CPlot: offscreen compositing with osmesa intersector: agglomerateSmallCells: improved algorithm
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intersector: syncMatchPerioFaces: force periodicity for intersected/adapted meshes Connector: getInterpolatedPoints: optimized File Format AVI, ġ71 D.Release content Release content Author : Onera “Show Arrowheads on Lines” Toggle-offġ66 F. “Resize Automatically” Toggle-off, Level Skip “3”ġ57 5 - 6 Streamtraces 사용 Step 15 Streamtraces 나타내기ġ59 D. “Separate Colors Band” toggle-off, Alignment “Horizontal”, Y% “80”ġ55 D. Header Font & Number Font “1.5%”, “Resize Automatically” Toggle-onġ54 C. Contour Details “Separate Color Bands” Toggle-off, Alignment “Horizontal”, Y% “90”ġ52 B. Legend, “Show Contour Legend” toggle-onĪ. Contour, baffle (Step 1 Incr 1) “C2: Von Mises Stress” , Coloring B.Color Map “Large Rainbow” (Lg Rainbow)ġ42 D. “Color Distribution Method” “Banded”ġ38 Step 10 Contour Group 2 Contour Levels 수정ġ40 Step 11 Contour Group 2 의 Color Map 수정Ī. “Link All Color Maps Together” Toggle-offġ35 D. Range, Min “-0.15”, Max “0.15”, ġ27 5 - 4 Contour Groups 작업 Step 6 Contours 나타내기ġ29 Step 7 Contour Group 1에 Contour 변수 설정ġ30 Step 8 Contour Group 1의 Contour Levels 수정ġ31 C “Level To Add”: i.
#TECPLOT 360 SCALE BAR FULL#
View>Fit to Full Size를 선택합니다.ġ25 Step 5 Axis 고치기 A. Fluent Data Loader: “Load Cells Only” ġ22 Step 3: Fluent Zones 활성화 A. Fluent Data Loader Read Case and Data File:ġ20 E. Import Data File Warning, “Add to current data set”, ĭ. Select Import Format, “Fluent Data Loader”, ġ19 C. From: “Stress” ġ17 Step 2 Transient Fluent Data Files 로드ġ18 B. FEA Post-Processing Derive Variables “Von Mises Stress/Strain”ġ15 F. Select Import Format, “ABAQUS Output Database (FEA)”, ġ13 C. 5 - 2 시작하기 Step 1 Abaqus Output Database 파일 로드 A. Streamtraces per Rake = “5”ġ11 Chapter 5 Fluid Structure Interactionĥ - 1 소개 이번은 fluid 압력 효과를 보게 움직이는 animation을 만들 것입니다. “Streamtraces” Toggle-onġ05 Step 12 Streamtrace Details Dialog 사용Ī. “Lighting” ġ02 Step 10 Streamtraces 활성화 A. Frame>Edit Current Frameĩ9 Step 9 Lighting 고치기 A. Zone Style Shade, Zone 1 (rotating-fluid) & Zone 5(fluid)ĩ1 Step 6 Blade 강조 A. Plot > Blanking>Depth BlankingĨ9 4 - 4 Zone Style 사용 Step 5: Turn Off Shading for Selected ZonesĪ. “Shade” & “Translucency” Toggle-onĨ3 4 - 3 Plot View 고치기 Step 3 Plot 회전시키기 A. $TEC_360_2008\tutorials\internal_flow\data crutcher.dat & crutcher.cas Ī. $TEC_360_2008\tutorials\internal_flow\data crutcher. Mapping Style Lines Maps 2 & 3 “No”ħ0 Step 29 Line Legend 추가 A. Range, “Reverse Axis Direction” toggle-onĦ6 Step 28 Mapping Style 고치기 A. Map Num 3 “9: Upper Surface” Ħ1 Step 26 새 Mappings 활성화 A. Maps 2 & 3 “Edit Name” “Experimental Data” Ī. Variable “Pressure Coefficient Cp”ĥ6 Step 23 새 Mappings 만들기 A.
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Vars “Cp” “Pressure Coefficient” ĥ3 Step 22 Variable Name 변경 A. $TEC_360_2008\tutorials\external_flow\data “ONERA_CP_Test_Span0. View>Fit to Full SizeĤ8 3 - 7 Simulation Data를 Measured Data와 비교하기
![tecplot 360 scale bar tecplot 360 scale bar](https://usermanual.wiki/Document/tpgs.1159411921/asset-39.png)
Number Font “1.5%” Ģ2 Step 8 Contour Levels 추가 A.
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“Contour” “Pressure Coefficient”ġ8 3 - 4 Contour Layer 고치기 Step 6 Contour Legend 추가Ī. “Pressure Coefficient” ġ6 Step 5 Contour 나타내기 A. View>Fit to Full Sizeġ3 3 - 3 Pressure Coefficient의 Contour Map 나타내기 $TEC_360_2008\tutorials\external_flow\data\m6wing.qġ0 Step 2 Isolate the Wing Using the SidebarĪ. “Load Grid and Solution/Function File(s)”Ĥ D. 2 Chapter 3 External Flow 3 - 1 소개 3 - 2 시작하기