Fiber Bragg grating sensors: present and future applications in smart cities

FBG sensors in smart citiesThe so-called “smart cities” are increasingly becoming the subject of media discussion: nowadays the phenomenon of “smart cities” is the focus of attention of technology companies and entrepreneurs, local governments, and civil society. The primary task in creating and equipping “smart cities” is to improve the quality of life for citizens: such cities promise to be more modern and hi-tech.

Structural integration of fiber Bragg grating sensors and fiber optic sensor systems represents a new branch of engineering and is a major breakthrough in creating smart city infrastructures. Nowadays fiber Bragg grating sensors are a fundamental and indispensable component of any intelligent control fiber optic system. A well-functioning control system is generally equipped with an FBG array of sensors that allows this system to collect and process the required data about its environment. After data collection, the fiber optic system is able to fully characterize its environment and adjust its operations accordingly. The comprehensive capabilities of the fiber Bragg grating products present many opportunities that were unavailable in the past due to high costs and limited accessibility. It is necessary to emphasize that fiber optic systems and associated equipment provide the essential processing power for small-scale devices through which the coordination of the FBG sensors will be easy to implement at a relatively low cost.

Fiber Deployments and the Internet of Things

In itself, the fiber Bragg grating sensor is a converter that converts parameters of a physical nature to an electronic signal, which can be fed into an autonomous system or can be interpreted by humans. These FBG sensors can transmit information about light, pressure, temperature, humidity, moisture, and a variety of other parameters. More sophisticated fiber Bragg grating sensors include accelerometers for measuring acceleration and vibration. An even later generation of FBG sensors is based on semiconductor physics, nanotechnology, and intelligent sensing devices which include smartphones amongst others. Nanotechnology is a key enabling technology for fiber Bragg grating sensor development because advances in nanotechnology will undoubtedly drive development in MEMS (MicroElectroMechanical Systems) and photonics, inevitably leading to the development of highly sophisticated but low-cost sensors. Nowadays smartphones are fitted with a variety of sensors such as GPS, gyroscopes, accelerometers, and compasses, enabling a variety of crowdsourcing applications, which will eventually be augmented by the Internet of Things. In the context of the Internet of Things, the communication between sensors nodes has to be wireless because the costs of cabling millions of sensors are impractical and extremely expensive.

Fiber Bragg grating sensor systems can be compared to and are capable of being the nervous system of infrastructure as they are extremely sensitive to outside and environmental interference. A large variety of FBG sensors allows for extensive measurements of multiple parameters of many different buildings and facilities.

Advantages of Bragg sensors

One of the main advantages of FBG sensors is that they provide reliable data that allow for well-informed decision-making based on reliable evidence. Fiber optic systems allow for the assessment of thousands of sensors in real-time on a single cable. FBG sensor systems are well-suited for the detection and recording of critical structural response characteristics as well as environmental indicators that lead to degradation.

An alternative for Challenging Strain and Temperature Measurements

Optic sensing becomes one of the noticeable aspects, across multiple business sectors such as civil&energy, medical, automotive, aerospace, and manufacturing industries. The worldwide distributed optic temperature sensing market is majorly driven by the growing optics technology-based installation. Based on applications, the market has been segmented into temperature sensing, acoustic/vibration sensing, strain sensing, and others. The distributed temperature sensing segment is anticipated to dominate the distributed fiber optic products application arena (in the term by size) by 2025. There are already examples of the implementation of FBG sensors into smart city infrastructures.

Fiber Bragg gratings are often used in strain sensing especially in such places where the environment is harsh (for instance, high-EMI, high-temperature, or highly-corrosive). Strain measurement is imperative during prototype design and testing. Strain measurements ensure that materials perform as they should and that the equipment is safe and durable. Measuring strain is crucial for testing complex structures, like aircraft, turbines, etc. There various ways in which stress can be measured, but it is widely accepted that FBG sensors are the most efficient way of strain measurement.

