Applications in the nautical and naval sector

In the continuous production sector, safety and traceability are essential to guarantee product quality and consumer trust. SIMEX, an advanced digital platform, offers complete solutions to optimize continuous production and logistics management. Thanks to total process control and detailed traceability of raw materials and finished products, SIMEX stands out as an indispensable tool for companies in the sector. Furthermore, SIMEX in the production sector allows you to monitor stocks, manage production flows and comply with current regulations. This translates into greater operational efficiency, risk reduction and …

In the industrial sector, efficiency in the movement of goods is a critical factor to ensure competitiveness and operational continuity. SIMEX presents itself as an integrated digital solution, capable of optimizing the flow of goods along the entire logistics chain. From inventory management to real-time traceability, SIMEX represents a concrete support for companies oriented towards operational efficiency …

In the steel industry, where efficiency and continuity of the production process are critical elements, SIMEX offers digital solutions designed to improve control and traceability. The platform allows to optimize resources, times and quality in the most complex industrial contexts. This article analyzes the main applications of SIMEX in continuous processes and steel production …

Humidity control in boats is a key aspect to ensure their structural integrity and prevent osmosis and material degradation problems. Humidity measurement of hulls and boats allows you to identify the presence of water trapped in composite materials, wood and other parts of the boat, avoiding costly repairs and maintaining high performance of the boat. Why is it important to measure humidity in hulls Excessive humidity can compromise the strength and durability of boat structures. The main risks associated with high humidity include: Osmosis in fiberglass hulls: The phenomenon of osmosis leads to the formation of …

The measurement of oscillations and vibrations of large structures is of fundamental importance for safety and long-term monitoring. Oscillations and vibrations in large structures are unavoidable phenomena that can affect the stability and safety of buildings and infrastructures. The adoption of laser distance meters for the measurement of these parameters offers a precise and reliable approach. These instruments, thanks to their ability to detect millimetric displacements, allow real-time monitoring of structural conditions, providing critical data for the evaluation of the behavior of structures under stress. Vibration analysis also helps to identify …

Monitoring deformation and displacement of large structures with LASER distance meters is of fundamental importance for the structural control and monitoring sector. The use of LASER distance meters in structural monitoring represents an advanced approach to ensure safety and prevent criticalities. These instruments allow to detect with micrometric precision dimensional variations, ideal for large structures such as bridges, dams or tall buildings. The ability to operate in difficult environmental conditions and to collect data in real time makes them indispensable for industrial and engineering applications. They help reduce maintenance costs through targeted and scheduled interventions …

Position and displacement measurement of overhead cranes and cranes is essential in the logistics sector. The use of LASER distance meters for monitoring overhead cranes and cranes represents a technologically advanced solution to meet the needs of precision and reliability required in industrial sectors. These instruments allow movement and position to be monitored with a high degree of accuracy, reducing errors and improving the safety of operations. Thanks to their ability to operate even in difficult conditions, LASER distance meters have established themselves as indispensable tools to ensure continuous and reliable control in complex environments. Their …

Position and displacement measurement of means of transport with LASER distance meters ensures maximum reliability in the logistics and transport sector. LASER distance meters offer an accurate and reliable solution to monitor the position and displacement of means of transport, improving operational efficiency and safety in industrial and logistics applications. Position and displacement measurement of means of transport is a critical component in many sectors, from manufacturing to advanced logistics. LASER distance meters represent a key technology to ensure accuracy and reliability in these applications. Thanks to their ability to operate without contact, they allow …

Coil diameter and position measurement with LASER distance meters is used in many process control applications in the metallurgical and steel industry. Dimensional control of coils requires reliable and precise measurement instruments. Laser distance meters, thanks to their ability to perform non-contact measurements, offer an innovative and versatile solution. Compared to traditional methods, laser distance meters eliminate the risk of damaging the material and allow real-time measurement data to be obtained. Advantages and insights Accuracy and resolution: Laser distance meters offer extremely high resolution, allowing even small dimensional variations to be detected …

Measuring cutting length and thickness is crucial in many industrial applications, where data accuracy and reliability are essential to ensure high standards. Laser distance meters offer advanced technology capable of rapid, non-contact measurements, reducing margins of error. Thanks to their versatility, they can be used on a wide range of materials and in complex environments, maintaining accuracy even in difficult operating conditions. This technological approach helps improve production efficiency, reducing waste and machine downtime. Benefits and insights High accuracy and reliabilityLaser distance meters ensure a …

