|
Volumn 210, Issue 10, 2010, Pages 1260-1269
|
An experimental and computational methodology for near net shape fabrication of thin walled ceramic structures by plasma spray forming
|
Author keywords
Algorithm; Aluminum oxide; Ceramic; Computation; Near net shape; Plasma spray forming
|
Indexed keywords
ALUMINUM OXIDES;
AXISYMMETRIC GEOMETRIES;
CERAMIC STRUCTURE;
CERAMICS AND REFRACTORIES;
COMPUTATION;
COMPUTATIONAL APPROACH;
COMPUTATIONAL METHODOLOGY;
COMPUTATIONAL PROTOCOLS;
CONVENTIONAL TECHNIQUES;
COOLING CONDITIONS;
EMPIRICAL METHOD;
ENGINEERING COMPONENTS;
FRACTURE STRENGTHS;
GRAPHITE MANDREL;
NEAR NET SHAPE;
OPTIMUM TEMPERATURE;
PLASMA SPRAY FORMING;
SPRAY-DEPOSITED;
TEMPERATURE PROFILES;
THERMAL PROFILES;
THIN-WALLED;
UNSTEADY HEAT TRANSFER;
ALUMINUM;
CERAMIC MATERIALS;
COMPUTATIONAL FLUID DYNAMICS;
CONCURRENT ENGINEERING;
FABRICATION;
FORMING;
GRAPHITE;
JOB ANALYSIS;
OXIDES;
PLASMA JETS;
PLASMA SPRAYING;
PLASMAS;
PROTECTIVE COATINGS;
RAPID PROTOTYPING;
REFRACTORY METALS;
SPRAY STEELMAKING;
THERMAL SPRAYING;
THERMAL STRESS;
THERMOELASTICITY;
THIN WALLED STRUCTURES;
PLASMA DEPOSITION;
|
EID: 77955231286
PISSN: 09240136
EISSN: None
Source Type: Journal
DOI: 10.1016/j.jmatprotec.2010.03.012 Document Type: Article |
Times cited : (13)
|
References (14)
|