A. LANGKAH PENGGAMBARAN
Untuk langkah Simulasi maka kita tinggal meneruskan proses diatas
Untuk hasil akhir, dari Stress Analysis Kampuh V ini, maka kita harus :
Analyzed File:
Autodesk Inventor Version: 2013 (Build 170138000, 138)
Creation Date: 22/04/2013, 16:37
Simulation Author: INDAR LUH SEPDYANURI (101031113)
Summary: STRESS ANALYSIS KAMPUH V
- Siapkan gambar kerja (Gambar Kampuh V)
- Bukalah software Autodesk Inventor Professional 2013 yang akan digunakan untuk menggambar.
- Setelah itu, akan muncul Halaman muka Autodesk Inventor Professional 2013
- Selanjutnya akan dimulai untuk menggambar Sketch 2x
- Click New > Pilih Template Matric > Standar (mm).ipt
- Click Sketch 2D, pilih plane yang akan kita gunakan, (saya memakai plane xy) biar gampang.
- Click Line, kemudian gambar garis-garis sesuai gambar kerja masing-masing, untuk caranya gampang, kita tinggal Click posisi awal kemudian geser mouse ke kanan/ kekiri sebelum mouse di Click , kita atur dulu berapa panjang nya. (isi 25 mm) kemudian Enter.
- teruskan sampai menjadi gambar seperti dibawah ini.
- Setelah selesai, Click Mirror > Select > terus kita pilih garis mana yang akan di mirror kan (cerminkan)(saya pilih garis bawah,kiri,atas,dan miring)
- kemudian Click Mirror Line > pilih garis sejajar dengan sumbu y (garis sebelah kanan), setelah itu kita pilih Apply > Done.
- Garis tengah bisa dihapus bisa juga tidak, (kalau saya dihapus biar gak mengganggu pemandangan)
- Click garis kemudian pencet delete pada keyboard
- Setelah selesai, Click Finish Sketch
- Maka akan kembali ke tampilan pandangan perspektif.
- Setelah ini, terus kita Extrude > isi 10 mm > OK
- Click tab Environments > Stress Analysis
- Click > Create Simulation > Klik OK
- Click Assign > Click Override Material (pilih material yang akan digunakan, disini saya menggunakan Stainless Steel) > Click OK
- Click Fixed > pilih bagian mana yang akan kita Fixed (dimatikan), kemudian Apply > cancel
- Click Force > pilih bagian yang sebelah kanan dari kampuh V (dengan memutar navigasi sebelah kanan atas) > Click Direction (untuk mengubah arah gaya ”panah” untuk ini saya mengubah gaya tarik (arah anak panah keluar)) > isi Magnitude dengan Besaran gaya yang bekerja (menggunakan 4 digit no akhir mahasiswa) > Click Apply > cancel.
- Click Mesh View (kita mixing)
Untuk langkah Simulasi maka kita tinggal meneruskan proses diatas
- Kemudian Click Simulate > Click Run
- Setelah ini maka akan Animate Result (simulasi tegangan tarik yang bekerja pada Kampuh V)
- Kita bisa simpan record simulasi dengan Click tombol merah bulat yang ada disamping tombol play (format .avi)
Untuk hasil akhir, dari Stress Analysis Kampuh V ini, maka kita harus :
- Click Report > terus klik OK
- Selesai
Analyzed File:
Autodesk Inventor Version: 2013 (Build 170138000, 138)
Creation Date: 22/04/2013, 16:37
Simulation Author: INDAR LUH SEPDYANURI (101031113)
Summary: STRESS ANALYSIS KAMPUH V
________________________________________
Project Info (iProperties)
Summary
Author SonyVaio
Project
Designer SonyVaio
Cost Rp0
Date Created 22/04/2013
Status
Design Status WorkInProgress
Physical
Material Generic
Density 1 g/cm^3
Mass 0,0247 kg
Area 7202,65 mm^2
Volume 24700 mm^3
Center of Gravity x=0 mm
y=24,7571 mm
z=5 mm
Note: Physical values could be different from Physical values used by FEA reported below.
