傾斜機能シンタクチックフォームの機械的特性分布評価
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| Published in | 日本機械学会論文集A編 Vol. 78; no. 790; pp. 890 - 901 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
一般社団法人 日本機械学会
2012
|
| Online Access | Get full text |
| ISSN | 1884-8338 |
| DOI | 10.1299/kikaia.78.890 |
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| Author | 横地, 雄斗 樋口, 理宏 吉岡, 大志 足立, 忠晴 |
|---|---|
| Author_xml | – sequence: 1 fullname: 樋口, 理宏 organization: 豊橋技術科学大学 大学院工学研究科 – sequence: 1 fullname: 足立, 忠晴 organization: 豊橋技術科学大学 大学院工学研究科 – sequence: 1 fullname: 吉岡, 大志 organization: 豊橋技術科学大学 大学院工学研究科 – sequence: 1 fullname: 横地, 雄斗 organization: 豊橋技術科学大学 大学院工学研究科 |
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| Copyright | 2012 一般社団法人 日本機械学会 |
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| References | (18) El-Hadek, M.A., and Tippur, H.V., “Dynamic Fracture Parameters and Constraint Effects in Functionally Graded Syntactic Epoxy Foams”, International Journal of Solids and Structures, Vol. 40 (2003), pp. 1885-1906. (9) Adachi, T., and Higuchi, M., “Fabrication of Bulk Functionally-Graded Syntactic Foams for Impact Energy Absorption”, Materials Science Forum, Vol.706-709 (2012). (5) Miyamoto, Y., Kaysser, W.A., Rabin, B.H., Kawasaki, A., and Ford, R.G., Functionally Graded Materials: Design, Processing, and Applications, (1999), Kluwer Academic Publishers. (16) Chittineni, K., and Woldesenbet, E., “Energy Absorption of Integrated Functionally Gradient Syntactic Foam”, Journal of Cellular Plastics, Vol. 46, No. 4 (2010), pp. 295-319. (2) Birman, V., and Byrd, L.W., “Modeling and Analysis of Functionally Graded Materials and Structures” Applied Mechanics Review, Vol. 60 (2007), pp. 195-216. (8) Kiernan, S., Cui, L., and Gilchrist, M.D., “Propagation of a Stress Wave through a Virtual Functionally Graded Foam”, International Journal of Non-Linear Mechanics, Vol. 44 (2009), pp. 456-468. (11) Gupta, N., and Ricci, W., “Comparison of Compressive Properties of Layered Syntactic Foams Having Gradient in Microballoon Volume Fraction and Wall Thickness”, Material Science and Engineering A, Vol. 247, (2006), pp. 331-342. (22) Higuchi, M., Adachi, T., Yokochi, Y., and Fujimoto, K., “Controlling of Distribution of Mechanical Properties in Functionally-Graded Syntactic Foams for Impact Energy Absorption”, Materials Science Forum, Vol. 706-709 (2012). (1) Koizumi, K., “FGM Activities in Japan”, Composites Part B, Vol. 28B (1997), pp. 1-4. (15) Chittineni, K., and Woldesenbet, E., “Characterization of Integrated Functionally Gradient Syntactic Foams”, Journal of Engineering Materials and Technology, Vol. 132 (2010), pp. 0110051-1-7 (23) Gibson, L.J. and Ashby, M.F., Cellular solids: structure and properties, (1997), pp. 169-202, Cambridge University Press. (6) Kieback, B., Neubrand, A., and Riedel, H., “Processing Techniques for Functionally Graded Materials”, Materials Science and Engineering A, Vol. 362 (2003), pp. 81-105. (21) Adachi, T., and Higuchi, M., “Development of Integral Molding of Functionally-Graded Syntactic Foams”, Advanced Dynamics and Model-Based Control of Structures and Machines (Edited by Hans Irschik, Michael Krommer, Alexander K. Belyaev), (2012), pp. 1-9, Springer. (20) Rohatgi, P.K., Matsunaga, T., and Gupta, N., “Compressive and Ultrasonic Properties of Polyester/Fly Ash Composites” Journal of Materials Science, Vol. 44 (2009), pp. 1485-1493. (3) Tanigawa, Y., “Some Basic Thermoelastic Problems for Nonhomogeneous Structural Materials”, Applied Mechanics Review, Vol. 48 (1995), pp. 287-300. (19) Kishore, Shankar, R., and Sankaran, S., “Gradient syntactic foams: Tensile Strength, Modulus and Fractographic Features”, Materials Science and Engineering: A, Vol. 412 (2005), pp. 153-158. (10) Bunn, P., and Mottram, J.T., “Manufacture and Compression Properties of Syntactic Foams”, Composites, Vol. 24 (1993), pp. 565-571. (4) Noda, N, “Thermal Stresses in Functuionally Graded Material”, Journal of Thermal Stresses, Vol. 22 (1999), pp. 377-512. (12) Gupta, N., “A Functionally Graded Syntactic Foam Material for High Energy Absorption under Compression”, Materials Letters, Vol. 61 (2007), pp. 979-982. (14) Caeti, R., Gupta, N., and Profiri, M., “Processing and Compressive Response of Functionally Graded Composites”, Materials Letters, Vol. 63 (2009), pp. 1964-1967. (7) Cui, L., Kiernan, S., and Gilchrist, M.D., “Designing the Energy Absorption Capacity of Functionally Graded Foam Materials”, Materials Science and Engineering: A, Vol. 507 (2009), pp. 215-225. (13) Gupta, N., Gupta, S.K., and Mueller, B.J., “Analysis of a Functionally Graded Particulate Composite under Flexural Loading Conditions”, Materials Science and Engineering: A, Vol. 485 (2008), pp. 439-447. (17) Parameswaran, V., and Shukla, A., “Processing and Characterization of a Model Functionally Gradient Material”, Journal of Materials Science, Vol. 35 (2000), pp. 21-29. |
