2009
DOI: 10.1243/14644207jmda272
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Development and preliminary performance evaluation of discontinuous fibre reinforced thermoplastic leaf spring

Abstract: Leaf spring plays a significant role in the riding comfort of an automobile. Thermoplastic composite materials are replacing many metallic parts in an automobile system. The main objective of the present work is to identify the scope of thermoplastic composite material for leaf spring application. Emphasis is given to understand the effect of reinforced fibre length on the leaf spring performance. In all, 20 per cent discontinuous long and short glass fibre reinforced polypropylene (PP) materials were consider… Show more

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Cited by 12 publications
(36 citation statements)
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References 33 publications
(42 reference statements)
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“…X-ray diffraction investigation of test leaf spring material reveals that the crystallite sizes of UFPP, SFPP, and LFPP are 100.33, 118.615, and 146.784 Å, respectively. Material crystallinity is found to be influenced by reinforcement as well as length of reinforcement; more details were reported elsewhere [10]. Details of injection moulding conditions of the leaf spring are presented in Table 1.…”
Section: Leaf Spring and Fatigue Performance Evaluation Methodologymentioning
confidence: 92%
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“…X-ray diffraction investigation of test leaf spring material reveals that the crystallite sizes of UFPP, SFPP, and LFPP are 100.33, 118.615, and 146.784 Å, respectively. Material crystallinity is found to be influenced by reinforcement as well as length of reinforcement; more details were reported elsewhere [10]. Details of injection moulding conditions of the leaf spring are presented in Table 1.…”
Section: Leaf Spring and Fatigue Performance Evaluation Methodologymentioning
confidence: 92%
“…1. Details of injection-moulded leaf spring and fixture for the leaf spring testing are reported elsewhere [10]. Test leaf springs are loaded up to 12 mm deflection (Camber) and released back as per the SAE standard J 1528 [17].…”
Section: Leaf Spring and Fatigue Performance Evaluation Methodologymentioning
confidence: 99%
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“…Cracks in randomly orientated fibre composites are impeded by the discontinuities, such as fibre cross-overs [29], and either propagate through the matrix or along the interface, depending on the interfacial strength [30]. When the interface is weak, these interfacial cracks propagate along the length of the fibre and lead to fibre pull-out [31]. This was demonstrated by the CF.PP samples, as the tows separated during fracture and the ends were flexible and free of matrix.…”
Section: 1mentioning
confidence: 97%
“…Despite fibre breakage and pull-out accounting for a large proportion of the fracture energy, there must be sufficient matrix to transfer stresses efficiently. It is understood that fibre fracture leads to stress intensification [43] and cracks therefore propagate through the matrix for high interface strength systems, as opposed to along the interface [31]. This is exacerbated at higher volume fractions as the inter-fibre spacing is reduced and may lead to brittle failure characteristics, therefore the plateau in impact strength is caused by a change in failure mode of the matrix material.…”
Section: The Effect Of Fibre Volume Fractionmentioning
confidence: 99%