銅をレーザーで溶接するのが難しいのはなぜですか?
Copper is an industrial powerhouse, but when it comes to laser welding, it turns into a real troublemaker. Copper’s unique material properties make it one of the most challenging metals to weld with traditional infrared lasers, often causing defects like porosity, spatter, and incomplete fusion. Despite its exceptional conductivity, copper’s behavior under laser exposure presents […]
What Is Laser Black Marking and How Does It Work?
Many manufacturers struggle to achieve high-contrast, permanent marks on delicate materials. Laser black marking creates deep black marks without damaging surfaces. It’s clean, 耐久性, and ideal for high-precision applications. Laser black marking has become the go-to method in industries needing fine, high-contrast, and permanent markings. But how exactly does it work? And which materials and […]
リスク管理の詳細: Vivlaser が FMEA 品質トレーニングを主催
How can we identify and mitigate potential risks before they happen? For Vivlaser, this is not just a management question—it is a core principle of product excellence. At Vivlaser, quality is not a slogan. It is an integrated system that governs every stage of our product lifecycle. We believe that relentless focus on detail and […]
VCSEL とは何ですか、またどのように機能しますか?
VCSELs are quietly powering the future of 3D sensing, 光通信, and precision electronics — but many engineers still don’t know what makes them unique. A VCSEL (Vertical-Cavity Surface-Emitting Laser) emits light vertically from its surface, unlike traditional lasers. Its structure enables efficient, コンパクト, and scalable laser systems. VCSELs are not just an alternative laser […]
LiDAR が自動運転の未来にどのように影響を与えるか?
Autonomous vehicles promise safer roads, less traffic, and more freedom. But to truly "see" the world around them, they need LiDAR. LiDAR gives autonomous vehicles the ability to perceive their surroundings in 3D, making real-time, safe navigation possible. LiDAR is more than a sensor. It’s the backbone of machine perception for autonomous mobility. Let’s explore […]
How Blue Lasers Are Transforming Copper Welding?
Copper’s strength is its weakness — high conductivity and reflectivity make it notoriously difficult to weld with traditional infrared lasers. Blue lasers absorb more than 10x better on copper than IR, enabling cleaner, more efficient welding with less energy, no spatter, and perfect seams. Copper is ideal for electricity but a problem for lasers. Its […]
ファイバーレーザー手持ち溶接とダイオードレーザー手持ち溶接の違いは何ですか?
The welding industry is evolving fast. Choosing the right handheld laser welding solution can save cost, improve quality, and boost productivity. Fiber laser handheld welding offers deeper penetration and lower cost, while diode laser welding delivers smoother, splash-free seams ideal for thin materials. The handheld laser welding market is booming. From metal cabinets to precision […]
ダイオードレーザー溶接は手持ち溶接市場にニッチ市場を開拓できるか?
Laser welding is hot. But within this booming field, can diode laser welding find its unique position? はい. Diode laser welding offers unmatched advantages for thin, 美的, and splash-free welds that fiber laser systems often overlook. As fiber laser systems dominate the market with deep penetration and wide adoption, diode laser welding quietly serves specific […]
A Complete Guide to the Six Main Types of Lasers and Their Applications
Modern industry moves at the speed of light—literally. Laser technologies are behind everything from smartphone components to eye surgery. Lasers fall into six main categories, each tailored to specific applications with unique strengths and limitations. Choosing the right laser means aligning not just performance, but also integration, 料金, and reliability. Introduction — How Lasers Revolutionized […]
ガラスを効果的に切断できるレーザーの種類は何ですか?
Cutting glass with lasers is a technical challenge that requires deep understanding of material-light interaction. Unlike metals or polymers, glass is highly transparent to many common laser wavelengths (例えば。, 1064 nm for fiber lasers or 10.6 μm for CO₂ lasers), meaning it reflects or transmits most of the energy rather than absorbing it. This makes conventional laser […]
