金屬切割:激光切割不僅對大量金屬起作用��,而且是工業(yè)之間的通用工具����。
激光切割可以得到比機(jī)械加工更干凈���、光滑��、緊密的切割��。與機(jī)械加工一樣��,它也可以由計(jì)算機(jī)編程和引導(dǎo)����,這意味著激光切割機(jī)可以自動(dòng)為汽車��、計(jì)算機(jī)等行業(yè)制造大量的金屬零件��。
通常��,像汽車框架或液壓成形零件這樣的奇怪形狀需要激光切割����,航天工業(yè)中的許多零件也是如此,結(jié)果通常比等離子切割要好����。
反光金屬切割:因?yàn)榉垂饨饘贂?huì)反射照射在它們身上的背光,這就引起了人們在用高功率激光束照射它們時(shí)的擔(dān)憂����。
如果金屬反射激光,它會(huì)自我毀滅����,解決這個(gè)問題的辦法是用光纖激光切割��,利用這種技術(shù)���,光纖電纜將激光束傳輸?shù)浇饘偕稀7瓷涞墓饩€不會(huì)損壞光纜��。鋁���、銀��、銅和金等金屬都是反光的��,在汽車和半導(dǎo)體生產(chǎn)中很重要����。
醫(yī)學(xué)科學(xué)切割:激光切割在醫(yī)療行業(yè)也扮演著重要的角色����,在醫(yī)療行業(yè),極高的精度和嚴(yán)格的尺寸公差是必不可少的��。
由于醫(yī)療行業(yè)對高產(chǎn)量的需求���,這項(xiàng)技術(shù)符合他們的需求����,因?yàn)樗梢詮?fù)制設(shè)計(jì),既準(zhǔn)確又快速周轉(zhuǎn)���。許多類型的醫(yī)療器械都起源于激光切割,從心血管和骨科器械到外科植入物部件����。通過激光切割,這些設(shè)備可以在不犧牲精度的情況下以較快的速度制造��。
Metal cutting: laser cutting not only works on a large number of metals, but also is a general tool between industries.
Laser cutting can get cleaner, smoother and tighter cutting than machining. Like machining, it can also be programmed and guided by computer, which means that laser cutting machine can automatically manufacture a large number of metal parts for automobile, computer and other industries.
In general, strange shapes such as automobile frames or hydroformed parts require laser cutting, as do many parts in the aerospace industry, and the results are usually better than plasma cutting.
Reflective metal cutting: because reflective metal will reflect the backlight illuminated on them, this has aroused people's concern when irradiating them with a high-power laser beam.
If the metal reflects the laser, it will destroy itself. The solution to this problem is to use optical fiber laser cutting. Using this technology, the optical fiber cable transmits the laser beam to the metal. The reflected light will not damage the optical cable. Metals such as aluminum, silver, copper and gold are reflective and important in automobile and semiconductor production.
Medical science cutting: laser cutting also plays an important role in the medical industry. In the medical industry, high precision and strict dimensional tolerance are essential.
Due to the demand for high output in the medical industry, this technology meets their needs because it can replicate the design, which is accurate and fast turnover. Many types of medical devices originate from laser cutting, from cardiovascular and orthopedic instruments to surgical implant components. Through laser cutting, these devices can be manufactured at a faster speed without sacrificing accuracy.
