Yield enhancement of matrix precursor in short carbon fiber reinforced randomly oriented carbon/carbon composite

Raunija, Thakur Sudesh Kumar; Verma, Anil

doi:10.5714/cl.2016.19.057

Cited by 2 publications

(1 citation statement)

References 15 publications

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“…The shore hardness (SH, Type-D, Kobunshi Keiki, Japan) was gauged by the ASTM D 2240 standard. A universal testing machine (UTM, WL2100, WITHLAB Ltd., Korea) was used to measure the flexural strengths after carbonization and graphitization with the following equation 13,50,51 :where F is the flexural strength, P is the breaking force, L is the span length (30 mm), b is the width (10 mm), and h is the thickness (3 mm).…”

Section: Methodsmentioning

confidence: 99%

Mechanical and electrical properties of MCMB/Chopped carbon fiber composite with different bead size

Kim

Lee

et al. 2019

Sci Rep

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The carbonization and graphitization of carbon/carbon (C/C) composites prepared from mesocarbon microbeads (MCMB) and chopped carbon fiber (CCF) have been studied with a wide range of temperatures, CCF contents and MCMB sizes. Three different sizes of MCMB were prepared with coal tar pitch at three temperatures, 420, 430 and 440 °C, and identified as about 12.8, 16.0 and 20.1 µm, respectively. Each size of MCMB was mixed with CCFs at ratios of 2, 4, 6 and 8 wt. % and formed into block shape. After carbonization at 1200 °C, carbonized C/C blocks (CCBs) were graphitized at 2000, 2400 and 2800 °C. The CCB prepared with CCF content of 2 wt. % and an MCMB size of 16.0 µm exhibited the highest flexural strength of about 151 MPa. The graphitized C/C block (GCB) with CCF content of 2 wt. %, which was graphitized at 2000 °C showed the highest flexural strength of about 159 MPa.

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Section: Methodsmentioning

confidence: 99%

Mechanical and electrical properties of MCMB/Chopped carbon fiber composite with different bead size

Kim

Lee

et al. 2019

Sci Rep

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Low Cost and Rapidly Processed Randomly Oriented Carbon/Carbon Composite Bipolar Plate for PEM Fuel Cell

et al. 2016

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The objective of the present work is to develop carbon/carbon (C/C) composite bipolar plate at low cost with rapid processing time by a novel process. Carbon/carbon composite was developed using exfoliated carbon fiber reinforcement, isroaniso as primary matrix precursor, and resole type phenolic resin as secondary matrix precursor. Randomly oriented hybrid carbon fiber (T‐800 and P‐75) reinforced hybrid carbon matrix composite was fabricated. The slicing and channel forming were carried out using simple and conventional machines. The competency of the material was investigated by characterizing and analyzing density, scanning electron miscroscopy (SEM), compressive strength, compressive modulus, flexural strength, tensile strength, impact strength, hardness, electrical conductivity, thermal conductivity, coefficient of thermal expansion, permeability, and corrosion current. The C/C composite bipolar plate with exfoliated carbon fibers offered bulk density 1.75 g cm−3, tensile strength 45 MPa, flexural strength 98 MPa, compressive strength 205 MPa, electrical conductivity 190 (through‐plane) and 595 S cm−1 (in‐plane), and thermal conductivity 24 (through‐plane) and 51 W m−1 K−1 (in‐plane). Further, single cell test was performed to evaluate the effectiveness of the C/C composite bipolar plate in the PEM fuel cell and the performance was compared with the commercial graphite bipolar plate at different operating temperatures.

show abstract

Yield enhancement of matrix precursor in short carbon fiber reinforced randomly oriented carbon/carbon composite

Cited by 2 publications

References 15 publications

Mechanical and electrical properties of MCMB/Chopped carbon fiber composite with different bead size

Mechanical and electrical properties of MCMB/Chopped carbon fiber composite with different bead size

Low Cost and Rapidly Processed Randomly Oriented Carbon/Carbon Composite Bipolar Plate for PEM Fuel Cell

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