Yes and no. Pipes are pipes and many houses have both copper and galvinized. But copper and galvinized pipe must never come into direct contact with each other. You have to put what's called a dielectric fitting (available at your local hardware store) in between them. The problem is that without a dielectric fitting you'll get what's called electrolysis. Electrolysis eats holes in your pipes. Like I said, just put in a dielectric fitting. No sweat.
If you do connect copper pipe to galvanized pipe, you will need a dielectric coupling or else the galvanized pipe will corrode. Same with connecting galvanized pipe to brass fittings. Brass is an alloy that contains copper and therefore the same electrolytic properties will exist unless a dielectric coupling is used. Hope that helps you out.
No, you cannot join copper and galvy directly. A brass fitting needs to be between the two to prevent electrolysis. You could also use a special type of union that has a gasket between the two halves. It is called a Dielectric union. If this junction is between pipes on your water heater and the cold water supply line, you could use a fitting made for that that also is a back flow preventer (ie a check valve).
yes
no need to change the copper tube if the capacity of the unit is same.
The two main pipes are plastic and metal. Plastic pipes have polyvinyl chloride and the metal pipes are either copper or stainless steel. Not all pipes have the same effective or be used the same.
IT IS PART Galvanized don't you knowGalvanized is ZINC coating on black steel and YELLOW BRASS piping is 40% ZINC and 60% Copper and RED BRASS is 85% Copper and 15% Zinc=The problem with TOO much Zinc content is dezincification where the piping becomes brittle and to little zinc and the brass is too soft as the higher copper content.==Mixing Galvanized steel and brass or copper causes a condition of electrolytic action as your mixing ferrous metals and non ferrous metals. ( this is first year apprentice training) to prevent the electrolysis one should use a dielectric fitting=
No!!!! Use either a compression fitting, or what they call a Sharkbite, these things are incredible and will attach PVC, PEX, or copper using the same fitting.
The same that is used above ground. Sweat fitting coupler. I would not use copper underground in an area that has winter.
because the pipes don't rust as easy, and silver and gold are too expensive. That is another persons answer. Here are the main 3 reasons plumbers use copper pipes. Copper pipes are relatively non-toxic-unlike lead. Copper pipes do not suffer corrosion-as iron does. Copper pipes are relatively soft and easy to work with-unlike both iron and lead. However more and more homes are now using the plastic pipe such as Pvc and Cpvc which seems to serve the same purpose and are also safe, although both can be used, you still need to find out what code calls for in your city or town an abide by it.
No. Pressure and volume are not the same. You may loose a few pounds of pressure by using different pipes and sizing. But, what you may lose lots of is volume, the amount of water actually flowing thru the pipes. Old galvanized pipe corrodes on the inside and loses the volume needed to supply adequate water.
When using SMAW ("stick") welding, galvanized steel can be welded in the same manner as uncoated steel. ... The thicker the zinc coating, the more fumes are generated, and those fumes have to be able to escape easily into the atmosphere and not be forced through the liquid weld metal.
seamless pipe actually mean a non- welded pipe, (the word pipe says that it has a central cavity, means hole) this means there would b no scars or marks on the surface of the pipe. Seamless copper pipes are of the same type,,initially copper billets are produced by extruding the raw copper and after obtaining the cylindrical copper billet of required dimensions it is transferred to Mannesmann Mill (famous for extruding seamless pipes),, where the central cavity is initially made by piercing, and then drawing it (with a mandrel attached), into a long tubular copper,, shubhakar.nidadavolu@gmail.com