High-Speed Video Camera
Medical science and engineering have made dramatic progress thanks to visualization technology. Examples include the invention of microscopes capable of enlarged observations of phenomena occurring in the microscopic domain, invisible to the human eye, X-ray inspection systems, which enable the observation of images utilizing light at imperceptible wavelengths, and infrared cameras. Our eyes are incapable of capturing phenomena occurring at times shorter than 50 to 100 ms. As a result, high-speed video cameras have become necessary in order to record phenomena occurring at intervals that cannot be seen with the human eye, and then replay them at a slower rate so that they can be visualized. As the standard tool for visualizing ultra high-speed domains, the Hyper Vision high-speed video camera contributes to our understanding of ultra high-speed phenomena in a variety of fields.
Laser Ablation Film Forming Apparatus
The Destruction Process of Microbubbles in Proximity to Cancer Cells Using Ultrasonic Waves
High Speed Contraction of Microbubbles
Inkjet Printers
CFRP Lightning Strike Test
High Speed Collision of a Transparent Laminate with a Resin Sphere
Supersonic Wind Tunnel Test
Dielectric breakdown of the semiconductor device
Atomization Process of Fuels Near the nozzle outlet
Spark Plugs
Atomization Process of Fuels 1 mm from the nozzle
Fuel Injection Nozzle Injector for an Automobile Engine
Atomization Process of Fuels 2 mm from the nozzle
Instantaneous Flash Lighting (Recording speed: 10 million frames/second)
Breaking Glass - (Recording Speed 10Mfps)
MEMS High-Speed Operation (Recording speed: 10 million frames/second)
CFRP High-Speed Tensile Test (Recording speed: 10 million frames/second)
Crack Propagation (Glass) (Recording speed: 10 million frames/second)
Water Spray (Recording speed: 10 million frames/second)
Collision of High Speed Projectiles
High Speed Collision of Resin Sphere2
Ink Jet Discharge
High Speed Collision of Resin Sphere1
Milkcrown High-Speed Video Camera
Destruction progress of the LED by the overcurrent
Propagation of detonation
High Speed Tensile Test of Carbon Fiber Reinforced Plastics CFRP
The video illustrates the breakage of the CFRP by the high-speed tensile testing machine. The CFRP fractures instantaneously at the limit load, so a recording speed of 10 million frames/second is required to capture the fracturing process in detail.
The world through the lens of a high-speed video camera
In this video we take a look at what a surprise birthday party looks like in slow motion using Shimadzu's high-speed camera. Some scenes are filmed at speeds of even 500,000 FPS!
