Usage:
D250E (5TN11283-Up),
D300E (7FN1283-Up) Articulated Trucks
- SUPPLEMENT: MAY 25, 1998
Service Magazine SEPD0412, Article 12, Page 10; April 13, 1998; "Dimensions For Installing Attachment Tailgate Mounting Hardware On Articulated Truck Dump Bodies" for D250E (5TN), & D300E (7FN) Articulated Trucks.
Disregard the above listed article. The effectivity is incorrect. Refer to the article in Service Magazine SEPD0418, Article 8, Page 8 with the same title.
--------------- END SUPPLEMENT ---------------
Reference: Parts Manual, SEBP2391-01; "D250E Articulated Truck"
Reference: Parts Manual, SEBP2453-01; "D300E Articulated Truck"
There have been requests for dimensions to add the 147-6163 Tailgate mounting hardware on the dump bodies used on D250E (5TN1283-Up), and D300E (7FN1283-Up) Articulated Trucks that are in the field.
The following gives the required dimensions for welding the mounting hardware for the 147-6163 Tailgate on the dump body.
NOTE: A complete parts listing for the 147-6163 Tailgate is found in the referenced of Parts Manuals.
Illustration 1.
Rear View
Illustration 2.
Side View
Illustration 3.
Section B-B
Illustration 4.
Section C-C
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Protect yourself and others; read and understand this warning. Fumes and gases can be dangerous to your health. Ultraviolet rays from the weld arc can injure eyes and burn skin. Electric shock can kill.
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Read and understand the manufacturer's instructions and your employer's safety practices. Keep your head out of the fumes. Use ventilation, exhaust at the arc, or both, to keep fumes and gases from your breathing zone and general area. Wear correct eye, ear, and body protection. Do not touch live electrical parts.
See American National Standard Z49.1 "Safety in Welding and Cutting" published by the American Welding Society, 2501 N.W. 7th Street, Miami, Florida 33125: OSHA Safety and Health Standards, 29 CRF 1910, available from U.S. Dept. of Labor, Washington, D.C. 20408.
NOTE: Welding operator personal protection should be provided to assure that total weld fume in the operators breathing zone does not exceed OSHA limits.
All repair welding operators must be qualified for groove and fillet welding, as outlined the current ANSI/AWS D14.3. The qualification will be for the SMAW (Shielded Metal Arc Welding) process in the vertical, overhead, and horizontal welding positions. The welding operator must also have used this welding process during the last six months or be re-certified for this process before welding. Documentation must be maintained of the weld operators qualifications. The alternate process for this repair could be FCAW (Flux Cored Arc Welding) or GMAW (Gas Metal Arc Welding), when welding in an enclosed environment where proper shielding of the electrode is unaffected.
The area to be welded and the surrounding area, in most cases, must be at a minimum temperature of 10° C (50° F) before and during welding. Refer to the following chart for specific requirements.
NOTE: Since weld distortion is a possibility, minimizing the heat into the metal is important.
The SMAW process shall be used with E7018 (ANSI/AWS A5.1) welding electrode. The weld deposited by these electrodes will have the following minimum mechanical properties:
- 500 MPa (72 KSI) Tensile Strength
- 420 MPa (60 KSI) Yield Strength
- 22% elongation in 50 mm (2 in)
- 27 J (20 ft lb) Notch Toughness at -29° C (-20° F)
- 420 MPa (60 KSI) Yield Strength
These are low hydrogen electrodes and must be stored in an electrode oven at 121° C (250° F) when not in use. If the electrodes get damp, scrap or recondition them to the manufacturer's specifications. Scrap any electrodes that have been submerged in water. Once an E7018 electrode is removed from the oven, it must be used within 4 hours.
The following chart relates to the electrodes diameter and approximate current settings for welding in the horizontal, vertical, and overhead positions:
Use the direct current electrode positive (DC reverse polarity) polarity setting and remove the slag after every pass. The weld pass size shall not exceed two times the electrode diameter.
