本書以金屬材料在強動載荷下的動態(tài)失效理論與多尺度分析方法為研究主題��,旨在深入探究金屬材料在極端條件下的動態(tài)響應行為及其理論基礎�����,進而為相關領域的科學研究和工程應用提供理論指導和技術支持�。專著內容涵蓋理論與應用兩大內容,理論包括金屬材料的動態(tài)本構模型��、狀態(tài)方程的確定���、損傷特性分析與失效機制模擬等關鍵技術點���,在應用層面結合實驗數(shù)據(jù)和多尺度數(shù)值模擬方法,對金屬材料的動態(tài)響應進行全面系統(tǒng)的分析和研究����。 在理論分析部分���,全面闡述了金屬材料動態(tài)失效理論發(fā)展脈絡�,系統(tǒng)分析了狀態(tài)方程與動態(tài)本構模型的演化歷史與應用現(xiàn)狀�。在狀態(tài)方程層面,采用多尺度沖擊技術和分子動力學方法確定Mie-Grüneisen狀態(tài)方程�����,為金屬材料在不同壓力和溫度下的動態(tài)行為提供準確描述����。在動態(tài)本構層面����,提出了包括修正Johnson-Cook本構模型在內的新型動態(tài)本構模型,用于描述金屬材料在高速沖擊和高應變率下的動態(tài)行為�。 在多尺度方法部分�,專著給出了包括第一性原理��、分析動力學�����、有限元的多尺度分析方法在金屬材料動態(tài)失效分析中的應用實例���,本書的研究成果不僅豐富了金屬材料動態(tài)失效理論�,還為相關領域的科研人員和工程技術人員提供了實用的分析方法和技術指導��,具有重要的理論意義和應用價值�����。
王云天���,工學博士�����,畢業(yè)于四川大學結構工程專業(yè)�,期間獲得國家留學基金委資助前往新加坡國立大學進行為期一年的聯(lián)合培養(yǎng)��。一直從事沖擊動力學相關研究�����,主要研究方向包括第一性原理、分子動力學�����、多尺度模擬�、結構數(shù)值仿真研究等領域��。主研參與國家自然科學基金項目1項��、重點實驗室基金項目2項���,完成橫向委托課題多項,累計發(fā)表核心及以上學術論文13篇��,其中SCI期刊論文5篇�,現(xiàn)為第三批省級職業(yè)院校緊缺領域教師技藝技能傳承創(chuàng)新平臺成員��、第四批四川省職業(yè)學校名師工作室成員����。
第 1 章 金屬材料動態(tài)失效研究概述··································································.1
1.1 研究背景··························································································.1
1.2 研究動態(tài)··························································································.3
1.2.1 金屬材料動態(tài)本構關系·······························································.3
1.2.2 金屬材料高壓狀態(tài)方程·······························································.7
1.3 理論基礎··························································································10
1.3.1 金屬材料動態(tài)損傷與失效····························································10
1.3.2 金屬材料強動載荷下的層裂·························································18
1.4 本書工作··························································································22
第 2 章 金屬材料偏量本構模型建立與模型參數(shù)識別·············································25
2.1 修正 JOHNSON-COOK 本構模型·······························································25
2.1.1 Johnson-Cook 本構模型·······························································25
2.1.2 力熱能量密度等效理論·······························································26
2.1.3 修正 Johnson-Cook 本構模型························································29
2.2 TI-6AL-4V 合金本構模型······································································30
2.3 模型參數(shù)敏感度全局分析與識別方法······················································34
2.3.1 參數(shù)敏感度分析方法··································································34
2.3.2 模型參數(shù)識別方法·····································································35
2.4 動態(tài)本構模型驗證··············································································37
2.4.1 修正 Johnson-Cook 本構模型驗證··················································38
2.4.2 Ti-6Al-4V 合金兩相本構模型驗證 ·················································47
2.5 本章小結··························································································53
第 3 章 高壓狀態(tài)方程的確定與應用··································································55
3.1 多尺度沖擊技術(MSST)···································································55
3.1.1 MSST 理論 ··············································································56
3.1.2 沖擊波穩(wěn)定性控制·····································································57
3.2 理論分析體系····················································································58
3.2.1 Hugoniot 壓力(PH)與內能(EH) ···············································58
3.2.2 冷壓(Pc)與冷能(Ec) ····························································59
3.2.3 Grüneisen 系數(shù)(γ)···································································60
3.2.4 熔化溫度(Tm)········································································62
3.2.5 Mie-Grüneisen 狀態(tài)方程······························································62
3.3 MSST 計算模型 ·················································································63
3.4 結果與討論·······················································································64
3.4.1 沖擊 Hugoniot 線(PH���、EH) ·······················································64
3.4.2 冷壓與冷能(PC�、EC) ······························································68
3.4.3 Grüneisen 系數(shù)(γ)···································································69
3.4.4 熔化溫度(Tm)········································································71
