Publicação

Seat vibration transmissibility of the Portuguese Alfa Pendular tilting train

Detalhes bibliográficos
Resumo:	Railways are one of the most used public transportation modes, its low environmental impact presents a huge advantage when compared to airplanes. Therefore, its use has been promoted as a solution to connect cities up to 850km distance. Comfort is a crucial parameter to fulfil this objective once it is the key to keeping customers satisfied and attracting new ones. Vibration is a primary comfort concern. Since it is derived from the train motion, the passenger will be subject to it throughout the journey due to the contact with the floor and seat. Seat transmissibility provides useful information regarding the extent to which the seat is attenuating or amplifying vibration, thus it is one of the parameters used to evaluate dynamic comfort. The vertical transmissibility of Alfa Pendular train seats was measured with 4 subjects (2 males/2 females, aged 9 – 39, weight 33 – 115kg, 1.33 – 1.87m stature) and tested for one comfort class seat and two touristic class seats. A tri-axial accelerometer seat pad was placed at the seat surface, 1 uniaxial accelerometer was placed at the floor and 3 at the rigid frame structure, allowing the identification of movements from the support seat frame. The results were similar for all subjects within the same seat. Comparing both seat types, higher frequency transmissibility was found for the latter. Regarding the touristic seats, 2 transmissibility peaks were obtained, a lower frequency resonance (under 1Hz) dependent on the foam and, a higher peak (between 2 – 3 Hz) corresponding to the movement of the rigid frame structure. Using ARTeMIS software, the movement type and origin of the previous frequencies were confirmed. The findings of this study may assist the optimization of the seat structural frame design, promoting a reduction of vibration transmissibility and, consequently, increasing passenger comfort levels.
Autores principais:	Silva, Patrícia
Outros Autores:	Seabra, Eurico; Mendes, Joaquim Gabriel
Assunto:	Transmissibility Railway seat Vibration transmission
Ano:	2022
País:	Portugal
Tipo de documento:	outro
Tipo de acesso:	acesso aberto
Instituição associada:	Universidade do Minho
Idioma:	inglês
Origem:	RepositóriUM - Universidade do Minho

Descrição
Resumo:	Railways are one of the most used public transportation modes, its low environmental impact presents a huge advantage when compared to airplanes. Therefore, its use has been promoted as a solution to connect cities up to 850km distance. Comfort is a crucial parameter to fulfil this objective once it is the key to keeping customers satisfied and attracting new ones. Vibration is a primary comfort concern. Since it is derived from the train motion, the passenger will be subject to it throughout the journey due to the contact with the floor and seat. Seat transmissibility provides useful information regarding the extent to which the seat is attenuating or amplifying vibration, thus it is one of the parameters used to evaluate dynamic comfort. The vertical transmissibility of Alfa Pendular train seats was measured with 4 subjects (2 males/2 females, aged 9 – 39, weight 33 – 115kg, 1.33 – 1.87m stature) and tested for one comfort class seat and two touristic class seats. A tri-axial accelerometer seat pad was placed at the seat surface, 1 uniaxial accelerometer was placed at the floor and 3 at the rigid frame structure, allowing the identification of movements from the support seat frame. The results were similar for all subjects within the same seat. Comparing both seat types, higher frequency transmissibility was found for the latter. Regarding the touristic seats, 2 transmissibility peaks were obtained, a lower frequency resonance (under 1Hz) dependent on the foam and, a higher peak (between 2 – 3 Hz) corresponding to the movement of the rigid frame structure. Using ARTeMIS software, the movement type and origin of the previous frequencies were confirmed. The findings of this study may assist the optimization of the seat structural frame design, promoting a reduction of vibration transmissibility and, consequently, increasing passenger comfort levels.