Friction and Wear Properties of Carbon/Silicon Carbide Composites.

Hokao, Michita; Sasaki, Hiroshi; Hironaka, Seiichiro

doi:10.2109/jcersj.108.1254_191

Cited by 3 publications

(1 citation statement)

References 1 publication

Supporting

Mentioning

Contrasting

Order By: Relevance

“…They demonstrate effective performance in various applications including as a negative electrode material in lithium-ion batteries, a crucible material for silicon wafer production and in high-temperature devices used under non-oxidizing atmospheres at above 2000°C. Recently, carbon composite materials such as carbon/titanium carbide (carbon/TiC) and carbon/silicon carbide (carbon/SiC) have been focused on as materials with ultra-high strength [3,4]. For example, carbon/SiC composite particles can be obtained by the conventional mixing of SiC powder with raw coke [5,6].…”

Section: Introductionmentioning

confidence: 99%

Facile synthesis of spherical carbon composite particles via a dry granulation process

Okazaki

Hamai

Arif

et al. 2015

Carbon

View full text Add to dashboard Cite

Section: Introductionmentioning

confidence: 99%

Facile synthesis of spherical carbon composite particles via a dry granulation process

Okazaki

Hamai

Arif

et al. 2015

Carbon

View full text Add to dashboard Cite

Enhancement of Hydrophilic Properties of Alumina-Based Ceramics

Kita

Hyuga

Yoshida

et al. 2006

J. Ceram. Soc. Japan

View full text Add to dashboard Cite

ȪɳɧɒɃɱɧɋȷɁǽ╕ᕮමǽტ↝‫ل‬ ⇠ẃɿᅠ۹ᲂᑰɿ۱ᨀӡడɿগ╦݅᧯ଉ ɿ‫‬झೈ⅟ଉ ᧳Ꮱཪ⒈ἕ۰ᮾ᳣ཀࢫ463-8560 ۵‫ୖے‬లમ୮ٚˁᔲ‫ܬ‬ 2266-98 ଉ ጋǓǨȦ˛ঞᮾ᳣ཀࢫ252-8501 ⍪ᖴలᎉ 8An effective additive for enhancing the hydrophilic properties of alumina was identified. The mechanical and frictional properties of the resultant material were characterized. The contact angle varied greatly depending on the kind of additive. ZnO was found to be the additive that most reduced the water contact angle of conventional alumina. ZnO-added alumina, with such enhanced hydrophilic properties, naturally exhibited excellent frictional properties in the boundary-lubrication region. Its strength 388 MPa was equivalent to that of conventional alumina.

show abstract

Changes in Microstructure and Properties of ZnO-Added Al2O3 upon Sliding

Kita

Osumi

Iizuka

et al. 2006

J. Ceram. Soc. Japan

View full text Add to dashboard Cite

ɛ‫˚̨ك‬ᚊ‫ף‬ȪɳɧɒǽၽؔǺΒǕẻόȓᣀමǽং‫ك‬‫ل‬ ⇠ẃɿগ╦݅᧯ଉ ɿ‫‬झೈ⅟ଉ ɿᱨ કɿ۱ᨀӡడɿᅠ۹ᲂᑰ ᧳Ꮱཪ⒈ἕ۰ᮾ᳣ཀࢫ463-8560 ۵‫ୖے‬లમ୮ٚˁᔲ‫ܬ‬᳡ɾᗻ 2266-98 ଉ ጋǓǨȦ˛ঞᮾ᳣ཀࢫ252-8501 ⍪ᖴలᎉ 8The changes in microstructure and properties of ZnO-added alumina upon sliding under water lubrication were studied. Although the frictional force was lower than that of conventional alumina in the early stages, it increased upon long-term friction testing. Of the acicular ZnO-nAl 2 O 3 nࢼ3-9 and granular ZnAl 2 O 4 phases dispersed in the samples, ZnAl 2 O 4 with its low hardness was worn preferentially and pulled out during testing. The increase of frictional force during the sliding process was attributed to the pull-out of ZnAl 2 O 4 particles and their traction on the sliding surface during the experiment.

show abstract

Friction and Wear Properties of Carbon/Silicon Carbide Composites.

Cited by 3 publications

References 1 publication

Facile synthesis of spherical carbon composite particles via a dry granulation process

Facile synthesis of spherical carbon composite particles via a dry granulation process

Enhancement of Hydrophilic Properties of Alumina-Based Ceramics

Changes in Microstructure and Properties of ZnO-Added Al2O3 upon Sliding

Contact Info

Product

Resources

About