Rutting test results. by Yining Wang (432154)

“…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%. …”

Technical Specifications of ZM Modifier. by Yining Wang (432154)

“…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%. …”

Gradation curve of asphalt mixture. by Yining Wang (432154)

“…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%. …”

Rutting test machine. by Yining Wang (432154)

“…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%. …”

Basic performance indicators of base asphalt. by Yining Wang (432154)

“…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%. …”

Rutting specimen. by Yining Wang (432154)

“…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%. …”

Orthogonal experimental design. by Yining Wang (432154)

“…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 results. by Yining Wang (432154)

“…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%. …”

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

“…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)

“…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)

“…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)

“…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)

“…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)

“…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%. …”

Cis-acting elements in the promoter of PtWRKYs. by Yuzhao Ma (12840632)

“…Under cadmium toxicity, <i><i>the plant</i></i> height of <i><i>PsnWRKY95</i></i>-overexpressing plants increased by 16%−26% compared with the wild type (WT), the root length increased by 12%−27% compared with WT, the peroxidase (POD) activity was 28%−51% higher than that of WT, the chlorophyll content increased by 15%−29% compared with WT, the malondialdehyde (MDA) content decreased by 13%−32% compared with WT, and the electrical conductivity decreased by 9%−20% compared with WT, with the expression levels of <i>POD</i> and <i>HMA1</i> in the overexpressing plants also being higher than those in WT. …”

The Ka/Ks values of PtWRKY paralogous gene pairs. by Yuzhao Ma (12840632)

“…Under cadmium toxicity, <i><i>the plant</i></i> height of <i><i>PsnWRKY95</i></i>-overexpressing plants increased by 16%−26% compared with the wild type (WT), the root length increased by 12%−27% compared with WT, the peroxidase (POD) activity was 28%−51% higher than that of WT, the chlorophyll content increased by 15%−29% compared with WT, the malondialdehyde (MDA) content decreased by 13%−32% compared with WT, and the electrical conductivity decreased by 9%−20% compared with WT, with the expression levels of <i>POD</i> and <i>HMA1</i> in the overexpressing plants also being higher than those in WT. …”

RNA-seq data of WRKY genes. by Yuzhao Ma (12840632)

“…Under cadmium toxicity, <i><i>the plant</i></i> height of <i><i>PsnWRKY95</i></i>-overexpressing plants increased by 16%−26% compared with the wild type (WT), the root length increased by 12%−27% compared with WT, the peroxidase (POD) activity was 28%−51% higher than that of WT, the chlorophyll content increased by 15%−29% compared with WT, the malondialdehyde (MDA) content decreased by 13%−32% compared with WT, and the electrical conductivity decreased by 9%−20% compared with WT, with the expression levels of <i>POD</i> and <i>HMA1</i> in the overexpressing plants also being higher than those in WT. …”

Analysis of PtWRKY genes. by Yuzhao Ma (12840632)

“…Under cadmium toxicity, <i><i>the plant</i></i> height of <i><i>PsnWRKY95</i></i>-overexpressing plants increased by 16%−26% compared with the wild type (WT), the root length increased by 12%−27% compared with WT, the peroxidase (POD) activity was 28%−51% higher than that of WT, the chlorophyll content increased by 15%−29% compared with WT, the malondialdehyde (MDA) content decreased by 13%−32% compared with WT, and the electrical conductivity decreased by 9%−20% compared with WT, with the expression levels of <i>POD</i> and <i>HMA1</i> in the overexpressing plants also being higher than those in WT. …”

The primer sequences for RT-qPCR. by Yuzhao Ma (12840632)

“…Under cadmium toxicity, <i><i>the plant</i></i> height of <i><i>PsnWRKY95</i></i>-overexpressing plants increased by 16%−26% compared with the wild type (WT), the root length increased by 12%−27% compared with WT, the peroxidase (POD) activity was 28%−51% higher than that of WT, the chlorophyll content increased by 15%−29% compared with WT, the malondialdehyde (MDA) content decreased by 13%−32% compared with WT, and the electrical conductivity decreased by 9%−20% compared with WT, with the expression levels of <i>POD</i> and <i>HMA1</i> in the overexpressing plants also being higher than those in WT. …”

Western blotting identification of expression level of pyroptosis protein Gasdermin D (GSDMD) in IIL ESP-treated Caco-2 cells. by Qi Qi Lu (17721401)