Damage characterization and resilience optimization of reinforced concrete bridge piers under vehicle impact
Vehicle impact creates a dynamic loading condition at high strain rate exhibiting a unique interaction with the resisting structural members’ material properties. This interaction results in an increase in the material’s strength properties, a behavior captured in analysis via the computation of a s...
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| Published in | Advances in bridge engineering Vol. 3; no. 1; pp. 16 - 23 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Singapore
Springer Nature Singapore
01.12.2022
Springer Nature B.V SpringerOpen |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2662-5407 2662-5407 |
| DOI | 10.1186/s43251-022-00067-w |
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| Abstract | Vehicle impact creates a dynamic loading condition at high strain rate exhibiting a unique interaction with the resisting structural members’ material properties. This interaction results in an increase in the material’s strength properties, a behavior captured in analysis via the computation of a strength factor known as the dynamic increase factor (DIF). In reinforced concrete (RC) bridge piers, the concrete cover receives the initial impact from the vehicle, causing damage to this exterior surface. This makes the DIF related to the concrete material (i.e., the compressive DIF) particularly important in this initial phase of the crash scenario; thus, requiring an in-depth analysis into its effect on the performance of the pier during and after the impact event. This study initiates an investigation into the influence of the compressive DIF on the performance of RC piers under impact from vehicles classes. Of particular interest is estimating a post impact residual capacity for the pier, while also determining concrete strength parameters (compressive strength) that offers a good tradeoff between the shear capacity which primarily resists the impact loads, and the axial capacity which controls the principal serviceability of the pier. The resulting analyses, using a representative test pier, show that an optimal compressive strength of concrete will minimize loss in the residual capacity of the pier. The effect of the compressive DIF on other important design parameters, i.e., bond strength and development length is also scrutinized. This study will aid forensic structural engineers in scrutinizing the post impact concrete behavior and serviceability. |
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| AbstractList | Abstract Vehicle impact creates a dynamic loading condition at high strain rate exhibiting a unique interaction with the resisting structural members’ material properties. This interaction results in an increase in the material’s strength properties, a behavior captured in analysis via the computation of a strength factor known as the dynamic increase factor (DIF). In reinforced concrete (RC) bridge piers, the concrete cover receives the initial impact from the vehicle, causing damage to this exterior surface. This makes the DIF related to the concrete material (i.e., the compressive DIF) particularly important in this initial phase of the crash scenario; thus, requiring an in-depth analysis into its effect on the performance of the pier during and after the impact event. This study initiates an investigation into the influence of the compressive DIF on the performance of RC piers under impact from vehicles classes. Of particular interest is estimating a post impact residual capacity for the pier, while also determining concrete strength parameters (compressive strength) that offers a good tradeoff between the shear capacity which primarily resists the impact loads, and the axial capacity which controls the principal serviceability of the pier. The resulting analyses, using a representative test pier, show that an optimal compressive strength of concrete will minimize loss in the residual capacity of the pier. The effect of the compressive DIF on other important design parameters, i.e., bond strength and development length is also