AN ANALYSIS OF IMPACT TESTING OF HIGH STRENGTH LOW-ALLOY STEELS USED IN SHIP CONSTRUCTION

IF 3.9 4区工程技术 Q1 ENGINEERING, MARINE

Brodogradnja Pub Date : 2021-07-01 DOI:10.21278/brod72301

S. Bulatović, V. Aleksić, L. Milović, Bojana Zečević, Karnegijeva Belgrade Serbia Metallurgy

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引用次数: 3

Abstract

Brittle damages have been examined widely since welding became common practice when it comes to carrying out robust structures. Welded structure of the ship hull has to be continuous. Brittle damages that occur on hull structures have always been examined thoroughly. Cracks are most commonly initiated at locations where stress concentrators exist. These concentrators can originate due to flaws that occur during the design phase or due to mistakes that occur during the assembly of the structure. When it comes to failures and damages that occur at ship structures, it has been noticed that damages due to brittleness practically always happen at low temperatures. Impact test analysis is significant due to the fact that it replicates the ductile to brittle transition of steel in practically identical range of temperatures for all ship structures. Impact of ductile-brittle transition temperature is an important factor especially because there have been many ship failures and damages in history. In ship structures made of welded joints of high strength low-alloy (HSLA) steels with their segments (parent metal, weld metal and heat-affected-zone), the toughness test determines the tendency of steel to brittle fracture, respectively the tendency to increase brittleness during exploitation. Parameters obtained by testing the properties of plasticity are the fundamental for the composition of ship structures with the aim of realize strengths under tested load. The test results of high strength low-alloy steel toughness assessment at different test temperatures show that temperature significantly affects the impact toughness of steels and their alloys.

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船舶结构用高强度低合金钢冲击试验分析

自从焊接成为实现坚固结构的常见做法以来，脆性损伤已经得到了广泛的检查。船体的焊接结构必须是连续的。船体结构上发生的脆性损伤一直被彻底检查。裂纹最常见于存在应力集中区的位置。这些集中器可能是由于设计阶段出现的缺陷或结构组装过程中出现的错误而产生的。当涉及到船舶结构发生的故障和损坏时，已经注意到由于脆性引起的损坏实际上总是在低温下发生。冲击试验分析具有重要意义，因为它复制了所有船舶结构在几乎相同的温度范围内钢的韧性到脆性转变。韧性-脆性转变温度的影响是一个重要因素，特别是因为历史上发生过许多船舶故障和损坏。在由高强度低合金（HSLA）钢焊接接头及其分段（母材、焊接金属和热影响区）制成的船舶结构中，韧性测试分别确定了钢在开发过程中脆性增加的趋势。通过测试塑性特性获得的参数是船舶结构组成的基础，目的是实现测试载荷下的强度。高强度低合金钢在不同试验温度下的韧性评定试验结果表明，温度对钢及其合金的冲击韧性有显著影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Brodogradnja ENGINEERING, MARINE-

CiteScore

4.30

自引率

38.90%

发文量

审稿时长

>12 weeks

期刊介绍： The journal is devoted to multidisciplinary researches in the fields of theoretical and experimental naval architecture and oceanology as well as to challenging problems in shipbuilding as well shipping, offshore and related shipbuilding industries worldwide. The aim of the journal is to integrate technical interests in shipbuilding, ocean engineering, sea and ocean shipping, inland navigation and intermodal transportation as well as environmental issues, overall safety, objects for wind, marine and hydrokinetic renewable energy production and sustainable transportation development at seas, oceans and inland waterways in relations to shipbuilding and naval architecture. The journal focuses on hydrodynamics, structures, reliability, materials, construction, design, optimization, production engineering, building and organization of building, project management, repair and maintenance planning, information systems in shipyards, quality assurance as well as outfitting, powering, autonomous marine vehicles, power plants and equipment onboard. Brodogradnja publishes original scientific papers, review papers, preliminary communications and important professional papers relevant in engineering and technology.

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