Tensile Armor Wires Submitted to Slow Strain Rate Tests in a Corrosive Environment and Cathodic Protection: a Comparison Between Two Different Microstructures

Mariana dos Reis?Tagliari; Marcio Ribeiro?Antunes; Jhuly Gleice Nascimento dos?Santos; Fabricio Pinheiro dos?Santos; Jo?o Marcio Castilho dos?Santos; Tiago?Falcade; Afonso?Reguly

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Tensile Armor Wires Submitted to Slow Strain Rate Tests in a Corrosive Environment and Cathodic Protection: a Comparison Between Two Different Microstructures

机译：在腐蚀环境和阴极保护下进行慢应变率测试的拉伸铠装线：两种不同微结构之间的比较

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Tensile armor in flexible pipes consists of two or more layers of steel wires. Damage to the outer sheath may cause ingress of seawater in the annular space and thus corrosion of the armor wires. This work focused on the susceptibility of these wires to stress corrosion cracking (SCC) and hydrogen embrittlement (HE) using a slow strain rate test (SSRT) under a bending load in an environment that contains chlorides. The behavior of two different microstructures was compared: martensite and pearlite plus ferrite. Furthermore, the materials were mechanically and metallurgically characterized. The results indicate that martensitic steel is more sensitive to both hydrogen embrittlement and stress corrosion cracking than pearlitic-ferritic steel.

机译：挠性管中的拉伸铠装由两层或多层钢丝组成。外壳的损坏可能会导致海水进入环形空间，从而腐蚀铠装线。这项工作的重点是在含氯化物的环境中，在弯曲载荷下使用慢应变速率测试（SSRT），这些电线对应力腐蚀开裂（SCC）和氢脆（HE）的敏感性。比较了两种不同显微组织的行为：马氏体和珠光体加铁素体。此外，对材料进行了机械和冶金学表征。结果表明，与珠光体-铁素体钢相比，马氏体钢对氢脆和应力腐蚀开裂均更敏感。

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《Materials Research》 |2019年第3期|共11页
作者
Mariana dos Reis?Tagliari; Marcio Ribeiro?Antunes; Jhuly Gleice Nascimento dos?Santos; Fabricio Pinheiro dos?Santos; Jo?o Marcio Castilho dos?Santos; Tiago?Falcade; Afonso?Reguly;
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中图分类工程材料学;
关键词
Tensile armorStress corrosion crackinghydrogen diffusionhydrogen embrittlement;

机译：拉伸装甲应力腐蚀开裂氢扩散氢脆;

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2. Slow strain rate tensile tests on irradiated austenitic stainless steels in simulated light water reactor environments [J] . Y.Chen, A.S.Rao, B.Alexandreanu, Nuclear Engineering and Design . 2014,第apra期

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3. Acoustic emission monitoring of slow strain rate tensile tests of 304L stainless steel in supercritical water environment [J] . Kristian Mathis, Dusan Prchal, Radek Novotny, Corrosion science . 2011,第1期

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5. High strain rate tensile testing. [D] . Clarke, Jo Ann Marie. 1993

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6. Comparison of Superelasticity of Nickel Titanium Orthodontic Arch wires using Mechanical Tensile Testing and Correlating with Electrical Resistivity [O] . Aravind Sivaraj 1988

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机译：通过慢应变速率技术在阴极保护下的500mN / m 2℃/ sup>级高拉伸钢的拉伸和断裂行为

Tensile Armor Wires Submitted to Slow Strain Rate Tests in a Corrosive Environment and Cathodic Protection: a Comparison Between Two Different Microstructures

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