The digital archimeter allows the measurement of curvature radii and diameters with the principle of the circumference that passes through three points. The digital archimeter is a precision instrument that allows the measurement of diameters and curvature radii in all those cases in which it is not possible to use a caliper or a micrometer. To measure a radius or a diameter (1) it is sufficient to place the digital archimeter (2) on the surface of the object to be measured. The value of the chord (3) referred to the distance between the two support points is stored in the electronic controller of the digital archimeter. The value of the chord depends on the type …

High-speed cameras are essential tools for analyzing high-speed physical phenomena, offering the ability to record events that occur in fractions of a second, allowing detailed and accurate observation of physical processes. Using slow-motion video footage, these cameras allow us to study phenomena that would be invisible at normal speeds, such as explosions, impacts or shock waves, providing crucial information for various scientific and industrial sectors. How High-speed Cameras Work High-speed cameras can record thousands or even millions of frames per second, capturing with extreme precision rapid movements that occur too quickly.

High-speed cameras are essential tools for analyzing abnormal phenomena that occur during welding processes, such as slag formation or interruptions in the welding process. These tools allow you to capture events that happen in fractions of a second, but which have a significant impact on the quality and strength of the welded joint. Slow-motion footage provides a detailed view of rapid phenomena, such as the formation of defects or changes in the behavior of the welded material, which would be invisible at normal speeds. How High-speed Cameras Work High-speed cameras …

High-speed cameras are essential tools for analyzing the weld pool and ensuring the quality of welding in various industrial sectors. Welding is a very fast process, and many dynamics, such as metal melting and joint formation, are difficult to observe at normal speeds. High-speed cameras, with their ability to record thousands or millions of frames per second, allow the process to be slowed down and obtain a detailed and precise view of the phenomena that occur during welding. Weld Pool Analysis The weld pool …

High-speed cameras are essential tools for analyzing physical phenomena related to liquid materials, especially when studying the movement of liquids at high speed and pressure. These cameras allow capturing events that occur in fractions of a second, making visible phenomena that would otherwise be too rapid to be perceived with traditional methods. Slow-motion recording allows for detailed studies of the behavior of fluids under high pressure or during extremely high flow velocities, crucial aspects in many industrial and scientific sectors. Analysis of Cavitation Phenomena and Fluid Behavior …

High-speed cameras are key tools in analyzing the cutting and chip removal process with cutting tools. This process, which occurs at high speeds, is often difficult to observe in real time, and high-speed cameras allow us to see details that would otherwise remain invisible. By recording thousands or millions of frames per second, these cameras can slow down the cutting process and provide a precise view of the dynamics of the phenomena that occur during chip removal. Cutting Process Analysis The cutting process with cutting tools involves a …

High-speed cameras are essential tools for analyzing the behavior of fluids in cavitation, a phenomenon that occurs when the pressure of a fluid drops below its vapor point, causing vapor bubbles to form and then implode. This dynamic process, which occurs at high speeds and in very short times, is difficult to observe in real time. High-speed cameras, capable of recording thousands or millions of frames per second, allow us to study and understand in detail the behavior of fluids during cavitation. Understanding Cavitation The …

High-speed cameras are essential for detailed analysis of the physical phenomena that occur in materials under stress. When a material is brought to its maximum breaking load, cracks and breaks form, marking the point of failure of the material. These phenomena, often too rapid and complex to observe with the naked eye, can be studied accurately through slow-motion video offered by high-speed cameras, which can acquire thousands or millions of frames per second. Analysis of the Behavior of Materials Under Stress When a material is subjected to external loads, these are distributed …

High-speed cameras are essential tools for analyzing phenomena that occur too quickly to be observed with the naked eye, such as objects breaking as they fall due to gravity. When an object is dropped, it is accelerated by gravity, and depending on the material, shape, and impact conditions, it can break or deform in complex ways. Studying these phenomena in detail is essential for improving materials design and preventing failures in industrial, engineering, and scientific applications. Falling Objects and Breakage When an object is dropped, …

High-speed cameras are essential tools for analyzing phenomena that occur at extremely high speeds. With the ability to record thousands or millions of frames per second, these cameras allow us to observe and study events that would otherwise be invisible to the naked eye or with traditional cameras. Slow-motion footage provides a detailed view of dynamic processes, allowing engineers, scientists and researchers to study complex physical phenomena with an unthinkable level of precision. Applications in Science and Industry In science and industry, high-performance cameras are used to analyze rapid dynamic phenomena …

