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Low‐velocity impact behavior of glass fiber‐MWCNT/polymer laminates exposed to seawater and distilled water aging

机译:玻璃纤维-MWCNT /聚合物层压板暴露于海水和蒸馏水老化的低速冲击性能

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Abstract >The influence of seawater (SW) and distilled water (DW) aging on low‐velocity impact behavior of glass fiber/polymer laminates with and without multiwalled carbon nanotubes (MWCNTs) is experimentally investigated. To this aim, unidirectional glass fiber fabrics were coated with 0.75?wt% MWCNTs by airbrushing, infused with resin (epoxy or vinylester), and cured. Then, composite laminates with and without MWCNTs were cut into specimens for low‐velocity impact testing and exposed to hydrothermal aging by immersing them to SW and DW at 60°C for ~2000?h. After that time of conditioning, dry and wet specimens were tested using a drop‐weight tower with an impact energy of 15?J. Results showed that the moisture absorption content of composite laminates exposed to SW and DW aging is considerably higher on epoxy‐based specimens with respect to vinylester ones. The impact tests revealed that the measured impact peak force and absorbed energy in wet specimens are significantly lower compared to dry specimens due to plasticizing effect of the matrix. With the incorporation of MWCNTs into the laminates, the absorbed energy is increased due to additional damage mechanisms induced at CNT‐rich regions during the impact loading. It was also found that the damage area of the laminates after impact tends to be more prominent for laminates fabricated using vinylester resin than for those using epoxy resin as a result of its brittle behavior during impact loading. Post impact damage analyses by ultrasonic C‐scan imaging and scanning electron microscopy showed that matrix cracking, fiber breakage, fiber/matrix debonding, and delamination are the main damage mechanisms induced in the dry and wet specimens during impact. </abstract> </span> <span class="z_kbtn z_kbtnclass hoverxs" style="display: none;">展开▼</span> </div> <div class="translation abstracttxt"> <span class="zhankaihshouqi fivelineshidden" id="abstract"> <span>机译:</span><Abstract Type =“Main”XML:Lang =“en”> <标题类型=“main”>抽象</ title> 实验研究了海水(SW)和蒸馏水(DW)老化对玻璃纤维/聚合物层压板的低速冲击行为的影响,实验研究了玻璃纤维/聚合物层压板(MWCNT)的低速冲击性能。为此目的,通过喷枪涂覆单向玻璃纤维织物,用喷枪,与树脂(环氧或乙烯基酯)注入并固化。然后,将具有和不含MWCNT的复合层压板切入试样,以进行低速冲击试验,并通过将其浸入60℃的SW和DW〜2000〜2000℃下暴露于水热老化。之后使用具有15Ω·j的滴重塔来测试调理的时间,干燥和湿标本。结果表明,暴露于SW和DW老化的复合层压板的水分吸收含量在相对于乙烯基酯网的基于环氧树脂的标本相当高。由于基质的塑化作用,冲击试验表明,与干燥试样相比,湿标本中的测量抗峰值和吸收能量显着降低。随着MWCNT的掺入层压板中,由于在冲击载荷期间CNT富含CNT的地区诱导的额外损伤机制,吸收能量增加。还发现,在使用乙烯基树脂制造的层压材料中,层压板的损伤区域比使用环氧树脂在冲击载荷期间的脆性行为的结果更突出。通过超声C扫描成像和扫描电子显微镜分析的损伤分析显示,基质开裂,纤维破裂,纤维/基质剥离和分层是在冲击期间干燥和湿标本中诱导的主要损伤机制。</ p> </摘要> </span> <span class="z_kbtn z_kbtnclass hoverxs" style="display: none;">展开▼</span> </div> </div> <div class="record"> <h2 class="all_title" id="enpatent33" >著录项</h2> <ul> <li> <span class="lefttit">来源</span> <div style="width: 86%;vertical-align: text-top;display: inline-block;"> <a href='/journal-foreign-29566/'>《Polymer Composites》</a> <b style="margin: 0 2px;">|</b><span>2020年第6期</span><b style="margin: 0 2px;">|</b><span>共17页</span> </div> </li> <li> <div class="author"> <span class="lefttit">作者</span> <p id="fAuthorthree" class="threelineshidden zhankaihshouqi"> </p> <span class="z_kbtnclass z_kbtnclassall hoverxs" id="zkzz" style="display: none;">展开▼</span> </div> </li> <li> <div style="display: flex;"> <span class="lefttit">作者单位</span> <div style="position: relative;margin-left: 3px;max-width: 639px;"> <div class="threelineshidden zhankaihshouqi" id="fOrgthree"> </div> <span class="z_kbtnclass z_kbtnclassall hoverxs" id="zhdw" style="display: none;">展开▼</span> </div> </div> </li> <li > <span class="lefttit">收录信息</span> <span style="width: 86%;vertical-align: text-top;display: inline-block;"></span> </li> <li> <span class="lefttit">原文格式</span> <span>PDF</span> </li> <li> <span