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深海載入潛水器的蛋形耐壓殼研究

深海載入潛水器的蛋形耐壓殼研究

定 價:¥190.00

作 者: Zhang Jian,Wu Wenwei Tang ... 著
出版社: 上??茖W技術出版社
叢編項: 高端裝備關鍵基礎理論及技術叢書·海洋工程
標 簽: 暫缺
ISBN: 9787547847657 出版時間: 2020-12-01 包裝: 精裝
開本: 16開 頁數(shù): 216 字數(shù):  

內容簡介

  《深海載入潛水器的蛋形耐壓殼研究》面向深海科技發(fā)展急需、重大專項和技術領先方向,緊密圍繞深海耐壓殼裝備設計理論與應用技術這個核心主題,針對現(xiàn)有球形結構存在缺陷敏感性高、水動力學特性差、殼內空間利用率低等問題,提出一種新型結構—蛋形耐壓殼替代球形耐壓殼,從生物學、應用力學、海洋工程學和仿生學角度,全面闡述了深海蛋形耐壓殼、蛋形仿生封頭、多蛋交接耐壓殼研究的新成果。專著內容系統(tǒng)完整,理論創(chuàng)新性明顯,技術實用性強,可以直接指導生產實踐。專著的出版對全面提升我國深海工程裝備自主研發(fā)能力具有重要實踐意義,也為中國深海耐壓裝備產業(yè)創(chuàng)新發(fā)展提供參考和支撐。

作者簡介

  張建,雙博士,副教授,江蘇省優(yōu)青,江蘇省“333工程”第三層次,江蘇省“六大人才高峰”人選,江蘇省“雙創(chuàng)計劃”人才,江蘇省科協(xié)青年人才托舉對象,鎮(zhèn)江市有突出貢獻的中青年專家,中國船舶科學研究中心博士后。獲江蘇大學車輛工程博士學位、日本埼玉工業(yè)大學機械工程博士學位。主要從事深海工程裝備基礎理論研究及復雜機電產品數(shù)字化開發(fā)?;蛲ㄓ嵃l(fā)表SCI收錄論文 20篇(ESI高被引1篇)。發(fā)明人獲發(fā)明專利39件(美國2件、俄羅斯1件)。作為項目主要完成人獲江蘇省科技進步二等獎1項(排名3)、三等獎2項(排名3),教育部科技進步二等獎2項(排名3、5),江蘇省發(fā)明專利優(yōu)秀獎1項(排名2)。指導研究生獲江蘇省優(yōu)秀碩士論文1部。

圖書目錄

Chapter 1 Introduction
1.1 Background and significance
1.2 Overview of research status
1.2.1 Externally pressurized spherical shells
1.2.2 Externally pressurized untypical shells
1.2.3 Externally pressurized domed heads
1.2.4 Shell buckling research approaches
1.2.5 Externally pressurized multi-segment shells
1.3 Problems and solution
1.4 Structure of the monograph
References
Chapter 2 Buckling of deep sea spherical pressure hulls
2.1 Buckling analysis of geometrically perfect and imperfect hulls
2.1.1 Geometry and material
2.1.2 Buckling of geometrically perfect hulls
2.1.3 Buckling of geometrically imperfect hulls
2.2 Effect of yield strength on the buckling of hulls
2.2.1 Perfect geometry analysis
2.2.2 Imperfect geometry analysis
2.3 Experimental methodology of spherical shells
2.3.1 Shell manufacturing and testing
2.3.2 Material properties
2.4 Buckling analysis of sphericalshells
2.4.1 Experimentaland analyticalresults
2.4.2 Comparison between experimental and numerical results
2.4.3 Effect of constitutive models
2.4.4 Effect of geometricalimperfections
2.5 Summary
References
Chapter 3 Bionic design of egg-shape pressure hulls
3.1 Geometric properties of goose eggshells
3.1.1 Size of goose eggshells
3.1.2 Surface area and volume of goose eggshells
3.1.3 Symmetry of goose eggshells
3.1.4 Shape function of goose eggshells
3.1.5 Thickness of goose eggshells
3.2 Load carrying capacities of goose eggshells
3.2.1 Experimental results of goose eggshells
3.2.2 Numerical results of goose eggshells
3.2.3 Comparison between experimental and numerical data
3.3 Configuration and size egg-shaped pressure hulls
3.4 Strength, stability, and buoyancy of egg-shaped pressure hull
3.4.1 Strength and stability of egg-shaped pressure hull
3.4.2 Uniform wall thickness analysis of egg-shaped pressure hulls
3.4.3 Non-uniform wall thickness analysis of egg-shaped pressure hulls
3.4.4 Spherical pressure hulls analysis
3.5 Analytical results of egg-shaped and spherical pressure hulls
3.6 Numerical results of egg-shaped and spherical pressure hulls
3.7 Evaluation and comparison of main properties for pressure hulls
3.8 Summary
References

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