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Vadodara, India
1-10 Employees
2013
177, Por Industrial Park, Por, Vadodara, Gujarat 391243.
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Featured
Laser Machine Manufacturer in Vadodara : Unique Laser
... We Provide Laser Cutting, Laser Welding, Laser Marking, Laser Engraving, Laser Micro Machining, Laser Cladding solutions. ...
Towson, United States
11-50 Employees
1980
We are here to serve you and meet your unique requirements. Our state-of-the-art laser marking facilities feature ultra-fast, ultra-precise lasers coupled with cutting-edge software, enabling us to mark an extensive array of materials and thicknesses for your bespoke needs. At Lenox Laser Corporation, every member of our engineering team is personally dedicated to delivering top-quality products tailored to meet your unique requirements and the most challenging conditions. The choice of materials and manufacturing processes is meticulously tailored to the unique demands of each project, always with an eye on optimizing future product performance. Our production and engineering teams are your trusted partners, ready to guide you through every step of the product design process. We offer our expertise to develop and redesign products, ensuring they not only meet your specifications but are also cost-effective while maintaining precision and accuracy. Lenox Laser takes pride in its remarkable track record from successful medical product development, underpinned by NIH grants to introducing groundbreaking innovations to the global market. Today, Lenox Laser has evolved into a globally renowned company, delivering its products not only to businesses around the world but also to components gracing the surfaces of space satellites, journeying through our solar system.
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Featured
Nipples | Lenox Laser Micro Drilling and Machining
... Nipples | Lenox Laser Micro Drilling and Machining ...
Alsdorf, Germany
2012
As partner or coordinator, Multitel participates actively in regional, national and European research projects. Through different kinds of services, Multitel helps companies in their technological innovation approach. Multitel proposes a large panel of specific courses in photonics, data networks, cybersecurity, Radio-frequency, .... Join our free event (15 December 2022) to discover digital possibilities for SMEs and connect with the region’s blockchain ecosystem. Multitel is currently looking for new talents in the following domains: IA (Artificial Intelligence, machine/deep learning, digital signal processing, data science, speech processing) - cybersecurity - electronics.
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Featured
Laser micro-machining
... Laser micro-machining - Applied Photonics - ...
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Featured
Fiber Laser Cutting Machine Manufacturer,Micro Machining Supplier In Ahmedabad Gujarat
... Fiber Laser Cutting Machine Manufacturer,Micro Machining Supplier In Ahmedabad ...
Austin, United States
11-50 Employees
1993
ARM Automation has been designing, building and supporting custom automated manufacturing solutions for a variety of industries since 1993. This experience has led to the development of expertise in technical disciplines such as motion control, machine vision, robotics and control software. Likewise, this experience has provided the opportunity for ARM to familiarize itself with the needs of many different industries, from automotive component manufacturing to medical opto-electronics testing. ARM Automation’s location just Southwest of Austin, TX provide immediate access to a wide variety of high-tech suppliers and a highly trained and educated workforce. ARM designs and delivers robotic and custom equipment for a wide range of applications, providing quality solutions that maximize return on investment. We partner with all major robot brands to deliver turn-key solutions to suit any environment. ARM has over 30 years of experience in developing custom automated equipment for challenging applications. ARM is an established integration and process technology partner to some of the world’s most progressive automotive and transportation industry leaders.
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Laser Micro-Machining Tool for Semiconductors Masks – ARM Automation
... Laser Micro-Machining Tool for Semiconductors Masks – ARM ...
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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Featured
Home - Biomimetic
... Direct laser micro- /nano- machining, surface texturing and functionalization solutions for Industry and Academia. Custom software and hardware solution. ...
Vilnius, Lithuania
11-50 Employees
2010
Established in 2010, AKONEER is a Lithuanian designer and manufacturer of laser micromachining systems for industrial and scientific applications. AKONEER is a Lithuanian designer and manufacturer of laser micromachining systems for industrial and scientific applications. Cluster unites industry experts to develop advanced laser micromachining technologies. Provident ut sed autem facere libero eius fugiat. We will develop laser machining process based on your production requirements. We focus on laser micro machining with micron level precision.
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Featured
AKO 300 | AKONEER
... High precision laser micro machining workstation with working area of 300x300x200 mm. In a standard configuration it's equipped with femtosecond laser, high accuracy galvo scanner and machine vision. Our flexible platform allows easy customization of the configuration. ...
