Relevant bibliographies by topics / Slip casting Technique

Academic literature on the topic 'Slip casting Technique'

Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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Journal articles on the topic "Slip casting Technique"

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Amat, Noor Faeizah, Andanastuti Muchtar, Norziha Yahaya, Mariyam Jameelah Ghazali, and Chin Chuin Hao. "Comparison between Slip Casting and Cold Isostatic Pressing for the Fabrication of Nanostructured Zirconia." Advanced Materials Research 896 (February 2014): 335–38. http://dx.doi.org/10.4028/www.scientific.net/amr.896.335.

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Consolidation of ceramic parts may be achieved by several techniques, including the slip casting and cold isostatic pressing (CIP) methods. In the present work, the performances of the two methods are compared in the fabrication of nanostructured zirconia compacts for dental crown applications. First, a zirconia suspension suitable for slip casting was prepared. The rheological properties of the zirconia suspension were optimized by adding a dispersant agent and controlling the pH. Zirconia slurries were then slip-cast into a pellet. Second, another group of zirconia pellets were fabricated using uniaxial pressing and were then cold-isostatically pressed. Both slip-cast and CIP samples were sintered at 1300 °C with a soaking time of 2 hrs. The mechanical properties of both samples were compared. The samples prepared by slip casting were denser compared with those prepared via CIP. Slip casting technique produced samples with 98.8% of the theoretical density, which resulted in the high Vickers hardness (11.4 GPa) of the slip-cast samples. Morphological studies revealed that the microstructures of the slip cast-sample were more homogeneous and contain no porosity. The formation of such a structure is due to the enhancement of the particle packing efficiency by slip casting as well as to the removal of larger agglomerates by colloidal processing prior to casting. As a consolidation stage, slip casting appears to be more suitable than the CIP technique in preparing reliable nanostructural ceramic parts.
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Xu, Qian, Brian Gabbitas, Steven Matthews, and De Liang Zhang. "Optimisation of Performance of Dispersants in Aqueous Titanium Slips." Key Engineering Materials 520 (August 2012): 330–34. http://dx.doi.org/10.4028/www.scientific.net/kem.520.330.

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Slip casting is a well-established ceramic casting technique used for large scale fabrication of ceramic products with complex shapes. A homogenous slip with a desired level of stability is required, which is controlled using a dispersant. This paper describes the selection and optimisation of various dispersants used to produce Ti powder slips. A consideration of the effect of concentration and pH of the solvent on the dispersion of anionic polyelectrolyte dispersants (Dispex N-40, Synthecol SD375 & Dolapix CE64) was examined by measuring the sedimentation height and rate, the streaming potential and the slip viscosity. It was found that Dolapix CE64 showed the best deflocculating effect at 0.3dw.% with pH of 7. In particular, the measurements on Dolapix CE64 gave consistent results. This indicated that Dolapix CE64 is an effective dispersant in the preparation of a titanium slip.
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Blazutti Marçal, Rubens Lincoln Santana, Daniel Navarro da Rocha, and Marcelo Henrique Prado da Silva. "Slip Casting Used as a Forming Technique for Hydroxyapatite Processing." Key Engineering Materials 720 (November 2016): 219–22. http://dx.doi.org/10.4028/www.scientific.net/kem.720.219.

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Ceramic materials have particular properties when compared to other classes of materials, exhibiting poor ductility as an example. Slip casting is a widely used ceramic forming technique, and already established in the literature and in the ceramic industry. This study aims to present slip casting as a processing route for producing hydroxyapatite (HA) struts, and show the thermal phase stability. The ceramic suspension was produced and stabilized with hydroxyapatite powder, deionized water and polyethylene glycol 400. The slip was poured into gypsum mold. The green bodies were heat treated at 900 and 1100°C. Hydroxyapatite was the only phase present in all samples, before and after heat treatments. Density measurements showed that the densification was higher for the ceramic bodies sintered at 1100°C, when compared to the ones calcined at 900°C.
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Ahmad, K., and J. J. Mohamed. "Product Comparison between Local Product and Technology Aided Mambong Pottery." Journal of Tropical Resources and Sustainable Science (JTRSS) 4, no. 2 (August 13, 2021): 72–74. http://dx.doi.org/10.47253/jtrss.v4i2.608.

