A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Bio-bricks: Biologically cemented sandstone bricks
Highlights A novel technique to manufacture bio-bricks using a biologically mediated natural cementation process is presented. Results show that bio-bricks can have compressive strengths up to 2MPa. P-wave velocity measurements show bio-brick stiffness to be relatively uniform and high. Bio-bricks are comparable to bricks prepared with the more conventional cement and hydraulic lime additives.
Abstract The cementation of sand into sandstone through microbial activity is a novel technology with a wide range of possible applications. The cementation process involves the introduction of bacteria and nutrients to sand, and through bacterial processes calcite precipitation binds particles together, ultimately creating a sandstone material. This technology could provide a new, more sustainable building material in the form of “bio-bricks”. This paper describes the treatment technique as well as results from testing after brick manufacturing. Bricks were tested to determine compression (p-wave) wave velocity, unconfined compression strength, and calcite concentration. P-wave velocity, stiffness, strength, and calcite content of bio-bricks all increase with further treatment of bacteria and cementation media. Results show that bio-bricks can have strengths ranging from 1MPa to 2MPa. Bio-bricks are comparable in terms of stress and stiffness to bricks prepared with the more conventional cement and hydraulic lime additives.
Bio-bricks: Biologically cemented sandstone bricks
Highlights A novel technique to manufacture bio-bricks using a biologically mediated natural cementation process is presented. Results show that bio-bricks can have compressive strengths up to 2MPa. P-wave velocity measurements show bio-brick stiffness to be relatively uniform and high. Bio-bricks are comparable to bricks prepared with the more conventional cement and hydraulic lime additives.
Abstract The cementation of sand into sandstone through microbial activity is a novel technology with a wide range of possible applications. The cementation process involves the introduction of bacteria and nutrients to sand, and through bacterial processes calcite precipitation binds particles together, ultimately creating a sandstone material. This technology could provide a new, more sustainable building material in the form of “bio-bricks”. This paper describes the treatment technique as well as results from testing after brick manufacturing. Bricks were tested to determine compression (p-wave) wave velocity, unconfined compression strength, and calcite concentration. P-wave velocity, stiffness, strength, and calcite content of bio-bricks all increase with further treatment of bacteria and cementation media. Results show that bio-bricks can have strengths ranging from 1MPa to 2MPa. Bio-bricks are comparable in terms of stress and stiffness to bricks prepared with the more conventional cement and hydraulic lime additives.
Bio-bricks: Biologically cemented sandstone bricks
Bernardi, D. (author) / DeJong, J.T. (author) / Montoya, B.M. (author) / Martinez, B.C. (author)
Construction and Building Materials ; 55 ; 462-469
2014-01-11
8 pages
Article (Journal)
Electronic Resource
English
Bio-bricks: Biologically cemented sandstone bricks
| British Library Online Contents | 2014
Bio-bricks: Biologically cemented sandstone bricks
| Online Contents | 2014
Bio-bricks: Biologically cemented sandstone bricks
| British Library Online Contents | 2014
| British Library Online Contents | 1996