Ding Qishuo
Nanjing Agricultural University
11 Papers
20 Citations
Ding Qishuo is an academic researcher from Nanjing Agricultural University. The author has contributed to research in topics: Soil water & Soil gradation. The author has an hindex of 3, co-authored 10 publications.
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Papers
Finite element simulation of soil failure patterns under soil bin and field testing conditions
A. A. Tagar,A. A. Tagar,Ji Changying,Jan Adamowski,Julien Malard,Chen Shi Qi,Ding Qishuo,N.A. Abbasi +7 more
TL;DR: In this paper, the authors used finite element modeling (FEM) for the simulation of the soil failure pattern as linked to consistency limits and sticky point of soil, comparing the simulation results with soil failure patterns observed in the soil bin and in the field.
Forces and straw cutting performance of double disc furrow opener in no-till paddy soil.
TL;DR: The size of the furrow opener, operating depth and the forwarding speed had significant effects on the horizontal and vertical forces, and the straw cutting performance of different sized furrow openers in no-till paddy soil conditions.
Implications of variability in soil structures and physio-mechanical properties of soil after different failure patterns
TL;DR: In this article, the authors investigated soil structures and several soil physical and mechanical properties associated with different failure patterns in two agricultural soils (upland and paddy) and found that brittle failure is the most desirable type of soil failure pattern to achieve appropriate tilth.
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Analysis of relationship between head rice yield and breaking force of Japonica rice grains at different maturity stages
TL;DR: In this paper , the optimal harvest time with maximum HRY is only determined using the rice moisture content (MC) at present, the rice MC is the result of the cultivation, environmental, and meteorological conditions, but it does not represent the real physical properties of rice grains, this is obviously unsatisfactory, instead HRY should be closely related to physical properties such as breaking force.