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英文专著-镁合金及其应用(Magnesium alloys and their applications)
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Magnesium alloys and their applications 论坛有很多人求助这本书,而论坛中原有链接的下载地址已过期 原链接见http://muchong.com/bbs/viewthread.php?tid=1022597&fpage=1&target=blank 现重新上传分享给大家学习交流  内容简介如下: In the recent years there has been a dramatic increase in research activity and also applications of magnesium alloys. The driving force is the growing demand by the automobile industry resulting from the pressure to reduce weight and hence to reduce the fuel consumption. The U.S. car industry incorporates the largest amount of magnesium at the present time. In Europe, Volkswagen had a history of using magnesium in the VW Beetle. Volkswagen, in common with other major car producers has initiated a major research and development programme for advanced magnesium materials. The main emphasis of this book is in the field of general physical metallurgy and alloy development refelcting the need to provide a wider range of alloys both casting and wrought alloys to meet the increasing demands of industry. Other topics are nevertheless well represented such as casting, recycling, joining, corrosion, and surface treatment. 目录如下: Table of contents : Cover Page......Page 1 Further Titles of Interest:......Page 3 Title: Magnesium Alloys and their Applications......Page 4 ISBN 3527302824......Page 5 Preface......Page 6 Alloy Development......Page 7 Texture and Microstructure......Page 9 Magnesium Matrix Composites......Page 10 Mechanical Development......Page 11 Corrosion and Surface Treatment......Page 13 Processing......Page 15 Creep Behaviour......Page 17 Subject Index......Page 18 Alloy Development......Page 19 2 Die Casting......Page 21 3 Thixomolding®......Page 23 4 Critical Success Factors for Growth......Page 24 5 Observations and Conclusions......Page 25 6 References......Page 26 2 Database Development......Page 27 3 Alloy Selection in the Mg-Mn-Sc-Gd System......Page 29 6 References......Page 31 1 Introduction......Page 32 1 High Performance Alloys......Page 33 2 Commercial Alloys......Page 35 3 Practical Foundry Considerations......Page 38 5 References......Page 39 1 Introduction......Page 41 2 Method of Investigation......Page 42 3 Material Properties......Page 43 5 Acknowledgements......Page 45 6 Literature......Page 46 1 Introduction......Page 47 2 Preparation of Test Material and Corrosion Testing......Page 48 3 Mechanical Properties and Castability......Page 49 5 Conclusion......Page 50 6 References......Page 51 4 Results and Discussion......Page 53 5 Conclusion......Page 57 7 References......Page 58 2 Introduction......Page 59 4 Modified Wrought Alloys Containing Zinc......Page 60 5 New Wrought Alloys Containing Lithium......Page 61 8 References......Page 63 2 Experimental Procedures......Page 65 3 Results and Discussion......Page 66 4 Conclusions......Page 69 5 References......Page 70 1 Introduction......Page 71 3 Results and Discussion......Page 72 4 Conclusions......Page 75 5 References......Page 76 2 Experimental Procedure......Page 77 3 Results and Discussion......Page 78 5 References......Page 82 1 Introduction......Page 83 2 Materials and Experimental Procedure......Page 84 3 Results......Page 85 4 Discussion......Page 88 6 References:......Page 89 2 Introduction......Page 91 3 Experimental Details......Page 92 4 Results......Page 93 5 Discussion......Page 94 6 Conclusion......Page 95 7 References......Page 96 2 Thermodynamic Calculation of the Ternary System Al-Mg-Sc......Page 97 3 Thermodynamic Calculation of the Ternary System Al-Mg-Gd......Page 99 6 References......Page 101 2 Experimental Investigation......Page 102 3 Thermodynamic Modeling......Page 104 6 References......Page 105 2 Experimental Investigation......Page 106 3 Thermodynamic Modeling......Page 108 6 References......Page 109 2 Results and Discussion......Page 110 3 Conclusions......Page 114 5 References......Page 115 2 Thermodynamic Calculations......Page 116 3 Experimental......Page 118 