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The generated shear stresses are le
The generated shear stresses are less than the permissible value so the design is safe for all three materials.
(2) Shear stress was found minimum in aluminum alloy and maximum in mild sheet steel under given boundary
conditions.
(3) Von Mises stress was found minimum in aluminum alloy and maximum in titanium alloy under given boundary
conditions.
Anand Thorat, et. al (2013) [4] have studied on “Vibration analysis of Backhoe Loader chassis 770 model” is to find out
natural frequency of the chassis. Also in order to have vibration response at different location chassis harmonic analysis is
carried out. The Modal analysis & Harmonic analysis is carried out in Ansys workbench and in order to validate FE results
compare with experimental result. Natural frequency of the structural component should not match with the excitation frequency
in order to avoid resonance phenomenon. The modal analysis chassis has fixed support at rear axle and front axle. No external
force is applied to the chassis. Different mode shape and deformation contour at each frequency is shown below. From modal
analysis we can observed that natural frequency varies from 43.33 Hz to 69.252 which is far away from the engine excitation
frequency. In the static analysis we can observed that due sharp edges and sharp corners stress generated at some of the location
is higher than the permissible stress value. Also from this analysis we can observed the deformation pattern for each load cases.
In Ansys harmonic analysis we can observed vibration pattern in terms of acceleration at different location of the chassis and
hence conclude that all components of the acceleration are higher around 500 Hz In the experimental analysis we can observed
the vibration patterns in terms of acceleration at around 500 Hz are higher than the other frequency same as the Ansys simulation
results.
(2) Shear stress was found minimum in aluminum alloy and maximum in mild sheet steel under given boundary
conditions.
(3) Von Mises stress was found minimum in aluminum alloy and maximum in titanium alloy under given boundary
conditions.
Anand Thorat, et. al (2013) [4] have studied on “Vibration analysis of Backhoe Loader chassis 770 model” is to find out
natural frequency of the chassis. Also in order to have vibration response at different location chassis harmonic analysis is
carried out. The Modal analysis & Harmonic analysis is carried out in Ansys workbench and in order to validate FE results
compare with experimental result. Natural frequency of the structural component should not match with the excitation frequency
in order to avoid resonance phenomenon. The modal analysis chassis has fixed support at rear axle and front axle. No external
force is applied to the chassis. Different mode shape and deformation contour at each frequency is shown below. From modal
analysis we can observed that natural frequency varies from 43.33 Hz to 69.252 which is far away from the engine excitation
frequency. In the static analysis we can observed that due sharp edges and sharp corners stress generated at some of the location
is higher than the permissible stress value. Also from this analysis we can observed the deformation pattern for each load cases.
In Ansys harmonic analysis we can observed vibration pattern in terms of acceleration at different location of the chassis and
hence conclude that all components of the acceleration are higher around 500 Hz In the experimental analysis we can observed
the vibration patterns in terms of acceleration at around 500 Hz are higher than the other frequency same as the Ansys simulation
results.
0/5000
The generated shear stresses are less than the permissible value so the design is safe for all three materials.(2) Shear stress was found minimum in aluminum alloy and maximum in mild sheet steel under given boundaryconditions.(3) Von Mises stress was found minimum in aluminum alloy and maximum in titanium alloy under given boundaryconditions.Anand Thorat, et. al (2013) [4] have studied on “Vibration analysis of Backhoe Loader chassis 770 model” is to find outnatural frequency of the chassis. Also in order to have vibration response at different location chassis harmonic analysis iscarried out. The Modal analysis & Harmonic analysis is carried out in Ansys workbench and in order to validate FE resultscompare with experimental result. Natural frequency of the structural component should not match with the excitation frequencyin order to avoid resonance phenomenon. The modal analysis chassis has fixed support at rear axle and front axle. No externalforce is applied to the chassis. Different mode shape and deformation contour at each frequency is shown below. From modalanalysis we can observed that natural frequency varies from 43.33 Hz to 69.252 which is far away from the engine excitationfrequency. In the static analysis we can observed that due sharp edges and sharp corners stress generated at some of the locationis higher than the permissible stress value. Also from this analysis we can observed the deformation pattern for each load cases.In Ansys harmonic analysis we can observed vibration pattern in terms of acceleration at different location of the chassis and
hence conclude that all components of the acceleration are higher around 500 Hz In the experimental analysis we can observed
the vibration patterns in terms of acceleration at around 500 Hz are higher than the other frequency same as the Ansys simulation
results.
hence conclude that all components of the acceleration are higher around 500 Hz In the experimental analysis we can observed
the vibration patterns in terms of acceleration at around 500 Hz are higher than the other frequency same as the Ansys simulation
results.
