Analysis of customers’ satisfaction with automobile exterior panel stiffness: focus on the hood and doors of mid-sized sedan

  • Wonjoon Kim Seoul National University http://orcid.org/0000-0001-5177-8072
  • Taebeum Ryu Hanbat National University
  • Donggun Park Seoul National University
  • Myung Hwan Yun Seoul National University
Keywords: affective quality, mid-sized sedan, exterior panel, force-deflection curve, perceived stiffness, customer satisfaction

Abstract

The exterior panel is an important part of automobiles because it determines not only the cosmetic appearance but also resists external impacts, and the stiffness of exterior panels is among the survey items in the initial quality study (IQS) by JD Power. This study aims to investigate the effects of the stiffness of exterior panels on customer satisfaction levels because this relationship has not been studied extensively in the field of affective automotive engineering. Four effects were selected for this evaluation of exterior panel stiffness levels: hardness, consistency of deformation, thickness, and associated satisfaction levels. In the experiment, 54 Korean men ranging in age from their 20s to their 50s evaluated three exterior panel parts on nine mid-sized sedans. These parts included the hood, front door and rear door. The results showed that customer satisfaction levels differed significantly depending on the panels and increased when the stiffness was greater. It was also identified that the participants evaluated panel stiffness levels with a force of up to 14 kgf. Customer satisfaction models were developed with the variables that were found to describe the mechanical properties of the panels. These models will be helpful to people involved in the design and control of the stiffness quality of exterior panels.

References

Agost, M. J., & Vergara, M. 2014. Relationship between meanings, emotions, product preferences and personal values. Application to ceramic tile floorings. Applied Ergonomics, 45 (4), 1076–1086.

Ayas, E., Eklund, J., & Ishihara, S. 2001. Kansei/Affective engineering applied to triggers in powered hand tools. In M. Nagamachi (Ed.), Kansei/affectvie engineering (pp. 275-293). Boca Raton, FL: CRC.

Bagozzi, R. P., Gopinath, M., & Nyer, P. U. 1999. The role of emotions in marketing. Journal of the Academy of Marketing Science, 27 (2), 184-206.

Barnes C. J., Childs T. H. C., Henson B., & Lillford S.P. 2008. Kansei engineering tool kit for the packaging industry. The TQM Journal, 20, 372–88.

Chang, H. C., Lai, H. H., & Chang, Y. M. 2007. A measurement scale for evaluating the attractiveness of a passenger car form aimed at young consumers. International Journal of Industrial Ergonomics, 37 (1), 21–30.

Choe, J. 2013. How can we approach the affective quality? : A study on the affective response and structural approach to the affective quality. Journal of Korean Institute of Industrial Engineers, 39 (1), 73-77.

Cholewiak, S. A., Tan, H. Z., & Ebert, D. S. 2008. Haptic identification of stiffness and force magnitude. Symposium on Haptic Interface for Virtual Environment and Teleoperator Systems 2008, 87-91.

Demirbelek, O., & Sener, B. 2003. Product design, semantics and emotional response. Ergonomics, 46, 1346–1360.

Deng, X., & Kahn, B. E. 2009. Is your product on the right side? The “location effect” on perceived product heaviness and package evaluation. Journal of Marketing Research, 46 (6), 725–738.

Desmet, P. M. A. 2003. A multilayered model of product emotions. The Design Journal, 6, 4–13.

Ekstrand, G., & Asnafi, N. 1998. On testing of the stiffness and the dent resistance of autobody panels. Materials and Design, 19 (4), 145–156.

Han, S. H., Yun, M. H., Kwahk, J., & Hong, S. W. 2001. Usability of consumer electronic products. International Journal of Industrial Ergonomics, 28 (3), 143–151.

Horberry, T., Stevens, A., Burnett, G., Cotter, S., & Robbins, R. 2008. Assessing the visual demand from in-vehicle information systems by means of the occlusion technique: the effects of participant age. IET Intelligent Transport System, 170-177.

Jordan, P. W. 1998. Human factors for pleasure in product use. Applied Ergonomics, 29, 25–33.

Jindo, T., & Hirasago, K. 1997. Application studies to car interior of Kansei engineering. International Journal of Industrial Ergonomics, 19 (2), 105–114.

Jones, L. A. 1986. Perception of force and weight: Theory and research. Psychological Bulletin, 100 (1), 29–42.

Jordan P. W. 2000. Designing pleasurable products. London: Taylor & Francis.

Jung, H., & Nah, K. 2007. A Study on the Meaning of Sensibility and Vocabulary System for Sensibility Evaluation. Journal of the Ergonomics Society of Korea, 26 (3), 17-25.

