Research Article
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Effects of using UHSS material for weight reduction of Cukurova 885 model backhoe loader boom element

Year 2024, , 78 - 86, 31.03.2024
https://doi.org/10.30939/ijastech..1314231

Abstract

Construction machines have played an important role in building and sustaining civilizations in all walks of human life by making human life easier for centuries. These heavy machines consume a lot of fuel due to their high energy consumption and cause severe damage to the environment. Studies are being conducted to avoid harmful gas emissions due to fuel consumption of vehicles. One of the methods used in these studies is weight reduction. In this study, the fuel saving achieved by weight reduction with the material change in the boom element of a backhoe loader was investigated. The 3D model of the boom element of the backhoe loader model Cukurova885 was used for the study. The Ansys Workbench Software was used for the study. The weight of the reference model was reduced by reducing the dimensions of the reference model by using Ansys Spaceclaim in the software. Ultra-High Strength Steel with the same density but higher strength was used instead of the ST52 material currently used. The structural analyzes were carried out using the finite element method by applying exactly the same loads to the ST52 reference model and the weight-reduced UHSS model. In the study, thickness reductions on the model were made in Ansys Space Claim, a component of Ansys Workbench Software. In the Space Claim component, changes can be made to the geometry of a model imported into Ansys. For static structural analysis, Ansys Mechanical, a component of Ansys Software, was used. The model, whose thickness and therefore its weight is reduced in Space Claim, is opened in Mechanical, the necessary parameters are entered and it is prepared for analysis. Afterwards, analysis is performed via Ansys Mechanical. Comparing the results obtained, it was found that the weight of the model decreased by 23.16% and a fuel saving of 16.49% was achieved by using UHSS. Higher deformation and stress values were obtained for the model with UHSS. The safety factor was found to be 1.22 for the ST52 model and 2.14 for the UHSS model.

Supporting Institution

Cukurova University Scientific Research Projects Foundation

Project Number

FYL-2022-14803

Thanks

This study was supported by the Cukurova University Scien-tific Research Projects Foundation with Project No: FYL-2022-14803. As researchers, we would like to thank Cukurova University Scientific Research Projects Foundation.

