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Mechanical Properties of Corn Stalks and Behavior of Particles During Compression Process Based on Discrete Element Method

Author

Listed:
  • Junming Hou

    (College of Engineering, Shenyang Agricultural University, 120 Dongling Road, Shenhe District, Shenyang 110866, China)

  • Zheng Li

    (College of Engineering, Shenyang Agricultural University, 120 Dongling Road, Shenhe District, Shenyang 110866, China)

  • Yue Ma

    (College of Engineering, Shenyang Agricultural University, 120 Dongling Road, Shenhe District, Shenyang 110866, China)

  • Yandong Xu

    (College of Engineering, Shenyang Agricultural University, 120 Dongling Road, Shenhe District, Shenyang 110866, China)

  • Hao Ding

    (College of Engineering, Shenyang Agricultural University, 120 Dongling Road, Shenhe District, Shenyang 110866, China)

  • Chenglong Li

    (College of Engineering, Shenyang Agricultural University, 120 Dongling Road, Shenhe District, Shenyang 110866, China)

  • Chenghao Li

    (College of Engineering, Shenyang Agricultural University, 120 Dongling Road, Shenhe District, Shenyang 110866, China)

  • Qiang Tang

    (College of Engineering, Shenyang Agricultural University, 120 Dongling Road, Shenhe District, Shenyang 110866, China)

  • Minghui Liu

    (College of Engineering, Shenyang Agricultural University, 120 Dongling Road, Shenhe District, Shenyang 110866, China)

Abstract

The mechanical properties of corn stalks play a crucial role in the design of packing and harvesting equipment. Complete and damaged stalks were used to simulate stalk mixtures during the collection process. This study measured the mechanical characteristics of complete stalks and damaged stalks through experiments. A discrete element method (DEM) model was established which incorporated both the skin and core tissues of the samples. The compression behavior of the stalks was analyzed with the EDEM 2022 software. The results indicate that the complete stalks exhibited both a plastic and second plastic stage, while the damaged stalks fractured immediately upon reaching peak stress. The models of the complete and damaged stalks were validated through a radial compression test. An analysis of the relative errors and particle velocities enabled the quantification of experimental accuracy, ensured the reliability of the experimental data, and revealed the dynamic behavior mechanism of the materials under mechanical loading. The simulation results show that the maximum compression force is 254.11 N and 33.1 N, with a 1.5% and 12.3% relative error compared to the experiment. The particle velocity in the core part is the largest, which is 9.83 × 10 4 mm/s and 3.51 × 10 5 mm/s. This study can provide a theoretical reference for researching the mechanical behavior and compressive failure of stalks.

Suggested Citation

  • Junming Hou & Zheng Li & Yue Ma & Yandong Xu & Hao Ding & Chenglong Li & Chenghao Li & Qiang Tang & Minghui Liu, 2025. "Mechanical Properties of Corn Stalks and Behavior of Particles During Compression Process Based on Discrete Element Method," Agriculture, MDPI, vol. 15(17), pages 1-28, August.
    • Handle: RePEc:gam:jagris:v:15:y:2025:i:17:p:1824-:d:1734117
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    References listed on IDEAS

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    1. Hongbo Zhao & Yuxiang Huang & Zhengdao Liu & Wenzheng Liu & Zhiqi Zheng, 2021. "Applications of Discrete Element Method in the Research of Agricultural Machinery: A Review," Agriculture, MDPI, vol. 11(5), pages 1-26, May.
    2. Weiquan Fang & Xinzhong Wang & Dianlei Han & Xuegeng Chen, 2022. "Review of Material Parameter Calibration Method," Agriculture, MDPI, vol. 12(5), pages 1-17, May.
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