机译:快速确定压实土的荷载-屈服屈服曲线的实验室方法
Center of Excellence in Civil Engineering, School of Civil Engineering, Suranaree Univ. of Technology, 111 University Ave., Muang District, Nakhon Ratchasima 30000, Thailand;
Center of Excellence in Civil Engineering, School of Civil Engineering, Suranaree Univ. of Technology, 111 University Ave., Muang District, Nakhon Ratchasima 30000, Thailand;
School of Civil Engineering, Suranaree Univ. of Technology, 111 University Ave., Muang District, Nakhon Ratchasima 30000, Thailand;
School of Civil Engineering, Suranaree Univ. of Technology, 111 University Ave., Muang District, Nakhon Ratchasima 30000, Thailand;
Dean of Faculty of Sustainable Development and Engineering, Geotechnical Laboratory, Soil Mechanics, Universite des Mascareignes, Mauritius, Rose Hill 71259, Mauritius;
Swinburne Univ. of Technology, Melbourne, VIC 3107, Australia;
机译:实验室电阻率与压实红土土壤堆积密度的相关性确定
机译:修正状态表面法确定非饱和土屈服曲线的形状
机译:土壤水保留曲线的测定:基于人工智能的方法
机译:用归一化旋转多屈服表面框架(NRMYSF)对压实热带残留砂土的土壤各向异性应力 - 应变预测
机译:压实完全分解的花岗岩填充物中土钉的实验室拉拔试验研究。
机译:测定土壤和与土壤混合的植物材料中糠醛的产量
机译:土壤水保留曲线的测定:基于人工智能的方法
机译:区域5放射性废物管理场地的不饱和区域特征。第1阶段,初步实验室研究,用于测定土壤水分特征曲线和非饱和水力传导率