五、实验报告一:题目一一个平面钢架右端固定,再左端施加一个x方向的-2000N的力P1,中间施加二个Y方 向的-2000N的力P2, p3,是以静力来分析,求解各节点的位移已知组成钢架的各梁除梁长外,其 余的几何特性相同横截面积:A=0.007M2横截高度:H=0.45m惯性矩:I=0.00033M4弹性模量:E=2.05*1011 n/m2泊松比:u=0.21.定义单元类型,定义单元的实常数,定义材料属性,建立平面钢架节点和 单元并生成单元6施加约束和单元编号进行分析SOLUTION OPTIONSPROBLEM DI MENS IONALITV 2-DDEGREES OF FREEDOM UX U¥ ROTZANALVSIS T¥PE STATIC GLOBALLV ASSEMBLED MATRIX SYMMETRICLOAD STEP OPTIONSLOAD STEP NUMBER 1TIME AT END OF THE LOAD STEP 1.0000NUMBER OF SUBSTEPS 1STEP CHANGE BOUNDARV CONDITIONS NOPRINT OUTPUT CONTROLS NO PRINTOUTDATABASE OUTPUT CONTROLS ALL DATA URITTENFOR THE LAST SUBSTEP结果擦看列表节点解PRINT ROT NODAL SOLUTION PER NODE***** POST1 NODAL DEGREE OF FREEDOM LISTING *****LOAD STEP= 1 SUBSTEP= 1TIME= 1.0000 LOAD CASE= 0THE FOLLOUING DEGREE OF FREEDOM RESULTS ARE IN THE GLOBAL COORDINATE SYSTEMNODE ROTZ1 -0.47215E-052 -0.45954E-053 -0.28641E-054 -0.50570E-055 0.42857E-056 0.82384E-057 0.0000MAXIMUM ABSOLUTE UALUESNODE 6UALUE 0.82384E-05二.机械连杆一个机械连杆,弹性模量E=3.06*10iiN/m2,泊松比为u=0.2, THK=0.6,以静力学来分析连杆创建模型2.选择单元类型,定义单元类型,定义单元类实常数,定义材料属性A GLOBALL¥ ASSEMBLED MATRIX SVMMETRICLOAD STEP OPTIONSLOAD STEP NUMBER 1TIME AT END OF THE LOAD STEP 1.0000NUMBER OF SUBSTEPS 1STEP CHANGE BOUNDARV CONDITIONS NOPRINT OUTPUT CONTROLS NO PRINTOUTDATABASE OUTPUT CONTROLS ALL DATA WRITTENFOR THE LAST SUBSTEP列表节点解9 638华初 6 ^15二53~53£1 乎 6n63.63.61L6gg \84 956971 97 少 9 94 94 贝 9^939^9^9792^79^9^3 \13 98098^b l 07^6996©6^6©636«63636©605959!: L uu-rcQM夕7T _ _ —c — r mr <411 H1 jOI tQ1 "O1 TQ1 H631.976'126418962528.008072^QV (AVG)4X =.184E-07W =.008072 4X =2844三. 六方孔螺钉头用六角扳手为例,叙述有限元的分析步骤;题目:四. 如图所示为六方孔螺钉头用六角扳手,再手柄端部加斜向上的面力100N,然后加向下的面力40N, 是以静力学来分析算出再者两种外载作用下扳手的应力分析,已知参数如下,截面宽为5MM,形状为 正六变形,杆长6CM,手柄长10CM,弯曲半径为1CM,弹性模量为3.06E11PA,泊松比为0.4.一.改变工作名:单击菜单 Utility—F ile—C hang Jobname.在弹出的对话框的"[/ FILNAM]"文本框中输入新文件名,单击"OK”. .—.单击菜单 Main Menu —preprocessor—element type—Add/Edit/Delete.在弹出的对话框中单击"Add ";在 弹出的对话框的左侧列表中选择"Structural Solid",在右列表中选"Quad 4node 42”,单击"Apply" 按钮;在右侧列表中选择"Brick 8node 45",单击"OK ”,单击"Element types "对话框中的" Close "按钮.Library of Elemeirt TypesOnly structural element t^pes are shownLibrary of Element TypesStructural MassLinkBeamPipeQuad 4node 424node 1 鸵8node 183Snode S2Axi-har 4node 258nade S3Brick 3node 45Solid-ShellCcristraintElement type reference number三. 定义材料特性四. 创建正六边形面五. .显示关键点,线号:六. 单击菜单 Main Menu —preprocessor—Modeling—Create—Keypoints—In Active CS.在弹出的对话框中,创建关键点七. 创建直线八. :创建圆角九.创建直线:十.将六边形面划分为两部分:拾取菜单Main Menu —preprocessor—Meshing—MeshTool.弹出如图7-11所示的对 话框,单击"Size Controls"区域中"lines"后面的"Set"按钮,弹出拾取窗口,拾取直线2,3,4,,单击"OK"按钮,弹出如图 7-12所示的对话框,在"NDIV文本框中输入3,单击"Apply"按钮;再次弹出拾取窗口,拾取直线7,8,9,单击按钮,删除 "NDIV"文本框中的3,在"SIZE文本框中输入0.01,单击按钮.在"Mesh"区域,选择单元形状为"Quad”(四边形),选择划 分单元的方法为"Mapped”^射).单击"Mesh"按钮,弹出拾取窗口,拾取六边行面的两部分,单击"OK"按钮.十一.拾取菜单 Utility Menu—Plot—Lines.十二.拾取菜单 Main Menu — preprocessor—Modeling—Operate—Extrude—Areas—Along Lines.弹出拾取窗口,拾 取六边形面的两部分,单击"OK"按钮,再次弹出拾取窗口,依次拾取直线7,8,9,单击"OK"按钮.十三.拾取菜单Main Menu —preprocessor—Meshing—Clear—Areas.弹出拾取窗口,拾取z=0的两个平面,单击"OK" 按钮.十四.拾取菜单 Utility Menu—Plot—Elements.十五.拾取菜单 Main Menu —Solutions—Define Loads—Apply—Structural—Displacement— On Areas.弹出拾取窗 口,拾取z=0的两个平面,单击"OK"按钮,弹出如图7-13所示的对话框,在列表中选择"All DOF",单击"OK"按钮.十六.拾取菜单 Main Menu — Solutions—Define Loads —Apply—Structural—Force/Momentl—On Keypoints.弹出拾取窗口,拾取扳手长臂端面的六个顶点,单击"OK"按钮,弹出如图7-14所示的对话框,选择”Lab”为"FZ”,在"VALUE”文本窗口中输入60,选择”Lab”为"FX”,在"VALUE”文本窗口中输入100,单击"OK"按钮.十八.l±l 国 日rreprocessor Solution General Post proc 冒 Data & File Opts @ Results Summary E Read Results S Failure Criteria□ Plot Results 日 List ResultsE Detailed Summar 目 Iteration Summry 目 Percent Error S Sorted Listing 园 Nodal Solution 园 Element Solution H Superelem DOF 国 SpotWeld Soluti□ 尽Reaction Solu□□□国E Nadal Loads 目 Elem Table Data 目 Vector Data 园 Path Items 因 Linearized Strs E Query Results S Options for Outp @ Results Viewer S Write PGR File□ Nodal Calcs田 Element Table 田 Path Operations S Surface Operations E Load。