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Dongguan, China
51-100 Employees
2014
At Starlink we provide all-in-one solution from design to production. Starlink Laser Technology Limited is a subdivision of Yick Sang Mold Texturing Group specializing in laser texturing. Inception since 2014, Starlink has become one of the largest laser etching service provider in China through providing high quality textures at competitive prices. Whether you have texture ideas or drawings, our team is committed to turn ideas to reality and making sure our clients are satisfied throughout the development process. In the spaces of automotive, electronics, medical, and more, laser provides unprecedented design freedom to our clients and allows for precise texturing output.
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About us - Starlink
... Starlink Laser Technology Limited is a subdivision of Yick Sang Mold Texturing Group specializing in laser texturing. Inception since 2014, Starlink has become one of the largest laser etching service provider in China through providing high quality textures at competitive prices. ...
Birmingham, United Kingdom
1-10 Employees
2023
Lasurtex provides surface engineering solutions to industry, research and academia. Advise on laser-based processes implementation in the production set-up.
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SERVICES | Lasurtex
... Laser Surface Texturing ...
South Oxfordshire, United Kingdom
51-100 Employees
1977
Always innovating, we provide industry and academia with high-precision laser-based systems and services. Our product portfolio encompasses two divisions that utilise laser technology in distinct ways. The Micromachining Division offers complete laser systems as well as contract services for ultra-high precision laser cutting, drilling, milling, scribing and patterning. Our high-speed imaging products and services enable through real-time analysis of droplet, particle and bubble size measurements including quantification of spray pattern and plume geometry. Our laser-based illumination products are also paired with ultra high-speed cameras for specialised imaging applications including imaging of bright and energetic events that otherwise would be impossible to see. We have specialist teams in engineering, manufacturing and operations to software, sales and research and development all within an environment of and a noticeable curiosity in the field of photonics, lasers and commercial applications. Founded in 1977 as a spin-out of Oxford University, we develop leading-edge laser tools with advanced processes while continually investing in R&D with development of applications in industry and academia. We bring knowledge with a long-standing reputation for innovation in photonics to manufacturing, research, and global industries across a wide range of applications.
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Laser Surface Texturing - Oxford Lasers
... Oxford Lasers provides ultra-precision laser micro texturing down with tracks down to 5µm over a wide range of materials from metals and polymers to ceramics and glasses. ...
Heraklion, Greece
1-10 Employees
2020
At Biomimetic, we’re proud to have revolutionized the field of laser nano-texturing for glass surfaces. Our bioinspired approach offers the perfect combination of anti-reflective, anti-glare, anti-fogging, and super-hydrophilic properties. With our state-of-the-art green laser process, we’ve made it easier than ever to create functional surfaces that meet the highest standards. Tettix AR glass is produced by applying the biomimetic tettix laser treatment that is configured to minimize surface reflection while enhancing its transmissivity over a wide spectrum and for various angles of incidence.
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Home - Biomimetic
... At Biomimetic, we're proud to have revolutionized the field of laser nano-texturing for glass surfaces. Our bioinspired approach offers the ...
Gurugram, India
501-1000 Employees
1988
Laser welding offers great flexibility in terms of material compatibility and CAD-CAM automation set-up. Industrial Laser Engraver, Marker and Cutter with all finest Capabilities Like Laser Marking, Deep Engraving, cutting, Welding on all possible Metals and Plastics. Trace and track your part or component with our MTRACK software anywhere and everywhere Online. Very flexible to integrate it with Laser marking systems & RFID tag. We are the know for creating and building very Complex Automations which is made easier to operate with our Advance technology and R&D.
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Laser marking,laser texturing,laser drilling downloads
... Laser marking,laser texturing,laser drilling ...
Sabadell, Spain
1-10 Employees
1983
Microrelleus mission is to deliver outstanding microstructuring, industrial engraving services and high quality texturing that exceeds our clients’ expectations, while doing it in the most cost effective way. Our Vision is focused on maximizing the added value to our customers by providing solutions to challenging engraving, texturing and microstructuring needs, resulting in high-quality end products that enable them to differentiate from their competitors.The structure of our company, the technology we use and the very qualified personnel we employ ensure enormous flexibility and fast response to our customers. Microrelleus offers laser microstructuring, surface texturing and industrial engraving services with the latest technology. We have decades of experience in the micro engraving world using different technologies to deliver outstanding engraving, microstructuring and texturing services for all markets and applications. Microstructures for surface functionalitzation, engraving for anti-counterfeiting or texturing for product customization are some of our capabilities. Ultimate technology and vast knowledge for high-added value innovative solutions. It is great to work on innovative solutions with such a strong and reliable partner.”. Highly innovative but with a strong focus on ensuring technical feasibility.
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Microrelleus, Laser microstructuring, Texturing & Industrial engraving
... Microrelleus offers laser microstructuring, surface texturing and industrial engraving services with the latest technology since 1983. ...
