EMBEDDED WIRELESS MONITORING SENSORS
    1.
    发明公开
    EMBEDDED WIRELESS MONITORING SENSORS 审中-公开
    嵌入式无线监控传感器

    公开(公告)号:EP3236258A3

    公开(公告)日:2018-01-17

    申请号:EP17163835.6

    申请日:2017-03-30

    IPC分类号: G01N33/38 B28C7/02 C04B40/00

    摘要: Concrete can be one of the most durable building materials where consumption is projected to reach approximately 40 billion tons in 2017 alone. Despite this the testing of concrete at all stages of its life cycle is still in its infancy although testing for corrosion is well established. Further many of the tests today are time consuming, expensive, and provide results only after it has been poured and set. Accordingly, by exploiting self-contained wireless sensor devices, which are deployed with the wet concrete, the in-situ curing and maturity measurement data can be established and employed together with batch specific concrete data to provide rapid initial tests and evolving performance data regarding the concrete cure, performance, corrosion of concrete at different points in its life cycle, such as during shipment of the concrete towards a construction site. Such sensors remove subjectivity, allow for rapid assessment, are integrable to the construction process, and provided full life cycle assessment.

    摘要翻译: 仅在2017年,混凝土就可能是最耐用的建筑材料之一,预计其消费量将达到约400亿吨。 尽管如此,混凝土在其生命周期的各个阶段的测试仍处于起步阶段,尽管对腐蚀的测试已经很成熟。 此外,今天的许多测试都是耗时的,昂贵的,并且只有在浇注和设置后才提供结果。 因此,通过利用与湿混凝土配合使用的自含式无线传感器设备,可以建立原位固化和成熟度测量数据,并与批次特定的具体数据一起使用,以提供快速的初始测试和演变关于 混凝土的固化,性能,混凝土在其生命周期不同时间点的腐蚀,例如在向施工现场运输混凝土时。 这种传感器消除了主观性,允许快速评估,可与施工过程集成,并提供全生命周期评估。

    EMBEDDED WIRELESS MONITORING SENSORS
    3.
    发明公开

    公开(公告)号:EP3236258A2

    公开(公告)日:2017-10-25

    申请号:EP17163835.6

    申请日:2017-03-30

    IPC分类号: G01N33/38 B28C7/02 C04B40/00

    摘要: Concrete can be one of the most durable building materials where consumption is projected to reach approximately 40 billion tons in 2017 alone. Despite this the testing of concrete at all stages of its life cycle is still in its infancy although testing for corrosion is well established. Further many of the tests today are time consuming, expensive, and provide results only after it has been poured and set. Accordingly, by exploiting self-contained wireless sensor devices, which are deployed with the wet concrete, the in-situ curing and maturity measurement data can be established and employed together with batch specific concrete data to provide rapid initial tests and evolving performance data regarding the concrete cure, performance, corrosion of concrete at different points in its life cycle, such as during shipment of the concrete towards a construction site. Such sensors remove subjectivity, allow for rapid assessment, are integrable to the construction process, and provided full life cycle assessment.