M SHOLIKIN DAFTAR PUSTAKA
DAFTAR PUSTAKA
ASTM C 618-03 2003. Standard specification for fly ash and raw calcined natural pozzolan for use as
mineral admixture in portland cement concrete. Philadelphia, United States: Annual Book of
ASTM Standard
BILODEAU, A. & MALHOTRA, V. M. 2000. High-Volume Fly ash System: Concrete Solution for
Sustainable Development. ACI MaterialsJournal, January-February 2000, 41-50.
COPELAND, K. D., OBLA, K. H., HILL, R. L. & THOMAS, M. D. A. Ultra Fine Fly ash for High
Performance Concrete. In: HANCHER, D. E., ed. Construction Institute sessions at the
ASCE 2001 Civil Engineering Conference, 2001 Houston, Texas, USA. American Society of
Civil Engineering, 209.
ELSAGEER, M. A., MILLARD, S. G. & BARNETT, S. J. 2009. Strength development of concrete
containing coal fly ash under different curing temperature conditions World of Coal Ash
(WOCA) Conference. Lexington, KY, USA.
FLOWER, D. J. M. & SANJAYAN, J. G. 2007. Green House Gas Emissions due to Concrete
Manufacture. The International Journal of Life Cycle Assessment, Vol. 12, 282-288.
HANSEN, T. C. 1990. Long-term strength of high fly ash concretes. CEMENT and CONCRETE
RESEARCH, Vol. 20, 193 - 196.
HUMPHREYS, K. & MAHASENAN, M. 2002. Toward a Sustainable Cement Industry. Substudy 8:
Climate Change. Bonn, Germany: ICLEI - Local Governments for Sustainability.
KOSMATKA, S. H., KERKHOFF, B. & PANARES, W. C. 2003. Design and Control of Concrete
Mixtures 14th edition, Skokie, Illinois, USA, Portland Cement Association.
MALHOTRA, V. M. 1999. Making concrete greener with fly ash. Concrete International. Detroit:
American Concrete Institute.
MALHOTRA, V. M. & MEHTA, P. K. 2005. High Performance, High-Volume Fly ash Concrete:
materials, mixture proportioning, properties, construction practice, and case histories. ,
Ottawa, Canada, Suplementary Cementing Materials for Sustainable Development Inc.,
Ottawa Canada.
MEHTA, P. K. 1986. Concrete: Structure, Properties, and Materials, New Jersey, USA, Prentice
Hall, Inc.
MEHTA, P. K. 2004. HIGH-PERFORMANCE, HIGH-VOLUME FLY ASH CONCRETE FOR
SUSTAINABLE DEVELOPMENT. International Workshop on Sustainable Development
and Concrete Technology. Beijing: IOWA State University.
MEHTA, P. K. & MERYMAN, H. 2009. Tools for Reducing Carbon Emissions Due to Cement
Consumption STRUCTURE. Wisconsin, U S: National Council of Engineers Associations
(NCSEA).
NAWY, E. G. 1996. Fundamentals of High Strength High Performance Concrete, London, UK,
Longman Group Limited.
OFICEMEN. 2011. Industrial Revolution [Online]. Madrid: http://www.oficemen.com. [Accessed
12/09/2011 2011].
ONER, A., AKYUZ, S. & YILDIZ, R. 2005. An experimental study on strength development of
concrete containing fly ash and optimum usage of fly ash in concrete. Cement and Concrete
Research Vol. 35, 1165– 1171.
RAMEZANIANPUR, A. A. & MALHOTRA, V. M. 1995. Effect of curing on compressive strength,
resistance to chloride-ion penetration and porosity of concretes incorporating slag, fly ash or
silica fume. Cement and Concrete Composites, Vol. 17, 125-133.
SIDDIQUE, R. 2004 Performance characteristics of high-volume Class F fly ash concrete. Cement
and Concrete Research Vol. 34 487–493.
SIVASUNDARAM, V., CARETTE, G. G. & MALHOTRA, V. M. 1990. Long-Term Strength
Development of High-Volume Fly ash Concrete. Cement & Concrete Composites Vol. 12
263-270.
SOLIKIN, M., SETUNGE, S. & PATNAIKUNI, I. 2011. The Influence of Lime Water as Mixing
Water on The Compressive Strength Development of High volume Ultra Fine Fly ash Mortar.
68 | P a g e
In: CHEUNG, S. O., YAZDANI, S., GHAFOORI, N. & SINGH, A. (eds.) Modern Methods
and Advances in Structural Engineering and Construction. Zurich, Switzerland: Research
Publishing Services.
SUFRIADY. 2010. Pemanfaatan limbah debu terbang batubara (fly ash), kulit kerang, dan batu
apung (pumice) sebagai bahan substitusi semen dan pasir dalam pembuatan batako. Master,
Universitas Sumatera Utara.
SULE, D. & MATASAK, T. 2012. KUALITAS LOW RANK COAL DAN DAMPAK SERTA
PENANGANANNYA PADA UNIT POWER PLANT. Training. Bandung.
SUPRAPTO, S. 2009. Blending Batubara untuk pembangkit listrik - studi kasus PLTU Suralaya unit
1 - 4. Jurnal teknologi mineral dan batubara, Vol. 5, 31 - 39.
WULANDARI, F. 2013. Indonesia’s 2013 Coal Output May Rise 5.2%, Association Says.
Bloomberg.
XU, A. 1997. Fly ash in concrete, New jersey, Noyes Publications.
