In engineering applications, steels are commonly used in various areas. The mechanical members are exposed to different loading conditions and this subject can be investigated in fracture mechanics. Fracture toughness (KIC) is the important material property for fracture mechanics. Determination of this properties is possible using a compact tension specimen, a single edge notched bend or three-point loaded bend specimen, which are standardized by different institutions. Researchers underline that these standardized methods are complex, the manufacturing process is difficult, they require special fixtures for loading during the experiment and the test procedures are time consuming. Alternative methods are always being sought by researchers....
This project was conducted to investigate the effect of specimen size on fracture toughness of mild ...
The fracture resistance of materials is generally higher in notched conditions that in cracked condi...
ABSTRACT: A new technique for rapid and cost-effective determination of stress intensity factor (KI)...
In engineering applications, steels are commonly used in various areas. The mechanical members are e...
Three types of material whose fracture toughness tests were previously performed by using circumfere...
The Circumferentially Notched Tension (CNT) specimen is a potential candidate for determining the fr...
Current fracture toughness testing is conducted with planar specimens, such as the compact tension C...
In this study the effect of notch angle on fracture toughness (KIC) of AISI 4340 steel is investigat...
AbstractThe research work aimed to present the usability of the cracked round bar specimen type for ...
A new method is proposed to determine fracture toughness of structural materials according to the te...
Standardized test methods of plain strain fracture toughness KIC and elastic-plastic fracture toughn...
A brief review is given of the application of the notched cylinder as a screening specimen for use i...
The assessment of defects in large steel structures requires a trustworthy evaluation of the materia...
Research has shown the Circumferentially Notched Tensile (CNT) Specimen to potentially be a size-ind...
Current standard testing methods for determining plane strain fracture toughness (KIc), such as ASTM...
This project was conducted to investigate the effect of specimen size on fracture toughness of mild ...
The fracture resistance of materials is generally higher in notched conditions that in cracked condi...
ABSTRACT: A new technique for rapid and cost-effective determination of stress intensity factor (KI)...
In engineering applications, steels are commonly used in various areas. The mechanical members are e...
Three types of material whose fracture toughness tests were previously performed by using circumfere...
The Circumferentially Notched Tension (CNT) specimen is a potential candidate for determining the fr...
Current fracture toughness testing is conducted with planar specimens, such as the compact tension C...
In this study the effect of notch angle on fracture toughness (KIC) of AISI 4340 steel is investigat...
AbstractThe research work aimed to present the usability of the cracked round bar specimen type for ...
A new method is proposed to determine fracture toughness of structural materials according to the te...
Standardized test methods of plain strain fracture toughness KIC and elastic-plastic fracture toughn...
A brief review is given of the application of the notched cylinder as a screening specimen for use i...
The assessment of defects in large steel structures requires a trustworthy evaluation of the materia...
Research has shown the Circumferentially Notched Tensile (CNT) Specimen to potentially be a size-ind...
Current standard testing methods for determining plane strain fracture toughness (KIc), such as ASTM...
This project was conducted to investigate the effect of specimen size on fracture toughness of mild ...
The fracture resistance of materials is generally higher in notched conditions that in cracked condi...
ABSTRACT: A new technique for rapid and cost-effective determination of stress intensity factor (KI)...