Development of a New Diagnosis Method for Incipient Caries in Human Teeth Based on Thermal Images under Pulse Heating
スポンサーリンク
概要
- 論文の詳細を見る
A new noninvasive diagnosis method based on the pulse heating thermographic NDT was proposed for incipient caries of human teeth. Experiments were conducted to study the applicability of the proposed method to the quantitative evaluation of location and shape of the incipient caries as well as the quantitative diagnosis of the degree of incipient caries. The incipient caries were artificially introduced to the extracted human teeth with various severities. Impulse heat flux by the xenon flash lamp was applied to the surface of the tooth and sequential thermal images were taken by the high-speed infrared thermography. It was found that the caries were clearly identified as the localized high temperature region in the sequential thermal images. A coefficient of the temperature descent was obtained from sequential thermal images. It was found that the degree of the demineralization, i. e. the degree of incipient caries was evaluated from the temperature descent coefficient. Further the proposed technique was applied to the detection of natural incipient caries in an extracted human molar tooth. It was found that natural incipient caries was also clearly identified in the thermal images.
- 一般社団法人日本機械学会の論文
- 2003-01-15
著者
-
INOUE Tomoyasu
Department of Electronic Engineering, Iwaki Meisei University
-
SAKAGAMI Takahide
Department of Mechanical Engineering, Osaka University
-
Kubo Shiro
Department Of Mechanical Engineering And Systems Graduate School Of Engineering Osaka University
-
NAGANUMA Takeshi
Oral-Care Research Laboratories, Lion Corporation
-
MATSUYAMA Kazumasa
Oral-Care Research Laboratories, Lion Corporation
-
NAKASHIMA Shoji
Oral-Care Research Laboratories, Lion Corporation
-
KANEKO Kenji
Oral-Care Research Laboratories, Lion Corporation
-
Sakagami Takahide
Department Of Mechanical Engineering & Systems Osaka University
-
Matsuyama Kazumasa
Oral-care Research Laboratories Lion Corporation
-
Kaneko K
Oral-care Research Laboratories Lion Corporation
-
Nakashima Shoji
Oral-care Research Laboratories Lion Corporation
-
Naganuma Takeshi
Oral-care Research Laboratories Lion Corporation
関連論文
- Thermal Decompositiom of Ce0_2 in Ultra High Vacuum as a Cause of Polycrystalline Growth of Si Films on Epitaxial Ce0_2/Si
- Low-Temperature Epitaxial Growth of CeO_2(110)/Si(100) Structure by Evaporation under Substrate Bias
- Analysis of Misoriented Crystal Structure by Ion Channeling Observed Using Ion-Induced Secondary Electrons
- RBS/Channeling Study of the Crystallographic Correlation for Epitaxial CeO_2 on Si
- Near-Threshold Fatigue Crack Growth Behavior of SUS304 Steel at High Temperatures Using Interferometric Strain/Displacement Gage : 2nd Report, Fatigue Crack Growth Behavior
- Near-Threshold Fatigue Crack Growth Behavior of SUS304 Steel at High Temperatures Using Interferometric Strain/Displacement Gage : 1st Report, Crack Closure Behavior
- High-Sensitivity Channeling Analysis of Lattice Disorder Near Surfaces Using Secondary Electrons Induced by Fast Ions
- Characterization of Epitaxially Grown CeO_2(110) Layers on Si by Means of Shadowing Pattern Imaging with Fast Ion Beams
- Electrical Characteristics of Metal/Cerium Dioxide/Silicon Structures
- Quantitative Analysis of Oxygen Deficiency in Epitaxial CeO_2 Layers on Siby Detecting ^O Added for Stoichiometry
- Intermediate Amorphous Layer Formation Mechanism at the Interface of Epitaxial CeO_2 Layers and Si Substrates
- Quantitative Measurement of Two-Dimensional Inclined Cracks by the Electric-Potential CT Method with Multiple Current Applications
- Experimental Study on Applicability of Passive Electric Potential CT Method for Identification of Three-Dimensional Surface Crack
- An Experimental Study on Applicability of Passive Electric Potential CT Method to Crack Identification(Advanced Technology of Experimental Mechanics)
- SA-07-2(099) Loading Frequency Effect on Near-Threshold and Sub-Threshold Fatigue Crack Growth in SUS304 Steel at an Elevated Temperature(Flaw Assessment at Elevated Temperature 2)
- IDENTIFICATION OF AN INTERFACE CRACK IN BONDED DISSIMILAR MATERIALS FROM ELECTRIC POTENTIAL DISTRIBUTION
- Evaluation of the J-Integral Range of Fatigue Crack Emanating from Notches by Simple Estimation Formulae
- Investigation on Path-Integral Expression of the J-Integral Range Using Numerical Simulations of Fatigue Crack Growth
- INVERSE PROBLEMS IN SOLID MECHANICS AND RELEVANT FIELDS
- Texture Structure Analysis and Crystalline Quality Improvement of CeO_2(110) Layers Grown on Si(100) Substrates
- Experimental Stress Separation Technique Using Thermoelasticity and Photoelasticity and Its Application to Fracture Mechanics(Advanced Technology of Experimental Mechanics)
- Inverse Problems Related to the Mechanics and Fracture of Solids and Structures
- Development of a New Diagnosis Method for Incipient Caries in Human Teeth Based on Thermal Images under Pulse Heating
- Development of a New Crack Identification Technique Based on Near-Tip Singular Electrothermal Field Measured by Lock-in Infrared Thermography
- Experimental Tools for Characterizing Fretting Contacts
- Infrared Thermography Instrument and Its Application in Condition Monitoring
- Boundary Element Inverse Analysis with Regularization for Estimating Welding Residual Stress Distribution in Butt-Welded Plate