scrutinized. This study will aid forensic structural engineers in scrutinizing the post impact concrete behavior and serviceability. Vehicle impact creates a dynamic loading condition at high strain rate exhibiting a unique interaction with the resisting structural members’ material properties. This interaction results in an increase in the material’s strength properties, a behavior captured in analysis via the computation of a strength factor known as the dynamic increase factor (DIF). In reinforced concrete (RC) bridge piers, the concrete cover receives the initial impact from the vehicle, causing damage to this exterior surface. This makes the DIF related to the concrete material (i.e., the compressive DIF) particularly important in this initial phase of the crash scenario; thus, requiring an in-depth analysis into its effect on the performance of the pier during and after the impact event. This study initiates an investigation into the influence of the compressive DIF on the performance of RC piers under impact from vehicles classes. Of particular interest is estimating a post impact residual capacity for the pier, while also determining concrete strength parameters (compressive strength) that offers a good tradeoff between the shear capacity which primarily resists the impact loads, and the axial capacity which controls the principal serviceability of the pier. The resulting analyses, using a representative test pier, show that an optimal compressive strength of concrete will minimize loss in the residual capacity of the pier. The effect of the compressive DIF on other important design parameters, i.e., bond strength and development length is also scrutinized. This study will aid forensic structural engineers in scrutinizing the post impact concrete behavior and serviceability. |
| ArticleNumber | 16 |
| Author | Unobe, Ikwulono D. Roy, Suman Sorensen, Andrew |
| Author_xml | – sequence: 1 givenname: Suman orcidid: 0000-0003-3446-4666 surname: Roy fullname: Roy, Suman email: sumanroy74@gmail.com organization: Department of Civil and Environmental Engineering, Utah State University – sequence: 2 givenname: Ikwulono D. surname: Unobe fullname: Unobe, Ikwulono D. organization: Department of Civil and Environmental Engineering, Utah State University – sequence: 3 givenname: Andrew surname: Sorensen fullname: Sorensen, Andrew organization: Department of Civil and Environmental Engineering, Utah State University |
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| Copyright | The Author(s) 2022 The Author(s) 2022. This work is published under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. |
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| Keywords | Deterministic and resistance reduction method in determining shear and axial residual capacities Bond strength Development length Vehicle impact Damage index |
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| References | ZhouDLiRDamage assessment of bridge piers subjected to vehicle collisionAdv Struct Eng201821152270228110.1177/1369433218772344 Cook W (2014) “Bridge Failure Rates, Consequences, and Predictive Trends.” All Graduate Theses and Dissertations, 116. Roy S, Sorensen A (2021a) “Energy Based Model of Vehicle Impacted Reinforced Bridge Piers Accounting for Concrete Contribution to Resilience.” 18th International Probabilistic Workshop: IPW 2020, Springer Nature, 301. ACIACI 318–11: Building Code Requirements for Structural Concrete. American Concrete Institute2011 ZhouDLiRDamage assessment of bridge piers subjected to vehicle collisionAdv Struct Eng201821152270228110.1177/1369433218772344SAGE Publications Sage UK: London, England Joshi AS, Gupta LM. A simulation study on quantifying damage in bridge piers subjected to vehicle collisions. Int J Adv Struct Eng. 2012;4(1):1–13. SharmaHHurlebausSGardoniPPerformance-based response evaluation of reinforced concrete columns subject to vehicle impactInt J Impact Eng201243526210.1016/j.ijimpeng.2011.11.007 CaoRAgrawalAKEl-TawilSXuXWongWHeavy Truck Collision with Bridge Piers: Computational Simulation StudyJ Bridge Eng Am Soc Civil Eng20192464019052 SchultzGGSeegmillerLUtah