Mass Concrete: Difference between revisions

Latest revision as of 21:10, 11 July 2023

"Mass concrete is defined as any volume of concrete with dimensions large enough to require that measures be taken to cope with generation of heat from hydration of the cementitious materials and attendant volume change to minimize cracking. A gravity dam and a navigation lock are examples of massive structures." ^[1]

One key consideration of mass concrete is the control of the heat of hydration to reduce potential for uncontrolled cracking due to thermal expansion and subsequent contraction. This is most often accomplished by limiting the volume/dimensions of each specific pour and allowing a curing period prior to subsequent pours. Where this is not feasible, additional cooling methods may be employed.

Best Practices Resources

Standard Practice for Concrete for Civil Works Structures (EM 1110-2-2000), USACE

Trainings

On-Demand Webinar: Concrete Construction - Issues and Remedies

On-Demand Webinar: Fundamentals of Concrete Construction Inspections for Dams and Appurtenant Structures

On-Demand Webinar: Uplift and Drainage for Concrete Dams and Spillways

Citations:

↑ Standard Practice for Concrete for Civil Works Structures (EM 1110-2-2000), USACE, 1994

Revision ID: 7184
Revision Date: 07/11/2023

[EM2000-1] Standard Practice for Concrete for Civil Works Structures (EM 1110-2-2000), USACE, 1994

[1]

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+"Mass concrete is defined as any volume of concrete with dimensions large enough to require that measures be taken to cope with generation of heat from hydration of the cementitious materials and attendant volume change to minimize cracking. A gravity dam and a [[navigation]] lock are examples of massive structures." <ref name="EM2000">[[Standard Practice for Concrete for Civil Works Structures (EM 1110-2-2000)|Standard Practice for Concrete for Civil Works Structures (EM 1110-2-2000), USACE, 1994]]</ref>
+One key consideration of mass concrete is the control of the heat of hydration to reduce potential for uncontrolled cracking due to thermal expansion and subsequent contraction.  This is most often accomplished by limiting the volume/dimensions of each specific pour and allowing a curing period prior to subsequent pours.  Where this is not feasible, additional cooling methods may be employed.
 ==Best Practices Resources==
-{{Document Icon}} [[Standard Practice for Concrete for Civil Works Structures (EM 1110-2-2000)|Standard Practice for Concrete for Civil Works Structures (EM 1110-2-2000) (U.S. Army Corps of Engineers)]]
+{{Document Icon}} [[Standard Practice for Concrete for Civil Works Structures (EM 1110-2-2000) | Standard Practice for Concrete for Civil Works Structures (EM 1110-2-2000), USACE]]
+==Trainings==
+{{Video Icon}} [[On-Demand Webinar: Concrete Construction - Issues and Remedies]]
+{{Video Icon}} [[On-Demand Webinar: Fundamentals of Concrete Construction Inspections for Dams and Appurtenant Structures]]
+{{Video Icon}} [[On-Demand Webinar: Uplift and Drainage for Concrete Dams and Spillways]]
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