Advanced search
Publication Cover
HKIE Transactions Volume 15, 2008 - Issue 4: The HKIE Outstanding Paper Award for Young Engineers/Researchers 2008
Journal homepage
49
Views
0
CrossRef citations to date
0
Altmetric
Shortlisted Papers

Development of Mobile Crusher for Recycled Aggregate Production

Vivian W Y Tam Griffith School of Engineering, Griffith University
&
C M Tam Department of Building and Construction, City University of Hong Kong
Pages 51-58 | Published online: 09 Apr 2013

References

  • Acker, A.V., Recycling of concrete at a precast concrete plant. Sustainable construction: use of recycled concrete aggregate: proceedings of the International Symposium. pp321–332. United Kingdom London: Thomas Telford. London (1998).
  • Ahmed, A. and Struble, L., Effects of microstructure of fracture behaviour of hardened cement paste. Microstructure of cement-based systems/Bonding and interfaces in cementitious materials: symposia Boston. pp99–108. Massachusetts. USA (1995).
  • ASTM D448–03a, Standard classification for sizes of aggregate for road and bridge construction. American Society for Testing and Materials International. United States (2003).
  • ASTM D2940–03, Standard specification graded aggregate material for base and subbases for highway or airports. American Society for Testing and Materials International. United States (2003).
  • Bretschneider, A. The influence of recycled aggregate on the compressive strength and the elastic modulus of concrete, See http://www.b-i-m.de/public/tudmassiv/decon98ruehl.htm, Accessed 2004.
  • Brown, L., Flavin, C. and Kane, H., Vital signs 1996: The trends that are shaping our future. Norton Co and Worldwatch Institute. New York (1996).
  • BS 812: Part 2, Methods for determination of density. British Standards Institution, London. United Kingdom (1995).
  • BS 812: Part 105.1, Flakiness index. British Standards Institution, London. United Kingdom (1989).
  • BS 812: Part 111, Methods for determination of ten per cent fines value (TFV). British Standards Institution, London. United Kingdom (1990).
  • BS 812: Part 112, Methods for determination of aggregate impact value (AIV). British Standards Institution, London. United Kingdom (1990).
  • BS 812: Part 117, Methods for determination of water-soluble chloride salts. British Standards Institution, London. United Kingdom (1988).
  • BS 882, Specification for aggregates from natural sources for concrete. British Standards Institution, London. United Kingdom (1992).
  • Buildings Department. Buildings Department, HKSAR, See http://www.info.gov.hk/bd/english/index.html. Accessed 4 February, 2008.
  • Clements, R., Complete guide to ISO 14000. Englewood Cliffs, N. J., Prentice Hall. (1996) Collins, R.J., Reuse of demolition materials in relation to specifications in the UK, demolition and reuse of concrete and masonry, guidelines for demolition and reuse of concrete and masonry. Proceedings of the third international RILEM symposium on demolition and reuse of concrete masonry. pp49–56. Odense, Denmark, E&FN Spon. London (1993).
  • Construction Industry Research and Information Association, Environmental issues in construction: a review of issues and initiatives relevant to the building, construction and related industries. Construction Industry Research and Information Association. London (1993).
  • Construction Materials Recycling Association. See http://www.cdrecycling.org/, Accessed 2005.
  • Craven, E.J., Okraglik, H.M. and Eilenberg, I.M., Construction waste and a new design methodology. Sustainable Construction: Proceedings. Of the 1st Conference of CIB TG 16. pp89–98. (1994).
  • Edwards, B., Sustainable architecture: European directives and building design. Oxford: Architectural Press. (1999).
  • Ferguson, J., Kermode, N., Nash, C.L., Sketch, W.A.J. and Huxford, R.P., Managing and minimising construction waste: a practical guide. Institution of Civil Engineers. London (1995).
