I-Anti-I-Oxidation Graphite Electrode Plate iwuhlobo lwe-graphite electrode plate eye yaphathwa ngokukhethekile ukuze kuthuthukiswe ukuzinza kwayo{1}}kwimvelo ephezulu ye-oxidation. Ayigcini nje ngokugcina ukuguquguquka okuhle kakhulu kukagesi,{3}}ukumelana nezinga lokushisa okuphezulu kanye nokuzinza kwamakhemikhali e-graphite, kodwa futhi ithuthukisa ngokuphawulekayo ukumelana ne-oxidation, iyenze ifaneleke izigcawu zezimboni zokusebenza{4}}zesikhathi eside-zezinga lokushisa eliphezulu.
Izici zokusebenza
- Ukusebenza kwe-Antioxidant: Phakathi kwebanga eliphezulu{0}}elibaluliwe eliphezulu, i-antioxidant enamathelayo inganciphisa ngokuphawulekayo ukusabela phakathi kwamapuleti e-graphite electrode kanye ne-oxygen noma i-oxygen{1}}equkethe izinto, kwelule impilo yazo yesevisi.
- Ukusetshenziswa okuncishisiwe: Ukusetshenziswa kwamapuleti e-electrode e-graphite angavimbeli nge-oxidation kunganciphisa ukusetshenziswa kwe-electrode ngo-24% ukuya ku-50%, kuye ngefomula yokumboza, izimo zokucubungula nendawo yokusebenza.
- Thuthukisa ukusebenza kahle: Ngenxa yokwehliswa kokusetshenziswa kwe-electrode, i-oxidation-i-electronic graphite electrode plate isiza ukuthuthukisa ukusebenza kahle kokukhiqiza, kuyilapho yehlisa ukusebenza kanye nengozi yabasebenzisi.
- Ukonga amandla nokuvikelwa kwemvelo: Ngokunciphisa inani lokushintshwa kwama-electrode kanye nokunciphisa ukusetshenziswa kwamandla, i-anti{0}}i-oxidation graphite electrode electrode plate inikela ekongeni amandla nasekunciphiseni ukungcola, ngokuhambisana nethrendi yamanje yokuvikelwa kwemvelo.
Imingcele Yezobuchwepheshe
|
Isigaba sepharamitha |
Ipharamitha ethize (Iyunithi) |
Ibanga Elijwayelekile |
|
Okubalulekile |
I-Carbon Purity (%) |
99.90–99.97 (Ibanga Lemboni); Kukhulu noma kulingana no-99.99 (Precision Grade) |
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Ukuminyana (g/cm³) |
1.85–1.92 |
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Okuqukethwe komlotha (ppm) |
Ngaphansi kwe-150 noma elingana ne-Industrial Grade); Ngaphansi noma kulingana nama-50 (Ibanga Elinembile) |
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Usayizi Wezinhlayiyana (μm) |
5–15 (Okuvamile); 3–8 (Uhlamvu Oluhle) |
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I-Anti-Ukusebenza Kwe-Oxidation |
Uhlobo Lokunamathela |
I-Silicon Carbide (SiC)/Borosilicate Glass/Phosphate |
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I-Anti-I-Oxidation Temperature Range (℃) |
800–1400 (SiC Coating); 600–1000 (I-Glass Coating) |
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Izinga le-Oxidation (g/m²·h) |
Ngaphansi noma kulingana no-0.008 (Indawo Yomoya ku-1000 degree); Ngaphansi noma kulingana no-0.015 (I-Inert Atmosphere ku-1200 degree) |
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|
Ukuthuthukiswa Kwempilo Yesevisi Eziningi |
3–5 izikhathi (vs. Ordinary Graphite Electrodes) |
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Ukusebenza Komshini |
Amandla e-Flexural (MPa) |
40–65 |
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Amandla Acindezelayo (MPa) |
80–120 |
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Ukuqina Kwasogwini (HS) |
