LIMA, L. K. S.; http://lattes.cnpq.br/3591582881501268; LIMA, Lizandra Karolyn Silva.
Abstract:
Ceramic membranes present properties that provide high performance in filtration
processes, however, the production cost is still high. Seeking to meet a current
demand, this study aimed to develop ceramic masses, containing as main components
kaolin and alumina, used in porous ceramics production, aiming its application as
tubular membranes. Initially, the raw materials were submitted to the following
characterizations: chemical, granulometric and mineralogical. The alumina, before
being added to kaolin, was subjected to the milling process, and then three
compositions were prepared. The components amount was established considering
the mullite stoichiometry. The formulated compositions were homogenized and
subjected to heat treatment between 1150 and 1250oC, to define the sintering
parameters to be used after a conformation stage. The extrusion process was used to
prepare the membranes, therefore, it was necessary to determine the plasticity
characteristics of the ceramic masses. Sodium carboxymethylcellulose was added as
an additive to improve mass plasticity for extrusion, act as pore forming agent and
assist in the forming process of important phases such as mullite. After conformation,
heat treatment were performed: drying at 110oC and burning at temperatures 1100,
1200, 1300, 1400 and 1500oC; with the residence time at maximum temperature of 60
minutes. Then, the microstructural, physical, mechanical and flow properties of the
membranes were analyzed. The membranes sintering promoted formation of desired
crystalline phase, the mullite. The membranes with higher additive amount presented
higher flowability obtaining the values of 178,9, 98,5, 44,5 and 1276,8 L/hm2
at
temperatures of 1100, 1200, 1300 e 1500oC, respectively. Furthermore, the
membranes also presented higher modulus of flexural strength (16,6, 43,2, 68,7, 74,4
e 84,0 MPa) for all analyzed temperatures. These results can be attributed to the CMC
contribution that favored the mullite phase formation and also reduced the defects
presence in the membranes structure.