Seat Comfort. M4-M6.


Autoria(s): Paul, Gunther; Daniell, Nathan; Al-Dirini, Rami M.A.; Mohammed, Mahmood
Data(s)

2012

Resumo

Hardness is defined as the resistance and load bearing capability of an item. Seat hardness is an important factor in seat comfort as it impacts on a number of variables including seat postural stability, postural control, pressure comfort as a result of tissue deformation, and occupant vibration. The development of the test rig further on described in this report will enable Futuris Automotive to develop their current comfort testing procedures and thus increase the comfort of their automotive seats. The test rig consists of a buttock indenter, which produces a controlled application of a load to a seat cushion with measured displacement via a linear indenter. In parallel with the physical property presented, an analytic (software) finite element tool was developed to simulate seat pressure in an ANSYS Workbench V13 environment. This report also details the procedure required for Futuris to accurately and precisely measure cushion hardness which will enhance their comfort testing procedures, product development and target settings. The report is divided into three main sections: 1 Test equipment specification (M4) - A detailed description of the process used to build the seat cushion indenter and a description of the indenter mechanical structure and electrical functionality (chapter 2). 2 Analytic tool specification (M5) – A detailed description of the CAE seat and indenter software tool, developed as a finite element model (FEM) under ANSYS Workbench V13 to simulate indentation of a physical seat cushion similar to the hardware tool (chapter 3). 3 Product Development and Comfort Design Procedure (M6) - The cushion hardness testing procedure to be used with the physical indenter. This milestone is partially incomplete, as it covers a description of the test procedure to be applied, however not the operating system (control software) required to operate the physical property (chapter 4). Although outside the scope of this project, this report also details the testing procedures required to measure overall seatback hardness.

Identificador

http://eprints.qut.edu.au/74996/

Relação

Paul, Gunther, Daniell, Nathan, Al-Dirini, Rami M.A., & Mohammed, Mahmood (2012) Seat Comfort. M4-M6. AutoCRC, Prepared for Futuris Automotive.

AUTOCRC/C3-21

Fonte

Faculty of Health; Institute of Health and Biomedical Innovation; School of Public Health & Social Work

Palavras-Chave #090202 Automotive Engineering Materials #090302 Biomechanical Engineering #091307 Numerical Modelling and Mechanical Characterisation #Ergonomics #Seat Comfort #Digital Human Modelling
Tipo

Report