Commercial Motor Vehicle Weigh-in-Motion Data Analysis and Calibration Methodology2006 SpyrakosCCVlassisAGSeismic retrofit of reinforced concrete bridgesWIT Transactions on the Built Environment, WITPress2003727988 AFDC (2018) “Vehicle Weight Classes & Categories.” Alternative Fuels Data Centre, U.S. Department of Energy. GomezNLAlipourAStudy of circular reinforced concrete bridge piers subjected to vehicular collisionsStruct Congress20142014577587 RoySUnobeIDSorensenADReliability assessment and sensitivity analysis of vehicle impacted reinforced concrete circular bridge piersStructures, Elsevier20223760061210.1016/j.istruc.2022.01.041 RoySUnobeISorensenADVehicle-Impact Damage of Reinforced Concrete Bridge Piers: S State-of-the Art ReviewJ Perform Constr Facil.20213550312100110.1061/(ASCE)CF.1943-5509.0001613American Society of Civil Engineers 2021 Malvar L J, Crawford J E (1998) Dynamic increase factors for concrete. Naval Facilities Engineering Service Center Port hueneme CA. AmeliMJPantelidesCPSeismic analysis of precast concrete bridge columns connected with grouted splice sleeve connectorsJ Struct Eng Am Soc Civil Eng201714324016176 Galambos T V, Ketter R L (1961) “Columns under combined bending and thrust, Proc. ASCE, 85 (EM2), p. 1,(1959),(also ASCE Trans. Vol. 126,(1961), Reprint No. 136 (61–22).” ManderJBPriestleyMJParkRTheoretical stress-strain model for confined concreteJ Struct Eng (United States)198811481804182610.1061/(ASCE)0733-9445(1988)114:8(1804) AuyeungSAlipourASainiDPerformance-based design of bridge piers under vehicle collisionEn Struct, Elsevier201919175276510.1016/j.engstruct.2019.03.005 AyyubBMMcCuenRHProbability, statistics, and reliability for engineers and scientists2016CRC Press10.1201/b121611029.62001 ACI committee 318Building code requirements for structural plain concrete (ACI 318.1-83) and commentaryInt J Cement Composites and Lightweight Concrete.19857160 NowakASCollinsKRReliability of structures2012CRC Press10.1201/b12913 ShiYHaoHLiZ-XNumerical derivation of pressure–impulse diagrams for prediction of RC column damage to blast loadsInt J Impact Eng Elsevier200835111213122710.1016/j.ijimpeng.2007.09.001 AASHTO M145–91“American Association Of State Highway And Transportation Officials.” Classification of Soils and Soil-Aggregate Mixtures for Highway Construction Purposes, 92008 FeyerabendMHard transverse impacts on steel beams and reinforced concrete beams1988GermanyUniversity of Karlsruhe (TH) HwangENowakASSimulation of Dynamic Load for BridgesJ Struct Eng199111751413143410.1061/(ASCE)0733-9445(1991)117:5(1413) WardhanaKHadiprionoFCAnalysis of recent bridge failures in the United StatesJ Perform Construct Facil Am Soc Civil Eng200317314415010.1061/(ASCE)0887-3828(2003)17:3(144) BathurstRJAllenTMNowakASCalibration concepts for load and resistance factor design (LRFD) of reinforced soil wallsCan Geotech J200845101377139210.1139/T08-063 Engineers A S of C (2013) “Minimum Design Loads for Buildings and Other Structures (ASCE/SEI 7–10).” American Society of Civil Engineers. AASHTOGuide Specifications for LRFD Seismic Bridge Design, 2nd Edition. American Association of State Highway and Transportation Officials2011Washington, DCAmerican Association of State Highway and Transportation Officials Roy S, Sorensen A (2021b) “A Reliability Based Crack Propagation Model for Reinforced Concrete Bridge Piers Subject to Vehicle Impact.” 18th International Probabilistic Workshop: IPW 2020, Springer Nature, 95. KowalskyMJDeformation limit states for circular reinforced concrete bridge columnsJ Struct Eng Am Soc Civil Eng20001268869878 Der KiureghianAAnalysis of structural reliability under parameter uncertaintiesProbab Eng Mech200823435135810.1016/j.probengmech.2007.10.011 ThomasRJSteelKSorensenADReliability analysis of circular reinforced concrete columns subject to sequential vehicular impact and blast loadingEng Struct Elsevier201816883885110.1016/j.engstruct.2018.04.099 VrouwenvelderTStochastic modelling of extreme action events in structural engineeringProbab Eng Mech200015110911710.1016/S0266-8920(99)00014-4 CC Spyrakos (67_CR30) 2003; 72 GG Schultz (67_CR27) 