《鈑金與模具專業英語》是化學工業出版社2010年8月1日出版的圖書,適用於航空、汽車等本(專)科鈑金與模具專業以及相關專業英語課程教學及畢業設計。
基本介紹
- 書名:鈑金與模具專業英語
- 頁數:137頁
- 裝幀:平裝
- 開本:16
圖書信息,內容簡介,目錄,
圖書信息
出版社: 化學工業出版社; 第1版 (2010年8月1日)
叢書名: 高等學校材料成形類專業規劃教材
平裝: 137頁
正文語種: 英語, 簡體中文
開本: 16
ISBN: 7122084698, 9787122084699
條形碼: 9787122084699
尺寸: 25.8 x 17.8 x 0.6 cm
重量: 240 g
內容簡介
《鈑金與模具專業英語》內容包括鈑金與模具專業英文摘要的撰寫、金屬板材成形工藝、金屬板材成形衝壓模具設計、塑件壓注模和注射模設計、鍛模設計與製造、模具材料、模具製造工藝、CAD/CAM及其他先進成形方法。全書緊緊圍繞鈑金與模具專業選材,難詞講解透徹,給出詳細分析,同時對一直困擾廣大畢業生畢業設計英文摘要的撰寫提供了切實的指導,真正體現了專業英語課,不僅要幫助學生掌握翻譯專業英語技術資料方法,更應肩負起提高在校本(專)科生撰寫畢業論文英文摘要水平的責任。
《鈑金與模具專業英語》適用於航空、汽車等本(專)科鈑金與模具專業以及相關專業英語課程教學及畢業設計,也可供專業技術人員參考。
目錄
Chapter 1 Abstract
1.1專業英語概念
1.2專業英語學習方法
1.3專業英語翻譯技巧
1.4英文摘要寫作要領
1.5沖模英文摘要例文
1.6塑模英文摘要例文
Chapter 2 Processes of Metal Forming
2.1 Stamping
2.1.1 Blanking
2.1.2 Punching
2.1.3 Perforating
2.1.4 Shearing
2.1.5 Cutoff
2.1.6 Strip Parting
2.1.7 Notching and Seminotching
2.1.8 Shaving
2.1.9 Lancing
2.1.10 Product Parting
2.1.11 Trimming
2.1.12 Bending
2.1.13 Straight Flanging
2.1.14 Stretch Flanging
2.1.15 Shrink Flanging
2.1.16 Joggled Flanging
2.1.17 Reverse Flanging
2.1.18 Hole flanging
2.1.19 Twisting
2.1.20 Stretch Forming
2.1.21 Drawing
2.1.22 Corrugating
2.1.23 Embossing
2.1.24 Curling and Wiring
2.1.25 Hemming and Seaming
2.1.26 Dimpling
2.2 Open-Die Forging
2.2.1 Open-Die Forging
2.2.2 Upsetting
2.2.3 Drawing Out
2.2.4 Mandrel Drawing
2.2.5 Punching
2.2.6 Punch Expanding
2.2.7 Mandrel Expanding
2.2.8 Bending
2.2.9 Offset
2.2.10 Twisting
2.2.11 Cutting
2.2.12 Forging Welding
2.2.13 Indentation
2.2.14 Necking
2.2.15 Chamfering
2.2.16 Rolling
2.2.17 Radial Forging
2.3 Closed-Die Forging
2.3.1 Closed-Die Forging with Flash
2.3.2 Closed-Die Forging without Flash
2.3.3 Multi-Ram Forging
2.3.4 Coining
2.3.5 Isothermal Forging
2.3.6 Powder Metal(PM)Forging
2.3.7 Hobbing
2.3.8 Preforming
2.3.9 Preforging
2.3.10 Finish-Forging
2.3.11 Trimming
2.3.12 Punching the Wad
2.4 Extrusion
2.4.1 Forward Extrusion
2.4.2 Backward Extrusior
2.4.3 Combined Extrusion
2.4.4 Nonlubricated Hot Extrusion
2.4.5 Lubricated Direct Hot Extrusion
2.4.6 Hydrostatic Extrusion
2.5 Rolling
2.5.1 Sheet Rolling
2.5.2 Shape Rolling
2.5.3 Tube Rolling
2.5.4 Ring Rolling
2.5.5 Rotary Tube Piercing
2.5.6 Gear Rolling
2.5.7 Roll Forging(Reducer Rolling)
2.5.8 Cross Rolling(Wedge Rolling)
2.5.9 Surface Rolling
2.5.10 Tube Reducing(Rocking)
2.5.11 Roll Forming(Contour Roll Forming)
2.5.12 Roll Bending(Three-Roll Forming)
2.6 Drawing
2.6.1 Drawing
2.6.2 Drawing Through Rolls
2.6.3 Tube Sinking
2.6.4 Ironing(Drawing)
2.7 Other Forming Processes
2.7.1 Orbital Forging
2.7.2 Spinning
2.7.3 Shear Forming(Flow Turning)
2.7.4 Electro-Upsetting
2.7.5 Electromagnetic Forming(Magnetic Pulse Forming)
2.7.6 Marform Process
2.7.7 Rubber Pad Forming
2.7.8 Rubber-diaphragm Hydroforming
2.7.9 Bulging
2.7.10 Nosing
2.7.11 Explosive Forming
2.7.12 Androforming
2.7.13 Age Forming
2.7.14 Creep Forming
2.7.1 5 Die-Quench Forming
2.7.16 Vacuum Forming
Chapter 3 Dies For Sheet Metal Forming
3.1 Dies For Sheet Metal Forming
3.1.1 Blanking Dies
3.1.2 Bending Dies
3.1.3 Drawing Dies
3.1.4 Hole Flanging Dies
3.1.5 Compound Dies
3.1.6 Combination Dies
3.1.7 Progressive Dies
3.2 Blanking Technique
3.2.1 Cutting Operations
3.2.2 Shear Action
3.2.3 Center of Pressure