References

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  • [2] Yu C, Bao Y, Li Q. Finite Element Analysis of Excavator Mechanical Behavior and Boom Structure Optimization. Measurement. 2021; 173: 108637. doi: 10.1016/j.measurement.2020.108637
  • [3] Suryo SH, Bayuseno AP, Ramadhan JG. Simulation of Excavator Bucket Pressuring Through Finite Element Method. Civil Engineering Journal. 2018; 4(3): 478-487. doi: 10.28991/cej-0309107
  • [4] Shaikh BP, Mulla AM. Analysis of Bucket Teeth of Backhoe Excavator Loader and its Weight Optimization. International Journal of Engineering Research & Technology. 2015; 4(05): 289-295. doi: 10.17577/ijertv4is050402
  • [5] Suryo SH, Bayuseno AP, Jamari J, Wahyudi AI. Analysis of Rake Angle Effect to Stress Distribution on Excavator Bucket Teeth Using Finite Element Method. Civil Engineering Journal. 2017; 3(12): 1222-1234. doi: 10.28991/cej-030952
  • [6] Khan FM, Islam MS, Hossain MZ. Design Aspects of an Excavator Arm. International Review of Mechanical Engineering. 2016; 10(6): 437-442. doi: 10.15866/ireme.v10i6.9395
  • [7] Choudhary AK, Bhushan G. Finite Element Analysis of an Excavator Arm using CAE Tool. International Journal of Sci-entific & Engineering Research. 2017; 8(4): 1058-1063.
  • [8] Patil NS, Malbhage VM. FEA Analysis and Optimization of Boom of Excavator. International Conference on Ideas, Im-pact and Innovation in Mechanical Engineering. 2017; 5 (6): 625-632.
  • [9] Gurbet Z. Investigation of High-Strength Steel Usage in Cukurova 885 Model Backhoe Loader Boom and Stick, MSc Thesis. Cukurova University; 2023.
  • [10] Cheah LW. Cars on a Diet: The Material and Energy Impacts of Passenger Vehicle Weight Reduction in the U.S. Doctoral dissertation. Massachusetts Institute of Technology; 2010.
  • [11] Taskaya S, Taskaya S. Investigation of Static Structure Effect According to Axial Coordinates by Using Finite Element Method in Ansys Workbench Software of AISI 310 Austenitic Stainless Cylindrical Model Steel. International Journal of Scientific Engineering and Science. 2018; 2(11): 65-70. doi: 10.5281/zenodo.2538535
  • [12] Gurbet Z, Karacor B, Ozcanli M. Investigation of Bucket Teeth Stress-Deformation Distribution by Using Ultra High Strenth Material. 6th International Mediterranean Science and Engineering Congress (IMSEC 2021); 2021; Antalya, Turkiye.
  • [13] Guler MS, Sen S. Sonlu Elemanlar Yontemi Hakkinda Genel Bilgiler. Ordu Universitesi Bilim ve Teknoloji Dergisi. 2015; 5(1): 56-66.
  • [14] Ghassemieh E. Materials in Automotive Application, State of the Art and Prospects. New Trends and Developments in Au-tomotive Industry. 2011; 365–394. doi: 10.5772/13286
  • [15] Karacor B, Hukumdar O, Akdagcik D, Ozcanli M. Evaluation of Ultra-High Strength Materials in Heavy Truck Chassis. 6th International Mediterranean Science and Engineering Congress (IMSEC 2021); 2021; Antalya, Türkiye.
  • [16] Bhaveshkumar PP, Jagdish MP. Structural Optimization of Mini Hydraulic Backhoe Excavator Attachment Using FEA Approach. Machine Design. 2013; 5(1): 43-56.
  • [17] Simsek A. Bir İs Makinasi Kabininin Modal Analizi, Doctoral dissertation. Sakarya University; 2010.
  • [18] Ozcan FA. Bir Kazici Yükleyici Makinenin Kazici Kolunun Yapisal Optimizasyonu, MSc Thesis. Gazi University; 2023.
  • [19] Katmer MC, Bicer SG. Yükleyici İs Makinelerinde Z-Bar Tasarimi ve Yapisal Analizi. Orclever Proceedings of Research and Development. 2022; 1(1): 120-129. doi: 10.56038/oprd.v1i1.147
  • [20] Bhaveshkumar PP, Jagdish MP, A Review on FEA and Opti-mization of Backhoe Attachment in Hydraulic Excavator. IACSIT International Journal of Engineering and Technology. 2011; 3(5): 505-511. doi: 10.7763/IJET.2011.V3.277
  • [21] Bicer G, Katmer MC. Study on the Flexible Dynamic Analysis of the Wheel Loader Under Working Conditions and Comparison with Static FEA Results. Engineering Perspective. 2023; 3: 57-62. doi: 10.29228/eng.pers.72736
  • [22] Kocakulak T, Thallapalli V, Kiyakli AO. Modeling of an Elec-tric Tractor and Determining Energy Consumption Values in Different Duties. Engineering Perspective. 2023; 3: 79-85. doi: 10.29228/eng.pers.51651
  • [23] Livatyali H, Yel A. Modeling Simulation and Validation of a Tractor Wet Clutch Controlled by Proportional Valve. International Journal of Automotive Science and Technology. 2021; 5(1): 8-18. doi: 10.30939/ijastech..797276
  • [24] Sen N, Civek T, Tongu E. Assessment of Conical Die Deep Drawing Ability of DP800 and MART1400 Advanced High Strength Steels. International Journal of Automotive Science and Technology. 2023; 7(2): 104-111. doi: 10.30939/ijastech..1278573
Year 2024, , 78 - 86, 31.03.2024
https://doi.org/10.30939/ijastech..1314231