11-50 Employees
2004
Home Products Beam Shapers Light Tunnel Generator Beam Shaper for Scanners Beam Shapers for Ultra-Fast Lasers Lens Array Homogenisers Axicon Array Homogenizers Multimode Beam Shaper Refractive Diffusers Gaussian Diffusers Flat Top Diffusers Microlens Arrays Microlens Arrays High Power Diode Laser Optics Field Mapper SACs Slow Axis Collimators Slow Axis Collimators with Smile Correction Smile Correctors Fast Axis Collimator Arrays Diode Correction PhasePlates Fiber Optic Microlens Arrays Fiber Coupling Microlens Arrays High Power Wavefront Sensor Rapid Prototyping How It Works Technical Data – updated Jan 2022 Design Examples FAQ Zemax Macro Terms and Conditions Lightforge User Login Lightforge File Upload Applications & Support Optic Calculators Lens Calculator Spot Size Calculator Beam Shaper Quality Calculator Applications Industrial Materials Processing Optical Telecommunications Laser Projection Systems High Powered Diode Laser Optics Application Notes Design Rules Technologies Laser Ablation Processing Symmetry Free Design Direct Write Production Technical Papers and Publications Additional Resources Enhancing Beam Performance Refractive Diffusers High Power Optics Quality Quality Policy Management System Environmental Compliance EU RoHS and Reach Statement Product Change Notification Policy About Us News Current Opportunities Press and Media Contacts Management Team Board Directors Product Supply Image Library Contact Us Partners Distributors. PowerPhotonic is a pioneer in the use of laser micro-machining for use in the manufacturing of precision micro-optics products for laser and optical applications. PowerPhotonic Ltd. was formed in 2004 to commercialize the technology from fundamental research undertaken at the world-renowned Institute of Photonics and Quantum Sciences at Heriot-Watt University in Edinburgh. Optics Manufacturers have traditionally used lithography, micro-grinding and micro-molding to manufacture a wide range of laser micro-optics products. However, there are intrinsic limitations with these techniques. Time to first prototypes is lengthy; new designs are expensive to set up; and there are limitations in the range of surface forms and levels of surface roughness that can be achieved. The PowerPhotonic laser micro-machining technology overcomes these issues. And these advantages apply not only to our standard products. These benefits are leveraged in our custom design and manufacturing service and the LightForge™ rapid fabrication service. The PowerPhotonic manufacturing process is based on a laser system that shapes and then smooths the refractive surface of fused silica glass. This gives us unprecedented flexibility to create a complete range of standard products including slow and fast axis collimators, lens arrays, beam shapers, transformers and correctors, as well as offering a cost effective custom micro-optics manufacturing service called LightForge™.
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The Advantages of Direct Write Laser Micro-Machining
... The Advantages of Direct Write Laser Micro-Machining ...
St Asaph, United Kingdom
1-10 Employees
2004
LML has been providing laser manufacturing services since 2005. In that time it has grown to establish itself as a versatile and dependable partner for hundreds of enterprises involved in the research, development and production of precision micro-products. The small team at LML is made up of engineers from a variety of disciplines; this provides a very effective blend of skills and expertise, allowing LML to solve complex micro-fabrication tasks. LML is an independent, self-financed, employee-owned business which prides itself on acting openly and ethically in all its interactions with customers & suppliers.
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Laser Manufacturing | Custom Micro Cutting & Machining Service
... Laser Manufacturing | Custom Micro Cutting & Machining ...
Vilnius, Lithuania
1-10 Employees
2010
ELAS Ltd. is Lithuanian designer and manufacturer of laser micromachining systems for industrial and scientific applications. Highly customized micromachining workstations incorporate nanosecond, picosecond and femtosecond laser sources in combination with advanced beam steering in order to achieve micrometer scale machining precision and repeatability. Member of LITEK – Laser & Engineering Technologies Cluster of Lithuania. Backed by Applied Research Laboratories (FTMC, LTC, VU FF, KTU). Nationaly awarded: “Innovation Award 2011” for the best innovative product of the year in Lithuania.
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MASTER Mini – Elas
... Mini MASTER’s are high payback laser micro machining workstations tailored for specific applications in Research and Development laboratories or small batch production. Being smaller brothers of MASTER workstations, Mini MASTER’s perform marking, ablation, cutting, drilling, surface ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Laser Micro Machining
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 18 |
| Amount of suitable service providers | 13 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1980 |
| Youngest suiting company | 2020 |
Laser micro machining refers to a sophisticated fabrication technique that employs highly focused laser beams to remove material from a workpiece with exceptional precision, typically at the micron or sub-micron scale. This process allows for the creation of intricate patterns and features on a variety of materials, including metals, polymers, ceramics, and semiconductors. Unlike conventional machining methods, laser micro machining offers unparalleled accuracy and flexibility, enabling the production of complex geometries with smooth surface finishes and minimal heat-affected zones. Its non-contact nature results in minimal mechanical stress on the material, making it ideal for processing delicate or brittle materials. Within its field, laser micro machining has revolutionized manufacturing processes, particularly in industries requiring high precision and miniaturization, such as electronics, biomedical devices, and microelectromechanical systems (MEMS). By facilitating the fabrication of micro-scale components with high aspect ratios and tight tolerances, this technology supports the advancement of miniaturized devices and contributes significantly to the miniaturization trend in technology. Furthermore, its ability to process a wide range of materials with high precision and speed enhances production efficiency and fosters innovation in product design and functionality.
