What's Hot: FLIR Research & Science in the News

Two New Longwave, High-Speed Thermal Cameras
Product News

Two New Longwave, High-Speed Thermal Cameras

FLIR introduced today two high-speed, longwave thermal cameras for science and research applications – the FLIR X6900sc SLS and FLIR X8500sc SLS – featuring strained layer superlattice (SLS) detectors.

 

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New High-Performance Infrared Cameras for Science and Research

New High-Performance Infrared Cameras for Science and Research

With the race for scientific breakthroughs comes the need for more advanced technology, FLIR is excited to meet that need by introducing four high-performance infrared cameras for science and research applications. These new full-featured products – the FLIR X6800sc, FLIR A8200sc, and FLIR X8500sc midwave infrared (MWIR) cameras and the FLIR A6260sc shortwave infrared camera (SWIR) – provide the flexibility, fast frame rates, and high sensitivity required for the most demanding scientific research applications.

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FLIR Thermal Science Cameras Support Medical Research

FLIR Thermal Science Cameras Support Medical Research

Tissue autofluorescence spectroscopy is a technique that measures the intrinsic light emissions from biological agents upon excitation by a light source. It has been demonstrated in a variety of biomedical research for differentiating between normal and diseased tissue, however, the relationship between autofluorescence and temperature has not been well defined. Currently, researchers at a renowned US university are conducting experiments with the help of a thermal imaging camera from FLIR systems to better understand this relationship.

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The Advantages of LWIR SLS Thermal Cameras
Tech Notes

The Advantages of LWIR SLS Thermal Cameras

Thermal infrared cameras have reimagined how we perform thermal measurements for research and science testing. In recent years, we’ve seen significant readout and camera electronic advances that push the limits of resolution, speed, and sensitivity.

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Forensic Investigations Using Thermography and Steam
Application Stories

Forensic Investigations Using Thermography and Steam

How Applying Steam to Blood-Stained Cloth Made Thermal Imaging Possible

Researchers looking for an alternative method of detecting the presence of dilute concentrations of blood on fabric have found a solution in thermal imaging. While blood is not visible on its own in the infrared spectrum, they discovered it was possible to create a thermal signature by introducing water vapor to a bloodstained sample. Despite some challenges with natural fibers, this thermal imaging method may be a preferable alternative to the use of luminol in forensic investigations.

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Hot biology: Investigating the thermal physiology of birds and mammals

Hot biology: Investigating the thermal physiology of birds and mammals

Perhaps surprisingly many details of the thermal biology of animals are still unknown. Wildlife researchers try to fill the gaps in our knowledge of these fascinating processes. One of the organizations that push the boundaries of our knowledge in this field is the Institute of Biodiversity, Animal Health and Comparative Medicine at the University of Glasgow, Scotland.

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RD Science Customers Reveal the Benefits of FLIR Thermal Cameras for Research and Product Development
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RD Science Customers Reveal the Benefits of FLIR Thermal Cameras for Research and Product Development

Engineers and researchers around the world are using FLIR cameras every day to solve challenging research and science based applications.  FLIR R&D/Science solutions provide a tool for simple non-contact thermal imaging and temperature measurement in order to improve on or replace inadequate and time consuming legacy thermal measurement techniques, such as thermocouples and spot pyrometers.

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RD Science Customers Reveal how FLIR RD Science Solutions Save Reduce Test Times and Save Money
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RD Science Customers Reveal how FLIR RD Science Solutions Save Reduce Test Times and Save Money

In the fast paced world of product development and scientific research, the need to reduce testing times, improve product performance, and reduce overall product and testing costs has never been greater.  FLIR’s R&D/Science products provide the tools to meet these goals through quick and intuitive thermal measurement and analysis solutions. With products that offer clear benefits at every price point, FLIR provides a quick and measureable return on investment.

