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光纤测量解决方案

HBK 光学测量解决方案利用光纤布拉格光栅(FBG)技术,可在恶劣的高压环境下提供可靠且精确的测量结果,非常适合结构健康监测和研发应用。
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Nanjing No.3 Yangtze River Bridge with blurred motion traffic

光纤传感器的优势

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具备多路复用功能,无需重新校准,并确保随时间推移信号零漂移

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即使在长距离传输下,也能保证信号传输不受影响。非常适合结构健康监测

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通过小型轻便的FBG传感器将其集成到您的现有基础设施中,这些传感器可嵌入复合材料中,并能承受高应变和疲劳

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完全被动的传感器,非常适合能源或铁路等易燃易爆或高压环境

指南 :探索光学测量的强大功能

本指南介绍了FBG光学测量解决方案如何在严苛的环境中实现精确、可靠的监测。从结构健康到工业应用,探索确保安全与性能的技术。

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光纤传感器、解调仪及软件

客户成功案例

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INTERNAL USE - Case Study teixeira_duarte imagem_ponte

巴西标志性建筑 Hercílio Luz大桥的修复工程需要采用定制化的结构监测方案,以确保这座拥有近百年历史的大桥既安全又得以完好保存。面对这项复杂的修复任务,Teixeira Duarte 与 HBK 合作,部署了先进的布拉格光栅(FBG)光学传感技术,并配合一套电气传感器,以实时监测应变、倾斜度、温度、风力和海况。 

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INTERNAL USE - Case Study iter ITER_345x345px

ITER 是一项国际核聚变实验,旨在验证一种新型、清洁且可持续的能源。HBK受托提供先进的光学应变片测量系统,该系统专为在极端恶劣的环境中运行而设计,包括强辐射、真空环境、强电磁场以及低温环境。 

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Train passing through a rural landscape with many tracks

作为德国铁路(Deutsche Bahn)的独立测试机构,DB Systemtechnik 正在探索 HBK 的光学应变技术如何改变铁路车辆型式试验中车轮与轨道之间力的测量方式。传统的电阻应变片安装需要大量布线和钻孔,且每个车轮组需耗费数周工时,从而增加了成本、复杂性及机械风险。通过使用光学应变片,该公司旨在大幅缩短安装时间、最大限度减少对结构的干预,并提高安全性。

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HBK engineers installing fiber optic strain gauge on the shaft of the IMOCA Advens yacht before the Vendée Globe race

在环球帆船赛中,Advens for Cybersecurity IMOCA船队与HBK合作,为其船只的高性能翼板开发并安装了先进的光学应变技术。由于这些新一代水翼能将船体托起以减少阻力并提高速度,因此了解其结构行为至关重要 — 尤其是在单人、不间断环球帆船赛的极端条件下。HBK 工程专家与船舶设计师通力合作,开发出一套定制化的布拉格光栅传感解决方案,该方案能够在强烈的机械和环境应力下提供精确、可靠的测量数据。

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solutions, applications, asset process monitoring, structural health monitoring, monitoring solutions for oil and gas

在西班牙的 Endesa 水电站,HBK 在极端环境和时间紧迫的条件下完成了高精度光学测量。该团队受命在一条钢制输水管道上安装一套基于FBG的热补偿应变监测系统 — 该管道分布于偏远路段,且距离控制室数百米之遥 — 仅用三天时间便完成了全部部署工作。 

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INTERNAL USE - Case Study iat-earthsystems RaBoe_Wikipedia_Santa_Maria_del_Suffragio_2010

当地震将拉奎拉市历史悠久的 Santa Maria del Suffragio 教堂夷为平地后,工程师们面临着一项艰巨的挑战:在重建这座地标性建筑的同时,确保其结构的长期完整性。为了支持这座拥有数百年历史的建筑的抗震加固工程,HBK采用了先进的光纤布拉格光栅(FBG)传感技术,对关键预应力拉杆的应变和温度进行监测 — 精度至关重要的环节,该技术提供了持续、高分辨率的监测数据。 

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