3.相控陣成像的基本原理 Basics of Phased Array Imaging

只看該作者 · 2015-1-12 21:10:31

常規超聲儀器和相控陣超聲儀器都使用高頻聲波，核查被測樣件的內部結構或測量樣件的厚度。它們都以物理學中支配聲波傳播的相同的基本法則為基礎。這兩種超聲技術都使用相似的概念表示超聲數據。

Both conventional and phased array ultrasonic instruments utilize high-frequency sound waves to check the internal structure of a test piece or measure its thickness. They both rely on the same basic laws of physics that govern sound wave propagation. Similar concepts are employed in both ultrasonic technologies to present ultrasonic data.

而相控陣儀器由于要為帶有16個晶片到256個晶片的探頭提供脈沖激勵的方式（聚焦法則），一般來說都具有多通道性能。與常規探傷儀不同的是，相控陣系統可以使來自一個探頭的聲波以多種不同的折射角度進行掃查，或沿線性聲程進行掃查，還可以使聲波在一系列不同的深度位置上動態聚焦，從而增強了檢測設置的靈活性和性能。

Phased array instruments, on the other hand, are naturally multichanneled as they need to provide excitation patters(focal laws) to probes with 16 to as many as 256 elements. Unlike conventional flaw detectors, phased array systems can sweep a sound beam from one probe through a range of refracted angles, along a linear path, or dynamically focus at a number of different depth, thus increasing both flexibility and capability in inspection setups.

相控陣成像的特性可以使用戶觀察到相對的點對點的變化以及多角度的缺陷響應，從而有助于缺陷的辨別與定量。這種技術本身從表面上看似乎極具復雜性，但它無需使用常規UT檢測方法經常需要使用的復雜的支架與多個探頭，從而在實際上不僅簡化了擴大檢測覆蓋區域的過程，而且還提高了檢測的性能。

Phased array imaging provides the user with the ability to see relative point-to-point changes and multiangular defect responses, which can assist in flaw discrimination and sizing. While this can seem inherently complex,it can actually simplify expanding inspection coverage with increased detection by eliminating the complex fixtures and multiple transducer that are often required with conventional UT inspection methods.