WEO filtration device. by Yi Wang (32470)

Subjects: “…diffusion coefficients increased…”

MSD simulation results in asphalt fractions. by Yi Wang (32470)

Subjects: “…diffusion coefficients increased…”

Simulation of asphalt density. by Yi Wang (32470)

Subjects: “…diffusion coefficients increased…”

Performance index of 70# MA. by Yi Wang (32470)

Subjects: “…diffusion coefficients increased…”

Original data. by Yi Wang (32470)

Subjects: “…diffusion coefficients increased…”

SARA test results for different types of asphalt. by Yi Wang (32470)

Subjects: “…diffusion coefficients increased…”

Basic properties of asphalt at different aging times. by Yi Wang (32470)

Subjects: “…diffusion coefficients increased…”

Basic performance results of aged asphalt regenerated from WEO. by Yi Wang (32470)

Subjects: “…diffusion coefficients increased…”

Microscopic morphology of different asphalts (200 × , 1000 × , and 1500×). by Yi Wang (32470)

Subjects: “…diffusion coefficients increased…”

FTIR test results of asphalt. by Yi Wang (32470)

Subjects: “…diffusion coefficients increased…”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Additionally, higher surface concavity ratios suppress spreading and reduce residence time for a given We. For instance, the compound droplet on a concave surface exhibited a 30% reduction in contact time compared to its flat counterpart. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Additionally, higher surface concavity ratios suppress spreading and reduce residence time for a given We. For instance, the compound droplet on a concave surface exhibited a 30% reduction in contact time compared to its flat counterpart. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Additionally, higher surface concavity ratios suppress spreading and reduce residence time for a given We. For instance, the compound droplet on a concave surface exhibited a 30% reduction in contact time compared to its flat counterpart. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Additionally, higher surface concavity ratios suppress spreading and reduce residence time for a given We. For instance, the compound droplet on a concave surface exhibited a 30% reduction in contact time compared to its flat counterpart. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Additionally, higher surface concavity ratios suppress spreading and reduce residence time for a given We. For instance, the compound droplet on a concave surface exhibited a 30% reduction in contact time compared to its flat counterpart. …”

IMU raw data: (a) 3-DoF accelerometer data (b) 3-DoF gyroscope data. by Saravanan Manoharan (21273304)

Subjects:

Parameter estimates of linear mixed effects models for juvenile <i>M</i>. <i>mercenaria</i>, juvenile <i>M</i>. <i>arenaria</i> and juvenile <i>A</i>. <i>islandica</i> mean shell c... by Teagan McMahon (20108036)

Subjects:

Study flow chart. by Raymond Atwine (18574812)

Subjects:

Bar graph showing proportion of NADCs. by Raymond Atwine (18574812)

Subjects:

Baseline characteristics of study participants. by Raymond Atwine (18574812)

Subjects: