建立了全断面岩石掘进机盘形滚刀刃上一点的位移方程,并探讨了其应用。
The displacement equation of a point on the disk cutter of a full-section rock tunneler has been created and its apPlication is investigated.
全断面岩石掘进机(TBM)的破岩效率主要受刀盘设计和岩体特征的影响。
The cutterhead and rock mass characteristics affect the excavation efficiency of full face rock tunnel boring machine (TBM) strongly.
利用人工智能技术对全断面岩石掘进机进行优化选型,实现掘进机方案设计智能化。
Using artificial intelligence to make a type selection of full face rock tunnel boring machine an intelligent design system was established.
我国特有的水资源分布特点和地理地貌特征,为全断面岩石掘进机的应用提供了广阔前景。
With the geographic features and geographic allocations of water resources in China taken into consideration, the adoption of full-face TBM has been offered broad prospects.
正确确定岩石的性能参数是全断面岩石掘进机使用及高性能全断面岩石掘进机研制的理论基础。
Correctly determining quality parameters of rock is the theoretical basis of use of TBM (full face rock tunnel boring machine) and its design.
根据全断面岩石掘进机盘形滚刀工作时的受力,建立了刀盘受力均匀且横向载荷为零的盘刀布置规律。
According to forces applying on the disk-shaped cutters of whole-section tunneler, cutter arrangement rules are established with even loading on the disk and null traverse load.
刀盘设计是全断面岩石隧道掘进机(TBM)的设计关键,是影响其掘进性能的决定性因素。
Being a crucial factor in influencing the performance of Full Face Rock Tunnel Boring Machine (TBM), the cutterhead design is one of the key issues of TBM.
刀盘设计是全断面岩石隧道掘进机(TBM)的设计关键,是影响其掘进性能的决定性因素。
Being a crucial factor in influencing the performance of Full Face Rock Tunnel Boring Machine (TBM), the cutterhead design is one of the key issues of TBM.
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