| References_xml | – reference: (4) Noda, N, “Thermal Stresses in Functuionally Graded Material”, Journal of Thermal Stresses, Vol. 22 (1999), pp. 377-512. – reference: (1) Koizumi, K., “FGM Activities in Japan”, Composites Part B, Vol. 28B (1997), pp. 1-4. – reference: (3) Tanigawa, Y., “Some Basic Thermoelastic Problems for Nonhomogeneous Structural Materials”, Applied Mechanics Review, Vol. 48 (1995), pp. 287-300. – reference: (5) Miyamoto, Y., Kaysser, W.A., Rabin, B.H., Kawasaki, A., and Ford, R.G., Functionally Graded Materials: Design, Processing, and Applications, (1999), Kluwer Academic Publishers. – reference: (21) Adachi, T., and Higuchi, M., “Development of Integral Molding of Functionally-Graded Syntactic Foams”, Advanced Dynamics and Model-Based Control of Structures and Machines (Edited by Hans Irschik, Michael Krommer, Alexander K. Belyaev), (2012), pp. 1-9, Springer. – reference: (16) Chittineni, K., and Woldesenbet, E., “Energy Absorption of Integrated Functionally Gradient Syntactic Foam”, Journal of Cellular Plastics, Vol. 46, No. 4 (2010), pp. 295-319. – reference: (2) Birman, V., and Byrd, L.W., “Modeling and Analysis of Functionally Graded Materials and Structures” Applied Mechanics Review, Vol. 60 (2007), pp. 195-216. – reference: (18) El-Hadek, M.A., and Tippur, H.V., “Dynamic Fracture Parameters and Constraint Effects in Functionally Graded Syntactic Epoxy Foams”, International Journal of Solids and Structures, Vol. 40 (2003), pp. 1885-1906. – reference: (9) Adachi, T., and Higuchi, M., “Fabrication of Bulk Functionally-Graded Syntactic Foams for Impact Energy Absorption”, Materials Science Forum, Vol.706-709 (2012). – reference: (13) Gupta, N., Gupta, S.K., and Mueller, B.J., “Analysis of a Functionally Graded Particulate Composite under Flexural Loading Conditions”, Materials Science and Engineering: A, Vol. 485 (2008), pp. 439-447. – reference: (19) Kishore, Shankar, R., and Sankaran, S., “Gradient syntactic foams: Tensile Strength, Modulus and Fractographic Features”, Materials Science and Engineering: A, Vol. 412 (2005), pp. 153-158. – reference: (6) Kieback, B., Neubrand, A., and Riedel, H., “Processing Techniques for Functionally Graded Materials”, Materials Science and Engineering A, Vol. 362 (2003), pp. 81-105. – reference: (20) Rohatgi, P.K., Matsunaga, T., and Gupta, N., “Compressive and Ultrasonic Properties of Polyester/Fly Ash Composites” Journal of Materials Science, Vol. 44 (2009), pp. 1485-1493. – reference: (8) Kiernan, S., Cui, L., and Gilchrist, M.D., “Propagation of a Stress Wave through a Virtual Functionally Graded Foam”, International Journal of Non-Linear Mechanics, Vol. 44 (2009), pp. 456-468. – reference: (10) Bunn, P., and Mottram, J.T., “Manufacture and Compression Properties of Syntactic Foams”, Composites, Vol. 24 (1993), pp. 565-571. – reference: (22) Higuchi, M., Adachi, T., Yokochi, Y., and Fujimoto, K., “Controlling of Distribution of Mechanical Properties in Functionally-Graded Syntactic Foams for Impact Energy Absorption”, Materials Science Forum, Vol. 706-709 (2012). – reference: (15) Chittineni, K., and Woldesenbet, E., “Characterization of Integrated Functionally Gradient Syntactic Foams”, Journal of Engineering Materials and Technology, Vol. 132 (2010), pp. 0110051-1-7 – reference: (14) Caeti, R., Gupta, N., and Profiri, M., “Processing and Compressive Response of Functionally Graded Composites”, Materials Letters, Vol. 63 (2009), pp. 1964-1967. – reference: (23) Gibson, L.J. and Ashby, M.F., Cellular solids: structure and properties, (1997), pp. 169-202, Cambridge University Press. – reference: (12) Gupta, N., “A Functionally Graded Syntactic Foam Material for High Energy Absorption under Compression”, Materials Letters, Vol. 61 (2007), pp. 979-982. – reference: (7) Cui, L., Kiernan, S., and Gilchrist, M.D., “Designing the Energy Absorption Capacity of Functionally Graded Foam Materials”, Materials Science and Engineering: A, Vol. 507 (2009), pp. 215-225. – reference: (17) Parameswaran, V., and Shukla, A., “Processing and Characterization of a Model Functionally Gradient Material”, Journal of Materials Science, Vol. 35 (2000), pp. 21-29. – reference: (11) Gupta, N., and Ricci, W., “Comparison of Compressive Properties of Layered Syntactic Foams Having Gradient in Microballoon Volume Fraction and Wall Thickness”, Material Science and Engineering A, Vol. 247, (2006), pp. 331-342. |
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| Title | 傾斜機能シンタクチックフォームの機械的特性分布評価 |
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