Michael J. Pegg scite author profile

During a droplet impact onto a substrate, splashing is known to be caused by the presence of surrounding gas or by surface roughness. Impact occurring in a vacuum onto a smooth rigid wall results in droplet spreading, rather than development of a corona or prompt splash. Here we present an analytical and numerical study of a third potential splashing mechanism, namely elastic deformation of the substrate. An axisymmetric Wagner-style model of droplet impact is formulated and solved using the method of normal modes, together with asymptotic analysis and numerical methods. We highlight the effect that a flexible substrate brings to the contact line velocity and jet behaviour, demonstrating that oscillation of the substrate can cause blow-up of the splash jet which is absent for a rigid substrate and indicate the onset of splashing.

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Effectiveness of dust dispersion in the 20-L Siwek chamber

Kalejaiye

Amyotte

Pegg

et al. 2010

Journal of Loss Prevention in the Process Industries

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Effects of turbulence on dust explosions

Amyotte

Chippett²,

Pegg

1988

Progress in Energy and Combustion Science

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Moderation of dust explosions

Amyotte¹,

Pegg²,

Khan³

et al. 2007

Journal of Loss Prevention in the Process Industries

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Michael J. Pegg

Predicting the viscosity of biodiesel fuels from their fatty acid ester composition

Flow properties of biodiesel fuel blends at low temperatures

On the transient flow in the 20-liter explosion sphere

Application of inherent safety principles to dust explosion prevention and mitigation

Droplet impact onto an elastic plate: a new mechanism for splashing

Effectiveness of dust dispersion in the 20-L Siwek chamber

Effects of turbulence on dust explosions

Moderation of dust explosions

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