Influence of printing parameters on the transformation efficiency of 3D-printed plaster of paris to hydroxyapatite and its properties

Rapid Prototyping Journal

Volumn 18, Issue 6, 2012, Pages 490-499

  Suwanprateeb, J ^a   Thammarakcharoen, F ^a   Wasoontararat, K ^a   Suvannapruk, W ^a  

^a NATIONAL METAL AND MATERIALS TECHNOLOGY CENTER   (Thailand)

Author keywords

Mechanical properties of materials; Medical; Microstructures; Phase transformations; Powders; Printing

Indexed keywords

CONVERSION TIME; DESIGN/METHODOLOGY/APPROACH; FLEXURAL MODULUS; HIGH MECHANICAL PROPERTIES; LAYER THICKNESS; LOW DENSITY; LOW TEMPERATURES; MECHANICAL PROPERTIES OF MATERIALS; MEDICAL; MONETITE; OPTIMAL PRINTING; PHOSPHORIZATION; PLASTER OF PARIS; POST-PROCESSING TECHNIQUES; POWDER LAYER; POWDER MIXTURES; SATURATION RATIO; THREE-DIMENSIONAL PRINTING; TRANSFORMATION EFFICIENCY; TRANSFORMATION RATES;

DENSITY (SPECIFIC GRAVITY); HYDROXYAPATITE; INTERMETALLICS; IRON METALLURGY; MICROSTRUCTURE; OPTIMIZATION; PHASE TRANSITIONS; PLASTER; POWDERS; TEMPERATURE;

PRINTING;

EID: 84866972027     PISSN: 13552546     EISSN: None     Source Type: Journal    
DOI: 10.1108/13552541211272036     Document Type: Article

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