• Singh, Krishna Pratap
• Roul, Ajay Kumar
• Nalawade, Rohit Dilip
• Kumar, Mohit
• Mahore, Aman
• Avilala, Prasad
• Ramulu, Chelpuri
• Patel, Abhishek
• Kebede, Berhanu
• Patra, Abhik

Abstract

<jats:title>Abstract</jats:title><jats:p>To simulate the bending behaviour of paddy straw at varied moisture contents after crop harvesting, we created a flexible paddy straw specimen model based on the Hertz–Mindlin with parallel contact bonding model using the discrete element model (DEM) approach. The research presented in this study aims to investigate a new approach called Definitive Screening Design (DSD) for parameterizing and screening the most significant parameters of the DEM model. This investigation will specifically focus on the three-point bending test as a means of parameterization, and the shear plate test will be used for validation purposes. In addition, the most influential DEM parameters were optimized using another Design of Experiments approach called Central Composite Design. The findings from the DSD indicated that parameters such as bonded disk scale, normal stiffness, and shear stiffness have the highest impact on the bending force, while the coefficient of static friction (Straw-Steel) has the least effect. The three bonding parameters were respectively calibrated with the loading rate (0.42, 0.5, and 0.58 mm s<jats:sup>−1</jats:sup>) and a good agreement between actual and simulated shear force at moisture content M<jats:sub>1</jats:sub>—35 ± 3.4%, M<jats:sub>2</jats:sub>—24 ± 2.2% and M<jats:sub>3</jats:sub>—17 ± 2.6%. Modelled stem helps simulate the straw with low error and increases the accuracy of the simulation. The validated model, with an average relative error of 5.43, 7.63, and 8.86 per cent, produced reasonable agreement between measured and simulated shear force value and loading rate.</jats:p>

Topics

• experiment
• simulation
• steel
• composite
• bending flexural test
• discrete element method