鎳錳基磁相變合金及其力：磁：電耦合效應（簡體書）

本書主要以鎳錳基鐵磁形狀記憶合金為例，研究重點為Ni-Mn-Ga 薄膜、薄帶馬氏體轉變溫度調節， 變磁性相變， 磁熱和磁電阻效應及薄膜反常霍爾效應等， 特別是針對Ni-Mn-Ga 薄帶磁疇及溫度之間的原位觀察方面進行深度探討。
對於Ni-Mn-Sn 合金體系合金、薄帶、薄膜等方面的研究工作，主要從磁熱效應、原子替代、交換偏置和複相磁電耦合效應等多方面探索該類合金的相關物理性質研究。

陳峰華，副教授，博士。山西省新興產業領軍人才，太原科技大學材料科學與工程學院碩士生導師，磁電功能材料及應用山西省重點實驗室成員，山西省物理學會、山西省金屬學會會員。主要從事磁功能材料、磁製冷合金、Heusler合金薄膜磁電特性方面的基礎理論及應用研究工作。近年來在國內外期刊發表該方向研究論文30餘篇，研究論文獲山西省優秀學術論文特等獎1篇，二等獎2篇，主持並參加多項國家及省部級科研項目。

本書重點研究了鎳錳基鐵磁形狀記憶合金的力-磁-電耦合效應。

目 錄
第1 章 緒論·························································· 1
1.1 引言·································································· 1
1.2 Ni-Mn 基哈斯勒合金相關物理效應···························· 2
1.2.1 Ni-Mn 基哈斯勒合金晶體結構·························· 2
1.2.2 磁熱效應···················································· 3
1.2.3 磁阻效應···················································· 7
1.2.4 磁感應應變效應··········································· 7
1.3 Ni-Mn-Ga 磁性形狀記憶合金···································· 8
1.3.1 Ni-Mn-Ga 合金研究現狀································· 8
1.3.2 Ni-Mn-Ga 薄膜的製備··································· 10
1.3.3 Ni-Mn-Ga 薄膜的微觀結構····························· 11
1.3.4 Ni-Mn-Ga 薄膜的磁性能及應用展望·················· 12
1.4 Ni-Mn-Sn 系磁性形狀記憶合金································ 16
1.4.1 Ni-Mn-Sn 合金的晶體結構····························· 16
1.4.2 Ni-Mn-Sn 合金磁感應應變機理························ 16
1.4.3 Ni-Mn-Sn 合金薄膜的研究現狀························ 18
1.5 磁製冷技術························································ 20
1.5.1 磁製冷技術的基本原理································· 20
1.5.2 室溫磁製冷技術研究現狀······························ 20
1.5.3 Ni-Mn-X(X =In,Sn,Sb)合金磁製冷研究現狀····· 26
1.6 本書的主要研究內容············································ 27
參考文獻·································································· 29
第2 章 試樣製備及測試方法···································· 41
2.1 樣品製備··························································· 41
2.1.1 合金熔煉製備············································· 41
2.1.2 薄膜、薄帶製備·········································· 42
2.2 測試方法··························································· 43
2.2.1 物相結構分析············································· 43
2.2.2 掃描電子顯微鏡·········································· 44
2.2.3 原子力顯微鏡············································· 46
2.2.4 差熱分析儀················································ 46
2.2.5 掃描探針顯微鏡·········································· 46
2.2.6 多功能振動樣品磁強計································· 47
2.2.7 電阻率及磁電阻測試···································· 50
2.2.8 等靜壓力-磁耦合特性測試····························· 51
參考文獻································································· 52
第3 章 Ni-Mn-Ga 合金薄帶製備及磁電特性研究·········· 53
3.1 引言································································· 53
3.2 Ni-Mn-Ga 薄帶熱處理及其影響································ 53
3.2.1 熱處理溫度對Ni-Mn-Ga 晶體結構的影響··········· 53
3.2.2 熱處理溫度對Ni-Mn-Ga 相變溫度的影響··········· 55
3.2.3 熱處理溫度對Ni-Mn-Ga 微觀組織的影響··········· 58
3.2.4 熱處理溫度對Ni-Mn-Ga 微觀組織的影響··········· 61
3.3 Ni-Mn-Ga 合金薄帶相變過程磁性能動態研究·············· 69
3.3.1 馬氏體相變過程中的磁性能···························· 69
3.3.2 馬氏體相變過程中形貌及磁疇原位觀察············· 71
3.3.3 不同外加磁場對相變溫度的影響······················ 76
3.4 Ni-Mn-Ga 合金薄帶相變過程中磁電阻特性················· 80
3.5 本章小結··························································· 82
參考文獻································································· 83
第4 章 Ni-Mn-Ga 薄膜磁電特性及反常霍爾效應研究·····88
4.1 引言································································· 88
4.2 Ni2MnGa 合金薄膜的微觀組織································· 89
4.3 Ni2MnGa 合金薄膜相變特性研究······························ 90
4.4 Ni2MnGa 合金薄膜的磁性能···································· 93
4.5 Ni-Mn-Ga 薄膜的磁電阻特性··································· 95
4.6 Ni-Mn-Ga 薄膜反常霍爾效應特性····························· 98
4.7 本章小結························································· 101
參考文獻································································ 102
第5 章 元素摻雜對Ni-Mn-Sn 合金相變調控及
磁熱特性研究·········································· 104
5.1 引言······························································· 104
5.2 Co 摻雜對晶體結構及相變溫區調控························ 105
5.2.1 Co 摻雜對晶體結構的影響··························· 105
5.2.2 Co 摻雜對相變溫度及居裡點調控··················· 106
5.2.3 Co 摻雜對磁製冷能力的影響························ 108
5.3 Ti 摻雜對Ni-Mn-Sn 合金相變溫度及
磁製冷能力影響················································ 115
5.3.1 Ti 摻雜對晶體結構及組織的影響··················· 116
5.3.2 Ti 摻雜對相變溫度及居裡點的影響················· 118
5.3.3 Ti 摻雜對磁製冷能力的影響························· 120
5.4 本章小結························································· 124
參考文獻································································ 125
第6 章 取向Ni-Mn-Sn 薄帶及其
力-磁-電特性··········································· 131
6.1 引言······························································· 131
6.2 Ni-Mn-Sn 薄帶晶體結構及微觀組織························ 132
6.3 取向生長Ni-Mn-Sn 薄帶磁製冷特性······················· 134
6.4 薄帶馬氏體相變過程中磁電阻特性························· 141
6.5 等靜壓對取向薄帶馬氏體相變及磁熱特性影響··········· 148
6.6 等靜壓對薄帶交換偏置特性的影響························· 151
6.7 本章小結························································· 152
參考文獻······························································· 153
第7 章 總結與展望··············································· 159