Sedang diterjemahkan, harap tunggu..
Tegangan geser yang dihasilkan kurang dari nilai yang diizinkan sehingga desain tersebut aman untuk ketiga bahan.
(2) Tegangan geser ditemukan minimum dalam paduan aluminium dan maksimal dalam baja lembaran ringan di bawah batas yang diberikan
kondisi.
(3) Von Mises stres ditemukan minimum di paduan aluminium dan maksimal dalam paduan titanium di bawah batas yang diberikan
kondisi.
Anand Thorat, et. al (2013) [4] telah mempelajari tentang "analisis Getaran Backhoe Loader sasis 770 Model" adalah untuk mengetahui
frekuensi alami dari sasis. Juga dalam rangka untuk memiliki respon getaran di lokasi sasis yang berbeda analisis harmonik
dilakukan. The Modal Analisis & Harmonic analisis dilakukan di ANSYS meja kerja dan untuk memvalidasi hasil FE
dibandingkan dengan hasil eksperimen. Frekuensi alami dari komponen struktural tidak harus sesuai dengan frekuensi eksitasi
untuk menghindari fenomena resonansi. Analisis chassis modal tetap memiliki dukungan di poros belakang dan roda depan. Tidak ada eksternal
kekuatan diterapkan ke sasis. Modus bentuk yang berbeda dan deformasi kontur pada setiap frekuensi ditampilkan di bawah. Dari modal
analisis kita dapat mengamati bahwa frekuensi alami bervariasi dari 43,33 Hz sampai 69,252 yang jauh dari mesin eksitasi
frekuensi. Dalam analisis statis kita dapat mengamati bahwa tepi tajam karena dan sudut tajam stres yang dihasilkan di beberapa lokasi
lebih tinggi dari nilai tegangan yang diijinkan. Juga dari analisis ini kita dapat mengamati pola deformasi untuk setiap kasus beban.
Dalam analisis harmonik Ansys kita dapat mengamati pola getaran dalam hal akselerasi di lokasi yang berbeda dari sasis dan
karenanya menyimpulkan bahwa semua komponen percepatan lebih tinggi sekitar 500 Hz Dalam analisis eksperimental kita dapat mengamati
pola getaran dalam hal akselerasi sekitar 500 Hz lebih tinggi daripada frekuensi lain yang sama seperti simulasi ANSYS
hasil.
(2) Tegangan geser ditemukan minimum dalam paduan aluminium dan maksimal dalam baja lembaran ringan di bawah batas yang diberikan
kondisi.
(3) Von Mises stres ditemukan minimum di paduan aluminium dan maksimal dalam paduan titanium di bawah batas yang diberikan
kondisi.
Anand Thorat, et. al (2013) [4] telah mempelajari tentang "analisis Getaran Backhoe Loader sasis 770 Model" adalah untuk mengetahui
frekuensi alami dari sasis. Juga dalam rangka untuk memiliki respon getaran di lokasi sasis yang berbeda analisis harmonik
dilakukan. The Modal Analisis & Harmonic analisis dilakukan di ANSYS meja kerja dan untuk memvalidasi hasil FE
dibandingkan dengan hasil eksperimen. Frekuensi alami dari komponen struktural tidak harus sesuai dengan frekuensi eksitasi
untuk menghindari fenomena resonansi. Analisis chassis modal tetap memiliki dukungan di poros belakang dan roda depan. Tidak ada eksternal
kekuatan diterapkan ke sasis. Modus bentuk yang berbeda dan deformasi kontur pada setiap frekuensi ditampilkan di bawah. Dari modal
analisis kita dapat mengamati bahwa frekuensi alami bervariasi dari 43,33 Hz sampai 69,252 yang jauh dari mesin eksitasi
frekuensi. Dalam analisis statis kita dapat mengamati bahwa tepi tajam karena dan sudut tajam stres yang dihasilkan di beberapa lokasi
lebih tinggi dari nilai tegangan yang diijinkan. Juga dari analisis ini kita dapat mengamati pola deformasi untuk setiap kasus beban.
Dalam analisis harmonik Ansys kita dapat mengamati pola getaran dalam hal akselerasi di lokasi yang berbeda dari sasis dan
karenanya menyimpulkan bahwa semua komponen percepatan lebih tinggi sekitar 500 Hz Dalam analisis eksperimental kita dapat mengamati
pola getaran dalam hal akselerasi sekitar 500 Hz lebih tinggi daripada frekuensi lain yang sama seperti simulasi ANSYS
hasil.
Sedang diterjemahkan, harap tunggu..
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