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There are various traditional Malay potteries such as Labu Sayong, Buyung and Terenang. Kelantan traditional pottery known as Mambong. The objectives of this research are to compare and characterize the density, strength, physical appearance and shrinkage of traditional and slip casted Mambong pottery. Traditional Mambong pottery has been brought from the potter at Mambnog village and slip casted Mambong pottery is made by using slip casting method. Density of sample is measured by using Archimedes principal. Traditional Mambong pottery show the higher value of density compared to slip casting Mambong pottery. The average value of density for traditional Mambong pottery was 1.763 g/cm3, while the average value of density for Mambong pottery that was fabricated via slip casting was 1.461 g/cm3. Due to the presence of iron in clay, the colour of Mambong pottery changes from brown to reddish-brown after firing process. Traditional Mambong pottery shows the higher percentage of dry shrinkage which was 9.76 % compared to slip casting Mambong pottery which was 5.72 %. Traditional Mambong pottery also shows the higher percentage of fired shrinkage which was 1 % compared to slip casting Mambong pottery which was 0.58 %. In conclusion, by using slip casting technique, density, physical appearance and shrinkage of pottery can be improved.
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Fernandes, Rodrigo Sampaio, Elson de Campos, Jerusa Góes Aragão Santana, and Rogério Pinto Mota. "Porous Ceramics Obtained by Slip/Starch Casting Consolidation Method (SSCC)." Materials Science Forum 881 (November 2016): 52–57. http://dx.doi.org/10.4028/www.scientific.net/msf.881.52.

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Slip/starch casting consolidation (SSCC) is a technique for obtaining porous ceramics, which joins the forming process by starch consolidation with the slip casting method. In this work, a slip which contains ceramic powders, starch and dispersant, is poured into a porous mold and is taken to an oven so that the gelling process occurs. After sintering, it is noticed that the ceramics show different characteristics from the ones obtained exclusively by slip casting or by starch consolidation. Alumina ceramics were produced by using the three methods presented in this work. The ceramics were characterized by apparent porosity, mechanical resistance and scanning electron microscopy. The ceramics produced by SSCC presented the highest mechanical resistance value (289 MPa), while the ones produced by starch consolidation and slip casting presented values of 126 MPa and 191 MPa, respectively.
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Mahamad Sahab, Abdul Rahim, Nor Hayati Saad, Farrahshaida M. Salleh, Azlin Hamidi, Doll Said Ngah, and Wan Dung Teng. "Integrated Process of Ceramic Slip Using Rotating Technique." Advanced Materials Research 1133 (January 2016): 161–65. http://dx.doi.org/10.4028/www.scientific.net/amr.1133.161.

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Hollow shape product from ceramic material is produced generally by slip casting technique. This conventional technique is widely used in ceramic industries. Ceramic slip compound by rotating technique namely slip rotary moulding process is studied for producing the hollow shape green ceramic product. From experimental studies this advanced technique has exemplified high potential in producing green hollow shape ceramic product for mass production. Laboratory test result shows that the rotating technique is able to produce hollow shape green ceramic product with desired thickness and sufficient green strength (1 MPa) able to hold during de-moulding process.
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Sui, Jing, and Jiang Liu. "An Electrolyte-supported SOFC Stack Fabricated by Slip Casting Technique." ECS Transactions 7, no. 1 (December 19, 2019): 633–37. http://dx.doi.org/10.1149/1.2729146.

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Smirnov, Aleksey D., Anastasia A. Kholodkova, Viktor V. Rybalchenko, and Vadim P. Tarasovskii. "Porous Alumina-Bentonite Ceramics: Effects of Fillers and Molding Technique." Ceramics 6, no. 1 (January 10, 2023): 132–45. http://dx.doi.org/10.3390/ceramics6010009.

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In porous ceramics processing, the green body shaping technique largely determines the control of the final porous structure and material properties. The study is aimed at finding affordable approaches for the shaping of two different narrow-fraction fillers: F240 electro-corundum and hollow alumina microspheres. The results revealed the influence of accessible shaping techniques (semi-dry pressing, direct casting, and slip casting) on the structural and mechanical properties of porous alumina ceramics. The starting materials were characterized by XRD, SEM, EDX, and BET. The manufactured ceramics were studied in terms of microstructure, density, porosity, and flexural strength. Free stacking of the fillers’ particles during the direct and slip casting resulted in a higher porosity of ceramics compared with that of semi-dry pressing, while reducing its mechanical strength. Direct casting appeared preferable for ceramics with hollow microspheres because it maintained the integrity of the filler particles and preserved their inherent porosity in the ceramics. The optimal parameters for porous ceramics processing were determined as follows: pressing at 30 MPa and sintering at 1280–1320 °C with a bentonite content of 15 wt.%. In this case, the average density and open porosity of F240 samples reached 2.22 g cm−3 and 40.4%, while samples containing hollow microspheres reached 2.20 g cm−3 and 36.7%, respectively.
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Raju, Pittala, Papiya Biswas, Asit Khanra, Yabaluri Rao, and Roy Johnson. "Investigations on colloidal and dry formed alumina parts under pressure and pressure-less conditions." Processing and Application of Ceramics 16, no. 2 (2022): 160–66. http://dx.doi.org/10.2298/pac2202160r.

