, Ainsi, ces intégrales seront contrôlées par les normes L 2 de ? et de ?. Pour estimer l'erreur de consistance, la principale difficulté vient du fait que l, Remarquons que la mesure des domaines d'intégration est d'ordre ?
, Cela donne une bonne indication que les résultats sont vrais, les simulations fournissant une validation des mesures et inversement. L'étape suivante consisterait à produire un code résolvant le système de Stokes-Herschel-Bulkley pour pouvoir comparer quantitavement les différents jeux de résultats. Cela permettrait également de quantifier l, litative entre les résultats numériques (effectués avec un fluide de Bingham) et les résultats expérimentaux (avec un matériau modélisé par un fluide de Herschel-Bulkley)
, On a également présenté une illustration numérique de la convergence du champ de pression complet vers l'ordre principal de l'équation de Reynolds viscoplastique à l'ordre O(?). Il est à noter que pour l'ordre o(?), l'équation de Reynolds n'a été dérivée que de manière formelle. On a dérivé l'équation vérfiée par l'erreur de consistance mais pas montré que cette erreur était d'ordre plus petit que ?. Une perspective naturelle de ce travail est donc de dériver des estimations pour cette erreur de consistance. Par ailleurs, un autre point d'intérêt serait d, vol.90
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