Numerical analysis and optimum design considering thermo-mechanical characteristics during high-energy braking

Hong, Heerok 2020년

활용도
공유도
영향력

논문상세정보

- 저자 Hong, Heerok
- 형태사항 ill., charts: xi, 132 p.: 30 cm
- 일반주기 Adviser: Myung-Won Suh and Ho-Yong Lee, Includes bibliographical reference(p. 124-130)
- 학위논문사항 Sungkyunkwan university, 2020. 2, Department of Mechanical Engineering, Thesis (Ph.D.)-
- 발행지 Seoul
- 언어 eng
- 출판년 2020
- 발행사항 Sungkyunkwan university
- 주제어 Braking patterns DOE FEA Optimization RSM
- 참고문헌( 64)
유사주제 논문( 1,277)

인용/피인용

Numerical analysis and optimum design considering ...

' Numerical analysis and optimum design considering thermo-mechanical characteristics during high-energy braking' 의 주제별 논문영향력

논문영향력 요약
동일주제 총논문수	논문피인용 총횟수	주제별 논문영향력의 평균
주제	Braking patterns doe fea optimization rsm
1,282	0	0.0%

논문영향력
주제		주제별 논문수	주제별 논문영향력
주제어	Braking patterns	1	0.0%
	doe	44	0.0%
	fea	108	0.0%
	optimization	1,031	0.0%
	rsm	98	0.0%
계		1,282	0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수

' Numerical analysis and optimum design considering thermo-mechanical characteristics during high-energy braking' 의 참고문헌