Kano N., Seraku N., Takahashi F., & Tsuji S. 1984. Attractive quality and must-be quality. Journal of Japanese Society Quality Control, 14, 39–44.

Kim, H. K., Han, S. H., Park, J., & Park, J. 2016. Identifying affect elements based on a conceptual model of affect: A case study on a smartphone. International Journal of Industrial Ergonomics, 53, 193–204.

Kosaka, H., Serizawa, K., & Watanabe, K. A. 1993. Universal keyboard switch for a felling test. IEEE Workshop on Robot and Human Communication ’93, 225-230.

Lai, H. H., Chang, Y. M., & Chang, H. C. 2005. A robust design approach for enhancing the feeling quality of a product: a car profile case study. International Journal of Industrial Ergonomics, 35 (5), 445–460.

Liu, L., Sawada, T., & Sakamoto, M. 2000. Evaluation of the surface defections in pressed automobile panels by an optical refection method. Journal of Material Processing Technology, 103 (2), 280-287.

Luo, S. J., Fu, Y. T., & Zhou, Y. X. 2012. Perceptual matching of shape design style between wheel hub and car type. International Journal of Industrial Ergonomics, 42 (1), 90–102.

McDonagh, D., Bruseberg, A., & Haslam, C. 2002. Visual product evaluation: exploring users’ emotional relationships with products. Applied Ergonomics, 33, 231–240.

Mondragón, S., Company, P., & Vergara, M. 2005. Semantic Differential applied to the evaluation of machine tool design. International Journal of Industrial Ergonomics, 35 (11), 1021–1029.

Nagamachi, M. 2001. Thinking way of Kansei engineering and its application to a cosmetic product development. Fragrance Journal, 4, 19-28.

Norman, D. A. 2004. Emotional design. New York: Basic Books.

Osaka, H., Nishitani, H., & Watanabe, K. 2005. Estimation of reaction force of a keyboard switch based on Kansei information using neural networks. Proceedings of IEEE Networking, Sensing and Control, 225-230.

Parizet, E., Guyader, E., & Nosulenko, V. 2008. Analysis of car door closing sound quality. Applied Acoustics, 69 (1), 12–22.

Park, C. D., Chung, W. J., & Kim, B. M. 2007. A numerical and experimental study of surface deflections in automobile exterior panels. Journal of Materials Processing Technology, 187, 99–102.

Poirson, E., Petiot, J. F., & Richard, F. 2010. A method for perceptual evaluation of products by naive subjects: Application to car engine sounds. International Journal of Industrial Ergonomics, 40 (5), 504–516.

Qian, W., Hsieh, L., & Seliger, G. 1996. On the Optimization of Automobile Panel Fitting. Proceeding of the IEEE International Conference on Robotics and Automation, 1268-1274.

Rea, L. M., & Parker, R. A. 2005. Designing and conducting survey research: a comprehensive guide. San Francisco, CA: Josses-Bass.

Sanders, M. S., & McCormick, E. J. 1992. Human factors in engineering and design. Singapore: McGraw-Hills.

Schütte, S., & Eklund, J. 2005. Design of rocker switches for work-vehicles—an application of Kansei Engineering. Applied Ergonomics, 36 (5), 557–567.

Seva, R. R., & Helander, M. G. 2009. The influence of cellular phone attributes on users’ affective experiences: A cultural comparison. International Journal of Industrial Ergonomics, 39 (2), 341–346.

Tanaka, H., Higuchi, M., & Hisamoto, S. 2011. Comfortable pushing/pulling force exertion for the design of consumer products. International Conference on Biometrics and Kansei Engineering, 87–90.

Tanoue, C., Ishizaka, K., & Nagamachi, M. 1997. Kansei Engineering: A study on perception of vehicle interior image. International Journal of Industrial Ergonomics, 19 (2), 115–128.

Warnock, A., Shumaker, A., & Delwiche, J. 2006. Consideration of Thurstonian scaling of ratings data. Food Quality and Preference, 17, 556–561.

Weir, D., Buttolo, P., Peshkin, M. J., Colgate, E., Rankin, J., & Johnston, M. 2004. Switch characterization and the haptic profile. 12th Haptic Symposium on Haptic Interfaces for Virtual Environment and Teleoperator System, 354-358.

You, H., Ryu, T., Oh, K., Yun, M., & Kim, K. 2006. Development of satisfaction models for passenger car interior materials. International Journal of Industrial Ergonomics, 36 (4), 323-330.

Published
2019-06-02
Section
Industrial Engineering