Successive mixtures |
[1717 ABD ELRAHMAN, M., HILLEMEIER, B., “Combined effect of fine fly ash and packing density on the properties of high performance concrete: An experimental approach”, Construction and Building Materials, v. 58, pp. 225–233, 2014.] |
312 |
Fuller |
- |
[1818 FRANCO DE CARVALHO, J.M., MELO, T.V., FONTES, W.C., et al. “More eco-efficient concrete: An approach on optimization in the production and use of waste-based supplementary cementing materials”, Construction and Building Materials, v. 206, pp. 397–409, 2019.] |
313.0 - 771.5 (25 values) |
Modified A&A |
0.3 |
[99 PRADHAN, S., KUMAR, S., BARAI, S.V., “Recycled aggregate concrete: Particle Packing Method (PPM) of mix design approach”, Construction and Building Materials, v. 152, pp. 269–284, 2017.] |
410.04 |
Modified A&A |
Not specified |
[1919 SUNAYANA, S., BARAI, S.V., “Recycled aggregate concrete incorporating fly ash: Comparative study on particle packing and conventional method”, Construction and Building Materials, v. 156, pp. 376–386, 2017.] |
316, 361, 410 |
Modified A&A |
0.35 |
[88 YOUSUF, S., SANCHEZ, L.F.M., SHAMMEH, S.A., “The use of particle packing models (PPMs) to design structural low cement concrete as an alternative for construction industry”, Journal of Building Engineering, v. 25, pp. 100815, May. 2019.] |
266, 277, 326, 341, 380, 401 |
Modified A&A |
0.26, 0.31, 0.37 |
[2020 ASHISH, D.K., VERMA, S.K., “Determination of optimum mixture design method for self-compacting concrete: Validation of method with experimental results”, Construction and Building Materials, v. 217, pp. 664–678, 2019.] |
354, 519, 684 |
Manual procedure |
- |
[2121 KANADASAN, J., RAZAK, H.A., “Mix design for self-compacting palm oil clinker concrete based on particle packing”, Materials & Design (1980-2015), v. 56, pp. 9–19, 2014.] |
420 |
Manual procedure |
- |
[2222 SU, N., HSU, K.C., CHAI, H.W., “A simple mix design method for self-compacting concrete”, Cement and Concrete Research, v. 31, n. 12, pp. 1799–1807, 2001.] |
200, 250, 300, 350 |
Manual procedure |
- |
[2323 SU, N., MIAO, B., “A new method for the mix design of medium strength flowing concrete with low cement content”, Cement and Concrete Composites, v. 25, n. 2, pp. 215–222, 2003.] |
200 |
Manual procedure |
- |
[3131 LOPES, H.M.T., PEÇANHA, A.C.C., CASTRO, A.L., “Considerações sobre a eficiência de misturas de concreto de cimento Portland com base no conceito de empacotamento de partículas”, Revista Matéria, v. 25, n. 1, 2020.] |
434.06, 358.1, 347.25, 325.54 |
Manual procedure |
- |
Numerical simulations |
[2424 BARBOZA, L.S., ALMEIDA FILHO, F.M., “Concreto autoadensável com baixo consumo de cimento: impacto da redução do consumo de cimento na resistência à compressão”, Revista Matéria, v. 23, n. 3, 2018.] |
212.3, 239.5, 245.0, 290.0, 310.0 |
Modified A&A |
0.25, 0.3, 0.35, 0.4 |
[77 WANG, X., YU, R., SHUI, Z., et al. “Mix design and characteristics evaluation of an eco-friendly Ultra-High Performance Concrete incorporating recycled coral based materials”, Journal of Cleaner Production, v. 165, pp. 70–80, 2017.] |
637, 675, 712, 750 |
Modified A&A |
0.23 |
[2525 HÜSKEN, G., BROUWERS, H.J.H, “A new mix design concept for earth-moist concrete: A theoretical and experimental study”, Cement and Concrete Research, v. 38, n. 10, pp. 1246–1259, 2008.] |
350 |
Modified A&A |
0.35 |
[2626 YU, R., VAN ONNA, D.V., SPIESZ, P., et al. BROUWERS, H.J.H., “Development of Ultra-Lightweight Fibre Reinforced Concrete applying expanded waste glass”, Journal of Cleaner Production, v. 112, pp. 690–701, 2016.] |
582.1 - 896.3 (12 values) |
Modified A&A |
0.23 |
[2727 YU, R., SPIESZ, P., BROUWERS, H.J.H., “Development of an eco-friendly Ultra-High Performance Concrete (UHPC) with efficient cement and mineral admixtures uses”, Cement and Concrete Composites, v. 55, pp. 383–394, 2015.] |
280 - 480 (15 values) |
4-parameters compressible packing model (CPM) |
- |
[55 DAMINELI, B.L., PILEGGI, R.G., JOHN, V.M., “Influence of packing and dispersion of particles on the cement content of concretes”, Revista IBRACON de Estruturas e Materiais, v. 10, n. 5, pp. 998–1024, 2017.] |
126.9 - 213.8 (7 values) |
Modified Westman & Hugill |
- |
[2828 SUN, Y., WANG, Z., GAO, Q., CHENGUANG, L., “A new mixture design methodology based on the Packing Density Theory for high performance concrete in bridge engineering”, Construction and Building Materials, v. 182, pp. 80–93, 2018.] |
279 |
Sequential particle packing simulation algorithm (Sobolev & Amirjanov, 2004) |
- |
[3434 MELO, C.V.A., GOMES, P.C.C., MORAES, K.A.M., “A study of packing parameters that influence the fresh properties of self-compacting concrete”, Cerâmica, v. 65, n. 375, pp. 432-442, 2019.] |
466.7, 362.3 |
Modified A&A |
0.29 |
[3535 GRAZIA, M.T., SANCHEZ, L.F.M., ROMANO, C.O., et al. “Investigation of the use of continuous particle packing models (PPMs) on the fresh and hardened properties of low-cement concrete (LCC) systems”, Construction and Building Materials, v. 195, p. 524-536, 2019.] |
149, 161, 197, 214, 261, 282 |
Modified A&A |
0.21 e 0.37 |
[3333 ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR NM 45: 2006: Agregados – Determinação da massa unitária e do volume de vazios. Rio de Janeiro, p. 18, 2006.] |
332.16, 364.74, 453.77, 439.75, 607.35, 420.82 |
Modified A&A |
0.16, 0.23, 0.27 |
[3636 BESERRA, A.V.S., DIAS, L.D.S., SANTOS, R.A.., “Análise do comportamento de concreto com adição de cinza de biomassa vegetal submetido ao ataque de íons sulfato”, Revista Matéria, v. 25, n. 4, 2020.] |
413.56, 372.2, 351.5, 330.8 |
Modified A&A |
0.35 |