3.2.4 Clearance
3.2.5 Cutting Forces and Stripping Force
3.2.6 Press Tonnage
3.2.7 Center of Pressure
3.3 Piercing and Blanking Die Design
3.3.1 Piercing Die Design
3.3.2 Blanking Die Design
3.3.3 Compound Die Design
Chapter 4 Dies for Forging
4.1 Features of Impression
4.2 Typical Forging Dies
4.2.1 Forging Dies Used on Hammers
4.2.2 Trimming and Punching Dies
4.3 Failure of Forging Dies
Chapter 5 Die Materials
5.1 Tool Steels
5.2 Die Materials for Hot Forming
5.3 Die Materials for Cold Forming
Chapter 6 Die Manufacture
6.1 Conventional Machines
6.2 NC Machining
6.3 Electrochemical Machines
6.4 Other Diemaking Methods
Chapter 7 A Brief Introduction to Metal
Forming Machines
7.1 Mechanical Presses
7.1.1 Working Principle
7.1.2 Common Types
7.2 Screw Presses
7.2.1 Working Principle
7.2.2 Basic Types of Drives
7.3 Hydraulic Presses
7.3.1 Working Principle
7.3.2 Drive System
7.4 Forging Hammers
7.4.1 Working Principle
7.4.2 Common Types
Chapter 8 Plastics
8.1 Thermosetting or Thermoplastic
8.2 Fillers
8.3 Properties
Chapter 9 Compression Molding for Plastics
9.1 Types of Molds for Compression Molding
9.2 Designing Plastic Parts
Chapter 10 Transfer Molding and Injection Molding
10.1 Transfer Molding
10.2 Injection Molding
10.2.1 General
10.2.2 Basic Mold Construction
10.2.3 Three.Plate Molds
10.2.4 Gate design
Chapter 11 The Injecfion Molding Machine
11.1 Injection Molding Machine
11.2 Mold Temperature Control
Chapter 12 CAD/CAM
12.1 Computer-Aided Design and Computer-Aided Manufacturing
12.2 Rational for CAD/CAM
12.3 NC and NC Machine
12.3.1 Numerical Control(NC)
12.3.2 Classifications of NC Machines
Chapter 13 Advanced Metal Forming Technology
13.1 Laser Stereolithography
13.1.1 Principle of Laser Stereolithography
13.1.2 Main Type and Configuration of Laser Stereollthography
13.1.3 Applications of Laser Stereolithography
13.1.4 Characteristics and Inadequacies of Laser Stereolithography
13.2 Precision Forging of Gears
13.2.1 Hot Precision Forging of Gears
13.2.2 Cold Precision Forging of Gears
13.3 Orbital Cold Forging
13.4 HCPDD
13.4.1 Hydraulic Counter Pressure Deep Drawing of Car Body Skin Panel
13.4.2 Simplified Hydraulic Counter Pressure Deep Drawing with an Inverted Chamber
13.4.3 Hydraulic Counter Pressure Deep Redrawing
13.5 Precision Forging Dies
13.6 Moire Modelling Technique
13.6.1 High Resolution Strippable Transfer Moire Grid(Type FG)and Reflective Moire's Grid(Type F-FG)
13.6.2 Automatic Photoelectric Scanning Image Processing System of Moire Pattern
13.6.3 Automatic Digital Image Processing System of Moire Pattern by CCD Camera
13.7 Examining Contact Condition of Interfaces Between Dies and the Forging by Ultrasonic Method
13.8 Application of Simulation Technique in Sheet Metal Forming
13.8.1 Bending and Flanging
13.8.2 Deep Drawing of Round Cups
13.8.3 Deep Drawing of Square Rectangular Cups
13.9 Application of Simulation Technique in Cold Forging
13.9.1 Metal Flow in Cold Forging of Bevel Gears
13.9.2 Increasing Punch Life in Cold Forging of Bevel Gears
13.10 Application of Rigid Visco-Plastic Finite Element in the Reforming of Light-Weight Vehicle Construction
13.10.1 Forging Process of The Rear Lower Arm
13.10.2 Simulation of the Rear Lower Arm Forging
References