Products & ServicesSee also: Categories | Featured Products | Technical Articles | More Information
Supplier: Cambridge Technology, Inc.
Description: are ideal for easy OEM design integration or as drop in replacements to reduce total system costs. These scan heads are suited for applications such as high accuracy marking, micro-machining, rapid manufacturing, trimming, scribing, engraving, perforating and more. ProSeries II Scan Heads give highest
- Type: Component / Subsystem
- Options / Components: Laser Head / Focusing Unit, Laser Optics / Beam Delivery
- Laser Type: Nd:YAG / Solid State
Supplier: FOBA North America
Description: These new types of pulsed fiber lasers achieve unprecedented efficiency and compactness. The small dimensions of the laser head, deflector unit and supply unit make integration much easier in, for example, small machines. The high level of pulse-to-pulse stability during material processing
- Type: Complete / Turnkey System
- Options / Components: Fume Extractor, Galvanometer Scanner, Laser Head / Focusing Unit, Laser Optics / Beam Delivery, Laser System Enclosure, Monitoring Sensors / System, Pointing Diode / Beam Injector
- Process / Operation: Laser Drilling / Perforating, Laser Marking, Laser Kiss Cutting / Scribing, Laser Forming / Cladding, Micromachining / Trimming
- Materials Processed: Metal / Conductive Materials, Semiconductors / Electronics, Tissue / Medical
Supplier: Swiss Tec Micromachining
Description: No Description Provided
- Type: Complete / Turnkey System
- Options / Components: Fume Extractor, Gantry System / XY Table, Gas Assist / Laser Nozzle, Laser Head / Focusing Unit, Laser Optics / Beam Delivery, Monitoring Sensors / System
- Process / Operation: Laser Cutting, Laser Drilling / Perforating, Laser Welding
- Materials Processed: Metal / Conductive Materials, Other
Supplier: Synrad, Inc.
Description: . Featuring 100 Watts of average power and 400 Watts of peak pulse power (typical), the p100 is excellently suited for a wide variety applications, including high speed drilling and perforating, where quicker results, deeper cutting/marking, and minimal charring and burning on delicate materials is crucial
Supplier: Garza Industries, Inc.
Description: Bold electrifying colors that refuse to be ignored! Amplify your message with colorful, vibrant BriteHue. Ideal for flyers and direct mail. Excellent surface characteristics for offset and laser printing, scoring, folding and perforating. Made with Green-e certified renewable wind energy. Acid-free
- Secondary Processing: Sheeted Stock
Description: Letter - 8.5" x 11" - 20lb - Smooth - 500 / Ream - Ultra Lemon Color paper offers a smooth finish. Compatible with laser printers, inkjet printers and copiers. Ideal for flyers and direct mail. BriteHue has excellent surface characteristics for offset and laser printing, scoring, folding
- Width: 8.5 inch
- Length: 11 inch
Supplier: JENOPTIK Optical Systems, Inc.
Description: Well-designed beam delivery is the only way of maximizing the efficiency in laser material processing – for drilling, dicing, fine cutting, structuring, perforating, marking and texturing. These are typical applications of JENar™ F-Theta Lenses and JENar™ Beam Expanders. Jenoptik
- Working Distance: 8.9 inch
Supplier: McKey Perforating Company, Inc.
Description: design, our engineering, technical and manufacturing staff will team with you to ensure a successful part completion while respecting your bottom line. McKey Provides: Cut to length perforated tubing Stainless grades as well as carbon steel Laser seam welding to ensure product integrity State
Supplier: Brady Medical Solutions
Description: , cutting, drilling, scoring, and perforating. Brady also offers in-house assembly and manufacturing to assist with pre-production build quantities Brady's unique prototyping capabilities give you the ability to identify and proactively solve production issues early. With more than 1,000 materials
- Capabilities: Tapes / Adhesives, Film / Sheet
- Services Offered: Prototype Services, High Volume Production, Inspection / Quality Control
- Regional Preference: North America, United States Only, Southern US Only, Midwest US Only, South / Central America Only, Other
Find Suppliers by Category Top
Featured Products Top
Synrad Pulstar p100 Pulse CO2 Laser
The introduction of the Pulstar p100 in 2012 into Synrad's globally acclaimed portfolio of industrial CO2 lasers signifed the arrival of a new era of specialized CO2 laser processing. Featuring 100 Watts of average power and an impressive 400 Watts of peak pulse power (typical), the p100 is excellently suited for a wide variety applications, including high speed drilling and perforating, where quicker results, deeper cutting/marking, and minimal heat affect zone... (read more)
Browse Lasers Datasheets for Synrad, Inc.
Brentwood Plastics, Inc.