Abstract

Project Number

FYL-2022-14803

References

  • [1] Oyman OV. Ekskavator Kollarinin Tasarimi, MSc Thesis. Yildiz Technical University; 2005.
  • [2] Yu C, Bao Y, Li Q. Finite Element Analysis of Excavator Mechanical Behavior and Boom Structure Optimization. Measurement. 2021; 173: 108637. doi: 10.1016/j.measurement.2020.108637
  • [3] Suryo SH, Bayuseno AP, Ramadhan JG. Simulation of Excavator Bucket Pressuring Through Finite Element Method. Civil Engineering Journal. 2018; 4(3): 478-487. doi: 10.28991/cej-0309107
  • [4] Shaikh BP, Mulla AM. Analysis of Bucket Teeth of Backhoe Excavator Loader and its Weight Optimization. International Journal of Engineering Research & Technology. 2015; 4(05): 289-295. doi: 10.17577/ijertv4is050402
  • [5] Suryo SH, Bayuseno AP, Jamari J, Wahyudi AI. Analysis of Rake Angle Effect to Stress Distribution on Excavator Bucket Teeth Using Finite Element Method. Civil Engineering Journal. 2017; 3(12): 1222-1234. doi: 10.28991/cej-030952
  • [6] Khan FM, Islam MS, Hossain MZ. Design Aspects of an Excavator Arm. International Review of Mechanical Engineering. 2016; 10(6): 437-442. doi: 10.15866/ireme.v10i6.9395
  • [7] Choudhary AK, Bhushan G. Finite Element Analysis of an Excavator Arm using CAE Tool. International Journal of Sci-entific & Engineering Research. 2017; 8(4): 1058-1063.
  • [8] Patil NS, Malbhage VM. FEA Analysis and Optimization of Boom of Excavator. International Conference on Ideas, Im-pact and Innovation in Mechanical Engineering. 2017; 5 (6): 625-632.
  • [9] Gurbet Z. Investigation of High-Strength Steel Usage in Cukurova 885 Model Backhoe Loader Boom and Stick, MSc Thesis. Cukurova University; 2023.
  • [10] Cheah LW. Cars on a Diet: The Material and Energy Impacts of Passenger Vehicle Weight Reduction in the U.S. Doctoral dissertation. Massachusetts Institute of Technology; 2010.
  • [11] Taskaya S, Taskaya S. Investigation of Static Structure Effect According to Axial Coordinates by Using Finite Element Method in Ansys Workbench Software of AISI 310 Austenitic Stainless Cylindrical Model Steel. International Journal of Scientific Engineering and Science. 2018; 2(11): 65-70. doi: 10.5281/zenodo.2538535
  • [12] Gurbet Z, Karacor B, Ozcanli M. Investigation of Bucket Teeth Stress-Deformation Distribution by Using Ultra High Strenth Material. 6th International Mediterranean Science and Engineering Congress (IMSEC 2021); 2021; Antalya, Turkiye.
  • [13] Guler MS, Sen S. Sonlu Elemanlar Yontemi Hakkinda Genel Bilgiler. Ordu Universitesi Bilim ve Teknoloji Dergisi. 2015; 5(1): 56-66.
  • [14] Ghassemieh E. Materials in Automotive Application, State of the Art and Prospects. New Trends and Developments in Au-tomotive Industry. 2011; 365–394. doi: 10.5772/13286
  • [15] Karacor B, Hukumdar O, Akdagcik D, Ozcanli M. Evaluation of Ultra-High Strength Materials in Heavy Truck Chassis. 6th International Mediterranean Science and Engineering Congress (IMSEC 2021); 2021; Antalya, Türkiye.
  • [16] Bhaveshkumar PP, Jagdish MP. Structural Optimization of Mini Hydraulic Backhoe Excavator Attachment Using FEA Approach. Machine Design. 2013; 5(1): 43-56.
  • [17] Simsek A. Bir İs Makinasi Kabininin Modal Analizi, Doctoral dissertation. Sakarya University; 2010.
  • [18] Ozcan FA. Bir Kazici Yükleyici Makinenin Kazici Kolunun Yapisal Optimizasyonu, MSc Thesis. Gazi University; 2023.
  • [19] Katmer MC, Bicer SG. Yükleyici İs Makinelerinde Z-Bar Tasarimi ve Yapisal Analizi. Orclever Proceedings of Research and Development. 2022; 1(1): 120-129. doi: 10.56038/oprd.v1i1.147
  • [20] Bhaveshkumar PP, Jagdish MP, A Review on FEA and Opti-mization of Backhoe Attachment in Hydraulic Excavator. IACSIT International Journal of Engineering and Technology. 2011; 3(5): 505-511. doi: 10.7763/IJET.2011.V3.277
  • [21] Bicer G, Katmer MC. Study on the Flexible Dynamic Analysis of the Wheel Loader Under Working Conditions and Comparison with Static FEA Results. Engineering Perspective. 2023; 3: 57-62. doi: 10.29228/eng.pers.72736
  • [22] Kocakulak T, Thallapalli V, Kiyakli AO. Modeling of an Elec-tric Tractor and Determining Energy Consumption Values in Different Duties. Engineering Perspective. 2023; 3: 79-85. doi: 10.29228/eng.pers.51651
  • [23] Livatyali H, Yel A. Modeling Simulation and Validation of a Tractor Wet Clutch Controlled by Proportional Valve. International Journal of Automotive Science and Technology. 2021; 5(1): 8-18. doi: 10.30939/ijastech..797276
  • [24] Sen N, Civek T, Tongu E. Assessment of Conical Die Deep Drawing Ability of DP800 and MART1400 Advanced High Strength Steels. International Journal of Automotive Science and Technology. 2023; 7(2): 104-111. doi: 10.30939/ijastech..1278573
There are 24 citations in total.