class="lefttit">正文语种</span> <span>eng</span> </li> <li> <span class="lefttit">中图分类</span> <span><a href="https://www.zhangqiaokeyan.com/clc/7852.html" title="增强塑料、填充塑料">增强塑料、填充塑料;</a></span> </li> <li class="antistop"> <span class="lefttit">关键词</span> <p style="width: 86%;vertical-align: text-top;"> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=carbon nanotubes&option=203" rel="nofollow">carbon nanotubes;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=composite laminates&option=203" rel="nofollow">composite laminates;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=distilled water&option=203" rel="nofollow">distilled water;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=impact test&option=203" rel="nofollow">impact test;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=seawater&option=203" rel="nofollow">seawater;</a> </p> <div class="translation"> 机译:碳纳米管;复合层压板;蒸馏水;冲击试验;海水; 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href="/patent-detail/06120700623.html">用于早期检测聚合物包层玻璃纤维因暴露于水的可能故障的指示剂</a> <b>[P]</b> . <span> 中国专利: CN101208758B </span> <span> . 2010.12.29</span> </div> </li> <li> <div> <b>2. </b><a class="enjiyixqcontent" href="/patent-detail/06120105399369.html">用于早期检测聚合物包层玻璃纤维因暴露于水的可能故障的指示剂</a> <b>[P]</b> . <span> 中国专利: CN101208758A </span> <span> . 2008-06-25</span> </div> </li> <li> <div> <b>3. </b><a class="enjiyixqcontent" href="/patent-detail/06130405066881.html">HOLLOW FIBER MEMBRANE MODULE, SEAWATER DESALINATION SYSTEM, SEAWATER DESALINATION METHOD, METHOD FOR PRODUCING FRESH WATER FROM SEAWATER, OPERATION METHOD OF HOLLOW FIBER MEMBRANE MODULE, FILTRATION METHOD, AND PRODUCTION METHOD OF HOLLOW FIBER MEMBRANE MODULE</a> <b>[P]</b> . <span> 外国专利: <!-- 日本专利: --> JP2019051451A </span> <span> . 2019-04-04</span> </div> <p class="zwjiyix translation" style="max-width: initial;height: auto;word-break: break-all;white-space: initial;text-overflow: initial;overflow: initial;"> <span>机译:中空纤维膜组件,海水淡化系统,海水淡化方法,从海水生产淡水的方法,中空纤维膜组件的操作方法,过滤方法以及中空纤维膜组件的制造方法 </span> </p> </li> <li> <div> <b>4. </b><a class="enjiyixqcontent" href="/patent-detail/06130402500150.html">RESIN COMPOSITION FOR LAMINATED GLASS INTERLAYER, LAMINATED GLASS INTERLAYER, FILM MATERIAL FOR LAMINATED GLASS INTERLAYER, LAMINATED GLASS, AND LAMINATED GLASS MANUFACTURING METHOD, IMAGE DISPLAY DEVICE, RESIN COMPOSITION FOR IMPACT-RESISTANT MEMBER, IMPACT-RESISTANT FILM AND FILM MATERIAL FOR IMPACT-RESISTANT FILM</a> <b>[P]</b> . <span> 外国专利: <!-- 日本专利: --> JP2020040869A </span> <span> . 2020-03-19</span> </div> <p class="zwjiyix translation" style="max-width: initial;height: auto;word-break: break-all;white-space: initial;text-overflow: initial;overflow: initial;"> <span>机译:夹层玻璃夹层的树脂组成,夹层玻璃夹层,夹层玻璃夹层的膜材料,夹层玻璃和夹层玻璃的制造方法,图像显示装置,耐冲击的模制树脂,耐冲击的薄膜电影 </span> </p> </li> <li> <div> <b>5. </b><a class="enjiyixqcontent" href="/patent-detail/06130443442325.html">METHOD AND APPARATUS FOR PREDICTING MAXIMUM AND MINIMUM FLOW OF LEAKAGE CONTAINING SEAWATER IN UNDERGROUND WATER, AND METHOD AND APPARATUS FOR PREDICTING MAXIMUM AND MINIMUM FLOW OF SEAWATER OR UNDERGROUND WATER FLOW IN LEAKAGE CONTAINING SEAWATER IN UNDERGROUND WATER</a> <b>[P]</b> . <span> 外国专利: <!-- 日本专利: --> JP2004077366A </span> <span> . 2004-03-11</span> </div> <p class="zwjiyix translation" style="max-width: initial;height: auto;word-break: break-all;white-space: initial;text-overflow: initial;overflow: initial;"> <span>机译:预测地下地下水中的最大和最小流量的方法和装置,以及用于预测地下渗漏水中的最大或最小水流量的方法和设备 </span> </p> </li> </ul> </div> </div> </div> <div class="theme cardcommon" style="overflow: auto;display:none"> <h3 class="all_title" id="enpatent55">相关主题</h3> <ul id="subject"> </ul> </div> </div> </div> </div> <div class="right rightcon"> <div class="details_img cardcommon clearfix" style="margin-bottom: 10px;display:none;" > </div> </div> </div> <div id="thesis_get_original1" class="downloadBth" style="bottom: 19px;z-index: 999;" 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