Medical Films & Medical Device Packaging
Brentwood Plastics, Inc. manufactures ETO and gamma sterilizable polyethylene (LDPE) films for surgical drapes, medical device packaging, and medical devices. We offer... A full line of radio and laser opaque films. Custom perforating for specific applications. Alternatives to medical grade PVC for medical devices and bandages. High visibility films with seal strengths ranging from peelable to fusion bond with clean peelability. A time-tested monolayer alternative to formable nylon web... (read more)
Browse Datasheets for Brentwood Plastics, Inc.
Cambridge Technology, Inc.
Why 3-Axis Scanning?
As the number of large area, web feed and remote applications that use laser processing is growing exponentially, Cambridge Technology's 3-Axis Scanning Systems are gaining more and more popularity in the marketplace due to their: large field of view. small spot size. ability to scan pre-defined 3D surfaces. ability to use high power lasers. Compared to mechanical processes, laser processing using 3-Axis Scanning provides improved flexibility, quality, setup time and throughput. The advantages... (read more)
Browse Laser Processing Equipment Datasheets for Cambridge Technology, Inc.
Conduct Research Top
Medical Device Link .
). A partnership between two businesses will focus on such laser applications as paint removal, cutting and trimming, welding, perforating, cladding, and heat-treating systems. (St. Paul) will unite for the sales and integration of industrial-based laser processing technology and gantry, motion
More Information Top
Laser Drilling - Drilling with the Power of Light
The results of this experiment will assist in the development of a downhole laser perforation or side tracking prototype tool.
Effects of Carbon Dioxide (CO 2 ) Laser Perforation as Skin Pretreatment to Improve Sugar Infusion Process of Frozen Blueberries
Effects of Carbon Dioxide (CO 2 ) Laser Perforation as Skin Pretreatment to Improve Sugar Infusion Process of Frozen Blueberries .
Improved osteoinduction of cortical bone allografts: A study of the effects of laser perforation and partial demineralization
Improved osteoinduction of cortical bone allografts: A study of the effects of laser perforation and partial demineralization .
Effects of pulsed laser systems on stapes footplate
Flat section through the stapes footplate after Er:YSGG laser perforation (serial section with a 4 m slice thickness, HE staining, 10-fold).
Laser Drilling - Drilling with the Power of Light
High Energy Laser Perforation and Completion Techniques .
Rapid biofabrication of tubular tissue constructs by centrifugal casting in a decellularized natural scaffold with laser-machined micropores
For example, laser perforation of chemically stabilized natural acellular vascular graft mate- rials [16, 17] has been explored as a potential mechanism for improving post-implantation endothelization and remodel- ing.
IR Lasers and Application Systems for Myringotomy
The tympanic cavity is ventilated via a laser perforation that closes after an interval of approximately three weeks, a time period that is considered to be long enough for successful therapy [1,2].
Ventilation Time of the Middle Ear in Otitis Media With Effusion (OME) After CO 2 Laser Myringotomy
The median transtympanic ventilation time in the examined patient population with a uniform laser perfo- ration diameter of approximately 2 mm was 16 days (mean value, 16.35 days; range, 8–34 days).
Laser�?assisted endoscopic third ventriculostomy for obstructive hydrocephalus: Technique and results in a series of 40 consecutive cases
The intervening coagulated tissue on the floor between the laser perforations was easily removed with a microforceps (Karl Storz, Tuttlingen, Germany) without significant mechanical traction.
Embolization and vessel wall perforation in argon laser recanalization
ASSESSMENT OF LASER PERFORATION RabbitAortas .
Ballistics 2014: 28th International Symposium - VOLUME 1 GENERAL EXPLOSION MECHANICS INTERIOR BALLISTICS EXTERIOR BALLISTICS LAUNCH DYNAMICS
J. Horak, D. Heunoske, M. Lück, J. Osterholz, M. Wickert, Numerical Modelling and Characterization of the Laser –Matter Interaction during High-Power cw Laser Perforation of Thin Metal Plates, submitted to ICALEO 2014 Technical Digest and Proceedings (2014).
Modified Fiber Tip Laser Angioplasty In An Atherosclerotic Swine Model.
[* = Laser perforation occurred at a branch point distal to the occlusion.] .
Evaluation of parameters influencing the molecular delivery by biodegradable microsphere-mediated perforation using femtosecond laser
The parameters critically influencing the delivery rate on the biodegradable microsphere-mediated femtosecond (fs) laser perforation are investigated in detail with the aim of developing efficient molecular deliv- ery.
Application of laser technology to introduce security features on security documents in order to reduce counterfeiting
As the human ee is sensitive for ver small irregularities in repetitive patterns the laser perforated sedurlt\ features can casil be distinguished from manuall\ or mechanicall\ created frauds .
Plasmonic perforation of living cells using ultrashort laser pulses and gold nanoparticles
We investigate nanoparticle mediated laser perforation as an alternative technique for cell transfection.