Study of New Wall Materials Design Based on TRIZ Integrated Innovation Method

Yihong LUO, Yunfei SHAO, Ting CHEN

Abstract


New wall materials alleviate the problems of high energy consumption and heavy pollution in the production process through the forms of new natural raw materials, energy conservation, land conservation, waste utilization, etc.. In this paper, design of new building wall materials is achieved through the integrated innovation method of Theory of Inventive Problem Solving (TRIZ), Technology Acceptance Model (TAM), and Quality Function Deployment (QFD). Technical contradictions and physical contradictions in various stages of product design and production are resolved from the perspectives of user survey, R & D design, manufacturing, marketing. According to the different advantages of TRIZ, TAM and QFD in various stages of product, new wall material products of Guizhou Long Life Forestry Group are used as an example, with the integrated innovation method, the company’s new wall materials products are designed, and green, environmental, economical series wall materials products are designed and marketed in China.

Key words: TRIZ; TAM; QFD; New building materials; Integrated innovation method


Keywords


TRIZ; TAM; QFD; New building materials; Integrated innovation method

References


[1] LIU, H. M. (2008). Structure Research and Development of New Wall Material Current Status. Science and Technology Innovation Herald, 10(10), 2.

[2] CHEN, Y. Z. (2011). Analysis and Countermeasures of New Wall Materials Application. Technology and Market, 18(5), 57-59.

[3] ZENG, F. H. (2009). Product Innovation Design and Development. Chengdu: Southwest Jiaotong University Press.

[4] Venkatesh, V., & Davis, F. D. (2000). A Theoretical Extension of the Technology Acceptance Model: Four Longitudinal Field Studies. Management Science, 186-204.

[5] Chuttur, M. Y. (2009). Overview of the Technology Acceptance Model: Origins, Developments and Future Directions. Indiana University.

[6] Venkatesh, V., & Bala, H. (2008). Technology Acceptance Model 3 and a Research Agenda on Interventions. Decision Sciences, 39(2), 273-315.

[7] Akao, Y. (1990). Quality Function Deployment: Integrating Customer Requirements into Product Design. Cambridge, Mass.: Productivity Press.

[8] Mazur, G. H. (1993). QFD for Service Industries: From Voice to Customer to Task Deployment. Ann Arbor, MI: Japan Business Consultants.

[9] Das, R. R., & Pradhan, B. (2011). Finite Element Based Design and Adhesion Failure Analysis of Bonded Tubular Socket Joints Made with Laminated FRP Composites. Journal of Adhesion Science and Technology, 25(1-3), 41-67.

[10]
LIU, X. F., & SUN, Y. (2005). QFD Application in Software Process Management and Improvement Based on CMM. Paper presented at the Proceedings of the Third Workshop on Software Quality, St. Louis, Missouri.

[11] ZHAO, Z. (1994). Pumping Unit Quality Improvement of Chain with QFD Application. Oil Field Equipment, 23(03), 5-8.

[12] CHEN, Y. Z., GUO, S. Z., & GAO, L. (2011). Study on the Conversion Mechanism of Customers’ Demands in Design Chain Based on QFD. Science and Technology Management Research, 31(01), 213-215, 233.

[13] WANG, C. L., & YE, M. H. (2010). The Robustness Research on the Product Platform for Meeting the Customer Requirements. Science Research Management, 31(05), 141-147.

[14] Altshuller, G. (1996). And Suddenly the Inventor Appeared: TRIZ, the Theory of Inventive Problem Solving (2nd ed.). Worcester: Technical Innovation Center, Inc..

[15] Altshuller, G., & Shulyak, L. (1998). 40 Principles: TRIZ Keys to Technical Innovation (Triztools, V. 1) (1st ed.). Worcester: Technical Innovation Center, Inc..

[16] Altshuller, G. (1999). Innovation Algorithm: TRIZ, Systematic Innovation and Technical Creativity (1st ed.). Worcester: Technical Innovation Center, Inc..

[17] G. Maarten, B. (2011). TRIZ for Systems Architecting. Procedia Engineering, 9, 702-707.

[18]


Low, M. K., Lamvik, T., Walsh, K., & Myklebust, O. (2001). Manufacturing a Green Service: Engaging the TRIZ Model of Innovation. Ieee Transactions on Electronics Packaging Manufacturing, 24(1), 10-17.

[19] ZHENG, C. D. (2003). Theory and Design Process of TRIZ. Journal of Industrial Engineering and Engineering Management, 17(01), 84-87.

[20] TAN, R. H., ZHANG, R. H., CHAO, G. Z., & JIANG, P. (2005). Research on Producing New Ideas for Innovation Using TRIZ. Journal of Industrial Engineering and Engineering Management, 19(04), 141-143.

[21] Y
ANG, Y., & SHAO, Y. F. (2009). A Study on the Application of TRIZ in Model Construction of Undergraduate Innovation’s Ability Estimation. Journal of University of Electronic Science and Technology of China (Social Sciences Edition), 11(03), 1-4.

[22] LUO, Y. H., & SHAO, Y. F. (2012). Study of Enterprise Information System Framework Design Based on TRIZ and BSC. Journal of Management Sciences in China, 15(9), 20-34.

[23]CHAO, W. Z. (2006). Current Development and Technical Direction of New Wall Materials of China. Block-Brick-Tile, 10(10), 120-121.




DOI: http://dx.doi.org/10.3968%2Fj.mse.1913035X20120604.635

Refbacks

  • There are currently no refbacks.


Reminder

If you have already registered in Journal A and plan to submit article(s) to Journal B, please click the CATEGORIES, or JOURNALS A-Z on the right side of the "HOME".


We only use three mailboxes as follows to deal with issues about paper acceptance, payment and submission of electronic versions of our journals to databases:
caooc@hotmail.com; mse@cscanada.net; mse@cscanada.org

Copyright © 2010 Canadian Research & Development Centre of Sciences and Cultures
Address: 758, 77e AV, Laval, Quebec, H7V 4A8, Canada

Telephone: 1-514-558 6138
Http://www.cscanada.net Http://www.cscanada.org