Temperature effect on mechanical properties of toughened silicone resins

The temperature dependence of mechanical properties of two families of toughened silicone resins was investigated. The first family was representative of hydrosilylation reaction curable silicone resins, and the second representative of condensation reaction curable ones. The hydrosilylation curable...

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Published in	Polymer engineering and science Vol. 45; no. 11; pp. 1522 - 1531
Main Authors	Wu, Yuhong, McGarry, Frederick J., Zhu, Bizhong, Keryk, John R., Katsoulis, Dimitris E.
Format	Journal Article
Language	English
Published	Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.11.2005 Wiley Subscription Services Society of Plastics Engineers, Inc Blackwell Publishing Ltd
Subjects	Applied sciences Exact sciences and technology Inorganic and organomineral polymers Mechanical properties Physicochemistry of polymers Polymers Properties and characterization Resins Silicon polymers Silicones Temperature effects Thermal properties United States Strengthening Condensation reaction Temperature effect Mechanical properties Crosslinking Hydrosilylation Experimental study Mechanism Fracture toughness Bending strength Dynamic mechanical properties Crosslinked polymer Siloxane polymer
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ISSN	0032-3888 1548-2634
DOI	10.1002/pen.20423

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Abstract	The temperature dependence of mechanical properties of two families of toughened silicone resins was investigated. The first family was representative of hydrosilylation reaction curable silicone resins, and the second representative of condensation reaction curable ones. The hydrosilylation curable resin was cross‐linked with a variety of cross‐linkers, including 1,4‐bis(dimethylsilyl) benzene, 1,1,3,3,5,5,‐hexamethyltrisiloxane, diphenylsilane, and their mixtures. The condensation reaction curable resin and its toughened versions were cross‐linked by silanol condensation. Properties studied included flexural strength, flexural modulus, and fracture toughness KIc. Temperature effect on these properties of the first family of resins was substantial and varied strongly with the type of cross‐linkers. For this family of resins the flexural strength and modulus decreased with a rising temperature. Fracture toughness KIc showed a peaking behavior with the peak appearing at approximately 62°C below the α transition peak. This was explained by the effect of the plastic zone size, and the effect of the network resistance to plastic deformation. The second family of resins also showed decreases in modulus and strength with a higher testing temperature, but the fracture toughness changed little with temperature. POLYM. ENG. SCI., 45:1522–1531, 2005. © 2005 Society of Plastics Engineers
AbstractList	The temperature dependence of mechanical properties of two families of toughened silicone resins was investigated. The first family was representative of hydrosilylation reaction curable silicone resins, and the second representative of condensation reaction curable ones. The hydrosilylation curable resin was cross-linked with a variety of cross-linkers, including 1,4-bis(dimethylsilyl) benzene, 1,1,3,3,5,5,-hexamethyltrisiloxane, diphenylsilane, and their mixtures. The condensation reaction curable resin and its toughened versions were cross-linked by silanol condensation. Properties studied included flexural strength, flexural modulus, and fracture toughness [K.sub.Ic]. Temperature effect on these properties of the first family of resins was substantial and varied strongly with the type of cross-linkers. For this family of resins the flexural strength and modulus decreased with a rising temperature. Fracture toughness [K.sub.Ic] showed a peaking behavior with the peak appearing at approximately 62°C below the α transition peak. This was explained by the effect of the plastic zone size, and the effect of the network resistance to plastic deformation. The second family of resins also showed decreases in modulus and strength with a higher testing temperature, but the fracture toughness changed little with temperature. POLYM. ENG. SCI., 45:1522-1531, 2005. © 2005 Society of Plastics Engineers The temperature dependence of mechanical properties of two families of toughened silicone resins was investigated. The first family was representative of hydrosilylation reaction curable silicone resins, and the second representative of condensation reaction curable ones. The hydrosilylation curable resin was cross-linked with a variety of