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Volumn 63, Issue 1-3, 1997, Pages 169-174
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Development of a predictive model for stress distributions at the tool-chip interface in machining
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Author keywords
Metal cutting; Prediction; Slip line filed; Stress distribution; Theoretical modelling; Tool chip interface
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Indexed keywords
FORECASTING;
GEOMETRY;
INTERFACES (MATERIALS);
MATHEMATICAL MODELS;
METAL CUTTING;
MONITORING;
PLASTIC DEFORMATION;
SHEAR STRESS;
STRESS CONCENTRATION;
TOOLS;
WEAR OF MATERIALS;
CHIP SECONDARY PLASTIC DEFORMATION;
CUTTING FORCES;
CUTTING TEMPERATURE;
NORMAL STRESS;
PREDICTIVE MODEL;
SLIPLINE FIELD ANALYSIS;
TOOL CHIP CONTACT LENGTH;
TOOL CHIP INTERFACE;
TOOL WEAR;
ZOREV'S POWER LAW ASSUMPTION;
MACHINING;
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EID: 0030811452
PISSN: 09240136
EISSN: None
Source Type: Journal
DOI: 10.1016/S0924-0136(96)02619-2 Document Type: Article |
Times cited : (26)
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References (9)
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