55–80 |
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Ukusebenza Okushisayo |
Izinga Lokushisa Eliphezulu Lokusebenza (℃) |
1400–1600 (Ngokuvikelwa Kwezingubo) |
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I-Thermal Conductivity (W/m·K) |
120–180 (Izinga lokushisa Legumbi) |
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I-Thermal Shock Resistance (iziqu) |
Kukhulu noma kulingana no-600 (Umehluko Wezinga Lokushisa) |
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Ukusebenza Kagesi |
Ukumelana Nomthamo (μΩ·m) |
6–10 |
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Ukunemba Kwemishini |
Ukubekezelela Ubukhulu (mm) |
±0.05 (Ubude/Ububanzi); ±0.02 (Ubukhulu) |
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Ukuqina Kobuso (Ra, μm) |
0.4–1.0 |
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Ukumelana Nemvelo |
I-Acid Corrosion Mass Loss (%) |
Ngaphansi noma kulingana no-0.2 (pH 2–4, 1000h) |
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{{0}Umjikelezo Wokulwa Nezinga Lokushisa{1}Ophezulu{1}}Umjikelezo We-oxidation (h) |
Okukhulu noma kulingana ne-3000 (Ukusebenza Okuqhubekayo ku-1200 degree) |
Imikhiqizo isekela ukwenza ngokwezifiso komuntu siqu (uhlobo lokumboza, usayizi, nemingcele yokusebenza kungalungiswa njengoba kudingeka)
Ubuchwepheshe bokwelashwa kwe-Antioxidant
- Ubuchwepheshe bokumboza ubuso
(1) I-silicon carbide coating -- Yakha ungqimba oluvikelayo lwe-SiC endaweni ye-electrode, enokumelana nezinga lokushisa okufika ku-1400℃kanye nokumelana ne-oxidation izikhathi ezingu-3-5. Ifanele imvelo ye-oxidation ephezulu yokushisa efana nezithando zomlilo ze-arc kagesi kanye nama-mineral hot furnaces.
(2)I-Borosilicate glass coating -- Ngemva kokuncibilika kwezinga lokushisa eliphezulu, kwakheka ungqimba lwengilazi oluminyene ukuze luvimbe ukungena komoyampilo. Ivame ukusetshenziswa ezithandweni ze-lithium anode sintering kanye ne-photovoltaic single crystal furnaces.
- Ukwelashwa kokucwiliswa
(1)Ukucwiliswa kwe-phosphate -- Kugcwalisa izimbotshana ze-graphite, kunciphisa indawo yokuxhumana ye-oxidation, futhi imelana nezinga lokushisa elifinyelela ku-1000 degree. (2) Ukucwiliswa kukasawoti wensimbi -- Ifilimu evikela i-oxide yenziwa ezingeni lokushisa eliphezulu ukuze kuthuthukiswe ukumelana ne-oxidation.
- Ukuguqulwa kwezinto
(1)Engeza i-antioxidant -- Ungqimba oluvikelayo lwakhiwa ezingeni lokushisa eliphezulu.
(2)High{1}}i-graphite ye-density -- yehlisa i-porosity futhi yehlisa ijubane lokungena kwe-oxidation.
Amathrendi entuthuko yesikhathi esizayo
Ngokugxila okukhulayo ekuvikelweni kwemvelo kanye nezimfuneko eziqinile zokonga amandla,{1}}Ama-Anti{1}}Anti{1}}I-Oxidation Graphite Electrode Plates abonisa amandla amakhulu okusebenza. Uma sibheka phambili, izinto ezintsha eziqhubekayo kubuchwepheshe bokumboza kanye nokwenza ngcono inqubo kuzothuthukisa ukusebenza kwazo, kuzenze zikwazi ukusetshenziswa kuzo zonke izinhlelo zokusebenza zezimboni ezikhulayo.
Amashadi ashisayo: i-anti-i-oxidation graphite electrode plate, i-China anti{1}}abakhiqizi bepuleti le-oxidation graphite electrode
