Boric Acid as a Coupling Agent for Preparation of Phenolic Resin Containing Boron and Silicon with Enhanced Char Yield

Yun, Jin Han; Chen, Lixin; Zhao, Hui; Zhang, Xiaofei; Ye, Wenlong; Zhu, Defu

doi:10.1002/marc.201800702

Cited by 36 publications

(20 citation statements)

References 42 publications

(63 reference statements)

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“…As shown in Figure , the water uptake gradually increases with time. Finally, water uptake of cured PSPPY resin is approaching 0.8 % at room temperature, which is much lower than that of phenolic resin . This illustrates that the cured PSPPY resin has potential practicability in humid environment.…”

Section: Resultsmentioning

confidence: 89%

Synthesis and Properties of a Silicon‐Containing Arylacetylene Resin with 2,6‐Diphenoxypyridine Unit

Liu

et al. 2020

ChemistrySelect

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A novel silicon-containing arylacetylene resin called poly (dimethylsilylene-ethylene-phenoxypyridyloxy-phenyleneethylene) (PSPPY) was made from 2,6-bis(4-ethynyl-phenoxy) pyridine and dimethyldichlorosilane by Grignard reactions. The structure and properties of the resin were characterized by 1 H-NMR, FT-IR, GPC, XRD, DSC, TGA and universal testing machine. The resin has a wide processing window ranged from 35°C to 155°C. The cured resin shows excellent mechanical property, low dielectric property and high thermal stability. The flexural strength of the cured resin at room temperature reaches 58.7 MPa. The cured resin has dielectric constant 3.0-3.5, dielectric loss 0.008-0.040 in the frequency of 10 À 1 -10 6 Hz, and low water uptake (0.8 %). The degradation temperature at 5 % weight loss and the residue at 800°C of the cured resin arrive at 500°C and 77.1 % in nitrogen atmosphere, respectively.[a] Dr.

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Section: Resultsmentioning

confidence: 89%

Synthesis and Properties of a Silicon‐Containing Arylacetylene Resin with 2,6‐Diphenoxypyridine Unit

Liu

et al. 2020

ChemistrySelect

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“…The residue char of the thermosets was enhanced from 13.4% to 18.5% with the increasing of DPPO‐TES contents, higher than that of EP (8.3%), illustrating that DPPO‐TES possessed excellent charring ability for EP materials. According to our previous work, 34,37 the introduction of Si to the EP matrix could significantly increase its thermal stability and SiO structures were stable during the whole pyrolysis process, which was beneficial to reduce weight loss.…”

Section: Resultsmentioning

confidence: 92%

“…It could be seen that the characteristic peak of oxirane at 831 cm −1 decreased successively and the absorption bond of OH at 3500 cm −1 increased obviously with the increasing of DPPO‐TES content in the modified EP, indicating the epoxy groups were consumed via the ring‐open reaction with SiOH, which was hydrolyzed from DPPO‐TES. In addition, the absorption peaks at 1000–1100 cm −1 were assigned to SiOSi structure, which was due to the condensation of SiOH 34 . Therefore, as shown in Scheme 1, there were two main reactions in the DPPO‐TES/EP system.…”

Section: Resultsmentioning

confidence: 97%

A bifunctional modifier endowing epoxy resin with outstanding flame retardancy and high impact strength

Han

Zhao

Chen

et al. 2021

J of Applied Polymer Sci

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The flammability and brittleness are two major shortages of epoxy resin (EP). Normally, adding flame retardants can deteriorate the mechanical property of EP. Herein, in this work, a reactive flame retardant (DPPO‐TES) containing both Si and P was synthesized and incorporated into EP. When the content of P is only 1.0 wt%, the LOI of the modified EP (DPPO‐TES/EP) reaches to 33.2%, UL‐94 passes V0, THR and pk‐HRR are 377.6 kw/m2 and 103.5 MJ/m2, respectively, which is attributed to the high flame‐retardant efficiency in both condense phase and gas phase. In addition, the flexible SiOSi chains in the structure can significantly improve the impact strength of DPPO‐TES/EP. Therefore, as a bifunctional modifier, DPPO‐TES has a wide application prospect for EP materials.

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“…The characteristic absorption peaks around 1237 cm −1 for common PR and 1222 cm −1 for B-containing PR correspond to the C-O bond of phenolic hydroxyl, and the stretching vibration peak of C-O bond for residual phenol hydroxyl is weakened visibly. The characteristic absorption peak of the C-O bond for benzyl hydroxyl is located at about 1100 cm −1 [27,28]. Notably, the B-containing PR exhibits a new strong absorption peak at about 1455 cm −1 , which is attributed to the characteristic peak of the B-O bond compared with that of common PR, indicating successful incorporation of the B element by the current simple method [13,27].…”

Section: Structure Of Common Pr and B-containing Prmentioning

confidence: 94%

Strong Effect of Process Parameters on the Properties of Boron-Containing Phenolic Resins with High Char Yield

Sun

2020

Applied Sciences

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This work is focused on the optimization of critical process parameters for preparation of boron-containing phenolic resin (B-containing PR), including the molar ratios of formaldehyde/phenol and potassium borate/phenol, reaction time; and measurement of surface tension of B-containing PR solution and wettability between B-containing PR solution and carbon fibers. The effects of the formaldehyde/phenol and potassium borate/phenol molar ratios on the char yield of the B-containing PR was studied. The highest char yield of B-containing PR could be as high as 71% under optimal conditions (molar ratios of formaldehyde/phenol = 1.8 and potassium borate/phenol = 0.2, and reaction time = 13 h). The effect of concentration and tested temperature on the surface tension of B-containing PR solution was investigated, and the wettability between B-containing PR solution and carbon fibers was evaluated for the first time, providing useful theory and experimental data for the preparation of B-containing PR-based composites.

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Boric Acid as a Coupling Agent for Preparation of Phenolic Resin Containing Boron and Silicon with Enhanced Char Yield

Cited by 36 publications

References 42 publications

Synthesis and Properties of a Silicon‐Containing Arylacetylene Resin with 2,6‐Diphenoxypyridine Unit

Synthesis and Properties of a Silicon‐Containing Arylacetylene Resin with 2,6‐Diphenoxypyridine Unit

A bifunctional modifier endowing epoxy resin with outstanding flame retardancy and high impact strength

Strong Effect of Process Parameters on the Properties of Boron-Containing Phenolic Resins with High Char Yield

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