News

Discover the latest in laser drilling technology and applications with us. Our mission is to advance the industry through innovation and research. Explore our News for recent updates and our Publications for insights into our contributions to laser drilling. Here, we share our impact and knowledge with you.

News

Attending:

SPIE Defense + Commercial Sensing 2024

Lenox Laser is delighted to confirm its attendance at the esteemed 2024 SPIE Defense + Commercial Sensing conference, scheduled to be held in National Harbor, Maryland, from April 21st to 25th. This renowned conference will cover a wide array of topics, including but not limited to government applications, public security measures, military technologies, lidar, and radar innovations.

We are pleased to announce that Lenox Laser will be represented by a selection of our foremost experts, who will be available to engage with participants, respond to inquiries, and interact with the distinguished attendees. We invite you to visit our booth on the exhibition floor to learn why Lenox Laser is considered a leader in the laser drilling industry.

Attending:

Pittcon 2023
Lenoxlaser at Pittcon 2023 in Philadelphia, PA

Pittcon 2023 was an exhilarating event for the Lenox team! We were thrilled to engage with numerous visitors and witness the vibrant energy across the expo floor. The opportunity to connect with both new and familiar faces, exchange ideas, and showcase our latest innovations was truly invaluable.

 

The video is a snapshot capturing our memorable moments at the show. We're already looking forward to the next opportunity to meet and inspire more members of our community!

Advances:

Container Closure Integrity of a Glass Prefillable Syringe in Deep Frozen Storage Conditions

The article "Container Closure Integrity of a Glass Prefillable Syringe in Deep Frozen Storage Conditions" by Jessica Baseggio and colleagues, published in December 2023, addresses the critical issue of ensuring container closure integrity (CCI) of glass prefillable syringes (PFS) in deep-frozen storage conditions, a necessity due to the development of new pharmaceutical drug modalities requiring such storage.

The study introduces a novel dye ingress test method tailored for low-temperature conditions to assess the CCI of PFS across a spectrum of temperatures down to -80°C. This method, alongside laser-based CO2 headspace gas analysis, was used to evaluate the integrity of glass PFS at temperatures between -50°C and -80°C.

The results consistently showed CCI failures below -70°C, primarily due to failures at the plunger-to-barrel interface, attributed to dimensional changes and loss of elastomer elasticity. This research underscores the importance of assessing the CCI of pharmaceutical packaging, particularly for products requiring deep-frozen storage, to ensure drug safety and efficacy.

The study also highlights the challenges and advancements in container closure integrity testing (CCIT) at sub-zero temperatures. Traditional CCIT methods face limitations due to the physical properties of materials at low temperatures, necessitating the development of alternative testing strategies.

The successful application of a modified dye ingress method and orthogonal headspace gas analysis in this study represents a significant step forward in ensuring the integrity of pharmaceutical packaging at extreme temperatures.

Furthermore, the research provides valuable insights into the behavior of materials used in container closure systems (CCS) under deep-frozen conditions, particularly the impact of temperature on the integrity of elastomer components.

This knowledge is crucial for the pharmaceutical industry as it moves towards more advanced drug formulations requiring specialized storage solutions.

Featured:


Our Orifice Calculator
Precision in Fluid Dynamics Simplified

Our Orifice Calculator© stands as a cutting-edge solution, meticulously engineered to forecast gas flow rates through orifices with high precision. Incorporating essential variables such as orifice diameter, inlet and outlet pressures, gas type, molecular weight, and temperature, our Orifice Calculator© unravels the complexities of fluid dynamics. It provides precise flow rate calculations in standard cubic centimeters per minute, specifically tailored to meet the unique requirements of our users.

To enhance our customers' ability to choose the perfect orifice for their specific needs, we integrate this proprietary calculator into our extensive service offerings. With our advanced laser drilling technology, we precisely craft orifices to exacting standards.

The foundation of our calculator lies in the principle that accurate flow rate predictions for both gases and liquids can be consistently achieved through detailed flow calibration in controlled conditions. This ensures that our customers receive solutions that are not only precise but also perfectly aligned with their diverse application needs.

The Orifice Calculator© is a breakthrough in simplifying fluid dynamics calculations for laser drilling professionals. This tool is engineered to provide accurate gas flow rate predictions through orifices, considering factors like orifice diameter, inlet and outlet pressures, gas type, molecular weight, and temperature. It aims to make complex flow rate calculations straightforward and precise, tailored to the specific needs of each project.Incorporating the Orifice Calculator© into our laser drilling services enhances our ability to create orifices that perfectly match project specifications. This precision stems from the calculator's foundation in flow calibration under controlled conditions, ensuring reliable flow rate predictions for gases and liquids alike.

Our calculator transcends traditional measurement limitations by employing a 'flow diameter'-a value slightly adjusted from the actual throat diameter-enhancing the accuracy of flow calculations across different gases and flow conditions. This approach not only streamlines the computation process but also significantly mitigates the variability introduced by the physical characteristics of the orifice, ensuring reliability and precision in predicting fluid flow rates.

Press:

Lenox laser interviews with WJZ

Take a trip down memory lane! Twenty years ago, Lenox Laser's President, Joe d'Entremont, was featured on the Baltimore Channel 13 WJZ segment "Coffee With," hosted by Don Scott and Marty Bass. Join us for a unique lab tour where Joe showcases the intricate process of laser drilling microholes. It’s a great opportunity to get a glimpse into the technology that has contributed to progress in numerous fields. Tune in to see the role Lenox Laser has played in advancing laser precision!

Publications

Industrial ten with a temperature regulator is located in the production of large electrical parts for the manufacture of aircraft. Concept engineering and shipbuilding

Gas Flow Measurement

An innovative orifice gas flow measurement device provides an accurate flow measurement concurrent with the orifice diameter

Reverse Taper

We have performed EDM of reverse-tapered microholes with a diameter of less than 100μm and a high rate of taper. Two methods have been tested for drilling a hole in a 50-μm-thick copper sheet using tungsten electrodes...