The ability to disconnect your monitoring instrumentation and return for results after a large amount of time such as months or even years is a great advantage of fiber Bragg grating sensors. For instance, in the case of bridges, it is common for engineers to visit the bridge and conduct impact testing using an impact hammer on the different parts of the bridge. This is time-consuming and even hazardous because of the height of some bridge structures. The distribution of a number of FBG sensors throughout the bridge and the attachment of the instrumentation to this bridge on a periodic basis is a much more efficient solution. This is only one of the good examples to demonstrate the effectiveness of the fiber Bragg grating strain sensors. Besides bridges, other examples of using FBG for long-term static strain testing are buildings, piers, and structures in high earthquake-prone areas.

The different structures may have very-low-frequency modes, and they may also have higher modes due to the effects of wind and tide. Most earthquakes and other earth tremors are low-frequency events. Fiber Bragg gratings can be attached to the structures and monitored for the vibrations during earth tremors and earthquakes. The low-frequency dynamic strain testing can help in determining the reaction of high-rise buildings to the wind. In addition to this, FBG sensors create connections with peers and other shore structures to determine their vibrations during the ebb and flow of tides. Dynamic strain testing can also be performed on transportation vehicles like automobiles, trains, and airplanes. In addition to civil structures and vehicles, there are a number of other applications for dynamic strain testing and vibration stress testing using fiber Bragg gratings. FBG sensors can be attached to industrial machinery to determine the frequency and amplitude of the stress vibrations.  

More specifically, FBG strain sensors have been used in the following applications: performance monitoring of deep shafts and retaining walls; monitoring of deep diaphragm walls; assessment of tunnel lining behavior during tunnel construction; the FBG strain sensors are embedded in the precast concrete lining segments when being made in the factory; in-the-field testing of large diameter piles by integrating FBG strain sensors; monitoring of old tunnels during construction that happens nearby.

FBG temperature sensors are used for field testing of thermal piles in order to evaluate the thermo-mechanical response of piles during heating and cooling; monitoring the power lines to detect overstressed areas.

Where to buy the best fiber optic products?

Optromix is a fast-growing vendor of fiber Bragg grating (FBG) products line: fiber Bragg grating sensors, FBG interrogators, and multiplexers, Distributed Temperature Sensing (DTS) systems. We create and supply a broad variety of top-notch fiber optic solutions for the monitoring of various facilities all over the world.

Our main goal is to deliver the best quality fiber optic products to our clients. We produce a wide range of fiber optic devices, including our cutting-edge customized fiber optic Bragg grating product line and fiber Bragg grating sensor systems.

We are dedicated to delivering the best products and supports to all our customers, our engineers have extensive experience and strong technical expertise in creating fiber Bragg grating products.

If you are interested in Optromix FBG sensor systems, Optromix distributed acoustic sensing system, or any other fiber optic products, please contact us at info@optromix.com

Optical fiber temperature sensors and their applications

FBG temperature sensorsFBG sensors give the opportunity to measure a variety of parameters in conditions where other sensor technologies fail or simply cannot operate. Such FBG sensors have intrinsic advantages, including resistance to electromagnetic interference, non-electrical conductivity, passive measurements, small size and small weight, and the option of multipoint measurements. the reflection wavelength of the FBG (Bragg wavelength) depends on the grating characteristics (period, modulation) and is influenced by the ambient conditions such as strain and temperature. The development of fiber optic devices based on fiber optic sensors for operation in harsh environments (such as for temperatures of up to 1000°С) is becoming an increasingly important field. In the case of temperature sensing the Bragg wavelength is a function of the temperature. This temperature dependence results from changes in the refractive index of the fiber as well as from thermal expansion of the glass material. Many material properties show strong temperature dependence. Examples of such temperature dependencies are dew point, density, electrical conductivity, refractive index, rigidity, and diffusion. Temperature measurement also plays an important role in the health monitoring of electric circuits or civil structures.

The main advantages of FBG sensors are their measurement of reflected light, wavelength-encoded sensing, and multiplexing capability. Nowadays there are many types of FBG sensors used for measuring temperature: intrinsic and extrinsic.

Three major types exist:

  • The intensity-modulated sensors

Intensity-modulated FBG sensors are based on the principle of letting a physical disturbance such as temperature cause a change in the received light through an optical fiber;

  • The phase-modulated sensors

The phase-modulated FBG sensors are based on the principle of comparing the phase of light in the sensing fiber with a reference fiber in an interferometer;

  • The wavelength modulated sensors

Wavelength modulated FBG sensors are based on the principle that a physical disturbance such as temperature or strain changes the reflected wavelength of the light.