2006 67_CR11 67_CR13 S Roy (67_CR24) 2022; 37 E Hwang (67_CR17) 1991; 117 67_CR18 MJ Ameli (67_CR6) 2017; 143 M Feyerabend (67_CR14) 1988 67_CR15 D Zhou (67_CR34) 2018; 21 RJ Thomas (67_CR31) 2018; 168 AASHTO M145–91 (67_CR2) 2008 T Vrouwenvelder (67_CR32) 2000; 15 BM Ayyub (67_CR8) 2016 JB Mander (67_CR21) 1988; 114 S Auyeung (67_CR7) 2019; 191 AS Nowak (67_CR22) 2012 AASHTO (67_CR1) 2011 NL Gomez (67_CR16) 2014; 2014 ACI committee 318 (67_CR4) 1985; 7 ACI (67_CR3) 2011 67_CR20 67_CR5 K Wardhana (67_CR33) 2003; 17 RJ Bathurst (67_CR9) 2008; 45 67_CR26 S Roy (67_CR23) 2021; 35 67_CR25 MJ Kowalsky (67_CR19) 2000; 126 R Cao (67_CR10) 2019; 24 H Sharma (67_CR28) 2012; 43 A Der Kiureghian (67_CR12) 2008; 23 Y Shi (67_CR29) 2008; 35 D Zhou (67_CR35) 2018; 21 |
| References_xml | – reference: AASHTOGuide Specifications for LRFD Seismic Bridge Design, 2nd Edition. American Association of State Highway and Transportation Officials2011Washington, DCAmerican Association of State Highway and Transportation Officials – reference: SharmaHHurlebausSGardoniPPerformance-based response evaluation of reinforced concrete columns subject to vehicle impactInt J Impact Eng201243526210.1016/j.ijimpeng.2011.11.007 – reference: AyyubBMMcCuenRHProbability, statistics, and reliability for engineers and scientists2016CRC Press10.1201/b121611029.62001 – reference: Roy S, Sorensen A (2021b) “A Reliability Based Crack Propagation Model for Reinforced Concrete Bridge Piers Subject to Vehicle Impact.” 18th International Probabilistic Workshop: IPW 2020, Springer Nature, 95. – reference: ZhouDLiRDamage assessment of bridge piers subjected to vehicle collisionAdv Struct Eng201821152270228110.1177/1369433218772344 – reference: ZhouDLiRDamage assessment of bridge piers subjected to vehicle collisionAdv Struct Eng201821152270228110.1177/1369433218772344SAGE Publications Sage UK: London, England – reference: CaoRAgrawalAKEl-TawilSXuXWongWHeavy Truck Collision with Bridge Piers: Computational Simulation StudyJ Bridge Eng Am Soc Civil Eng20192464019052 – reference: HwangENowakASSimulation of Dynamic Load for BridgesJ Struct Eng199111751413143410.1061/(ASCE)0733-9445(1991)117:5(1413) – reference: GomezNLAlipourAStudy of circular reinforced concrete bridge piers subjected to vehicular collisionsStruct Congress20142014577587 – reference: SchultzGGSeegmillerLUtah Commercial Motor Vehicle Weigh-in-Motion Data Analysis and Calibration Methodology2006 – reference: ThomasRJSteelKSorensenADReliability analysis of circular reinforced concrete columns subject to sequential vehicular impact and blast loadingEng Struct Elsevier201816883885110.1016/j.engstruct.2018.04.099 – reference: AASHTO M145–91“American Association Of State Highway And Transportation Officials.” Classification of Soils and Soil-Aggregate Mixtures for Highway Construction Purposes, 92008 – reference: ACIACI 318–11: Building Code Requirements for Structural Concrete. American Concrete Institute2011 – reference: RoySUnobeIDSorensenADReliability assessment and sensitivity analysis of vehicle impacted reinforced concrete circular bridge piersStructures, Elsevier20223760061210.1016/j.istruc.2022.01.041 – reference: Cook W (2014) “Bridge Failure Rates, Consequences, and Predictive Trends.” All Graduate Theses and Dissertations, 116. – reference: Der KiureghianAAnalysis of structural reliability under parameter uncertaintiesProbab Eng Mech200823435135810.1016/j.probengmech.2007.10.011 – reference: Galambos T V, Ketter R L (1961) “Columns under combined bending and thrust, Proc. ASCE, 85 (EM2), p. 1,(1959),(also ASCE Trans. Vol. 126,(1961), Reprint No. 136 (61–22).” – reference: SpyrakosCCVlassisAGSeismic retrofit of reinforced concrete bridgesWIT Transactions on the Built Environment, WITPress2003727988 – reference: NowakASCollinsKRReliability of structures2012CRC Press10.1201/b12913 – reference: ACI committee 318Building code requirements for structural plain concrete (ACI 318.1-83) and commentaryInt J Cement Composites and Lightweight Concrete.19857160 – reference: BathurstRJAllenTMNowakASCalibration concepts for load and resistance factor design (LRFD) of reinforced soil