Abstract
Formulation design with different materials and their effective role in a given formulation and process are discussed. Multiple dimensional fillers and reinforcers and their effect on strength are dealt with. Dispersion strengthening and selection of design of experiments as an option are explained. An account of Factoral factorial design, role of critical raw materials in the BFMC formulations, factors that can affect friction with design control plan are all given in this chapter. Sequence of design approval process with some of the critical raw material specification inputs are explained in detail with their role in the formulation design. Analytical techniques like NMR, GPC analysis as a support with their significance in the formulating materials are explained. Note on advanced BMI polymer its usefulness in friction material formulations are explained in this chapter. Material selection, process selection sequence are introduced with details of disc pad classifications, criteria and a list of raw materials generally used in BFMC design formulations have been listed.
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M. Dallavalle, N. Sändig, F. Zerbetto, Langmuir 28(19), 7393–7400 (2012)
F.P. Bowden, D. Tabor, The Friction and Lubrication of Solids (Oxford University Press, New York, 1953), p. 105
B.J. Briscoe, I. Ramirez, P.J. Tweedale, Friction of aramid fibre composites, in Proceedings of the International Conference on Disc Brakes for Commercial Vehicles, 1–2 November, (IMechE, London, 1988), p. 15
J.P. Giltrow, J.K. Lankaster, Wear 16, 359–374 (1970)
A.E. Anderson, Fibers in friction materials symposium, in Proceedings of Society of Automotive Engineers, Atlantic City, New Jersey (1987)
T. Kalo, A. Magario, Tribol. Trans. 37, 559–565 (1994)
K.K. Chawla, Composite Materials Science and Engineering, 2nd edn. (Springer, New York, 1998)
J.C. Saklamone, Polymeric Materials Encyclopedia, vol. 7 (CRC Press, Boca Raton, 1996)
H.C. Gulledge, Ind. Eng. Chem. 52, 117–118 (1960)
J.V. Milewski, H.S. Katz, Handbook of Reinforcements for Plastics (Van Nostrand–Reinhold, New York, 1987)
S.J. Kim, H. Jang, Tribol. Int. 33, 477–484 (2000)
J.K. Lankaster, J. Tribol. 107, 437–443 (1985)
M. Clerico, V. Patiemo, Wear 53, 279–301 (1979)
L.F. Nielsen, Composite Materials: Properties as Influenced by Phase Geometry (Springer, Berlin, 2005), 274 pp.
B. Basu, M. Kalin, Tribology of Ceramics and Composites: Materials Science Perspective (Wiley–American Ceramic Society, New York, 2011), 550 pp.
H. Jang, J. Lee, J.W. Fash, Compositional effects of the brake friction material on creep groan phenomena. Wear 251, 1477–1483 (2001)
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Sundarkrishnaa, K.L. (2012). Formulation Design. In: Friction Material Composites. Springer Series in Materials Science, vol 171. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-33451-1_4
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DOI: https://doi.org/10.1007/978-3-642-33451-1_4
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-33450-4
Online ISBN: 978-3-642-33451-1
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