FEA model of its free status has been built using ANSYS APDL.
使用参数化建模方法,建立钢板弹簧自由状态下的有限元模型。
Compiling procedure with APDL of ANSYS is to deal with the moving heat source.
利用AN SYS软件的APDL语言编写程序,实现在移动热源载荷下的有限元计算。
By the APDL function of ANSYS, VRCF can analyze hemodynamics conveniently and automatically.
通过ANSYS的APDL流程化分析功能的开发,实现了血流动力学分析的流程化、自动化。
The optimized design program was written by APDL and the user interface was written by UIDL.
应用APDL编制了优化设计程序,应用UIDL编制了用户用界面。
The process of vibration analysis is demonstrated with APDL(ANSYS Parametric Design Language).
工程实例分析验证了方法的正确性和有效性。
The seismic wave is input by way of coherent-vibration input program and program compiled by APDL.
地震波的输入,通过APDL语言编制的程序来完成,其中多点输入采用了大质量法来施加加速度。
The FEA model was parameterized by APDL language and the stiffness distribution was computed over the workspace.
通过APDL语言实现有限元模型的参数化设计,计算出并联机床在工作空间内的刚度分布。
Making APDL command by using this algorithm, appending the menu to the main menu of the ANSYS, the system is completed.
将此算法编写成APDL命令流,在ANSYS的主菜单下通过二次开发添加菜单构成此系统。
Combining APDL in ANSYS with VC, the parameterized finite element analysis system of the hydraulic gate hoist structure is developed.
将ANSYS的二次开发语言APDL与VC相结合,开发门式启闭机门架结构的参数化有限元分析系统。
The parametric finite element model (FEM) of wedged-ring joint structure was established using ANSYS parametric design language (APDL).
利用APDL语言对ANSYS软件进行二次开发,建立楔环连接结构的参数化有限元模型。
With the parametric language APDL, a flexible software platform based on ANSYS is developed for the virtual analysis of 3d welding process.
用APDL参数化语言构建了一个基于ANSYS的三维焊接过程虚拟分析柔性软件平台。
A stress evaluation platform for the oil crude tanker with three cargos is built based on the JTP rules by using the APDL language of ANSYS.
本文依据JTP中关于舱段有限元建模的要求,采用有限元软件ANSYS的APDL语言,建立了超大型油船三舱段结构强度评估平台。
The software developed with APDL language of ANSYS was introduced and was used for the optimization of magnetic circuit of the magneto-rheological damper.
分析结果显示,将APDL语言面向对象软件设计应用于磁路设计是一种有效的方法。
Based on secondary development technology, the large universal finite element software ANSYS could remedy its inadequate specialization with APDL language.
大型通用有限元软件ANSYS可以利用APDL语言,通过二次开发技术,弥补本身专业化不足的缺陷。
During the entire process of creating finite element model, imposing load and optimizing the location of the temporary supports, the APDL language is used.
从模型的建立,到载荷的施加,再到临时支撑位置的优化,全部过程都是应用APDL语言进行编程计算。
The model is parameterized using APDL in ANSYS, the optimum structure of the spindle is designed, and the main structure parameters of the spindle are obtained.
在ANSYS中利用APDL语言实现主轴有限元模型的参数化,并对主轴的结构进行优化设计,求出了主轴优化后的主要结构参数。
This analysis process can be compiled with the command chain APDL in the ANSYS software; it can also serve as the post-process program to some similar structure.
用ANSYS中的命令流apdl把以上分析编写成疲劳分析的后处理程序可以作为相似结构疲劳分析的后处理程序。
ANSYS is used to make the modal analysis of a plane truss structure model, then APDL is used to compile procedures to calculate flexibility difference curvature.
作者利用ANSYS有限元分析软件对一个平面桁架模型进行了模态分析,并用APDL语言编制程序计算该结构的柔度差值曲率。
The process for developing the interfaced electromagnetic field analysis program, which based on UIDL and APDL offered by ANSYS together, was introduced in this paper.
介绍了基于ANSYS二次开发语言UIDL与APDL相结合开发界面化电机磁场分析程序的过程。
A finite element approach, so called electrostatic-field analysis has been developed by ANSYS and APDL to solve the problem of the force of electret micromotor's rotor.
为了对驻极体微电机的转子进行静电场的受力分析,利用ANSYS软件及它的编程语言APDL实现了静电场的有限元分析。
The useful APDL(ANSYS parametric design language)technology was used in the finite element analysis and structural optimum design of the multi-flue chimney of a power plant.
利用ANSYS的APDL(参数化设计语言)的强大功能对某电厂多管式烟囱进行了有限元分析与结构优化设计。
This paper introduces the steps of developing parametric finite element analysis by APDL and put a cylinder spring as an example expatiates the realization process in detail.
文章介绍了采用APDL进行参数化有限元分析的实施步骤,并以圆柱弹簧为例,详细阐述了这一过程的实现。
A new kind of finite element parametric analysis technology for the reinforced concrete column is developed based on APDL which is a secondary development tool provided by ANSYS.
基于ANSYS提供的二次开发工具APDL,开发钢筋混凝土柱有限元参数化分析技术,能够大大提高钢筋混凝土梁分析效率。
The current software ANSYS is adopted in this paper, and a coupling analyses method is established too. By using APDL language, the program for coupling field calculation is made.
文中使用了通用有限元软件ANSYS,采用了多场耦合的分析方法,并利用APDL语言编制了相应的耦合场计算程序。
With the help of macro file compiled in APDL under FEM software ANSYS, two example of bridge is analysed and the result is compared with the data obtained by the program analysis.
用APDL编制宏文件,采用有限元软件ANSYS对两个实例进行了分析,并和本文程序分析值进行了结果对比。
The APDL language was used to program the Preprocessor and Postprocessor of CAE optimal Design. The command batch files were built to implement automatic computation and analysis.
应用APDL参数化设计语言对CAE优化设计的前后置处理进行编程处理,生成分析命令批处理脚本文件,进而实现求解过程的自动化。
With the ANSYS software and practical project example, the equivalent finite element stresses is applied in stress restriction for the shape optimization of arch dam by using APDL.
基于有限元计算软件ANSYS,结合工程实例,利用参数化设计语言APDL将拱坝等效应力应用于应力约束,进行拱坝体型优化设计。
With the ANSYS software and practical project example, the equivalent finite element stresses is applied in stress restriction for the shape optimization of arch dam by using APDL.
基于有限元计算软件ANSYS,结合工程实例,利用参数化设计语言APDL将拱坝等效应力应用于应力约束,进行拱坝体型优化设计。
应用推荐