Indentation as a method to characterize materials has a history of more than 117 years. However, to date, it is still the most popular way to measure the mechanical properties of various materials at microscale and nanoscale. This review summarizes the background and the basic principle of processing by indentation. It is demonstrated that indentation is an effective and efficient method to identify mechanical properties, such as hardness, Young’s modulus, etc., of materials at smaller scale, when the traditional tensile tests could not be applied. The review also describes indentation process via both experimental tests and numerical modelling in recent studies
International audienceInstrumented indentation (referred to as nanoindentation at low loads and low ...
This thesis addresses three important problems in hardness testing that are of direct relevance to t...
The term ‘biological material’ includes many meanings, and here it means materials that constitute l...
Indentation as a method to characterize materials has a history of more than 117 years. However, to ...
Indentation as a method to characterize materials has a history of more than 117 years. However, to ...
The application of materials' strength properties determined by nanoindentations to describe analyti...
The fundamental contact mechanics principles underlying nanoindentation testing techniques are revie...
Nowadays many indentation techniques are being commonly employed for determining some mechanical pro...
The aim of this thesis is to determine the suitability of using advanced indentation methods for var...
The Brinell, Vickers, Meyer, Rockwell, Shore, IHRD, Knoop, Buchholz, and nanoindentation methods use...
Nanoindentation technique is commonly used to characterize nanomechanical properties of micro- and n...
Karlsson, Anette M.Bogetti, Travis A.Instrumented indentation is a popular technique used to determi...
This thesis focusses on computational modeling of several different indentation problems involving t...
Nanoindentation is a widely recognized method for characterizing the mechanical properties of thin f...
Indentation techniques are used extensively in mechanical property testing. In this dissertation, se...
International audienceInstrumented indentation (referred to as nanoindentation at low loads and low ...
This thesis addresses three important problems in hardness testing that are of direct relevance to t...
The term ‘biological material’ includes many meanings, and here it means materials that constitute l...
Indentation as a method to characterize materials has a history of more than 117 years. However, to ...
Indentation as a method to characterize materials has a history of more than 117 years. However, to ...
The application of materials' strength properties determined by nanoindentations to describe analyti...
The fundamental contact mechanics principles underlying nanoindentation testing techniques are revie...
Nowadays many indentation techniques are being commonly employed for determining some mechanical pro...
The aim of this thesis is to determine the suitability of using advanced indentation methods for var...
The Brinell, Vickers, Meyer, Rockwell, Shore, IHRD, Knoop, Buchholz, and nanoindentation methods use...
Nanoindentation technique is commonly used to characterize nanomechanical properties of micro- and n...
Karlsson, Anette M.Bogetti, Travis A.Instrumented indentation is a popular technique used to determi...
This thesis focusses on computational modeling of several different indentation problems involving t...
Nanoindentation is a widely recognized method for characterizing the mechanical properties of thin f...
Indentation techniques are used extensively in mechanical property testing. In this dissertation, se...
International audienceInstrumented indentation (referred to as nanoindentation at low loads and low ...
This thesis addresses three important problems in hardness testing that are of direct relevance to t...
The term ‘biological material’ includes many meanings, and here it means materials that constitute l...