Applicability of Time-Temperature-Water Absorption Superposition Principle for Flexural Strength of CFRP Laminates
スポンサーリンク
概要
- 論文の詳細を見る
This paper is concerned with the influence of water absorption on the time-temperature dependent flexural strength of CFRP laminates. The CFRP laminates were prepared under three conditions of "Dry", "Wet", and "Wet+Dry". The "Dry" laminates were obtained by holding the cured laminates in the oven at 150℃ for 2hours, the "Wet" laminates were obtained by soaking the "Dry" laminates in hot water at 95℃ for 12, 24 and 48hours, and the "Wet+Dry" laminates were obtained by dehydrating the "Wet" laminates in the oven at 150℃ for 2hours. The constant strain rate (CSR) bending tests at various strain rates and temperatures as well as the creep test at various temperatures were carried out for these three kinds of laminates. The time-temperature dependence of flexural CSR strength and creep compliance of these laminates were obtained and the influence of water absorption on these strength and creep compliance were discussed. As results, the master-master curves of CSR strength as well as creep compliance were constructed based on the time-temperature-water absorption superposition principle.
- 一般社団法人日本機械学会の論文
- 2003-07-15
著者
-
KURAISHI AKIRA
Department of Internal Medicine, Nagano Red Cross Hospital
-
Kawashima Akira
長野赤十字病院
-
Tsai S
Stanford Univ. Ca Usa
-
Kuraishi A
Department Of Aeronautics And Astronautics Stanford University
-
TSAI Stephen
Department of Aeronautics & Astronautics, Stanford University
-
NAKADA Masayuki
Materials and Processing Research Center, NKK Corporation
-
MIYANO Yasushi
Materials System Research Laboratory, Kanazawa lnstitute of Technology
-
Miyano Y
Materials System Research Laboratory Kanazawa Institute Of Technology
-
Miyano Yasushi
Materials System Reaearch Laboratory Kanazawa Institute Of Techology
-
SEKINE Naoyuki
Graduate School, Kanazawa Institute of Technology
-
FUJIEDA Hisanori
Materials System Research Laboratory, Kanazawa Institute of Technology
-
Sekine Naoyuki
Graduate School Kanazawa Institute Of Technology
-
Nakada Masayuki
Materials And Processing Research Center Nkk Corporation
-
Fujieda Hisanori
Graduate School Kanazawa Institute Of Technology
-
KURAISHI Akira
Department of Aeronautics and Astronautics, Stanford University
-
NAKADA Masayuki
Material & Processing Research Center, NKK
関連論文
- Hemorrhagic rectal ulcer caused by a deformity of the coccyx complicated by normal delivery
- GFRPの曲げ強度に及ぼす吸水の影響
- Immunoblastic lymphadenopathy-like T-cell lymphoma complicated by multiple gastrointestinal involvement
- Churg-Strauss syndrome (allergic granulomatous angitis) presenting with ileus caused by ischemic ileal ulcer
- Double cancer (Iung and colon cancer) that showed complete remission with irinotecan and cisplatin combined chemotherapy
- Acute Pulmonary Edema Caused by Accidental Aspiration of Sweetened Water in Two Cases of Diabetes Mellitus
- Spontaneous Pneumomediastinum: Origin Identified by Chest Computed Tomography
- GFRP/Metal継手の引張疲労強度の時間および温度依存性
- GFRP および CFRP ボルト継手の疲労強度の時間および温度依存性
- CFRP積層板の曲げ強度の時間 - 温度依存性に及ぼす吸脱水の影響
- GFRP/Metalボルト継手の温度環境下における疲労寿命の予測
- 213 GFRP/Metal継手の引張疲労強度の時間および温度依存性(OS 高分子および高分子複合材料)
- Reduction of Macrosegregation by Applying a DC Magnetic Field at the Final Stage of Solidification
- Prediction of tensile fatigue life under temperature environment for unidirectional CFRP
- Prediction of Fatigue Life for CFRP/Metal Bolted Joint under Temperature Conditions
- Applicability of Time-Temperature-Water Absorption Superposition Principle for Flexural Strength of CFRP Laminates
- Time and Temperature Dependence on Flexural Strength of Heat-resistant CFRP Laminates
- 615 Prediction of Fatigue Life for CFRP/Metal Bolted Joint under Temperature Conditions
- 231 Applicability of Time-Temperature-Water Absorption Superposition Principle for Flexural Strength of CFRP Laminates
- 222 Time and Temperature Dependence of Flexural Strength of CFRP Laminates Using Heat-Resistant Resin
- Time and Temperature Dependence of Tensile Behavior of Unidirectional CFRP(Composite 3)
- Hybrid Stress Analysis of Viscoelastic Body Using Photoviscoelastic Birefringence
- GS(5)-23(GSW0189) Time-Temperature Dependent Flexural Behavior of Honeycomb Sandwich Composites
- Time-Temperature Dependent Compressive Behavior of GFRP/Honeycomb-Cored Sandwich Panel
- The Steel Flow Control System in Caster Mold by Traveling Magnetic Field
- 225 Time and Temperature Dependence on Flexural Fracture Behavior of Honeycomb Core Sandwich Panels
- Thermoviscoelastic Analysis of Residual Stresses in a Thermosetting Resin/Metal Laminated Beam Caused by Cooling
- Inclusion Particle Growth during Solidification of Stainless Steel
- Initial Solidification Control of Continuous Casting Using Electromagnetic Oscillation Method
- Perspectives of Research on High-speed Conventional Slab Continuous Casting of Carbon Steels