In general, it should be noted, phase modulated and wave modulated FBG sensors are providing much more accurate measurements than intensity-modulated sensors but at the cost of much more expensive interrogators.

Optromix, Inc. is a U.S. manufacturer of innovative fiber optic products for the global market, based in Cambridge, MA. Our team always strives to provide the most technologically advanced fiber optic solutions for our clients. Our main goal is to deliver the best quality fiber optic products to our clients. We produce a wide range of fiber optic devices, including our cutting-edge customized fiber optic Bragg grating product line and fiber Bragg grating sensor systems. Optromix, Inc. is a top choice among the manufacturers of fiber Bragg grating monitoring systems. If you have any questions, please contact us at info@optromix.com

Pressure measurement with fiber Bragg grating sensors

FBG sensors for pressure measurementThe pressure is one of the most physical parameters in a process industry, but traditional pressure sensors, mostly based on electrical strain gauge, vibration wire, mechanics, and suchlike are unable to adapt to the harsh environment and online monitoring at a long distance. Due to fiber Bragg grating sensors have become an important researching direction. An increasing interest in global industries towards the application of optical fiber sensor has brought to the rapid development in the monitoring of temperature and strain. Fiber Bragg grating products have a number of advantages such as relatively small size and long lifespan. Also, fbgs are inexpensive to manufacture, multiplexing ability, self-referencing with a liman response, ease of installation, durability, lightweight, and immune to electromagnetic interference. Sensing processes in extremely harsh environments such as explosive gas exposure setting, high-temperature combustion chamber, and environment which contains high electromagnetic interference are feasible by using fiber Bragg grating sensors due to their passive nature. Naked fiber Bragg grating sensors are fragile, but an approach to encapsulate them could solve the problem by adding carbon fiber for reinforcement and solidified by epoxy resin with encapsulation technique. Such encapsulation technology protects the fiber from the severe environment in mounting processing without influencing the transmission of the strain applied to the fbg.

The fbg pressure sensor presents a key optical fiber sensor technology for the safe operation of different technical products, systems, and technologies. These fbg pressure sensors are widely used in medicine as well as in different experimental, developmental, and diagnostic processes. Designing an intelligent fbg pressure sensor has been a burgeoning trend. Special fbg pressure sensors exist for explosive environments, which present very strict requirements for pressure sensor capsules, electronic systems, and communication interfaces.

The fbg pressure sensor is mainly based on a Bourdon tube with two fbgs bonded on its outside and inside surfaces. The wavelength shift difference of the two fbg is utilized as a pressure sensing signal: the sensitivity is enhanced, and the temperature cross-sensitivity is compensated. The experimental results demonstrate that the fiber Bragg grating pressure sensor possesses good linearity and repeatability with the measurement sensitivity of 1,414 pm/kPa, which is 465 times higher than a bare FBG. Compared to other pressure optical fiber sensor technology, the cost of the fiber Bragg grating sensors is still too high, even though it reduced significantly over the past decade. Such technology performs well, on a lost-per-measurement basis, only when several measurements are multiplexed on the same fiber.

Optromix is a fast-growing vendor of fiber Bragg grating (FBG) products line: fiber Bragg grating sensors, FBG interrogators, and multiplexers, Distributed Temperature Sensing (DTS) systems. We create and supply a broad variety of top-notch fiber optic solutions for the monitoring of various facilities all over the world.

If you are interested in Optromix FBG sensors, please contact us at info@optromix.com

The Growth and Development Prospects of Worldwide Fiber Optic Sensor Market

FBG sensor marketOptical fiber sensors have seen increased acceptance and widespread use in the scientific world in the last few decades. Against the background of other sensor types, fiber Bragg grating sensors have become widely known and popular. Such FBG sensors are able to measure the various parameters of the substances studied in the research of scientists and engineers. These are such parameters as chemical and biological agents, temperature, strain, pressure, and many others. In addition to this, the optical fiber sensor technology and fiber Bragg grating sensors, in general, have the increased flexibility of design to be used as a single point or multipoint arrays. Also, fiber optic systems and devices based on them have their own relatively low cost that makes them available for use in the different fields and industries. However, it is necessary to actively engage with the problems of increasing the FBG sensors’ attractiveness for business.