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Pressure assisted casting of advanced ceramics is an emerging preparation technique as it permits using a colloidal slips in shaping under pressure. Application of pressure provides flexibility in forming of complex shapes in combination with high homogeneity, superior green density, strength and high productivity. Current study compares conventional slip casting (CSC), pressure slip casting (PSC) and cold isostatic pressing (CIP) used for preparation of alumina green bodies. Since particle size is a limitation in PSC process due to the defined pore size of the mould, the same starting alumina powder obtained by mixing of powders with two different average particle size (7 ?m and 1.43 ?m) in the proportion of 65:35 was employed in all three processes. Green densities of 65%TD at 35 bar in case of PSC and 66%TD at 1200 bar after CIP were obtained; however, density of the CSC samples was only 50%TD. Flexural strength and fractographic studies were carried out and correlated with the respective processes. The samples were also sintered at 1600 ?C to evaluate their sinterability.
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Termizi, A. I. A., and J. J. Mohamed. "Fabrication of Mambong Pottery by Using Slip Casting Method." Journal of Tropical Resources and Sustainable Science (JTRSS) 4, no. 2 (August 13, 2021): 64–67. http://dx.doi.org/10.47253/jtrss.v4i2.606.

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Mambong pottery in Kuala Krai, Kelantan is one of the types of potteries in Malaysia other than Sayong, Terenang and Sarawak pottery. Mambong pottery was being made by traditional technique like pinching and throwing. In this research, Mambong pottery was made by using slip casting method. This method used porous mould which can absorb the water content from the clay slip. Different composition of water and clay was used and its effect on product properties was investigated. Samples with different composition of water and clay were labelled as 50C50W, 60C40W, 70C30W and 80C20W samples with addition of 0.7% of sodium silicate, Na2SiO3. The samples were characterized by its specific gravity (S.G.) of clay slip, drying and firing linear shrinkage, density and porosity and strength of the clay samples. Finding from this research showed that 70C30W sample is the optimum composition in fabricating pottery by using slip casting among other samples.
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Books on the topic "Slip casting Technique"

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Handbuilt ceramics: Pinching, coiling, extruding, molding, slip casting, slab work. Asheville, N.C: Lark, 2001.

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Andrew, Martin. The definitive guide to mold making & slip casting: Contemporary techniques for potters. San Rafael, Calif: MAGUS Art Pub. & Workshops, 1999.

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Book chapters on the topic "Slip casting Technique"

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Norsker, Henrik, and James Danisch. "Slip Casting." In Forming Techniques — for the Self-Reliant Potter, 148–60. Wiesbaden: Vieweg+Teubner Verlag, 1991. http://dx.doi.org/10.1007/978-3-663-06867-9_7.

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Zainuddin, Norhidayah Md, Shahriman Zainal Abidin, Oskar Hasdinor Hassan, and Rusmadiah Anwar. "The Conceptual Framework of Hydroxyapatite Fiber Structure by Slip-Casting Techniques." In Proceedings of the 2nd International Colloquium of Art and Design Education Research (i-CADER 2015), 13–19. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-0237-3_2.

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Conference papers on the topic "Slip casting Technique"

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Begam, Howa, Abhijit Chanda, and Biswanath Kundu. "Synthesis and characterization of nano-grained hydroxyapatite through slip casting technique." In 2010 International Conference on Systems in Medicine and Biology (ICSMB). IEEE, 2010. http://dx.doi.org/10.1109/icsmb.2010.5735364.

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Ghaisani, Annisa D., Kusumandari Kusumandari, and Teguh E. Saraswati. "The crystalline and optical characterization of TiO2 thick film prepared by slip casting technique." In INTERNATIONAL CONFERENCE ON SCIENCE AND APPLIED SCIENCE (ICSAS) 2021. AIP Publishing, 2022. http://dx.doi.org/10.1063/5.0072991.

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Adake, Chandrashekar V., Parag Bhargava, Prasanna S. Gandhi, and Bhargava Kashyap. "Fabrication of Tapered Bio Mimetic Cilia Using Bulk Lithography and Ceramic Mold." In ASME 2014 International Manufacturing Science and Engineering Conference collocated with the JSME 2014 International Conference on Materials and Processing and the 42nd North American Manufacturing Research Conference. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/msec2014-4158.