5 Conclusion......Page 119 7 References......Page 120 2 Experimental Procedure......Page 121 3 Results and Discussion......Page 122 4 Conclusion......Page 126 6 References......Page 127 2 Experimental Procedure......Page 128 3 Results and Discussion......Page 129 6 References......Page 133 Texture and Microstructure......Page 135 1 Introduction......Page 137 2.1 Mechanical Test Results......Page 138 4 References......Page 142 3 Sample Preparation......Page 143 4 Experimental Details of Sample Characterization......Page 144 5 Results......Page 145 7 References......Page 148 2 Experimental Procedure......Page 149 3 Results and Discussion......Page 150 5 References......Page 154 2 Experimental and Results......Page 155 4 Discussion......Page 158 6 References......Page 159 2 Experimental Methods......Page 161 3 Results and Discussion......Page 162 5 Acknowledgments......Page 165 6 References......Page 166 2 Experimental Procedure......Page 167 3 Results and Discussion......Page 168 4 Conclusions......Page 171 6 References......Page 172 2 Introduction......Page 173 4 Simulation Models......Page 174 5 Results and Discussion......Page 176 7 References......Page 178 3 Materials and Experimental Methods......Page 179 4 Results and Discussion......Page 180 6 Acknowledgements......Page 184 7 References......Page 185 Magnesium Applications in Aerospace and Electronic Industries......Page 186 Joining......Page 191 2 Introduction......Page 193 3 State of the Art Friction Stir Welding Tools......Page 194 4 Probe and Shoulder Design of Whorl™ Friction Stir Welding Tools......Page 195 5 Workpiece Materials......Page 197 6 Weld Quality......Page 198 7 Microstructure of Friction Stir Welds in Magnesium......Page 200 8 Friction Stir Welded Aluminium Tanks in the Aerospace Industry......Page 202 9 Friction Stir Welded Aluminium Panels in the Shipbuilding Industry......Page 203 11 Friction Stir Welded Hollow Aluminium Panels in the Rolling Stock Industry......Page 205 12 Commercially Available Powerstir™ and SuperStir™ Machines......Page 206 14 References......Page 207 3 Basic Observation......Page 209 4 TheMechanism of Pore Formation......Page 211 5 The influence of the Welding Parameters......Page 212 6 Reduced Porosity Compared to Die-casted Aluminium......Page 213 7 Influence of the Plate Thickness......Page 214 8 Other Pore ReductionMethods......Page 215 10 Acknowledgment......Page 216 11 References......Page 217 3 Inert-gas Metal-arc Welding (MIG)......Page 218 4 Metallographic Investigations and Weld Profile......Page 220 5 Strength of MIG-welded Magnesium Alloys......Page 221 7 References......Page 222 Magnesium Matrix Composites......Page 223 2 Inserts......Page 225 3 Embedding of Inserts......Page 227 4 Modeling......Page 228 6 Conclusions......Page 230 8 References......Page 231 2 Introduction......Page 233 3 Experimental......Page 234 4 Results and Discussion......Page 235 6 Acknowledgements......Page 237 7 References......Page 238 2 Introduction......Page 239 3 Experimental Procedures......Page 240 4 Results and Discussion......Page 241 5 Conclusions......Page 245 6 Reference......Page 246 2 Experimental Procedure......Page 247 3 Experimental Results and Discussion......Page 248 6 References......Page 251 1 Introduction......Page 252 2 Experimental Materials and Procedures......Page 253 3 Results and Discussion......Page 254 6 References......Page 256 1 Introduction......Page 258 3 Chemical Reactions Between Preform and Magnesium......Page 259 4 Structure Investigations......Page 260 6 Creep-Behaviour of Magnesium Matrix Composites......Page 261 8 Literature......Page 262 1 Introduction......Page 264 3 Results and Discussion......Page 265 6 References......Page 268 1 Introduction......Page 270 3 Investigation Results......Page 271 5 References......Page 274 2 Experimental Procedure......Page 275 3 Result and Discussions......Page 276 5 References......Page 280 2 Materials......Page 281 3 Dynamic Compression Tests......Page 282 4 Fractography......Page 284 6 References......Page 285 Mechanical