Nowadays fiber optic sensors markets are in a relatively early development stage so it is difficult to access and forecast with accuracy. Furthermore, the market segments are fragmented due to the variety of sensing applications and industries where they are applied. The global market of the fiber Bragg grating products is primarily composed of three key segments:

  1. sensing devices (bare FBGs for sensing applications, packed FBG sensors, and FBG arrays)
  2. instrumentation (fiber Bragg grating interrogating instruments and related components: multiplexers, switches, data acquisition systems, software, and graphical user interfaces)
  3. system integration and installation (implementation tools for the fiber optic solutions and fiber optic system installations like design, planning, system integration, customer training, service, etc.)

According to the latest data, the worldwide demand for bare and packaged FBGs is more than 10, 000 pieces per year. And besides that, the worldwide demand for FBG arrays is estimated to be between 100s to 1, 000 arrays per year. The combined present global market size of this segment is between $15M to $35M USD a year with an annual growth rate of 15% to 25%. The total market size of all products in the FBGs product line is estimated to be in excess of $50M USD.

Future applications of FBG sensors will possibly develop over time depending on cost reduction and development of specialized and application-specific packaging. It is expected that more conventional and popular applications such as discrete strain and temperature sensing will continue to evolve and acquire greater market shares. Newer applications in chemical, biological, and medical sensing will lead to the creation of a new generation of fiber optic products that will perform specific agent or parameter sensing functions.

In order for fiber optic products to penetrate into mainstream industrial processes,  appropriate transducers must be developed. FBGs must meet such criteria as ecological strength, appropriate sensitivity, and the correct dynamic range. Also, they need to be early replaceable without a description of the FBGs network and adhere to engineering standards, either existing now. One of the most important conditions for the development of the global market of fiber optic products is seamless integration with existing control system architectures.

Optromix, Inc. is a U.S. manufacturer of innovative fiber optic products for the global market, based in Cambridge, MA. Our team always strives to provide the most technologically advanced fiber optic solutions for our clients. Optromix is a fast-growing vendor of fiber Bragg grating (FBG) products line: fiber Bragg grating sensors, FBG interrogators, and multiplexers, Distributed Temperature Sensing (DTS) systems. We create and supply a broad variety of top-notch fiber optic solutions for the monitoring of various facilities all over the world. If you would like to purchase FBG sensors, please contact us at info@optromix.com

Ubiquitous optical fiber strain sensors against a background of large-scale urbanization

FBG strain sensors in urbanization processFiber Bragg gratings are often used in strain sensing especially in such places where the environment is harsh (for instance, high-EMI, high-temperature, or highly-corrosive). Strain measurement is imperative during prototype design and testing. Strain measurements ensure that materials perform as they should and that the equipment is safe and durable. Measuring strain is crucial for testing complex structures, like aircraft, turbines, etc. There various ways in which stress can be measured, but it is widely accepted that FBG sensors are the most efficient way of strain measurement.

There are two types of applications of the fiber Bragg grating strain sensors:

  • Long-term Static Strain Sensing. The main issue in the long-term static strain test is an interest in measuring the long-term static strain of the component in question. In order to carry out the above operation, it is necessary to set up the grating on the structure, find out what the initial wavelength is, and then within a set period of time to detect and record the changes that have occurred. Also, it is possible to return to the structure, reattach, and refer back to the initial wavelength. As a result, it becomes possible to obtain the determination of what this strain is from the initial condition at that time. The ability to disconnect your monitoring instrumentation and return for results after a large amount of time such as months or even years is a very great advantage of fiber Bragg grating sensors. For instance, in the case of bridges, it is common for engineers to visit the bridge and conduct the impact testing using an impact hammer on the different parts of the bridge. This is time-consuming and even hazardous because of the height of some bridge structures. The distribution of a number of FBG sensors throughout the bridge and the attachment of the instrumentation to this bridge on a periodic basis is a much more efficient solution. This is only one of the good examples to demonstrate the effectiveness of the fiber Bragg grating strain sensors. Besides bridges, other examples of using FBG for long-term static strain testing are buildings, piers, and structures in high earthquake-prone areas.
  • Dynamic Strain Sensing. The different structures may have very-low-frequency modes, and they may also have higher modes due to the effects of wind and tide. Most earthquakes and other earth tremors are low-frequency events.  Fiber Bragg gratings can be attached to the structures and monitored for the vibrations during the earth’s tremors and earthquakes. The low-frequency dynamic strain testing can help in determining the reaction of high-rise buildings to the wind. In addition to this, FBG sensors create connections with peers and other shore structures to determine their vibrations during the ebb and flow of tides. Dynamic strain testing can also be performed on transportation vehicles like automobiles, trains, and airplanes. In addition to civil structures and vehicles, there are a number of other applications for dynamic strain testing and vibration stress testing using fiber Bragg gratings. FBG sensors can be attached to industrial machinery to determine the frequency and amplitude of the stress vibrations.  