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Understanding the Challenges of Surface Temperature Measurement Using Thermocouples
Tech Notes

Understanding the Challenges of Surface Temperature Measurement Using Thermocouples

It's common to see a thermocouple taped to a surface for the purpose of temperature measurement, but you may not realize how inaccurate the results will be. This paper explains the theory behind thermocouples and illustrates some of the problems inherent to thermocouple use. In addition, the paper looks at when to use a thermocouple in combination with an infrared camera and when an infrared camera alone will give the most accurate results.

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Infrared Camera Accuracy and Uncertainty in Plain Language
Tech Notes

Infrared Camera Accuracy and Uncertainty in Plain Language

How accurate are thermal imaging cameras, and how are they calibrated? Understanding infrared camera accuracy and sensitivity can help clarify the value of well-calibrated thermal imaging cameras. In this paper, we use layman’s terms to explain how IR cameras are calibrated, how their accuracy is determined, and which variables can affect measurement results.

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Mobile Infrared Scanning — A High-Tech, Accurate Alternative to Traditional Bridge Inspection Methods
Application Stories

Mobile Infrared Scanning — A High-Tech, Accurate Alternative to Traditional Bridge Inspection Methods

Traditional methods for finding concrete delamination and spalling on bridges can be subjective, inaccurate, and at times, dangerous. The solution may be a new mobile unit that uses a cooled FLIR camera to produce objective bridge deck scans — without the need to close down traffic lanes, causing congestion and raising the risk for accidents.

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Thermal Imaging Helps in Evaluating Dental Drilling
Application Stories

Thermal Imaging Helps in Evaluating Dental Drilling

Preparing a damaged tooth and crown for replacement requires drilling that, in some cases, raises the temperature of the bone and surrounding tissues to dangerous levels. Excessive heat can permanently damage these tissues as they increase the denaturation of hard tissue proteins.

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FLIR X6540sc camera enables innovative thermographic particle velocimetry technique

FLIR X6540sc camera enables innovative thermographic particle velocimetry technique

Researchers at the Department of Chemical Engineering, Imperial College (London, UK) have described a novel combined IR thermographic and velocimetry technique for the investigation of multiphase flows. The new technique is called ‘thermographic particle velocimetry’ (TPV) and relies on high-resolution IR thermography measurements taken at high frame rates with a FLIR X6540sc thermal imaging camera.

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FLIR thermal cameras help to reduce the ­invasiveness of cochlear implant surgery
Application Stories

FLIR thermal cameras help to reduce the ­invasiveness of cochlear implant surgery

FLIR thermal cameras help to reduce the ­invasiveness of cochlear implant surgery

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High speed thermal cameras – the need for speed
Application Stories

High speed thermal cameras – the need for speed

High speed thermal cameras – the need for speed

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Next Generation IR Technologies Solve High Speed Automotive Testing Challenges
Tech Notes

Next Generation IR Technologies Solve High Speed Automotive Testing Challenges

Product research and development on internal combustion engines, brake rotors and tires, and high speed airbags are just a few of the areas that truly benefit from high speed, high sensitivity thermal characterization testing. Unfortunately, traditional forms of contact temperature measurement such as thermocouples are not practical to mount on moving objects, and non-contact forms of temperature measurement such as spot guns – and even current infrared cameras – are simply not fast enough to stop motion on these high speed targets in order to take accurate temperature measurements.

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High-resolution FLIR camera brings science to the racing track
Application Stories

High-resolution FLIR camera brings science to the racing track

Engine pre-heating systems help racing professionals prevent engine wear, poor performance on the track and even the loss of hard dollars. Hot Products Engineering, a US manufacturer of pre-heating engines, uses thermal images taken by a FLIR camera to show the value of its engine pre-heating products.

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FLIR cameras reveal thermal characteristics of microelectronic devices
Application Stories

FLIR cameras reveal thermal characteristics of microelectronic devices

In the development of electronic and microelectronic devices, transient thermal information is critical to validate whether a device or a specific part of the device is operating properly. At the University of Texas at Arlington, researchers study microscale thermal transport while using thermal imaging cameras from FLIR Systems.

