Any applicable errata are included with individual documents at the time of purchase. Please choose a product format. Background information on design theories is followed by discussion of the types of slabs, soil-support systems, loadings, and jointing. Equivalent tensile stress design. Post-tensioning to minimize cracking. Design examples are given. Errata are not included for collections or sets of documents such as the ACI Collection.
|Date Added:||4 November 2009|
|File Size:||33.79 Mb|
|Operating Systems:||Windows NT/2000/XP/2003/2003/7/8/10 MacOS 10/X|
|Price:||Free* [*Free Regsitration Required]|
Design of Two-Way Slabs. Appendix 5—Design example using shrinkagecompensating concrete. Post a Comment aprieztmkrdezign. Chapter 11—Fiber-reinforced concrete slabs-on-ground. The full and complete returned product will be accepted if returned within 60 aci 360r-10 of receipt and in salable condition.
Design methods are given for unreinforced concrete, reinforced concrete, shrinkage-compensating concrete, post-tensioned concrete, fiber-reinforced concrete slabs-on-ground, and slabs-on-ground in refrigerated buildings, followed by information on shrinkage and curling. Appendix 1—Design examples using Portland Cement Association method.
ACI 360R-10 Guide to Design of Slabs-on-Ground
Chapter 8—Design of slabs 306r-10 for crack-width control. Design Guide for Twisting Moments in Slabs. Post-tensioning to minimize cracking. Even with the best slab designs and proper construction, it is unrealistic to expect crack-free and curl-free floors. Background information on aci 360r-10 theories is followed by discussion of the types of slabs, soil-support systems, loadings, and jointing. Appendix 7—Construction document information.
ACI R Guide to Design of Slabs-on-Ground
Chapter 14—Reducing effects of slab shrinkage and curling. It addresses the planning, design, and detailing of slabs.
Recent Developments in Two-Way Slabs: Chapter 4—Soil support systems for slabs-on-ground. Appendix 6—Design examples for steel FRC acu ground using yield line method. Appendix 4—Slab design using post-tensioning. Aci 360r-10 9—Design of shrinkage-compensating concrete slabs.
Design examples are given. Equivalent tensile stress design. Chapter 12—Structural slabs-on-ground supporting building code loads. Chapter 10—Design of post-tensioned slabs-on-ground.
Download ACI R Guide to Design of Slabs-on-Ground Pdf | Engineer Cafe
Design, Analysis, Construction, and Evaluation. These items are not eligible for return. For a listing of and access to all product errata, visit the Aci 360r-10 page. This guide presents information on the design of slabs-on-ground, primarily industrial floors.
Aci 360r-10 guide presents information on the design of slabs-on-ground, primarily industrial floors. Please choose a product format.
Chapter 7—Design of unreinforced concrete slabs. Appendix 2—Slab thickness design by Wire Reinforcement Institute method. Chapter 13—Design of slabs for refrigerated facilities. Advantages and disadvantages of these slab design methods are provided, including the ability of some slab designs to minimize cracking and curling more than others.
Background aci 360r-10 on design theories is followed by discussion of the types of slabs, soil-support systems, loadings, and jointing.