Elmbridge, United Kingdom
11-50 Employees
1997
Fimark’s services are used by every type of industry, including automotive, medical, aerospace and general manufacturing. In 2002 Fimark became involved with the highly technical area of back-lit automotive buttons and fascias. In 2006 Fimark moved to larger premises to increase capacity for its automotive work. Fimark operates under ISO 9001 quality management standards and is currently on the verge of incorporating TS 16949. Fimark keeps pushing the limits of laser marking by continuously investing in research and development enabling the constant advancement of more precise marking techniques and solutions for the benefit of our customers. At Fimark we pursue that balance by investing in innovation and equipment with improved efficiency. Fimark’s CSR (Corporate Social Responsibility) program goes beyond the required EU environmental policies by incorporating cleaner, more efficient and more powerful machinery as well as constantly improving environmental waste management. Fimark’s ethics are reflected by an absolute commitment to integrity, adherence to the rules of fair competition and full compliance with anti-bribery policy.
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Home - Fimark Ltd Laser Marking & Laser Engraving Services
... Fimark provides technical spray painting, laser etching, laser engraving and laser texturing services for the automotive, aerospace and defence industries. ...
Slovenia
FerroECOBlast Europe has built a strong reputation for solving the most demanding surface treatment problems for our customers and we have vast experiences in the field of robotic and automated solutions for surface treatments. We are located in the heart of Europe in the territory with the most innovative technical knowledge. The company FerroČrtalič has been established in 1964 as a small workshop.
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Applied Technologies | Advanced Surface Treatment Technology
... Laser cleaning & texturing ...
Quebec, Canada
11-50 Employees
2010
Founded in 2010, Laserax first developed inline laser solutions for major smelting plants. Building on our reputation, we moved on to conquer casting plants and automotive parts suppliers all over the world. Laserax brings the most promising laser technologies to the market. Our team develops complete laser solutions as well as high-performance lasers that can mark, clean, texture, and harden surfaces. To empower our customers to reach their full potential and build a sustainable world through the best laser solutions.
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Laser Manufacturer of Marking & Cleaning Solutions - Laserax
... LASER Texturing ...
Thun, Switzerland
51-100 Employees
1956
Werkzeug- und Formenbau erfordern Präzisionsarbeit auf höchstem Niveau. Für qualitativ einwandfreie Produkte müssen Maschine, Material und Werkzeug perfekt aufeinander abgestimmt sein. Und es braucht Menschen, die sich ihrer Verantwortung bewusst sind und über Fähigkeiten verfügen, komplexe Prozesse zu beherrschen. In der aktuellen Ausgabe vom Industriemagazin Maschinenbau durften wir das Lasertexturieren... >>. In diesem Beitrag werden Ihnen die Möglichkeiten der Laserbearbeitung auch ausserhalb... >>.
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Lasertexturierung - Primaform AG, Werkzeug- und Formenbau, Thun
... Vorteile des Laserstrukturieren (Laser Surface Texturing, Lasernarbung) ...
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Some interesting numbers and facts about the results you have just received for Laser Texturing
Country with most fitting companies | United Kingdom |
Amount of fitting manufacturers | 16 |
Amount of suitable service providers | 13 |
Average amount of employees | 51-100 |
Oldest suiting company | 1956 |
Youngest suiting company | 2023 |
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Laser texturing refers to an advanced manufacturing process that employs high-powered lasers to create or modify the surface texture of materials. This technique involves the precise application of laser energy to the material's surface, which can be adjusted to achieve a wide range of textures, from very fine microstructures to more pronounced, coarse patterns. The versatility and precision of laser texturing make it an invaluable tool in various industries, including automotive, aerospace, and consumer electronics, where it is used to improve the aesthetic appeal, functionality, and durability of products. For instance, in the automotive sector, laser texturing is utilized to produce non-reflective surfaces on interior components to reduce glare and enhance safety. In medical device manufacturing, the process aids in creating surfaces that promote better adhesion and growth of biological tissues. The ability to precisely control the texture pattern allows for the customization of surface properties, such as friction, wettability, and light absorption, thereby expanding the material's functionality and application possibilities. Furthermore, compared to traditional mechanical texturing methods, laser texturing offers a non-contact, tool-free alternative that eliminates the risk of contamination and wear, leading to higher quality finishes and more efficient production processes.
1. Precision and Consistency
Laser texturing offers unparalleled precision, enabling the creation of intricate patterns and textures that are difficult, if not impossible, to achieve with traditional methods. This accuracy ensures consistency across multiple pieces, essential for high-quality product manufacturing where uniformity is key.
2. Environmentally Friendly
Compared to traditional mechanical or chemical texturing methods, laser texturing is significantly more environmentally friendly. It eliminates the need for harsh chemicals and reduces waste and energy consumption, aligning with modern sustainability practices.
3. Flexibility in Design
The versatility of laser texturing allows for rapid changes in design without the need to switch out tools or prepare new molds. This flexibility facilitates experimentation with different textures and patterns, speeding up the design process and enabling customization on a level that traditional methods can't match.
4. Cost-Effectiveness
Over time, laser texturing proves to be cost-effective due to its low maintenance requirements and the elimination of additional costs associated with tool wear and replacement. The initial investment in laser equipment is offset by these long-term savings and the added value of being able to produce higher-quality, more detailed textures.