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FLIR Thermal Imaging Cameras Reveal the Secrets of Coexisting Insects
Application Stories

FLIR Thermal Imaging Cameras Reveal the Secrets of Coexisting Insects

Thermal imaging is a great help in the study of insects. Researchers use it in order to discover how several species of insects coexist on a host plant. At Penn State University, a FLIR T650sc has provided valuable thermal information in an experiment with coexisting insect species on wheat plants.

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Temperature Guns Versus Thermal Imaging Technology
Tech Notes

Temperature Guns Versus Thermal Imaging Technology

Thermal imaging cameras are used for non-contact temperature measurements in companies all over the world. Another common tool for non-contact temperature measurements widely used in industrial applications is the spot pyrometer. Both spot pyrometers and thermal cameras work according to the same principle; they detect infrared radiation and translate it into a temperature reading. Thermal cameras however, have several advantages compared to spot pyrometers.

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Science Gets Dangerous
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Science Gets Dangerous

Watch the FLIR R&S team at the gun range through a FLIR SC8300 infrared camera

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Punkin Chunkin
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Punkin Chunkin

Watch thermal video of the 2012 Punkin Chunkin World Championships taken with FLIR's SC6800 camera.

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Baltimore Keynote Recap
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Baltimore Keynote Recap

See how Nate Fuller, keynote speaker at the Baltimore Symposium, uses thermal imaging to track the fascinating behavior of bats.

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Infrared Dolphin Adventure
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Infrared Dolphin Adventure

FLIR science specialist Chris Bainter speaks with a dolphin expert at the Hilton Waikoloa and captures some great infrared imagery of the playful creatures

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Infrared Angels
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Infrared Angels

Dave Bursell of FLIR Systems visits the Blue Angels Flight Squadron at the Pease Airfield in Portsmouth, NH with the FLIR SC8300 infrared camera

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Columbia Sportswear
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Columbia Sportswear

Watch as FLIR thermal imaging shows how Columbia Sportswear keeps people cool and warm in the outdoors.

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Cooled and uncooled FLIR cameras give DES researchers the leading edge
Application Stories

Cooled and uncooled FLIR cameras give DES researchers the leading edge

Thermal non-destructive testing can detect internal defects through target excitation and the observation of thermal differences on a target surface. At DES, Diagnostic Engineering Solutions, a spin-off company of Politecnico di Bari, Italy, NDT specialists use a wide variety of thermal imaging cameras from FLIR to characterize possible defects inside composite materials.

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Use low-cost materials to increase target emissivity
Application Stories

Use low-cost materials to increase target emissivity

Clean, unoxidized, bare metal surfaces have quite low emissivity. So low, that they are difficult to measure with a thermal imaging camera. In many industrial R&D applications, there are many low-emissivity targets, especially for electrical applications. To get good measurements, we need to increase the emissivity of these problematic targets.

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Thermography shows why champagne should be poured differently
Application Stories

Thermography shows why champagne should be poured differently

Thinking of stocking up on champagne for the upcoming end-of-year parties? Then read this. Thermal imaging has helped researchers at the university of Reims, France, discover that the way champagne is currently poured, causes loss of aroma and thus of taste. The researchers claim that champagne should be served like beer.

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Cooled or Uncooled?
Tech Notes

Cooled or Uncooled?

Thermal imaging cameras with  a cooled detector offer some advantages over thermal imaging cameras with an  uncooled detector. However, they are  more expensive. A modern cooled thermal  imaging camera has an imaging sensor that is integrated with a cryocooler, which lowers the sensor temperature to cryogenic temperatures. This  reduction in sensor temperature is necessary to reduce thermally-induced noise  to a level below that of the signal from the scene being imaged.

 

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Electronic Component Testing: A Non-Contact Sport
Tech Notes

Electronic Component Testing: A Non-Contact Sport

As electronic circuit boards and components get smaller and more powerful, inherent heat can cause significant damage. Infrared thermography can identify hot spots, allowing for improved thermal management and greater advances in circuit board design.

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