Njengoko imithetho yelizwe lam yokhuseleko lokusingqongileyo iya isiba ngqongqo ngakumbi nangakumbi, ukuqonda kwabantu ngokukhuselwa nokukhuselwa kwendalo kuya kusanda, kwaye iintlobo zeekhemikhali ezinokusetyenziswa ekucoceni imizi-mveliso ziya zincipha.Indlela yokufumana isicoci kunye nendlela yokucoca engonakalisi kangako yingxaki esondeleyo.
I-teknoloji yokucoca i-Laser luhlobo olutsha lweteknoloji yokucoca ephuhliswe ngokukhawuleza kwiminyaka yamuva.Iye ngokuthe ngcembe ithathe indawo yeenkqubo zokucoca zemveli kwiinkalo ezininzi kunye nezibonelelo zayo kunye nokungabinandawo.Ke kutheni i-laser ingasetyenziselwa ukucoca kwaye ingabangela umonakalo kwinto ecocwayo?Injani ifuthe layo lokucoca?
1. Iteknoloji yokucoca iLaser Iteknoloji yokucoca iLaser
Indlela yokucoca ngelaser isekwe ikakhulu kwinto yokuba emva kokuba ungcoliseko oluphezu komphezulu wento lufunxa amandla e-laser, mhlawumbi lube ngumphunga kwaye luguquke, okanye lunwenwe ngoko nangoko ukuze loyise amandla e-adsorption kumphezulu kumasuntswana, ukuze bafikelele kwiqondo lobushushu eliphantsi. inokwahlulwa kumphezulu wento, ngaloo ndlela ifezekise injongo yokucoca.Okwangoku, indlela yokucoca i-laser ngokubanzi ibandakanya iinkalo ezine: i-laser vaporization kunye nokubola, ukwandiswa kwe-thermal ye-particle particles, i-substrate surface vibration kunye ne-particle-to-particle vibration, kunye ne-laser peeling;kunye nokucoca i-laser kudla ngokuba ngumphumo wesenzo saxeshanye seendlela ezininzi.
Umgaqo wayo womzimba umi ngolu hlobo lulandelayo:
(a) Umbane wokukhanya okhutshwa yilaser ufunxwa ngumaleko wongcoliseko kumphezulu ukuze unyangwe kwaye ufunyiswe.
(b) Ukufunxwa kwamandla amakhulu kwenza iplasma ekhula ngokukhawuleza kwaye ivelise amaza othusayo.
(c) Umothuko wamaza aqhekeza izinto ezingcolisayo zibe ngamaqhekeza kwaye azihlube.
Kukho imida emibini yokuveliswa kweplasma.Umda wokuqala uxhomekeke kungcoliseko okanye umaleko we-oxide osusiweyo, kwaye kuphela xa uxinano lwamandla lungaphezu kwalo mqobo kuya kuveliswa iplasma.Ngokufanayo, kukho isibini sesibini sokwenzeka kwayo, kwaye ukuba ubuninzi bamandla budlula lo mgca, i-substrate material iya kutshatyalaliswa.Ukuqinisekisa ukukhuseleka kwezinto ezisisiseko kunye nokucoca okusebenzayo, iiparamitha ze-laser kufuneka zihlengahlengiswe ngokwemeko, ukuze ubuninzi bamandla be-pulse optical bungqongqo phakathi kwemida emibini, eqinisekisa ukuzilawula. ukucoca ngelaser.Iipulse ezikhanyayo ezinobuninzi bamandla ngaphezu komda wokuqala ziyakugatya ukungcola de zifike kwi-substrate material.Nangona kunjalo, ekubeni ubuninzi bayo bamandla bungaphantsi komda wokutshatyalaliswa kwezinto ze-substrate, i-substrate ayichithwanga.
