Design and Analysis of Shape Memory Polymer Snap-Fits for Active Disassembly

机译：用于主动拆卸的形状记忆聚合物卡扣的设计与分析

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Disassembly is becoming a mandatory step in the endof-life processing for electronic products. More and more regulations call for the removal of hazardous materials and mandate the recovery of components and recyclable materials. It is then no surprise that research has continually looked for more efficient methods of disassembly. Of these methods, active disassembly is at the forefront. Active disassembly incorporates innovative fasteners, which under a special environmental condition will exhibit a disassembling or releasing action. The use of smart materials, more specifically shape memory alloys and shape memory polymers, has been extensively documented. For shape memory polymers, past research has shown innovative designs, such as thread-losing screws and deformable brackets. What has not been shown with shape memory polymers, however, is one of the most basic and common fasteners-the snap-fit. This paper examines the design and processing method for creating a shape memory polymer snap-fit and demonstrates its effectiveness as an actively disassembling fastener.

机译：在电子产品的报废处理中，拆卸已成为必不可少的步骤。越来越多的法规要求清除有害物质，并要求回收部件和可回收材料。因此，研究不断寻找更有效的拆卸方法也就不足为奇了。在这些方法中，主动拆卸是最重要的。主动拆卸结合了创新的紧固件，在特殊的环境条件下会表现出拆卸或释放的作用。智能材料的使用，尤其是形状记忆合金和形状记忆聚合物的使用，已得到广泛的文献证明。对于形状记忆聚合物，过去的研究显示出创新的设计，例如防螺纹螺钉和可变形托架。然而，尚未显示出形状记忆聚合物是最基本和最常见的紧固件之一，即卡扣配合。本文研究了用于创建形状记忆聚合物卡扣配合的设计和加工方法，并证明了其作为主动拆卸紧固件的有效性。

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《17th CIRP International Conference on Life Cycle Engineering(国际生产工程科学院（ICRP)第17届生命周期工程会议 LCE 2010)》|2010年|p.340-345|共6页
会议地点 Hefei(CN);Hefei(CN)
作者
John Carrell; Hong-Chao Zhang; Derrick Tate; Chengcheng Fan; Bingbing Li;
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作者单位

Texas Tech University, Lubbock, Texas;

Texas Tech University, Lubbock, Texas;

Texas Tech University, Lubbock, Texas;

Texas Tech University, Lubbock, Texas;

Texas Tech University, Lubbock, Texas;

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Active Disassembly; Shape Memory Materials; Shape Memory Polymer;

机译：主动拆卸；形状记忆材料形状记忆聚合物;

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专利

1. Shape memory polymer snap-fits for active disassembly [J] . John Carrell, Derrick Tate, Shiren Wang, Journal of Cleaner Production . 2011,第17a18期

机译：形状记忆聚合物卡扣可主动拆卸
2. Study of shape memory polymers snap-fit for disassembly [J] . Hua Li, Javier Ortega, Ying Chen, Assembly Automation . 2012,第3期

机译：形状记忆聚合物卡扣配合用于拆卸的研究
3. Shape memory polymer actuated hollow snap-fit design analysis [J] . Bang He, Hua Li, Kai Jin Materials & design . 2013,第may期

机译：形状记忆聚合物驱动的空心卡扣设计分析
4. Design and Analysis of Shape Memory Polymer Snap-Fits for Active Disassembly [C] . John Carrell, Hong-Chao Zhang, Derrick Tate, LCE CIRP International Conference on Life Cycle Engineering . 2010

机译：用于主动拆卸的形状记忆聚合物卡扣的设计与分析
5. Shape memory polymer actuated hollow snap-fit study. [D] . He, Bang. 2012

机译：形状记忆聚合物致动的空心卡扣式研究。
6. Usage of shape memory alloy actuators for large force active disassembly applications [O] . Hoda Abuzied, Ayman Abbas, Mohamed Awad, 2020

机译：用于大力激活拆卸应用的形状记忆合金执行器的用途
7. Shape memory alloy actuators for active disassembly using ‘smart’ materials of consumer electronic products [O] . Chiodo, JD, Jones, N, Billett, EH, 2002

机译：用于消费电子产品“智能”材料的主动拆卸形状记忆合金执行器
8. Design and Processing of Shape Memory Polymer (SMP)/Shape Memory Alloy (SMA) Composites [R] . Tamagawa, H. 2010

机译：形状记忆聚合物（smp）/形状记忆合金（sma）复合材料的设计与加工

Design and Analysis of Shape Memory Polymer Snap-Fits for Active Disassembly

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