Optromix, Inc. is a U.S. manufacturer of innovative fiber optic products for the global market, based in Cambridge, MA. Our team always strives to provide the most technologically advanced fiber optic solutions for our clients. Our main goal is to deliver the best quality fiber optic products to our clients. We produce a wide range of fiber optic devices, including our cutting edge customized fiber optic Bragg grating product line and fiber Bragg grating sensor systems.

If you would like to purchase Optromix FBG Strain Sensors, please contact us: info@optromix.com or +1 617 558 98 58

 

Fiber-optic sensors in biomedical applications

FBG sensors in biomedical applicationsThe scientific experience of the last few decades was marked by major achievements in the field of fiber-optic sensors. Optical fiber sensors have certain advantages like immunity to electromagnetic interference and high sensitivity, small size and small weight, large bandwidth, and ease of use and distribution. Over the years, fiber-optic sensors have fastly grown in quality and functionality and have found widespread use in many areas such as defense, automotive, manufacturing, and among various other industries. A wide range of applications was defined for fiber sensors in general and in particular for medical and biomedical applications. Also, these technologies have become more commercially available.

The medical and biomedical industry provides many challenging requirements, for which optical fiber sensors can provide original and reliable solutions. In the coming years, scientists and engineers in the medical and biomedical areas will use fiber-optic sensor turnkey systems for sensing and measuring of any type of physical quantity. Such fiber-optic turnkey systems are a combination of four basic components: a light source, an optical fiber, a sensor element, and a light detector. In such systems, the fiber-optical sensor acts as a light modulator to change a property of light (phase, polarization, etc.).

Possible future applications of fiber-optic sensors in biomedical research include simultaneous collection and analysis of samples for drug safety evaluation for instance. Also, optical fiber sensors help in the identification of drug molecules and in the sensing of biomolecules, effluent monitoring, and overall pharmaceutical quality control of the product. In that context, it’s important to note that light-carrying fibers are potentially useful as physical sensors of temperature, pressure, and rapidation and as chemical sensors of pH, the partial pressure of blood, and glucose.

 

Optromix is a manufacturer of laser technologies, fiber-optic sensors, and optical monitoring systems. Optromix provides innovative world-class fiber-optic products to the global market. We provide optical fiber sensors using our own developments based on the research work and patents of an international R&D team. We try to understand and satisfy all the individual and specific needs of our clients in very advanced fields.

If you are interested in Optromix fiber-optic sensors, please contact us at info@optromix.com

Fiber Bragg grating sensors for bolt force status monitoring

Over the past decades, bolts support has become a widely used method of roadway roof failure control due to the easy construction and its efficient reinforcement. Moreover, bolts support improve surrounding rock structure stability. Underground coal mining has been extending to deeper levels where high-stress conditions are present; high stress causes roof subsidence and floor heaving in coal mine roadways. This can have a negative effect on the safety of the miners and construction integrity. Therefore, real-time monitoring of bolts in coal mine roadways is vital for the long-term safety and stability of the surrounding rock structures.

The systems that are used currently for real-time status monitoring of the bolts support structures are easily affected by the harsh environments and high levels of stress. Fiber Bragg grating sensing technology provides a new and effective way of real-time measurements. FBG sensors have become one of the most promising optical fiber passive device applications. Fiber Bragg grating sensors have a variety of applications and are widely used for temperature sensing (FBG temperature sensors), pressure sensing (FBG pressure sensors), acceleration sensing (FBG accelerometers), deformation sensing (FBG displacement sensors), etc.

