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引用本文:张宗兵,刁新源,任景玲,蒋硕,苏函,倪佐涛,姜金光,丛石磊,陈杨,艾金腾,杨中林,周继续.一种海水痕量元素CTD采集收放用敷塑纤维通讯缆的设计及检测试验[J].海洋科学,2022,46(7):88-94.
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一种海水痕量元素CTD采集收放用敷塑纤维通讯缆的设计及检测试验
张宗兵1,2, 刁新源1,2, 任景玲3, 蒋硕4, 苏函4, 倪佐涛1,2, 姜金光1,2, 丛石磊1,2, 陈杨1,2, 艾金腾1,2, 杨中林5, 周继续1,2
1.中国科学院海洋研究所, 山东 青岛 266071;2.中国科学院海洋大科学研究中心, 山东 青岛 266071;3.中国海洋大学, 山东 青岛 266100;4.华东师范大学, 上海 200241;5.上海瑞领电缆有限公司, 上海 201822
摘要:
痕量元素及其同位素采集、预处理和分析在海洋研究中具有重要的作用,对于认识全球环境变迁具有重要的价值。但其浓度在这些过程中易受沾污。本文结合海水痕量元素CTD现场采集工作环境,工作拉力等特殊要求,先后跟缆绳设计、生产制造厂家进行缆绳相关技术讨论、确定缆绳各项技术指标。设计敷塑纤维通讯缆,并委托缆绳生产厂家加工出样缆两条。通过对样缆进行静态拉力试验验证缆绳自身工作拉力,并通过成分分析、浸出试验验证最大化减少缆绳对于海中溶解态痕量金属的沾污。该研究结果可提高采样过程的可靠性,保证数据的准确率。
关键词:  敷塑纤维通讯缆  静态拉力试验  成分分析  浸出试验
DOI:10.11759/hykx20210826001
分类号:P751
基金项目:“科学”号高端用户项目(KEXUE2019GZ01);中科院重大科技基础设施维改项目(DSS-WXGZ-2021-0011)
Design and test of a plastic fiber communication cable for CTD collection and retraction of seawater trace elements
ZHANG Zong-bing1,2, DIAO Xin-yuan1,2, REN Jing-ling3, JIANG Shuo4, SU Han4, NI Zuo-tao1,2, JIANG Jin-guang1,2, CONG Shi-lei1,2, CHEN Yang1,2, AI Jin-teng1,2, YANG Zhong-lin5, ZHOU Ji-xu1,2
1.Institute of Oceanology, Chinese Academy of Sciences, Qingdao 266071, China;2.Marine Science Research Center, Chinese Academy of Sciences, Qingdao 266071, China;3.Ocean University of China, Qingdao 266100, China;4.East China Normal University, Shanghai 200241, China;5.Shanghai Ruiling Cable Co., Ltd., Jiading District, Shanghai 201822, China
Abstract:
The collection, pretreatment, and analysis of trace elements and their isotopes play an important role in marine research and are highly valuable for understanding global environmental changes. However, trace element concentrations are susceptible to contamination in these processes. In this paper, bearing in mind the special requirements for the environment, working tension, and other special aspects of the seawater trace element conductivity, temperature, and pressure field collection work, we have successively discussed the related technology of the cable regarding its design with the cable manufacturer to determine its technical indicators. We designed a plastic fiber communication cable and commissioned the manufacturer to process two sample cables. The static tension test of the sample cable verified the working tension of the cable itself, and the verification of component analysis and leaching test minimized the cable's contamination of dissolved trace metals in the sea. The research results could improve the reliability of the sampling process and ensure data accuracy.
Key words:  plastic-coated fiber communication cable  static tensile test  component analysis  leaching test
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