1 00:00:05,971 --> 00:00:09,070 Introducing the Dual Linear Array Probe 2 00:00:09,071 --> 00:00:12,363 Hand held manual and encoded corrosion screening 3 00:00:12,496 --> 00:00:15,170 Olympus introduces a new Dual Linear Array probe 4 00:00:15,303 --> 00:00:17,336 designed for hand held manual 5 00:00:17,338 --> 00:00:19,110 and encoded corrosion screening 6 00:00:19,111 --> 00:00:22,068 of piping, vessels, and steel structures. 7 00:00:22,070 --> 00:00:23,875 The Dual Linear Array probe features 8 00:00:23,876 --> 00:00:25,700 a lightweight ergonomic housing 9 00:00:25,701 --> 00:00:28,143 designed for hand scanning. 10 00:00:28,145 --> 00:00:31,921 A quick release, water resistant OmniScan connector. 11 00:00:31,923 --> 00:00:35,476 Up to 32mm of inspection coverage width. 12 00:00:35,478 --> 00:00:38,468 Carbide wear plates for wedge wear protection. 13 00:00:38,470 --> 00:00:42,083 A quick adjust pipe diameter stabilization system. 14 00:00:42,085 --> 00:00:44,611 and encoder ready hardware. 15 00:00:44,613 --> 00:00:47,265 Pre-configured setup files are selected based on 16 00:00:47,266 --> 00:00:54,936 thickness for optimized beam size and focus. 17 00:00:54,938 --> 00:00:58,098 UT parameters, gate position, and the C-scan 18 00:00:58,100 --> 00:01:02,765 are then optimized for the inspection. 19 00:01:02,766 --> 00:01:04,708 OmniScan wizards are available 20 00:01:04,710 --> 00:01:08,708 for wedge delay and velocity calibration 21 00:01:08,710 --> 00:01:12,203 and thickness reading tolerance is validated on a step wedge 22 00:01:12,205 --> 00:01:17,361 or reference block typical of UT procedures. 23 00:01:17,363 --> 00:01:20,108 Similar to a conventional UT probe, 24 00:01:20,110 --> 00:01:23,151 the Dual Linear Array probe uses a delay line 25 00:01:23,153 --> 00:01:25,170 and combines a pitch catch technique 26 00:01:25,171 --> 00:01:26,856 and mechanical roof angle 27 00:01:26,858 --> 00:01:30,675 for improved near surface resolution and flaw detection. 28 00:01:30,676 --> 00:01:33,428 An innovative probe stabilization system 29 00:01:33,430 --> 00:01:35,325 adjusts to the pipe diameter 30 00:01:35,326 --> 00:01:41,040 for stable C-scan acquisition on piping surfaces. 31 00:01:41,041 --> 00:01:43,225 The Dual Linear Array probe provides 32 00:01:43,226 --> 00:01:46,328 improved inspection results and increased productivity 33 00:01:46,330 --> 00:01:49,570 for corrosion screening and characterization of flaws 34 00:01:49,571 --> 00:01:52,005 such as creep, HIC, and pitting 35 00:01:52,006 --> 00:01:56,865 by use of phased array side, end, and top views. 36 00:01:56,866 --> 00:02:01,018 The probe is compatible with the OmniScan SX and MX2 37 00:02:01,020 --> 00:02:04,456 and adds a new entry level corrosion inspection capability 38 00:02:04,458 --> 00:02:09,343 to existing Olympus HydroFORM and RexoFORM solutions 39 00:02:09,345 --> 00:02:11,766 The Dual Linear Array probe is encoder ready 40 00:02:11,768 --> 00:02:13,706 with all the necessary hardware 41 00:02:13,708 --> 00:02:19,146 to install the Olympus mini-wheel encoder in seconds. 42 00:02:19,148 --> 00:02:21,758 Data files are saved to the SD memory card 43 00:02:21,760 --> 00:02:24,601 and all A-scans are recorded. 44 00:02:24,603 --> 00:02:27,128 Analysis is performed either on the OmniScan 45 00:02:27,130 --> 00:02:29,325 or offline in OmniPC 46 00:02:29,326 --> 00:02:33,596 using the same software interface. 47 00:02:33,598 --> 00:02:35,661 Post inspection analysis includes 48 00:02:35,663 --> 00:02:38,565 the ability to manipulate gate position and mode 49 00:02:38,566 --> 00:02:41,086 to update the C-scan. 50 00:02:41,088 --> 00:02:43,126 Corrosion and defects are zoomed, 51 00:02:43,128 --> 00:02:45,898 measured, and recorded in an indication table, 52 00:02:45,900 --> 00:02:50,151 and printed or saved using the OmniScan report generator.