Microstructural evolution and mechanical properties of in situ nano Ta4HfC5 reinforced SiBCN composite ceramics

Abstract: The in situ nano Ta4HfC5 reinforced SiBCN-Ta4HfC5 composite ceramics were prepared by a combination of two-step mechanical alloying and reactive hot-pressing sintering. The microstructural evolution and mechanical properties of the resulting SiBCN-Ta4HfC5 were studied. After the first-step milling of 30 h, the raw materials of TaC and HfC underwent crushing, cold sintering, and short-range interdiffusion to finally obtain the high pure nano Ta4HfC5. A hybrid structure of amorphous SiBCN and nano Ta4HfC5 was ob… Show more

“…The toughness can be improved by adding reinforcements such as fibers, whiskers, particles, graphenes, and carbon nanotubes. [10][11][12][13][14] Among them, the carbon fiber toughening effect is the most significant: through fiber debonding, fracture, and pull-out, composites show pseudo-plasticity rather than brittle fracture, and their mechanical properties are not sensitive to microdefects, which greatly improves damage tolerance and service reliability. 10 According to the source of SiBCN matrix, the preparation of carbon fiber-reinforced SiBCN (C f /SiBCN) composites can be divided into organic method and inorganic method.…”

“…[10][11][12][13][14] Among them, the carbon fiber toughening effect is the most significant: through fiber debonding, fracture, and pull-out, composites show pseudo-plasticity rather than brittle fracture, and their mechanical properties are not sensitive to microdefects, which greatly improves damage tolerance and service reliability. 10 According to the source of SiBCN matrix, the preparation of carbon fiber-reinforced SiBCN (C f /SiBCN) composites can be divided into organic method and inorganic method. Based on the organic method, C f /SiBCN composites are prepared via densifying carbon fiber preform through repeated precursor infiltration pyrolysis (PIP).…”

“…Based on the organic method, C f /SiBCN composites are prepared via densifying carbon fiber preform through repeated precursor infiltration pyrolysis (PIP). 10,15,16 However, precursor preparation involves high requirements and cost, and the repeated PIP process (up to 12 times) requires long preparation cycle. 16 Using inorganic powders (such as Si, C, B, BN, etc.)…”

Mechanical and thermal shock properties of C_f/SiBCN composite: Effect of sintering densification and fiber coating

“…The toughness can be improved by adding reinforcements such as fibers, whiskers, particles, graphenes, and carbon nanotubes. [10][11][12][13][14] Among them, the carbon fiber toughening effect is the most significant: through fiber debonding, fracture, and pull-out, composites show pseudo-plasticity rather than brittle fracture, and their mechanical properties are not sensitive to microdefects, which greatly improves damage tolerance and service reliability. 10 According to the source of SiBCN matrix, the preparation of carbon fiber-reinforced SiBCN (C f /SiBCN) composites can be divided into organic method and inorganic method.…”

“…[10][11][12][13][14] Among them, the carbon fiber toughening effect is the most significant: through fiber debonding, fracture, and pull-out, composites show pseudo-plasticity rather than brittle fracture, and their mechanical properties are not sensitive to microdefects, which greatly improves damage tolerance and service reliability. 10 According to the source of SiBCN matrix, the preparation of carbon fiber-reinforced SiBCN (C f /SiBCN) composites can be divided into organic method and inorganic method. Based on the organic method, C f /SiBCN composites are prepared via densifying carbon fiber preform through repeated precursor infiltration pyrolysis (PIP).…”

“…Based on the organic method, C f /SiBCN composites are prepared via densifying carbon fiber preform through repeated precursor infiltration pyrolysis (PIP). 10,15,16 However, precursor preparation involves high requirements and cost, and the repeated PIP process (up to 12 times) requires long preparation cycle. 16 Using inorganic powders (such as Si, C, B, BN, etc.)…”

Mechanical and thermal shock properties of C_f/SiBCN composite: Effect of sintering densification and fiber coating

“…However, like most ceramics, the brittleness and poor reliability of SiBCN ceramics hinder its practical application. The toughness can be improved by adding reinforcements such as bers, whiskers, particles, graphenes and carbon nanotubes [10][11][12][13][14]. Among them, the carbon ber toughening effect is the most signi cant: through ber debonding, fracture and pull-out, composites show pseudo-plasticity rather than brittle fracture, and their mechanical properties are not sensitive to micro-defects, which greatly improves damage tolerance and service reliability [10].…”

“…At present, C f /SiBCN composites are mainly prepared via densifying carbon ber preform through repeated precursor in ltration pyrolysis (PIP) [10,[15][16]. However, precursor preparation involves high requirements and cost and repeated PIP process (up to 12 times) requires long preparation cycle [16].…”

Mechanical /thermal Shock Properties and Failure Mechanisms of Cf/SiBCN Composites Effect of Sintering Densification and Fiber Coating

Solid-State Amorphization, Crystallization Behavior and Thermal Stability of MA-SiBCN Powders