Influence of post-processing methods on bond-slip behavior of nonlinear Fe-SMA lap-shear joints

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Authors

Research Organisations

External Research Organisations

  • Swiss Federal Laboratories for Material Science and Technology (EMPA)
  • ETH Zurich
  • Hong Kong Polytechnic University
  • Universita di Salerno
  • Northwestern Polytechnical University
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Details

Original languageEnglish
Article numbere03485
Number of pages18
JournalCase Studies in Construction Materials
Volume21
Early online date1 Jul 2024
Publication statusE-pub ahead of print - 1 Jul 2024

Abstract

Prestressed bonded strengthening for structures employing iron-based shape memory alloy (Fe-SMA) has been proven promising. Analyzing adhesively bonded joints necessitates a thorough understanding of the bond-slip behavior. However, when examining the bond-slip behavior of Fe-SMA-to-steel joints comprising nonlinear adhesives, the “forward” and “backward” post-processing methods, representing the current state-of-the-art, produce a trilinear and a trapezoidal bond-slip pattern, respectively, which is inconsistent. To address this inconsistency, the current study investigates the bond behavior of Fe-SMA-to-steel joints, with a particular focus on the bond-slip behavior. Two finite element (FE) joints, one featuring a linear adhesive and the other comprising a nonlinear adhesive, are modeled and compared against physical tests from literature. The “forward” and “backward” processing methods are used to analyze the bond behavior of the two FE joints. Eventually, the aforementioned inconsistency is resolved; a triangular and a trapezoidal bond-slip pattern are characterized for Fe-SMA-to-steel lap-shear joints with linear and nonlinear adhesives, respectively. The trilinear bond-slip behavior is concluded as a result of error accumulation and propagation during the “forward” processing. A hybrid post-processing method, which takes the advantages of both the “forward” and “backward” processing methods, is further proposed for inferring the full-range behavior; the resulting experimental behaviors closely align with simulations using a trapezoidal bond-slip model as input. A comparison against carbon fiber reinforced polymer (CFRP) lap-shear joints demonstrates similar bond-slip characteristics between Fe-SMA and CFRP lap-shear joints.

Keywords

    Bond-slip behavior, Cohesive zone model (CZM), Fe-SMA (memory steel), Full-range behavior, Post-processing method

ASJC Scopus subject areas

Cite this

Influence of post-processing methods on bond-slip behavior of nonlinear Fe-SMA lap-shear joints. / Li, Lingzhen; Martinelli, Enzo; Wang, Wandong et al.
In: Case Studies in Construction Materials, Vol. 21, e03485, 12.2024.

Research output: Contribution to journalArticleResearchpeer review

Li, L, Martinelli, E, Wang, W, Chatzi, E & Ghafoori, E 2024, 'Influence of post-processing methods on bond-slip behavior of nonlinear Fe-SMA lap-shear joints', Case Studies in Construction Materials, vol. 21, e03485. https://doi.org/10.1016/j.cscm.2024.e03485
Li, L., Martinelli, E., Wang, W., Chatzi, E., & Ghafoori, E. (2024). Influence of post-processing methods on bond-slip behavior of nonlinear Fe-SMA lap-shear joints. Case Studies in Construction Materials, 21, Article e03485. Advance online publication. https://doi.org/10.1016/j.cscm.2024.e03485
Li L, Martinelli E, Wang W, Chatzi E, Ghafoori E. Influence of post-processing methods on bond-slip behavior of nonlinear Fe-SMA lap-shear joints. Case Studies in Construction Materials. 2024 Dec;21:e03485. Epub 2024 Jul 1. doi: 10.1016/j.cscm.2024.e03485
Li, Lingzhen ; Martinelli, Enzo ; Wang, Wandong et al. / Influence of post-processing methods on bond-slip behavior of nonlinear Fe-SMA lap-shear joints. In: Case Studies in Construction Materials. 2024 ; Vol. 21.
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title = "Influence of post-processing methods on bond-slip behavior of nonlinear Fe-SMA lap-shear joints",
abstract = "Prestressed bonded strengthening for structures employing iron-based shape memory alloy (Fe-SMA) has been proven promising. Analyzing adhesively bonded joints necessitates a thorough understanding of the bond-slip behavior. However, when examining the bond-slip behavior of Fe-SMA-to-steel joints comprising nonlinear adhesives, the “forward” and “backward” post-processing methods, representing the current state-of-the-art, produce a trilinear and a trapezoidal bond-slip pattern, respectively, which is inconsistent. To address this inconsistency, the current study investigates the bond behavior of Fe-SMA-to-steel joints, with a particular focus on the bond-slip behavior. Two finite element (FE) joints, one featuring a linear adhesive and the other comprising a nonlinear adhesive, are modeled and compared against physical tests from literature. The “forward” and “backward” processing methods are used to analyze the bond behavior of the two FE joints. Eventually, the aforementioned inconsistency is resolved; a triangular and a trapezoidal bond-slip pattern are characterized for Fe-SMA-to-steel lap-shear joints with linear and nonlinear adhesives, respectively. The trilinear bond-slip behavior is concluded as a result of error accumulation and propagation during the “forward” processing. A hybrid post-processing method, which takes the advantages of both the “forward” and “backward” processing methods, is further proposed for inferring the full-range behavior; the resulting experimental behaviors closely align with simulations using a trapezoidal bond-slip model as input. A comparison against carbon fiber reinforced polymer (CFRP) lap-shear joints demonstrates similar bond-slip characteristics between Fe-SMA and CFRP lap-shear joints.",
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AU - Li, Lingzhen

