Tanaka: Samaynta Nidaamka Wax Soo Saarka Cu ee Substrates-ka Birta ee La Shaabadeeyey iyadoo la adeegsanayo Siligyada Superconducting YBCO

Substrates-ka Cu ee la qurxiyey waxay ka kooban yihiin saddex lakab (dhumucdiisuna waa 0.1mm, ballaciisuna waa 10mm) (Sawir: Ganacsi Silig)

Substrates-ka Cu ee la qurxiyey waxay ka kooban yihiin saddex lakab (dhumucdiisuna waa 0.1mm, ballaciisuna waa 10mm) (Sawir: Ganacsi Silig)

TOKYO–(GANACSI WIRE)–Tanaka Holdings Co., Ltd. (Xafiiska dhexe: Chiyoda-ku, Tokyo; Agaasimaha Wakiilka & Maamulaha Guud: Akira Tanae) ayaa maanta ku dhawaaqay in Tanaka Kikinzoku Kogyo KK (Xafiiska dhexe: Chiyoda-ku, Tokyo; Agaasimaha Wakiilka & Maamulaha Guud: Akira Tanae) ay dhistay khadad wax soo saar oo gaar ah oo loogu talagalay walxaha birta Cu ee la qurxiyey ee loogu talagalay fiilooyinka YBCO superconducting (*1) waxayna dejisay nidaamyo wax soo saar oo ballaaran oo loo isticmaali karo laga bilaabo Abriil 2015.

Bishii Oktoobar 2008, Tanaka Kikinzoku Kogyo oo ay weheliyaan Chubu Electric Power iyo Jaamacadda Kagoshima ayaa si wadajir ah u sameeyay substrate-kii ugu horreeyay ee Cu ah oo qaabaysan iyagoo adeegsanaya silig superconducting ah. Wax soo saarku wuxuu bilaabmay waxaana la qaybiyay muunado laga bilaabo Diseembar isla sanadkaas. Siliggan superconducting wuxuu beddelayaa isticmaalka alloys Ni (alloys nickel iyo tungsten), kuwaas oo hore u ahaa agabka ugu muhiimsan ee substrate-ka birta qaabaysan, oo leh naxaas jaban iyo jiho sare (*2), taasoo hoos u dhigaysa kharashyada in ka badan 50%. Mid ka mid ah daciifnimada naxaasta ayaa ah u nuglaanshaha oksaydhka, kaas oo sababi kara in filimka khafiifka ah (silig superconducting ama lakabka oksaydhka) ee laga sameeyay substrate-ka uu go'o. Si kastaba ha ahaatee, jiheynta iyo simanaanta dusha sare ayaa la kordhiyaa iyada oo la isticmaalayo xal gaar ah oo nikkel ah oo ka kooban palladium oo ah lakabka caqabadda birta oksijiinta, kaas oo hagaajiya xasilloonida dhigista filimka khafiifka ah ee substrate-ka.

Tan iyo markii muunado laga soo saaray substrate-ka Cu ee la sameeyay markii ugu horreysay, Tanaka Kikinzoku Kogyo waxay sii waday inay sameyso cilmi-baaris si loo xaqiijiyo xasilloonida dhigista. Soo saarista substrate-ka dhaadheer ayaa hadda suurtogal noqotay iyada oo loo marayo hagaajinta xaaladaha qalabka. Si looga jawaabo baahida gudaha iyo tan caalamiga ah isla markiiba, waxaa la dhisay khad wax soo saar oo gaar ah warshad ay shirkaddu leedahay bishii Abriil 2015. Waxaa la filayaa in tiknoolajiyadan loo isticmaali doono meelo kale oo kala duwan mustaqbalka oo ay ku jiraan fiilooyinka korontada ee masaafada dheer iyo kuwa awoodda sare leh, Sawirka Magnetic Resonance (MRI) iyo Nukliyeerka Magnetic Resonance (NMR), kuwaas oo u baahan goobo birlab oo sare leh, iyo matoorro loogu talagalay maraakiibta waaweyn. Tanaka Kikinzoku Kogyo waxay higsaneysaa inay gaarto iibka sanadlaha ah ee 1.2 bilyan oo yen sanadka 2020.

Bandhig muunad ah oo ka kooban substrate-kan oo la adeegsanayo silig superconducting ah ayaa si guul leh loogu soo bandhigay Bandhigga Metal-ka ee 2aad ee Shaqada Sare leh intii u dhaxaysay Abriil 8 iyo Abriil 10, 2015, oo ka dhacay Tokyo Big Sight.

*1 Fiilada YBCO ee superconducting Alaabada superconducting ee loo farsameeyay si loogu isticmaalo silig gaarsiiya eber iska caabin koronto. Waxa laga sameeyay yttrium, barium, naxaas iyo ogsijiin.

*2 JihayntaTani waxay muujinaysaa heerka isku mid ahaanshaha jihada kiristaallada. Heer sare oo ah hab-dhaqan sare ayaa la heli karaa iyadoo kiristaallada la habeeyo waqtiyo joogto ah.

Fiilooyinka Superconductors waxay leeyihiin astaamo ah inay soo saaraan goobo birlab oo awood badan marka la isku duubo. Waxaa loo kala saaraa heerkulka muhiimka ah (heerkulka ay ku gaaraan superconductivity). Labada nooc waa "fiilada superconductors heerkulka sare," taas oo ilaalisa superconductivity heerkulka -196°c ama ka hooseeya, iyo "fiilada superconductors heerkulka hoose," taas oo ilaalisa superconductivity heerkulka hoose -250°c ama ka hooseeya. Marka la barbardhigo fiilo superconductors heerkulka hoose, kaas oo horey loogu isticmaalay MRI, NMR, mootooyinka toosan iyo waxyaabo kale, fiilo superconductors heerkulka sare leh waxay leedahay cufnaan hadda oo muhiim ah (cabirka hadda korontada), waxay hoos u dhigtaa kharashyada iyadoo la isticmaalayo nitrogen dareere ah si loogu qaboojiyo, waxayna yareysaa u nuglaanshaha saameynta goobaha birlabka ee dibadda, sidaa darteed horumarinta fiilada superconductors heerkulka sare leh hadda waa la horumarinayaa.