FBG sensors have multiple advantages over traditionally used measurement equipment: FBG sensors are immune to electromagnetic interference, have a strong multiplexing ability, high reliability, and sensitivity. Fiber Bragg grating sensing technology is already used in a variety of applications, like geotechnical engineering, structural engineering, civil engineering, tunnel construction engineering.

The use of FBG sensors in engineering applications shows that fiber optic sensors can automatically acquire, and monitoring results are of great significance in roadway anchorage engineering safety and bolt support quality evaluation.

Optromix, Inc. is a U.S. manufacturer of innovative fiber optic products for the global market, based in Cambridge, MA. Our team always strives to provide the most technologically advanced fiber optic solutions for our clients. Our main goal is to deliver the best quality fiber optic products to our clients. We produce a wide range of fiber optic devices, including our cutting-edge customized fiber optic Bragg grating product line and fiber Bragg grating sensor systems.

If you are interested in Optromix FBG sensors, please contact us at info@optromix.com

 

Fiber Bragg gratings sensors for extreme environment sensing

Over the past couple of decades, fiber Bragg gratings have been used effectively as sensors for a wide variety of applications. A rapid increase in the popularity of FBG sensors is explained by the numerous advantages that they provide. FBG sensors are superior to other traditional means of environment measurement. FBG sensors are immune to electromagnetic interference and are resistant to harsh environments and corrosion. FBG sensors can be multiplexed; this ability was originally developed for optical network applications, however, it can be exploited in order to create sensor geometries that are quasi-distributed. This technology can be used for real-time measurements of temperature, strain, deformation, etc. Some popular and promising applications of fiber optic sensors include structural health monitoring of civil structures, for haptic sensing for robot appendages, and ‘smart skins’ for ships or aerospace vehicles.

Distributed FBG sensors are utilized in the oil and gas sector by oil field service companies for temperature and pressure monitoring of oil well downhole and reservoirs. Harsh environments of  20 kpsi and 185◦C are common there; the use of FBG sensors provides accurate measurement and collection of all the data parameters important for the field.

FBG sensors can also be utilized in environments where high temperatures are prevalent. Such environments are often found within power plants, gas or aerospace turbines, combustion systems, etc. Most FBG temperature sensors are thermally stable at least up to 1000 ◦C in standard telecom fibers.

Another area of application for FBG temperature sensors is gas turbine monitoring. The FBG sensor arrays facilitate measurements of hot gas working temperatures within a turbine; this data is critical for safe, reliable, efficient, and cost-effective operation. Accurate measurements of the blades and vanes inside the turbines will allow preventing overheating of the turbine blades due to inhomogeneous combustions.

Optromix, Inc. is a U.S. manufacturer of innovative fiber optic products for the global market, based in Cambridge, MA. Our team always strives to provide the most technologically advanced fiber optic solutions for our clients. Our main goal is to deliver the best quality fiber optic products to our clients. We produce a wide range of fiber optic devices, including our cutting-edge customized fiber optic Bragg grating product line and fiber Bragg grating sensor systems.

Fiber Bragg grating sensors for biomechanics and rehabilitation applications

Fiber Bragg grating sensors are becoming increasingly popular and attractive for biomechanics and rehabilitation applications due to their advantageous properties like small size, lightweight, biocompatibility, chemical inertness, multiplexing capability, and immunity to electromagnetic interference. FBG sensors have been utilized in a variety of different applications, such as aeronautics, automotive, civil engineering structure monitoring, and undersea oil exploration. The use of fiber optic sensors for biomechanics and rehabilitation applications is very recent. The full-scale implementation has not been done yet.

FBG strain sensors can be used to measure strain in bones, stresses in intervertebral discs, pressure distribution in Human Machine Interfaces (HMIs), forces induced by tendons and ligaments,  shrinkage stresses in bone cement during polymerization. FBG displacement sensors could be used to measure chest wall deformations, angles between body segments during gait. FBG sensors are especially useful in dental biomechanics.