AU - Martinelli, Enzo

AU - Wang, Wandong

AU - Chatzi, Eleni

AU - Ghafoori, Elyas

N1 - Publisher Copyright: © 2024 The Authors

PY - 2024/7/1

Y1 - 2024/7/1

N2 - Prestressed bonded strengthening for structures employing iron-based shape memory alloy (Fe-SMA) has been proven promising. Analyzing adhesively bonded joints necessitates a thorough understanding of the bond-slip behavior. However, when examining the bond-slip behavior of Fe-SMA-to-steel joints comprising nonlinear adhesives, the “forward” and “backward” post-processing methods, representing the current state-of-the-art, produce a trilinear and a trapezoidal bond-slip pattern, respectively, which is inconsistent. To address this inconsistency, the current study investigates the bond behavior of Fe-SMA-to-steel joints, with a particular focus on the bond-slip behavior. Two finite element (FE) joints, one featuring a linear adhesive and the other comprising a nonlinear adhesive, are modeled and compared against physical tests from literature. The “forward” and “backward” processing methods are used to analyze the bond behavior of the two FE joints. Eventually, the aforementioned inconsistency is resolved; a triangular and a trapezoidal bond-slip pattern are characterized for Fe-SMA-to-steel lap-shear joints with linear and nonlinear adhesives, respectively. The trilinear bond-slip behavior is concluded as a result of error accumulation and propagation during the “forward” processing. A hybrid post-processing method, which takes the advantages of both the “forward” and “backward” processing methods, is further proposed for inferring the full-range behavior; the resulting experimental behaviors closely align with simulations using a trapezoidal bond-slip model as input. A comparison against carbon fiber reinforced polymer (CFRP) lap-shear joints demonstrates similar bond-slip characteristics between Fe-SMA and CFRP lap-shear joints.

AB - Prestressed bonded strengthening for structures employing iron-based shape memory alloy (Fe-SMA) has been proven promising. Analyzing adhesively bonded joints necessitates a thorough understanding of the bond-slip behavior. However, when examining the bond-slip behavior of Fe-SMA-to-steel joints comprising nonlinear adhesives, the “forward” and “backward” post-processing methods, representing the current state-of-the-art, produce a trilinear and a trapezoidal bond-slip pattern, respectively, which is inconsistent. To address this inconsistency, the current study investigates the bond behavior of Fe-SMA-to-steel joints, with a particular focus on the bond-slip behavior. Two finite element (FE) joints, one featuring a linear adhesive and the other comprising a nonlinear adhesive, are modeled and compared against physical tests from literature. The “forward” and “backward” processing methods are used to analyze the bond behavior of the two FE joints. Eventually, the aforementioned inconsistency is resolved; a triangular and a trapezoidal bond-slip pattern are characterized for Fe-SMA-to-steel lap-shear joints with linear and nonlinear adhesives, respectively. The trilinear bond-slip behavior is concluded as a result of error accumulation and propagation during the “forward” processing. A hybrid post-processing method, which takes the advantages of both the “forward” and “backward” processing methods, is further proposed for inferring the full-range behavior; the resulting experimental behaviors closely align with simulations using a trapezoidal bond-slip model as input. A comparison against carbon fiber reinforced polymer (CFRP) lap-shear joints demonstrates similar bond-slip characteristics between Fe-SMA and CFRP lap-shear joints.

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KW - Cohesive zone model (CZM)

KW - Fe-SMA (memory steel)

KW - Full-range behavior

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DO - 10.1016/j.cscm.2024.e03485

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AN - SCOPUS:85197303921

VL - 21

JO - Case Studies in Construction Materials

JF - Case Studies in Construction Materials

SN - 2214-5095

M1 - e03485

ER -

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