The safety switch comprises a heat transfer piece, an insulating seat, a fusible body, a control rod and a movable safety piece.
该保险开关,它包括一热传递片、一绝缘座、一可熔体、一控制杆以及一动保险片。
After some analyses of load transfer behavior of anchor rod, and based on the results of field test, a type of technique of removable anchor for which the pull rod can be removed, is proposed.
通过对锚杆荷载传递特性的分析和在现场原型试验研究的基础上,提出了一种仅拆除拉杆材料的可拆型锚杆技术。
The porous thermal hydraulic model is used to calculate complex fluid flow and heat transfer in rod bundle. The simulating calculation is verified through experiment.
采用多孔体模型对流体在棒束间的复杂流动传热进行了模拟计算,并将模拟计算结果与实验数据进行了比较。
The mechanisms of heat transfer enhancement and pressure drop reduction are analyzed of a new type of rod baffle shell and tube heat exchanger with spiral groove tube bundles.
描述了新型折流杆换热器的强化传热和降低壳层压力降的原理,它与传统折流板换热器相比,传热效率高,材料及能耗小。
The proposed rod adopts a structure of screw-pair jointing, load-bearing cylinder and thin-wall tube, and is characteristic of high energy transfer efficiency and good anti-fatigue life.
新型钎杆采用螺旋副连接柱面承载结构和薄壁管式结构,具有能量传递效率高抗疲劳寿命性能好等特点。
Any combination of these modules can be created without changing anything to the standard Transfer module (TM) and Rod Maker module (RMM).
这些短棒模块可以完全任意结合,而不需对标准“传递模块(TM)”和“滤棒制造模块(RMM)”任何更改。
Basic experiments are performed to investigate EHD(Electrohydrodynamics) enhancement of boiling heat transfer for R-123 in a vertical tube using the cylindrical-rod and flat bar electrodes.
以R-123为工质,采用带状电极和圆柱电极研究了电极形状对电水动力学(EHD)强化垂直管内核沸腾换热的影响。
The shell side of the rod baffle heat exchanger is so complicated that the flow field and enhanced heat transfer mechanism of the shell side cannot be commentated by the theoretical method.
折流杆换热器壳程结构复杂,用理论方法难以获得壳程流体流动和强化传热机理。
The calculation results were validated with experimental data. The effects of diminishing rod-rod gap size on local flow, heat transfer and coherent structure in tight lattice were analyzed.
利用实验数据对计算结果进行了验证,分析了棒棒间隙的减小对稠密栅元内局部流动、传热和相干结构的影响。
"Transfer mode" used motor oil transfer mode, there is no overload protection function, the load increased, the four tension rod threads, thread nut transfer mold damage.
“调模”使用油马达调模,没有过载保护功能,负载加大后,四根拉紧杆螺纹、调模螺母螺纹会损坏。
"Transfer mode" used motor oil transfer mode, there is no overload protection function, the load increased, the four tension rod threads, thread nut transfer mold damage.
“调模”使用油马达调模,没有过载保护功能,负载加大后,四根拉紧杆螺纹、调模螺母螺纹会损坏。
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