The current study is focused on the optimal design of multi-layered thick-walled fibre reinforced composite pipes subjected to bending loading and pressure. The problem is considered for perfectly bonded layers and stress and displacement continuity conditions imposed on interfaces. The system of integral equations obtained from the moment equilibrium relation is solved numerically. Stress-strain state is analysed for pipes with different lay-ups and reinforcement structure.
|Number of pages||1|
|Publication status||Published - 2017|
|Event||British Applied Mathematics Colloquium 2017 - University of Surrey, Guidford, United Kingdom|
Duration: 10 Apr 2017 → 12 Dec 2017
Conference number: 59
|Conference||British Applied Mathematics Colloquium 2017|
|Abbreviated title||BAMC 2017|
|Period||10/04/17 → 12/12/17|
Menshykov, O., Menshykova, M., & Guz, I. (2017). Numerical modelling of layered composite pipes under bending and pressure. 32. Abstract from British Applied Mathematics Colloquium 2017, Guidford, United Kingdom.