The Ministry of Industry and Information Technology issued the end of 2021 the “14th Five-Year Plan” industrial green development plan, indicating the need to build a “green low-carbon technology system, green manufacturing support system.” This initiative has led to new development opportunities for the laser cleaning industry.
aser descaling, also known as laser cleaning, is currently used in abrasive descaling, metal descaling, microelectronics, heritage cleaning, and metal paint removal.
Laser cleaners play an essential role in industrial cleanings, such as automobile manufacturing, precision parts processing, building facade cleaning, cultural relic protection, oil removal, and paint removal. So how does laser paint removal work? Laser cleaning machine how to remove paint?
Laser cleaning, known as the “21st century, the most promising green cleaning technology,” can effectively remove the surface of the object’s rust, oil, film, oxide, paint, and other pollutants without damaging the surface of the substrate.
Weld laser cleaning machine to clean the weld surface dirt, after welding the surface will have black dirt, generally uneven surface after welding, most factories with grinding and washing can not be cleaned to the dead ends,
Mold cleaning is generally divided into two cases: mold replacement due to the switch of specification pattern and the other is just mold cleaning rather than the switch of specification pattern. Either one needs to meet two cleaning methods, one is the complete cleaning cycle of mold refurbishment, and one is to extend the complete cleaning cycle of in-line cleaning during production.
Molds have a vital role in industrial production. Mold cleaning is the key to maximizing mold life, improving the mold’s reliability, and ensuring product quality. Because the speed of mold manufacturing and development is much faster than the speed of mold cleaning, and the mold, after rapid cleaning immediately to prepare for the next production, so the time left for mold cleaning is quite limited, and choosing an excellent way to clean the mold is more vital because it can not only ensure the quality of subsequent production products, mold maintenance cleaning but also help enterprises to improve efficiency.
A mold is an essential tool used in the tire curing process; mold is inevitably in the process of use by the rubber, with the agent and the vulcanization process used in the release agent of the integrated Shen pollution (the primary pollutants are sulfide, inorganic oxides, silicone oil, carbon black, etc.), repeated use will cause some tread pollution dead zone. Therefore, the mold must be cleaned regularly to ensure the cleanliness of its surface to ensure the quality of tires and the life of the mold; given this, the development of tire mold cleaning technology is of great concern to the industry.
Half a month ago, on August 9, 2022, President Biden officially signed the Chip and Science Act. Under the $54.2 billion support for the U.S. semiconductor industry, the bill also clearly states: “Subsidized companies cannot make significant expansions in China and related countries in the semiconductor industry for ten years. At the same time, the U.S. has also formed chip alliances with other semiconductor industry powerhouses, such as South Korea, with frequent moves.
In recent years, the rapid improvement of new energy battery performance has driven the rapid development of the new energy industry. The rapid development of new energy battery applications has put forward higher, newer, and more stringent requirements for battery performance, and battery R&D and production must be continuously improved to adapt to the new market environment.
Ultrasonic cleaning uses an ultrasonic generator issued by the cross-frequency signal, through which the transducer is converted into a cross-frequency mechanical oscillation and spread to the medium, that is, in the cleaning fluid “bubble” form, the phenomenon of rupture. When the “cavitation” in the object is washed at the moment of surface rupture, resulting in far more than 1000 atmospheric pressure impact, resulting in the object’s surface, holes, gaps in the dirt are dispersed, rupture, and peel off, so that the object of purifying and clean.
In recent years, the rapid development of China’s laser industry, the application market is gradually expanding, breaking many problems, unlocking a number of core technologies, and gradually get rid of the dilemma of foreign “neck”. With the vigorous development of the laser industry, more and more people are beginning to pay attention to the development, production and application of lasers. Among them, “What effect will laser have on the human body?” has become a question of great concern. In response to this question, Vico.com will answer for you.
The impact of laser on human body mainly includes the damage to eyes and the damage to skin.
