Oxidation of Short Carbon Fiber Reinforced ZrB2-SiC Ceramics under Atmospheric and Oxyacetylene Torch Conditions

2008 ◽  
Vol 368-372 ◽  
pp. 1753-1755 ◽  
Author(s):  
Fei Yu Yang ◽  
Xing Hong Zhang ◽  
Shan Yi Du
Keyword(s):  
Carbon Fiber ◽  
Thin Layer ◽  
Cross Section ◽  
Oxidation Behavior ◽  
Gravimetric Analysis ◽  
Thermal Gravimetric ◽  
Short Carbon Fiber ◽  
Average Mass ◽  
Sic Ceramics ◽  
Short Carbon

The oxidation behavior of ZrB2-20 vol.% SiC (ZS) and ZrB2-20 vol.% SiC containing 20 vol.% short carbon fiber (ZSC) was studied using thermal gravimetric analysis and oxyacetylene torch test. It was shown that weight gains changed from 3.71 wt.% for ZS to 4.57 wt.% for ZSC after heating 10°C /min to 1450°C in air. A thin layer of Si-rich glass and then a depletion layer of SiC was found on the cross section of both materials and carbon fiber of ZSC exposed in air was oxidized. Under oxyacetylene, an average mass loss of 0.8 wt.% for ZS and 0.9 wt.% for ZSC was measured after 180 seconds. After exposure, an oxidized layer with the formation of ZrO2 and SiO2 was found on the surface of both materials. Meanwhile, fiber in the surface of ZSC appeared oxidized and removed.

Effect of the Addition of Short Carbon Fiber on Thermal Insulation Properties of ZrB2- SiC Hot-Pressed Ceramics

2020 ◽  
Vol 993 ◽  
pp. 785-790
Author(s):  
Lin Kai He ◽  
You Hong Sun ◽  
Mei Jun Liu ◽  
Qing Nan Meng
Keyword(s):  
Carbon Fiber ◽  
Thermal Insulation ◽  
Carbon Fibers ◽  
Interfacial Thermal Resistance ◽  
Sintering Process ◽  
Short Carbon Fiber ◽  
Sic Ceramics ◽  
Hot Pressing Sintering ◽  
Insulation Performance ◽  
Short Carbon

Short carbon fibers reinforced ZrB2-SiC ceramics were prepared by hot pressing sintering process. The short carbon fibers with different volume fractions (0.2.4.6.8.10.20) were added for improving the thermal insulation properties of ZrB2-SiC ceramics. The experimental results showed that as the content of short carbon fiber increased, the thermal diffusivity decreased from 43.9m2/s to 32.9m2/s, the thermal conductivity decreased from 104.3 W/(m·K) to 72.9 W/(m·K) and thermal insulation performance reduced by 43.1%, respectively. The enhancement of the thermal insulation properties is mainly due to high interfacial thermal resistance of short carbon fiber and matrix.

Microstructure, mechanical properties and oxidation behavior of short carbon fiber reinforced ZrB2-20v/oSiC-2v/oB4C composite

2018 ◽  
Vol 719 ◽  
pp. 206-226 ◽  
Author(s):  
Jiten Das ◽  
B.Chenna Kesava ◽  
J. Janardhana Reddy ◽  
V. Srinivas ◽  
Sweety Kumari ◽  
...  
Keyword(s):  
Mechanical Properties ◽  
Carbon Fiber ◽  
Oxidation Behavior ◽  
Fiber Reinforced ◽  
Short Carbon Fiber ◽  
Carbon Fiber Reinforced ◽  
Short Carbon

scholarly journals Effect of Geometric Parameters and Moisture Content on the Mechanical Performances of 3D-Printed Isogrid Structures in Short Carbon Fiber-Reinforced Polyamide

2021 ◽  
Author(s):  
Valerio Di Pompeo ◽  
Archimede Forcellese ◽  
Tommaso Mancia ◽  
Michela Simoncini ◽  
Alessio Vita
Keyword(s):  
Carbon Fiber ◽  
Moisture Content ◽  
Geometric Parameters ◽  
Fiber Reinforced ◽  
Compression Tests ◽  
Short Carbon Fiber ◽  
3D Printed ◽  
Carbon Fiber Reinforced ◽  
Mechanical Performances ◽  
Short Carbon

AbstractThe present paper aims at studying the effect of geometric parameters and moisture content on the mechanical performances of 3D-printed isogrid structures in short carbon fiber-reinforced polyamide (namely Carbon PA). Four different geometric isogrid configurations were manufactured, both in the undried and dried condition. The dried isogrid structures were obtained by removing the moisture from the samples through a heating at 120 °C for 4 h. To measure the quantity of removed moisture, samples were weighted before and after the drying process. Tensile tests on standard specimens and buckling tests on isogrid panels were performed. Undried samples were tested immediately after 3D printing. It was observed that the dried samples are characterized by both Young modulus and ultimate tensile strength values higher than those provided by the undried samples. Similar results were obtained by the compression tests since, for a given geometric isogrid configuration, an increase in the maximum load of the dried structure was detected as compared to the undried one. Such discrepancy tends to increase as the structure with the lowest thickness value investigated is considered. Finally, scanning electron microscopy was carried out in order to analyze the fractured samples and to obtain high magnification three-dimensional topography of fractured surfaces after testing.

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