Some technical aspects of two Spanish cooperation projects, funded by DPI and Innpacto Programs of the R&D National Plan, are discussed. The objective is to analyze the common belief about than the ultrasonic testing in MHz range is not a tool utilizable to detect internal flaws in highly attenuating pieces made of coarse-grained steel. In fact high-strength steels, used in some safe industrial infrastructures of energy & transport sectors, are difficult to be inspected using the conventional “state of the art” in ultrasonic technology, due to their internal microstructures are very attenuating and coarse-grained.ududIt is studied if this inspection difficulty could be overcome by finding intense interrogating pulses and advanced signal processing of the acquired echoes. A possible solution would depend on drastically improving signal-to-noise-ratios, by applying new advances on: ultrasonic transduction, HV electronics for intense pulsed driving of the testing probes, and an “ad-hoc” digital processing or focusing of the received noisy signals, in function of each material to be inspected.ududTo attain this challenging aim on robust steel pieces would open the possibility of obtaining improvements in inspecting critical industrial components made of highly attenuating & dispersive materials, as new composites in aeronautic and motorway bridges, or new metallic alloys in nuclear area, where additional testing limitations often appear.
展开▼
机译:讨论了由DPI和国家研发计划的Innpacto计划资助的两个西班牙合作项目的一些技术方面。目的是分析普遍的观念,即在MHz范围内进行超声测试不是一种可用于检测由粗晶粒钢制成的高衰减件中的内部缺陷的工具。实际上,在能源和运输行业的一些安全工业基础设施中使用的高强度钢,由于其内部微观结构非常弱化且具有粗糙的晶粒,因此难以使用超声技术中的常规“最先进技术”进行检查。研究是否可以通过发现强烈的询问脉冲和对获取的回波进行先进的信号处理来克服这种检查困难。一种可能的解决方案将取决于通过以下方面的新进展来大幅度改善信噪比:超声波转导,用于测试探针的强脉冲驱动的HV电子设备以及对接收信号进行“临时”数字处理或聚焦噪声信号,取决于要检查的每种材料的功能。 ud ud要在坚固的钢件上实现这一具有挑战性的目标,将有可能在检查由高衰减和弥散材料制成的关键工业组件方面取得改进,这是航空和航天领域的新型复合材料高速公路桥或核区域中的新金属合金,经常会出现其他测试限制。
展开▼