High-speed cameras are fundamental tools for the analysis of physical phenomena related to liquid materials, thanks to their ability to capture events that occur extremely quickly, often beyond the capacity of human perception. In particular, when combined with high-speed filming techniques, these cameras allow us to observe and study complex dynamics that involve the behavior of fluids, their interaction with other materials and the transitions from one physical state to another, such as cavitation, viscosity or evaporation. The use of slow-motion footage offers a detailed and precise view of these …

High-speed cameras are essential tools for analyzing fast-moving fluid phenomena, and when combined with advanced techniques such as the Schlieren method, they provide detailed insights into the behavior of transparent fluids under a variety of conditions. The Schlieren method uses the refraction of light through density variations in the fluid, allowing us to visualize flow, turbulence, and other features that would otherwise be invisible to the naked eye. What is the Schlieren method? The Schlieren method is an optical technique used to detect density variations in a transparent fluid, such as air or water, that occur when the fluid is subjected to fluctuations …

The use of high-speed cameras for slow-motion video recording is essential for the analysis of combustion phenomena. These cameras, capable of recording at extremely high speeds, allow us to observe and study events that occur too quickly to be visible to the naked eye, such as flame formation and propagation in various combustion processes. Combustion and Flame Studies In the field of combustion, flame dynamics and flame front propagation are crucial aspects to understand and optimize combustion processes, both in industrial applications and in scientific studies …

The use of high-speed cameras for slow-motion footage is essential in crash test analysis, especially for studying the interaction between dummies and seat belts. These cameras allow for extremely detailed images of the phenomena that occur during an impact, providing an in-depth understanding of automotive safety dynamics. Crash Test Phenomena Analysis Crash tests are essential for evaluating the effectiveness of safety devices, such as seat belts, airbags and the vehicle structure, in protecting passengers in the event of an accident. During a crash test, the dummy, which simulates the …

The use of high-speed cameras for slow-motion footage has become crucial in crash test analysis applications involving cars and vans. These tests are essential for assessing vehicle safety and understanding how different components, such as the vehicle structure, airbags and seat belts, interact during an impact. With cameras capable of recording thousands of frames per second, every stage of the accident can be examined in detail, providing vital information for improving vehicle design and reducing injuries to passengers and drivers. Crash Test Phenomena Analysis In crashes …

The analysis of collision phenomena of means of transport with guardrails is a crucial component in the development of road safety. Thanks to the use of advanced technologies, such as high-speed cameras, it is possible to observe and study the dynamics of impacts with a level of detail never achieved before. These studies are essential to improve protection systems and reduce risks for vehicle occupants. Importance of Collision Analysis Understanding Collision Phenomena Collisions between vehicles and guardrails are complex events that involve structural deformations, interactions with the protection system and energy transfers. The detailed analysis of …

Advanced technologies for measuring the flow field of a fluid are revolutionizing many scientific and industrial sectors. In particular, high-speed cameras combined with the Particle Image Velocimetry (PIV) technique allow to obtain precise and detailed analyses of the behavior of fluids. This article explores the main aspects of this innovative technological combination. Introduction to the Measurement of the Flow Field of a Fluid Particle Image Velocimetry (PIV) is a non-invasive technique used to analyze the motion of a fluid by tracking microscopic particles. Thanks to the use of high-speed cameras, it is possible to …

LASER technology establishes itself as a fundamental ally in professional measurement processes, thanks to its precision and ease of use. Today, engineers and specialized technicians can enjoy the potential offered by laser distance meters, cutting-edge tools for accurately detecting distances. RODER has produced a specific application kit that can elevate the experience of using these devices, optimizing their application in professional contexts. LASER distance meters are devices used to measure a distance precisely, through the use of a laser beam. Excellence in terms of precision and the ability to take measurements in large and hostile spaces…

Lighting plays a crucial role in machine vision systems, being essential to ensure accuracy and efficiency in production lines. In this article, we will explore the different types of lighting systems, with a particular focus on LED, direct and backlight systems, to provide a comprehensive understanding of their applications and benefits …

In today’s industrial environment, precision in material quality control is critical. This is especially true for plastic sheet and panel materials, where thickness consistency and flatness can impact product performance and conformity. Profile Detection of Sheet Plastics Accurate profile detection of plastics is the first step towards effective quality control. Laser and ultrasonic scanning systems are commonly used to obtain a detailed map of the sheet surface. These tools provide a three-dimensional view that allows identification of …