wallsCan Geotech J200845101377139210.1139/T08-063 – reference: VrouwenvelderTStochastic modelling of extreme action events in structural engineeringProbab Eng Mech200015110911710.1016/S0266-8920(99)00014-4 – reference: AFDC (2018) “Vehicle Weight Classes & Categories.” Alternative Fuels Data Centre, U.S. Department of Energy. – reference: RoySUnobeISorensenADVehicle-Impact Damage of Reinforced Concrete Bridge Piers: S State-of-the Art ReviewJ Perform Constr Facil.20213550312100110.1061/(ASCE)CF.1943-5509.0001613American Society of Civil Engineers 2021 – reference: Joshi AS, Gupta LM. A simulation study on quantifying damage in bridge piers subjected to vehicle collisions. Int J Adv Struct Eng. 2012;4(1):1–13. – reference: WardhanaKHadiprionoFCAnalysis of recent bridge failures in the United StatesJ Perform Construct Facil Am Soc Civil Eng200317314415010.1061/(ASCE)0887-3828(2003)17:3(144) – reference: AuyeungSAlipourASainiDPerformance-based design of bridge piers under vehicle collisionEn Struct, Elsevier201919175276510.1016/j.engstruct.2019.03.005 – reference: Malvar L J, Crawford J E (1998) Dynamic increase factors for concrete. Naval Facilities Engineering Service Center Port hueneme CA. – reference: ManderJBPriestleyMJParkRTheoretical stress-strain model for confined concreteJ Struct Eng (United States)198811481804182610.1061/(ASCE)0733-9445(1988)114:8(1804) – reference: FeyerabendMHard transverse impacts on steel beams and reinforced concrete beams1988GermanyUniversity of Karlsruhe (TH) – reference: Roy S, Sorensen A (2021a) “Energy Based Model of Vehicle Impacted Reinforced Bridge Piers Accounting for Concrete Contribution to Resilience.” 18th International Probabilistic Workshop: IPW 2020, Springer Nature, 301. – reference: ShiYHaoHLiZ-XNumerical derivation of pressure–impulse diagrams for prediction of RC column damage to blast loadsInt J Impact Eng Elsevier200835111213122710.1016/j.ijimpeng.2007.09.001 – reference: AmeliMJPantelidesCPSeismic analysis of precast concrete bridge columns connected with grouted splice sleeve connectorsJ Struct Eng Am Soc Civil Eng201714324016176 – reference: KowalskyMJDeformation limit states for circular reinforced concrete bridge columnsJ Struct Eng Am Soc Civil Eng20001268869878 – reference: Engineers A S of C (2013) “Minimum Design Loads for Buildings and Other Structures (ASCE/SEI 7–10).” American Society of Civil Engineers. – volume: 43 start-page: 52 year: 2012 ident: 67_CR28 publication-title: Int J Impact Eng doi: 10.1016/j.ijimpeng.2011.11.007 – volume-title: ACI 318–11: Building Code Requirements for Structural Concrete. American Concrete Institute year: 2011 ident: 67_CR3 – volume: 21 start-page: 2270 issue: 15 year: 2018 ident: 67_CR34 publication-title: Adv Struct Eng doi: 10.1177/1369433218772344 – volume-title: Guide Specifications for LRFD Seismic Bridge Design, 2nd Edition. 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| Snippet | Vehicle impact creates a dynamic loading condition at high strain rate exhibiting a unique interaction with the resisting structural members’ material... Abstract Vehicle impact creates a dynamic loading condition at high strain rate exhibiting a unique interaction with the resisting structural members’ material... |
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| SubjectTerms | Bond strength Bonding strength Bridge piers Civil Engineering Compressive strength Concrete Concrete bridges Concrete properties Crack propagation Damage index Deformation Design parameters Deterministic and resistance reduction method in determining shear and axial residual capacities Development length Dynamic loads Engineering Failure Forensic engineering High strain rate Impact damage Impact loads Investigations Material properties Optimization Original Innovation Piers Random variables Reinforced concrete Structural engineers Structural members Vehicle impact Vehicle impacts Vehicles |
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| Title | Damage characterization and resilience optimization of reinforced concrete bridge piers under vehicle impact |
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