Abstract
In building stones, discontinuities, non-uniformity, and irregular shape are among the problems that reduce the quality of products. Stone blocks, slabs, and tiles are the main products of quarries and stone processing plants. Quantifying the quality is a key factor in valuation of these products. This paper proposes a quality factor formula to determine the quality of stone blocks (three-dimensional) and products from stone processing plants (two-dimensional). This factor, which shows the uniformity and esthetic index of a piece of stone, is determined based on the shape quality (α), number, size, and esthetic quality (β) of the pieces and the discontinuity factor (γ) that separates the pieces. The quality factor is defined in a way that each previously mentioned characteristic of a piece is involved in the quality factor formula calculation. The quality factor ranges between 0 and 1 and can be expressed as a percentage. The proposed quality factor was calculated for a number of different stone blocks, slabs, and tiles to examine the validity of the quality factor formula. The results showed that the shape quality is the most significant parameter in determining the quality of stone blocks in quarries. Moreover, in processing plant products the esthetic quality and the number of stone pieces in a product are the key factors for determination of their quality. The discontinuity factor is a parameter that reduces the quality of stone products significantly. Furthermore, the quality factor formula can be used as a convenient tool for classifying the products of quarries and stone processing plants.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Akkoyun O, Toprak ZF (2012) Fuzzy-based quality classification model for natural building stone blocks. Eng Geol 133:66–75
Álvarez-Fernández MI, González-Nicieza C, Álvarez-Vigil AE, Alejano L (2012) Geometrical design of ornamental stone slabs cutting using the neutral region concept. Int J Rock Mech Min Sci 52:31–39
Ar I, Akgul YS (2008) A generic system for the classification of marble tiles using Gabor filters. In: Computer and information sciences, 2008. ISCIS’08. 23rd International Symposium on. IEEE, pp 1–6
Ashmole I, Motloung M (2008) Dimension stone: the latest trends in exploration and production technology. In: Proceedings of the International Conference on Surface Mining, pp 5–8
Carvalho JF, Henriques P, Falé P, Luís G (2008) Decision criteria for the exploration of ornamental-stone deposits: application to the marbles of the Portuguese Estremoz Anticline. Int J Rock Mech Min Sci 45(8):1306–1319
Deviren M, Balci MK, Leloglu UM, Severcan M (2000) A feature extraction method for marble tile classification. In: International conference on computer vision, pattern recognition and image processing, Atlantic City, NJ, pp 25–28
Egesi N, Tse C (2011) Dimension stone: exploration, evaluation and exploitation in southwest parts of Oban Massif Southeastern Nigeria. J Geol Min Res 3(4):114–122
Elmouttie M, Krähenbühl G, Poropat G (2013) Robust algorithms for polyhedral modelling of fractured rock mass structure. Comput Geotech 53:83–94
Fernández-de Arriba M, Díaz-Fernández ME, González-Nicieza C, Álvarez-Fernández MI, Álvarez-Vigil AE (2013) A computational algorithm for rock cutting optimisation from primary blocks. Comput Geotech 50:29–40
Fort R, de Buergo MA, Perez-Monserrat E, Varas MJ (2010) Characterisation of monzogranitic batholiths as a supply source for heritage construction in the northwest of Madrid. Eng Geol 115(3):149–157
Goodman RE, Shi G-H (1985) Block theory and its application to rock engineering. Prentice-Hall, Englewood Cliffs, pp 9–98
Jing L, Stephansson O (2007) Fundamentals of discrete element methods for rock engineering: theory and applications. Elsevier, Amsterdam, pp 199–232
Latham J-P, Van Meulen J, Dupray S (2006) Prediction of in situ block size distributions with reference to armourstone for breakwaters. Eng Geol 86(1):18–36
Lu J (2002) Systematic identification of polyhedral rock blocks with arbitrary joints and faults. Comput Geotech 29(1):49–72
Luis-Delgado J, Martinez-Alajarin J, Tomas-Balibrea L (2003) Classification of marble surfaces using wavelets. Electron Lett 39(9):1
Luodes H, Selonen O, Pääkkönen K (2000) Evaluation of dimension stone in gneissic rocks—a case history from southern Finland. Eng Geol 58(2):209–223
Martinez-Alajarin J (2004) Supervised classification of marble textures using support vector machines. Electron Lett 40(11):1
Morales Demarco M, Oyhantçabal P, Stein K-J, Siegesmund S (2011) Black dimensional stones: geology, technical properties and deposit characterization of the dolerites from Uruguay. Environ Earth Sci 63(7–8):1879–1909
Morote-Martínez V, Pascual-Sánchez V, Martín-Martínez JM (2008) Improvement in mechanical and structural integrity of natural stone by applying unsaturated polyester resin-nanosilica hybrid thin coating. Eur Polymer J 44(10):3146–3155