While evaluating the different suppliers make sure to check the following criteria:
1. Technology and Equipment
Ensure the supplier uses state-of-the-art laser texturing technology and equipment, which allows for precision and versatility in texture creation.
2. Material Compatibility
Verify that the supplier can work with a wide range of materials suitable for your project needs, including metals, plastics, and ceramics.
3. Customization Capabilities
The supplier should offer customization options to meet specific design requirements, ensuring unique and tailored texturing solutions.
4. Quality Control Processes
Assess the supplier's quality control measures to guarantee that the final product meets high standards and specifications.
5. Turnaround Time
Consider the supplier's ability to deliver within your project timeline, including their track record for meeting deadlines.
6. Cost-effectiveness
Evaluate the supplier's pricing structure to ensure it aligns with your budget while still offering high-quality laser texturing services.
7. Experience and Expertise
Look for suppliers with a proven track record and expertise in laser texturing to ensure they can handle the complexity of your project.
Laser texturing has revolutionized surface engineering in the automotive industry, allowing for the creation of intricate patterns on car parts. This technology is instrumental in enhancing the aesthetic appeal and functional characteristics of interior components such as dashboards and door panels. The precision of laser texturing ensures uniformity and high quality, contributing to the longevity and durability of automotive parts. In the aerospace sector, laser texturing is utilized to modify the surface properties of aircraft components. This modification improves resistance to wear and tear, thereby extending the lifespan of these parts. The ability to precisely control the texture pattern ensures optimal performance under extreme conditions, making it a critical process in the manufacturing of safety-critical aerospace components. The medical device industry benefits greatly from laser texturing by achieving enhanced biocompatibility and functionality of implants and surgical tools. By creating specific surface textures, medical devices can promote better cell growth and adherence, which is crucial for implants. Additionally, the non-contact nature of laser texturing allows for the sterilization and customization of tools without compromising their structural integrity. In consumer electronics, laser texturing is applied to achieve unique, tactile surfaces on devices such as smartphones and laptops. This not only enriches the user experience through improved grip and aesthetics but also serves as a branding tool, allowing manufacturers to differentiate their products in a competitive market.
Laser texturing, a cutting-edge method for modifying surface properties to enhance material performance, currently stands at a Technology Readiness Level (TRL) of around 6 to 7. This classification indicates that the technology has progressed beyond the prototype phase in a controlled environment (TRL 5) and is now being demonstrated in relevant operational environments (TRL 6) or has moved into system prototype demonstration in an operational environment (TRL 7). The position within this specific TRL range is attributed to several technical factors. Firstly, advancements in laser technology, such as the development of ultrafast lasers, have significantly increased the precision and efficiency of texturing processes, allowing for the creation of complex, microscale surface features that were previously unachievable. Secondly, the integration of computer-aided design (CAD) and computer-aided manufacturing (CAM) systems with laser texturing equipment has enabled the automation of the texturing process, reducing human error and increasing repeatability. However, despite these technological strides, challenges remain in scaling the process for mass production and ensuring the consistency of textured surfaces across different materials, which prevents the technology from advancing to higher TRLs. Addressing these issues requires further research and development, particularly in the areas of process optimization and materials science.
In the Short-Term, laser texturing technology is poised to become increasingly precise, enabling finer control over surface modification. This advancement will allow for the creation of more complex and detailed textures on a variety of materials, including metals, polymers, and ceramics. Enhanced software integration will also play a crucial role, facilitating more intuitive design processes and reducing the time from concept to application. This period is marked by improvements in laser equipment that are more energy-efficient and have smaller footprints, making laser texturing more accessible to smaller manufacturing units. Moving into the Mid-Term, we will see the introduction of hybrid texturing systems that combine laser technology with traditional machining processes, such as milling or chemical etching. This integration will expand the range of textures achievable, opening up new possibilities in functional surfaces, like self-cleaning or enhanced grip. Additionally, advances in real-time monitoring and feedback systems will ensure higher consistency and quality in laser-textured products. The focus will also shift towards reducing the environmental impact by developing eco-friendly processing methods. In the Long-Term, laser texturing technology is expected to revolutionize with the advent of AI-driven systems. These systems will autonomously optimize texturing parameters for custom applications, drastically reducing design and production times. We'll witness the emergence of portable laser texturing devices, expanding their use beyond traditional manufacturing settings into on-site repairs and modifications. The long-term phase will also see significant strides in material science, enabling laser texturing on previously incompatible materials, thereby broadening its application spectrum across various industries.
Some interesting questions that has been asked about the results you have just received for Laser Texturing
What are related technologies to Laser Texturing?
Based on our calculations related technologies to Laser Texturing are Industrial Electroplating, Industrial Filtration, Industrial Sintering, Industrial Extrusion, Industrial Handling
Who are Start-Ups in the field of Laser Texturing?
Which industries are mostly working on Laser Texturing?
The most represented industries which are working in Laser Texturing are Manufacturing, Science and Engineering, Consumer Goods, Information Technology, Real Estate
How does ensun find these Laser Texturing Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.