Structural performance of reinforced strain hardening cementitious composite pipes during monotonic loading

•The ultimate load and deflection diameter ratios increase 200% and 340% for SHCCP relative to RMP.•SHCCP had thinner walls relative to normal reinforced concrete pipes.•SHCCP could endure higher tensile strain than RMP.•The multiple cracking characteristic of SHCC existed in SHCCP under TEBT. Strai...

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Published in	Construction & building materials Vol. 114; pp. 794 - 804
Main Authors	Li, Jun, Sun, Ming-qing, Hu, Ji-hong, Ruan, Rong-tao, Wang, Ying-jun
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.07.2016 Elsevier B.V
Subjects	Analysis Cement Fine cracks High ductility High strength Mechanical properties SHCC pipe Strength of materials TEBT United States China High ductility SHCC pipe TEBT High strength Fine cracks
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Abstract	•The ultimate load and deflection diameter ratios increase 200% and 340% for SHCCP relative to RMP.•SHCCP had thinner walls relative to normal reinforced concrete pipes.•SHCCP could endure higher tensile strain than RMP.•The multiple cracking characteristic of SHCC existed in SHCCP under TEBT. Strain Hardening Cementitious Composites (SHCC) is a kind of micromechanically designed cement-based composite with ultra high tensile ductility. It is used to fabricate an innovative concrete pipe to improve the structural performance of concrete pipe. The load-carrying capacity, deflection to diameter ratio, circumferential strain and crack patterns of reinforced SHCC pipes (SHCCP) in comparison to these of conventional reinforced cement mortar pipes (RMP) have been investigated under the Three-Edge Bearing Testing (TEBT). Results show that resulting from high tensile strength and high ductility of SHCC the ultimate load and deflection diameter ratios has increased about 200% and 340% for SHCCP relative to RMP. So, SHCCP had thinner walls relative to standard reinforced concrete pipes. SHCCP with diameter of 375mm and wall thickness of 25mm could bear the specified Dult for Class III pipes according to ASTM C76. SHCCP also possessed high residual load-carrying capacity. SHCCP could endure higher tensile strain than RMP. The maximum tensile strain of the crown and the springline of SHCCP reached 10,000με and 6400με. The multiple cracking characteristic of SHCC existed in SHCCP under TEBT. SHCCP exhibited high ductility so that it has the potential to be classified as a type of semi-rigid pipe.
AbstractList	•The ultimate load and deflection diameter ratios increase 200% and 340% for SHCCP relative to RMP.•SHCCP had thinner walls relative to normal reinforced concrete pipes.•SHCCP could endure higher tensile strain than RMP.•The multiple cracking characteristic of SHCC existed in SHCCP under TEBT. Strain Hardening Cementitious Composites (SHCC) is a kind of micromechanically designed cement-based composite with ultra high tensile ductility. It is used to fabricate an innovative concrete pipe to improve the structural performance of concrete pipe. The load-carrying capacity, deflection to diameter ratio, circumferential strain and crack patterns of reinforced SHCC pipes (SHCCP) in comparison to these of conventional reinforced cement mortar pipes (RMP) have been investigated under the Three-Edge Bearing Testing (TEBT). Results show that resulting from high tensile strength and high ductility of SHCC the ultimate load and deflection diameter ratios has increased about 200% and 340% for SHCCP relative to RMP. So, SHCCP had thinner walls relative to standard reinforced concrete pipes. SHCCP with diameter of 375mm and wall thickness of 25mm could bear the specified Dult for Class III pipes according to ASTM C76. SHCCP also possessed high residual load-carrying capacity. SHCCP could endure higher tensile strain than RMP. The maximum tensile strain of the crown and the springline of SHCCP reached 10,000με and 6400με. The multiple cracking characteristic of SHCC existed in SHCCP under TEBT. SHCCP exhibited high ductility so that it has the potential to be classified as a type of semi-rigid pipe.
Audience	Trade
Author	Li, Jun Sun, Ming-qing Hu, Ji-hong Ruan, Rong-tao Wang, Ying-jun
Author_xml	– sequence: 1 givenname: Jun surname: Li fullname: Li, Jun organization: Department of Engineering Structures and Mechanics, School of Science, Wuhan University of Technology, Wuhan 430070, PR China – sequence: 2 givenname: Ming-qing surname: Sun fullname: Sun, Ming-qing email: sunmingqing@yahoo.com, 657402638@qq.com organization: Department of Engineering Structures and Mechanics, School of Science, Wuhan University of Technology, Wuhan 430070, PR China – sequence: 3 givenname: Ji-hong surname: Hu fullname: Hu, Ji-hong organization: Department of Engineering Structures and Mechanics, School of Science, Wuhan University of Technology, Wuhan 430070, PR China – sequence: 4 givenname: Rong-tao surname: Ruan fullname: Ruan, Rong-tao organization: Department of Engineering Structures and Mechanics, School of Science, Wuhan University of Technology, Wuhan 430070, PR China – sequence: 5 givenname: Ying-jun surname: Wang fullname: Wang, Ying-jun organization: Department of Engineering Structures and Mechanics, School of Science, Wuhan University of Technology, Wuhan 430070, PR China
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Snippet	•The ultimate load and deflection diameter ratios increase 200% and 340% for SHCCP relative to RMP.•SHCCP had thinner walls relative to normal reinforced...
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SubjectTerms	Analysis Cement Fine cracks High ductility High strength Mechanical properties SHCC pipe Strength of materials TEBT
Title	Structural performance of reinforced strain hardening cementitious composite pipes during monotonic loading
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