Development......Page 287 2 Electrochemical Behavior......Page 289 4 Corrosion Protection......Page 290 5 References......Page 291 2 Experimental Method......Page 292 3 Results......Page 293 4 Discussion......Page 295 5 Conclusions......Page 296 6 References......Page 297 2 Experimental Procedure......Page 298 3 Results and Discussion......Page 299 5 Acknowledgments......Page 301 6 References......Page 302 2 Experimental Procedure......Page 303 3 Results and Discussion......Page 304 5 References......Page 308 2 Feedstock Material......Page 309 3 Heating Operation......Page 310 5 Testing Operation......Page 311 6 Results......Page 312 8 References......Page 313 2 Determination of Material Properties......Page 314 3 Verification Tests......Page 317 4 Summary......Page 320 5 References......Page 321 2 Materials and Mechanical Properties......Page 322 3 Fatigue Test Results and Comparison with other Materials......Page 324 4 Conclusions......Page 328 5 Acknowledgement......Page 329 2 Introduction......Page 330 4 Results and Discussion......Page 331 6 References......Page 335 2 Precipitate Phases in Alloy WE54......Page 336 3 Precipitates in Alloy AZ91......Page 338 4 References......Page 341 2 Material Behaviour at High Strain Rates and Temperatures......Page 342 3 Constitutive Material Law for Dynamic Loading......Page 343 4 Influence of Strain Rate and Temperature on Ductility of MgAl8Zn......Page 345 6 References......Page 347 3 Experimental Details......Page 348 4 Results and Discussion......Page 350 7 References......Page 353 2 Introduction......Page 354 3 Experimental Procedure......Page 355 4 Results and Discussion......Page 356 5 Conclusions......Page 358 6 References......Page 359 2 Superplasticity......Page 360 3 Experimental Procedure......Page 361 4 Results......Page 363 6 References......Page 365 2 Experimental......Page 366 3 Results and Discussion......Page 367 5 Acknowledgements......Page 370 6 References......Page 371 2 Experimental Procedure......Page 372 3 Results and Discussion......Page 373 5 References......Page 376 1 Introduction......Page 377 2 Characterization of the Deformation and Damage Behavior......Page 378 3 Component Tests and Simulations......Page 381 5 References......Page 382 1 Extended Abstract......Page 383 2 USCAR Program......Page 384 3 EUCAR Chassis Program......Page 385 Application......Page 389 2 Basic Knowledge......Page 391 3 Drilling......Page 392 4 Compression of Dry Chips......Page 395 5 Summary / Outlook......Page 396 6 Literature......Page 397 2 Introduction......Page 398 3 Preliminary Design, Material Selection and FEM Analyses......Page 399 4 Prototype Casting Process Development......Page 400 5 Prototype Static, Impact and Fatigue Tests......Page 402 6 Summary......Page 403 7 References......Page 404 2 The Starting Point......Page 405 5 Selection of Development Partners......Page 406 6 Selected Development Priorities......Page 407 8 Outlook......Page 408 2. Wheel Engineering......Page 409 3. Alloy Selection......Page 410 4. Manufacturing......Page 411 5. Conclusion......Page 413 Acknowledgement......Page 414 3 Cost and Weight Saving......Page 415 6 References......Page 419 Cast Magnesium Alloys For Wide Application......Page 420 2 Cutting Experiments......Page 424 3 Burnishing Experiments......Page 427 5 Acknowledgement......Page 428 6 References......Page 429 1 Introduction......Page 430 2 Mechanisms of Tool Wear......Page 431 3 ToolWear......Page 432 4 Surface Topography and Subsurface Zone......Page 434 5 References......Page 435 3 Effects on Properties......Page 436 5 References......Page 440 Corrosion and Surface Treatment......Page 441 2 Experimental Results......Page 443 3 Discussion......Page 447 6 References......Page 448 2 Experimental......Page 450 3 Results......Page 451 5 Conclusion......Page 455 6 References......Page 456 1 Introduction......Page 457 3 Results and Discussion......Page 458 4 Conclusions......Page 461 6 References......Page 462 2 Experimental Procedures......Page 463 3 Results and Discussion......Page 464 5 