CHARACTERIZATION OF CLAY MATERIALS USED FOR POTTERY PURPOSES FROM RENDENG, MALO, BOJONEGORO

Dyah Setyaningrum, Sujiat Sujiat, Aprilia Nur Azizah

Abstract


Clay material from Rendeng, Malo, Bojonegoro was studied by mineralogy and physicochemical characterization to evaluate its potential suitability as a raw material in pottery application. X-ray Diffraction (XRD) and Fourier Transform-Infrared (FTIR) spectrometry were used to establish the mineralogy composition. Meanwhile the physical properties were identified by particle size distribution and consistency limits. Chemical composition was carried out by X-ray Fluorescence Spectrometer (XRF).  The results of XRD characterization revealed that clay from Rendeng Village, Malo, Bojonegoro contained  kaolin, quartz, and feldspar. Physical characterization shows that clay material is a less plastic type based on Atterberg method. Based on the chemical compositions indicated that SiO2, Al2O3, CaO, and Fe2O3 were abundance oxides. Therefore, clay from Desa Rendeng was only suitable for the pottery purposes because most of its mineral compositions did not meet the quality requirements for making advanced ceramics.


Keywords


Clay material; Characterization; Kaolin; Pottery; Malo

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References


El Kasmi S, Zriouil M, Ahmamou M, Barka N. Physico-chemical and mineralogical characterization of clays collected from Akrach region in Morocco. J Mater Environ Sci. 2016;7(10):3767–74.

Gonggo ST, Edyanti F. Physicochemical Characterization Of Clay Minerals As A Raw Material Of Ceramic Industry In Desa Lembah Bomban Kec. Bolano Lambunu Kab. Parigi Moutong. Akad Kim. 2013;2(2):105–13.

Sultana MS, Zaman MN, Rahman MA, Biswas PK, Nandy PK. Mineralogical and Physical Characterization of Clay of Sitakunda Anticline: Used for Ceramic Industries. J Miner Mater Charact Eng. 2018;06(03):333–44.

Ribeiro MJ, Ferreira JM, Labrincha JA. Plastic behaviour of different ceramic pastes processed by extrusion. Ceram Int. 2005;31(4):515–9.

Winarno T. Perbandingan Karakteristik Lempung Kasongan dan Godean Sebagai Bahan Baku Industri Gerabah Kasongan. Teknik. 2016;37(1):41.

Perbup. 33 ttg penetapan kawasan pedesaan.pdf.

Agustinus ETS. Rekayasa Benefisiasi, Pemrosesan Mineral untuk Meningkatkan Nilai Tambah Sumber Daya Mineral Marginal [Internet]. Cetakan Pe. Aprianita TD, editor. Jakarta: LIPI Press; 2019. 148 p. Available from: https://lipipress.lipi.go.id/detailpost/rekayasa-benefisiasi-pemrosesan-mineral-untuk-meningkatkan-nilai-tambah-sumber-daya-mineral-marginal

Ukiman. Karakteristik indeks plastisitas tanah terhadap tegangan geser dan regangan geser. Wahana Tek Sipil [Internet]. 2009;14(1):29–37. Available from: https://ojs.petra.ac.id/ojsnew/index.php/wahana/article/view/17768

Andrade FA, Al-qureshi HA, Hotza D. Applied Clay Science Measuring the plasticity of clays : A review. Appl Clay Sci [Internet]. 2011;51(1–2):1–7. Available from: http://dx.doi.org/10.1016/j.clay.2010.10.028

Bernardin AM. Determination of Clay Plasticity. Appl Clay Sci. 2017;40(October):15–9.

Er-ramly A, Ider A. Physicochemical and Mineralogical Characterization of Moroccan Clay of Taza and Its Use in Ceramic Technology. Am J Nano Res Appl. 2016;4(2):17–22.

Papakosta V, Lopez-Costas O, Isaksson S. Multi-method (FTIR, XRD, PXRF) analysis of Ertebølle pottery ceramics from Scania, southern Sweden. Archaeometry. 2020;62(4):677–93.

Dewi R, Agusnar H, Alfian Z, Tamrin. Characterization of technical kaolin using XRF, SEM, XRD, FTIR and its potentials as industrial raw materials. J Phys Conf Ser. 2018;1116(4).

Halim M El, Daoudi L, Ouahabi M El, Amakrane J. Mineralogy and firing characteristics of clayey materials used for ceramic ! purposes from Sale region ( Morocco ). 2018;9(8):2263–73.

Çelik H. Technological Characterization and Comparison of Two Ceramic Clays Used for Manufacturing of Traditional Ceramic Products in TurkeyTürki̇ye ’ De GelenekselSerami̇kÜrünleri̇nİmalatinda Kullanilan. Mining. 2017;56(4):137–47.

Assila O, Tanji K, Zouheir M, Arrahli A, Nahali L, Zerrouq F, et al. Adsorption Studies on the Removal of Textile Effluent over Two Natural Eco-Friendly Adsorbents. 2020;2020.

Shoval S, Shoval S. Fourier Transform Infrared Spectroscopy (FT-IR) in Archaeological Ceramic Analysis. Oxford Handb Archaeol Ceram Anal. 2016;(April 2018):508–30.




DOI: https://doi.org/10.18860/neu.v14i1.12753

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