{"rewrite":{"id":"r_05fad89cf4d6c7e23ee7d01e","clusterId":"c_a3629db1468be9a0531b9ab3","slug":"shining-3d-launches-optimscan-q12-hd-scanner-with-0-004-mm-accuracy","model":"deepseek-v4-flash","headline":"Shining 3D Launches OptimScan Q12 HD Scanner With 0.004 Mm Accuracy","summary":"SHINING 3D announced the OptimScan Q12 HD, a high-precision 3D scanner for industrial metrology. It achieves measurement accuracy up to 0.004 mm and a minimum point spacing of 0.02 mm, using four high-resolution cameras. The scanner targets applications in civil aviation, 3C electronics, precision injection molding, medical devices, and cultural heritage digitization.","whyItMatters":"The OptimScan Q12 HD pushes fringe-projection 3D scanning past conventional accuracy limits, opening new use cases in aerospace inspection and automated batch quality control.","webCardHtml":"\u003cp\u003eThe OptimScan Q12 HD uses four high-resolution cameras to capture complex surface shapes and fine features. SHINING 3D says the system surpasses the conventional limits of fringe projection optical 3D scanning. In civil aviation, it can inspect engine blades and turbine blades for dimensional accuracy, wear, and reverse engineering. For 3C electronics and precision injection molding, it handles micro shapes, glossy surfaces, and thin-wall structures that challenge conventional measurement methods. The scanner can integrate with robotic automation for batch inspection in mass production. Medical device and cultural heritage applications benefit from non-contact digitization of delicate carvings and freeform surfaces.\u003c/p\u003e","blueskyPost":"Shining 3D's OptimScan Q12 HD pushes industrial 3D scanning to 0.004 mm accuracy, a threshold that makes it competitive with contact measurement methods for precision injection molding and medical device QA.","twitterPost":"Shining 3D's OptimScan Q12 HD hits 0.004 mm accuracy, putting it on par with contact measurement for precision manufacturing.","threadsPost":"Shining 3D's OptimScan Q12 HD reaches 0.004 mm accuracy, a level that lets it replace contact probes in some precision manufacturing steps. The four-camera array is the key to that point density.","newsletterBlurb":"SHINING 3D announced the OptimScan Q12 HD 3D scanner for industrial metrology. It achieves 0.004 mm accuracy and 0.02 mm point spacing with four high-resolution cameras. The scanner targets applications in civil aviation, 3C electronics, precision injection molding, medical devices, and cultural heritage digitization, and can integrate with robotic automation for batch inspection.","attributionJson":"[{\"source\":\"ASCII.jp\",\"url\":\"https://ascii.jp/elem/000/004/413/4413683/?rss\",\"title\":\"SHINING 3D Announces OptimScan Q12 HD 3D Scanner: Delivering Micron-Level Accuracy for 3D Inspection\"}]","lintFlagsJson":null,"lintHits":0,"costUsd":0,"inputTokens":4096,"outputTokens":574,"status":"published","repairAttempts":0,"nextRepairAt":null,"factsAttemptedAt":1782558747,"createdAt":"2026-06-27T11:07:50.000Z","publishedAt":"2026-06-27T11:10:24.000Z","updatedAt":"2026-06-27T11:10:24.000Z"},"cluster":{"id":"c_a3629db1468be9a0531b9ab3","canonicalTitle":"SHINING 3D、「OptimScan Q12 HD」3Dスキャナーを発表：3D検査にミクロンレベルの精度を提供","representativeArticleId":"a_ac042f116b43631a42c9e124","sourceCount":1,"writtenSourceCount":1,"writeAttempts":0,"isSolo":true,"entitiesJson":"{\"anime_titles\":[],\"manga_titles\":[],\"work_titles\":[],\"studios\":[],\"people\":[],\"type\":\"announcement\",\"domain\":\"other\",\"is_roundup\":false}","contentType":"news","status":"published","firstSeenAt":"2026-06-25T08:16:56.000Z","lastSeenAt":"2026-06-25T08:16:56.000Z","updatedAt":"2026-06-27T11:10:24.000Z"},"attribution":[{"source":"ASCII.jp","url":"https://ascii.jp/elem/000/004/413/4413683/?rss","title":"SHINING 3D、「OptimScan Q12 HD」3Dスキャナーを発表：3D検査にミクロンレベルの精度を提供"}],"entities":{"anime_titles":[],"manga_titles":[],"work_titles":[],"studios":[],"people":[],"type":"announcement","domain":"other","is_roundup":false},"keyFacts":["The OptimScan Q12 HD achieves measurement accuracy up to 0.004 mm and a minimum point spacing of 0.02 mm.","The scanner uses four high-resolution cameras to capture complex surface shapes and fine features.","SHINING 3D says the system surpasses the conventional limits of fringe projection optical 3D scanning.","In civil aviation, the scanner can inspect engine blades and turbine blades for dimensional accuracy, wear, and reverse engineering.","The scanner can integrate with robotic automation for batch inspection in mass production."]}
