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Effect of Matrix Strength on Pullout Behavior of High-Strength Deformed Steel Fibers

机译：基体强度对高强度变形钢纤维拉拔性能的影响

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The effect of matrix strength (or composition) on the pullout behavior of high strength deformed steel fibers is investigated. High-strength steel hooked (H-) and twisted (T-) fiber are used in three different matrices with three different compositions generating a low (4.1 ksi [28 MPa]), medium (8.1 ksi [56 MPa]) and high (12.2 ksi [84 MPa]) compressive strength. Although both fibers produce a higher pullout load with a higher compressive strength matrix, T- fiber shows a more sensitive behavior to the matrix strength or composition than H- fiber. Moreover, T- fiber leads to significant enhancements in both pullout load and pullout energy in higher strength matrix than in lower strength matrix. It is observed that T- fiber is generally more efficient in a higher-strength matrix than in a lower-strength matrix.

机译：研究了基体强度（或组成）对高强度变形钢纤维拉拔性能的影响。高强度钢钩（H-）和加捻（T-）纤维用于三种不同的基质，具有三种成分，分别产生低（4.1 ksi [28 MPa]），中（8.1 ksi [56 MPa]）和高（ 12.2 ksi [84 MPa]的抗压强度。尽管两种纤维在较高的抗压强度基体上都产生较高的拉拔载荷，但T纤维比H纤维对基体强度或成分表现出更敏感的行为。而且，与较低强度的基质相比，T纤维在较高强度的基质中导致拔出负荷和拔出能量的显着增强。观察到，在较高强度的基质中，T纤维比在较低强度的基质中通常更有效。

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《ACI spring convention》|2011年|p.135-149|共15页
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D. Joo Kim; S. El-Tawil; A.E. Naaman;
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中图分类水泥工业;
关键词
equivalent bond strength, fiber pullout, matrix strength, pullout energy, and slip hardening;

机译：等效粘结强度，纤维抗拉强度，基体强度，抗拉强度和滑爽性;

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Effect of Matrix Strength on Pullout Behavior of High-Strength Deformed Steel Fibers

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