Curing behaviors and thermomechanical properties of novolac cyanate–polyhedral oligomeric silsesquioxane copolymers

Li, Xiaodan; Huang, Wei; Sui, Yan; Wang, Guanhui; Xiao, Lin; Zhang, Dongxing

doi:10.1016/j.coco.2021.100932

Cited by 6 publications

(5 citation statements)

References 16 publications

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“…It has proved useful in the determination of the mechanical and volume relaxation properties of photochemically crosslinked multifunctional (meth)acrylate-based compositions intended as materials for data storage systems, as well as in rheological studies of isothermally crosslinked epoxy resins, viscoelastic properties of thiol-ene/acrylate systems, photocured dental prosthesis resins, and microscopic phase separation studies in epoxy-acrylate hybrid resins. [231][232][233][234] DMA can be used to characterize or monitor reactions analogous to coupling mass spectrometers to monitor reactions by a switching valve with a sample loop. 235 Moreover, modifications to the method are possible, such as coupling it with another, as described by Zwartkruis et al They introduced a hyphenated time-resolved technique that allows the measurement of reactive group conversion ( polymerization) while simultaneously monitoring network formation by the development of mechanical properties with real-time dynamic mechanical analysis near-infrared spectroscopy (RT-DMA/NIRS).…”

Section: Polymer Chemistrymentioning

confidence: 99%

Review of quantitative and qualitative methods for monitoring photopolymerization reactions

et al. 2023

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Section: Polymer Chemistrymentioning

confidence: 99%

Review of quantitative and qualitative methods for monitoring photopolymerization reactions

et al. 2023

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“…The major part of cyanate esters industrially produced are aromatic polymers with strong rigidity of their cured phase, so blending with other thermosets to improve their processability in the composite industry is needed (Nair et al, 2001;Kandelbauer, 2014). The literature reports the effect of different nanofillers on the cure of CE resin (Amirova et al, 2021), in particular the introduction of silica (Bershtein et al, 2021), POSS (Li et al, 2021) was widely investigated. Combination of carbon fibers and nanofillers for ablative purposes have been recently considered in the paper of Rao et al, 2021b, where the authors studied the effect of organo-FIGURE 7 | Impact strengths and flexural moduli of BA and BD resin (4,4′-bismaleimidodiphenylmethane (BDM) and renewable bis(5-allyloxy)-4-methoxy-2-methylphenyl) methane (ABE) from bio-based lignin derivative as a function of allyl to imide molar ratio (n) (A); Biobased thermosetting resins based on bismaleimide and allyl-etherified eugenol derivatives (B); T g and renewable carbon contents of BTP, BD and other eugenol derived BMI resins (C); TGA curves of cured AEG/BMI (EB) (allyl-etherified eugenol prepolymerized with 4,4′-bismaleimidodiphenylmethane, with allyl/maleimide unit ratios of 1/1, 1/2 and 1/3 (D) Reprinted with permission from (Neda et al 2014;Miao et al, 2019;Ge et al, 2017).…”

Section: Cyanate-estersmentioning

confidence: 99%

High Temperature Composites From Renewable Resources: A Perspective on Current Technological Challenges for the Manufacturing of Non-Oil Based High Char Yield Matrices and Carbon Fibers

et al. 2022

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During last decades a plethora of high temperature materials have been developed to work as a Thermal Protection System (TPS). Carbon based materials such as graphite, which possesses low density, high heat capacity and high energy of vaporization, have been used as TPS material. However, graphite has relatively poor mechanical properties, but exhibits low resistance to the thermal shocks. Accordingly, to bypass the limitation of graphite, carbon fibers are typically introduced in a carbon matrix to produce Carbon/Carbon Composites (CCCs). Among the different families of TPS solutions, Polymeric Ablative Materials (PAMs), produced combining high char yield matrices - mainly phenolic resins - and Carbon Fibers (CFs) are used to manufacture Carbon/Phenolic Composites (CPCs) i.e. the most important class of fiber reinforced PAM. Carbon fibers are traditionally produced from Polyacrylonitrile (PAN), Rayon and Pitch. Some limited researches also aimed to use cyanate-esters, bismaleimides, benzoxazines matrices in combination with ex-PAN-CFs, ex-Rayon-CFs, and ex-Pitch-CFs. In our paper, after covering the science and technology of these state-of-the-art fiber reinforced TPS materials, a review of current challenges behind the manufacturing of new, high char yield matrices and carbon fibers derived from alternative precursors will be provided to the reader. In particular, the possibility to produce CFs from precursors different from PAN, Rayon and Pitch will be reported and similarly, the technology of non-oil based phenolics, bismaleimides, cyanate-esters and benzoxazines will be discussed. The effect of the use of nanosized fillers on these matrices will also be reported. More in detail, after a preliminary section in which the state of the art of technologies behind carbon/phenolic composites will be covered, a second part of this review paper will be focused on the most recent development related to non-oil based phenolics and biomass derived carbon fibers. Finally, an outlook focused on the maturity of the lab-scale protocols behind the researches at the base of these non-traditional raw materials from an industrial point of view will conclude this review paper.

