2009
DOI: 10.1002/pi.2559
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Variable‐temperature FTIR studies on thermal stability of hydrogen bonding in nylon 6/mesoporous silica nanocomposite

Abstract: BACKGROUND: Hydrogen bonding is very important in determining the properties of nylons. Introducing nanofillers that can form hydrogen bonds with amide groups at the interfaces may result in a different hydrogen bonding stability. Understanding the extent of the difference in hydrogen bonding between nylons and their nanocomposites and the mechanisms involved is valuable for explaining the origin of the property improvement of nanocomposites at the molecular level.

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Cited by 31 publications
(19 citation statements)
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“…As shown in Figure 5a and Table 1, the bands at 1633 and 1654 cm −1 are attributed to the ordered hydrogen-bonded CO in pure PA6 crystalline phase and the disordered hydrogen-bonded CO in PA6 amorphous domains, respectively. [25,26] The band at 1680 cm −1 at 83 °C (Figure 5b) is assigned to "free" CO in the homo-mixed domains. [25] According to the studies of Saiani et al [6] and Yu and Jo, [27] the incorporation of soft segments can enhance the purity and crystal perfectness of PA6 backbones, so we may assign the band at 1608 cm −1 to the ordered hydrogen-bonded CO in phase-separated mesophase.…”
Section: Phase Evolution Of Tpae-50 During Heating From 30 To 220 °Cmentioning
confidence: 99%
“…As shown in Figure 5a and Table 1, the bands at 1633 and 1654 cm −1 are attributed to the ordered hydrogen-bonded CO in pure PA6 crystalline phase and the disordered hydrogen-bonded CO in PA6 amorphous domains, respectively. [25,26] The band at 1680 cm −1 at 83 °C (Figure 5b) is assigned to "free" CO in the homo-mixed domains. [25] According to the studies of Saiani et al [6] and Yu and Jo, [27] the incorporation of soft segments can enhance the purity and crystal perfectness of PA6 backbones, so we may assign the band at 1608 cm −1 to the ordered hydrogen-bonded CO in phase-separated mesophase.…”
Section: Phase Evolution Of Tpae-50 During Heating From 30 To 220 °Cmentioning
confidence: 99%
“…Outdoor exposure tests of the injection-molding standard specimen of PA6 were performed at six national standard natural exposure stations (Qionghai, Guangzhou, Qingdao, Lhasa, Hailaer, and Ruoqiang) from September 2011 to September 2014 and lasted for 3 years. Specimens were collected after different time intervals (1,3,6,12,18,24,30, and 36 months); they were clamped at both ends by aluminum plates, put on racks in a horizon position, and tilted at 458 facing south for exposure.…”
Section: Weathering Experimentsmentioning
confidence: 99%
“…Polyamide 6 (PA6), as one of the most common engineering plastics, has a wide range of applications in industry because of its excellent mechanical properties, oil resistance, and abrasive resistance. 1,2 Usually, the carbon-hydrogen bond on the methylene group adjacent to nitrogen is considered to be the weakest bond, and the most complicated oxidation reaction proceeds on this carbon with exposure to heat, oxygen, light, and water during long-term service. An obvious deterioration of the chemical structures and physical performances can occur and can, consequently, lead to the failure of polyamide material and limit its use.…”
Section: Introductionmentioning
confidence: 99%
“…Some researchers have extensively explored the crystalline phase transitions during the process of heating or cooling [9][10][11]. The triclinic α-crystal structure of PA 66 may convert into the pseudo γ-hexagonal-crystal structure in the course of heating, in a process named the Brill transition [12][13][14]; the corresponding transition temperature is named the Brill transition temperature, or simply T B [15][16][17][18][19]. Generally speaking, the T B will be changed with the grain sizes and state, and sometimes even exceeds the melting point (T m ) [20,21].…”
Section: Introductionmentioning
confidence: 99%