Search alternatives:
step decrease » sizes decrease (Expand Search), we decrease (Expand Search)
teer decrease » mean decrease (Expand Search), greater decrease (Expand Search)
a decrease » _ decrease (Expand Search), _ decreased (Expand Search), _ decreases (Expand Search)
step decrease » sizes decrease (Expand Search), we decrease (Expand Search)
teer decrease » mean decrease (Expand Search), greater decrease (Expand Search)
a decrease » _ decrease (Expand Search), _ decreased (Expand Search), _ decreases (Expand Search)
-
4481
Compressibility modulus of improved red clay.
Published 2025“…The indicate reveal that: (1) the addition of RoadyesTM alone results in a reduction in both the liquid limit and plasticity index, while simultaneously increasing cohesion and unconfined compressive strength; (2) Red clay treated with 0.25% RoadyesTM demonstrates the highest compression index, indicating optimal compressibility.; (3) The combination of RoadyesTM with cement and lime significantly enhances the mechanical properties of the red clay. …”
-
4482
Experimental Design.
Published 2025“…The indicate reveal that: (1) the addition of RoadyesTM alone results in a reduction in both the liquid limit and plasticity index, while simultaneously increasing cohesion and unconfined compressive strength; (2) Red clay treated with 0.25% RoadyesTM demonstrates the highest compression index, indicating optimal compressibility.; (3) The combination of RoadyesTM with cement and lime significantly enhances the mechanical properties of the red clay. …”
-
4483
Compressive strain of improved red clay.
Published 2025“…The indicate reveal that: (1) the addition of RoadyesTM alone results in a reduction in both the liquid limit and plasticity index, while simultaneously increasing cohesion and unconfined compressive strength; (2) Red clay treated with 0.25% RoadyesTM demonstrates the highest compression index, indicating optimal compressibility.; (3) The combination of RoadyesTM with cement and lime significantly enhances the mechanical properties of the red clay. …”
-
4484
-
4485
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4486
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4487
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4488
Roadyes-modified red clay water content limits.
Published 2025“…The indicate reveal that: (1) the addition of RoadyesTM alone results in a reduction in both the liquid limit and plasticity index, while simultaneously increasing cohesion and unconfined compressive strength; (2) Red clay treated with 0.25% RoadyesTM demonstrates the highest compression index, indicating optimal compressibility.; (3) The combination of RoadyesTM with cement and lime significantly enhances the mechanical properties of the red clay. …”
-
4489
<i>e-lgp</i> curve of improved red clay.
Published 2025“…The indicate reveal that: (1) the addition of RoadyesTM alone results in a reduction in both the liquid limit and plasticity index, while simultaneously increasing cohesion and unconfined compressive strength; (2) Red clay treated with 0.25% RoadyesTM demonstrates the highest compression index, indicating optimal compressibility.; (3) The combination of RoadyesTM with cement and lime significantly enhances the mechanical properties of the red clay. …”
-
4490
Influence of Roadyes on red clay shear strength.
Published 2025“…The indicate reveal that: (1) the addition of RoadyesTM alone results in a reduction in both the liquid limit and plasticity index, while simultaneously increasing cohesion and unconfined compressive strength; (2) Red clay treated with 0.25% RoadyesTM demonstrates the highest compression index, indicating optimal compressibility.; (3) The combination of RoadyesTM with cement and lime significantly enhances the mechanical properties of the red clay. …”
-
4491
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4492
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4493
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4494
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4495
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4496
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4497
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4498
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4499
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”
-
4500
Multiomics Combined with Expression Pattern Analysis Reveals the Regulatory Response of Key Genes in Potato Jasmonic Acid Signaling Pathways to Cadmium Stress
Published 2024“…As a negative regulatory transcription factor of the JA signaling pathway, <i>StJAZ14</i> exhibited a decreasing trend under Cd stress. …”