The fracture and fatigue behaviour of nano-modified epoxy polymers

B. R. K. Blackman; A. J. Kinloch; J. Sohn Lee; A. C. Taylor; R. Agarwal; G. Schueneman; S. Sprenger

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The fracture and fatigue behaviour of nano-modified epoxy polymers

机译：纳米改性环氧聚合物的断裂和疲劳行为

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The introduction of nano-silica particles into an epoxy polymer has increased both the initial toughness, as measured by the fracture toughness, KIc, and also significantly improved the cyclic-fatigue behaviour of the epoxy polymer. Thus, the significant increases recorded in the values of the range of applied stress-intensity factor at threshold, ΔKth, from the cyclic-fatigue tests for the nano-silica modified materials are very noteworthy, since these increases are accompanied by significant improvements being recorded in the initial toughness.

机译：将纳米二氧化硅颗粒引入环氧聚合物中不仅提高了初始韧性（通过断裂韧性KIc测得），而且还大大改善了环氧聚合物的循环疲劳行为。因此，纳米二氧化硅改性材料的循环疲劳试验在阈值ΔKth处施加的应力-强度因子的值范围内记录的显着增加是非常值得注意的，因为这些增加伴随着初始韧性得到了显着改善。

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来源
《Journal of Materials Science》 |2007年第16期|7049-7051|共3页
作者
B. R. K. Blackman; A. J. Kinloch; J. Sohn Lee; A. C. Taylor; R. Agarwal; G. Schueneman; S. Sprenger;
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Department of Mechanical Engineering Imperial College London South Kensington Campus London SW7 2AZ UK;

Department of Mechanical Engineering Imperial College London South Kensington Campus London SW7 2AZ UK;

Department of Mechanical Engineering Imperial College London South Kensington Campus London SW7 2AZ UK;

Department of Mechanical Engineering Imperial College London South Kensington Campus London SW7 2AZ UK;

Henkel Corporation 1001 Trout Brook Crossing Rocky Hill CT 06067 USA;

Henkel Corporation 1001 Trout Brook Crossing Rocky Hill CT 06067 USA;

Nanoresins AG Charlottenburger Strasse 9 21502 Geesthacht Germany;

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1. The fracture and fatigue behaviour of nano-modified epoxy polymers [J] . Blackman BRK, Kinloch AJ, Lee JS, Journal of Materials Science . 2007,第16期

机译：纳米改性环氧聚合物的断裂和疲劳行为
2. Damage behaviour of nano-modified epoxy adhesives subject to high stress constraint [J] . Quan Dong, Cardiff Philip, Murphy Neal, The Journal of Adhesion . 2018,第5a7期

机译：纳米改性环氧粘合剂对高应力约束的损伤行为
3. Fracture and fatigue behaviour of epoxy nanocomposites containing 1-D and 2-D nanoscale carbon fillers [J] . Ladani Raj B., Bhasin Mukesh, Wu Shuying, Engineering Fracture Mechanics . 2018,第期

机译：含有1-D和2-D纳米级碳填料的环氧纳米复合材料的断裂和疲劳行为
4. The Fracture Behaviour of a Nano-modified Structural Epoxy Adhesive [C] . D. McAuliffe, A. Karac, N. Murphy, Annual meeting of the Adhesion Society . 2013

机译：纳米改性结构环氧胶粘剂的断裂行为
5. Fracture behavior of block copolymer and graphene nanoplatelet modified epoxy and fiber reinforced/epoxy polymer composites. [D] . Kamar, Nicholas T. 2016

机译：嵌段共聚物和石墨烯纳米片改性的环氧树脂和纤维增强/环氧聚合物复合材料的断裂行为。
6. In vitro evaluation of fracture resistance and cyclic fatigue resistance of computer-aided design-on and hand-layered zirconia crowns following cementation on epoxy dies [O] . Kiran Kumar Pandurangan, Deepak Nallaswamy Veeraiyan, Thiyaneswaran Nesappan 2020

机译：在环氧树脂模具后粘合后计算机辅助设计和手工层叠氧化锆冠的骨折抗性和循环疲劳性的体外评价
7. The fracture and fatigue behaviour of nano-modified epoxy polymers [O] . Blackman BRK, Kinloch AJ, Lee JS, 2007

机译：纳米改性环氧聚合物的断裂和疲劳行为
8. The Fracture of Epoxy- and Elastomer-Modified Epoxy Polymers in Bulk and as Adhesives. [R] . Bascom, W. D., Cottington, R. L., Jones, R. L., 1974

机译：环氧树脂和弹性体改性环氧聚合物在散装和粘合剂中的断裂。

The fracture and fatigue behaviour of nano-modified epoxy polymers

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