Khalid A-Alamry scite author profile

Khalid A-Alamry

3Publications

17Citation Statements Received

25Citation Statements Given

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University of Manchester

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Flow‐Induced Polymer Degradation During Ink‐Jet Printing

A-Alamry

Nixon

Hindley

et al. 2010

Macromol. Rapid Commun.

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We report for the first time evidence of flow-induced polymer degradation during inkjet printing for both poly(methyl methacrylate) (PMMA) and polystyrene (PS) in good solvent. This has significance for the deposition of functional and biological materials. Polymers having Mw either less than 100 kDa or greater than approximately 1,000 kDa show no evidence of molecular weight degradation. The lower boundary condition is a consequence of low Deborah Number De imposed by the printhead geometry and the upper boundary condition due to visco-elastic damping. For intermediate molecular weights the effect is greatest at high elongational strain rate and low solution concentration with higher polydispersity polymers being most sensitive to molecular weight degradation. For low polydispersity samples, PDi ≤ 1.3, chain breakage is essentially centro-symmetric induced either by turbulance or overstretching when the strain rate increases well beyond a critical value, that is the stretching rate is high enough to exceed the rate of relaxation. For higher polydispersity samples chain breakage is consistent with almost random scission along the chain, inferring that the forces required to break the chain are additionally transmitted either by valence bonds, i.e. network chains and junctions or discrete entanglements rather than solely by hydrodynamic interaction.

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Molecular weight degradation of synthetic and natural polymers during inkjet print.

Wheeler¹,

A-Alamry²,

Reynolds³

et al. 2014

print4fab

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Flow-Induced Polymer Degradation during Ink-Jet Printing

A-Alamry¹,

Nixon²,

Hindley³

et al. 2010

print4fab

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Khalid A-Alamry

Flow‐Induced Polymer Degradation During Ink‐Jet Printing

Molecular weight degradation of synthetic and natural polymers during inkjet print.

Flow-Induced Polymer Degradation during Ink-Jet Printing

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