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Reinforced aerogels

Improving Elastic Properties of Polymer-Reinforced Aerogels... [Pg.315]

Scheme 15.2. Fabrication of polymer-reinforced aerogels A. and mechanism of di-isocyanate crossUnking B. Scheme 15.2. Fabrication of polymer-reinforced aerogels A. and mechanism of di-isocyanate crossUnking B.
Figure 15.4. Pore volume vs. pore diameter plot for di-isocyanate-reinforced aerogels made using varying amounts of total silane concentration and mol% BTMSH-derived Si. Figure 15.4. Pore volume vs. pore diameter plot for di-isocyanate-reinforced aerogels made using varying amounts of total silane concentration and mol% BTMSH-derived Si.
Figure 15.5. Repeat compression cycles of A. a styrene-reinforced aerogel monolith without flexible linking groups and (density = 0.122g/cm, surface area = 366 mVg) B. a st5rrcne-rcinforced monolith with 49 mol% Si derived fnrni hexyl-linked BTMSH (density = 0.232 g/cm, surface area =158 mVg tmd C. the monolith from B. before and after two compressirms. Reprinted from [18], Copyright 2009 American Chemical Society. Figure 15.5. Repeat compression cycles of A. a styrene-reinforced aerogel monolith without flexible linking groups and (density = 0.122g/cm, surface area = 366 mVg) B. a st5rrcne-rcinforced monolith with 49 mol% Si derived fnrni hexyl-linked BTMSH (density = 0.232 g/cm, surface area =158 mVg tmd C. the monolith from B. before and after two compressirms. Reprinted from [18], Copyright 2009 American Chemical Society.
Epoxy-Reinforced Aerogels from Ethanol Solvent... [Pg.324]

Figure 15.9. SEM images of aerogel monoliths made using 1.65 mol/1 total Si A. uncross-linked and B. polymer-reinforced aerogels prepared using 80 mol% Si from BTMSPA and C. uncrosslinked and D. polymer-reinforced aerogels prepared using 40 mol% Si from BTMSPA. Rqmnted from [38], Copyright 2010 American Chemical... Figure 15.9. SEM images of aerogel monoliths made using 1.65 mol/1 total Si A. uncross-linked and B. polymer-reinforced aerogels prepared using 80 mol% Si from BTMSPA and C. uncrosslinked and D. polymer-reinforced aerogels prepared using 40 mol% Si from BTMSPA. Rqmnted from [38], Copyright 2010 American Chemical...
While there is a trade-off between modulus and elastic recovery in polymer-reinforced aerogels using flexible linking groups, the combination of MTMS and BTMSPA used in the... [Pg.332]

Li L, Yalcin B, Nguyen B N, Meador M A B, Cakmak M (2(X)9) Nanofiber reinforced aerogel (xerogel) synthesis, manufacture and characterization. ACS Appl Mater and Interfaces, 1 2491-2501. [Pg.334]

Liao, Y., H. Wu, Y. Ding, S. Yin, M. Wang, and A. Cao. 2012. Engineering thermal and mechanical properties of flexible fiber-reinforced aerogel composites. Journal of Sol-Gel Science and Technology 63(3) 445-456. [Pg.35]

See other pages where Reinforced aerogels is mentioned: [Pg.220]    [Pg.315]    [Pg.316]    [Pg.316]    [Pg.317]    [Pg.317]    [Pg.318]    [Pg.321]    [Pg.322]    [Pg.323]    [Pg.323]    [Pg.324]    [Pg.326]    [Pg.327]    [Pg.328]    [Pg.328]    [Pg.329]    [Pg.329]    [Pg.330]    [Pg.331]    [Pg.331]    [Pg.331]    [Pg.332]    [Pg.332]    [Pg.696]   


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Aerogel

Aerogels

Epoxy reinforced aerogels

Epoxy-Reinforced Aerogels from Ethanol Solvent

Improving Elastic Properties of Polymer-Reinforced Aerogels

Reinforced aerogels carbon nanofiber

Reinforced aerogels polymer

Styrene reinforced aerogel

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