|1.||Jones Ii, Leroy: 1 article (05/2009)|
|2.||Wellborn, Brandon: 1 article (05/2009)|
|3.||Biggs, Patrick: 1 article (05/2009)|
|4.||Lewis, Gladius: 1 article (05/2009)|
|5.||Moore, J S: 1 article (04/2007)|
|6.||Rule, J D: 1 article (04/2007)|
|7.||White, S R: 1 article (04/2007)|
|8.||Sottos, N R: 1 article (04/2007)|
|9.||Jones, A S: 1 article (04/2007)|
|10.||Yonemitsu, Kosei: 1 article (01/2002)|
04/22/2007 - "The use of wax-protected, recrystallized Grubbs' catalyst leads to a fourfold increase in the rate of polymerization of bulk dicyclopentadiene and extends the fatigue life of a polymer specimen over 30 times longer than a comparable non-healing specimen. "
04/22/2007 - "Self-healing polymers, based on microencapsulated dicyclopentadiene and Grubbs' catalyst embedded in the polymer matrix, are capable of responding to propagating fatigue cracks by autonomic processes that lead to higher endurance limits and life extension, or even the complete arrest of the crack growth. "
05/01/2009 - "Secondly, in this self-healing cement, the fatigue crack propagation (FCP) rate is critically dependent on the relative amount of the mass of the healing agent (endo-isomer of dicyclopentadiene (DCPD) embedded in poly (urea-formaldehyde) (PUF) microcapsules (diameter = 226 plusmn; 51 mu;m)) (MDM) to that of the catalyst (a first-generation Grubbsrsquo; catalyst) (MGC). "
|2.||Allergic Contact Dermatitis
|1.||Ethylene Glycol (Monoethylene Glycol)
|5.||Maleic Anhydrides (Maleic Anhydride)