• Title/Summary/Keyword: Instrumented indentation test(IIT)

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High-temperature Mechanical Properties Measurement and Life Assessment of Boiler Equipment by Instrumented Indentation Technique (계장화 압입시험법을 이용한 보일러 설비의 고온 기계적 물성 측정과 수명 평가)

  • Ro, Dong-Seong;Hong, Jeong-Wha;Kim, Kwang-Ho;Lee, Jung-Jun
    • Journal of the Korean Society of Safety
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    • v.24 no.3
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    • pp.1-6
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    • 2009
  • Recently power plants and oil refineries are focusing on capacity enlargement for better efficiency through higher temperature and higher pressure. Thickness of boiler tubes becomes lessened due to oxidation and erasion caused by high temperature bums gas flowing over tubes outside. Accordingly, mechanical stress of tubes is increasing and that is a critical factor to make a crack and fracture. To prevent those sorts of accidents, aging assessment for proper periodic repair and replacement should be conducted reliably and reasonably. We performed IIT test on Cr-Mo steel, one of the most heat-resistant materials for facilities in power plants, and we report the test result and the considerable effectiveness of IIT test.

Calculation of the Elongation for a Polymer Coating Film from Mechanical Properties Measured by Instrumented Indentation Test (계장화압입시험 측정 물성으로부터 고분자 코팅막의 연신율 산출)

  • Seong-Whan Shinn
    • The Journal of the Convergence on Culture Technology
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    • v.10 no.6
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    • pp.697-702
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    • 2024
  • The instrumented indentation test(IIT) is a useful analytical technique for measuring the mechanical properties of micro or nanoscale thin films processed via coating or plating on substrates. This study aims to measure the mechanical properties of a polymer film coated on a wafer using a nanoindenter, the most representative instrument for the instrumented indentation test. We will discuss how to derive tensile strength and elongation from the obtained measurements. Typically, mechanical properties measurable by a nanoindenter include composite hardness, plastic hardness, elastic modulus, and elasticity, whereas measuring tensile strength or elongation, achievable with traditional tensile testing machines, is not possible. Therefore, this study will analyze the correlation between hardness and elongation, and based on the results, we will explore a method to derive elongation from the mechanical property data measured by the nanoindenter.

Characterization of Elastic Modulus and Work of Adhesion in Elastomeric Polymer through Micro Instrumented Indentation Technique (마이크로 압입시험기법의 응용을 통한 탄성체 고분자 소재의 역학적 특성화 및 계면 접합에너지 평가기법 연구)

  • Lee, Gyu-Jei;Kang, Seung-Kyun;Kang, In-Geun;Kwon, Dong-Il
    • Proceedings of the KSME Conference
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    • 2007.05a
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    • pp.1744-1748
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    • 2007
  • In this study, the Johnson-Kendall-Roberts (JKR) theory was combined with the instrumented indentation technique (IIT) to evaluate work of adhesion and modulus of elastomeric polymer. Indentation test was used to obtain the load-displacement data for contacts between Tungsten Carbide indenter and elastomeric polymer. And the JKR contact model, contrived to take viscoelastic effects of polymer into account, was applied to compensate the contact area and the elastic modulus which Hertzian contact model would underestimate and overestimate, respectively. Besides, we could obtain the thermodynamic work of adhesion by considering the surface energy in this contact model. In order to define the relation between JKR contact area and applied load without optical measuring of contact area, we used the relation between applied load and contact stiffness by examining the correlation between JKR contact area and stiffness through dimensional analysis with 14 kinds of elastomeric polymer. From this work, it could be demonstrated that the interfacial work of adhesion and elastic modulus of compliant polymer can be obtained from a simple instrumented indentation testing without area measurement, and provided as the main algorithm of compliant polymer characterization.

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Mechanical Characterization of Elastomeric Polymer Through Micro Instrumented Indentation Technique (마이크로 압입시험기법의 응용을 통한 탄성체 고분자 소재의 역학적 특성화 및 계면 접합에너지 평가기법 연구)

  • Lee, Gyu-Jei;Kang, Seung-Kyun;Kang, In-Geun;Kwon, Dong-Il
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.31 no.9
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    • pp.951-959
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    • 2007
  • In this study, the Johnson-Kendall-Roberts(JKR) theory was combined with the instrumented indentation technique (IIT) to evaluate work of adhesion and modulus of elastomeric polymer. Indentation test was used to obtain the load-displacement data for contacts between Tungsten Carbide indenter and elastomeric polymer. And the JKR contact model, contrived to take viscoelastic effects of polymer into account, was applied to compensate the contact area and the elastic modulus which Hertzian contact model would underestimate and overestimate, respectively. Besides, we could obtain the thermodynamic work of adhesion by considering the surface energy in this contact model. In order to define the relation between JKR contact area and applied load without optical measuring of contact area, we used the relation between applied load and contact stiffness by examining the correlation between JKR contact area and stiffness through dimensional analysis with 14 kinds of elastomeric polymer. From this work, it could be demonstrated that the interfacial work of adhesion and elastic modulus of compliant polymer can be obtained from a simple instrumented indentation testing without area measurement, and provided as the main algorithm of compliant polymer characterization.

A Study on Utilizing Instrumented Indentation Technique for Evaluating In-field Integrity of Nuclear Structures (원전 구조물의 가동 중 건전성 평가를 위한 연속압입시험법의 활용에 관한 연구)

  • Song, Won-Seok;Kim, Seung-Gyu;Ahn, Hee-Jun;Kim, Kwang-Ho;Kwon, Dongil
    • Journal of the Korean Society for Nondestructive Testing
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    • v.33 no.2
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    • pp.165-172
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    • 2013
  • Power generating unit structures are designed and built to meet standard to secure its safety for expected life time. As the structures have been exposed to combined environment, degradation of structure material is accelerated and it can cause unexpected damage; evaluating precise mechanical properties of weak site like welded area is an essential research area as it is directly connected to safety issues. Existing measuring technique like tensile test requires specific size in testing specimen yet it is destructive method which is hard to apply on running structures. To overcome above mentioned limitation, IIT is getting limelight as it is non-destructive and simple method. In this study, latest technique is introduced to evaluate tensile property and residual stress by analyzing stress field occurs under the indenter while IIT is performed. Test on welded area, the weak site of nuclear structures have been practiced and confirmed that IIT can be usefully applied to evaluate integrity in industry.