The fabrication process of recently developed advanced technology hybrid structures has placed a demand on methods to monitor the state of cure of resins and epoxies commonly used in composite materials. Such monitoring allows in-situ process control insuring homogeneous structural integrity. Furthermore, fabrication costs can be reduced by avoiding the need to over cure“ the composite specimens. Existing techniques such as differential scanning calorimetry (DSC), optical spectroscopy, and dielectric spectroscopy lack the in-situ capabilities required to monitor localized cure state. Other methods, including ultrasonic wave monitoring, are absolute in nature, require frequent calibration, and involve complex measurement systems for monitoring localized cure state [1–3]. We propose to expand upon a principle recently suggested by M. A. Afromowitz, in which optical waveguides made out of the hybrid resin material itself are embedded within the specimen to be monitored [4]. Such implementation exploits some of the advantages of fiber optic sensing techniques, while avoiding the incorporation of “foreign materials” which might cause inhomogeneities in the composite structure.
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机译:最近开发的先进技术的混合结构的制造过程对监控复合材料中常用的树脂和环氧树脂的固化状态的方法提出了要求。这种监视允许原位过程控制以确保均匀的结构完整性。此外,通过避免过度固化复合材料样品的需要,可以降低制造成本。现有技术,例如差示扫描量热法(DSC),光学光谱学和介电光谱学缺乏监测局部固化状态所需的原位能力。其他方法,包括超声波监测,本质上是绝对的,需要频繁的校准,并且涉及用于监测局部固化状态的复杂测量系统[1-3]。我们建议扩展M. A. Afromowitz最近提出的原理,在该原理中,由混合树脂材料本身制成的光波导嵌入要监测的样品中[4]。这样的实现利用了光纤传感技术的一些优势,同时避免了掺入可能导致复合结构不均匀的“外来材料”的掺入。
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