The majority of the work that is dealt with through metal stitching comes from human error, in all its forms. For instance, with engines, oil starvation in one part, leads to seizure, which then leads to fantastic forces on the casing.
@@johnmortimer3209 i agree and my bet was already on the human error, was just truly interested in exactly where they went to get it like that. I have used such type of machinery similar and know it had to be catastrophic or maybe a earthquake knocked it over 🤷
Problem is, they don't build them like they used to, and these machines are still being traded, repaired, and used in Manufacturing. Most were setup to run on factory shaft power and have been converted to AC motor operation, even installing safety electronics like light curtains and two hand switches.
They use a jig or drill guide that is accurately in line and straight. Then, it is possible to use hand tools and be in uncomfortable positions, and still obtain a good result. When an operative drills out a block like that, they have got quite some experience doing the basic drilling and stitching for some time first and therefore they should be proficient in this. If there is still some variance in the drilling, this is not precision work, the 'gaps' are filled by the screws of studs that are then drilled in, as in the drilling, the material of the stud fills out to fill the threaded hole. Does that make sense and does it answer your question?
Hi Brad, the high strength alloy is indeed stronger in some circumstances, but dont forget we are dealing with cast iron which is brittle. Overall the repair returns a % of strength that is almost always less than 100% of the original, but cast iron brittleness being what it is, means that the repair still far exceeds the normal operating strength of the equipment.
@@mmscastrepair6532 WELL DONE MAN , GOOD WORDS! iF U DON`T HAVE ENOUGH INFORMATION, THE RIGHT THING TO DO IS SHUT THE MOUTH. I`VE SEEN YOUR WEB SITE ABOUT UR JOB. GOOD JOB MAN. IT`S AN AMAZING TECHNIQUE I DID NOT KNOW SINCE THEN. I USED TO HEAT THESE PARTS OF CASTING IRON WITH ORDINARY WELDIND METHODS. NOW I THINK I NEED MORE INFORMATION AND STUDY MORE AND MORE. CONGRATS, MAN! SEE YA !!!
In general the number of failures of cast iron equipment has decreased over the decades, However, there are still plenty of situations where Metalock is still actively called for. I t still keeps many national service organisations doing good business.
The repair is stronger than ever...Hardly the case these days
We can fix Will’s Fairbanks power hammer with this!
Best metal to metal connection since the hot riveting of the Eiffel Tower.
My question is how did they break the big machine to begin with
The majority of the work that is dealt with through metal stitching comes from human error, in all its forms. For instance, with engines, oil starvation in one part, leads to seizure, which then leads to fantastic forces on the casing.
@@johnmortimer3209 i agree and my bet was already on the human error, was just truly interested in exactly where they went to get it like that. I have used such type of machinery similar and know it had to be catastrophic or maybe a earthquake knocked it over 🤷
Proper Engineering
Good
Problem is, they don't build them like they used to, and these machines are still being traded, repaired, and used in Manufacturing. Most were setup to run on factory shaft power and have been converted to AC motor operation, even installing safety electronics like light curtains and two hand switches.
How did they get the back of that keyhole so nicely square?
They use a jig or drill guide that is accurately in line and straight. Then, it is possible to use hand tools and be in uncomfortable positions, and still obtain a good result. When an operative drills out a block like that, they have got quite some experience doing the basic drilling and stitching for some time first and therefore they should be proficient in this. If there is still some variance in the drilling, this is not precision work, the 'gaps' are filled by the screws of studs that are then drilled in, as in the drilling, the material of the stud fills out to fill the threaded hole. Does that make sense and does it answer your question?
This is cool
Craftsmanship
So in other words since the repair is done with high strength alloy steel, the repair is stronger than the original material ? Wow!
Hi Brad, the high strength alloy is indeed stronger in some circumstances, but dont forget we are dealing with cast iron which is brittle. Overall the repair returns a % of strength that is almost always less than 100% of the original, but cast iron brittleness being what it is, means that the repair still far exceeds the normal operating strength of the equipment.
Those days are well gone. Things are not made to be repaired any more.
Ha!
Oh give me a break - they still do this now.
th-cam.com/video/w4gx2C7giZ4/w-d-xo.html
ya im pretty sure industries look to repair multimillion dollar machinery before replacing it, these aren't iphones we're talking about....
@@mmscastrepair6532 WELL DONE MAN , GOOD WORDS! iF U DON`T HAVE ENOUGH INFORMATION, THE RIGHT THING TO DO IS SHUT THE MOUTH. I`VE SEEN YOUR WEB SITE ABOUT UR JOB. GOOD JOB MAN. IT`S AN AMAZING TECHNIQUE I DID NOT KNOW SINCE THEN. I USED TO HEAT THESE PARTS OF CASTING IRON WITH ORDINARY WELDIND METHODS. NOW I THINK I NEED MORE INFORMATION AND STUDY MORE AND MORE. CONGRATS, MAN! SEE YA !!!
In general the number of failures of cast iron equipment has decreased over the decades, However, there are still plenty of situations where Metalock is still actively called for. I t still keeps many national service organisations doing good business.
For More Information Vist my site: metalstitchinglocking.com/