Modelling of flame temperature of solution combustion synthesis of nanocrystalline calcium hydroxyapatite material and its parametric optimization

Bulletin of Materials Science

Volumn 33, Issue 4, 2010, Pages 339-350

  Ghosh, Samir K ^b   Pal, Sukhomay ^a   Roy, Sujit K ^c   Pal, Surjya K ^a   Basu, Debabrata ^c  

^a INDIAN INSTITUTE OF TECHNOLOGY   (India)

^b NETAJI SUBHASH ENGINEERING COLLEGE   (India)

^c CSIR CENTRAL GLASS AND CERAMIC RESEARCH INSTITUTE   (India)

Author keywords

Combustion flame temperature; Design of experiment; Regression analysis; Response surface methodology; Solution combustion; Taguchi's technique

Indexed keywords

AQUEOUS SYSTEM; BATCH SIZES; CALCIUM HYDROXYAPATITE; CALCIUM NITRATE; COMBUSTION FLAMES; DEVELOPED MODEL; FLAME TEMPERATURES; FURNACE TEMPERATURES; INPUT PARAMETER; NANOCRYSTALLINES; OPTIMAL PARAMETER; PARAMETRIC OPTIMIZATION; PHASE FORMATIONS; PHYSICAL CHARACTERISTICS; PROCESS PARAMETERS; REGRESSION MODEL; RESPONSE SURFACE METHODOLOGY; SOLUTION COMBUSTION; SOLUTION COMBUSTION SYNTHESIS; TAGUCHI;

AMMONIUM COMPOUNDS; APATITE; CALCIUM; DESIGN OF EXPERIMENTS; ELECTRIC NETWORK PARAMETERS; FLAME SYNTHESIS; HYDROXYAPATITE; OPTIMIZATION; PHASE STABILITY; REGRESSION ANALYSIS; SURFACE PROPERTIES; SYNTHESIS (CHEMICAL); TAGUCHI METHODS; UREA;

COMBUSTION SYNTHESIS;

EID: 78549234706     PISSN: 02504707     EISSN: None     Source Type: Journal    
DOI: 10.1007/s12034-010-0052-6     Document Type: Article

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