CHARACTERIZATION OF TENSILE AND COMPRESSIVE BEHAVIOR OF MICROSCALE SHEET METALS USING A TRANSPARENT MICRO-WEDGE DEVICE

机译：透明微楔装置表征微薄板金属的拉伸和压缩行为

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The cyclic and compressive mechanical behavior of ultra-thin sheet metals was experimentally investigated. A novel transparent wedge device was designed and fabricated to prevent the buckling of thin sheets under compressive loads, while also allowing full field strain measurements of the specimen using digital imaging methods. Thin brass and stainless steel sheet metal specimens were tested using the micro-wedge device. Experimental results show that the device can be used to delay the onset of early buckling modes of a thin sheet under compression, which is critical in examining the compressive and cyclic mechanical behavior of sheet metals.

机译：实验研究了超薄金属板的循环和压缩力学行为。设计和制造了一种新颖的透明楔形装置，以防止在压缩载荷下薄片弯曲，同时还允许使用数字成像方法对样品进行全场应变测量。使用微型楔形装置测试了薄黄铜和不锈钢薄板样品。实验结果表明，该装置可用于延迟受压薄板的早期屈曲模式的出现，这对于检查薄板的压缩和循环机械性能至关重要。

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来源
《ASME international manufacturing science and engineering conference 2011》|2011年|p.595-601|共7页
会议地点 Corvallis OR(US);Corvallis OR(US)
作者
James Magargee; Morgan McHugh; Jian Cao; Damon Brink; Rui Zhou; Fabrice Morestin;
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作者单位

Northwestern University Evanston, IL, USA;

Northwestern University Evanston, IL, USA;

Northwestern University Evanston, IL, USA;

IntriMed Technologies Oxnard, CA, USA;

Northwestern University Evanston, IL, USA;

INSAdeLyon Lyon, France;

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正文语种 eng
中图分类机械制造工艺;
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1. Characterization of Tensile and Compressive Behavior of Microscale Sheet Metals Using a Transparent Microwedge Device [J] . James Magargee, Jian Cao, Rui Zhou Journal of manufacturing science and engineering: Transactions of the ASME . 2011,第6期

机译：使用透明微楔装置表征微细钣金件的拉伸和压缩行为
2. Deformation-induced Martensite Transformation Behavior during Tensile and Compressive Deformation in Low-alloy TRIP Steel Sheets [J] . Hiroyuki Kawata, Takashi Yasutomi, Satoshi Shirakami, ISIJ international . 2021,第2期

机译：低合金跳闸钢板拉伸和压缩变形期间变形诱导的马氏体转化行为
3. Deformation-induced Martensite Transformation Behavior during Tensile and Compressive Deformation in Low-alloy TRIP Steel Sheets [J] . Hiroyuki KAWATA, Takashi YASUTOMI, Satoshi SHIRAKAMI, ISIJ international . 2021,第2期

机译：低合金跳闸钢板拉伸和压缩变形期间变形诱导的马氏体转化行为
4. CHARACTERIZATION OF TENSILE AND COMPRESSIVE BEHAVIOR OF MICROSCALE SHEET METALS USING A TRANSPARENT MICRO-WEDGE DEVICE [C] . James Magargee, Morgan McHugh, Jian Cao, ASME international manufacturing science and engineering conference . 2011

机译：透明微楔形装置的微观纸张金属拉伸和压缩行为的表征
5. Characterization of the compressive and fracture behavior, as well as the residual tensile strength of a polyurethane foam. [D] . Zhang, Yanli. 2007

机译：表征聚氨酯泡沫的压缩和断裂行为，以及残余拉伸强度。
6. Investigation of Compressive and Tensile Behavior of Stainless Steel/Dissolvable Aluminum Bimetallic Composites by Finite Element Modeling and Digital Image Correlation [O] . Xiuhui Li, Morteza Ghasri-Khouzani, Abdoul-Aziz Bogno, 2021

机译：用有限元建模和数字图像相关性研究不锈钢/可溶性铝双金属复合材料的压缩和拉伸行为
7. Deformation-induced Martensite Transformation Behavior during Tensile and Compressive Deformation in Low-alloy TRIP Steel Sheets [O] . Hiroyuki Kawata, Takashi Yasutomi, Satoshi Shirakami, 2021

机译：低合金跳闸钢板拉伸和压缩变形期间变形诱导的马氏体转化行为
8. Tensile/Compressive Fatigue and Interface Characterization of Al2O3 Fiber/Al-2.5% Li Alloy Metal Matrix Composite. [R] . Buckley, M. M., Homeny, J. 1990

机译：al2O3纤维/ al-2.5％Li合金金属基复合材料的拉伸/压缩疲劳与界面表征。

CHARACTERIZATION OF TENSILE AND COMPRESSIVE BEHAVIOR OF MICROSCALE SHEET METALS USING A TRANSPARENT MICRO-WEDGE DEVICE

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