Morote-Martínez V, Torregrosa-Coque R, Martín-Martínez JM (2011) Addition of unmodified nanoclay to improve the performance of unsaturated polyester resin coating on natural stone. Int J Adhes Adhes 31(3):154–163
Mosch S, Nikolayew D, Ewiak O, Siegesmund S (2011) Optimized extraction of dimension stone blocks. Environ Earth Sci 63(7–8):1911–1924
Mustafa S, Khan MA, Khan MR, Hameed F, Mughal MS, Asghar A, Niaz A (2015) Geotechnical study of marble, schist, and granite as dimension stone: a case study from parts of Lesser Himalaya, Neelum Valley Area, Azad Kashmir, Pakistan. Bull Eng Geol Env 74(4):1475–1487
Mustafa S, Khan MA, Khan MR, Sousa LM, Hameed F, Mughal MS, Niaz A (2016) Building stone evaluation—a case study of the sub-Himalayas, Muzaffarabad region, Azad Kashmir, Pakistan. Eng Geol 209:56–69
Mutlutürk M (2007) Determining the amount of marketable blocks of dimensional stone before actual extraction. J Min Sci 43(1):67–72
Ozcelik Y (2011) Determination of the regions used as facing and building stone according to the material characteristics in an andesite quarry. Eng Geol 118(3):104–109
Palmström A, Sharma VI, Saxena K (2001) In-Situ Characterization of rocks. AA Balkema Publishers, Lise/Abingdon/Exton (PA)/Tokio
Pinto JC, Sousa JM, Alexandre H (2003) New distance measures applied to marble classification. In: Sanfeliu A, Ruiz-Shulcloper J (eds) Progress in pattern recognition, speech and image analysis: 8th Iberoamerican Congress on Pattern Recognition, CIARP 2003, Havana, Cuba, November 26–29, 2003 Proceedings. Springer, Berlin Heidelberg, pp 383–390
Reddy DV (2002) Evaluation of natural defects in commercial decorative rock deposits in Karnataka, India. Gondwana Res 5(2):557–560
Sambuelli L, Calzoni C (2010) Estimation of thin fracture aperture in a marble block by GPR sounding. Boll di Geofis Teor ed Appl 51(2–3):239–252
Selonen O, Luodes H, Ehlers C (2000) Exploration for dimensional stone—implications and examples from the Precambrian of southern Finland. Eng Geol 56(3):275–291
Selver MA, Akay O, Alim F, Bardakçı S, Ölmez M (2011) An automated industrial conveyor belt system using image processing and hierarchical clustering for classifying marble slabs. Robot Comput Integr Manuf 27(1):164–176
Shakas A, Linde N (2015) Effective modeling of ground penetrating radar in fractured media using analytic solutions for propagation, thin-bed interaction and dipolar scattering. J Appl Geophys 116:206–214
Siegesmund S, Nikolayev D, Hoffmann A, Mosch S (2007) 3D-block-expert. Naturstein 5(2007):102–107
Smith J (2004) Determining the size and shape of blocks from linear sampling for geotechnical rock mass classification and assessment. J Struct Geol 26(6):1317–1339
Sohrabian B, Ozcelik Y (2012) Joint simulation of a building stone deposit using minimum/maximum autocorrelation factors. Constr Build Mater 37:257–268
Sousa LM (2007) Granite fracture index to check suitability of granite outcrops for quarrying. Eng Geol 92(3):146–159
Sousa L (2010) Evaluation of joints in granitic outcrops for dimension stone exploitation. Q J Eng GeolHydrogeol 43(1):85–94
Sousa JM, Pinto JRC (2004) Comparison of intelligent classification techniques applied to marble classification. International Conference Image Analysis and Recognition. Springer, Berlin, pp 802–809
Taboada J, Vaamonde A, Saavedra A (1999) Evaluation of the quality of a granite quarry. Eng Geol 53(1):1–11
Turanboy A (2010) A geometric approach for natural rock blocks in engineering structures. Comput Geosci 14(4):565–577
Vázquez P, Alonso F, Carrizo L, Molina E, Cultrone G, Blanco M, Zamora I (2013) Evaluation of the petrophysical properties of sedimentary building stones in order to establish quality criteria. Constr Build Mater 41:868–878
Wang L, Yamashita S, Sugimoto F, Pan C, Tan G (2003) A methodology for predicting the in situ size and shape distribution of rock blocks. Rock Mech Rock Eng 36(2):121–142
Yarahmadi R, Bagherpour R, Kakaie R, Mirzaie NH, Yari M (2014a) Development of 2D computer program to determine geometry of rock mass blocks. Int J Min Sci Technol 24(2):191–194
Yarahmadi R, Bagherpour R, Khademian A (2014b) Safety risk assessment of Iran’s dimension stone quarries (exploited by diamond wire cutting method). Saf Sci 63:146–150
Yarahmadi R, Bagherpour R, Sousa LM, Taherian S-G (2015) How to determine the appropriate methods to identify the geometry of in situ rock blocks in dimension stones. Environ Earth Sci 74(9):6779–6790
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Yarahmadi, R., Bagherpour, R., Taherian, SG. et al. A new quality factor for the building stone industry: a case study of stone blocks, slabs, and tiles. Bull Eng Geol Environ 78, 533–542 (2019). https://doi.org/10.1007/s10064-017-1040-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10064-017-1040-5