Applications of fiber Bragg grating sensors in biomechanics and rehabilitation engineering:

  1. Monitoring of biomechanical behavior of the musculoskeletal system;

The measurement of strain on the bones is crucial for understanding bone diseases and in designing medical devices. The measurement of bone strain is conducted using FBG strain sensors, which helps to study the effects of fracture fixation plates. FBG strain sensors can also be used to understand to what extent the bone calcium loss affects the strain response of bone

  1. Strain measurement of bone cement;

Damage to bone cement caused by dynamic loading is one of the main causes of hip replacement failures. The studies of human bone models using FBG strain sensors could be useful to verify the action of the cement, both during the curing process and after consolidation.

  1. Pressure mapping and the measurement of contact forces and stresses of orthopedic joints;

The understanding of contact stress at orthopedic joints is necessary for prostheses research and biomechanics studies. Due to the flexibility and multiplexing capability, FBG sensors are suitable for irregular-shaped interface surfaces, like a knee joint.

  1. Measurement of pressure distribution at the intervertebral disc;

FBG pressure sensors have outperformed other means of measuring pressure distribution at the intervertebral disc due to the small size and biocompatibility.

  1. Dental biomechanics;

FBG sensors are already used in dental applications, for example, monitoring the force and temperature as a function of time in dental splints worn by patients suffering from sleep apnoea.

  1. Monitoring of chest wall movement during respiration.

The studies of biomechanics have benefited greatly from the implementation of FBG sensors to measure chest displacement during respiration. The FBG sensors are embedded into a chest deformable strap which is strained in accordance with the deformation of the chest.

If you are interested in Optromix FBG sensors, please contact us at info@optromix.com

The use of FBG sensors in intelligent textiles

Medical textiles are an exciting idea that has the potential to significantly improve people’s lives. The use of textiles for medical purposes has a long history, and they are still used in the healthcare industry today. Traditionally, the textile industry was confined to the production of fibers and fabrics; modern technology allows the applications of textiles to expand. Recently, important developments have been made in enhancing the capabilities of textiles to respond to environmental stimuli. These textiles are called smart textiles; they possess the properties of conventional textiles and also carry additional functional values.

Smart textiles correspond with a wide area of products, as well as studies, that enhance the usefulness and functionality of conventional fabrics by using woven or non-woven structures that connect with the environment or users. The structures have the capability to sense environmental conditions.

There are multiple kinds of smart textiles that are used nowadays, one of them being E-textiles, or electronic textiles. E-textiles include smart health monitoring devices and sensors within the clothing that sense and record the basic bodily functions like body temperature, respiration, the functioning of a heart, etc. The data collected by the sensors is then transmitted to healthcare centers or hospitals. Fiber optic technology is widely incorporated in smart textiles in the form of sensors. Fiber optic sensors are used due to multiple advantages that they present, like low zero drift, large bandwidth, flexibility, good accuracy, immunity to electromagnetic interference, etc. Over the years fiber optic sensors have also become cheap and easily accessible.

Different fiber Bragg grating sensors are used in a variety of smart fabrics. Some of the FBG sensors that are used in smart fabrics include:

  • Stretch-sensitive sensors;

FBG strain sensors are used for monitoring and sensing body parameters. The sensors are used for determining respiration, movement, blood pressure, heart rate.

  • Temperature sensing;

FBG temperature sensors provide temperature monitoring on skin surfaces

as well as the near-body environment. These sensors are often incorporated in combat clothing.

  • Sensing harness;

FBG strain sensors and FBG displacement sensors are placed to measure abdominal and thoracic movements caused due to breathing activity without corrupting signals or overlapping signals.

Optromix, Inc. is a U.S. manufacturer of innovative fiber optic products for the global market, based in Cambridge, MA. Our team always strives to provide the most technologically advanced fiber optic solutions for our clients. Optromix is a fast-growing vendor of fiber Bragg grating (FBG) products line: fiber Bragg grating sensors, FBG interrogators and multiplexers, Distributed Temperature Sensing (DTS) systems. We create and supply a broad variety of top-notch fiber optic solutions for the monitoring of various facilities all over the world.

If you are interested in Optromix FBG sensors, please contact us at info@optromix.com