¡°Wear resistance ofCast irons used in brake disc rotors¡±
Vol . 255 , No . 7-12 , pp . 1256-1260 [2003]
¡°Thermal levels and subsurface damage induced by the occurrence of hot spots during high-energy braking¡±
Vol . 270 , pp . 355-364 [2011]
¡°Thermal Stress Analysis for a Brake DiscConsidering Pressure Distribution at a Frictional Surface¡±
pp . 848-852 [2005]
¡°The structure Optimization Research of the Automation welding Equipment of the Large L-type Using the Response Surface Method¡±
Vol . 22 , No . 1 , pp . 138- 144 [2013]
¡°The numerical experimental scheme for the analysis of temperature filed in a pad-disc braking system of a railway vehicle at single braking¡± ,
Vol . 75 , pp . 1-6 [2016]
¡°Temperature Field and Thermal Stress Simulation of Solid Brake Disc Based on Three-dimensional Model¡±
Vol . 26 , No . 1 , pp . 31-36 [2010]
¡°Study on the Squeal Noise Between the Brake Shoes of the High Speed Railway ( KTX ) ¡±
pp . 112- 119 [2007]
¡°Structural and Thermal Analysis of Rotor Disc of Disc Brake¡±
Vol . 2 , pp . 7741-7749 [2013]
¡°Structural Optimization of an Outer Tie Rod Using RSM and Kriging¡±
Vol . 16 , No . 1 , pp . 27-34 [2015]
¡°Structural Optimization for a Jaw Using the Kriging Model¡±
Vol . 22 , No . 9 , pp . 1651-1659 [2008]
¡°Stress analysis of Thermal Fatigue Fracture of Brake Discs Based on ThermomechanicalCoupling¡±
Vol . 129 , No . 3 , pp . 536-543 [2007]
¡°Selecting OptimumConditions for SPR Processing of High Tension Steel Plates and Aluminium sheets Using Response Surface Methodology¡±
Vol . 37 , No . 4 , pp . 339-346 [2019]
¡°Run-flat Tire Optimization Using Response Surface Method and Genetic Algorithm¡± ,
Vol . 25 , No . 4 , pp . 247-254 [2015]
¡°Robust Design for Unconstrained Optimization Problems Using the Taguchi Method¡±
Vol . 34 , No . 5 , pp . 1059-1063 [1996]
¡°Response Surface Methodology¡±
[1995]
¡°Repeated Brake Temperature analysis of Ventilated Brake Disc on the Downhill Road¡±
[2008]
¡°Optimum Design of Washing Machine Flange using Design of Experiment¡± ,
Vol . 31 , No . 5 , pp . 601-608 [2007]
¡°Optimum Design of Front Toe Angle Using Design of Experiment and Dynamic simulation for Evaluation of Handling Performances¡±
Vol . 8 , No . 2 , pp . 120-128 [2000]
¡°Optimization of an Automotive Disc BrakeCross-section with Least Thermal Deformation by Taguchi Method¡±
Vol . 24 , No . 1 , pp . 1-9 [2016]
¡°Optimal Design of the Flexure Mounts for SatelliteCamera by Using Design of Experiments¡±
Vol . 32 , No . 8 , pp . 693-700 [2008]
¡°Optimal Design for the Thermal Deformation of Disk Brake by Using Design of Experiments and Finite Element Analysis¡±
Vol . 25 , No . 12 , pp . 1960-1965 [2001]
¡°Numerical analysis method of hot judder phenomenon of a disc brake system for automotives¡±
[2010]
¡°Numerical Study on the Thermal Distortions of Ventilated Disk Brakes Due to AirCooling Effects¡±
pp . 332~339 [1999]
¡°Investigation of temperature and thermal stress in ventilated disc brake based on 3D thermo-mechanicalCoupling model¡±
Vol . 24 , pp . 81-84 [2010]
¡°Fatigue Life Assessment for a Brake Disc of Railway Vehicles¡±
pp . 385-386 [2006]
¡°Design of Steering SystemConsidering Interaction Effects in Discrete Design Space¡± , Proceedings of Korean Society for Noise and Vibration Engineering
pp . 673-679 [2006]
¡°Design of Experiments¡±
[2003]
¡°Design of Experiment on theCenter of Example¡±
pp . 13-14 [2005]
¡°Design and Analysis of Experiments¡±
[1991]
¡°Coupling between friction physical mechanisms and transient thermal phenomena involved in pad-discContact during railway braking¡±
Vol . 263 , pp . 1230-1243 [2007]
¡°Comparisons of the Direct and Approximation Method in Structural Optimization¡±
[1993]
¡°Braking Performance Analysis and Inspection of High Speed Train¡± ,
pp . 1-7 [2006]
¡°Brake Dynamometer Model Predicting Brake Torque Variation due to Disc Thickness Variation¡±
Vol . 221 , No . 1 , pp . 49-55 [2007]
¡°Barrel Rifling shape Optimization by Using Design of Experiment Approach¡±
Vol . 36 , No . 8 , pp . 897-904 [2012]
¡°Application of Flexible-Type Sintered Brake Pads¡±
Vol . 27 , No . 1 , pp . 19-24 [2011]
¡°Application of Flexible Sintered Brake Pad for TTX¡±
pp . 597-603 [2010]
