Spiral Bevel Gear Case Study
Chapter7
CONCLUSION AND FUTURE SCOPE
7.1 Conclusion
1. Structural Analysis shows that minimum deformation occurs in Bevel Gear, when the Gear is made by Medium Carbon Steel 40Cr4Mo3 Material and Design R_31. It shows that Medium Carbon Steel 40Cr4Mo3 Gear material have 5% less deformation as compared to the existing gear material. So the case 11 is suitable for gear manufacturing.
2. Vibration Analysis shows that minimum deformation occurs at maximum frequency in Spiral Bevel Gear, when the Gear is made by C55 material with R_32 Radius of pitch cone It shows that Medium Carbon Steel C55gear material have 3% less deformation as compared to the existing gear material with Radius of pitch Cone. So the case 7 is suitable for gear manufacturing …show more content…
Zhou Changjiang, Li Zuodong,HuBo, Zhan Haifei, Han Xu “Analytical solution to bending and contact strength of spiral bevel gears in consideration of friction” ELSEVIER Publishing13 May (2017).
3. Yuansheng Zhou, Zezhong C. Chen, Jinyuan Tang, ShengjunLiu “An innovative approach to NC programming for accurate five-axis flank milling of spiral bevel or hypoid gears” ELSEVIER Publishing 15 November (2016)
4. Francisco Sanchez-Marin, Jose L. Iserte, Victor Roda-Casanova “Numerical tooth contact analysis of gear transmissions through the discretization and adaptive refinement of the contact surfaces” ELSEVIER Publishing13 March (2016)
5. Mohsen Habibi, Zezhong Chevy Chen “A semi-analytical approach to un-deformed chip boundary theory and cutting force prediction in face-hobbing of bevel gears” ELSEVIER Publishing19 December (2015)
6. Houjun Chen, Xiaoping Zhang, Xiong Cai, Zhilan Ju, Chang Qu, Donghe Shi “Computerized design, generation and simulation of meshing and contact of hyperboloid-type normal circular-arc gears” ELSEVIER Publishing19 August (2015)
7. Jiang Jinke, Fang Zongde“Design and analysis of modified cylindrical gears with a higher-order transmission error.” ELSEVIER Publishing21 February …show more content…
Vladimir I. Medvedev, Andrey E. Volkov, Marina A. Volosova, Oleg E. Zubelevich“ Mathematical model and algorithm for contact stress analysis of gears with multi-pair contact” ELSEVIER Publishing5 December (2014)
9. Chen-Hsiang Lin, Zhang-Hua Fong “Numerical tooth contact analysis of a bevel gear set by using measured tooth geometry data” ELSEVIER Publishing16 September (2014)
10. Rulong Tan, BingkuiChen, ChangyanPeng, XuanLi “Study on spatial curve meshing and its application for logarithmic spiral bevel gears” ELSEVIER Publishing25 November (2014)
11. Haitao Li, Wenjun Wei, Pingyi Liu, Di Kang, Shaoying Zhang“The kinematic synthesis of involute spiral bevel gears and their tooth contect analysis” ELSEVIER Publishing21 April (2014)
12. Cui Yanmei, Fang Zongde, Su Jinzhan, Feng Xianzhang, Peng Xianlong “Precise modeling of arc tooth face-gear with transition curve” ELSEVIER Publishing 16 December (2012)
13. Vilmos V. Simon “Influence of tooth modifications on tooth contact in face-hobbed spiral bevel gear” ELSEVIER Publishing5 May (2011)
14. Yi-Pei Shih“A novel ease-off flank modifications methodology for spiral bevel and Hypoid gears” ELSEVIER Publishing17 March (2010)
15. Ying-Chien Tsai, Wei-Yi Hsu “The study on the design of spiral bevel gear sets with circular-arc contact paths and tooth profiles” ELSEVIER Publishing30 August
CONCLUSION AND FUTURE SCOPE
7.1 Conclusion
1. Structural Analysis shows that minimum deformation occurs in Bevel Gear, when the Gear is made by Medium Carbon Steel 40Cr4Mo3 Material and Design R_31. It shows that Medium Carbon Steel 40Cr4Mo3 Gear material have 5% less deformation as compared to the existing gear material. So the case 11 is suitable for gear manufacturing.
2. Vibration Analysis shows that minimum deformation occurs at maximum frequency in Spiral Bevel Gear, when the Gear is made by C55 material with R_32 Radius of pitch cone It shows that Medium Carbon Steel C55gear material have 3% less deformation as compared to the existing gear material with Radius of pitch Cone. So the case 7 is suitable for gear manufacturing …show more content…
Zhou Changjiang, Li Zuodong,HuBo, Zhan Haifei, Han Xu “Analytical solution to bending and contact strength of spiral bevel gears in consideration of friction” ELSEVIER Publishing13 May (2017).
3. Yuansheng Zhou, Zezhong C. Chen, Jinyuan Tang, ShengjunLiu “An innovative approach to NC programming for accurate five-axis flank milling of spiral bevel or hypoid gears” ELSEVIER Publishing 15 November (2016)
4. Francisco Sanchez-Marin, Jose L. Iserte, Victor Roda-Casanova “Numerical tooth contact analysis of gear transmissions through the discretization and adaptive refinement of the contact surfaces” ELSEVIER Publishing13 March (2016)
5. Mohsen Habibi, Zezhong Chevy Chen “A semi-analytical approach to un-deformed chip boundary theory and cutting force prediction in face-hobbing of bevel gears” ELSEVIER Publishing19 December (2015)
6. Houjun Chen, Xiaoping Zhang, Xiong Cai, Zhilan Ju, Chang Qu, Donghe Shi “Computerized design, generation and simulation of meshing and contact of hyperboloid-type normal circular-arc gears” ELSEVIER Publishing19 August (2015)
7. Jiang Jinke, Fang Zongde“Design and analysis of modified cylindrical gears with a higher-order transmission error.” ELSEVIER Publishing21 February …show more content…
Vladimir I. Medvedev, Andrey E. Volkov, Marina A. Volosova, Oleg E. Zubelevich“ Mathematical model and algorithm for contact stress analysis of gears with multi-pair contact” ELSEVIER Publishing5 December (2014)
9. Chen-Hsiang Lin, Zhang-Hua Fong “Numerical tooth contact analysis of a bevel gear set by using measured tooth geometry data” ELSEVIER Publishing16 September (2014)
10. Rulong Tan, BingkuiChen, ChangyanPeng, XuanLi “Study on spatial curve meshing and its application for logarithmic spiral bevel gears” ELSEVIER Publishing25 November (2014)
11. Haitao Li, Wenjun Wei, Pingyi Liu, Di Kang, Shaoying Zhang“The kinematic synthesis of involute spiral bevel gears and their tooth contect analysis” ELSEVIER Publishing21 April (2014)
12. Cui Yanmei, Fang Zongde, Su Jinzhan, Feng Xianzhang, Peng Xianlong “Precise modeling of arc tooth face-gear with transition curve” ELSEVIER Publishing 16 December (2012)
13. Vilmos V. Simon “Influence of tooth modifications on tooth contact in face-hobbed spiral bevel gear” ELSEVIER Publishing5 May (2011)
14. Yi-Pei Shih“A novel ease-off flank modifications methodology for spiral bevel and Hypoid gears” ELSEVIER Publishing17 March (2010)
15. Ying-Chien Tsai, Wei-Yi Hsu “The study on the design of spiral bevel gear sets with circular-arc contact paths and tooth profiles” ELSEVIER Publishing30 August