Thermal Shock Parameters of Ceramics Evaluated by Infrared Radiation Heating
スポンサーリンク
概要
- 論文の詳細を見る
An infrared radiation(IR) heating method was used to evaluate thermal shock parameters(thermal shock strength and thermal shock fracture toughness)of float glass and alumina. This technique makes it possible to evaluate the parameters directly from the electric power of the IR heater. In this paper we discuss how the pertinent thermal shock parameters should be estimated both as physical properties of a material and as a function of temperature. The stress intensity factors for a disk with an edge crack were analyzed numerically under a thermal shock loading. The thermal shock parameters in both ambient and elevated-temperature environments were measured by the IR heating technique and the results were compared with predicted values, which combined such emperature-dependent properties of the material as Young's modulus, thermal conductivity, linear thermal expansion, and tensile strength or fracture toughness.
- 社団法人日本機械学会の論文
- 1997-10-15
著者
-
Awaji H
Nagoya Inst. Of Technol. Nagoya‐shi
-
Awaji Hideo
Department Of Obstetrics And Gynecology Specialized Clinical Science Tokai University School Of Medi
-
Awaji Hideo
Department Of Materials Science & Engineering Nagoya Institute Of Technology
-
AWAJI Hideo
Faculty of Engineering, Nagoya Institute of Technology
-
HONDA Sawao
Faculty of Engineering, Nagoya Institute of Technology
-
NISHIKAWA Tadahiro
Faculty of Engineering, Nagoya Institute of Technology
-
Nishikawa Tadahiro
Department Of Materials Science & Engineering Nagoya Institute Of Technology
-
AWAJI Hideo
Department of Materials Science, Nagoya Institute of Technology
-
Awaji Hideo
Department of Obstetrics and Gynecology, Specialized Clinical Science, Tokai University School of Medicine
関連論文
- Platelet inhibition by single low-dose aspirin, using the newly developed aggregometry with the laser light scattering method
- Temperature/Stress Distributions in a Stress-Relief-Type Plate of Functionally Graded Materials under Thermal Shock
- Thermal Shock Parameters of Ceramics Evaluated by Infrared Radiation Heating
- Preservation of tubal function following methotrexate treatment for ectopic pregnancy
- 20I-O-01 Mechanical Properties of Porous Alumina at High Temperature
- 18-O-02 Kaolin Based Cordierite for Pollution Control
- 14-P-02 Enhancement of Damage Tolerance Behaviour in Alumina Laminate Composites Using Microstructure Control
- 12-O-34 Design Concept of Strengthening and Toughening Mechanisms in Nanocomposites : Ceramic/Metal Nanocomposites
- 05-O-32 Critical Frontal Process Zone Size and Fracture Toughness
- 05-O-27 Estimation of Thermal Shock Strength for Porous Silicon Carbide
- 05-O-18 Aluminosilicate Based Fiber Reinforced Ceramic Composites
- 04-P-13 Temperature Dependence of Static and Cyclic Fatigue Behavior of Aluminum Titanate Ceramics
- 04-P-03 Effect of Particle Sizes on the Composition Gradient of a Hollow Cylinder of Functionally Gradient Materials by Centrifugal Molding Technique
- 04-O-04 Thermal Shock Testing on Mullite/ Molybdenium FGM Plates with Infrared Radiation/Water Flow Technique
- 04-O-03 Thermal Shock Test for Ceramics by a Water Flow Cooling Method
- Molecular Dynamics-Simulations of the Fracture Toughness of Sapphire
- Anesthesia and Acoustic Stress-Induced Intra-Uterine Growth Retardation in Mice