The present book compiles research work to convert load-displacement data of small-punch tests to material properties in Small Punch Tests. It calculates J-R data of aged materials employing experimental data of pre-cracked miniaturized specimens. Application of cohesive-zone finite element to model semi-brittle SPT specimens is explained.
The present book compiles research work to convert load-displacement data of small-punch tests to material properties in Small Punch Tests. It calculates J-R data of aged materials employing experimental data of pre-cracked miniaturized specimens. Application of cohesive-zone finite element to model semi-brittle SPT specimens is explained.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
B.K. Dutta, Bachelor of Engineering (National Institute of Technology, Raipur), Master of Technology (Indian Institute of Technology, Kanpur), Doctor of Philosophy (Indian Institute of Technology, Bombay), served at the Department of Atomic Energy during the period Aug 1977-Dec 2018. Subsequently, he was associated with departmental programs as a Raja Ramanna Fellow and Academic Consultant during the period Jan 2019- Jul 2023. As a Distinguished Scientist, Head Human Resource Development Division (Bhabha Atomic Research Centre - BARC), and Dean (Homi Bhabha National Institute - HBNI), he served the department as a researcher, academician, and engineering practitioner. The primary thrust of Dr. Dutta's research is linked to the structural safety of Indian nuclear reactors.
Inhaltsangabe
1. Introduction 2. Present State of Literature on Small-Punch-Test Methodology 3. A Methodology to Develop New Correlations to Calculate Yield and Ultimate Stresses of Engineering Materials using Small Punch Test Data 4. An Improved Correlation between Punch Displacement and Minimum Thickness of SPT Specimen during Test 5. A Generalized Correlation to Ascertain Material Fracture Toughness using Experimental Data of SPT Specimen 6. Development of ¿_pl Function and m-Factor of p-SPT Specimens 7. A New Methodology to Calculate J-R Curve of Structural Steels using p-SPT Data 8. Determination of Mechanical Properties of Degraded Engineering Material using SPT Data: A Real-Life Case Study
1. Introduction 2. Present State of Literature on Small-Punch-Test Methodology 3. A Methodology to Develop New Correlations to Calculate Yield and Ultimate Stresses of Engineering Materials using Small Punch Test Data 4. An Improved Correlation between Punch Displacement and Minimum Thickness of SPT Specimen during Test 5. A Generalized Correlation to Ascertain Material Fracture Toughness using Experimental Data of SPT Specimen 6. Development of ¿_pl Function and m-Factor of p-SPT Specimens 7. A New Methodology to Calculate J-R Curve of Structural Steels using p-SPT Data 8. Determination of Mechanical Properties of Degraded Engineering Material using SPT Data: A Real-Life Case Study
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