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“…Unfortunately, the latter improvement is often achieved at the expense of thermal stability. This deficiency is remedied by the synthesis of nanocomposites of CER with montmorillonite (MMT) [ 35 , 36 , 37 , 38 , 39 , 40 ], carbon nanotubes [ 41 , 42 ], nanostructured aluminum borate [ 43 ], ZnO [ 44 ], ZrW 2 O 8 [ 45 ], nanosilica [ 46 , 47 , 48 ], polyhedral oligomeric silsesquioxane (POSS) [ 49 , 50 , 51 , 52 , 53 , 54 , 55 , 56 , 57 , 58 , 59 , 60 , 61 , 62 , 63 , 64 , 65 , 66 , 67 , 68 , 69 , 70 , 71 , 72 , 73 ], and other nanofillers. The most pronounced effect on mechanical and thermal properties of CERs is achieved when nanoparticles with organically modified surface are used, as they may react with polymer networks.…”

Section: Introductionmentioning

confidence: 99%

“…In the case of reactive R, 3-D POSS molecules with diameters of 1–2 nm, they may graft chemically to polymer structures. New hybrid organic–inorganic CER-based thermosets with hydroxyl- [ 49 , 51 , 52 , 55 , 69 , 72 ], amino- [ 50 , 53 ], epoxy- [ 59 , 60 , 61 , 62 , 63 , 64 , 65 , 66 , 68 , 69 , 70 ], cyanate- [ 67 ], benzoxazinyl- [ 71 ] or methacrylate-functionalized [ 73 ] POSS units have thus been obtained with improved thermal and mechanical properties.…”

Section: Introductionmentioning

confidence: 99%

Effect of Amino-Functionalized Polyhedral Oligomeric Silsesquioxanes on Structure-Property Relationships of Thermostable Hybrid Cyanate Ester Resin Based Nanocomposites

Grigoryeva,

Fainleib,

Starostenko

et al. 2023

Polymers

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Nanocomposites of cyanate ester resin (CER) filled with three different reactive amino-functionalized polyhedral oligomeric silsesquioxane (POSS) were synthesized and characterized. The addition of a small quantity (0.1 wt.%) of amino-POSS chemically grafted to the CER network led to the increasing thermal stability of the CER matrix by 12–15 °C, depending on the type of amino-POSS. A significant increase of the glass transition temperature, Tg (DSC data), and the temperature of α relaxation, Tα (DMTA data), by 45–55 °C of the CER matrix with loading of nanofillers was evidenced. CER/POSS films exhibited a higher storage modulus than that of neat CER in the temperature range investigated. It was evidenced that CER/aminopropylisobutyl (APIB)-POSS, CER/N-phenylaminopropyl (NPAP)-POSS, and CER/aminoethyl aminopropylisobutyl (AEAPIB)-POSS nanocomposites induced a more homogenous α relaxation phenomenon with higher Tα values and an enhanced nanocomposite elastic behavior. The value of the storage modulus, E′, at 25 °C increased from 2.72 GPa for the pure CER matrix to 2.99–3.24 GPa for the nanocomposites with amino-functionalized POSS nanoparticles. Furthermore, CER/amino-POSS nanocomposites possessed a higher specific surface area, gas permeability (CO2, He), and diffusion coefficients (CO2) values than those for neat CER, due to an increasing free volume of the nanocomposites studied that is very important for their gas transport properties. Permeability grew by about 2 (He) and 3.5–4 times (CO2), respectively, and the diffusion coefficient of CO2 increased approximately twice for CER/amino-POSS nanocomposites in comparison with the neat CER network. The efficiency of amino-functionalized POSS in improving the thermal and transport properties of the CER/amino-POSS nanocomposites increased in a raw of reactive POSS containing one primary (APIB-POSS) < eight secondary (NPAP-POSS) < one secondary and one primary (AEAPIB-POSS) amino groups. APIB-POSS had the least strongly pronounced effect, since it could form covalent bonds with the CER network only by a reaction of one -NH2 group, while AEAPIB-POSS displayed the most highly marked effect, since it could easily be incorporated into the CER network via a reaction of –NH2 and –NH– groups with –O–C≡N groups from CER.

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Curing behaviors and thermomechanical properties of novolac cyanate–polyhedral oligomeric silsesquioxane copolymers

Cited by 6 publications

References 16 publications

Review of quantitative and qualitative methods for monitoring photopolymerization reactions

Review of quantitative and qualitative methods for monitoring photopolymerization reactions

High Temperature Composites From Renewable Resources: A Perspective on Current Technological Challenges for the Manufacturing of Non-Oil Based High Char Yield Matrices and Carbon Fibers

Effect of Amino-Functionalized Polyhedral Oligomeric Silsesquioxanes on Structure-Property Relationships of Thermostable Hybrid Cyanate Ester Resin Based Nanocomposites

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