of Dendrobium officinale and Pleurotus ostreatus has none adverse effects on growth of Dendrobium officinale.
基金Supported by US-China CERC on Clean Vehicle Consortium,the Ministry of Science and Technology of China(2010DFA72760)
文摘A new structural configuration with better impact stability for increasing energy absorbing efficiency is found. Based on finite element analysis, deformation modes of double-hat structure under axial impact loading are categorized to find the main reasons that affect deformation stability. It is revealed that, in a double-hat structure, the location of the flanges is highly related to the deform- ation mode and energy absorbing efficiency. Moving the flanges away from their traditional mid-loca- tion may result in more regular and stable deformation mode and achieve higher energy absorbing ef- ficiency. The flange offset value needs to be controlled within a certain range, otherwise, the doub- le-hat structure would tend to deform like a top-hat structure and the energy absorbing efficiency could be compromised. These findings and analyses lead to a new structural design configuration- asymmetric flange locations--for enhancing the deformation mode stability in double-hat structures.
