Capteur de contrainte à réseau de Bragg en fibre - Jauge de contrainte FBG - Concept Classification Principe Compensation de température Application Prix

This article presents a special introduction to the OFSCN® Réseau de Bragg à fibre (FBG) Stress Sensor, a product manufactured by DCYS. It mainly includes the following aspects:

1. Basic Concepts and Product Classification of OFSCN® Capteur de contrainte FBG

The OFSCN® Capteur de contrainte FBG, also known as FBG Load Cell or Pressure Sensor, falls under the category of both FBG Sensors and Optical Fiber Sensors. In terms of functionality, it belongs to the category of Load Sensors.

2. Applications and Temperature Compensation of OFSCN® Capteur de contrainte FBG

The OFSCN® Capteur de température FBG can be used for single-point or multi-point quasi-distributed stress monitoring and measurement (including tension and compression) in various fields such as industrial equipment, bolts, steel bars, components, cranes, concrete, railways, military equipment, aerospace, and aviation. It is recommended to use OFSCN® FBG Temperature Sensors for temperature compensation during usage.

3. Models and Parameters of OFSCN® Capteur de contrainte FBG

DCYS produces a diverse range of FBG Stress Sensors as part of the OFSCN® capillary seamless steel tube Series. These sensors utilize the company's proprietary 'Stainless Steel Seamless Tube Encapsulation Technology' to package FBGs. The product structure is simple, et it can be designed as either a single-ended structure, encapsulating a single-point FBG for stress measurement by insertion into the tested object, or a double-ended structure for immersion or surface adhesion stress measurement. Additionally, they can achieve multi-point quasi-distributed stress measurement (tension et compression) in series.

DCYS's specially designed OFSCN® Capteur de contrainte FBG, due to its unique encapsulation material and excellent mechanical properties, can be conveniently deployed on various surfaces, underwater, in corrosive environments, and even in flame environments, significantly expanding the scope of application for FBG Sensors.

Titre
Capteur de contrainte à réseau de Bragg en fibre - Jauge de contrainte FBG - Détection de contrainte des boulons et tiges d'ancrage
Capteur à réseau de Bragg en fibre à tube capillaire en acier sans soudure
Introduction to OFSCN® Capillary Seamless Steel Tube Fiber Bragg Grating Sensors (FBG Sensors)
Principe et schéma de compensation de température pour les capteurs de contrainte à réseau de Bragg en fibre
Fixation d'installation - Fixation d'ingénierie de capteur FBG - Installation de construction de capteur de pression de déplacement de contrainte de déformation FBG - Exemple
Capteur de déformation à réseau de Bragg en fibre 3000με - Jauge de déformation FBG - Encapsulation en matériau polymère - Capteur de déformation protégé par métal - Plage de mesure 3000με/4000με
Capteur de force 3D à réseau de Bragg en fibre - Capteur de pression de surface solide - Capteur de force de type stylo - Capteur de force d'insertion d'aiguille médicale