Dukuthelekisa iindlela zokucoca ezahlukeneyo:
| Ukuthelekisa | Ukucocwa kweLaser | Ukucoca imichiza | Ukucoca ngoomatshini |
| Uhlobo lokucoca | Ongaqhagamshelwanga | Kuqhagamshelwe | Kuqhagamshelwe |
| Ukucoca isiphumo | Isantya esikhawulezayo, silungile | I-Asymmetry ecothayo | I-Asymmetry ecothayo |
| Ukucoca ngokufanelekileyo | Phezulu | Phantsi | Phantsi |
| Iqondo lomonakalo | Akukho monakalo | Umonakalo | Umonakalo |
| Ukuchaneka ngoMatshini | Ukuchaneka okuphezulu | Ukuchaneka okuphantsi | Ukuchaneka okuphantsi |
| Okusingqongileyo | Akukho lungcoliso | Ungcoliseko lwemichiza | Ungcoliseko lothuli |
| Ukusetyenziswa | Umbane | I-reagent yekhemikhali | Iphepha lesanti, amavili esanti |
| Ukusebenza | Ukubanjwa ngesandla, kuyazenzekela | Intsonkothile | Iindleko zabasebenzi |
I-teknoloji yokucoca i-Laser yinkqubo epheleleyo yokucoca "eyomileyo" kunye nenkqubo yokucoca "eluhlaza".Inkunkuma ecociweyo ngokusisiseko ngumgubo oqinileyo, omncinci ngobukhulu, kulula ukuwugcina, uhlaziywa, kwaye ucoceke kakhulu kunenkqubo yokucoca yesiNtu;ilungele phantse zonke ii-substrates eziqinileyo, ukusuka kwiingqungquthela ezinkulu zokungcola (iminwe, i-rust, ioli, ipeyinti) ukuya kwiincinci ezincinci (ezifana ne-metal microparticles, uthuli) zinokucocwa ngale ndlela.02
2. Iindawo zokusetyenziswa kokucoca ngelaser Iindawo zokusetyenziswa kokucoca ngelaser
Iindlela zokucoca eziqhelekileyo zisebenzisa kakhulu ii-agent agents, i-sandblasting, okanye i-high-pressure yamanzi ukucoca.Ngokwahlukileyo koko, oomatshini bokucoca ngelaser sisizukulwana esitsha seemveliso ezikrelekrele.Isusa ngokufanelekileyo ungcoliseko kwaye ivuselele imiphezulu efana nemitsha.Uneempawu zokungasila, ukungabikho koqhagamshelwano, akukho mpembelelo ye-thermal, kwaye ifanelekile kwizinto zezixhobo ezahlukeneyo.Ukuveliswa kwesinyithi, imboni ye-elektroniki, ukwakhiwa kobunjineli kunye nokwakhiwa kweenqanawa kunye nezinye iindawo ezinxulumene nazo, ukucocwa kwe-laser ngexesha elifanelekileyo ngumsebenzi obaluleke kakhulu.umsebenzi obalulekileyo.
Nyaka ngamnye, abavelisi bamathayara bavelisa amakhulu ezigidi zamatayara.Umgangatho wokungunda uchaphazela ngokuthe ngqo umgangatho wetayara.Ngexesha lenkqubo yokuvelisa, ukungunda kwamatayara kufuneka kucocwe ngokukhawuleza nangokuthembekileyo ukugcina ixesha lokuphumla.Ukusebenzisa indlela yokucoca i-laser, uxhulumaniso lwefiber optical lungasetyenziselwa ukuhambisa ukukhanya kwiikona ezifileyo zesikhunta okanye iindawo ezingelula ukususa ukucoca.Ukucoceka kwendawo kuphezulu, isantya sokucoca sikhawuleza, umphumo wokucoca ulungile, kwaye akukho monakalo kwisikhunta., Ucoceko olukumgangatho ophezulu kunye nolusebenzayo.
