Title : Near net Shaping of Simple and Complex Ceramic Parts by 3D Printing and Investigations on the Physico Chemical Thermal Mechanical and Microstructural Properties

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Type of Material:	Thesis
Title:	Near net Shaping of Simple and Complex Ceramic Parts by 3D Printing and Investigations on the Physico Chemical Thermal Mechanical and Microstructural Properties
Researcher:	Mamatha, S
Guide:	Das, Dibakar and Johnson, Roy
Department:	School of Engineering Sciences and Technology
Publisher:	University of Hyderabad, Hyderabad
Place:	Hyderabad
Year:	2021
Language:	English
Subject:	Engineering and Technology
	Material Science
	Materials Science Coatings and Films
	Engineering and Technology
Dissertation/Thesis Note:	PhD; School of Engineering Sciences and Technology, University of Hyderabad, Hyderabad, Hyderabad
Fulltext:	Shodhganga

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001 448547
003 IN-AhILN
005 2023-07-24 15:24:19
008 __ 230724t2021||||ii#||||g|m||||||||||eng||
035 __ |a(IN-AhILN)th_448547
040 __ |aHYDR_500046|dIN-AhILN
041 __ |aeng
100 __ |aMamatha, S|eResearcher
110 __ |aSchool of Engineering Sciences and Technology|bUniversity of Hyderabad, Hyderabad|dHyderabad|ein
245 __ |aNear net Shaping of Simple and Complex Ceramic Parts by 3D Printing and Investigations on the Physico Chemical Thermal Mechanical and Microstructural Properties
260 __ |aHyderabad|bUniversity of Hyderabad, Hyderabad|c2021
300 __ |a197p.|dNone
502 __ |bPhD|cSchool of Engineering Sciences and Technology, University of Hyderabad, Hyderabad, Hyderabad
518 __ |oDate of Award|d2021
518 __ |oDate of Registration|d2018
520 __ |a3D printing of ceramics is an emerging area due to the flexibility and advantages for complex prototyping of the components/parts with the micro-features for versatile applications as revealed by recent increasing trends not only in publications but also in patents. In the current study, four advanced ceramic formulations such as alumina, magnesium aluminate spinel, cordierite and kaolinite clay has been established starting from the powder characterization through printing of various configurations. An indigenously supplied 3D printer was modified to suite a ram type/screw type extruders designed and fabricated in the current study. A naturally occurring environmentally friendly cellulose derivative (Methylcellulose) and its thermal gelation property in the temperature range of 35-42oC was used for the first time in 3D printing process. A pseudo-plastic paste was prepared with proper additives for each ceramic formulation and printing parameters such as printing speed, length to Diameter (L/D) ratio and se
650 __ |aEngineering and Technology|2AIU
653 __ |aEngineering and Technology
653 __ |aMaterial Science
653 __ |aMaterials Science Coatings and Films
700 __ |aDas, Dibakar and Johnson, Roy|eGuide
856 __ |uhttp://shodhganga.inflibnet.ac.in/handle/10603/413690|yShodhganga
905 __ |afromsg

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000	00000ntm a2200000ua 4500
001	448547
003	IN-AhILN
005	2023-07-24 15:24:19
008	__	230724t2021\|\|\|\|ii#\|\|\|\|g\|m\|\|\|\|\|\|\|\|\|\|eng\|\|
035	__	\|a(IN-AhILN)th_448547
040	__	\|aHYDR_500046\|dIN-AhILN
041	__	\|aeng
100	__	\|aMamatha, S\|eResearcher
110	__	\|aSchool of Engineering Sciences and Technology\|bUniversity of Hyderabad, Hyderabad\|dHyderabad\|ein
245	__	\|aNear net Shaping of Simple and Complex Ceramic Parts by 3D Printing and Investigations on the Physico Chemical Thermal Mechanical and Microstructural Properties
260	__	\|aHyderabad\|bUniversity of Hyderabad, Hyderabad\|c2021
300	__	\|a197p.\|dNone
502	__	\|bPhD\|cSchool of Engineering Sciences and Technology, University of Hyderabad, Hyderabad, Hyderabad
518	__	\|oDate of Award\|d2021
518	__	\|oDate of Registration\|d2018
520	__	\|a3D printing of ceramics is an emerging area due to the flexibility and advantages for complex prototyping of the components/parts with the micro-features for versatile applications as revealed by recent increasing trends not only in publications but also in patents. In the current study, four advanced ceramic formulations such as alumina, magnesium aluminate spinel, cordierite and kaolinite clay has been established starting from the powder characterization through printing of various configurations. An indigenously supplied 3D printer was modified to suite a ram type/screw type extruders designed and fabricated in the current study. A naturally occurring environmentally friendly cellulose derivative (Methylcellulose) and its thermal gelation property in the temperature range of 35-42oC was used for the first time in 3D printing process. A pseudo-plastic paste was prepared with proper additives for each ceramic formulation and printing parameters such as printing speed, length to Diameter (L/D) ratio and se
650	__	\|aEngineering and Technology\|2AIU
653	__	\|aEngineering and Technology
653	__	\|aMaterial Science
653	__	\|aMaterials Science Coatings and Films
700	__	\|aDas, Dibakar and Johnson, Roy\|eGuide
856	__	\|uhttp://shodhganga.inflibnet.ac.in/handle/10603/413690\|yShodhganga
905	__	\|afromsg