¡°Analyzing the mechanisms of thermal fatigue and phaseChange of steel used in brake discs¡±
Vol . 57 , pp . 202-218 [2015]
¡°Analysis on the Test Results of Disc Brakes using the Brake Dynamometer for High-speed Trains¡±
pp . 1555-1556 [2011]
¡°An experimental investigation of hot spots in railway disc brakes¡±
Vol . 256 , pp . 764-773 [2004]
¡°A study on the TemperatureChange of Braking Disc and ThermalConductivity during the service¡±
Vol . 10 , No . 6 , pp . 665-669 [2007]
¡°A study on the Optimum Design of Automotive interior Plastic Parts Using the Sequential design of Experiments and Artificial Neural network¡±
[2007]
¡°A study on the Mechanical Properties of the Braking Disc due to the TemperatureChange ¡±
Vol . 8 , No . 3 , pp . 222-227 [2005]
¡°A study on the Fatigue Damage of a Railway Disc Brake Surface Due to Thermal Stress During Braking Using FEM Analysis¡±
Vol . 12 , No . 2 , pp . 212-218 [2009]
¡°A study on the Establishment of Disc Braking Force Patter to reduce the Wear Mass of Pad¡±
pp . 32-37 [2007]
¡°A study on the Effect of Parameters on the Temperature Distribution of Brake Discs¡±
pp . 7-12 [2007]
¡°A study on Thermal Behavior and Stress Analysis in BrakingCondition of Disc Brake forCommercial Vehicle¡±
pp . 1171-1176 [2011]
¡°A Study onCorrelation between FrictionContact Mechanisms and Thermal-Mechanical Behavior for Brake Disc¡±
[2017]
¡°A Study on the Thermo-MechanicalCharacteristics for Friction Behavior of Disk Brake System¡±
[2019]
¡°A Study on prediction of heat generation temperature during braking ofC/C-SiC-Cu material braking disk¡±
[2018]
¡°A Study on ThermalCracking of Ventilated Brake Disk of aCar Using FEM Analysis¡± ,
Vol . 21 , No . 2 , pp . 63-70 [2005]
[58] P. W. M. John, ¡°Statistical Design and Analysis of Experiments¡±, Society for Industrial and Applied Mathematics, 1998.
[57] A. S. Hedayat, N. J. A. Sloane, and J. Stufken, ¡°Othogonal Arrays: Theory and Applications¡±, Springer, 1999.
[55] B.C. Goo, and I. K. Na, ¡°Topology Optimization of Railway Brake Pad byContact analysis¡±, Journal of the Korean Society of Tribologists Lubriation Engineers, Vol. 30, No. 3, pp. 177-182, 2014.
Vol . 30 , No . 3 , pp . 177-182 [2014]
[53] UIC CODE 541-3, ¡°Brakes-Disc brakes and their application general conditions for the approval of Brake pads¡±, 7th Eds, Ref. 18, 2010.
[42] J. S. Arora, ¡°INTRODUCTION TO OPTIMUM DESIGN¡±, Third ed. Academic Press, USA, 2011.
[37] R. Limpert, ¡°Brake Design, and Safety¡±, Second ed. Warrendale, PA: Science of Automotive Engineers INC, USA, 1992.
[1992]
[32] https://en.wikipedia.org/wiki/heat_transfer
[2]G. H. Kang, ¡°High Speed Railway Engineering¡±, Samjung DMS, pp. 459-514, 2014.
[29] B. Chadimi, F. Kowsary, and M. Khorami, ¡°Thermal analysis of locomotive wheel-mounted brake disc¡±, Applied Thermal Engineering, Vol. 51, pp. 948-952, 2013.
[28] A. Belhocine, and M. Bouchetara, ¡°Thermal analysis of a solid brake disc¡±, Applied Thermal Engineering, Vol. 32, pp. 59-67, 2012.
[24] S. Panier, P. Dufrenoy, J. F. Brunel, and D. Weichert, ¡°PROGRESSIVE WAVINESS DISTORTION: A NEW APPROACH OF HOT SPOTTING IN DISC BRAKES¡±, Journal of Thermal Stresses, Vol. 28, No. 1, pp. 47-62, 2004.
[22] P. Dufrenoy, and D. Weichert, ¡°A THERMOMECHANICAL MODEL FOR THE ANALYSIS OF DISC BRAKE FRACTURE MECHANISMS¡±, Journal of Thermal Stresses, Vol. 26, No. 8, pp. 815-828, 2003.
[19] B.C. Goo, and I. K. Na, ¡°Topology Optimization of Railway Brake Pad byContact Analysis¡±, Journal of the Korean Society of Tribologists and Lubrication Engineers, Vol. 30, No.3, pp. 177182, 2014.
Vol . 30 , No.3 , pp . 177- 182 [2014]
[18] B. Breuer, and U. Dausend, ¡°Advanced Brake Technology¡±, SAE International, ISBN. 0768012473, pp. 317-340.

Numerical analysis and optimum design considering thermo-mechanical characteristics during high-energy braking

유사주제 논문( 1,277)

' Numerical analysis and optimum design considering thermo-mechanical characteristics during high-energy braking' 의 주제별 논문영향력

주제별 논문영향력

' Numerical analysis and optimum design considering thermo-mechanical characteristics during high-energy braking' 의 참고문헌

' Numerical analysis and optimum design considering thermo-mechanical characteristics during high-energy braking' 의 유사주제( ) 논문