Ukongeza, ekucoceni izixhobo kunye nezixhobo, ukucocwa kwe-decontamination kwishishini le-electronics, ukucocwa kwe-deesterification ngokuchanekileyo kumashishini omatshini ochanekileyo, njl., kwimimandla yeenqanawa zaselwandle, i-aerospace kunye nezinye iindawo, iteknoloji yokucoca i-laser ibonise iinzuzo ezininzi, ngamandla amakhulu osetyenziso.
Ukujongana neemeko ezibanzi zokucoca i-laser, i-GW Laser iye yaphehlelela umatshini wokucoca we-laser ophethwe ngesandla opholileyo, onokucoca izixhobo zokusebenza ekungelula ukuzihambisa ngesandla, ngokukhetha ukucoca izixhobo zokusebenza, kunye nokucoca ngokulula iikona ezifileyo. indawo.
Iimpawu eziphambili zemveliso:
1 Isixhobo samkela uyilo oludibeneyo olupholileyo lomoya, akukho chiller eyongezelelweyo efunekayo, umatshini wonke ulula kwaye uyaphatheka, ubunzima bungaphantsi kwe-60kg, umthamo umalunga nobukhulu besutikheyisi yeshishini, kunye nombane wombane we-220V esetyenziswa nawe.
2 Ukusebenzisa iteknoloji yokumpompa i-976nm, amandla afikelela kwi-1500W, egcina amandla kwaye igcina umbane kwaye inobuninzi bombane.Inefuthe elihle lokucoca kwi-rust engqindilili kunye neengqimba ze-oxide.
3 Kukho iindlela ezininzi ezakhelwe ngaphakathi, ezinokuqonda ukucocwa kwe-pulse laser kunye nokucocwa kwelaser okuqhubekayo.Iindlela ezahlukeneyo zokucoca zilungele iimeko ezahlukeneyo zokusetyenziswa: ukucoca imo eqhubekayo yeyamacwecwe ashinyeneyo angakhubekanga lula bubushushu, njengale: ukususwa komhlwa kumphezulu weepleyiti zetsimbi ezishinyeneyo, kunye nokucocwa komphezulu amacwecwe enqanawa.Sebenzisa imowudi ye-pulse ukucoca ipeyinti, i-oyile, i-rust, njl. ebusweni bamashiti esinyithi okanye i-abrasives, enokuthintela umonakalo we-substrate obangelwa kuqokelelwa kobushushu.
Inkcazo
| Max Peak Amandla | 1000W | 1500W |
| Uzinzo lwamandla | <2% | <5% |
| Imo yokusebenza | CW/PWM/Pulse/Timing/LA | |
| Umgangatho weBeam M^2 | <1.3 | |
| Uhlengahlengiso lwamandla | 1-100% | |
| Ubuninzi bokuphinda rhoqo | 50KHz | |
| Ubude bentambo yokuhanjiswa | 10m(elungiselelwe) | |
| Uhlobo lokupholisa | Umoya upholile | |
| Uluhlu lweSkena | 0-150mm | |
| Scan frequency | > 300Hz | |
| Ubude bojoliso | 400mm (elungiselelwe 160-500mm) | |
| Ubungakanani | 650x300x621mm (L x W x H) | |
| Ukucoca ubunzima bentloko | <1.9kg | |
| Ubunzima obupheleleyo | <65kg | |
Kwixesha elizayo, ngophuhliso oluqhubekayo lwemveliso ephezulu, iimfuno eziphezulu ngokuqinisekileyo ziya kufakwa kwinkqubo yokucoca iteknoloji ye-laser.I-GW Laser iya kuqhubeka nokwenza imizamo kwintsimi yokucoca i-laser.Ngokwenza izinto ezintsha ezizimeleyo, iya kuhlaziya kwaye iphindaphinde iimveliso, kwaye iqhubeke nokuphucula ukunceda abathengi baphucule itekhnoloji yokucoca i-laser, iphucule ukukhuphisana kwemarike, kwaye yenze i-laser isixhobo sendalo yonke seenzuzo zehlabathi.
Ixesha lokuposa: Apr-12-2022





