1) furnace pit
熔窑地坑
1.
Introduce the anti-buoyancy design key point for furnace pit structure,mainly discuss the confirmation of waterproof location,water reduction coefficient,sub-coefficient of load of water buoyancy.
介绍了熔窑地坑结构的抗浮设计要点,着重对设防水位的确定、水头折减系数、水浮力荷载分项系数的选取进行了探讨。
2) underground cave dwellings
地坑窑院
1.
Being one important element in underground cave dwellings,the Kang not only contains rich traditional culture,but also perfectly combines with the cave dwellings either in structural construction or function.
地坑窑院作为我国一种独特的区域性窑洞类型,其文化传承的意义十分重要。
3) underground cave dwelling
地坑窑居
1.
With a lot of plot investigation,the traditional water recycling system in underground cave dwelling (UCD) is intensively discussed and its composition and layout are studied,coupled with its working mechanism,so as to explore its rationality and adaptability.
通过实地调研,深入细致地探讨了我国地坑窑居中的水循环系统,研究了该水循环系统的组成与设置,并讨论了其运行方式,挖掘了该系统存在的合理性与适应性,为我国传统窑居的信息收集和保护修缮奠定基础。
4) furnace
[英]['fɜ:nɪs] [美]['fɝnɪs]
熔窑
1.
Multiple Steps to Prolong the Life of Float Glass Furnace;
延长浮法玻璃熔窑使用期限的措施
2.
The flow layer thickness of different scale furnace can be calculated by the equation of flow layer thickness which is derived from this article .
通过对熔窑内玻璃液流层厚度公式的推导,得出不同规模的浮法熔窑玻璃液流层的厚度。
3.
The energy saving technology of float glass furnace was discussed and the operation skills for saving energy during the running period of furnace were also summarized .
对浮法玻璃熔窑节能技术进行了探讨,特别就熔窑运行过程中实际操作方面的一些节能技术进行了分析总结,并提出了自己的见解。
5) melting furnace
熔窑
1.
The current status of melting furnace for sodium silicate production an China is briefly introduced.
简要介绍了目前国内生产水玻璃使用的熔窑状况,几种窑型的优缺点,并对水玻璃熔窑今后的发展提出了看法。
2.
This paper offers corresponding plans to control the temperature of melting furnace characterized by nonlinear,slow time-varying,strong delaying and uncertainties,etc.
主要针对熔窑温度表现出的非线性、慢时变、大迟延和不确定性等特点,根据径向基函数神经网络具有可以逼近任意非线性映射、较快的学习速度并避免局部极小问题的能力,将RBF网络用于熔窑温度过程非线性模型的在线辨识,仿真结果表明能较好地跟踪温度的实际输出数据,具有较高的学习精度。
6) crater
[英]['kreɪtə(r)] [美]['kretɚ]
熔坑
1.
Effect of structure defects on the surface craters induced by high current pulsed electron beam;
结构缺陷对电子束诱发纯铝表面熔坑的影响
2.
The formation cause of craters observed on the surface and multi-peak phenomenon in microhardness measuring were analyzed.
利用扫描电镜(SEM)、台阶仪、X射线衍射仪(XRD)、透射电镜(TEM)、显微硬度仪对W6Mo5Cr4V2钢经强流脉冲离子束(HIPIB)辐照前后试样的表面形貌、粗糙度、表层的组织结构及硬度进行了分析,探讨了"熔坑"和硬度"多峰"态形成的原因。
3.
It is found that after the irradiation of HCPEB,crater-like defects scatter on the modified surface.
通过金相显微镜、三维轮廓形貌仪对处理样品表面进行形貌观察,发现处理表面有熔坑现象产生,熔坑面密度及处理面粗糙度随脉冲处理次数的增加而减少。
补充资料:地窑
1.地窖。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条