Ngaba ubukrelekrele bokwenziwa okanye iteknoloji yedijithali isetyenzisiwe ekwenzeni ngcono imveliso yee-electrode zegrafiti?

Ubukrelekrele bokwenziwa (AI) kunye nobuchwepheshe bedijithali busetyenziswe ngempumelelo ekwenzeni ngcono imveliso yee-electrode ze-graphite kunye nezixhobo ezinxulumene nazo (ezifana nee-anode ze-graphite kunye nee-carbon nanotubes), nto leyo ephucula kakhulu ukusebenza kakuhle kophando nophuhliso (R&D), ukuchaneka kwemveliso, kunye nokusetyenziswa kwamandla. Iimeko ezithile zokusetyenziswa kunye neziphumo zezi zilandelayo:

I. Usetyenziso oluPhambili lweeTekhnoloji ze-AI kwi-R&D yezinto ezibonakalayo kunye neMveliso

1. Uphando noPhuhliso lwezinto ezikrelekrele

• Ukulungiswa kwe-Algorithm ye-AI yeNkqubo ze-R&D: Iimodeli zokufunda koomatshini zixela kwangaphambili iipropati zezinto (umz., umlinganiselo wembonakalo kunye nobunyulu beetyhubhu zekhabhoni), zithatha indawo yezilingo zemveli zovavanyo kunye neempazamo kunye nokunciphisa imijikelo ye-R&D. Umzekelo, iTuring Daosen, inkampani engaphantsi kweDo-Fluoride Technologies, isebenzise itekhnoloji ye-AI ukufezekisa ukulungiswa ngokuchanekileyo kweeparamitha zokwenziwa kwee-agents eziqhuba i-carbon nanotube kunye nezixhobo ze-graphite anode, nto leyo ephucula ukuhambelana kwemveliso.
• Indlela Egcweleyo Yokusebenzisa Idatha: Ubuchwepheshe be-AI bunceda ekutshintsheni ukusuka kuphando lwelabhoratri ukuya kwimveliso yemizi-mveliso, nto leyo ekhawulezisa umjikelo ovaliweyo ukusuka ekufumaneni izinto ukuya kwimveliso enkulu. Umzekelo, ukusetyenziswa kwe-AI ekuhlolweni kwezinto, ukuhlanganiswa, ukulungiswa, kunye novavanyo lokuchonga kuye kwandisa ukusebenza kwe-R&D ngaphezulu kwe-30%.

2. Uhlengahlengiso lweNkqubo yeMveliso

• Ukuphuculwa Okunamandla Kwezicwangciso Zobonelelo Lombane: Kwimveliso ye-anode ye-graphite, ii-algorithms ze-AI, kunye neenkqubo ze-graphitization, zenza kube lula uhlengahlengiso lwexesha langempela lweeparamitha zobonelelo lombane, kunciphisa iindleko zokusetyenziswa kwamandla. I-Do-Fluoride Technologies isebenzisana ne-Hunan Yunlu New Energy ukuphucula imveliso ye-anode graphitization ngokubala i-AI, ukubonelela ngezisombululo zokonga amandla kunye nokunciphisa iindleko kushishino.
• Ukubeka iliso ngexesha langempela kunye noLawulo loMgangatho: Ii-algorithms ze-AI zijonga imeko yezixhobo kunye neeparamitha zenkqubo, zinciphisa amazinga eziphene. Umzekelo, kwimveliso ye-graphite anode, itekhnoloji ye-AI yonyuse ukusetyenziswa kwamandla nge-15% kwaye yehlise amazinga eziphene ngama-20%.

3. Ukwakha Imiqobo Yokhuphiswano Kushishino

• Iingenelo ezahluliweyo: Iinkampani ezamkela iteknoloji ye-AI kwangethuba (ezifana ne-Do-Fluoride Technologies) ziye zaseka imiqobo ngokubhekiselele ekusebenzeni kakuhle kwe-R&D kunye nolawulo lweendleko. Isisombululo sabo se-"AI Anode Production Optimizer" sisetyenziswe kurhwebo, sibekwe phambili kwimveliso ye-lithium-ion battery anode.

II. Impumelelo ephambili kwiTekhnoloji yeDijithali kwiMishini yeGraphite Electrode

1. Ubuchwepheshe be-CNC Buphucula Ukuchaneka KweMishini

• Uyilo lweMishini eQokelelweyo: Itekhnoloji ye-CNC ene-axis ezine (ngaxeshanye) ivumela ukwenziwa kwemishini ehambelanayo yemisonto eqokelelweyo enempazamo yepitch ye-≤0.02 mm, isusa iingozi zokuqhekeka kunye nokuqhekeka okunxulunyaniswa neendlela zemveli zokwenziwa kwemishini.
• Ukufunyanwa kunye nokuHlawuliswa kwi-Intanethi: Izikena zentambo yelaser, zidityaniswe neenkqubo zokuqikelela i-AI, zifezekisa ulawulo oluchanekileyo lweendawo zokufaka (ukuchaneka ±5 μm), ziphucula ukutywinwa phakathi kwee-electrodes kunye nee-furniture.

