1) single triggering method
单触法
1.
A method named the single triggering method for designing ladder diagram in sequencing tasks is described.
描述了一种用于顺序过程控制的程序设计方法——单触法。
2.
The single triggering method, the programming method of sequence process controlment, can be applied to both programming method of programmable controllers and hardware relay circuits.
用于顺序过程控制的程序设计方法———单触法,规则、快捷、应用简便,可用于可编程控制器(PC)及硬件继电器控制电路的程序设计。
2) contact element method
接触单元法
1.
The interaction between the casting and core was disposed by using the contact element method in numerical simulation, which improved traditional method for disposing casting /model boundary conditions.
模拟中采用接触单元法处理铸件与砂芯之间力的作用,改进了传统的铸件/铸型边界条件处理方法。
3) non-linear contact element method
非线性接触单元法
4) contact element
接触单元
1.
Simulation studies on stability of slope with contact element;
接触单元对边坡稳定分析影响的仿真研究
2.
The computing model of adopting contact element to simulate the pile-soil’s reciprocity;
引入接触单元模拟桩土共同作用
3.
Automatic generation of 3D finite element mesh and contact elements for helical gears;
斜齿轮三维有限元网格和接触单元的自动生成
5) single-point contact
单点切触
6) contacting element
接触单元
1.
Using the Non-linear analysis technology of ANSYS software,the three-dimension finite element model of radial tyre of R15 type of 60 series is built with three-dimension volume element,layer element and contacting element.
采用ANSYS软件非线性分析技术,通过三维体单元、层单元和接触单元,建立了60系列的R15型子午线轮胎的三维有限元模型。
2.
The contacting simulative analytical model of a pair of herringbone gear used in warship was established,and let the result of calculation be compared with Hertz theory,therefore explained the accuracy,effectiveness and reliability of the contacting element on gear contact stress analysis.
建立了一对舰用人字齿轮接触仿真分析模型,并将计算结果与赫兹理论比较,说明了接触单元在齿轮接触应力分析上的精确性、有效性和可靠性。
补充资料:装箱单、重量单、尺码单
装箱单、重量单、尺码单
[装箱单、皿t单、尺码单1装箱单(Pack-ing Ust)是说明货物包装情况的单据,包括包装材料、包装方式,以及详细的包装内容,如花色、规格搭配等。进口地海关主要依据装箱单对某一特定内容的包装内容进行检查,也是进口商核对货物的依据。装箱单的内容有:单据名称、卖方名称、唆头、件数、规格、数量、毛净重、签字等。 重量单(Weight ust)是由卖方或第三者提供的,表明货物重量的单据。一般包括皮、毛、净重。它必须和其他单据上所表示的货物重量一致。 尺码单就不详细介绍了。
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