S
Shaohua He
Researcher at Guangdong University of Technology
Publications - 46
Citations - 490
Shaohua He is an academic researcher from Guangdong University of Technology. The author has contributed to research in topics: Composite number & Engineering. The author has an hindex of 8, co-authored 27 publications receiving 167 citations. Previous affiliations of Shaohua He include Hunan University.
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Push-out tests for perfobond strip connectors with UHPC grout in the joints of steel-concrete hybrid bridge girders
TL;DR: In this paper, the structural behavior of perfobond strip (PBL) connectors for steel-concrete joint of hybrid girders with ultra-high performance concrete (UHPC) as grout for such connectors was examined.
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Experimental study on perfobond strip connector in steel–concrete joints of hybrid bridges
TL;DR: In this article, the structural response of PBL connectors under push-out loading was investigated in a hybrid cable-stayed bridge with 12 pushout specimens fabricated according to the design used for the connectors in the steel-concrete joints in a bridge, and the behavior of the connectors including failure modes, ductility, and components of the ultimate shear-resistant capacity was discussed in depth.
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Experimental study on the effects of glass fibres and expansive agent on the bond behaviour of glass/basalt FRP bars in seawater sea-sand concrete
TL;DR: In this paper, the effects of glass fibres and expansive agent on the bond behaviour of glass/basalt FRP bars cast in seawater sea-sand concrete (SSSC) were studied by conducting pull-out tests with varying fibre content, fibre length, and extensive agent content.
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Dynamic bond behaviour of fibre-wrapped basalt fibre-reinforced polymer bars embedded in sea sand and recycled aggregate concrete under high-strain rate pull-out tests
TL;DR: In this article, the dynamic bond behavior of basalt fiber-reinforced polymer (BFRP) bars embedded in sea sand and recycled aggregate concrete (SSRAC) was evaluated via high-strain rate pull-out tests.
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Mussel‐ and Barnacle Cement Proteins‐Inspired Dual‐Bionic Bioadhesive with Repeatable Wet‐Tissue Adhesion, Multimodal Self‐Healing, and Antibacterial Capability for Nonpressing Hemostasis and Promoted Wound Healing
Gaoxing Pan,Fei Li,Shaohua He,Weidong Li,Quanming Wu,Jingjing He,Renjie Ruan,Z. Xiao,Jin Zhang,Huanghao Yang +9 more
TL;DR: The novel tissue‐adhesive hemostat opens up a new avenue to rapid sealing hemostasis and wound healing applications and great potential for treating deep‐wound hemorrhage in a battlefield environment.