  • Frondistou-Yannas, S., Waste concrete as aggregate for new concrete. ACI Journal 55. pp373–376. (1977).
  • German Standards, Aggregates for mortar and concrete: DIN 4226 100. German Standards, German Government. (2002).
  • Grubl, P., Ruhl, M. and Buhrer, M. Evaluation of modulus of elasticity of concrete with recycled aggregate, Das ist Baustoffkreislauf im Massivbau (BiM), See http://www.b-im.de/public/tudmassiv/damcon99grueblruehl.htm, Accessed 2004.
  • Hansen, T.C. and Marga, M., Strength of recycled concrete made from coarse and fine recycled concrete aggregate. Demolition and Reuse of Concrete and Masonry. pp605–612. London: Chapman and Hall. (1988).
  • Hendriks, C.F. and Pietersen, H.S., Sustainable raw materials: construction and demolition waste. Cachan Cedex, France, RILEM Publication. (2000).
  • Hill, R.C. and Bowen, P., Sustainable construction: principles and a framework for attainment. Construction Management and Economics. Volume 15, No 3, pp223–239. (1997).
  • Hong Kong Government - Environmental Protection Department. Environmental protection, Environmental Protection Department, Hong Kong Government, See http://www.epd.gov.hk/epd/english/environmentinhk/waste/data/waste_mon_swinhk.html, Accessed 4 February 2007.
  • Ikeda, T., Yamane, S. and Sakamoto, A., Strength of concrete containing recycled concrete aggregate. Demolition and Reuse of Concrete and Masonry. pp585–594. London: Chapman and Hall. (1988).
  • Kakizaki, M., Harada, M., Soshiroda, T., Kubota, S., Ikeda, T. and Y., K., Strength and elastic modulus of recycled aggregate concrete. Demolition and Reuse of Concrete and Masonry. pp565–574. London: Chapman and Hall. (1988).
  • Kenyon, S.C., Market development study for recycled aggregate products. Waste Reduction Advisory Committee, Thurber Engineering Ltd. (2001).
  • Khatib, J.M., Properties of concrete incorporating fine recycled aggregate. Cement and Concrete Research. Volume 35, No 4, pp763–769. (2005).
  • Krezel, Z.A., McManus, K. J., Recycled aggregate concrete sound absorbing barriers for urban freeways. Swinburne University of Technology. (2002).
  • Lai, J.S., Materials of construction. Georgia Institute of Technology, Kendall/Hunt Publishing Company, 4050 Westmark Drive, Dubuque, Iowa 52002. (1999).
  • Lenssen, N. and Roodman, D.M., Making better buildings in state of the world 1995. Worldwatch Institute. New York (1995).
  • Li, W., Composition analysis of construction and demolition waste and enhancing waste reduction and recycling in construction industry in Hong Kong. Department of Building and Real Estate, The Hong Kong Polytechnic University, Hong Kong, China (2002).
  • Majid, N.Z.A., The influence of aggregate properties on strength of concrete. Geocities. (2000).
  • Maso, J.C., Influence of the interfacial transition zone on composite mechanical properties. Interfacial transition zone in concrete: state of the art report. pp103–116. London: E & FN Spon. (1996).
  • Masood, A., Ahmad, T., Arif, M. and Mahdi, F. Waste management strategies for concrete, Civil Engineering Department, A. M. U., Aligarh-202 002, India, See http://link.springer.de/link/service/journals/10022/contents/01/00034/papers, Accessed 2001.
  • McDonald, B., RECON waste minimisation and environmental programme. Proceedings of CIB Commission Meetings and Presentations. pp14–16. Melbourne, Australia, RMIT. (1996).
  • Mindess, S., Young, F. and Darwin, D., Concrete. Upper Saddle River, NJ: Prentice Hall. (2003).
  • Mulheron, M., The recycling of demolition debris, current practice, products and standards in the United Kingdom. pp510–519. Demolition and reuse of concrete and masonry, reuse of demolition waste, Chapman and Hall, London. (1988).
  • Nishibayashi, S. and Yamura, K., Mechanical properties and durability of concrete from recycled coarse aggregate prepared by crushing concrete. Demolition and Reuse of Concrete and Masonry. pp652–659. London: Chapman and Hall. (1988).
