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Design, analysis, and optimization of the honda accord 2012 double wishbone suspension system

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  1. Tez No: 799836
  2. Yazar: ZAHRAA MUAYAD HADI AL-BASSAM
  3. Danışmanlar: DR. ÖĞR. ÜYESİ YASER ALAIWI
  4. Tez Türü: Yüksek Lisans
  5. Konular: Makine Mühendisliği, Mechanical Engineering
  6. Anahtar Kelimeler: Belirtilmemiş.
  7. Yıl: 2022
  8. Dil: İngilizce
  9. Üniversite: Altınbaş Üniversitesi
  10. Enstitü: Lisansüstü Eğitim Enstitüsü
  11. Ana Bilim Dalı: Makine Mühendisliği Ana Bilim Dalı
  12. Bilim Dalı: Makine Mühendisliği Bilim Dalı
  13. Sayfa Sayısı: 125

Özet

One of the most important components of automobile comfort and safety even before airbag systems and other systems is the suspension assembly. Its work is focused on mitigating and absorbing the effects of the road, from bumps and pot holes, to even sharp turns or jerks. to blame for a car that suddenly tilts left while braking is to blame the suspension assembly, which may be caused by a variety of components including shock absorbers, bearings, springs and bushing; suspension; rims and tires; and brake and wheel components. A double wishbone suspension system was studied in this paper, and the effects about various factors were examined. However, the Double wishbone's performance is influenced by a wide range of variables. design, analysis and optimization of the suspension system in order to study their impact on performance of the suspension system to obtain the best design and to take into account these conditions for obtaining the optimal system for better performance to benefit from it in eliminating all vibrations in the vehicle, In the first step of the process, a double-wishbone suspension system is intended with the assistance of solidworks2022 software by taking into account a variety of different operating conditions on which it will function. After that, a structural analysis is performed with the help of the ANSYS2021R2 software by simulating the loads that are placed on this suspension system separately using the wheel, and wishbones, and knuckle to obtain the bests materials. After that, the components that went into the production of the suspension system were put through a series of quality assurance tests to ensure that only the highest-quality materials were used. The results of this analysis were then employed to improve the layout of the suspension system as well as to make the best possible choice of materials for it, taking into account factors such as the material's strength, the cost of manufacturing it, its weight, and its availability, among other considerations. The objective of the paper includes: I. Research each and every one of the chassis' parameters. ii. Perform an analysis on the parameter about the double wishbone suspension system and attempt to optimize it. iii. An investigation into the existing suspension systems and the parameters that influence their performance. iv. During the design process, minimize or restrict the extent to which these factors have an influence for achieve the best possible execution and materials for the double wishbone suspension system.

Özet (Çeviri)

One of the most important components of automobile comfort and safety even before airbag systems and other systems is the suspension assembly. Its work is focused on mitigating and absorbing the effects of the road, from bumps and pot holes, to even sharp turns or jerks. To blame for a car that suddenly tilts left while braking is to blame the suspension assembly, which may be caused by a variety of components including shock absorbers, bearings, springs and bushing; suspension; rims and tires; and brake and wheel components. A double wishbone suspension system was studied in this paper, and the effects about various factors were examined. However, the Double wishbone's performance is influenced by a wide range of variables. design, analysis and optimization of the suspension system in order to study their impact on performance of the suspension system to obtain the best design and to take into account these conditions for obtain the optimal system for better performance to benefit from it in eliminating all vibrations in the vehicle, In the first step of the process, a double-wishbone suspension system is intended with the assistance of solidworks2022 software by taking into account a variety of different operating conditions on which it will function. After that, a structural analysis is performed with the help of the ANSYS2021R2 software by simulating the loads that are placed on this suspension system separately using the wheel, and wishbones, and knuckle to obtain the bests materials. After that, the components that went into the production of the suspension system were put through a series of quality assurance tests to ensure that only the highest-quality materials were used. The results of this analysis were then employed to improve the layout of the suspension system as well as to make the best possible choice of materials for it, taking into account factors such as the material's strength, the cost of manufacturing it, its weight, and its availability, amongst other considerations. The objective of the paper includes: i. Research each and every one of the chassis' parameters. ii. Perform an analysis on the parameter about the double wishbone suspension system and attempt to optimize it. iii. An investigation into the existing suspension systems and the parameters that influence their performance. iv. During the design process, minimize or restrict the extent to which these factors have an influence for achieve the best possible execution and materials for the double wishbone suspension system.

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