[Izinto zeKhemikhali] I-adhesive ye-Thermal-conductive kulindeleke ukuba ihambeagginngoncedo lwezithuthi zamandla amatsha.
Ngokukhawuleziswa kokuphunyezwa kokutshaja ngokukhawuleza kwezithuthi zamandla amatsha kunye nokuphuculwa koxinzelelo lwamandla ebhetri, iimfuno eziphezulu zibekwe phambili kulawulo lobushushu.Izixhobo zokungenisa ubushushu kunye ne-thermal conductive kwizithuthi zamandla amatsha zingenisa ukukhula kwemfuno.Ukuzuza ekukhutshweni kwenkqubo yebhetri ye-CTP, i-thermal conductive / i-adhesives ye-structural adhesives ine-market enkulu.Kuqikelelwa ukuba ixabiso le-thermal / i-adhesives yesakhiwo kwiimoto ezixhotyiswe nge-CTP ziya kunyuka ukusuka kwi-RMB 200-300 / isithuthi kwishishini lemveli ukuya kwi-RMB 800-1000 / imoto.Amanye amaziko aqikelela ukuba i-adhesives yelizwe / yehlabathi jikelele yeemoto kunye neemarike zeengxenye ziya kufikelela malunga ne-RMB 15.4 / 34.2 yebhiliyoni ngo-2025.
Inqaku eliPhambili:Izinto zokuncamathelisa iimoto zemveli ikakhulu ziyi-epoxy resin kunye neasidi ye-acrylic, kodwa ukunwebeka kwazo okuphantsi akunakuhlangabezana nemfuno yokuphefumla yeebhetri zamandla.Iinkqubo zePolyurethane kunye ne-silicone ezinokuqina okuphezulu kunye namandla okuncamathelisa kulindeleke ukuba zilawule intengiso kwaye zizuze kumashishini afanelekileyo ekhemikhali.
[Ifotovoltaic] Imfuno photovoltaic drives trichlorosilane ukuthatha off.
Esona sicelo siphambili se-trichlorosilane (SiHCl3) yi-polysilicon esetyenziswa kwiiseli zelanga, kwaye iyimathiriyeli ekrwada engundoqo kwimveliso ye-polysilicon.Ukuthotyelwa ukukhula okukhawulezayo kwemfuno ye-photovoltaic, ixabiso le-PV-grade SiHCl3 linyukile ukusuka kwi-RMB 6,000 / ton ukuya kwi-RMB 15,000-17,000 / ton ukususela kulo nyaka.Kwaye amashishini epolysilicon yasekhaya ayanda ngokukhawuleza kumxholo wokuguqulwa kwamandla aluhlaza.Imfuno ye-PV-grade SiHCl3 iqikelelwa kwi-216,000 yeetoni kunye ne-238,000 yeetoni kwiminyaka emibini ezayo.Ukusilela kwe-SiHCl3 kunokongezwa.
Inqaku eliPhambili:Iprojekthi "ye-50,000 yeetoni / ngonyaka we-SiHCl3 yeprojekthi" yenkokheli yoshishino i-Sunfar Silicon kulindeleke ukuba ifakwe kwimveliso kwikota yesithathu yalo nyaka, kwaye inkampani iphinda icwangcise "i-72,200 yeetoni / ngonyaka iprojekthi yokwandisa i-SiHCl3".Ukongeza, iinkampani ezininzi ezidweliswe kwishishini zinePV-grade SiHCl3 izicwangciso zokwandisa.
[LithiumBattery] I-cathode imathiriyeli iphonononga indlela entsha yophuhliso, kunye ne-lithium manganese ferro phosphate ingenisa amathuba ophuhliso.
ILithium manganese ferro phosphate inombane ophezulu, ukuxinana kwamandla aphezulu, kunye nokusebenza okungcono kobushushu obuphantsi kunelithium ferro phosphate.I-Nanominiaturization, i-coating, i-doping, kunye nemilinganiselo yokulawula ubume be-microscopic iphucula ngokuthe ngcembe i-LMFP conductivity, amaxesha okujikeleza, kunye nezinye iziphene ngenye okanye ukudibanisa.Okwangoku, ngelixa uqinisekisa ukusebenza kwe-electrochemical yezinto eziphathekayo, ukuxuba i-LMFP kunye nezixhobo ze-ternary kunokunciphisa kakhulu iindleko.Iinkampani eziphambili zebhetri zasekhaya kunye ne-cathode zikhawulezisa ugcino lwazo lwelungelo elilodwa lomenzi wechiza kwaye ziqalisile ukucwangcisa imveliso eninzi.Lilonke, ukwenziwa kwamashishini kweLMFP kuyakhawuleza.
