Data Sheet 2_FOXA2/miR-148a-3p/SMURF2 signaling feed-forward loop alleviates spinal cord ischemia-reperfusion injury-induced neuropathic pain by modulating microglia polarization i... by Xiaotong Hao (20650807)

“…</p>Results<p>SCIRI significantly reduced mechanical and thermal pain thresholds in rats and promoted microglial polarization, with a concomitant decrease in SIRT1 expression and an increase in SMURF2 expression in microglial cells. …”

Hierarchical Copper Nanostructures with Patterned Nanocone Islands for Enhanced FC-72 Boiling Heat Transfer Performance by Zhiqiang Gao (174499)

“…Compared to flat copper surfaces, the patterned nanocone-constituted islands interface exhibited a 144.45% increase in maximum HTC and 42.9% reduction in ONB superheat (6.77 K), as well as a decreased CHF temperature. …”

(a) Biogas yield as a function of temperature for both the integrated system (bio-oil and biochar combined with anaerobic digestion) and the control (microbial inoculum without pyr... by Ning Zuo (17295415)

Fig 2 - by Muhammad Naeem Sattar (19828497)

Results comparison and error analysis. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

ABR pipe buried experimental design. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Properties of soil. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Design of experimental loading. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Loading pattern. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Finite element simulation results. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Constitutive curve of ABR pipe material. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Location of vehicle. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Geometric model and meshing of buried ABR pipe. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Grading curve of medium sand. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

ABR pipe diameter-thickness ratio. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Data of experiment and numerical results. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Circumferential stress nephogram of ABR pipe. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Mohr-Coulomb strength theory model. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

The performance parameters of ABR pipe. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”

Effects of traffic loading on buried ABR pipe. by Changxi Shan (22493205)

“…The circumferential stress of the ABR pipe increased with the growth of internal pressure and traffic load, and the influence of internal pressure was significantly higher than that of traffic load. Additionally, with the increased pipe diameter to thickness ratio, the circumferential stress of the ABR pipe was significantly decreased. …”