2. Iiteknoloji zeMishini eziNgcono kakhulu

• Ukuphucula Isixhobo kunye neNkqubo: Izixhobo zedayimani yePolycrystalline (PCD) ezine-engile yerake ye--5° ukuya kwi-+5° zicinezela i-edge chipping, ngelixa izixhobo ezifakwe i-nano-coated ziphila ubomi besixhobo obuphindwe kathathu. Ukudibanisa isantya se-spindle se-2000–3000 rpm kunye namazinga okutya e-0.05–0.1 mm/r kufezekisa uburhabaxa bomphezulu be-Ra ≤ 0.8 μm.
• Amandla Okusebenzisa I-Micro-Hole Machining: Ukusebenzisa i-Ultrasonic-assisted machining (amplitude 15–20 μm, frequency 20 kHz) kwenza ukuba i-micro-hole machining ibe nomlinganiselo we-aspect we-10:1. Itekhnoloji yokubhola nge-laser yePicosecond ilawula ububanzi bemingxuma ngaphakathi kwe-Φ0.1–1 mm, kunye nendawo echaphazelekileyo bubushushu ye-≤10 μm.

3. Imveliso ye-Industry 4.0 kunye neDijithali eValekileyo

• Iinkqubo zeDijithali ezimbini: Ngaphezulu kwemilinganiselo engama-200 yedatha (umz., amasimi obushushu, amasimi oxinzelelo, ukuguguleka kwezixhobo) kuqokelelwa ukuze kuqikelelwe iziphene ngokusebenzisa ii-virtual machining simulations (ukuchaneka >90%), kunye namaxesha okuphendula kweparameter okuphuculayo angama-<30 seconds.
• IiNkqubo zoMatshini eziZilungelelanisayo: I-fusion ye-Multi-sensor (i-acoustic emission, i-infrared thermography) ivumela imbuyekezo yexesha langempela kwiimpazamo zokuguqulwa kobushushu (isisombululo se-0.1 μm), iqinisekisa ukuchaneka okuzinzileyo komatshini.
• Iinkqubo zokulandelela umgangatho: Itekhnoloji yeBlockchain ivelisa iminwe yedijithali eyahlukileyo kwi-electrode nganye, kunye nedatha epheleleyo yomjikelo wobomi egcinwe kwikhonkco, okuvumela ukulandeleka ngokukhawuleza kweengxaki zomgangatho.

III. Uphononongo oluQhelekileyo lweTyala: Imodeli yoMveliso ye-AI+ yeDo-Fluoride Technologies

1. Ukuphunyezwa kobuChwepheshe

• UTuring Daosen usebenzisane neHunan Yunlu New Energy ukudibanisa ubalo lwe-AI neenkqubo ze-anode graphitization, ukuphucula izicwangciso zobonelelo lwamandla kunye nokunciphisa iindleko zokusetyenziswa kwamandla. Esi sisombululo sithengiswe ngorhwebo kwaye sibekwe phambili kwimveliso ye-anode yebhetri ye-lithium-ion yeDo-Fluoride Technologies.
• Kwimveliso yeearhente zokuqhuba ii-carbon nanotube, ii-algorithms ze-AI ziphucula ngokuchanekileyo iiparameter zokwenziwa, ziphucula umlinganiselo womphezulu wemveliso kunye nobunyulu, kwaye zonyusa ukuhanjiswa kwe-conductivity ngaphezulu kwe-20%.

2. Impembelelo kwiShishini

I-Do-Fluoride Technologies ibe yinkampani ebalaseleyo "yemodeli yokuvelisa i-AI+" kwicandelo lezixhobo zamandla amatsha. Izisombululo zayo zicwangciselwe ukukhuthazwa kushishino lonke, ziqhuba ukuphuculwa kwetekhnoloji kwiiarhente zokuqhuba iibhetri ze-lithium-ion, izixhobo zebhetri ezisemgangathweni, kunye nezinye iinkalo.

IV. Iindlela zoPhuhliso lweTekhnoloji kunye nemingeni

1. Izikhokelo Zexesha Elizayo

• Umatshini Omkhulu Kakhulu: Ukuphuhlisa ubuchwepheshe bokucinezela incoko kwii-electrodes ezinobubanzi obuyi-1.2 m kunye nokuphucula ukuchaneka kokubeka kwindawo yokusebenza ngokubambisana kweerobhothi ezininzi.
• IiTekhnoloji zeMishini eHlanganisiweyo: Ukuhlola ukuphuculwa kokusebenza kakuhle ngokusebenzisa i-laser-mechanical hybrid machining kunye nokuphuhlisa iinkqubo zokusila ezincediswa yi-microwave.
• Ukwenziwa kweMveliso eluhlaza: Ukukhuthaza iinkqubo zokusika ezomileyo nokwakha iinkqubo zokucoca ezinezinga lokubuyisa uthuli lwegrafiti eliyi-99.9%.

2. Imingeni ephambili

• Izicelo zeTekhnoloji yokuHlola iQuantum: Ukoyisa imingeni yokudibanisa ekufumaneni i-machining ukuze kufezekiswe ulawulo oluchanekileyo lwe-nanoscale.
• Ukusebenzisana kwezixhobo zeNkqubo-yezixhobo: Ukuqinisa intsebenziswano phakathi kwezifundo ezahlukeneyo phakathi kwesayensi yezinto, iinkqubo zonyango lobushushu, kunye nokuvelisa izixhobo ezichanekileyo kakhulu.