3.4.5 Mie-Grüneisen 狀態(tài)方程······························································72
3.5 本章小結··························································································74
第4章 多尺度分析方法應用——金屬材料高應變率下動態(tài)失效機制分子動力學
模擬·································································································75
4.1 孔洞成核與生長模型···········································································75
4.2 分子動力學模型與分析方法··································································77
4.2.1 分子動力學模型········································································77
4.2.2 分析方法·················································································77
4.2.3 勢函數(shù)驗證··············································································78
4.3 結果與討論·······················································································79
4.3.1 溫度對拉應力的影響··································································79
4.3.2 溫度對孔洞體積分數(shù)的影響·························································81
4.3.3 位錯分析(DXA) ····································································86
4.3.4 徑向分布函數(shù)分析(RDF)·························································88
4.3.5 共鄰分析(CNA) ····································································89
4.3.6 溫度對 NAG 模型參數(shù)影響··························································93
4.4 本章小結··························································································95
第 5 章 多尺度分析方法應用——金屬材料強動載荷下層裂行為與機制分子
動力學模擬························································································97
5.1 分子動力學模型與分析方法··································································98
金屬材料動態(tài)失效理論與多尺度分析方法 X
5.1.1 分子動力學模型········································································98
5.1.2 分析方法·················································································99
5.2 結果與討論····················································································.100
5.2.1 層裂過程中波形演化·······························································.102
5.2.2 層裂自由面速度曲線演化·························································.106
5.2.3 層裂強度分析········································································.109
5.2.4 層裂特性分析········································································.112
5.2.5 溫度對經(jīng)典層裂的影響····························································.117
5.2.6 溫度對微層裂的影響·······························································.124
5.2.7 自由面速度曲線與損傷演化······················································.131
5.3 本章小結·······················································································.134
第 6 章 多尺度分析方法應用——動態(tài)本構模型在結構動態(tài)失效行為數(shù)值模擬·········.136
6.1 鉭層裂自由面速度曲線特征多尺度模擬研究··········································.137
6.1.1 計算模型··············································································.138
6.1.2 模型參數(shù)··············································································.139
6.1.3 模型參數(shù)驗證········································································.141
6.1.4 結果與分析···········································································.143
6.2 鉭靶板在高速彈丸撞擊下的損傷行為模擬研究·······································.150
6.2.1 計算模型··············································································.151
6.2.2 模型參數(shù)··············································································.152
6.2.3 結果與分析···········································································.153
6.3 爆炸載荷下金屬管道動態(tài)響應模擬研究················································.162
6.3.1 計算模型··············································································.163
6.3.2 模型參數(shù)··············································································.164
6.3.3 結果與分析···········································································.165
6.4 本章小結·······················································································.172
第 7 章 研究小結與展望 ··············································································.174
7.1 小結·····························································································.174
7.2 展望·····························································································.177
參考文獻 ···································································································.179