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This paper presents fabrication of tapered, high aspect ratio bio mimetic cilia from Nickel-polydimethyl siloxane (Ni-PDMS) composite by using bulk lithography technique and ceramic molding. Many research groups suggested fabrication of bio mimetic cilia using various techniques which are based on soft lithography and VLSI techniques. Recently a novel single layer micro fabrication technique known as ‘bulk lithography’ which uses an unconstrained photopolymer has been reported by co-authors. This technique is used to fabricate a polymer cilia pattern (an array of photopolymerised inverted cone profile) and using this pattern a ceramic green body is fabricated by slip casting technique. An aqueous suspension containing sub micron size alumina is used to cast ceramic green body. After casting this cilia pattern makes negative impression of tapered holes on green ceramic body. During sintering of green ceramic body the polymer burns off resulting in ceramic mould with tapered holes imprinted on it. This mold retains shape of a tapered hole though it shrinks in size after sintering. This mold is used further to cast Ni-PDMS composite in the form of cilia structures.
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Hengst, R. R., D. N. Heichel, J. E. Holowczak, A. P. Taglialavore, and B. J. McEntire. "A Comparison of Forming Technologies for Ceramic Gas-Turbine Engine Components." In ASME 1990 International Gas Turbine and Aeroengine Congress and Exposition. American Society of Mechanical Engineers, 1990. http://dx.doi.org/10.1115/90-gt-184.

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For over ten years, injection molding and slip casting have been actively developed as forming techniques for ceramic gas turbine components. Co-development of these two processes has continued within the U.S. DOE-sponsored Advanced Turbine Technology Application Project (ATTAP). Progress within ATTAP with respect to these two techniques is summarized. A critique and comparison of the two processes are given. Critical aspects of both processes with respect to size, dimensional control, material properties, quality, cost, and potential for manufacturing scale-up are discussed.
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Pollinger, J., B. Busovne, M. Meiser, and J. Nick. "Selection, Development, and Application of Forming and Densification Techniques for Silicon Nitride Heat Engine Components." In ASME 1992 International Gas Turbine and Aeroengine Congress and Exposition. American Society of Mechanical Engineers, 1992. http://dx.doi.org/10.1115/92-gt-385.

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A wide variety of silicon nitride structural ceramic components are currently being developed and evaluated for advanced heat engine applications. The size, geometry, and performance requirements of these components are the criteria driving the selection of the appropriate forming process and densification process. The different forming and densification processes have unique forming and resulting property advantages and limitations which must be considered during the selection process. Specific heat engine component applications, including gas turbine components such as hot section wheels and stators, and internal combustion engine cam rollers will be discussed and the rationale for selection of the material, forming process, and densification process will be presented. Performance of the components will be related to the material, forming, and densification techniques used. The forming techniques discussed are slip casting, injection molding, and compaction/ isostatic pressing. The densification techniques discussed are sintering, sinter-HIP, and glass-encapsulation-HIP.
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McEntire, B. J., R. R. Hengst, W. T. Collins, A. P. Taglialavore, R. L. Yeckley, E. Bright, and M. G. Bingham. "Ceramic Component Processing Development for Advanced Gas-Turbine Engines." In ASME 1991 International Gas Turbine and Aeroengine Congress and Exposition. American Society of Mechanical Engineers, 1991. http://dx.doi.org/10.1115/91-gt-120.

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Norton/TRW Ceramics (NTC) is performing ceramic component development as part of the DOE-sponsored Advanced Turbine Technology Applications Project (ATTAP). NTC’s work is directed at developing manufacturing technologies for rotors, stators, vane-seat platforms and scrolls. The first three components are being produced from a HIPed Si3N4, designated NT154. Scrolls were prepared from a series of siliconized silicon-carbide (Si-SiC) materials designated NT235 and NT230. Efforts during the first three years of this five-year program are reported. Developmental work has been conducted on all aspects of the fabrication process using Taguchi experimental design techniques. Appropriate materials and processing conditions were selected for powder beneficiation, densification and heat-treatment operations. Component forming has been conducted using thermal-plastic-based injection molding (IM), pressure slip-casting (PSC), and Quick-Set™ injection molding. An assessment of material properties for various components from each material and process were made. For NT154, characteristic room-temperature strengths and Weibull Moduli were found to be range between ≈920 MPa to ≈1 GPa and ≈10 to ≈19, respectively. Process-induced inclusions proved to be the dominant strength limiting defect regardless of the chosen forming method. Correction of the lower observed values is being addressed through equipment changes and upgrades. For the NT230 and NT235 Si-SiC, characteristic room-temperature strengths and Weibull Moduli ranged from ≈240 to ≈420 MPa, and 8 to 10, respectively. At 1370°C, strength values for both the HIPed Si3N4 and the Si-SiC materials ranged from ≈480 MPa to ≈620 MPa. The durability of these materials as engine components is currently being evaluated.
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