Details

Primary Language English
Subjects Automotive Engineering (Other)
Journal Section Articles
Authors

Zelal Gurbet 0009-0000-7402-832X

Ümit Karahan 0009-0003-5421-7678

Mustafa Özcanlı 0000-0001-6088-2912

Project Number FYL-2022-14803
Publication Date March 31, 2024
Submission Date June 14, 2023
Acceptance Date October 6, 2023
Published in Issue Year 2024

Cite

APA Gurbet, Z., Karahan, Ü., & Özcanlı, M. (2024). Effects of using UHSS material for weight reduction of Cukurova 885 model backhoe loader boom element. International Journal of Automotive Science And Technology, 8(1), 78-86. https://doi.org/10.30939/ijastech..1314231
AMA Gurbet Z, Karahan Ü, Özcanlı M. Effects of using UHSS material for weight reduction of Cukurova 885 model backhoe loader boom element. IJASTECH. March 2024;8(1):78-86. doi:10.30939/ijastech.1314231
Chicago Gurbet, Zelal, Ümit Karahan, and Mustafa Özcanlı. “Effects of Using UHSS Material for Weight Reduction of Cukurova 885 Model Backhoe Loader Boom Element”. International Journal of Automotive Science And Technology 8, no. 1 (March 2024): 78-86. https://doi.org/10.30939/ijastech. 1314231.
EndNote Gurbet Z, Karahan Ü, Özcanlı M (March 1, 2024) Effects of using UHSS material for weight reduction of Cukurova 885 model backhoe loader boom element. International Journal of Automotive Science And Technology 8 1 78–86.
IEEE Z. Gurbet, Ü. Karahan, and M. Özcanlı, “Effects of using UHSS material for weight reduction of Cukurova 885 model backhoe loader boom element”, IJASTECH, vol. 8, no. 1, pp. 78–86, 2024, doi: 10.30939/ijastech..1314231.
ISNAD Gurbet, Zelal et al. “Effects of Using UHSS Material for Weight Reduction of Cukurova 885 Model Backhoe Loader Boom Element”. International Journal of Automotive Science And Technology 8/1 (March 2024), 78-86. https://doi.org/10.30939/ijastech. 1314231.
JAMA Gurbet Z, Karahan Ü, Özcanlı M. Effects of using UHSS material for weight reduction of Cukurova 885 model backhoe loader boom element. IJASTECH. 2024;8:78–86.
MLA Gurbet, Zelal et al. “Effects of Using UHSS Material for Weight Reduction of Cukurova 885 Model Backhoe Loader Boom Element”. International Journal of Automotive Science And Technology, vol. 8, no. 1, 2024, pp. 78-86, doi:10.30939/ijastech. 1314231.
Vancouver Gurbet Z, Karahan Ü, Özcanlı M. Effects of using UHSS material for weight reduction of Cukurova 885 model backhoe loader boom element. IJASTECH. 2024;8(1):78-86.


International Journal of Automotive Science and Technology (IJASTECH) is published by Society of Automotive Engineers Turkey

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