Waxaa jira fiilooyin ku salaysan bismuth (oo loo yaqaan "bi-based" hoos) iyo fiilooyin ku salaysan yttrium (oo loo yaqaan "Y-based" hoos). Fiilooyin ku salaysan laba-geesood waxaa lagu buuxiyaa tuubo qalin ah oo loo farsameeyo si looga dhigo mid loo isticmaali karo silig ahaan, halka fiilooyinka ku salaysan Y lagu shubo substrate qaab cajalad ah oo leh kiristaalo isku xiran si loogu isticmaalo silig ahaan. Fiilo ku salaysan Y ayaa la filayaa inay noqoto jiilka xiga ee fiilooyinka superconducting maadaama ay leedahay cufnaan aad u sarreysa oo hadda jirta, astaamo xooggan oo goob birlab ah, qiimaha walxahana waa la dhimi karaa iyadoo la dhimayo lacagta la isticmaalay.

Astaamaha siligga superconducting-ka ku salaysan Y iyo horumarinta farsamada ee Tanaka Kikinzoku Kogyo

Marka laga hadlayo walxaha fiilada ee ku salaysan Y, waxaan samaynaynaa R&D oo loogu talagalay "substrates-ka IBAD" iyo "substrates-ka qaabaysan." Astaamaha wax-qabadka sare waxaa la kordhiyaa iyadoo la habaynayo kiristaalo bir ah waqtiyo joogto ah, sidaa darteed habaynta jihada birta waa in lagu farsameeyaa lakab kasta oo sameeya cajaladda. Substrates-ka IBAD, lakab filim oo khafiif ah oo oksaydh ah ayaa loo jiheeyaa jiho gaar ah oo ku taal bir aan jihaysanayn oo xoog sare leh, lakabka wax-qabadka sarena waxaa lagu dhejiyaa substrate-ka iyadoo la adeegsanayo laysar, kaas oo abuura walxo substrate ah oo xooggan, laakiin sidoo kale waxay soo qaadaysaa arrinta qiimaha qalabka iyo agabka. Tani waa sababta Tanaka Kikinzoku Kogyo uu diiradda u saaray substrates-ka qaabaysan. Kharashyada waxaa lagu dhimaa iyadoo la isticmaalayo naxaas jihaysan oo heer sare ah oo ah walxaha substrate-ka, kaas oo sidoo kale kordhiya xoogga farsamada marka lagu daro lakabka walxaha xoojinta iyadoo la adeegsanayo tignoolajiyada dahaarka leh ee aan saameyn ku yeelan jihada.

Shirkadda Tanaka Precious Metals oo la aasaasay 1885, waxay dhistay noocyo kala duwan oo ganacsi ah oo diiradda saaraya isticmaalka biraha qaaliga ah. Abriil 1, 2010, kooxda waxaa dib loo habeeyay iyadoo lala kaashanayo shirkadda Tanaka Holdings Co., Ltd. oo ah shirkadda haysata (shirkadda waalidka) ee Tanaka Precious Metals. Marka laga soo tago xoojinta maamulka shirkadaha, shirkaddu waxay higsaneysaa inay horumariso adeegga guud ee macaamiisha iyadoo hubinaysa maamul hufan iyo fulinta firfircoon ee hawlgallada. Shirkadda Tanaka Precious Metals waxay ka go'an tahay, iyadoo ah hay'ad shirkad oo takhasus leh, inay bixiso noocyo kala duwan oo badeecooyin ah iyada oo loo marayo iskaashi ka dhexeeya shirkadaha kooxda.

Tanaka Precious Metals waxay ku jirtaa heerka ugu sarreeya Japan marka la eego mugga birta qaaliga ah ee la maareeyay, sannado badanna kooxdu waxay soo saartay oo si joogto ah u bixisay biraha qaaliga ah ee warshadaha, marka lagu daro bixinta agabka iyo alaabada keydka ah iyadoo la adeegsanayo biraha qaaliga ah. Iyada oo ah xirfadlayaal biraha qaaliga ah, Kooxdu waxay sii wadi doontaa inay gacan ka geysato kobcinta nolosha dadka mustaqbalka.

[Press inquiries]Tanaka Kikinzoku International K.K. (TKI)Global Sales Dept.https://www.tanaka.co.jp/support/req/ks_contact_e/index.htmlorTANAKA KIKINZOKU KOGYO K.K.Akio Nakayasu, +81.463.35.51.70Senior Engineer, Section Chief & Assistant to DirectorHiratsuka Technical Centera-nakayasu@ml.tanaka.co.jp

TANAKA waxay dhistay khadad wax soo saar oo gaar ah oo loogu talagalay walxaha birta Cu ee qaabaysan ee loogu talagalay fiilooyinka YBCO superconducting waxayna dejisay nidaamyo wax soo saar oo ballaaran oo loo isticmaali karo laga bilaabo Abriil 2015.

[Press inquiries]Tanaka Kikinzoku International K.K. (TKI)Global Sales Dept.https://www.tanaka.co.jp/support/req/ks_contact_e/index.htmlorTANAKA KIKINZOKU KOGYO K.K.Akio Nakayasu, +81.463.35.51.70Senior Engineer, Section Chief & Assistant to DirectorHiratsuka Technical Centera-nakayasu@ml.tanaka.co.jp