On June 9, by China’s high-tech industry portal OFweek Wike, OFweek Wike – laser hosted the laser cleaning online technology seminar successfully held, inviting the industry research and business professionals, focusing on domestic laser cleaning technology trends and applications for technology applications, in-depth explanation, and discussion of laser cleaning solutions and industry layout, on the most cutting-edge laser cleaning technology, industry trends, application cases, solutions and other communication and interaction with attendees.
Laser deep engraving is a common laser processing application. Compared with traditional methods, laser deep engraving has no pollution, high precision, flexible engraving content, can meet the complex engraving process, and other advantages; in recent years, the country has paid more and more attention to environmental protection, the traditional corrosion process will also be gradually replaced, laser deep engraving market has a broad prospect.
Laserax Canada has announced the new LXQ Series fiber laser marker, a marker that redefines ease of use for laser system integration. The laser features are designed to reduce integration time and costs and facilitate collaboration between system integrators and experts – a critical factor in fast and straightforward laser integration.
The Laser Energetics Laboratory (LLE) at the University of Rochester recently announced a groundbreaking, $42 million expansion of its 66,000-square-foot office and laboratory building in Brighton, N.Y.
Laser is another major invention of humanity in the 20th century after nuclear power, the computer, and semiconductor. The English name Light Amplification by Stimulated Emission of Radiation means “expansion of light by stimulated radiation.” The full name of the laser has fully expressed the primary process of manufacturing the laser. The famous Jewish physicist Albert Einstein discovered the principle of the laser as early as 1916.
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Laser technology has the characteristics of high efficiency, precision, flexibility, reliability, and stability, low welding material loss, and high automation and safety. It is thoroughly used in lithium battery cutting, cleaning, welding, coding, and other processes. According to the information on the official WeChat account of Laser Manufacturing Network, driven by the strong support of national policies and the acceleration of the promotion and application of new energy vehicles, the demand for automotive power batteries in China has grown significantly. Among the three core components of a new energy vehicle battery, motor, and electronic control, the core component power lithium battery accounts for a high proportion of the cost of the whole vehicle. It also directly determines the cruising range of the whole vehicle.
The laser marking machine industry has also developed rapidly with the rapid development of laser technology. As a result, laser marking technology is popular in all walks of life. With the continuous expansion of market demand, various industries have higher and higher functional requirements for laser marking machines, which forces the continuous development of laser marking machines—faster updates to meet people’s needs.
The fiber laser marking machine is the most used laser marking machine. It is not only efficient but also very cheap. So it is loved by many users. However, many people still don’t know much about what materials fiber laser marking machines can mark. So let us introduce to you what materials can be marked by a fiber laser marking machine.
To begin with this question, we need to know what parts will a production line has.
The conveyor belt is the critical part that all production lines will have.
Besides the conveyor belt, other parts are mainly added to the production process of products. So, all machines or equipment should work with the conveyor belt accordingly.
As an emerging green “black technology,” laser cleaning has always been one of the research hotspots in industrial manufacturing. However, with the vigorous development of the new energy industry, the demand for lithium batteries has increased sharply. As a result, new tasks and challenges have been proposed for the cleaning process in the manufacture of lithium batteries. In the past two years, under the vigorous promotion of head laser companies, laser cleaning has been applied to the manufacturing process of new energy batteries and has moved from an industrial substitute to a dominant stage.
Laser cleaning machine is a trend of new cleaning method and is becoming more and more popular. However, because metal materials are widely used in most industries, most will suffer below issue. With the contact of air, the metal’s surface will rust and affect the use of the part, which becomes the pain point for most of the factories. And with the development of laser technology, laser cleaning is becoming more popular because of its excellent performance on rust removal.
With the increasing awareness of lasers, more and more people are using lasers to customize their products or make the necessary content permanent. However, people are confused about choosing a suitable laser marking machine even the market for laser marking machines is already mature. This article will help you make the right decision when buying a laser marking machine.
The research team of High Power Fiber Laser Technology Lab in China Academy of Science Shanghai Optics precision mechanics institution recently proposed a nonlinear optical gain modulation technique that can convert the single-frequency CW laser into high coherent femtosecond pulse recently. It’s a new technical means to obtain ultrafast pulses with flexible wavelength, and the related results were published in Advance Photonics Research.