FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1993672006> ?p ?o ?g. }

• W1993672006 endingPage "666" @default.
• W1993672006 startingPage "656" @default.
• W1993672006 abstract "The aim of the present work is to extend the applicability of Oxley’s analysis of machining to a broader class of materials beyond the carbon steels used by Oxley and co-workers. The Johnson-Cook material model, history dependent power law material model and the Mechanical Threshold Stress (MTS) model are used to represent the mechanical properties of the material being machined as a function of strain, strain rate and temperature. A few changes are introduced into Oxley’s analysis to improve the consistency between the various assumptions. A new approach has been introduced to calculate the pressure variation along the alpha slip lines in the primary shear zone including the effects of both the strain gradient and the thermal gradient along the beta lines. This approach also has the added advantage of ensuring force equilibrium of the primary shear zone in a macroscopic sense. The temperature at the middle of the primary shear zone is calculated by integrating the plastic work thereby eliminating the unknown constant η. Rather than calculating the shear force from the material properties corresponding to the strain, strain rate and temperature of the material at the middle of the shear zone, the shear force is calculated in a consistent manner using the energy dissipated in the primary shear zone. The thickness of the primary and secondary shear zones, the heat partition at the primary shear zone, the temperature distribution along the tool-chip interface and the shear plane angle are all calculated using Oxley’s original approach. The only constant used to fine tune the model is the ratio of the average temperature to the maximum temperature at the tool-chip interface (ψ). The performance of the model has been studied by comparing its predictions with experimental data for 1020 and 1045 steels, for aluminum alloys 2024-T3, 6061-T6 and 6082-T6, and for copper. It is found that the model accurately reproduces the dependence of the cutting forces and chip thickness as a function of undeformed chip thickness and cutting speed and accurately estimates the temperature in the primary and secondary shear zones." @default.
• W1993672006 created "2016-06-24" @default.
• W1993672006 creator A5049375649 @default.
• W1993672006 creator A5054003635 @default.
• W1993672006 creator A5061689181 @default.
• W1993672006 date "2003-11-01" @default.
• W1993672006 modified "2023-09-27" @default.
• W1993672006 title "Extension of Oxley’s Analysis of Machining to Use Different Material Models" @default.
• W1993672006 cites W159306887 @default.
• W1993672006 cites W1963565670 @default.
• W1993672006 cites W1984769228 @default.
• W1993672006 cites W1997754018 @default.
• W1993672006 cites W2004810595 @default.
• W1993672006 cites W2012246614 @default.
• W1993672006 cites W2035803688 @default.
• W1993672006 cites W2047862394 @default.
• W1993672006 cites W2050398798 @default.
• W1993672006 cites W2053227005 @default.
• W1993672006 cites W2055017594 @default.
• W1993672006 cites W2059104613 @default.
• W1993672006 cites W2059515578 @default.
• W1993672006 cites W2070469153 @default.
• W1993672006 cites W2075744147 @default.
• W1993672006 cites W2077470129 @default.
• W1993672006 cites W2077753633 @default.
• W1993672006 cites W2081483333 @default.
• W1993672006 cites W2086583901 @default.
• W1993672006 cites W2091239169 @default.
• W1993672006 cites W2092659750 @default.
• W1993672006 cites W3134552545 @default.
• W1993672006 cites W3148559128 @default.
• W1993672006 cites W4239033817 @default.
• W1993672006 doi "https://doi.org/10.1115/1.1617287" @default.
• W1993672006 hasPublicationYear "2003" @default.
• W1993672006 type Work @default.
• W1993672006 sameAs 1993672006 @default.
• W1993672006 citedByCount "103" @default.
• W1993672006 countsByYear W19936720062012 @default.
• W1993672006 countsByYear W19936720062013 @default.
• W1993672006 countsByYear W19936720062014 @default.
• W1993672006 countsByYear W19936720062015 @default.
• W1993672006 countsByYear W19936720062016 @default.
• W1993672006 countsByYear W19936720062017 @default.
• W1993672006 countsByYear W19936720062018 @default.
• W1993672006 countsByYear W19936720062019 @default.
• W1993672006 countsByYear W19936720062020 @default.
• W1993672006 countsByYear W19936720062021 @default.
• W1993672006 countsByYear W19936720062022 @default.
• W1993672006 countsByYear W19936720062023 @default.
• W1993672006 crossrefType "journal-article" @default.
• W1993672006 hasAuthorship W1993672006A5049375649 @default.
• W1993672006 hasAuthorship W1993672006A5054003635 @default.
• W1993672006 hasAuthorship W1993672006A5061689181 @default.
• W1993672006 hasConcept C101082671 @default.
• W1993672006 hasConcept C121332964 @default.
• W1993672006 hasConcept C127313418 @default.
• W1993672006 hasConcept C137109543 @default.
• W1993672006 hasConcept C144423054 @default.
• W1993672006 hasConcept C151730666 @default.
• W1993672006 hasConcept C159985019 @default.
• W1993672006 hasConcept C165682214 @default.
• W1993672006 hasConcept C191897082 @default.
• W1993672006 hasConcept C192562407 @default.
• W1993672006 hasConcept C200990466 @default.
• W1993672006 hasConcept C21141959 @default.
• W1993672006 hasConcept C23295444 @default.
• W1993672006 hasConcept C523214423 @default.
• W1993672006 hasConcept C57879066 @default.
• W1993672006 hasConcept C62520636 @default.
• W1993672006 hasConcept C77928131 @default.
• W1993672006 hasConcept C96035792 @default.
• W1993672006 hasConceptScore W1993672006C101082671 @default.
• W1993672006 hasConceptScore W1993672006C121332964 @default.
• W1993672006 hasConceptScore W1993672006C127313418 @default.
• W1993672006 hasConceptScore W1993672006C137109543 @default.
• W1993672006 hasConceptScore W1993672006C144423054 @default.
• W1993672006 hasConceptScore W1993672006C151730666 @default.
• W1993672006 hasConceptScore W1993672006C159985019 @default.
• W1993672006 hasConceptScore W1993672006C165682214 @default.
• W1993672006 hasConceptScore W1993672006C191897082 @default.
• W1993672006 hasConceptScore W1993672006C192562407 @default.
• W1993672006 hasConceptScore W1993672006C200990466 @default.
• W1993672006 hasConceptScore W1993672006C21141959 @default.
• W1993672006 hasConceptScore W1993672006C23295444 @default.
• W1993672006 hasConceptScore W1993672006C523214423 @default.
• W1993672006 hasConceptScore W1993672006C57879066 @default.
• W1993672006 hasConceptScore W1993672006C62520636 @default.
• W1993672006 hasConceptScore W1993672006C77928131 @default.
• W1993672006 hasConceptScore W1993672006C96035792 @default.
• W1993672006 hasIssue "4" @default.
• W1993672006 hasLocation W19936720061 @default.
• W1993672006 hasOpenAccess W1993672006 @default.
• W1993672006 hasPrimaryLocation W19936720061 @default.
• W1993672006 hasRelatedWork W1970829525 @default.
• W1993672006 hasRelatedWork W1994450720 @default.
• W1993672006 hasRelatedWork W2043709732 @default.
• W1993672006 hasRelatedWork W2367984112 @default.
• W1993672006 hasRelatedWork W2372332761 @default.

• next