How to cite this paper
Sonphuak, W & Rojanarowan, N. (2013). Strength improvement of fibre cement product.International Journal of Industrial Engineering Computations , 4(4), 505-516.
Refrences
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Alamshahi, V., Taeb, A., Ghaffarzadeh, R., & Rezaee, M.A. (2012). Effect of composition and length of PP and polyester fibres on mechanical properties of cement based composites. Construction and Building Materials, 36, 534-537.
Aruntas, H.Y., Cemalgil, S., Simsek, O., Durmus, G., & Erdal, M. (2008). Effects of super plasticizer and curing conditions on properties of concrete with and without fiber. Materials Letters, 62, 3441-3443.
Automotive Industry Action Group (AIAG). (2002). Measurement Analysis (MSA). 3rd ed. Michigan, USA.
Automotive Industry Action Group (AIAG). (2001). Potential Failure Mode and Effects Analysis. 3rd ed. Michigan, USA.
Bezerra, E.M., Joaquim, A.P., Savastano Jr. H., John, V.M., & Agopyan, V. (2006). The effect of different mineral additions and synthetic fiber contents on properties of cement based composites. Cement and Concrete Composites, 28, 555-563.
Felekoglu, B., Tosan, K., & Baradan, B. (2009). Effects of fibre type and matrix structure on the mechanical performance of self-compacting micro-concrete composites. Cement and Concrete Research, 39, 1023-1032.
Gutierrez, R.M., Diaz, L.N., & Delvasto, S. (2005). Effect of pozzolans on the performance of fiber-reinforced mortars. Cement and Concrete Composites, 27, 593-598.
Ikai, S., Reichert, J.R., Rodrigues, A.V., & Zampieri, V.A. (2009). Asbestos-free technology with new high toughness polypropylene (PP) fibres in air-cured Hatscheck process. Construction and Building Materials, 24, 171-180.
Kavas, T., Sabah, E., & Celik, M.S. (2004). Structural properties of sepiolite-reinforced cement composite. Cement and Concrete Research, 34, 2135-2139.
Khorami, M., & Ganjian, E. (2011). Comparing flexural behavior of fibre-cement composites reinforced bagasse:Wheat and eucalyptus. Construction and Building Materials, 25, 3661-3667.
Kus, H., Ozgur, E., & John, V.M. (2006). Effects of process parameters on physical and mechanical properties of fiber-cement sheets. Inorganic Bonded Fiber Composites Conference.
MacVicar, R., Matuana, L.M., & Balatinecz, J.J. (1999). Aging mechanisms in cellulose fiber reinforced cement composites. Cement and Concrete Composites, 21, 189-196.
Montgomery, D.C. (2012). Design and analysis of experiments. John Wiley & Sons.
Negro, C., Sanchez, L.M., Fuente, H., & Blanco, A. (2005). Effects of flocculants and sizing agents on bending strength of fiber cement composites. Cement and Concrete Research, 35, 2104-2109.
Pyzdek, T. (2003). The Six Sigma handbook revised and expanded. McGraw-Hill.
Sahoo, A.K., Tiwari, M.K., & Mileham, A.R. (2007). Six Sigma based approach to optimize radial forging operation variables. Journal of Materials Processing Technology, 202, 125-136.
Sokovic, M., Pavletic, D., & Krulcic, E. (2006). Six Sigma process improvements in automotive parts production. Journal of Achievements in Materials and Manufacturing Engineering, 19, 96-102.
Soroushian, P., Won, J.P., & Hassen, M. (2012). Durability characteristics of CO2-cured fiber reinforced cement composites. Construction and Building Materials, 34, 44-53.
Su, C.T., & Chou, C.J. (2008). A systematic methodology for the creation of Six Sigma projects: A case study of semiconductor foundry. Expert Systems with Applications, 34, 2693-2703.
Tonoli, G.H.D., Santos, S.F., Joaquim, A.P., & Savastano Jr. H. (2010). Effect of accelerated carbonation on cementitious roofing tiles reinforced with lignocellulosic fibre. Construction and Building Materials, 24, 193-201.