References......Page 468 2 Introduction......Page 469 3 Molten Handling......Page 470 4 Casting Knock-out and Cleaning......Page 472 5 Casting Storage/Temporary Protection......Page 473 7 References......Page 474 2 Introduction......Page 475 3 Experimental Procedure......Page 476 4 Results and Discussion......Page 477 5 Summary......Page 479 6 References......Page 480 Introduction......Page 481 Experimental......Page 482 Results and Discussion......Page 483 References......Page 486 2 Experimental......Page 487 3 Adhesive Bonding Tests......Page 488 4 Results and Discussion......Page 489 5 Conclusions......Page 491 7 References......Page 492 3 Material......Page 493 4 Development of Alternative Conversions......Page 494 5 Characterisation......Page 495 8 Bibliography......Page 501 2 Introduction......Page 502 3 The R&D ANOMAG Pilot Plant......Page 504 5 Corrosion and Paint Adhesion Test......Page 506 6 Costs......Page 508 8 Bibliography......Page 509 1 Introduction......Page 510 2 Paint Finish for Automotive Bodies......Page 511 3 Experimental Work......Page 512 4 Conclusion......Page 515 5 References......Page 516 1 Introduction......Page 517 3 Results and Discussion......Page 519 4 Conclusions......Page 522 5 References......Page 523 2 Experimental......Page 524 3 Results and Discussion......Page 527 6 References......Page 531 1 Introduction......Page 532 2 Experimental procedures......Page 533 3 Results and Discussion......Page 534 5 References......Page 536 2 Experimentals......Page 537 3 Results......Page 538 5 Conclusions......Page 541 6 References......Page 542 Introduction......Page 543 Experimental......Page 544 Results and Discussion......Page 545 References......Page 547 Processing......Page 549 2 The New Rheocasting (NRC) Process......Page 551 3 Microstructural Considerations and Mechanical Properties......Page 554 6 References......Page 556 2 Design Considerations......Page 558 3 Input Data......Page 560 4 Summary......Page 564 5 References......Page 565 2 Simulation in the Design Process of a Magnesium Wheel......Page 566 4 Simulation of the Start Design......Page 567 5 Optimization of Casting Design and Casting Process......Page 569 6 Summary......Page 570 2 Introduction......Page 571 3 A new Device for Magnesium Low Pressure Sand Casting......Page 572 4 Development Results......Page 573 5 Thin-walled Parts......Page 574 7 Conclusion......Page 575 2 Introduction......Page 576 3 Determination of Material Parameters......Page 578 4 Discussion......Page 579 6 References......Page 580 1 Introduction......Page 582 2 Continuous Casting Technology......Page 583 4 Conclusion......Page 587 6 References......Page 588 2 Experimental Procedures......Page 589 3 Results and Discussion......Page 590 6 References......Page 593 1 Introduction......Page 595 2 Injection Cycle......Page 596 3 Semi–Solid Magnesium Influences the Processing Conditions......Page 597 4 Molds......Page 598 5 MoldedParts......Page 599 6 Summary......Page 600 8 References......Page 601 2 Introduction......Page 602 4 Results......Page 603 5 Conclusions......Page 606 7 References......Page 607 2 Introduction......Page 608 4 Fundamentals and Results......Page 609 5 Applications......Page 612 7 References......Page 613 2 Production of the Investigated Alloys......Page 614 3 Results and Discussion......Page 615 4 Conclusions......Page 618 5 Literature......Page 619 2 Wrought Magnesium Alloys......Page 620 3 Magnesium Section Technology......Page 621 4 Magnesium Sheet Technology......Page 623 5 Summary and Outlook......Page 625 6 Literature......Page 626 2 The Principles of Hydrostatic Extrusion......Page 627 4 Mechanical Proerties and Micro Structure......Page 629 5 Feasibility of Hydrostatic Extrusion......Page 631 2 Properties of the Tested Sheet Materials......Page 633 4 Deep Drawing Tests of Cylindrical Cups at Room Temperature......Page 635 5 Drawing and Press Bending of Structural Components......Page 637 7 References......Page 638 2 Material – Original Microstructure – Experimental......Page 639 3 Hot Forming Behavior