cross-linkers, including 1,4-bis(dimethylsilyl) benzene, 1,1,3,3,5,5,-hexamethyltrisiloxane, diphenylsilane, and their mixtures. The condensation reaction curable resin and its toughened versions were cross-linked by silanol condensation. Properties studied included flexural strength, flexural modulus, and fracture toughness K^sub Ic^. Temperature effect on these properties of the first family of resins was substantial and varied strongly with the type of cross-linkers. For this family of resins the flexural strength and modulus decreased with a rising temperature. Fracture toughness K^sub Ic^ showed a peaking behavior with the peak appearing at approximately 62°C below the α transition peak. This was explained by the effect of the plastic zone size, and the effect of the network resistance to plastic deformation. The second family of resins also showed decreases in modulus and strength with a higher testing temperature, but the fracture toughness changed little with temperature. [PUBLICATION ABSTRACT] The temperature dependence of mechanical properties of two families of toughened silicone resins was investigated. The first family was representative of hydrosilylation reaction curable silicone resins, and the second representative of condensation reaction curable ones. The hydrosilylation curable resin was cross‐linked with a variety of cross‐linkers, including 1,4‐bis(dimethylsilyl) benzene, 1,1,3,3,5,5,‐hexamethyltrisiloxane, diphenylsilane, and their mixtures. The condensation reaction curable resin and its toughened versions were cross‐linked by silanol condensation. Properties studied included flexural strength, flexural modulus, and fracture toughness KIc. Temperature effect on these properties of the first family of resins was substantial and varied strongly with the type of cross‐linkers. For this family of resins the flexural strength and modulus decreased with a rising temperature. Fracture toughness KIc showed a peaking behavior with the peak appearing at approximately 62°C below the α transition peak. This was explained by the effect of the plastic zone size, and the effect of the network resistance to plastic deformation. The second family of resins also showed decreases in modulus and strength with a higher testing temperature, but the fracture toughness changed little with temperature. POLYM. ENG. SCI., 45:1522–1531, 2005. © 2005 Society of Plastics Engineers
Audience	Academic
Author	McGarry, Frederick J. Wu, Yuhong Zhu, Bizhong Keryk, John R. Katsoulis, Dimitris E.
Author_xml	– sequence: 1 givenname: Yuhong surname: Wu fullname: Wu, Yuhong organization: Department of Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139 – sequence: 2 givenname: Frederick J. surname: McGarry fullname: McGarry, Frederick J. organization: Department of Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139 – sequence: 3 givenname: Bizhong surname: Zhu fullname: Zhu, Bizhong email: bizhong.zhu@dowcorning.com organization: Dow Corning Corporation, Midland, Michigan 48686 – sequence: 4 givenname: John R. surname: Keryk fullname: Keryk, John R. organization: Dow Corning Corporation, Midland, Michigan 48686 – sequence: 5 givenname: Dimitris E. surname: Katsoulis fullname: Katsoulis, Dimitris E. organization: Dow Corning Corporation, Midland, Michigan 48686
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Cites_doi	10.4028/www.scientific.net/MSF.423-425.509 10.1557/PROC-594-257 10.1016/0032-3861(93)90329-9 10.1016/0032-3861(83)90071-X 10.1016/0025-5416(74)90051-2 10.1021/ma0353843 10.1016/S0032-3861(97)00121-3 10.1016/0032-3861(83)90070-8 10.1016/S0032-3861(00)00027-6
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Keywords	Strengthening Condensation reaction Temperature effect Mechanical properties Crosslinking Hydrosilylation Experimental study Mechanism Fracture toughness Bending strength Dynamic mechanical properties Crosslinked polymer Siloxane polymer
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Snippet	The temperature dependence of mechanical properties of two families of toughened silicone resins was investigated. The first family was representative of...
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SubjectTerms	Applied sciences Exact sciences and technology Inorganic and organomineral polymers Mechanical properties Physicochemistry of polymers Polymers Properties and characterization Resins Silicon polymers Silicones Temperature effects Thermal properties
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Title	Temperature effect on mechanical properties of toughened silicone resins
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