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Seminar on Murex and Root-Pass Cracking Tests
- 1. Seminar On Murex Hot-Cracking Test & Root-Pass Cracking Test Melwin D’mello M.E (Welding Engineering) Centre for Materials Joining & Research (CEMAJOR), Department of Manufacturing Engineering, ANNAMALAI UNIVERSITY Presented by
- 2. Weldability is defined as 'the capacity of a material or a combination of materials to be welded under fabrication conditions into a specific, suitably designed structure, and to perform satisfactorily in the intended service'. Metallurgical compatibility Mechanical soundness Good serviceability WELDABILITY
- 3. • Weldability depends on the process, operating parameters, procedures, degree of restraint and the most important factor is base metal chemical composition. • Composition can determine inherent weldability, with some alloys being inherently weldable. • Others being inherently difficult to weld, and still others being essentially unweldable. • For those few materials (or assemblies) that are unweldable, an alternative method of joining must be sought.
- 4. Cracks may occur in the weld metal or in the HAZ. Sometimes they originate in one zone and spread into the other. These cracks are grouped into two categories, viz., (i)Hot Cracks. (ii) Cold Cracks. Classification of Weld Cracks
- 5. • Hot cracks occur mainly in the weld bead but sometimes they may develop in the HAZ. • When located in the weld metal they are referred to as Solidification Cracks while in HAZ they are called Liquation Cracks. • Solidification cracks occur in the weld metal when the metal is very hot. Hot Cracks
- 6. Hot Cracks
- 7. Cold crack • Cold cracking or HIC or delayed cracking, is the most serious of all weld cracking problems particularly in the welding of high strength steels. • HIC occurs when the following four factors are present simultaneously. • Hydrogen in the weld metal • High stresses • Susceptible microstructure • Relatively low temperature
- 8. Cold crack
- 9. Schematic of the Murex hot-crack test. Murex Hot-Cracking Test
- 10. • The test is used for obtaining comparative information on similar (or different) welding fillers. • The test is performed by depositing a fillet weld in a V-groove formed between two 0.5-in.-thick plates. • Five seconds after welding has started, one of the plates is rotated about the point of the vee by a predetermined amount (1o/ sec.), usually 30”. • The speed of rotation is adjusted to control straining of the weld metal. • Performance is measured based on lengths of cracks appearing as a result of straining. 10
- 11. Specimen geometry of U-groove weld cracking test Root-Pass Crack Test 11
- 12. This test was specifically designed to evaluate susceptibility to cracking in the root pass of multipass SMA welding of thick sections. Schematic of the root-pass crack-susceptibility test. Root-Pass Crack Test. 12
- 13. A similar, related test, called the submerged- arc-weld crack test, was developed for evaluating the same thing for root passes made by SAW. After deposition of the first pass of weld metal, slag removal, and cooling to 100°F (39”C), the specimen is examined visually, by dye penetrant, or by x-radiography. Performance is based on the extent of weld-metal cracking. 13
- 14. REFERENCES • Text Book : “Welding Process and Technology” by Dr. R.S Parmar, 2015 edition. • Text Book : “Welding Engineering and Technology” by Dr. R.S Parmar, 2015 edition
- 15. Thank you