of Mg Material AZ 61......Page 641 4 Cold Forming Behavior of Mg Material AZ 61......Page 642 5 Results of Rolling Tests......Page 643 7 References......Page 645 2 Literature Review......Page 646 3 Research Methodology......Page 648 4 Results......Page 649 5 Discussion......Page 651 7 References......Page 652 2 Experimental Procedure......Page 653 3 Results and Discussion......Page 654 4 References......Page 656 1 Introduction......Page 657 2 Compression Test Simulation under Dynamic Loading......Page 658 3 Conclusions......Page 661 5 References......Page 662 2 Experimental......Page 663 3 Results and Discussion......Page 664 6 References......Page 667 2 Experimental Procedures......Page 669 3 Results and Discussion......Page 670 4 Conclusions......Page 673 6 References......Page 674 Physical Properties......Page 675 2 Experimental Procedure......Page 677 3 Experimental Results and Discussion......Page 678 4 Conclusions......Page 681 6 References......Page 682 3 Experimental Part......Page 683 4 Results and Discussion......Page 684 6 Acknowledgements......Page 687 7 References......Page 688 2 Introduction......Page 689 3 Experimental Procedure......Page 690 4 Results and Discussion......Page 691 6 References......Page 694 2 Introduction......Page 696 3 Experimental Procedure......Page 697 4 Results and Discussion......Page 698 5 Conclusions......Page 700 7 References......Page 701 Creep Behaviour......Page 703 2 Results......Page 705 3 Discussion of the Tension/Compression Asymmetry......Page 707 4 Acknowledgments......Page 709 5 References......Page 710 2 Experimental Procedure......Page 711 3 Microstructure......Page 712 4 Mechanical Properties......Page 713 5 Discussion......Page 715 7 References......Page 716 2 Experimental Procedures......Page 717 3 Results and Discussion......Page 718 6 References......Page 722 2 Experimental Procedure......Page 723 3 Results......Page 724 4 Discussion......Page 726 5 Conclusions......Page 727 6 References......Page 728 3 Experimental......Page 729 4 Results and Discussion......Page 730 6 References......Page 733 3 Experimental......Page 734 4 Experimental Results......Page 735 5 Discussion......Page 737 7 Acknowledgements......Page 738 8 References......Page 739 Recycling, Melting, Environmental......Page 741 1 General......Page 743 2 Casting methods......Page 744 4 Pre-heating and Charging Machine......Page 745 5 Melting and Holding Furnaces......Page 746 6 Furnace Design......Page 748 8 Protective Gas Mixing System (Figure 11)......Page 750 10 Practical Casting Operation......Page 752 11 Remelting Plants......Page 753 12 Summary......Page 756 2 Experimental......Page 757 3 Results and Discussion......Page 758 4 Conclusions......Page 762 5 References......Page 763 Experimental procedure......Page 764 Results......Page 765 Discussion......Page 767 Summary and Outlook......Page 768 References......Page 769 1 Introduction......Page 770 2 Melting of Dross and Sludge with Flux......Page 771 3 Utilization of the Oxide/Salt Fraction by Leaching......Page 774 5 Acknowledgement......Page 777 6 References......Page 778 2 Sulfur Hexafluoride and Sulfur Dioxide......Page 779 4 ReactionMechanisms......Page 780 5 Distribution and Control of the SO2 Gas Mixture......Page 781 6 Health, Environment and Safety (HES) Aspects......Page 782 8 Conclusions......Page 783 9 References......Page 784 2 Impurities inMagnesium......Page 785 3 Sources of Impurities......Page 786 4 Effects of Impurity Elements and Inclusions......Page 788 5 Recovery of Magnesium from Scrap......Page 791 7 References......Page 796 Simulation......Page 799 2 Applied Methods for Determination of the Solidification Curves of Magnesium AZ-Alloys......Page 801 3 Results......Page 802 4 Discussion......Page 804 5 Conclusions......Page 805 7 References......Page 806 Author Index (with page links, to the first page of the respecting article)......Page 807 Subject Index (with page links, to the first page of the respecting article)......Page 811 |
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