1

Author: sterling-yin

content/publications/2-2021-EFM/cite.bib

@@ -0,0 +1,15 @@
+@article{Li2021,
+abstract = {For strengthening and repair of concrete structures, shear interfacial behavior between concrete substrate and strengthening materials (e.g., strain-hardening fiber-reinforced cementitious composites) is critical for the structural performance of concrete members. In this study, a novel approach for shear interfacial fracture of cement-based materials was proposed to achieve pure shear failure. The stress intensity factor of the bi-material double-edge notched specimen was analytically obtained for the first time. A numerical investigation was carried out to confirm the suitability of the proposed approach. Then, shear interfacial fracture tests between strain-hardening cementitious composites and ordinary concrete were conducted to demonstrate its feasibility and to determine the shear interfacial fracture toughness. Additionally, digital image correlation (DIC) technique was used to analyze the shear behavior of the bi-material interface. The proposed approach can be applied to evaluate shear interfacial behaviors of cement-based materials.},
+author = {Li, Qinghua and Yin, Xing and Huang, Botao and Luo, Aimin and Lyu, Yao and Sun, Chaojie and Xu, Shilang},
+doi = {10.1016/j.engfracmech.2021.107849},
+issn = {00137944},
+journal = {Engineering Fracture Mechanics},
+keywords = {Digital image correlation (DIC),Engineered Cementitious Composites (ECC),Fracture toughness,Interface,Mode II fracture,Obsidian,Shear fracture,Strain-Hardening Cementitious Composites (SHCC)},
+month = {aug},
+pages = {107849},
+publisher = {Elsevier Ltd},
+title = {{Shear interfacial fracture of strain-hardening fiber-reinforced cementitious composites and concrete: A novel approach}},
+url = {https://doi.org/10.1016/j.engfracmech.2021.107849 https://linkinghub.elsevier.com/retrieve/pii/S0013794421002873},
+volume = {253},
+year = {2021}
+}

content/publications/2-2021-EFM/index.md

@@ -0,0 +1,47 @@
+---
+title: "Shear interfacial fracture of strain-hardening fiber-reinforced cementitious composites and concrete: A novel approach"
+authors:
+- Qing-Hua Li
+- yinxing 
+- Bo-Tao Huang*
+- Ai-Min Luo
+- Yao Lyu
+- Chao-Jie Sun
+- Shi-Lang Xu
+# author_notes:
+# - "Equal contribution"
+# - "Equal contribution"
+date: "2021-08-01T00:00:00Z"
+
+# Publication type.
+# Accepts a single type but formatted as a YAML list (for Hugo requirements).
+# Enter a publication type from the CSL standard.
+publication_types: ["article-journal"]
+
+# Publication name and optional abbreviated publication name.
+publication: "***Engineering Fracture Mechanics***, 253, 107849"
+
+abstract: For strengthening and repair of concrete structures, shear interfacial behavior between concrete substrate and strengthening materials (e.g., strain-hardening fiber-reinforced cementitious composites) is critical for the structural performance of concrete members. In this study, a novel approach for shear interfacial fracture of cement-based materials was proposed to achieve pure shear failure. The stress intensity factor of the bi-material double-edge notched specimen was analytically obtained for the first time. A numerical investigation was carried out to confirm the suitability of the proposed approach. Then, shear interfacial fracture tests between strain-hardening cementitious composites and ordinary concrete were conducted to demonstrate its feasibility and to determine the shear interfacial fracture toughness. Additionally, digital image correlation (DIC) technique was used to analyze the shear behavior of the bi-material interface. The proposed approach can be applied to evaluate shear interfacial behaviors of cement-based materials.
+
+tags:
+- SHCC
+featured: false
+
+links:
+  - type: doi
+    url: "https://doi.org/10.1016/j.engfracmech.2021.107849"
+
+# Associated Projects (optional).
+#   Associate this publication with one or more of your projects.
+#   Simply enter your project's folder or file name without extension.
+#   E.g. `internal-project` references `content/project/internal-project/index.md`.
+#   Otherwise, set `projects: []`.
+projects: []
+
+# Slides (optional).
+#   Associate this publication with Markdown slides.
+#   Simply enter your slide deck's filename without extension.
+#   E.g. `slides: "example"` references `content/slides/example/index.md`.
+#   Otherwise, set `slides: ""`.
+slides: ""
+---

content/publications/3-2024-IJMS/index.md

@@ -28,21 +28,6 @@ links:
   - type: doi
     url: "https://doi.org/10.1016/j.ijmecsci.2024.109540"
 
-# Featured image
-# To use, add an image named `featured.jpg/png` to your page's folder. 
-image:
-  placement: 2
-  focal_point: "Top"
-  preview_only: false
-# Featured image
-# To use, add an image named `featured.jpg/png` to your page's folder.
-# Placement options: 1 = Full column width, 2 = Out-set, 3 = Screen-width
-# Focal point options: Smart, Center, TopLeft, Top, TopRight, Left, Right, BottomLeft, Bottom, BottomRight
-#image:
-#  placement: 2
-#  caption: 'Image credit: [**Unsplash**](https://unsplash.com/photos/CpkOjOcXdUY)'
-#  focal_point: ""
-#  preview_only: false
 # Associated Projects (optional).
 #   Associate this publication with one or more of your projects.
 #   Simply enter your project's folder or file name without extension.