Paper Titles

Approach to the Study of Workpiece Damage in Drilling of Carbon Fiber Composites by Using Thermography IR
p.43

Comparison between a Laser Micrometer and a Touch Trigger Probe for Workpiece Measurement on a CNC Lathe
p.49

Cutting Tool Selection through Tool Wear, Cost, Power Consumption and Surface Roughness Analyses
p.55

Digital Modeling of End-Mill Cutting Tools for FEM Applications from the Active Cutting Contour
p.61

Economical Assembly of Aluminium Parts with Composite Materials in Automotive Competitive Industry
p.67

Effect of the Reference Line on Main Roughness Parameters
p.73

Effects of Wear on Cutting Forces in End-Milling Nickel Alloy
p.79

Evaluation of On-Line Signals for Roundness Monitoring
p.85

Experimental Analysis of Process Parameters to Manufacture Micro-Cavities by Micro-Milling
p.91

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 498Economical Assembly of Aluminium Parts with...

Economical Assembly of Aluminium Parts with Composite Materials in Automotive Competitive Industry

Article Preview

Abstract:

At the present time, in the automotive competitive industry, new materials are investigated for to satisfy relative requirements to the design and manufacturing of structures more slight and resistant that allows bigger speed with smaller energy consumption (compound materials, aluminum alloys, etc.). Structural adhesives can use for joint compounds materials with aluminum and they will provide, front traditional methods and among other advantages, a smaller weight, uniform distribution of stress, tightness and elimination of the galvanic corrosion. Present work analyzes viable technically structural adhesives and, by means the application of Value Analysis, to select the adhesive and surface treatment that have the best mechanical benefits/cost ratio.

You might also be interested in these eBooks

Advances in Materials Processing Technologies, MESIC2011

Info:

Periodical:

Advanced Materials Research (Volume 498)

Pages:

67-72

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.498.67

Citation:

Cite this paper

Online since:

April 2012

Authors:

José M. Arenas Reina, Cristina Alía, Julián J. Narbón Prieto, Rosa Ocaña López, M.M. Recio

Keywords:

Aluminum (Al), Assembly, Composite Material, Technician-Economical Analysis

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

[1] K.K. Charla: Composite materials science and technology (Springer, Nueva York 2001).

[2] N. Rastogi, in: Design of composite driveshafts for automotive applications, SAE, technical paper series, 2004-01-0485 (2004).

DOI: 10.4271/2004-01-0485

[3] D.H. Cho and D.G. Lee: J. Compos. Struct. Vol. 38(1–4) (1997), p.309–19.

[4] D.R. Grant, R.D. Adams, L.F.M. da Silva: Int. J. Adhes. Vol. 29 (2009), p.405.

[5] M. Merino, M. Recio, J. Narbón, D. Corbella and J.M. Arenas, in Implementación docente de las competiciones de ingeniería en el marco del EEES, XVII Congreso Universitario de Innovación Educativa en las Enseñanzas Técnicas. U.P.V. Valencia, 2009. pp.91-97.

DOI: 10.2307/j.ctv2gz3t2s.41

[6] S.R. Swanson: Introduction to design and analysis with advanced composite materials (Prentice Hall, New Jersey 1997).

[7] H. Guo, Y. Huang, L. Liu and X. Shi: Mat. and Des. Vol. 31 (2010), p.1186–1190.

[8] J.C. Suárez and F. López: Uniones Adhesivas Estructurales (CYTED, Madrid 2000).

[9] J.C. Suarez, I. Diez, M.V. Biezma, J.M. Ruiz, M.A. Martinez, J.C. Del Real and F. López: J. Mat. Process. Tech. Vol. 143-144 (2003), pp.219-224.

[10] C. LeBack, Y. Brechet, H.R. Shercliff, T. Jeggy and L. Salvo: Mat. and Des. Vol. 23 (2002), pp.405-416.

[11] J.R.J. Wingfield: Int. J. Adh. Adh. Vol. 13 (1993), pp.151-153.

[12] J.J. Van Straalen, J. Wardenier, L.B. Vogelesang and F. Soetens: Int. J. of Adh. & Adh. Vol. 18 (1998), pp.41-49.

[13] K.L. Edwards: Mat. and Des. Vol. 19 (1998), pp.121-123.

[14] J.M. Arenas, C. González, A. Guillamón and M.A. Sebastián: Ing. Quím. Vol. 396 (2002), pp.93-102.

[15] J.M. Arenas and A. Guillamón: Int. J. of Adh. & Adh. Vol. 27 (2007), pp.122-128.

[16] M. Shahid and S.A. Hashim: Int. J. Adhes. Adhes. Vol. 235 (2002), p.44.

[17] F. Garbassi, M. Morra, M. Occhiello : Polymer Surfaces from Physics to Technology (Ed John Wiley& Sons, UK 1998).

DOI: 10.1177/004051759406401110

[18] J.M. Arenas, J.J. Narbón and C. Alía: J. of Adh. Vol. 85(6) (2009), p.324 – 340.

[19] S. Kalpakjian and S.R. Schmid: Manufacture Engineering and Technology (Pearson-Prentice Hill, USA 2006).

[20] J.M. Arenas: Calidad e Ingeniería de Diseño (Fundación General UPM, Madrid 2001).

[21] AENOR. UNE-EN 1465: Adhesivos: determinación de la resistencia a cizalladura por tracción de juntas pegadas de sustratos rígidos. Asociación española de normalización; (1996).

DOI: 10.23857/dom.cien.pocaip.2017.3.1.400-415