Simulation:1
General objective and settings:
Design Objective Single Point
Simulation Type Static Analysis
Last Modification Date 22/04/2013, 16:36
Detect and Eliminate Rigid Body Modes No
Mesh settings:
Avg. Element Size (fraction of model diameter) 0,1
Min. Element Size (fraction of avg. size) 0,2
Grading Factor 1,5
Max. Turn Angle 60 deg
Create Curved Mesh Elements Yes
Material(s)
Name Stainless Steel
General Mass Density 8,08 g/cm^3
Yield Strength 250 MPa
Ultimate Tensile Strength 540 MPa
Stress Young's Modulus 193 GPa
Poisson's Ratio 0,3 ul
Shear Modulus 74,2308 GPa
Stress Thermal Expansion Coefficient 0,0000104 ul/c
Thermal Conductivity 16 W/( m K )
Specific Heat 477 J/( kg c )
Part Name(s) Part4
Operating conditions
Force:1
Load Type Force
Magnitude 1113,000 N
Vector X 1113,000 N
Vector Y 0,000 N
Vector Z 0,000 N
Selected Face(s)
Fixed Constraint:1
Constraint Type Fixed Constraint
Selected Face(s)
Results
Reaction Force and Moment on Constraints
Constraint Name Reaction Force Reaction Moment
Magnitude Component (X,Y,Z) Magnitude Component (X,Y,Z)
Fixed Constraint:1 1113 N -1113 N 0 N m 0 N m
0 N 0 N m
0 N 0 N m
Result Summary
Name Minimum Maximum
Volume 24700 mm^3
Mass 0,199576 kg
Von Mises Stress 0,0573845 MPa 11,7644 MPa
1st Principal Stress -0,223776 MPa 17,4699 MPa
3rd Principal Stress -2,67514 MPa 5,23027 MPa
Displacement 0 mm 0,00201713 mm
Safety Factor 15 ul 15 ul
Stress XX -0,512972 MPa 17,4694 MPa
Stress XY -4,02466 MPa 5,27334 MPa
Stress XZ -0,647613 MPa 0,86904 MPa
Stress YY -2,33271 MPa 10,7375 MPa
Stress YZ -1,54585 MPa 1,25263 MPa
Stress ZZ -2,59534 MPa 5,26861 MPa
X Displacement 0 mm 0,00177397 mm
Y Displacement -0,000960712 mm 0,000132623 mm
Z Displacement -0,000102071 mm 0,000103037 mm
Equivalent Strain 0,000000260153 ul 0,0000578096 ul
1st Principal Strain 0,000000213964 ul 0,0000656385 ul
3rd Principal Strain -0,0000243307 ul -0,000000201372 ul
Strain XX -0,00000259285 ul 0,000065635 ul
Strain XY -0,0000271091 ul 0,0000355199 ul
Strain XZ -0,00000436216 ul 0,00000585364 ul
Strain YY -0,0000154835 ul 0,0000202907 ul
Strain YZ -0,0000104125 ul 0,00000843739 ul
Strain ZZ -0,0000240946 ul 0,00000203388 ul
Figures
Von Mises Stress
1st Principal Stress
3rd Principal Stress
Displacement
Safety Factor
Stress XX
Stress XY
Stress XZ
Stress YY
Stress YZ
Stress ZZ
X Displacement
Y Displacement
Z Displacement
Equivalent Strain
1st Principal Strain
3rd Principal Strain
Strain XX
Strain XY
Strain XZ
Strain YY
Strain YZ
Strain ZZ
Summary
Author SonyVaio
Project
Designer SonyVaio
Cost Rp0
Date Created 22/04/2013
Status
Design Status WorkInProgress
Physical
Material Generic
Density 1 g/cm^3
Mass 0,0247 kg
Area 7202,65 mm^2
Volume 24700 mm^3
Center of Gravity x=0 mm
y=24,7571 mm
z=5 mm
Note: Physical values could be different from Physical values used by FEA reported below.
Simulation:1
General objective and settings:
Design Objective Single Point
Simulation Type Static Analysis
Last Modification Date 22/04/2013, 16:36
Detect and Eliminate Rigid Body Modes No
Mesh settings:
Avg. Element Size (fraction of model diameter) 0,1
Min. Element Size (fraction of avg. size) 0,2
Grading Factor 1,5
Max. Turn Angle 60 deg
Create Curved Mesh Elements Yes
Material(s)
Name Stainless Steel
General Mass Density 8,08 g/cm^3
Yield Strength 250 MPa
Ultimate Tensile Strength 540 MPa
Stress Young's Modulus 193 GPa
Poisson's Ratio 0,3 ul
Shear Modulus 74,2308 GPa
Stress Thermal Expansion Coefficient 0,0000104 ul/c
Thermal Conductivity 16 W/( m K )
Specific Heat 477 J/( kg c )
Part Name(s) Part4
Operating conditions
Force:1
Load Type Force
Magnitude 1113,000 N
Vector X 1113,000 N
Vector Y 0,000 N
Vector Z 0,000 N
Selected Face(s)
Fixed Constraint:1
Constraint Type Fixed Constraint
Selected Face(s)
Results
Reaction Force and Moment on Constraints
Constraint Name Reaction Force Reaction Moment
Magnitude Component (X,Y,Z) Magnitude Component (X,Y,Z)
Fixed Constraint:1 1113 N -1113 N 0 N m 0 N m
0 N 0 N m
0 N 0 N m
Result Summary
Name Minimum Maximum
Volume 24700 mm^3
Mass 0,199576 kg
Von Mises Stress 0,0573845 MPa 11,7644 MPa
1st Principal Stress -0,223776 MPa 17,4699 MPa
3rd Principal Stress -2,67514 MPa 5,23027 MPa
Displacement 0 mm 0,00201713 mm
Safety Factor 15 ul 15 ul
Stress XX -0,512972 MPa 17,4694 MPa
Stress XY -4,02466 MPa 5,27334 MPa
Stress XZ -0,647613 MPa 0,86904 MPa
Stress YY -2,33271 MPa 10,7375 MPa
Stress YZ -1,54585 MPa 1,25263 MPa
Stress ZZ -2,59534 MPa 5,26861 MPa
X Displacement 0 mm 0,00177397 mm
Y Displacement -0,000960712 mm 0,000132623 mm
Z Displacement -0,000102071 mm 0,000103037 mm
Equivalent Strain 0,000000260153 ul 0,0000578096 ul
1st Principal Strain 0,000000213964 ul 0,0000656385 ul
3rd Principal Strain -0,0000243307 ul -0,000000201372 ul
Strain XX -0,00000259285 ul 0,000065635 ul
Strain XY -0,0000271091 ul 0,0000355199 ul
Strain XZ -0,00000436216 ul 0,00000585364 ul
Strain YY -0,0000154835 ul 0,0000202907 ul
Strain YZ -0,0000104125 ul 0,00000843739 ul
Strain ZZ -0,0000240946 ul 0,00000203388 ul
Figures
Von Mises Stress
1st Principal Stress
3rd Principal Stress
Displacement
Safety Factor
Stress XX
Stress XY
Stress XZ
Stress YY
Stress YZ
Stress ZZ
X Displacement
Y Displacement
Z Displacement
Equivalent Strain
1st Principal Strain
3rd Principal Strain
Strain XX
Strain XY
Strain XZ
Strain YY
Strain YZ
Strain ZZ
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