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Elevated temperature wear behaviour of metallic materials is characterized by formation of several types of layers.
This paper presents results of a study focusing on the effect of crack-tip constraint on the fracture behaviour of metallic materials.
Taking into account damage in constitutive behaviour of metallic materials is necessary to model various engineering problems involved in forming processes (stamping, punching, shearing…).
This is a well-established constitutive model mostly used to describe the viscoplastic behaviour of metallic materials, and was applied here, for the first time we believe, for polymers.
In order to investigate the influence of the confinement on the corrosion behaviour of metallic materials, an innovative thin layer electrochemical cell was developed.
As the mechanical behaviour of metallic materials depends on their microstructure, which is affected by the time-temperature history, additive-manufactured components are expected to have different properties than those of their wrought counterparts.
Similar(51)
Exposure tests in natural atmospheres are an indispensable means for determining the behaviour and durability of metallic materials in the atmosphere.
We present a model for the thermomechanical behaviour and microstructure evolution of metallic materials during thermomechanical processing.
This double-edge effect of second-phase particles on recrystallization behaviour and mechanical properties of metallic materials is still far from being clear.
The main purpose of the work presented was to investigate the corrosion behaviour of different microstructural areas of metallic materials.
Microstructure plays an important role in strengthening of metallic materials.
More suggestions(16)
behaviour of discontinuous materials
behaviour of porous materials
behaviour of orthotropic materials
behaviour of new materials
behaviour of biological materials
behaviour of blocky materials
behaviour of concrete materials
behaviour of bituminous materials
behaviour of viscoelastic materials
behaviour of hyperelastic materials
behaviour of metallic parts
behaviour of such materials
behaviour of metallic beams
behaviour of metallic phases
behaviour of organic materials
behaviour of viscoplastic materials
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Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com