Extruded aluminum - neman fasahar weihua [masu samar da kayayyaki na alminium na aluminium] fiye da shekaru 10 na ƙwarewar kerawa ta musamman. Aluminumaramin ƙarancin aluminum, kayan ƙarancin zinare na zinariya, tsarin ƙarancin ƙarancin ƙarewa, masana'antun ke ba da tallace-tallace kai tsaye, ƙirar samfur, maraba don tuntuɓi!
Menene aikin sarrafa kayan ƙarfe na wayar hannu na ƙarfe?
1. Aluminum extrusion
Mataki na farko shine yankewa tare da fitar da aluminium na silinda, wani tsari wanda akafi sani da extrusion na aluminium, wanda yake sanya aluminin da aka fitar a cikin takardar 10mm wanda yake da sauƙin aiwatarwa kuma yayi yawa da kuma wahala.wannan shine aikin da yake buƙatar aikin sarrafa kayan extrusion.
2. DDG
An yi amfani da kayan aikin inji na CNC (cibiyar hawan mai sauri da buga tapping) don daidaita allon aluminum din cikin sifa mai girman uku na 152.2 × 86.1 × 10mm ta hanyar DDG don sauƙaƙe ƙarshen CNC na gaba. Wannan aikin yana farawa tare da amfani da kayan aikin carbide don aiki.CNC carbide kayan aiki
3. Mugu da nika cikin kogon ciki
Don sauƙaƙe aikin inji na CNC, jikin ƙarfe yana ɗaure da bangon katako.Rashin baƙin ciki mai ƙyalli na ciki, ramin ciki, da ginshiƙin sakawa haɗe tare da aikin tsayarwa, wanda yake da mahimmanci ga mahaɗin sarrafa mai zuwa.
4. Milling ramukan eriya
Ga dukkan wayoyin hannu, matsalar mafi wahalar warwarewa ita ce matsalar sigina, wanda kuma ya samo asali ne daga mummunan sigina da ƙarfe ya haifar lokacin da aka fara amfani da iPhone 4. Aluminium kuma yana toshe (ya raunana) siginar mitar rediyon wayar, don haka dole ne a rabe shi don siginar na iya samun hanyar shiga da fita.Saboda haka, yin gyaran eriya shine mafi mahimmanci, mataki mafi wahala, dole ne eriyar eriya ta zama daidai, kuma su kula da hanyoyin haɗin da suka dace don tabbatar da ƙarfi da mutuncin kwasfa na ƙarfe.
5. T rikewa
Bayan nika ramukan eriya, ana amfani da "magani na T" don kula da aluminiya zuwa wani farfajiya wanda za'a iya hada shi da robobi na injiniya.Yana bukatar sanya jikin karfe a cikin wani wakilin sinadarai na musamman, kamar ruwa na T, don samar da nanoscale (1 nanometer = 10 ^ -9 mita) ramuka a saman aluminiya, a shirye shiryen allurar nanoscale na gaba.
6.NMT Nano allura gyare-gyaren
A "allura gyare-gyaren" tsari damar da NMT Nano allura gyare-gyaren aiwatar da za a aiwatar saboda na karfe jiki bi da T.NMT Nano allura gyare-gyaren ne zuwa matsi da roba na musamman a karkashin babban zazzabi da kuma babban matsa lamba a cikin karfe abu bayan T magani, don haka cewa filastik da saman karfe na nanoscale kananan ramuka sun hade sosai, don cimma manufar matse eriya.
7. Gama nika dutsen cambered
Ga wayoyin hannu duka ƙarfe, banda eriya na sigina, akwai tsarin 3D na jikin ƙarfe, wanda ya zama aiki mafi ɗaukar lokaci, yana ɗaukar sama da daƙiƙa 1,000.
8. Gama nika gefe
Abokai na hankali zasu iya lura cewa 3D ɗin ƙarfe mai ƙwanƙwasa na jikin ƙarfe yana ta yin taɓar iska ta hanyar CNC, amma har yanzu akwai sauran larurar rashin aiki a gefen gefen, wanda ke buƙatar daidaitaccen gefen gefen, sannan kuma kuna iya ganin samfurin ƙarfe harsashi.
9. Goge goge
Kafin amfani da kayan aikin injina na CNC mai saurin gaske, amma kuma zai iya cimma nasarar kammala aji A1 ~ A2, don biyan buƙatun sarrafawa na gaba, ana buƙatar a goge shi zuwa kammala A0 aji, na iya zama tasirin madubi.
10. Sandblasting
Koyaya, wayar duk ƙarfe ba ta da cikakken haske, amma tana gabatar da yanayin daskarewa. Wannan yana buƙatar tsarin "sandblasting" don magance ƙarfe zuwa tasirin sanyi.
11. Anode daya
Gami na Aluminium yana da kwari sosai, don kada abubuwan waje kamar su zufa su dame shi, dole ne a sanya masa anodized Hakanan kuma aikin canza launin waya ne, wanda ke canza launin alminiyon zuwa zinare ta hanyar maye gurbin yana da matukar wahalar sarrafawa aiwatar da rini mai gami na alumini, bambancin launi, tabo zai bayyana idan sarrafawar ba kyau, wanda kuma zai rage yawan amfanin ƙasa.
12. Haskaka magani
Tsarin yankan gefen baki mai haske yana buƙatar yankan sassa ta amfani da mafi girman darajar injunan CNC mai saurin gaske, aikin da aka sani da hakowa ko nunawa.
13. isharshen milling cikin ramin ciki
Bayan matakai 12 na aiki, kwasfa na ƙarfe ya fara ganin bayyanar, sannan za'a yi amfani da shi don ɗora shafi na sanya makullin kullewa da sauran abubuwan da suka wuce gona da iri da aka cire, bari ƙwanfen ƙarfe a ciki tsaftatacce.
14. Secondary anode
Harsashin, wanda aka sarrafa ta CNC, yana buƙatar magani na biyu na anodic don sanya iskar shaka a fili kuma ya samar da fim mai ɗimbin yawa da wuya, wanda hakan ya sa ya zama mai saurin lalacewa kuma ba mai sauƙin tabo ba.
15. Milling conductive din kadan
Bayan anodic oxidation na aluminum alloy shell mai tasirin sakamako zai zama mafi muni, don haka ya zama dole a cire fim din anodic oxidation na gida, karfe da aka fallasa don samun kyakkyawan sakamako na ƙasa, kuma ana buƙatar wucewa ta hanyar bitar sarrafawar bit na aikin CNC.
16.Ya narke goro
A ƙarshe, an saka goro a cikin filastik ɗin da aka gama tare da hannun mutum-mutumi don tabbatar da haɗuwar makullin wayar a nan gaba.
