1)  manipulator
"机械手,控制器,操纵器"
2)  AT computer
AT机
1.
A new interface between single-chip microcomputer and general keyboard of AT computer;
一种新的单片机和AT机通用键盘的接口
3)  epsilon machine
∈机
4)  graph <词尾>,machinery
5)  organic-inorganic
有机-无机
1.
The solubility of layered perovskite-type organic-inorganic hybrids(C n H 2 n +1 NH 3) 2MCl 4(where M=Mn,Co,Cu,Zn;n=2,4,6,8,10,12) in seven kinds of solvent are obtained by atomic absorption spectrometry and titration method.
用原子吸收光谱法和化学滴定法测定了层状类钙钛矿有机-无机杂合物(CnH2n+1NH3)2MCl4(其中M=Mn,Co,Cu,Zn;n=2,4,6,8,10,12)在石油醚、环己烷、丙酮、三氯甲烷、DMF、甲醇、水共7种溶剂中的溶解度。
2.
The organic-inorganic lamellar materials are prepared with three kinds of ethyl stearic acyloxy silicate (one, two or three ethyl stearic acyloxy silicate) respectively.
用含不同取代数的硬脂酰基硅酸乙酯制备了有机-无机层状材料,利用粉末X射线衍射(XRD)和差示扫描量热法(DSC)进行表征,结果表明,含有3种取代数目的硬脂酰基硅酸乙酯的水解产物都具有典型的层状结构,同时随着长碳链酰基的数目增加,2θ向小角方向移动,层状材料的层间距变大,并对酰基链的排列方式进行了初步探讨。
3.
The hydroxyapatite forming mechanism of bioactive materials is summarized as well as the research actuality of flexible and bioactive organic-inorganic hybrids and its preparation technics.
具有与天然骨相似力学性能的有机-无机杂化材料是近年来发展的一种新型生物活性材料。
6)  mill housing
轧机机架
1.
Casting Mill Housing of 13060-6 Four-Roll Reversible Cold-Rolling Mill;
13060-6四辊可逆冷轧机机架的铸造
2.
A hybrid method was proposed based on the combination of parameter sensitivity analysis and sequential optimization,a parameter model for 550 mill housing was established,and the dimensions were optimized with ANSYS,where minimizing volume was considered as the first objective function.
提出了一种基于参数敏感度分析的顺序优化方法,利用ANSYS软件建立了550轧钢机机架的参数化模型,并对轧机机架尺寸进行了优化设计。
3.
Facing to the huge size,complicated shape and high processing precision of mill housing and relying on the knife tool processing modification and the present machining capacity the suitable measurements are taken and the mill housing is perfectly manufactured.
针对轧机机架体积庞大、形状复杂、加工精度高等特点,利用现有设备机加工能力,改进加工刀具,采取适当的措施,圆满地完成了轧机机架的制作任务。
参考词条
补充资料:手控制器


手控制器
hand controls

手控制器(hand controls)用手操纵的控制器。手的操作功能有数十种之多,并且动作敏捷、准确,所以实际使用的控制器绝大多数都是用手操作的。手控制器的种类很多,常见的有按钮、旋钮、开关、手轮、曲柄、方向盘、操纵杆等。手控制器的设计应考虑人手的解剖结构和生物力学特性,使其适合人的使用要求。 (许百华撰朱祖样审)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。