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Plataforma del Hormigón

Concretando un futuro sostenible

La plataforma “Concrete Sustainability Hub” (CSHub) del MIT es un grupo dedicado e interdisciplinario de investigadores de diferentes departamentos del Instituto Tecnológico de Massachusetts (MIT), que trabaja en la Ciencia, la Ingeniería y la Economía relacionadas al hormigón y la infraestructura. Desde 2009, el MIT CSHub ha reunido líderes del ámbito académico, de la industria y del gobierno de los Estados Unidos de Norteamérica, para desarrollar innovaciones utilizando un enfoque holístico que llevará a viviendas, edificios e infraestructuras más durables y sostenibles en ambientes cada vez más demandantes.

TECNOLOGÍA DEL HORMIGÓN

CSHub Examining Freeze-Thaw Damage at the Microscopic Scale
CSHub Bottom-up Modeling of ASR in Concrete
CSHub The Impact of Changes to Surface Albedo on Radiative Forcing
CSHub City geometry and Urban Heat Island
CSHub Modeling of Drying Shrinkage
CSHub Gorilla Cement: Tougher Yet Greener
CSHub Breakthrough in Clinker Grinding
CSHub Improving Concrete Sustainability through Alite and Belite Reactivity
CSHub Modeling C3S Impurities Using Cluster Expansion
CSHub Resilience at High Temperatures
CSHub Early Hydration: A local Business
CSHub Controlling the Reactivity of Fly Ash
CSHub Early Age Fracture Resistance
CSHub Nano-Engineering Creep
CSHub Clinker Grindability-Microstructure Matters
CSHub Predicting C-S-H Aging
CSHub Nucleation Seeding of Alkali Activated Paste
CSHub Properties of Polymorphs of Belite
CSHub Mesoscale Modeling of Sorption Hysteresis
CSHub When Fracture Stems From the Atom
CSHub Energy Management-City Texture Matters
CSHub Quantum Clinker Engineering
CSHub Induction Period in Alite Hydration
CSHub C-S-H Texture From Sorption Isotherms
CSHub Validating Effects of Cement Paste Composition on Mechanics
CSHub Visualizing Hydration Products
CSHub Application of Rietveld
CSHub Aluminum and Sulfate Doped Belite
CSHub Gaining Strength by Splitting Water
CSHub Locking Radionuclides in Cement
CSHub Holding It Together - C-S-H Cohesion
CSHub Predicting Setting Times Bottom-Up
CSHub Why Wet C-S-H is Weak
CSHub When Concrete Takes (part of) the Heat
CSHub ReaxFF Hydration of Clinker Surfaces
CSHub Setting from Statistical Principles
CSHub Clinker Grinding at Breaking Point
CSHub What’s in Your Concrete? (Part 2)
CSHub Clinker: When Impurities Matter
CSHub What’s in Your Concrete? (Part 1)
CSHub Toughness Simply by Scratching
CSHub C-S-H: Water, Water Everywhere
CSHub The Hidden Forces of Setting
CSHub Locking Mercury into Concrete
CSHub Fly Ash is Critical For C-A-S-H

 

PAVIMENTOS

CSHub Examining Freeze-Thaw Damage at the Microscopic Scale
CSHub Two-Phase Model of Pavement Fracture
CSHub The Impact of Changes to Surface Albedo on Radiative Forcing
CSHub Material Price Projections for Pavement Life Cycle Cost Analysis
CSHub Estimating The Impact Of Competition
CSHub Developing a Network-Level Pavement Management Model
CSHub An Analysis of Concrete Joint Sawing
CSHub Analyzing Pavement-Vehicle Interaction through Bench-Top Experiments
CSHub Quantifying Climate Impacts of Surface Albedo
CSHub Modeling Freeze-Thaw in Concrete
CSHub Mapping Thermal Mass Benefit
CSHub A High-Level Analysis of Context-Dependent Albedo Effects
CSHub Mapping of Excess Fuel Consumption
CSHub Material-Specific Price Projections: Implementation
CSHub Impact of Use Phase in Pavement Life Cycle Assessment: A Case Study of Alternative Designs in Different Contexts
CSHub LCCA of Pavements: Scenario Analysis
CSHub PVI Mechanistic Model Gen II
CSHub Uncertainty in IRI Incorporated into LCA
CSHub Initial Cost Uncertainty in LCA
CSHub PVI Mechanistic Model Refined
CSHub Key Drivers of Uncertainty in Pavement LCA
CSHub Forecasting Prices with Limited Data
CSHub Potential Roadway Network Savings and PVI
CSHub Comparative Pavement LCAs With Uncertainty
CSHub Network, Pavements and Fuel Consumption
CSHub Modeling Uncertainty in LCCA
CSHub Roads: Smoothness Matters, But…
CSHub Accounting for Inflation in LCCA
CSHub When the Rubber Hits the Road
CSHub Adopting a Life-Cycle Perspective
CSHub Designing for Sustainable Pavements