质量(理念)
泥石流
电流(流体)
干扰
业务
知识流
环境资源管理
执行
环境规划
碎片
风险分析(工程)
环境科学
计算机科学
工程类
地理
政治学
知识管理
气象学
法学
哲学
物理
电气工程
认识论
热力学
作者
Robert Kostynick,Hadis Matinpour,Shravan Pradeep,Sarah Haber,Alban Sauret,Eckart Meiburg,Thomas Dunne,Paulo E. Arratia,D. J. Jerolmack
标识
DOI:10.1073/pnas.2209109119
摘要
Debris flows are dense and fast-moving complex suspensions of soil and water that threaten lives and infrastructure. Assessing the hazard potential of debris flows requires predicting yield and flow behavior. Reported measurements of rheology for debris flow slurries are highly variable and sometimes contradictory due to heterogeneity in particle composition and volume fraction ( ϕ ) and also inconsistent measurement methods. Here we examine the composition and flow behavior of source materials that formed the postwildfire debris flows in Montecito, CA, in 2018, for a wide range of ϕ that encapsulates debris flow formation by overland flow. We find that shear viscosity and yield stress are controlled by the distance from jamming, Δϕ=ϕm−ϕ , where the jamming fraction ϕm is a material parameter that depends on grain size polydispersity and friction. By rescaling shear and viscous stresses to account for these effects, the data collapse onto a simple nondimensional flow curve indicative of a Bingham plastic (viscoplastic) fluid. Given the highly nonlinear dependence of rheology on Δϕ , our findings suggest that determining the jamming fraction for natural materials will significantly improve flow models for geophysical suspensions such as hyperconcentrated flows and debris flows.
科研通智能强力驱动
Strongly Powered by AbleSci AI