Show simple item record

dc.contributor.authorTrinugroho, Suhendro
dc.contributor.authorRifa’i, Mochtar
dc.date.accessioned2013-11-08T01:21:00Z
dc.date.available2013-11-08T01:21:00Z
dc.date.issued2012-12-18
dc.identifier.citation--- 1999. Perubahan Atas Peraturan Pemerintah No. 18 Tahun 1999 Tentang Pengelolaan Limbah Bahan Berbahaya dan Beracun. In: INDONESIA, P. R. (ed.) No. 18/ 1999. Jakarta. ACI 226-3R-87 1987. Use of Fly Ash in Concrete: reported by ACI Committee 226. ACI MATERIALS JOURNAL, Sep-Oct 1987, 381-409. 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 ATIS, C. D. 2003. High-Volume Fly Ash Concrete with High Strength and Low Drying Shrinkage. ASCE JOURNAL OF MATERIALS IN CIVIL ENGINEERING March-April, 153-156. BAOJU, L., YOUJUN, X., SHIQIONG, Z. & JIAN, L. 2001. Some factors affecting early compressive strength of steam-curing concrete with ultrafine fly ash. Cement and Concrete Research Vol. 31, 1455–1458. BARBHUIYA, S. A., GBAGBO, J. K., RUSSELL, M. I. & BASHEER, P. A. M. 2009. Properties of fly ash concrete modified with hydrated lime and silica fume. Construction and Building Materials Vol. 23, 3233– 3239. CROUCH, L. K., HEWITT, R. & BYARD, B. 2007. High volume fly ash concrete. 2007 World coal ash (WOCA). Northern Kentucky, USA. 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. 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. MCCARTHY, M. J. & DHIR, R. K. 2005. Development of high volume fly ash cements for use in concrete construction. Fuel, Vol. 84, 1423 - 1432. 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). MOORE, D. 1995. T h e R i d d l e o f A n c i e n t R om a n C o n c r e t e [Online]. Roman Concrete. [Accessed 12/11 2012]. NAIK, T. R., SINGH, S. & RAMME, B. 1998. Mechanical Properties and Durability of Concrete Made with Blended Fly Ash. ACI Materials Journal, July-August, 454 - 460. OBLA, K. H., HILL, R. L., THOMAS, M. D. A., SHASHIPRAKASH, S. G. & PEREBATOVA, O. 2003. Properties of Concrete Containing Ultra-Fine Fly Ash. ACI MATERIALS JOURNAL, Sept.-Okt. 2003, 426433. 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. PAYA, J., MONZO, J., PERIS-MORA, BORRACHERO, M. V., TERCERO, R. & PINILLOS, C. 1995. EarlyStrength Development of Portland Cement Mortars Containing Air Classified Fly Ashes. Cement and Concrete Research, Vol, 25, 449-456. SATA, V., JATURAPITAKKUL, C. & KIATTIKOMOL, K. 2007. Influence of pozzolan from various by-product materials on mechanical properties of high-strength concrete. Construction and Building Materials, 21, 15891598. SIDDIQUE, R. 2004 Performance characteristics of high-volume Class F fly ash concrete. Cement and Concrete Research Vol. 34 487–493. 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. 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. TORII, K., TANIGUCHI, K. & KAWAMURA, M. 1995. Sulfate Resistance of High Fly Ash Content Concrete. Cement and Concrete Research, Vol. 25, 759 - 768. TRIHADININGRUM, Y. & SARI, Y. 2004. Kajian Status Limbah Abu Batu Bara Sebagai Limbah Bahan Berbahaya dan Beracun. Jurnal Natur Indonesia, Vol. 7, 27 - 31. XU, A. 1997. Fly ash in concrete, New jersey, Noyes Publications.en_US
dc.identifier.issn1412-9612
dc.identifier.urihttp://hdl.handle.net/11617/3766
dc.description.abstractPemakaian beton sebagai bahan konstruksi yang paling banyak digunakan menimbulkan efek samping meningkatnya jumlah emisi gas rumah kaca yang dilepaskan ke atmosfer. Untuk mengurangi dampak buruk tersebut pemakaian high volume fly ash concrete untuk menggantikan pemakaian beton normal menjadi salah satu solusi yang tepat. Makalah ini menampilkan kajian literature mengenai segi teknis teknologi tersebut, penerapan dan upaya mengatasi hambatan dipakainya teknologi ini. Hasil kajian menunjukkan teknologi ini memiliki keunggulan terutama durabilitasnya dibandingkan beton normal dan telah terbukti dipakai pada banyak bangunan. Upaya mengatasi lambatnya perkembangan kuat tekan dapat dilakukan dengan beberapa cara yaitu: pemakaian kadar air yang rendah, penghalusan partikel fly ash, pemakaian kapur dalam campuran beton dan pemakaian temperature yang tinggi untuk perawatannya.en_US
dc.publisherUniversitas Muhammadiyah Surakartaen_US
dc.subjectfly ashen_US
dc.subjectdurabilitasen_US
dc.subjectpenghalusanen_US
dc.subjectkapuren_US
dc.subjecttemperature tinggien_US
dc.titleUpaya Meningkatkan Performa High Volume Fly Ash Concrete Sebagai Bahan Konstruksi Ramah Lingkungan: Sebuah Kajian literatureen_US
dc.typeArticleen_US


Files in this item

Thumbnail

This item appears in the following Collection(s)

Show simple item record