Equivalent effect model. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Simulation model. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Displacement of soil particles in z direction. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Simulation parameters [13]. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Displacement of soil particles in x direction. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Soil particle simulation model. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Multi-factor experimental results. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Frequency-displacement curve. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Bonding bonds between soil particles. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Test factor coding. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Displacement of soil particles in y direction. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Frame structure and key dimensions. by Xueting Ma (390540)

“…The number of soil disturbance particles decreases with an increase in forward speed, increases with a larger radius of the convex structure, and slightly decreases with an increase in the lugs angle. …”

Selection of soil particle sampling points. by Xueting Ma (390540)

Static analysis results. by Xueting Ma (390540)

Mouldboard plough body working resistance response surface. by Xueting Ma (390540)

Soil disturbance response surface curved surface. by Xueting Ma (390540)

Experimental design. by Adam M. Roth (19845864)

Experimental design. by Xueyan Lin (448667)

Untargeted metabolomic profiling of sera from Omicron variant cases of the discovery cohort. by Feng Gao (3548)

“…<p>Untargeted metabolomic profiling using sera from HC, OC, and RC. <b>a)</b> Patients and study design; <b>b)</b> principal component analysis (PCA) of untargeted metabolomics among the three groups; <b>c)</b> Heat maps generated by 108 metabolites with VIP > 1 and FDR < 0.01 in orthogonal partial least squares discriminant analysis; <b>d)</b> volcano plots highlighted the serum metabolites that were increased (red) or decreased (blue) in the OC versus HC, OC versus RC and RC versus HC, with FDR < 0.01, log2 FC > 2 or <−2, VIP > 1. …”

Optimized design nodes of different parameters. by Shan Gao (46743)