Inqaku eliPhambili:Njengoko uxinano lwamandla e-lithium ferro phosphate luphantse lwafikelela kumda ongaphezulu, i-lithium manganese ferro phosphate inokuba yindlela entsha yophuhliso.Njengemveliso ephuculweyo ye-lithium ferro phosphate, i-LMFP inemarike ebanzi yexesha elizayo.Ukuba i-LMFP iqala imveliso yobuninzi kunye nokusetyenziswa kwayo, inokonyusa kakhulu imfuno yemanganese yomgangatho webhetri.
[Ukupakishwa] I-Tesa, umvelisi weteyiphu ohamba phambili kwihlabathi, usungula iteyiphu yokupakisha ye-rPET.
I-Tesa, umboneleli okhokelayo wehlabathi wezisombululo zeteyiphu ezincamathelayo, wandise uluhlu lwayo lweeteyiphu zokupakisha ezizinzileyo ngokuqaliswa kweeteyiphu zokupakisha ezintsha ze-rPET.Ukunciphisa ukusetyenziswa kweeplastiki ezinyulu, iimveliso ze-PET ezisetyenzisiweyo, kubandakanywa neebhotile, zihlaziywa kwaye zisetyenziswe njengezinto eziluhlaza kwiiteyipu, kunye ne-70% ye-PET evela kwi-post-consumer recycling (PCR).
Inqaku eliPhambili:I-tape yokupakisha ye-rPET ifanelekile ukupakisha ukukhanya ukuya kubunzima obuphakathi ukuya kuthi ga kwi-30kg, kunye ne-robust, i-abrasion-resistant backing kunye ne-adhesive ye-acrylic ethembekileyo kwaye ehambelanayo.Ukuqina kwayo okuphezulu kwenza ukuba ifaniswe nePVC okanye iiteyiphu ze-polypropylene (BOPP) ze-biaxially.
[Semiconductor] Iingxilimbela zeshishini zikhuphisana neChiplet.Itekhnoloji yokupakisha ekwinqanaba eliphezulu ifumana amandla.
I-Chiplet idibanisa ii-chips ezincinci zemodyuli ukufezekisa iinkqubo ezidibeneyo ezidibeneyo, ivumela iinkqubo eziphambili ngelixa kuncitshiswa iindleko zokuvelisa.Ubuchwephesha obutsha kwixesha le-post-Moore, elisetyenziswa ngokubanzi kumaziko edatha kunye nemarike ye-electronics yabathengi, ubungakanani bemarike kulindeleke ukuba bufikelele kwi-5.8 yeebhiliyoni zeedola ngo-2024. I-AMD, i-Intel, i-TSMC, i-Nvidia, kunye nezinye iingxilimbela zingenile. intsimi.I-JCET kunye ne-TONGFU nazo zinesakhiwo.
Inqaku eliPhambili:Ukugcinwa kunye nenkqubo yokudibanisa i-computing iya kufunwa yimarike.Itekhnoloji yokupakisha ekhokelwa yiChiplet iya kuthatha indawo ephambili kule ndawo.
[I-Carbon Fiber] Iseti yokuqala yaseTshayina yemigca yemveliso yefayibha ye-tow enkulu yekhabhoni inikezelwe.
I-Shanghai Petrochemical yaseSinopec isandula ukuhambisa umgca wokuqala wokuvelisa i-carbon fiber fiber, kwaye izixhobo zeprojekthi zifakiwe.IShanghai Petrochemical lishishini lokuqala lasekhaya kunye nelesine lehlabathi ukukwazi ukwenza itekhnoloji yokuvelisa i-carbon fiber.Ngeemeko ezifanayo zokuvelisa, i-fiber ye-carbon fiber enkulu inokuphucula kakhulu umthamo kunye nokusebenza komgangatho wefiber enye kunye nokunciphisa iindleko, ngaloo ndlela iphule imida yesicelo se-carbon fiber ngenxa yexabiso layo eliphezulu.
Inqaku eliPhambili:Itekhnoloji yeCarbon fiber inemiqobo engqongqo yobugcisa.Itekhnoloji ye-carbon fiber ye-Sinopec inamalungelo ayo epropathi enomgangatho ophezulu wokuqonda, inamalungelo awodwa omenzi wechiza angama-274 kunye nezigunyaziso ezili-165, ibekwe kwindawo yokuqala e-China nakwisithathu kwihlabathi.
Ixesha lokuposa: Aug-20-2022