Infrared Product Development Boston Ma

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Infrared Product Development Boston MA

Infrared product development Boston MA, particularly the thermal imaging research development is based on the principle that all objects with heat or thermal energy emit infrared electromagnetic radiation in a predictable manner that is directly correlated to the temperature of the object as stated by the Plancks Law. Infrared detectors usually use photon effect devices that produce current, voltage or changes in resistance when irradiated by infrared photons. Most of the time, these photon effect devices are cooled to cryogenic temperatures in order to reduce thermal noise and maximize sensitivity.

In research and development, reliability and testing are critically important. Thermal imaging is used to capture and record the distribution of heat and its variation in real time which allows engineers and product developers to observe and accurately measure heat patterns, leakage, dissipation and other factors that may affect the temperature of a particular equipment, process or product.

The advancement of infrared product development in Boston MA, especially in thermal imaging had resulted to a number of applications beneficial for various fields. This includes paper processing, micro-electronics, automotive, injection molding, plastics, consumer appliance design, target heat signature, telecommunications, research and development, mechanical testing and much more.

Thermal Imaging Research Development

Thermal Imaging for Academic Research and Development
Thermal imaging is used by university laboratories for their applied researches and high-end studies. They also use the technology as a practical support for the class.

Thermal imaging in the academic field uses infrared cameras to accurately measure a wide range of objects without touching them.
For every cases characterized by heat transfer, may it be convective or conductive the infrared cameras are used to qualitatively and quantitatively assess and evaluate research and development projects, ranging from the swirling dynamic flow to the thermal behavior of composite structures.

Because thermal imaging can present heat energy in a dramatic way, the use of infrared camera can greatly improve the learning process.

Thermal Imaging for Range Phenomenology (Target Signature)
This is used to identify and provide solutions to complex engineering and mechanical problems that go beyond the simple and conventional detection of thermal source and temperature. Generally, this requires a high level of accuracy and sensitivity. Some specific applications of such are infrared countermeasure, atmospheric phenomenology, various types of NDT or nondestructive testing and target recognition and detection.

Thermal Imaging for Manufacturing Industries
Infrared product development is widely used in the manufacturing industries for various reasons. The use of thermal imaging includes finding non-destructive defects, helping adjust certain parameters of the product without touching them and improving the quality control plan.

Temperature Control. Thermal energy is being applied in a different ways to optimize output, control production processes and assure high quality of products. Examples of which are monitoring chemical reactions, artificial fiber drawing operations, paper mill drying times, glass production, primary metal production, plastic injection molding and much more.

Accurate Non-Contact Thermal Measurements. Thermal imaging allows accurate and non-contact temperature measurements, data transfer and control functions.

Infrared Product Development and Testing
Infrared product development is also used in nondestructive testing and product evaluation. For example, thermal imaging is used by solar cell companies to assess their production quality. Another example is the use of thermal imaging in operational electrical equipments. Problems in power systems circuit boards in electrical components are detected by thermal imaging which is widely used as a product-testing tool. However, the applications are limited to repair process and product design.

Take the guess work out of all your product testing and development by using thermal imaging for all your R&D. Infrared product development Boston MA can also take the projects you have shelved and help you bring them back to the research stage, and then know whether you can bring it to market.
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Gerald T. Brady has 19324 articles online and 24 fans

Gerry has over 35 years of building and construction experience. This combined with his Level III Thermography Certification makes him one of the most sought after experts in the field.

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This article was published on 2010/09/29