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Development of Blade on 9㎥ Class of Mixer Drum  

Shin, H.G. (전북대 기계시스템 공학부)
Choi, H.C. (전북인력개발원 컴퓨터응용금형과)
Bean, D.H. (폴리텍V대학 김제캠퍼스 컴퓨터응용기계과)
Kim, Y.C. (군산대 기계자동차공학부)
Publication Information
Journal of the Korean Society of Mechanical Technology / v.13, no.3, 2011 , pp. 65-71 More about this Journal
Abstract
The concrete mixer truck which is in charge of raw materials in civil engineering construction of the concrete loading, transport, placement, is used $6m^3$, $7m^3$ class in domestic(Korea). But in the case of the international construction fields are utilized $9m^3$ or above class because of the large-scale engineering and construction circumstances. In this paper, to develop a large $9m^3$ class mixer drum and the mixer drum in order to complement the technical and discharge that is responsible for stirring the blades by applying optimal design through implementation of the optimal shape of the concrete in the drum maintenance and placement of high-quality effects on increasing discharge such as advanced conventional drum mixer is to secure and differentiated technology. Large, heavy weight in development and uphold the drum mixer vehicle sub-frame is required to settle the design of the existing class mixer drum frames per $6m^3$ changed to account for changes in slope and length using CATIA V5 3D modeling work was performed.
Keywords
Mixer drum; Blade; Sub-frame; Finite Element Analysis;
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1 J. Barry, G. Byrne, "Cutting tool wear in the machining of hardened steels. Part I: alumina/TiC cutting tool wear", Wear, Vol. 247, pp. 139-151, 2001   DOI   ScienceOn
2 Adibi-Saleh, V. Madhavan, B. Bahr, "Extension of Oxley's Analysis of Machining to Use the Johnson-Cook Material Model", Proceedings of the ASME IMECE, MED, pp. 1-7. 2001
3 S. M. Athavale, J. S. Strenkowski, "Finite Element Modeling of Machining: From Proof to Concept to Engineering Applications", CIRP Intl. Wrokshop on Modeling of Mach. Oprns., pp. 2B/3-1 - 2B/3-14, 1998
4 M. Baeker, C. Siemers, J. Roesler, "A Finite Element Model of High Speed Metal Cutting with Adibatic Shearing" Computers & Structures, Accepted for Publication. 2002
5 J. Mou, "A Method of Using Neural networks and Inverse Kinematics for machine Tools Error Estimation and Correction", ASME Journal of manufacturing Science and Engineering, Vol.119, pp. 247-254. 1997   DOI   ScienceOn
6 C. Rafael Gonzalez, Wintz. Paul, "Digital Image Processing", Addison-Wesley Pub. Co., 1992.
7 T. G. Dawson, and Thomas R. Kurfess, "Quantification of Tool wear using White Light Interferometry and Three dimensional Computational Metrology", International Journal of Machine Tools & Manufacture, pp. 1-6, 2004.