Abstracts – Browse Results
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Antwi-Afari, M F, Li, H, Edwards, D J, Pärn, E A, Seo, J and Wong, A (2017) Effects of different weights and lifting postures on balance control following repetitive lifting tasks in construction workers. International Journal of Building Pathology and Adaptation, 35(03), 247–63.
Ballesteros-Pérez, P and Skitmore, M (2017) On the distribution of bids for construction contract auctions. Construction Management and Economics, 35(03), 106-21.
Barrett, P (2007) Revaluing Construction: a holistic model. Building Research & Information, 35(03), 268–86.
Clarke, L, Gleeson, C and Winch, C (2017) What kind of expertise is needed for low energy construction?. Construction Management and Economics, 35(03), 78-89.
Cummings, S, Mcdougall, J A and Swaffield, J A (2007) Hydraulic assessment of non-circular-section building drainage. Building Research & Information, 35(03), 316–28.
Edwards, D J and Holt, G D (2007) Construction hand tools: vibration emissions from alternative inserts. Building Research & Information, 35(03), 329–42.
Forsythe, P (2017) Quantifying the recurring nature of fitout to assist LCA studies in office buildings. International Journal of Building Pathology and Adaptation, 35(03), 233–46.
Itard, L and Klunder, G (2007) Comparing environmental impacts of renovated housing stock with new construction. Building Research & Information, 35(03), 252–67.
Jones, W, Gibb, A, Goodier, C and Bust, P (2017) Managing the unknown: Addressing the potential health risks of nanomaterials in the built environment. Construction Management and Economics, 35(03), 122-36.
- Type: Journal Article
- Keywords: innovation; health; nanomaterials; materials; unknowns; nanotechnology; construction industry
- ISBN/ISSN: 0144-6193
- URL: https://doi.org/10.1080/01446193.2016.1241413
- Abstract:
Nanomaterials offer significant potential for high performing new products in the built environment and elsewhere. However, there are uncertainties regarding their potential adverse health effects and the extent to which they are currently used. A desk study and interviews with those working across the construction, demolition and product manufacture sectors (n = 59) identified the current state of knowledge regarding nanomaterial use within the built environment. Some nanomaterials are potentially toxic, particularly those based on fibres; others are much less problematic but the evidence base is incomplete. Very little is known regarding the potential for exposure for those working with nano-enabled construction materials. Identifying which construction products contain nanomaterials, and which nanomaterials these might be, is very difficult due to inadequate labelling by product manufacturers. Consequently, those working with nano-enabled products typically have very limited knowledge or awareness of this. Further research is required regarding the toxicology of nanomaterials and the potential for exposure during construction and demolition. Better sharing of the information which is already available is also required through the construction, demolition and manufacture/supply chains. This is likely to be important for other innovative products and processes in construction, not just those which use nanomaterials.;Nanomaterials offer significant potential for high performing new products in the built environment and elsewhere. However, there are uncertainties regarding their potential adverse health effects and the extent to which they are currently used. A desk study and interviews with those working across the construction, demolition and product manufacture sectors (n = 59) identified the current state of knowledge regarding nanomaterial use within the built environment. Some nanomaterials are potentially toxic, particularly those based on fibres; others are much less problematic but the evidence base is incomplete. Very little is known regarding the potential for exposure for those working with nano-enabled construction materials. Identifying which construction products contain nanomaterials, and which nanomaterials these might be, is very difficult due to inadequate labelling by product manufacturers. Consequently, those working with nano-enabled products typically have very limited knowledge or awareness of this. Further research is required regarding the toxicology of nanomaterials and the potential for exposure during construction and demolition. Better sharing of the information which is already available is also required through the construction, demolition and manufacture/supply chains. This is likely to be important for other innovative products and processes in construction, not just those which use nanomaterials.;
Liu, J, Gao, R, Cheah, C Y J and Luo, J (2017) Evolutionary game of investors' opportunistic behaviour during the operational period in PPP projects. Construction Management and Economics, 35(03), 137-53.
Loosemore, M and Lim, B T H (2017) Linking corporate social responsibility and organizational performance in the construction industry. Construction Management and Economics, 35(03), 90-105.
Milion, R N, Alves, T d C and Paliari, J C (2017) Impacts of residential construction defects on customer satisfaction. International Journal of Building Pathology and Adaptation, 35(03), 218–32.
Mohamed, M, Pärn, E A and Edwards, D J (2017) Brexit: measuring the impact upon skilled labour in the UK construction industry. International Journal of Building Pathology and Adaptation, 35(03), 264–79.
Nelms, C E, Russell, A D and Lence, B J (2007) Assessing the performance of sustainable technologies: a framework and its application. Building Research & Information, 35(03), 237–51.
Nielsen, K J (2017) A comparison of inspection practices within the construction industry between the Danish and Swedish work environment authorities. Construction Management and Economics, 35(03), 154-69.
Ofori-Boadu, A N, Shofoluwe, M A and Pyle, R (2017) Development of a Housing Eligibility Assessment Scoring Method for low-income urgent repair programs. International Journal of Building Pathology and Adaptation, 35(03), 194–217.
Short, C A, Barrett, P, Dye, A and Sutrisna, M (2007) Impacts of value engineering on five Capital Arts projects. Building Research & Information, 35(03), 287–315.