Welding Technology 6.0

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ABOUT Welding Technology

✴ The App Advance Welding Technology is useful for all engineering students and professionals it has a list 200 topics with detailed. Aim of the engineering app to provide quality of education to mechanical engineering students who are learning about welding technology. ✴ The Advance Welding Technology is a mechanical engineering app which covers important topics, notes, video tutorial, news & blogs on the course. Download the App as a reference material & digital book for mechanical engineering programs & degree courses. ✴ Now you can study anytime, anywhere through the mechanical engineering app. Welding Technology has lot of features like you can track your learning, set reminders, edit the study material, add favorite topics, and share the topics with friends. Some of important and most searched topics by mechanical engineering students are RC WELDING, GAS WELDING, TIG WELDING, MIG, SMAW, WHAT IS WELDING, INTRODUCTION OF WELDING, MIG WELDING, GAS METAL ARC WELDING, ARC WELDING POWER SOURCES, GAS TUNGSTEN ARC WELDING, THE SMAW PROCESS, FUSION WELDING, ARC, SPOT WELDING and WELDING SYMBOLS Use this useful engineering app as your tutorial, digital book, a reference guide for syllabus, course material, project work, sharing your views on the blog. ⇢ Some of the topics Covered in the app are:- 1. INTRODUCTION OF WELDING 2. CONVENTIONAL WELDING PROCESSES 3. WELDING WITH PRESSURE 4. FUSION WELDING 5. INTRODUCTION TO ADVANCED PROCESS DEVELOPMENT TRENDS 6. SAFETY AND ENVIRONMENTAL FACTORS 7. AREAS FOR DEVELOPMENT OF WELDING PROCESSES 8. INTRODUCTION TO ENERGY SOURCES USED FOR FUSION WELDING 9. ENERGY-SOURCE INTENSITY 10. INTRODUCTION TO HEAT FLOW IN FUSION WELDING 11. MATHEMATICAL FORMULATIONS IN HEAT FLOW IN FUSION WELDING 12. PARAMETRIC EFFECTS OF HEAT FLOW IN FUSION WELDING 13. THERMO PHYSICAL PROPERTIES OF SELECTED ENGINEERING MATERIALS 14. INTRODUCTION TO FLUID FLOW PHENOMENON DURING WELDING 15. GAS TUNGSTEN ARC WELDING 16. DEEP-PENETRATION ELECTRON BEAM AND LASER WELDS 17. GAS METAL ARC WELDING 18. Submerged Arc Welding 19. INTRODUCTION TO TRANSFER OF HEAT AND MASS TO THE BASE METAL IN GAS-METAL ARC WELDING 20. HEAT TRANSFER IN GAS-METAL ARC WELDING 21. PROCEDURE DEVELOPMENT TRANSFER OF HEAT AND MASS TO THE BASE METAL IN GAS-METAL ARC WELDING 22. INTRODUCTION TO ARC PHYSICS OF GAS-TUNGSTEN ARC WELDING 23. ELECTRODE REGIONS AND ARC COLUMN IN GTAW 24. ARC WELDING POWER SOURCES 25. POWER SOURCE SELECTION 26. PULSED POWER SUPPLIES 27. Resistance Welding Power Sources 28. ELECTRON-BEAM WELDING POWER SOURCES 29. INTRODUCTION TO WELD SOLIDIFICATION 30. COMPARISON OF CASTING AND WELDING SOLIDIFICATION 31. SOLIDIFICATION OF ALLOY WELDS (CONSTITUTIONALSUPERCOOLING) 32. DEVELOPMENT OF WELD MICROSTRUCTURES 33. EFFECT OF WELDING RATE ON WELD POOL SHAPE AND MICROSTRUCTURE 34. BRAZING 35. SOLDERING 36. PHYSICAL PRINCIPLES OF BRAZING 37. ELEMENTS OF THE BRAZING PROCESS 38. HEATING METHODS FOR BRAZING 39. INTRODUCTION TO FUNDAMENTALS OF SOLDERING 40. FUNDAMENTALS OF SOLDERING 41. GUIDELINES FOR FLUX SELECTION 42. TYPES OF FLUXES 43. JOINT DESIGN 44. PRECLEANING AND SURFACE PREPARATION 45. SOLDER APPLICATION 46. SOLDERING PROCESS PARAMETERS 47. SOLDERING EQUIPMENT 48. CHARACTERISTICS OF THE COMPONENTS OF A SHIELDING GAS BLEND 49. SHIELDING GAS SELECTION 50. BASIC POWER SOURCE REQUIREMENTS 51. CONVENTIONAL POWER SOURCE DESIGNS 52. DIFFUSION BONDING PROCESS 53. ELECTRONIC POWER REGULATION SYSTEMS 54. OUTPUT LEVEL, SEQUENCE AND FUNCTION CONTROL 55. MMAW CONSUMABLES 56. SUBMERGED ARC WELDING CONSUMABLES 57. FILLER WIRES FOR GMAW AND FCAW 58. INTRODUCTION TO FUNDAMENTALS OF FRICTION WELDING 59. DIRECT DRIVE WELDING 60. INERTIA-DRIVE WELDING Each topic is complete with diagrams, equations and other forms of graphical representations for better learning and quick understanding.