书名:
材料加工工程科技英语 王快社 9787502461584 冶金工业出版社
作者: 王快社
出版社: 冶金工业出版社
版次: 1
出版日期: 2013年03月
页数: 205
定价:
29.00
元
参考重量: 0.350
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* 内容提要 *
1 Phase and Structures
1.1 Lattice Structures
1.2 The Iron-carbon Equilibrium Diagram
1.3 Crystal Structures of Iron
1.4 Effects of Carbon and Crystal Structures in Fe-C Alloys
1.4.1 Effects of carbon
1.4.2 Crystal structures in Fe-C alloys
1.5 Critical Temperatures
2 Testing Methods
2.1 Tensile Test
2.2 Hardness Tests
2.2.1 Brinell hardness test
2.2.2 Vickers hardness test
2.2.3 Rockwell hardness test
2.2.4 Other hardness tests
2.3 Dynamic Tests
2.3.1 Impact test (Charpy V-notch)
2.3.2 Fatigue test
2.3.3 Dynamic tensile and compression test
2.3.4 Creep test
2.4 Jominy Test for Hardenability
2.5 Determination of Working Loads by Consideration of Metal Flow
3 Heat Treatment
3.1 Full Annealing and Homogenizing
3.2 Normalizing and Spheroidizing
3.2.1 Normalizing
3.2.2 Spheroidizing
3.3 Structural Changes on Tempering
3.4 Thermomechanical Treatments
3.5 Surface Hardening
3.5.1 Flame hardening
3.5.2 Induction heating
4 Rolling Theory and Technology
4.1 The Nature and Purpose of Metalworking Theory
4.2 Friction and Lubrication in Metalworking
4.2.1 Influences of friction in metalworking processes
4.2.2 Elementary principles of lubrication
4.3 Introduction for Rolling
4.4 Heating before Rolling Operations
4.5 The Process of Metal Rolling
4.6 The Quality Control of Rolling Process
4.7 Several Typical Rolling Mills
4.7.1 A single mill stand
4.7.2 Tandem rolling mills
4.7.3 Cluster rolling mills
4.7.4 Planetary rolling mills
4.8 Purpose and Layout of Rolling Mills
5 Extrusion and Drawing
5.1 Introduction for Extrusion
5.1.1 The Advantages
5.1.2 The Process
5.2 Typical Properties of the Extruded Product
5.2.1 Dimensional accuracy
5.2.2 Surface finish of the extruded product
5.2.3 Material flow
5.3 Hydrostatic Extrusion Processes
5.3.1 Introduction
5.3.2 Laboratory VS production equipment
5.3.3 Hot VS cold extrusion
5.3.4 Process classification
5.4 Drawing of Rod, Wire, Shapes and Tubes
5.5 Drawing Stress
5.6 Tube Making
5.6.1 Introduction
5.6.2 Tandem drawing of tubes on a mandrel
5.6.3 Tube sinking
6 Casting, Forging and Welding
6.1 Introduction to Casting Processes
6.2 Investment Casting and Die Casting
6.2.1 Investment casting
6.2.2 Die casting
6.3 Definition of Forging Process
6.4 Several Simple Methods of Forging Process (Ⅰ)
6.5 Several Simple Methods of Forging Process (Ⅱ)
6.5.1 Hammer forging
6.5.2 Press forging
6.5.3 Upset forging
6.5.4 Roll forging
6.5.5 Ring rolling
6.6 Resistance Welding
6.6.1 Spot welding
6.6.2 Seam welding
6.6.3 Projection welding
6.6.4 Upset and flash butt welding
6.7 Fusion Welding Based on Electrical Energy through Arcing-Arc Welding
6.7.1 Metal-electrode arc welding
6.7.2 Submerged-arc welding
6.7.3 Gas metal-arc welding
6.7.4 Gas tungsten-arc welding
7 CAD and CAM
7.1 CAD/CAM Defined
7.2 The Product Cycle and CAD/CAM
7.3 Computer-aided Design of Forgings
7.3.1 Introduction
7.3.2 Battelle's die forge CAD/CAM system
7.4 CAD System for Modeling Solidification
8 Reading Materials
8.1 Stress-Strain Curves
8.2 Tubing and Tubular Products
8.2.1 Historical perspective
8.2.2 Process classification
8.2.3 Tube-making processes
8.3 Computer Analysis and Control of Rolling
6.3.1 Computer analysis of rolling
8.3.2 Computer control of rolling
8.4 Mechanical Working of Metals
8.5 Typical Examples of Mass-reducing Processes(Shearing, Blanking and Piercing)
8.5.1 Shearing (PROCESS 1)
8.5.2 Blanking and piercing (PROCESS 2)
8.6 Introduction to the Joining Processes
8.7 Means to Form Deeper Cups
8.7.1 Second draw
8.7.2 Contoured dies
8.8 Powder Metallurgy
8.8.1 Introduction
8.8.2 Characteristics of the powder metallurgical processes
8.9 Superconductivity and Applications of Superconductivity
8.9.1 Synchronous generators
8.9.2 Homopolar DC machines
8.9.3 Magnetohydrodynamic generators
8.9.4 Fusion magnets
8.9.5 Superconducting power transmission
8.9.6 Magnetic levitation
8.10 The Grades of Steels
8.11 Pouring and Solidification of Casting
8.11.1 Pouring
8.11.2 Solidification
8.12 Fusion Welding Based on Chemical Energy-gas Welding
8.12.1 The oxyacetylene flame
8.12.2 Welding techniques
8.12.3 Applications
Vaeabulary
Referenees
文摘
版权页:
插图:
(1) List the finished product of the rolling plant.
(2) What shape of the initial material in cross-section is filled into the rolling mill?
(3) Is it expedient to roll small blooms or billets in heavy blooming mills? Why?
(4) State the advantages of two-stage procedure rolling sheet and plate in modem metallurgical plants.
(5) What kind of rolling mill can serve the purpose rolling both blooms and slabs?
(6) On what does the number of rolling operations depend?
(7) List the chief operations in metal rolling production.
4.6 The Quality Control of Rolling Process
Proper control over the rolling process and quality control of the finished product are of primary impor-tance.
One quality control procedure practised in modem rolling mill departments is melt inspection on the basis of which the quality of the steel is determined and the melt is assigned for rolling. The scope of this inspection depends upon the requirements made to the grade of steel under consideration.
Melt inspection begins in the steelmaking department where samples of the melt are taken to deter-mine the average chemical composition of the steel in each melt. Usually two samples are taken from each ladle. The second sample serves to additionally check the chemical analysis. This is done in cases when it is necessary to check the content of certain elements or if such inspection is stipulated by special requirements of the customer. In certain cases, the samples for this analysis are taken in the rolling mill department from the billet or the finished product. In the last years, many elements are determined by spectrographic analysis which has become one of the most widespread physical methods of determining the chemical composition of metals and alloys.
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