Alamshahi, V., Taeb, A., Ghaffarzadeh, R., & Rezaee, M.A. (2012). Effect of composition and length of PP and polyester fibres on mechanical properties of cement based composites. Construction and Building Materials, 36, 534-537.
Aruntas, H.Y., Cemalgil, S., Simsek, O., Durmus, G., & Erdal, M. (2008). Effects of super plasticizer and curing conditions on properties of concrete with and without fiber. Materials Letters, 62, 3441-3443.
Automotive Industry Action Group (AIAG). (2002). Measurement Analysis (MSA). 3rd ed. Michigan, USA.
Automotive Industry Action Group (AIAG). (2001). Potential Failure Mode and Effects Analysis. 3rd ed. Michigan, USA.
Bezerra, E.M., Joaquim, A.P., Savastano Jr. H., John, V.M., & Agopyan, V. (2006). The effect of different mineral additions and synthetic fiber contents on properties of cement based composites. Cement and Concrete Composites, 28, 555-563.
Felekoglu, B., Tosan, K., & Baradan, B. (2009). Effects of fibre type and matrix structure on the mechanical performance of self-compacting micro-concrete composites. Cement and Concrete Research, 39, 1023-1032.
Gutierrez, R.M., Diaz, L.N., & Delvasto, S. (2005). Effect of pozzolans on the performance of fiber-reinforced mortars. Cement and Concrete Composites, 27, 593-598.
Ikai, S., Reichert, J.R., Rodrigues, A.V., & Zampieri, V.A. (2009). Asbestos-free technology with new high toughness polypropylene (PP) fibres in air-cured Hatscheck process. Construction and Building Materials, 24, 171-180.
Kavas, T., Sabah, E., & Celik, M.S. (2004). Structural properties of sepiolite-reinforced cement composite. Cement and Concrete Research, 34, 2135-2139.
Khorami, M., & Ganjian, E. (2011). Comparing flexural behavior of fibre-cement composites reinforced bagasse:Wheat and eucalyptus. Construction and Building Materials, 25, 3661-3667.
Kus, H., Ozgur, E., & John, V.M. (2006). Effects of process parameters on physical and mechanical properties of fiber-cement sheets. Inorganic Bonded Fiber Composites Conference.
MacVicar, R., Matuana, L.M., & Balatinecz, J.J. (1999). Aging mechanisms in cellulose fiber reinforced cement composites. Cement and Concrete Composites, 21, 189-196.
Montgomery, D.C. (2012). Design and analysis of experiments. John Wiley & Sons.
Negro, C., Sanchez, L.M., Fuente, H., & Blanco, A. (2005). Effects of flocculants and sizing agents on bending strength of fiber cement composites. Cement and Concrete Research, 35, 2104-2109.
Pyzdek, T. (2003). The Six Sigma handbook revised and expanded. McGraw-Hill.
Sahoo, A.K., Tiwari, M.K., & Mileham, A.R. (2007). Six Sigma based approach to optimize radial forging operation variables. Journal of Materials Processing Technology, 202, 125-136.
Sokovic, M., Pavletic, D., & Krulcic, E. (2006). Six Sigma process improvements in automotive parts production. Journal of Achievements in Materials and Manufacturing Engineering, 19, 96-102.
Soroushian, P., Won, J.P., & Hassen, M. (2012). Durability characteristics of CO2-cured fiber reinforced cement composites. Construction and Building Materials, 34, 44-53.
Su, C.T., & Chou, C.J. (2008). A systematic methodology for the creation of Six Sigma projects: A case study of semiconductor foundry. Expert Systems with Applications, 34, 2693-2703.
Tonoli, G.H.D., Santos, S.F., Joaquim, A.P., & Savastano Jr. H. (2010). Effect of accelerated carbonation on cementitious roofing tiles reinforced with lignocellulosic fibre. Construction and Building Materials, 24, 193-201.