1. Precision and Accuracy
Laser micro machining stands out for its unparalleled precision and accuracy. This technology can achieve extremely fine details and tight tolerances that are often unattainable with traditional machining methods. The focused laser beam is capable of removing material with minimal thermal impact, reducing the risk of warping or material deformation, making it ideal for complex and delicate applications.
2. Versatility
Another key benefit is its versatility. Laser micro machining can be applied to a wide range of materials, including metals, plastics, ceramics, and even composite materials. This adaptability makes it a highly valuable tool across various industries, from electronics and medical devices to aerospace and automotive, where different materials require precise and accurate machining.
3. Efficiency and Speed
Laser micro machining is significantly faster and more efficient than many alternative machining processes. The ability to quickly program and adjust the laser parameters allows for rapid production without the need for tool changes or extensive setup times. This efficiency leads to shorter lead times, increased throughput, and lower overall production costs, providing a competitive advantage in fast-paced manufacturing environments.
While evaluating the different suppliers make sure to check the following criteria:
1. Technology and Equipment
Ensure the supplier has the latest laser micro machining technology and well-maintained equipment to handle your project's specifications.
2. Material Compatibility
Verify that the supplier has experience and capability in working with the specific materials required for your project.
3. Precision and Tolerance
Assess the supplier's ability to achieve the high precision and tight tolerances essential for laser micro machining tasks.
4. Quality Control
Check for a robust quality control system that guarantees the consistency and accuracy of the machined parts.
5. Lead Time and Scalability
Inquire about the supplier's lead times and their capacity to scale production according to your project's timeline and volume requirements.
6. Cost-effectiveness
Consider the cost relative to the value offered, ensuring it aligns with your budget without compromising on quality or delivery times.
7. Industry Experience and Reputation
Research the supplier’s experience in the industry and their reputation amongst peers and customers to ensure reliability and expertise.
Laser micro machining has revolutionized precision engineering, offering unparalleled accuracy in material processing. In the electronics industry, it's utilized to create intricate components of circuit boards and microelectromechanical systems (MEMS). This technology allows for the precise cutting and structuring of materials at the micro-scale, essential for the miniaturization of electronic devices. Its ability to achieve high precision without physical contact prevents material damage, making it ideal for sensitive electronic parts. The medical sector benefits significantly from laser micro machining, particularly in the manufacturing of medical devices and implants. The technology's precision is crucial for creating complex features in tiny components, such as stents and catheters, enhancing their functionality and safety. Its ability to work with a wide range of materials, including biocompatible metals and polymers, makes it indispensable in medical device fabrication. In the automotive industry, laser micro machining is employed in the production of precision components and sensors. This application is critical for developing advanced safety systems and improving vehicle performance. By enabling the micro-scale manufacturing of parts with high precision, laser machining supports the automotive industry's push towards more efficient, reliable, and safer vehicles. Each of these use cases demonstrates how laser micro machining is a versatile and precise tool across various B2B sectors, contributing significantly to advancements in technology and manufacturing processes.
Laser micro machining has reached a Technology Readiness Level (TRL) of 9, indicating it is fully mature and has been successfully implemented in operational environments. This high TRL is due to several technical advancements and validations over the years. Firstly, the precision and control offered by laser micro machining have been significantly enhanced through the development of ultra-short pulse lasers, which minimize heat-affected zones, thus reducing material damage and allowing for the machining of very fine features. Additionally, advancements in real-time monitoring and control systems have improved the process's reliability and repeatability. The widespread adoption in industries such as electronics, medical devices, and aerospace further underscores its maturity, as these sectors demand the highest standards of precision and quality. The ability to work with a diverse range of materials, from metals to polymers and ceramics, without the need for physical contact, reduces tool wear and maintenance, contributing to its operational readiness and efficiency. Finally, continuous research and development have been key to overcoming previous limitations, such as the slow processing speed and the initial high cost of equipment, making laser micro machining a cornerstone technology in precision manufacturing.
In the Short-Term, laser micro machining is poised for significant enhancements in precision and efficiency. Innovations in ultrafast laser technology are expected to drive down processing times while achieving higher accuracy in micromachining tasks. This phase will likely see the widespread adoption of femtosecond laser systems, which offer minimal thermal impact on materials, making them ideal for delicate operations in industries like electronics and medical device manufacturing. The Mid-Term outlook introduces the integration of artificial intelligence (AI) and machine learning algorithms to optimize laser micro machining processes. These technologies will enable predictive maintenance, real-time adjustments during operations, and improved quality control. As a result, the versatility of laser micro machining will expand, opening up new applications in complex and mixed-material products. The focus will be on enhancing the adaptability of machines to handle a broader range of materials with intricate designs. Looking into the Long-Term, the expectation is a revolution in material processing capabilities, with the advent of quantum laser technology. This breakthrough will redefine the limits of precision and miniaturization, allowing for atomic-level machining accuracy. Such advancements could usher in a new era of nanotechnology and microelectronics, where laser micro machining plays a critical role in producing components for quantum computing, advanced sensors, and next-generation medical implants. This phase marks a transformative period, positioning laser micro machining at the forefront of manufacturing innovation.
