A Modified Swift Law for High Strength Steels

机译：一种改进的高强度钢的迅速法

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For most materials the tensile curve can be fitted with one of the usual constitutive laws: pure plasticity, linear hardening, Hollomon, Nadai, Swift or Ludwik. However, high strength steels, due to a specific hardening behavior, cannot be accurately characterized with one of the above-mentioned laws. The same is true for the unit bending moment that is often used to characterize materials under bending conditions. An additional problem of high strength steels is that tensile tests can be performed up to maximum strains ranging from 3 to about 5%, while in the bending process the typical values of stable strains (without visible damage) can be up to 20% and sometimes even higher. In order to overcome these difficulties, an appropriate material model has been developed for high strength steels that allows to accurately represent the constitutive law over the entire relevant strain range.

机译：对于大多数材料，拉伸曲线可以配备通常的本构规则之一：纯粹的可塑性，线性硬化，霍梅森，Nadai，Swift或Ludwik。然而，由于特定的硬化行为，不能准确地表征高强度钢，不能用上述法律之一进行准确地表征。对于在弯曲条件下常用的单位弯曲力矩，该单元弯曲时刻也是如此。额外的高强度钢的问题是，拉伸试验可以达到3至约5％的最大菌株，而在弯曲过程中，稳定菌株的典型值（不可见损伤）可以达到20％，有时可以高达20％更高。为了克服这些困难，已经开发了一种适当的材料模型，用于高强度钢，允许在整个相关应变范围内准确地代表本构规律。

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《International ESAFORM Conference on Material Forming》|2019年|1 v. (various pagings) :|共4页
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Richard Aerens; Vitalii Vorkov; Joost R. Duflou;
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中图分类 TB3-532;
关键词
Modified Swift Law; High Strength Steels; strain range;

机译：改性迅速法;高强度钢;应变范围;

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机译：基于修饰混合物定律的多相高强度纳米纤维的微观性行为
2. A modified Swift law for prestrained materials [J] . Fernandes JV., Menezes LF., Vieira MF., International Journal of Plasticity . 1998,第6期

机译：修改后的Swift法则用于预应力材料
3. Modified Swift Criteria for Residual Strength of Multiple Site Damage Structure [J] . Zhang Jianyu, Bao Rui, Fei Binjun Key Engineering Materials . 2010,第期

机译：多点损伤结构残余强度修正的Swift准则
4. A Modified Swift Law for High Strength Steels [C] . Richard Aerens, Vitalii Vorkov, Joost R. Duflou International ESAFORM Conference on Material Forming . 2019

机译：一种改进的高强度钢的迅速法
5. Bond strength of deformed reinforcing bars in plain high-strength concrete and high-strength steel fibre-reinforced concrete. [D] . Berube, Frederic-Simon. 2003

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6. The Influence of Steel Fiber Tensile Strengths and Aspect Ratios on the Fracture Properties of High-Strength Concrete [O] . Won-Chang Choi, Kwon-Young Jung, Seok-Joon Jang, 2019

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7. Mechanical properties of various concrete after high temperature exposure Mechanical property of various types of concrete after high temperature exposure is investigated. Considering compressive strength requirement for a vertical element in high rise building, concrete specimens with various design strengths of 35, 80, 100, and 150 MPa were tested. Particularly, the influence of incorporated steel fiber on fire resistance is of interest in this study. Experimental results show that the fire resistance depends on the design strength and steel fiber content. Normal strength concrete (NSC) of a design strength of 35 MPa or high performance concrete (HPC) of 80-100 MPa does not spall when exposed to 100-400 °C of temperature. However, an explosive spalling occurs at 300 °C when the HPCs contain 1 vol. of steel fiber. Ultra-high performance concrete (UHPC) of a design strength of 150 MPa and 1.5 vol. of steel fiber also shows dramatic spalling at 300 °C. The experimental results found in this study can contribute to a better understanding of the behaviors of HPC and UHPC under fire and the role of steel fiber on the fire resistance. [O] . 2017

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A Modified Swift Law for High Strength Steels

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