 | COMMERCIAL ENGINE STANDARD PRACTICES MANUAL | Dated: 10/01/2007 |
| SPM 70-49-30 THERMAL SPRAYING COBALT-MOLYBDENUM-CHROMIUM-SILICON ALLOY (POWDER) - TRIBALOY 800 | ||
| COMMERCIAL ENGINE STANDARD PRACTICES MANUAL | Dated: 10/01/2007 |
| SPM 70-49-30 THERMAL SPRAYING COBALT-MOLYBDENUM-CHROMIUM-SILICON ALLOY (POWDER) - TRIBALOY 800 | ||
| TASK 70-49-30-340-031 |
| 1 . | General. |
| Cobalt-molybdenum-chromium-silicon alloy is a powder suitable for thermal spray processes. This coating also has clearance control applications and is used, when specified in the applicable repair instructions of the Engine/Shop Manual, for salvage and buildup application. |
| 2 . | Equipment. |
| Subtask 70-49-30-340-311 |
| A. | Refer to TASK 70-49-00-340-001, Thermal Spraying. |
| 3 . | Material. |
| Subtask 70-49-30-340-312 |
| A. | Cobalt-Molybdenum-Chrome-Silicon Powder C07-031 . |
| 4 . | Spraying Parameters. |
| Subtask 70-49-30-340-313 |
| A. | Starting parameter sets will be listed in the spray equipment manuals or are readily available from the spray equipment manufacturers or powder suppliers. Modifications may be necessary for your location and product application. See sprayability testing per TASK 70-49-00-340-001, Thermal Spraying, and TASK 70-70-00-700-001, Testing and Quality Analysis. When the final spray parameter settings are developed, all values should be recorded to ensure consistent achievement of high quality coatings. |
| 5 . | Quality Assurance. |
| Subtask 70-49-30-340-314 |
| A. | Thickness. |
| Measure the coating thickness using a standard flat-anvil-and-spindle micrometer. The measurement may be made on either a coated production part or on a flat test specimen having a thickness of at least 0.060 inch (1.52 mm). Determine coating thickness to the nearest 0.001 inch (0.03 mm) at three different locations. |
| B. | Appearance. |
| Visual examination of the coating shall be in accordance with the following: |
| (1) | Adhesion. |
| The coating shall exhibit no spalling or lifting. |
| (2) | Coverage. |
| The coating shall exhibit complete, uniform coverage in those areas specified for coating in the Engine/Shop Manual. Coating is not permissible in areas other than those specified. |
| (3) | Surface condition. |
| The coating shall be uniform and free from cracks, blisters, spatter, chipping, and flaking. |
| C. | Coating Microstructure. |
| Test specimens shall be prepared for microscopic examination, and evaluated in accordance with TASK 70-71-04-700-005, Metallographic Evaluation of Thermal Spray Coatings. Metallographic examination of the prepared specimen shall be made for uniformity of coating, as well as for the following other conditions: |
| (1) | Delaminations. |
| The coating shall be free of delaminations as defined for metallic coatings in TASK 70-71-04-700-005, Metallographic Evaluation of Thermal Spray Coatings. |
| (2) | Integrity. |
| The coating shall show acceptable integrity as defined in TASK 70-71-04-700-005, Metallographic Evaluation of Thermal Spray Coatings. |
| (3) | Interface Separation. |
| The coating shall be free of interface separations as defined in TASK 70-71-04-700-005, Metallographic Evaluation of Thermal Spray Coatings. |
| (4) | Transverse Cracks. |
| The coating shall be free of transverse cracks as defined for metallic coatings in TASK 70-71-04-700-005, Metallographic Evaluation of Thermal Spray Coatings. |
| (5) | Interface Contamination. |
| Interface contamination in the coating shall be identified as defined in TASK 70-71-04-700-005, Metallographic Evaluation of Thermal Spray Coatings, and then rated per the guidelines of Table 1. |
| (6) | Oxides and Oxide Clusters. |
| Oxides in the coating shall be identified as defined in TASK 70-71-04-700-005, Metallographic Evaluation of Thermal Spray Coatings, and then rated as described in the guidelines of Table 1. The coating shall be free of oxide clusters as defined in TASK 70-71-04-700-005, Metallographic Evaluation of Thermal Spray Coatings. Oxides shall be uniformly distributed. |
| (7) | Porosity. |
| Porosity in the coating shall be classified for size as defined in TASK 70-71-04-700-005, Metallographic Evaluation of Thermal Spray Coatings, and then rated per the guidelines of Table 1. Porosity shall be uniformly distributed. |
| (8) | Unmelts. |
| Unmelts in the coating shall be classified for size, shape, and bonding as defined in TASK 70-71-04-700-005, Metallographic Evaluation of Thermal Spray Coatings, and then rated per the guidelines of Table 1. |
| D. | Tensile. |
| Tensile specimens shall be prepared for tensile bond testing and evaluated in accordance with TASK 70-71-01-700-002, Bond Strength Tensile Testing of Thermal Spray Coatings. Tensile bond strength for this coating at room temperature shall be 4,000 psi (27.6 MPa) minimum. |
| E. | Macrohardness |
| Test specimens will be prepared for Rockwell hardness testing. The specimen material may be of a convenient size or shape but it should be at least 0.060 inch (1.52 mm) thick and of the same material as the coated part. The specimen must be coated with sufficient material to meet the thickness values of the part, the thickness values that are specified in TASK 70-49-00-340-001, Thermal Spraying, or the thickness requirements in TASK 70-34-03-220-009, Rockwell Hardness Testing and ASTM E-18 (whichever results in the maximum thickness). The Rockwell hardness for this coating shall be 82 or greater, based on an average of at least five readings on a Rockwell R15N scale. |
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