  • Ofori, G., The environment: the fourth construction project objective? Construction Management and Economics. Volume 10, No 5, pp369 395. (1992).
  • Poon, C.S., Management and recycling of demolition waste in Hong Kong. Proceedings, 2nd International Conference on Solid Waste Management. pp433–442. Taipei, Taiwan, Academy of Natural Sciences of Philadelphia, United States (2000).
  • Poon, C.S., Azhar, S. and Kou, S.C., Recycled aggregates for concrete applications. Materials Science and Technology in Engineering Conference - Now, New and Next, pp14–16. (2003).
  • Rogoff, M.J. and Williams, J.F., Approaches to implementing solid waste recycling facilities. Noyes, Park Ridge, NJ. (1994).
  • Roos, D.I.F. Verification of the dimensioning values for concrete with recycled concrete aggregate, See http://www.b-im.de/public/TUM/dundeeroos.htm, Accessed 2003.
  • Sagoe-Crentsil, K.K., Brown, T. and Taylor, A.H., Performance of concrete made with commercially produced coarse recycled concrete aggregate. Cement and Concrete Research. Volume 31, pp707–712. (2001).
  • Sealey, B.J., Phillips, P.S. and Hill, G.J., Waste management issues for the UK ready-mixed concrete industry. Resources, Conservation and Recycling. Volume 32, No 3–4, pp321–331. (2001).
  • Teranishi, K., Kikuchi, M., Dosho, Y. and Narikawa, M., Application of recycled aggregate concrete for structural concrete: part 3 production of recycled aggregate by real-scale plant and quality of recycled aggregate concrete. Sustainable construction: use of recycled concrete aggregate: proceedings of the International Symposium. pp143–156. UK London: Thomas Telford. London (1998).
  • Tomosawa, F. and Noguchi, T., New technology for the recycling of concrete – Japanese experience, Concrete technology for a sustainable development in the 21st century. pp274–287. London: New York: E & FN Spon. (2000).
  • Topcu, I.B., Physical and mechanical properties of concrete produced with waste concrete. Cement and Concrete Research. Volume 27, No 12, pp1817–1823. (1997).
  • Torring, M., Management of concrete demolition waste. Concrete technology for a sustainable development in the 21st century. pp321–331. London: New York: E & FN Spon. (2000).
  • Troxell, G.E. and Davis, H.E., Composition and properties of concrete. New York: McGraw-Hill. (1968).
  • United Nations Centre for Human Settlements, People, settlements, environment and development. Nairobi, United Nations Centre for Human Settlements. (1990).
  • United Nations Centre for Human Settlements, Development of national capacity for environmental sound construction. United Nations Centre for Human Settlements, Nairobi. (1993).
  • Vyncke, J. and Rousseau, E., Recycling of construction and demolition waste in Belgium: actual situation and future evaluation. 3rd International RILEM Symposium on Demolition and Reuse of Concrete Masonry. pp57–69. London (1993).
  • Works Bureau Technical Circular, Specificatiosn facilitating the use of recycled aggregate. Works Bureau Technical Circular, HKSAR Government. (2002).
  • Worldwatch Institute, State of the world 1995. New York, Norton (1995).
  • Xiao, J., Li, J. and Zhang, C., Mechanical properties of recycled aggregate concrete under uniaxial loading. Cement and Concrete Research. Volume 35, No 6, pp1187–1194. (2005).
  • Yanagi, K., Hisaka, M. and Kasai, Y., Physical properties of recycled concrete using recycled coarse aggregate made of concrete with finishing materials. Demolition and Reuse of Concrete and Masonry: Guidelines for Demolition and Reuse of Concrete and Masonry: Proceedings of the Third International RILEM Symposium on Demolition and Reuse of Concrete Masonry. pp379–390. London: E&FN Spon. (1993).
  • Yrjanson, W., Recycling of portland cement concrete pavements. National Cooperative Highway Research Programme Synthesis of Highway Practice 154. Transportation Research Board, Washington DC, United States (1989).

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.