Fatigue life under different stress ratios. by Yining Wang (432154)

“…Orthogonal experiments determined the optimal mixing parameters as a mixing temperature of 170°C, dry mixing time of 180 s, and wet mixing time of 240 s. Experimental results show that the ZM modifier significantly improves the dynamic stability and rutting resistance of the mixture, with dynamic stability increasing to 5245 and rut depth decreasing to 2.26 mm at a dosage of 0.5%. …”

Freeze–thaw splitting test results. by Yining Wang (432154)

“…Orthogonal experiments determined the optimal mixing parameters as a mixing temperature of 170°C, dry mixing time of 180 s, and wet mixing time of 240 s. Experimental results show that the ZM modifier significantly improves the dynamic stability and rutting resistance of the mixture, with dynamic stability increasing to 5245 and rut depth decreasing to 2.26 mm at a dosage of 0.5%. …”

Preparation flowchart of ZM-modified asphalt. by Yining Wang (432154)

“…Orthogonal experiments determined the optimal mixing parameters as a mixing temperature of 170°C, dry mixing time of 180 s, and wet mixing time of 240 s. Experimental results show that the ZM modifier significantly improves the dynamic stability and rutting resistance of the mixture, with dynamic stability increasing to 5245 and rut depth decreasing to 2.26 mm at a dosage of 0.5%. …”

Immersion Marshall test equipment and specimens. by Yining Wang (432154)

“…Orthogonal experiments determined the optimal mixing parameters as a mixing temperature of 170°C, dry mixing time of 180 s, and wet mixing time of 240 s. Experimental results show that the ZM modifier significantly improves the dynamic stability and rutting resistance of the mixture, with dynamic stability increasing to 5245 and rut depth decreasing to 2.26 mm at a dosage of 0.5%. …”

Strength test results of semi-circular specimens. by Yining Wang (432154)

“…Orthogonal experiments determined the optimal mixing parameters as a mixing temperature of 170°C, dry mixing time of 180 s, and wet mixing time of 240 s. Experimental results show that the ZM modifier significantly improves the dynamic stability and rutting resistance of the mixture, with dynamic stability increasing to 5245 and rut depth decreasing to 2.26 mm at a dosage of 0.5%. …”

Bending test results of beam specimens. by Yining Wang (432154)

“…Orthogonal experiments determined the optimal mixing parameters as a mixing temperature of 170°C, dry mixing time of 180 s, and wet mixing time of 240 s. Experimental results show that the ZM modifier significantly improves the dynamic stability and rutting resistance of the mixture, with dynamic stability increasing to 5245 and rut depth decreasing to 2.26 mm at a dosage of 0.5%. …”

SAR distribution in the cerebrum comparison before and after antenna miniaturized (Unit: W/kg). by Wen-Ying Zhou (10049543)

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Comparison of S-parameter and gain simulation of antennas. by Wen-Ying Zhou (10049543)

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Toroidal metamaterials. by Wen-Ying Zhou (10049543)

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Peak SAR values of different head tissues at different frequencies. by Wen-Ying Zhou (10049543)

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Human tissue dielectric parameters. by Wen-Ying Zhou (10049543)

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SAR distribution in the cerebellum comparison before and after antenna miniaturized (Unit: W/kg). by Wen-Ying Zhou (10049543)

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Fabrication of miniaturized MIMO mobile terminal antenna. by Wen-Ying Zhou (10049543)

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Performance comparison of miniaturized mobile terminal MIMO antenna. by Wen-Ying Zhou (10049543)

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SAR distribution in the brainstem comparison before and after antenna miniaturized (Unit: W/kg). by Wen-Ying Zhou (10049543)

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Human head modeling. by Wen-Ying Zhou (10049543)

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Simulated and measured S-parameters comparison of miniaturized MIMO mobile terminal antenna. by Wen-Ying Zhou (10049543)

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Variations in SAR for individual organizations. by Wen-Ying Zhou (10049543)

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Geometry and structure of the MIMO mobile terminal antenna. by Wen-Ying Zhou (10049543)

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SAR distribution in the skull comparison before and after antenna miniaturized (Unit: W/kg). by Wen-Ying Zhou (10049543)

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