- 书名:机器与设备故障预防
- 价格:¥511 (不含邮费)
- 作者:McGraw Hill
- 购买咨询电话:0756-3379626-8013
- 咨询邮箱:renee@goodlube.cn
Description
Monitoring and predictive maintenance methods are not reliable enough in indicating certain important problems in manufacturing equipment, such as cracking of power transmission components, inadequate lubrication of parts, and excessive cutting edge wear of a tool or die. Plant and Machinery Failure Prevention is based on the premise of "Zero-Failure Performance".
Author: A. A. Hattangadi
Published: 2005
Format: Hardback
Pages: 458
Excerpt: In case of ball bearing failures one of the first things to check on is the quality of the grease used. If the bearing has seized, the quality of grease in similar bearings may be checked. Bearings with a service due for grease replacement should be checked. The feel or consistency of the grease removed from the bearings should be compared with that of new grease. If the grease feels harder, drier or less slippery, if oil droplets are seen in bearing overflow vents it is an indication that some of the suspended oil has been churned out and the grease is unsuitable for the application. If the grease is of the approved brands the whole issue of approval of the brand should be reopened and the manufacturer of the grease should be notified.
Table Of Contents: 1. Introduction
2. How to Attain Zero Failure Performance
3. General Feature of Failures
4. Investigation of Failures
5. Degradation Processes (Mechanical)
6. Degradation Processes (Electrical)
7. Split Pin and Cotter Failures
8. Threaded Fastener Failures
9. Shaft or Axle Failures
10. Ball and Roller Bearing Failures
11. Sleeve Bearing Failures
12. Failures of White Metal Bearings of Electric Locomotives
13. Flat Belt Failures
14. Vee-belt Failures
15. Pulley Failures
16. Gear Failures
17. Steel Wire Rope Failures
18. Spring Failures
19. Gasket Failures
20. O-ring And U-ring Failures
21. Rubber Hose Pipe Failures
22. Pipes and Tube Failures
23. Compressed Air Valve Failures
24. Failures of Compressed Air Operated Equipment
25. Fluid Filter Failures
26. Compressed Air Motor Failures
27. Air Compressor Failures
28. Vacuum Brake Failures on DC EMUS
29. Fan and Blower Failures
30. Thermal Cracks on Motor Coach Tyres
32. Crimped Socket Failures
33. Wires and Cable Failures
34. Insulated Wire Failures
35. Auxiliary Motor Cable Failures
36. Multicore Coupler Failures
37. Knife Switch Failures
38. Parallel Clamp Failures
39. Terminal Board Failures
40. Capacitor Failures
42. Potentiometer Failures
43. Contact Failures
44. Relays Failures
45. Failures of Fuses and Miniature Circuit Breakers
46. Bus-Bar Failures
47. Failures of Lead Acid Batteries
48. Failures of Incandescent Lamps
49. Insulator Failures
50. Solenoid Failures
51. Failures of Carbon Brushes and Commutators
52. Commutator Connection Failure
53. Commutator Failures
54. Failures of Rotor or Armature Coils in dc Machines
55. Failures of Stator Coils in Rotating Machines
56. Starting Resistor Failures
57. Tapchanger Connection Failures
58. Electrical Machine Failures due to Ventilation Problems
59. Power Transformer Explosions
60. Failures of OHE Regulating Equipment
61. Minimum Oil Circuit-breaker Failures
62. Line Breaker Failures
63. Squirrel Cage Failures in Asynchronous Motors
64. Failures of Mush Wound Stator Windings
65. Pantograph OHE Entanglements
66. Failures and Accidents in Chemical Plant
Reviews:
Maximize Productivity by Keeping Plant and Equipment Downtime and Unscheduled Maintenance at a Minimum
Constant monitoring and preventive maintenance are not the most effective ways of avoiding common problems in manufacturing equipment - engineers need better, more reliable methods. Packed with expert advice, Plant and Machinery Failure Prevention is based on the premise of "zero-failure performance," a method designed to assist maintenance engineers discover and solve problems in mechanical and electrical equipment before they occur.
The author presents solid statistical as well as investigative methods for determining failures in mechanical and electrical equipment components - including flat belts, vee belts, pulleys, gears, steel wire ropes, springs, gaskets, and more - at the earliest stage possible.
Comprehensive diagnostics on the nature/causes of equipment failures
Numerous case studies to emphasize key points and procedures
Investigation methods for electrical and mechanical equipment failures