Ukususwa kwezinwele ze-Laser kusekelwe esimisweni sokukhetha amandla e-photothermal, ngokulungiswa okunengqondo kwe-laser wavelength energy pulse ububanzi, i-laser ingakwazi ngokusebenzisa i-follicle yezinwele zempande yesikhumba, ukukhanya kungamuncwa futhi kuguqulwe kubhubhise ukushisa kwezicubu ze-follicle zezinwele, ukuthi izinwele zilahlekelwa ikhono lokuvuselela ngesikhathi esifanayo zingase zilimaze izicubu ezizungezile, ukugubha ubuchwepheshe obuncane.Ukususwa kwezinwele nge-Laser kuwubuchwepheshe obuphephile futhi obusheshayo futhi obuhlala isikhathi eside.
laser wave ubude
Ukususwa kwezinwele ze-fiber diode kusebenzisa i-laser ejwayelekile ye-810nm semiconductor laser.Ilaser ye-double pulse eklanywe ngokukhethekile ikhipha isikhumba ngobuningi bamandla aphansi kuphela.I-Lido ishisa izicubu zesikhumba kanye nezinwele zezinwele ngokusebenzisa i-laser pulse yokuqala yesikhumba.I-pulse yesibili ngokukhethayo ikwandisa izinga lokushisa lezinwele kuze kufike kuma-degree angama-45.I-laser engu-10Hz eshelelayo iqinisekisa ukuthi i-follicle yezinwele igcinwa kulokhu kushisa isikhathi esithile, futhi i-follicle yezinwele kanye namaseli e-stem okukhula alahlekelwa umsebenzi wawo wokukhula, ukuze kuzuzwe ukususwa kwezinwele isikhathi eside.Futhi inkampani ye-HONKON i-optical fibre semiconductor yokususa izinwele i-laser kanye ne-semiconductor yokususa izinwele laser isebenzisa i-810nm wavelength semiconductor laser, ngakho-ke bonke balandela i-810nm wavelength laser inazo zonke izici, okubuye kube ubude begolide obujwayelekile bokususwa kwezinwele, i-laser imuncwa kakhulu yi-melanin ngaphakathi i-follicle yezinwele, inciphisa ukumuncwa kwe-hemoglobin namanzi, umphumela wokususwa kwezinwele uvela ku-laser ngokwayo ngaphandle komehluko.
amandla okukhipha
Siyazi ukuthi ngaphezu kwe-wavelength, enye into ethinta umphumela wamandla okususwa kwezinwele i-laser ephumayo ye-laser yendabuko ye-semiconductor laser emakethe, ngoba i-laser ithatha isethi yesakhiwo se-chip, i-chip ithumela ukushisa okuningi lapho isebenza, futhi uhlelo lokupholisa amanzi lungasebenzisa isiteshi se-micron kuphela, okuholele kumandla we-laser semiconductor wendabuko ngokuvamile aphansi, amandla okukhipha ithiyori jikelele azungeze ama-300W, futhi ukukhishwa kwamandla wangempela ekususweni kwezinwele kungafinyelela ku-30% kuhle kakhulu.Beijing HONKON 810nm semiconductor ukukhishwa kwezinwele nge-laser kusebenzisa isiqandisi esinezinjini ezimbili, futhi kusebenzisa i-laser engenisiwe, ethuthukisa ukushabalalisa ukushisa kwe-laser futhi ithuthukise ukulawula okukhipha amandla.Amandla okukhipha i-laser athuthukiswa izikhathi ezi-3 ~ 4 kulawo wemishini yasekhaya.Futhi i-laser optical fibre semiconductor hair ukususwa kwe-laser izokwenziwa nge-laser ibe yi-multiple chip scheme, futhi ifakwe ku-chassis yemishini, ingasabekwa esandleni sokususa izinwele, isiteshi sokupholisa amanzi, ukupholisa i-chip ngokushelela, ukuphuma kwe-laser akusekho umkhawulo wokuvikela ukushisa kwamandla, thola ukuguqulwa kwamandla aphezulu, ukuphuma kwamandla kungcono, ukwenziwa ngcono kokulawula amandla, ukususwa kwezinwele kusebenza kahle kakhulu, kushesha kakhulu.
I-fiber diode I-laser yokususa izinwele ye-laser isebenzisa isikimu se-semiconductor laser chip esithuthukisiwe, iqoqo lokuqala lokuhlakazeka kwe-laser chip, umthamo wamanzi wokupholisa mkhulu, ukusatshalaliswa kokushisa kwe-chip ngokushesha, ukupholisa isiqandisi ngokushesha, isisetshenziswa sinemodi yokwelapha engcono.Ngendlela efanayo, ububanzi besiteshi sokupholisa amanzi bukhulu, ukwelashwa kokusabalalisa ukushisa kwekhanda kuyashesha futhi kuhlala isikhathi eside, ukususwa kwezinwele, umphumela we-ice muscle wesikhumba ucacile, i-optical fiber semiconductor hair ukususwa kwe-laser kwenza iqhwa futhi likhululeke. ukususwa kwezinwele kungenzeka.
Ngonyaka ka-2022, i-Beijing HONKON njengenkampani yase-China ehamba phambili ekukhiqizeni e-China, sifuna abasabalalisi.Sithembisa ukuthi imikhiqizo yethu isezingeni eliphezulu futhi inenani elincintisanayo.Uma unentshisekelo sicela ukhululeke ukuxhumana nathi.
Isikhathi sokuthumela: Jul-05-2022