As an alternate process the FCAW process may be used with E71T-1 (ANSI/AWS/A5.20) welding electrode and the manufacturer's specified shielding gas(es). The weld deposited by three electrodes will have the following minimum mechanical properties:
- 500 MPa (72 KSI) Tensile Strength
- 420 MPa (60 KSI) Yield Strength
- 22% elongation in 50 mm (2 in)
- 27 J (20 ft lb) Notch Toughness at -18° C (0° F)
- 420 MPa (60 KSI) Yield Strength
NOTE: This type of electrode has limitations if it is used to carry larger weld pass volumes in the flat welding position. Due to the fast freezing characteristics of this electrodes slag system, there is a chance of trapping evolving gases in the weld melt. Precaution should be taken by controlling weld pass size.
Welding parameters will vary due to weld position and manufacturer of the welding electrode. Refer to the following chart to determine typical welding parameters for welding in the horizontal position:
Welding parameters will vary due to weld position and manufacturer of the welding electrode. Refer to the following chart to determine typical welding parameters for welding in the vertical or overhead position:
Use the direct current electrode positive (DC reverse polarity) polarity setting and remove the slag after every pass. The Electrical Stick Out (ESO) for the E71T-1 electrode should be 19.05 - 31.75 mm (.75 - 1.25 in). The weld pass size shall not exceed 8.0 mm (.31 in) fillet volume.
As another alternate process, the GMAW process may be used with ER70S-3 (ANSI/AWS/A5.18) welding electrode and the manufacturer's specified shielding gas(es). The weld deposited by this method will have the following minimum mechanical properties:
- 500 MPa (72 KSI) Tensile Strength
- 420 MPa (60 KSI) Yield Strength
- 22% elongation in 50 mm (2 in)
- 27 J (20 ft lb) Notch Toughness at -18° C (0° F)
- 420 MPa (60 KSI) Yield Strength
Welding parameters will vary due to weld position and manufacturer of the welding electrode. Refer to the following chart to determine typical welding parameters for welding in the horizontal position:
Use the direct current electrode positive (DC reverse polarity) polarity setting. The Electrical Stick Out (ESO) for the ER70S-3 electrode should be 12.7 - 25.4 mm (.50 - 1.0 in).
Clean the metal of oil, grease, paint, and dirt in the area to be welded. Attach the welding ground cable directly to the area to be welded. Protect all machined surfaces from sparks or splatter produced by the welding, chipping, and/or grinding operations.
When welding, either the stringer or weave bead technique may be used. If weave beads are used, the amount of weave is restricted to three times the diameter of the electrode.
The welds shall be free from cracks, porosity, undercut, and incomplete fusion. All weld quality shall conform to Caterpillar Specification 1E0099 or ANSI/AWS D14.3.
NOTE: For welding purposes, the material of the components to be welded can be compared to ASTM A572 Structural Steel.
1. Weld plate assembly (1) in position with an 8.0 mm (.31 in) fillet weld all around. Use the dimensions given in Illustrations 1 and 2 to position plate assembly (1) on the dump body.
2. Weld bracket assembly (2) in position using the dimensions given in Illustrations 1, 2, 3, and 4. All welds used to hold bracket assembly (2) in place are 8.0 mm (.31 in) fillet welds.
NOTE: Dimensions F, G, H and J are the length of the weld. The welds are 8.0 mm (.31 in) fillet welds.
Illustration 5.
View D-D
Illustration 6.
Detail E
Illustration 7.
A-A.
3. Weld lever bracket (3) in place with an 8.0 mm (.31 in) fillet weld all around. The dimensions for positioning lever bracket (3) are in Illustrations 1 and 5.
4. Weld bracket (4) in position using the dimensions given in Illustration 5. The welds to hold bracket (4) are 6.0 mm (.24 in) fillet and groove welds as shown in Illustration 7.
5. Weld plates (5, 6 and 7) in position as shown in Illustration 6. The welds to hold plates (5, 6 and 7) are 6.0 mm (.24 in) fillet and groove welds.