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高性能刀具及涂層刀具材料的切削性能

包郵 高性能刀具及涂層刀具材料的切削性能

作者:趙時璐
出版社:冶金工業出版社出版時間:2015-05-01
開本: 16開 頁數: 235
本類榜單:工業技術銷量榜
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高性能刀具及涂層刀具材料的切削性能 本書特色

第1章,系統介紹了各種高性能切削**的特點及綜合性能;第2~6章,詳細分析了高速鋼切削**、硬質合金切削**、陶瓷切削**、金剛石切削**及立方氮化硼切削**的切削性能;第7~8章,系統介紹了涂層**的特性、研究進展及應用;第9~12章,詳細分析了單一涂層**、多元復合涂層**及多元多層復合涂層**的切削性能及**涂層的各種制備技術;第13章,探討了我國涂層**的存在問題及解決對策。

高性能刀具及涂層刀具材料的切削性能 內容簡介

全書共分13章:第1章,系統介紹了各種高性能切削刀具的特點及綜合性能;第2~6章,詳細分析了高速鋼切削刀具、硬質合金切削刀具、陶瓷切削刀具、金剛石切削刀具及立方氮化硼切削刀具的切削性能;第7~8章,系統介紹了涂層刀具的特性、研究進展及應用;第9~12章,詳細分析了單一涂層刀具、多元復合涂層刀具及多元多層復合涂層刀具的切削性能及刀具涂層的各種制備技術;第13章,探討了我國涂層刀具的存在問題及解決對策。

高性能刀具及涂層刀具材料的切削性能 目錄

第1章 高性能切削**概述···································································1

1.1 高速鋼切削**··············································································1

1.1.1 通用型高速鋼切削**·······························································1

1.1.2 高性能高速鋼切削**······························································1

1.2 硬質合金切削**··········································································2

1.2.1 通用型硬質合金切削**····························································2

1.2.2 添加鉭、鈮的硬質合金切削**····················································3

1.2.3 添加稀土元素的硬質合金切削**···············································4

1.3 陶瓷切削**················································································4

1.3.1 氧化鋁系陶瓷切削**······························································5

1.3.2 氮化硅系陶瓷切削**······························································6

1.3.3 復合氮化硅—氧化鋁系陶瓷切削**············································6

1.4 金剛石切削**···························································7

1.5 立方氮化硼切削**···························································8

1.6 人造切削**的制造方法·································································8

1.6.1 熱壓法····················································································8

1.6.2 化學氣相沉積法········································································9

第2章 高速鋼切削**切削性能·························································12

2.1 通用型高速鋼切削**··································································12

2.2 高碳高速鋼切削**·····································································12

2.3 高鈷高速鋼切削**·····································································13

2.4 高釩高速鋼切削**·····································································13

2.5 含鋁高速鋼切削**·····································································13

2.6 高速鋼切削**切削試驗·······························································14

2.7 高速鋼切削**的選用··································································15

2.7.1 高速鋼**材料的選用原則······················································15

2.7.2 高速鋼**切削不同材料的工藝參數··········································18

第3章 硬質合金切削**切削性能····················································27

3.1 通用型硬質合金切削**·······························································27

3.2 添加鉭、鈮的硬質合金切削**·······················································27

3.2.1 添加鉭、鈮的硬質合金切削**概述·············································27

3.2.2 添加鉭、鈮的硬質合金切削**切削試驗······································30

3.3 添加稀土元素的硬質合金切削**···················································32

3.3.1 添加稀土元素的硬質合金**切削原理········································32

3.3.2 添加稀土元素的硬質合金**切削試驗········································33

3.4 硬質合金切削**的選用·······························································37

第4章 陶瓷切削**切削性能·····················································41

4.1 陶瓷切削**切削性能··································································41

4.1.1 陶瓷切削**切削范圍·····························································41

4.1.2 陶瓷切削**切削性能·····························································41

4.2 陶瓷切削**切削試驗··································································42

4.3 陶瓷切削**的選用·····································································46

第5章 金剛石切削**切削性能··················································56

5.1 金剛石切削**切削性能·······························································56

5.1.1 金剛石切削**切削范圍··························································56

5.1.2 金剛石切削**切削性能··························································56

5.2 金剛石切削**切削試驗·······························································58

5.2.1 切削純鉬、純鎢········································································58

5.2.2 切削硬質合金·········································································60

5.2.3 切削復合材料·········································································61

5.2.4 斷續切削···············································································63

5.2.5 施用切削液切削······································································63

5.2.6 超精密切削············································································64

5.3 金剛石切削**的選用··································································65

第6章 立方氮化硼切削**切削性能··········································72

6.1 立方氮化硼切削**切削性能·························································72

6.1.1 立方氮化硼切削**切削范圍···················································72

6.1.2 立方氮化硼切削**切削性能····················································72

6.2 立方氮化硼切削**切削試驗·························································73

6.2.1 切削淬硬鋼············································································73

6.2.2 車削冷硬鑄鐵·········································································74

6.2.3 切削硬質合金·········································································75

6.2.4 切削工程陶瓷·········································································76

6.2.5 切削工業玻璃·········································································77

6.2.6 切削復合材料········································································77

6.2.7 施用切削液切削······································································80

6.3 立方氮化硼切削**的選用····························································81

第7章 涂層**概述··············································································87

7.1 涂層**的問世及意義··································································87

7.2 涂層**的特性···········································································87

7.2.1 涂層**的優點······································································87

7.2.2 涂層**的缺點······································································88

7.3 涂層**的應用···········································································88

7.4 涂層**應用的影響因素·······························································90

7.4.1 工件材料的影響······································································90

7.4.2 **基體材料的影響································································91

7.4.3 **涂層材料的影響································································93

7.4.4 切削速度的影響······································································94

7.4.5 機床剛度的影響······································································95

7.4.6 其他參數的影響······································································95

第8章 涂層材料研究進展·····························································96

8.1 涂層材料概述·························································································96

8.1.1 涂層材料特點·········································································96

8.1.2 涂層材料分類·········································································96

8.2 涂層材料研究進展··················································································99

8.2.1 單一涂層材料··················································································101

8.2.2 多元復合涂層材料··········································································101

8.2.3 多元多層復合涂層材料····································································105

第9章 單一涂層**切削性能··································

展開全部

高性能刀具及涂層刀具材料的切削性能 相關資料

本書的完成得益于沈陽大學先進材料制備技術遼寧省重點實驗室,沈陽大學表面改性技術與材料研究所的老師和研究生的有益討論和大力支持。相關專業的專家也對本書的內容給予好評。

高性能刀具及涂層刀具材料的切削性能 作者簡介

沈陽大學副教授,遼寧省及沈陽市熱處理學會常務理事,主要從事金屬材料及材料加工工程專業的科研與教學工作,研究方向是真空鍍膜表面改性及熱處理表面改性技術。近十年,申請者一直從事多元氮化物硬質膜的研究,在合金靶材成分設計、沉積工藝控制、膜層組織結構、力學性能及切削性能檢測等方面具有充分的理論和實踐經驗。

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