Thoughts/questions from the perspective of a fabricator:
[ul]
[li]As noted above, 65' isn't that long. If breaking it into two pieces still isn't sufficiently short then surely there are more delivery problems with this project. Is this a length issue or a weight issue? Must be a weight issue.[/li]
[li]How heavy is this truss? Should be easily shippable up to 65,000 lbs. Does this weight more than 1000 lbs/ft?[/li]
[li]Assuming it is a weight issue and not a length issue, the cross sections involved must be significant. And so must be the CJP welds to join the sections.[/li]
[li]This will not be cheap so the fabricator/erector must have a good reason to do it. Are they looking to charge extra for this work?[/li]
[li]Assuming we're talking very heavy sections, the CJP welds will be many passes. They won't be flipping this huge truss to maintain ideal weld access so welds will be happening in all positions.[/li]
[li]A web member will need to be spliced in as well. What does that weld detail look like and will the fit-up of that web member be any different than if it was built in the shop? You might end up with a lot of restraint in that web member with it being welded into a now rigid structure both ends. Quick math on this: [/li]
[li]if the truss 6' deep and webs are at 45°, the web length is about 102" node to node.[/li]
[li]If the weld shrinking is 1/16" (this isn't a ridiculous number if you're bridging a large gap due to design/fit-up) then you have a total strain of 0.000614 and a resulting stress of about 18 ksi. That is assuming the ends of the webs are perfectly restrained[/li]
[li]It would be almost impossible to put an exact number on the resulting stresses, but it is helpful to look at the ball park of potential resulting stresses. They can be significant in high restraint joints and should be mitigated through proper sequencing where possible.[/li]
[li]It would be reasonable to ask the following:[/li]
[li]What weld process do you intend to use?[/li]
[li]Can you produce approved weld procedures for the work? Do the procedures cover all positions required to complete the weld?[/li]
[li]Can you produce a connection detail, including any rat holes (access holes) that maybe required for continuity of backing bars.[/li]
[li]How do you intend to maintain alignment and fabrication tolerances during this splicing process?[/li]
[li]Based on your experience with welding structures like this, do you consider this is a high restrain joint?[/li]
[li]It would be reasonable to require the following:[/li]
[li]3rd party inspectors present for the entire welding operation. To KootK's point about poor field weld quality; if you have thick sections and inclusions or defects found within the weld, the excavation and repair of those welds will be significant. If there are issues with weld quality its in everyone's best interest to catch it early.[/li]
[li]A written procedure of the splicing process including means of securing the work and maintaining alignment, documentation on weld procedures and welder qualifications, splice details (including specific weld details) stamped by an engineer.[/li]
[/ul]
Are you able to share any details of the truss?
