Permeable pavement system including a permeable pavement composition and a related method

CPC - классификация

CC0C04C04BC04B1C04B18C04B18/C04B18/0C04B18/02C04B18/022C04B18/1C04B18/16C04B18/167C04B2C04B20C04B20/C04B20/0C04B20/00C04B20/006C04B20/0068C04B21C04B211C04B2111C04B2111/C04B2111/0C04B2111/00C04B2111/002C04B2111/0028C04B2111/00284C04B2111/006C04B2111/0061C04B2111/00612C04B2111/007C04B2111/0075C04B2111/3C04B2111/34C04B2111/343C04B2111/6C04B2111/60C04B22C04B220C04B2201C04B2201/C04B2201/5C04B2201/50C04B26C04B26/C04B26/2C04B26/26C04B28C04B28/C04B28/0C04B28/04C08C08JC08J2C08J23C08J230C08J2300C08J2300/C08J2300/3C08J2300/30C08J5C08J5/C08J5/0C08J5/04C08J5/042EE0E01E01CE01C1E01C11E01C11/E01C11/2E01C11/22E01C11/226E01C7E01C7/E01C7/1E01C7/10E01C7/18E01C7/2E01C7/26E01C7/262E01C7/3E01C7/30E01C7/32YY0Y02Y02AY02A3Y02A30Y02A30/Y02A30/3Y02A30/30Y02WY02W3Y02W30Y02W30/Y02W30/9Y02W30/91

IPC - классификация

CC0C04C04BC04B1C04B11C04B111C04B111/C04B111/0C04B111/00C04B111/3C04B111/34C04B18C04B18/C04B18/1C04B18/16C04B18/167C04B2C04B20C04B20/C04B20/0C04B20/00C04B26C04B26/C04B26/2C04B26/26C04B28C04B28/C04B28/0C04B28/02C08C08JC08J5C08J5/C08J5/0C08J5/04EE0E01E01CE01C7E01C7/E01C7/3E01C7/30E01C7/32

Цитирование НПИ

ASTM C1701/C1701M-17, “Standard test Method for infiltration rate of in place pervious concrete,” 2017.
ASTM C1747/C1747M-13, “Standard Test Method for Determining Potential Resistance to Degradation of Pervious Concrete by Impact and Abrasion,” 2015.
ASTM C1754/C1754M-12, “Standard Test Method for Density and Void Content of Hardened Pervious Concrete,” 2012.
ASTM D2041/D2041M-11, “Standard Test Method for Theoretical Maximum Specific Gravity and Density of Bituminous Paving Mixtures,” 2014.
ASTM D3203-05, “Standard Test Method for Percent Air Voids in Compacted Dense and Open Bituminous Paving Mixtures,” 2011.
ASTM D6390-05, “Standard Test Method for Determination of Draindown Characteristics in Uncompacted Asphalt Mixtures,” 2017.
ASTM D7063/D7063M-18, “Standard Test Method for Effective Porosity and Effective Air Voids of Compacted Asphalt Mixture Samples,” 2018.
Harvey, J., et al., “CAL/APT Program-Asphalt Treated Permeable Base (ATPB) Laboratoiy Testing, Performance, Predictions, and Evaluation of the Experience of Caltrans and Other Agencies,” 1999, http://149.136.20.66/hq/research/researchreports/1997-2001/ucprc-rr-1999-05.pdf.
International Search Report and Written Opinion for Application No. PCT/IB2020/053620, dated Jun. 19, 2020.
Li, P., et al., “Characterization of Asphalt Treated Base Course Material,” Jun. 2010, https://scholarworks.alaska.edu/bitstream/handle/11122/7455/Li_Asphalt-Treated-Base-Course-Material_Final11.02.pdf.
Rangelov, M., et al., “Using carbon fiber composites for reinforcing pervious concrete,” Construction and Building Materials, 2016, pp. 875-885.
Scholz, T. V., et al. “Investigating premature pavement failure due to moisture final report,” 2009.
Valeo, C., et al., “Determining surface infiltration rate of permeable pavements with digital imaging,” Water (Switzerland), 2018, vol. 10.
Washington Asphalt Pavement Association (2010). Asphalt Treated Base (ATB). Retrieved Feb. 19, 2019, from http://www.asphaltwa.com/pavement-types-atb/.
Wu, S., et al., “Use of Dynamic Cone Penetrometer in Subgrade and Base Acceptance,” 2007, https://cdm16007.contentdm.oclc.org/digital/api/collection/p267401ccp2/id/2062/page/0/inline/p267401ccp2_2062_0.