High‐Temperature Shear Strength and Bonding Mechanism of the Mullite Ceramic/Fiber Brick Component Joined by Phosphate Adhesive

Hao, Ruihua; Liu, Jiachen; Dong, Xue; Guo, Anran; Hou, Zhenguang; Wang, Min

doi:10.1111/j.1744-7402.2012.02842.x

Cited by 14 publications

(4 citation statements)

References 19 publications

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“…At 500°C, AlO(OH) disappeared and dehydrated into Al 2 O 3 . As there was no Al 2 O 3 peak in XRD spectrum at 500°C, it was referred that Al 2 O 3 generated was amorphous …”

Section: Resultsmentioning

confidence: 99%

Preparation and Performance of the Room‐Temperature‐Cured Heat‐Resistant Phosphate Adhesive for C/C Composites Bonding

Wang

Liu

Guo

et al. 2014

Int J Applied Ceramic Tech

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Carbon/carbon(C/C) composites were bonded with a phosphate adhesive prepared from H3PO4 (orthophosphoric acid) and Al(OH)3 as the matrix and Si and CuO as the inorganic fillers. The mechanical properties were tested at room temperature after the bonded specimens were treated from RT to 1500°C. The results showed that the addition of CuO could greatly improve the adhesive's mechanical properties due to the formation of CunSi (copper silicides). The shear strength of bonded specimens could be up to 8.2 MPa without heat treatment and remain above 2 MPa within the whole heat‐treatment temperature range.

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“…At 500°C, AlO(OH) disappeared and dehydrated into Al 2 O 3 . As there was no Al 2 O 3 peak in XRD spectrum at 500°C, it was referred that Al 2 O 3 generated was amorphous …”

Section: Resultsmentioning

confidence: 99%

Preparation and Performance of the Room‐Temperature‐Cured Heat‐Resistant Phosphate Adhesive for C/C Composites Bonding

Wang

Liu

Guo

et al. 2014

Int J Applied Ceramic Tech

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“…Its RT-curing property was based on the polymerization reaction between matrix materials. 21 Bonded specimens were heat-treated at different temperatures ranging from 300 C to 1500 C in the air. Each bonded sample was calcined at a given temperature for 1 h. Their shear strength was tested at RT by the Electronic Universal Testing Machine (CSS-44001; Changchun, China) at a cross-head speed of 0.2 mm min À1 .…”

Section: Methodsmentioning

confidence: 99%

Joining of silicon carbide by a heat-resistant phosphate adhesive

Wang

Liu

et al. 2014

RSC Adv.

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“…Volceanov et al [40] prepared zirconium phosphate adhesives for bonding magnesite refractory materials according to the ratios of P2O5/ZrO2 of 2.30, 1.15, and 0.77, and the bonding strength of three adhesives exceeds 5 MPa. Hao et al [41] prepared an aluminum phosphate adhesive using phosphoric acid and aluminum hydroxide as reaction sources modified with mullite and silica powder, and its bonding strength for mullite ceramics reached 6.58 MPa at 800℃. Among these types of phosphate adhesives, aluminum phosphate adhesive has been reported the most and widely used.…”

Section: J U S T a C C E P T E Dmentioning

confidence: 99%

The preparation and performance analysis of zirconium-modified aluminum phosphate-based high-temperature (RT–1500 °C) resistant adhesive for joining alumina in extreme environment

Liu,

Wan,

Xiao

et al. 2024

Journal of Advanced Ceramics

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High-temperature-resistant adhesive is a critical material in the aerospace field. The zirconium-modified aluminum phosphate-based adhesive developed in this work had the advantage of adjustable thermal expansibility, achieving a high matching of CTE with alumina. The introduction of zirconium can significantly improve the thermal stability of the adhesive matrix, and the Zr/Al ratio substantially affects the various reaction processes inside the adhesive, especially the types of zirconium-containing compounds. Only when the mass ratio of zirconium hydroxide to aluminum hydroxide was 3:7, most of the zirconium-containing compounds in A7Z3 adhesive were ZrO2, which was the key reason it had the highest CTE. The room-temperature bonding strength of A7Z3 after heat treatment at 1500℃ reached 67.2 MPa. After pre-treatment at 1500℃, the hightemperature bonding strength of A7Z3 was above 50 MPa in the range of RT-1000℃. After 40 thermal cycles between RT and 1500℃, the bonding strength still reached 10 MPa. Physical bonding worked at temperatures below 1000℃, while chemical bonding dominated above 1000℃ based on the generation of Al5BO9 and mullite on the interfaces.

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High‐Temperature Shear Strength and Bonding Mechanism of the Mullite Ceramic/Fiber Brick Component Joined by Phosphate Adhesive

Cited by 14 publications

References 19 publications

Preparation and Performance of the Room‐Temperature‐Cured Heat‐Resistant Phosphate Adhesive for C/C Composites Bonding

Preparation and Performance of the Room‐Temperature‐Cured Heat‐Resistant Phosphate Adhesive for C/C Composites Bonding

Joining of silicon carbide by a heat-resistant phosphate adhesive

The preparation and performance analysis of zirconium-modified aluminum phosphate-based high-temperature (RT–1500 °C) resistant adhesive for joining alumina in extreme environment

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