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Grinding-induced metallurgical alterations in the binder phase of WC-Co cemented carbides

Journal Article · · Materials Characterization
 [1]; ;  [2];  [2];  [3];  [1]
  1. CIEFMA - Departament de Ciència dels Materials i Engenyeria Metallúrgica, Campus Diagonal Besòs-EEBE, Universitat Politècnica de Catalunya, Barcelona 08019 (Spain)
  2. Nanostructured Materials, Department of Physics, Chemistry, and Biology (IFM), Linköping University, Linköping 58183 (Sweden)
  3. Sweden
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The metallic binder phase dictates the toughening behavior of WC-Co cemented carbides (hardmetals), even though it occupies a relative small fraction of the composite. Studies on deformation and phase transformation of the binder constituent are scarce. Grinding represents a key manufacturing step in machining of hardmetal tools, and is well-recognized to induce surface integrity alterations. In this work, metallurgical alterations of the binder phase in ground WC-Co cemented carbides have been assessed by a combination of electron back scattered diffraction and transmission electron microscopy techniques. The Co-base binder experiences a martensitic phase transformation from fcc to hcp crystal structure, predominantly in the first 5 μm below the surface. The hcp fraction decreases gradually along a depth of 10 μm. Surface Co displays severe plastic deformation under the highest strain, resulting in formation of nanocrystalline grains in the first micrometer below the surface. Microstructural refinement within the binder phase is observed even at greater depth. Stacking faults were detected in most of the refined grains. The metallurgical alterations of the binder phase modify the local stress distribution during grinding, which affects the discerned subsurface microcracking. The resulting residual stress profile is the sum of multiple subsurface changes, such as phase transformation, severe plastic deformation and grain refinement, where it is discerned that the depth profile of the transformed hcp-Co fraction coincides with the grinding-induced residual stress profile.

OSTI ID:
22804831
Journal Information:
Materials Characterization, Journal Name: Materials Characterization Vol. 134; ISSN 1044-5803; ISSN MACHEX
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
BACKSCATTERING
CERAMICS
CERMETS
CRYSTALS
DEFORMATION
ELECTRON DIFFRACTION
FCC LATTICES
HCP LATTICES
MARTENSITIC STEELS
MICROSTRUCTURE
NANOSTRUCTURES
PHASE TRANSFORMATIONS
PLASTICITY
RESIDUAL STRESSES
STACKING FAULTS
SURFACES
TRANSMISSION ELECTRON MICROSCOPY
TUNGSTEN CARBIDES