激光杂志
激光雜誌
격광잡지
LASER JOURNAL
2014年
4期
31-32
,共2页
数字散斑相关%图像处理%强度测试%位移%应变
數字散斑相關%圖像處理%彊度測試%位移%應變
수자산반상관%도상처리%강도측시%위이%응변
Digital speckle correlation method%image processing%strength test%displacement%strain
数字散斑相关法具有精度高、适用于工程现场等特点,是现代光力学测试技术中重要的方法之一。具体应用时该技术通过采集待测物体的变形前后的两幅散斑图,经过数字图像处理获取待测物由于外界因素(外力,温度等)变化对待测物所产生的位移、应变及应力。本文通过将该方法应用于结构强度测试等工程实例,对其应用进行了详细探讨,从该方法应用中得出数字散斑相关法是测试结构位移和应变的较为便利的手段而且结果以全场方式显示。数字散斑相关技术在学术界和工业界已有广泛应用,预测未来在骨科、口腔等生物医学工程领域的强度测试中具有更大的发展和应用空间。
數字散斑相關法具有精度高、適用于工程現場等特點,是現代光力學測試技術中重要的方法之一。具體應用時該技術通過採集待測物體的變形前後的兩幅散斑圖,經過數字圖像處理穫取待測物由于外界因素(外力,溫度等)變化對待測物所產生的位移、應變及應力。本文通過將該方法應用于結構彊度測試等工程實例,對其應用進行瞭詳細探討,從該方法應用中得齣數字散斑相關法是測試結構位移和應變的較為便利的手段而且結果以全場方式顯示。數字散斑相關技術在學術界和工業界已有廣汎應用,預測未來在骨科、口腔等生物醫學工程領域的彊度測試中具有更大的髮展和應用空間。
수자산반상관법구유정도고、괄용우공정현장등특점,시현대광역학측시기술중중요적방법지일。구체응용시해기술통과채집대측물체적변형전후적량폭산반도,경과수자도상처리획취대측물유우외계인소(외력,온도등)변화대대측물소산생적위이、응변급응력。본문통과장해방법응용우결구강도측시등공정실례,대기응용진행료상세탐토,종해방법응용중득출수자산반상관법시측시결구위이화응변적교위편리적수단이차결과이전장방식현시。수자산반상관기술재학술계화공업계이유엄범응용,예측미래재골과、구강등생물의학공정영역적강도측시중구유경대적발전화응용공간。
Digital speckle correlation method (DSCM) has characteristics of high precision and suitable for use engineering fields, so this method becomes one of the most important modern photo-mechanics testing techniques. When application of this tech-nique,two speckle patterns on behave of deformed before and after for body subjected to external load should be collected by charge coupled device (CCD, then, through digital image processing the two speckle patterns, the displacement, strain, stress of body mea-sured can be obtained due to external factors (loads or temperature changes) . In this paper, DSCM is used for testing materials strength of engineering examples and its application details are also discussed. From the applications of examples, it can be obtained that DSCM is significantly convenience testing method to measure displacements and strains of structures and the results can be shown by the whole field modes. At present, DSCM has been widely used in industrial circles and academic circles. In the future, DSCM technique can be having more broaden development of space in the biomedical science fields of orthopedics, the oral area and so on.