A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Blast responses of one-way sea-sand seawater concrete slabs reinforced with BFRP bars
https://orcid.org/0000-0002-9707-6305
Highlights Blast resistance of BFRP reinforced sea-sand seawater concrete slab was investigated. Damage modes of BFRP reinforced sea-sand seawater concrete slab under explosion were revealed. Sea-sand seawater concrete slab has comparable blast resistance with usual concrete slab. An equivalent static load method for BFRP reinforced sea-sand seawater concrete slab was developed.
Abstract Avoiding steel corrosion in seawater sea-sand concrete (SSC) members, basalt fiber reinforced plastic (BFRP) bars behaving as reinforcement have advantages in coastal civil engineering and protective structures. One-way BFRP-bar reinforced SSC slabs (BRSSs) were designed to investigate their mechanical responses under static loads and close-in explosions. The SSC blocks have comparable quasi-static compressive strength with plain concrete blocks. The BRSSs have comparable quasi-static flexural strength and identical failure mode with the BFRP bars reinforced plain-concrete slabs (BRPSs). Under close-in explosions, the BRSSs have comparable blast resistance and similar failure modes with the BRPSs. Together with the excellent anti-corrosion ability, the BRSS is an ideal selection for costal protective structures.
Blast responses of one-way sea-sand seawater concrete slabs reinforced with BFRP bars
https://orcid.org/0000-0002-9707-6305
Highlights Blast resistance of BFRP reinforced sea-sand seawater concrete slab was investigated. Damage modes of BFRP reinforced sea-sand seawater concrete slab under explosion were revealed. Sea-sand seawater concrete slab has comparable blast resistance with usual concrete slab. An equivalent static load method for BFRP reinforced sea-sand seawater concrete slab was developed.
Abstract Avoiding steel corrosion in seawater sea-sand concrete (SSC) members, basalt fiber reinforced plastic (BFRP) bars behaving as reinforcement have advantages in coastal civil engineering and protective structures. One-way BFRP-bar reinforced SSC slabs (BRSSs) were designed to investigate their mechanical responses under static loads and close-in explosions. The SSC blocks have comparable quasi-static compressive strength with plain concrete blocks. The BRSSs have comparable quasi-static flexural strength and identical failure mode with the BFRP bars reinforced plain-concrete slabs (BRPSs). Under close-in explosions, the BRSSs have comparable blast resistance and similar failure modes with the BRPSs. Together with the excellent anti-corrosion ability, the BRSS is an ideal selection for costal protective structures.
Blast responses of one-way sea-sand seawater concrete slabs reinforced with BFRP bars
https://orcid.org/0000-0002-9707-6305
Highlights Blast resistance of BFRP reinforced sea-sand seawater concrete slab was investigated. Damage modes of BFRP reinforced sea-sand seawater concrete slab under explosion were revealed. Sea-sand seawater concrete slab has comparable blast resistance with usual concrete slab. An equivalent static load method for BFRP reinforced sea-sand seawater concrete slab was developed.
Abstract Avoiding steel corrosion in seawater sea-sand concrete (SSC) members, basalt fiber reinforced plastic (BFRP) bars behaving as reinforcement have advantages in coastal civil engineering and protective structures. One-way BFRP-bar reinforced SSC slabs (BRSSs) were designed to investigate their mechanical responses under static loads and close-in explosions. The SSC blocks have comparable quasi-static compressive strength with plain concrete blocks. The BRSSs have comparable quasi-static flexural strength and identical failure mode with the BFRP bars reinforced plain-concrete slabs (BRPSs). Under close-in explosions, the BRSSs have comparable blast resistance and similar failure modes with the BRPSs. Together with the excellent anti-corrosion ability, the BRSS is an ideal selection for costal protective structures.
Blast responses of one-way sea-sand seawater concrete slabs reinforced with BFRP bars
Gao, Yingjie (author) / Zhou, Yinzhi (author) / Zhou, Jiannan (author) / Kong, Xinli (author) / Zhang, Bei (author) / Liu, Sanfeng (author) / Feng, Jiang (author) / Zhu, Naishu (author) / Fan, Hualin (author) / Jin, Fengnian (author)
2019-10-12
Article (Journal)
Electronic Resource
English