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Erschienen in:
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2019 | OriginalPaper | Buchkapitel

Technique of Increasing Passenger Comfort by Ensuring Rational Parameters of Flexural Stiffness of Bodies of Passenger Cars

verfasst von : D. Ya. Antipin, E. V. Lukashova

Erschienen in: Proceedings of the 4th International Conference on Industrial Engineering

Verlag: Springer International Publishing

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Abstract

Based on the analysis of simulation results and full-scale running tests conducted by domestic and foreign specialists, the natural frequencies and vibration modes of the body bearing structure, which have the greatest impact on the passenger comfort level and safety, are determined. Design measures are proposed to ensure an increase in safety and comfort of transportation in domestic passenger cars through the installation of an additional load-bearing partition in the middle section of the body, which also ensures the requirements for the passive safety of a car as well as the introduction of additional longitudinal elements in the frame supporting structure.

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Vorheriges Kapitel Improving the Construction of Magnetic Clutch Amplifiers of Locomotive Wheels with Rails
Nächstes Kapitel Features of Decision-Making Simulation When Designing Locomotive Underframe Part
Literatur
1.
BS 6841 (1987) Guide to measurement and evaluation of human exposure to whole-body mechanical vibration and repeated shock. BSI, p 24
2.
BS EN 12299:2009 (2009) Railway applications. Ride comfort for passengers. Measurement and evaluation. BSI, p 66
3.
Suzuki H (1998) Research trends on riding comfort evaluation in Japan. Proc Inst Mech Eng Part F J Rail Rapid Transit 212(1):61–72MathSciNetCrossRef
4.
Salvendy G (2012) Handbook of human factors and ergonomics, 4th edn. Wiley, p 1752
5.
GM/RT2100 (2010) Requirements for rail vehicle structures. Railway Group Standard Issue 5, p 77
6.
Carlbom P (2000) Carbody and passengers in rail vehicle dynamics. Doctoral thesis, Stockholm
7.
Orvnäs A (2010) Methods for reducing vertical carbody vibrations of a rail vehicle. Report in Railway Technology, Stockholm, p 35
8.
Wu P, Zeng J, Dai H (2004) Dynamic response analysis of railway passenger car with flexible carbody model based on semi-active suspensions. Veh Syst Dyn 41:774–783CrossRef
9.
Zhou J et al (2009) Influences of car body vertical flexibility on ride quality of passenger railway vehicles. Proc Inst Mech Eng Part F J Rail Rapid Transit 223(5):461–471CrossRef
10.
Wu PB, Xue SH, Yang CH (2005) Dynamic response of high speed passenger car based on flexible car body model. J Traffic Transp Eng 5:5–8
11.
ISO 2631-4 (2004) Mechanical vibrations and shock—evaluation of human exposure to whole body vibrations—part 4: guidelines for the evaluation of the effects of vibration and rotational motion on passenger and crew comfort of fixed guide way transport systems. International Organization for Standardization, p 9
12.
UIC 513R (1994) Guidelines for evaluating passenger comfort in relation to vibration in railway vehicle. International Union of Railways, p 81
13.
Lauriks G, Evans J, Förstberg J, Balli M, Barron de Angoit I (2003) UIC comfort tests Investigation of ride comfort and comfort disturbance on transition and circular curves, p 116
14.
Strandemar K (2005) On objective measures for ride comfort evaluation. Royal Inst Tech, p 91
15.
Tomioka T, Takigami T, Suzuki Y (2006) Numerical analysis of three-dimensional flexural vibration of railway vehicle car body. Veh Syst Dyn 44:272–285CrossRef
16.
Hui C, Weihua Z, Bingrong M (2015) Vertical vibration analysis of the flexible carbody of high speed train. Int J Veh Struct Syst 7(2):55–60
17.
Shi H, Wu P (2016) Flexible vibration analysis for car body of high-speed EMU. J Mech Sci Technol 30(1):55–66CrossRef
18.
Young TH, Li CY (2003) Vertical vibration analysis of vehicle/imperfect track systems. Veh Syst Dyn 40(5):329–349CrossRef
19.
Griffin MJ (1996) Handbook of human vibration. Academic Press, p 988
20.
Kozek M, Benatzky C, Schirrer A et al (2008) Vibration damping of a flexible car body structure using piezo-stack actuators. In: Proceedings of the 17th world congress the international federation of automatic control, pp 8284–8292CrossRef
21.
Ashurkova SN, Kobishchanov VV, Kolchina EV (2017) Methods used to analyze the impact of passenger cars bodies design features on their stiffness and strength characteristics. Proc Eng 206:1623–1628CrossRef
22.
Technical Report for Interior Passive Safety in Railway Vehicles (2014). UNIFE, p 75
23.
BS EN 12663-1:2010+A1:2014 (2010) Railway applications. Structural requirements of railway vehicle bodies. Locomotives and passenger rolling stock (and alternative method for freight wagons). BSI, p 44
24.
BS EN 15227:2008+A1:2010 (2008) Railway applications. Crashworthiness requirements for railway vehicle bodies. BSI, p 42
Metadaten
Titel
Technique of Increasing Passenger Comfort by Ensuring Rational Parameters of Flexural Stiffness of Bodies of Passenger Cars
verfasst von
D. Ya. Antipin
E. V. Lukashova
Copyright-Jahr
2019
Buch
Proceedings of the 4th International Conference on Industrial Engineering

Print ISBN: 978-3-319-95629-9

Electronic ISBN: 978-3-319-95630-5

Copyright-Jahr: 2019

DOI
https://doi.org/10.1007/978-3-319-95630-5_252

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