69 | P a g e
ASTM C 618-03 2003. Standard specification for fly ash and raw calcined natural pozzolan for use as
mineral admixture in portland cement concrete. Philadelphia, United States: Annual Book of
ASTM Standard
BILODEAU, A. & MALHOTRA, V. M. 2000. High-Volume Fly ash System: Concrete Solution for
Sustainable Development. ACI MaterialsJournal, January-February 2000, 41-50.
COPELAND, K. D., OBLA, K. H., HILL, R. L. & THOMAS, M. D. A. Ultra Fine Fly ash for High
Performance Concrete. In: HANCHER, D. E., ed. Construction Institute sessions at the
ASCE 2001 Civil Engineering Conference, 2001 Houston, Texas, USA. American Society of
Civil Engineering, 209.
ELSAGEER, M. A., MILLARD, S. G. & BARNETT, S. J. 2009. Strength development of concrete
containing coal fly ash under different curing temperature conditions World of Coal Ash
(WOCA) Conference. Lexington, KY, USA.
FLOWER, D. J. M. & SANJAYAN, J. G. 2007. Green House Gas Emissions due to Concrete
Manufacture. The International Journal of Life Cycle Assessment, Vol. 12, 282-288.
HANSEN, T. C. 1990. Long-term strength of high fly ash concretes. CEMENT and CONCRETE
RESEARCH, Vol. 20, 193 - 196.
HUMPHREYS, K. & MAHASENAN, M. 2002. Toward a Sustainable Cement Industry. Substudy 8:
Climate Change. Bonn, Germany: ICLEI - Local Governments for Sustainability.
KOSMATKA, S. H., KERKHOFF, B. & PANARES, W. C. 2003. Design and Control of Concrete
Mixtures 14th edition, Skokie, Illinois, USA, Portland Cement Association.
MALHOTRA, V. M. 1999. Making concrete greener with fly ash. Concrete International. Detroit:
American Concrete Institute.
MALHOTRA, V. M. & MEHTA, P. K. 2005. High Performance, High-Volume Fly ash Concrete:
materials, mixture proportioning, properties, construction practice, and case histories. ,
Ottawa, Canada, Suplementary Cementing Materials for Sustainable Development Inc.,
Ottawa Canada.
MEHTA, P. K. 1986. Concrete: Structure, Properties, and Materials, New Jersey, USA, Prentice
Hall, Inc.
MEHTA, P. K. 2004. HIGH-PERFORMANCE, HIGH-VOLUME FLY ASH CONCRETE FOR
SUSTAINABLE DEVELOPMENT. International Workshop on Sustainable Development
and Concrete Technology. Beijing: IOWA State University.
MEHTA, P. K. & MERYMAN, H. 2009. Tools for Reducing Carbon Emissions Due to Cement
Consumption STRUCTURE. Wisconsin, U S: National Council of Engineers Associations
(NCSEA).
NAWY, E. G. 1996. Fundamentals of High Strength High Performance Concrete, London, UK,
Longman Group Limited.
OFICEMEN. 2011. Industrial Revolution [Online]. Madrid: http://www.oficemen.com. [Accessed
12/09/2011 2011].
ONER, A., AKYUZ, S. & YILDIZ, R. 2005. An experimental study on strength development of
concrete containing fly ash and optimum usage of fly ash in concrete. Cement and Concrete
Research Vol. 35, 1165– 1171.
RAMEZANIANPUR, A. A. & MALHOTRA, V. M. 1995. Effect of curing on compressive strength,
resistance to chloride-ion penetration and porosity of concretes incorporating slag, fly ash or
silica fume. Cement and Concrete Composites, Vol. 17, 125-133.
SIDDIQUE, R. 2004 Performance characteristics of high-volume Class F fly ash concrete. Cement
and Concrete Research Vol. 34 487–493.
SIVASUNDARAM, V., CARETTE, G. G. & MALHOTRA, V. M. 1990. Long-Term Strength
Development of High-Volume Fly ash Concrete. Cement & Concrete Composites Vol. 12
263-270.
SOLIKIN, M., SETUNGE, S. & PATNAIKUNI, I. 2011. The Influence of Lime Water as Mixing
Water on The Compressive Strength Development of High volume Ultra Fine Fly ash Mortar.
68 | P a g e
In: CHEUNG, S. O., YAZDANI, S., GHAFOORI, N. & SINGH, A. (eds.) Modern Methods
and Advances in Structural Engineering and Construction. Zurich, Switzerland: Research
Publishing Services.
SUFRIADY. 2010. Pemanfaatan limbah debu terbang batubara (fly ash), kulit kerang, dan batu
apung (pumice) sebagai bahan substitusi semen dan pasir dalam pembuatan batako. Master,
Universitas Sumatera Utara.
SULE, D. & MATASAK, T. 2012. KUALITAS LOW RANK COAL DAN DAMPAK SERTA
PENANGANANNYA PADA UNIT POWER PLANT. Training. Bandung.
SUPRAPTO, S. 2009. Blending Batubara untuk pembangkit listrik - studi kasus PLTU Suralaya unit
1 - 4. Jurnal teknologi mineral dan batubara, Vol. 5, 31 - 39.
WULANDARI, F. 2013. Indonesia’s 2013 Coal Output May Rise 5.2%, Association Says.
Bloomberg.
XU, A. 1997. Fly ash in concrete, New jersey, Noyes Publications.
69 | P a g e