New bibliography - Engineering bibliographies - in Harvard style

In-text: (Attom, 2005)

Your Bibliography: Attom, M., 2005. The use of shredded waste tires to improve the geotechnical engineering properties of sands. Environmental Geology, 49(4), pp.497-503.

In-text: (Cabalar, 2010)

Your Bibliography: Cabalar, A., 2010. Direct Shear Tests on Waste Tires–Sand Mixtures. Geotechnical and Geological Engineering, 29(4), pp.411-418.

In-text: (Chaney et al., 1996)

Your Bibliography: Chaney, R., Demars, K., Masad, E., Taha, R., Ho, C. and Papagiannakis, T., 1996. Engineering Properties of Tire/Soil Mixtures as a Lightweight Fill Material. Geotech. Test. J., 19(3), p.297.

In-text: (Foose, Benson and Bosscher, 1996)

Your Bibliography: Foose, G., Benson, C. and Bosscher, P., 1996. Sand Reinforced with Shredded Waste Tires. J. Geotech. Engrg., 122(9), pp.760-767.

In-text: (Hennebert, Lambert, Fouillen and Charrasse, 2014)

Your Bibliography: Hennebert, P., Lambert, S., Fouillen, F. and Charrasse, B., 2014. Assessing the environmental impact of shredded tires as embankment fill material. Canadian Geotechnical Journal, 51(5), pp.469-478.

In-text: (Kim and Santamarina, 2008)

Your Bibliography: Kim, H. and Santamarina, J., 2008. Sand–rubber mixtures (large rubber chips). Canadian Geotechnical Journal, 45(10), pp.1457-1466.

In-text: (Lee, Shin and Lee, 2014)

Your Bibliography: Lee, C., Shin, H. and Lee, J., 2014. Behavior of sand-rubber particle mixtures: experimental observations and numerical simulations. International Journal for Numerical and Analytical Methods in Geomechanics, 38(16), pp.1651-1663.

In-text: (Lee, Salgado, Bernal and Lovell, 1999)

Your Bibliography: Lee, J., Salgado, R., Bernal, A. and Lovell, C., 1999. Shredded Tires and Rubber-Sand as Lightweight Backfill. J. Geotech. Geoenviron. Eng., 125(2), pp.132-141.

In-text: (Li and Zhang, 2010)

Your Bibliography: Li, Z. and Zhang, H., 2010. Shear strength of granulated rubber and loess as lightweight geo materials. In: E-Product E-Service and E-Entertainment. [online] IEEE Conference Publications, pp.1-4. Available at: <http://ieeexplore.ieee.org.ezproxy.napier.ac.uk/xpl/articleDetails.jsp?arnumber=5660380> [Accessed 5 January 2015].

In-text: (Nakhaei, Marandi, Sani Kermani and Bagheripour, 2012)

Your Bibliography: Nakhaei, A., Marandi, S., Sani Kermani, S. and Bagheripour, M., 2012. Dynamic properties of granular soils mixed with granulated rubber. Soil Dynamics and Earthquake Engineering, 43, pp.124-132.

In-text: (Pincus, Edil and Bosscher, 1994)

Your Bibliography: Pincus, H., Edil, T. and Bosscher, P., 1994. Engineering Properties of Tire Chips and Soil Mixtures. Geotech. Test. J., 17(4), p.453.

In-text: (Senetakis, Anastasiadis and Pitilakis, 2012)

Your Bibliography: Senetakis, K., Anastasiadis, A. and Pitilakis, K., 2012. Dynamic properties of dry sand/rubber (SRM) and gravel/rubber (GRM) mixtures in a wide range of shearing strain amplitudes. Soil Dynamics and Earthquake Engineering, 33(1), pp.38-53.

In-text: (Tweedie, Humphrey and Sandford, 1998)

Your Bibliography: Tweedie, J., Humphrey, D. and Sandford, T., 1998. Tire Shreds as Lightweight Retaining Wall Backfill: Active Conditions. J. Geotech. Geoenviron. Eng., 124(11), pp.1061-1070.

In-text: (Valdes and Evans, 2008)

Your Bibliography: Valdes, J. and Evans, T., 2008. Sand–rubber mixtures: Experiments and numerical simulations. Canadian Geotechnical Journal, 45(4), pp.588-595.

In-text: (Youwai and Bergado, 2003)

Your Bibliography: Youwai, S. and Bergado, D., 2003. Strength and deformation characteristics of shredded rubber tire – sand mixtures. Canadian Geotechnical Journal, 40(2), pp.254-264.

In-text: (Zornberg, Cabral and Viratjandr, 2004)

Your Bibliography: Zornberg, J., Cabral, A. and Viratjandr, C., 2004. Behaviour of tire shred – sand mixtures. Canadian Geotechnical Journal, 41(2), pp.227-241.