There are two commonly used plastics for drain, waste, and vent pipes inside of homes: ABS (black) and PVC (white, mostly). These two plastics are almost all that is ever used in new residential construction here in Minnesota, and I suspect for the rest of the country as well. For most systems, a plumber will use one material or the other, but not both. This makes all of the connections simple; the plumber uses a solvent cement (aka glue) made just for that material, things stick together, and everyone is happy…
Until then the “handy” homeowner comes along and messes it up.
For the most part, ABS and PVC are not supposed to be glued together. We’ll turn to the Minnesota State Plumbing Code for some background on this topic. (The Minnesota Code is used for reference because that’s where I live. Always check your local codes.)
ABS to PVC: What does the MN plumbing code say?
If we read chapter 7 of the MN state plumbing code, we can find a bunch of info on drains. Section 705.1.2: ABS Solvent Cement Joints (for ABS) says the following, among other stuff:
Where surfaces to be joined are cleaned and free of dirt, moisture, oil, and other foreign material, solvent cement in accordance with ASTM D 2235 shall be applied to all joint surfaces.
So according to this, you can glue ABS using something that meets ASTM D 2235 (the standard for solvent cement for ABS).
Section 705.7.2: Solvent Cement Joints (for PVC) says the following, among other stuff:
Where surfaces to be joined are cleaned and free of dirt, moisture, oil, and other foreign material, apply primer purple in color in accordance with ASMT F 656. – and – Solvent cements in accordance with ASTM D 2564 shall be applied to all joint surfaces.
So as long as you use the right purple primer, you can also glue PVC. You also need to use a glue that meets ASTM D 2564, the standard for solvent cement for PVC, of course.
So how can these two materials be connected together? We need to turn to section 705.11.3: Plastic Pipe to Other Materials:
Where connecting plastic pipe to other types of plastic or other types of piping material; approved listed adapter or transition fittings and listed for the specific transition intended shall be used.
That means that if ABS and PVC are connected together, some type of adapter or fitting needs to be used. That’s it. That’s all that’s allowed. The image below shows one such adapter on the right side. This has a stainless steel band going through the middle for rigidity. The image on the left shows a coupling that lacks a metal band in the middle and also lacks UPC approval.
What about ABS to PVC Cement?
If you stop by any home improvement store, you’ll be able to find a green cement that will connect ABS to PVC. It might even have an IAPMO approval stamp on it (UPC), so what could the problem be? I mean, if it’s approved, it’s approved, right?
The problem is in the standard. If you look up the technical specifications for the product, you’ll find that it meets ASTM Standard D 3138. You’ll find the following information on the ASTM website.
1.2 These cements are intended for use in cementing transition joints between ABS and PVC materials in non-pressure applications only (25 psi (170 kPa) or less). Note 1 This specification was developed to provide a means for joining an ABS non-pressure piping system using a solvent-cemented transition joint, for example, joining ABS building drain to a PVC sewer system. The intention was not to create a specification for an all purpose ABS-PVC solvent cement that would be used for mixing of ABS and PVC piping materials nor to specify a cement that could generally be used for either material. Specific cements for ABS or PVC components should be used (see ).
That spells it out pretty clearly, yes? ABS to PVC cement is only meant to connect an ABS system to a PVC system. An example of this would be an ABS drain system inside of a home connecting to a PVC drain system just outside the building, or vice-versa. That’s the only place that this cement is supposed to be used.
What if ABS and PVC have already been cemented together?
To this I say ‘meh’- it is no big deal if this is done. It’s technically not right, but that’s all. I have yet to find a single failure at this connection point. I’ve talked to a handful of experienced plumbers about this, and not one of them have seen this connection fail either. I typically point it out as an improper installation, but I leave it at that. I don’t tell people to rip it apart and put it back together. Why would I?
Just for fun, I did a little experimenting at home to show how some of these different types of cement hold up. I started by cementing a bunch of materials together with a bunch of different types of cement. I waited 24 hours, then cut each one roughly in half, down the middle.
Next, I cut each section in half lengthwise and put the coupling in a vice to get the materials to separate.
I got most of the connections to separate, but not all of them.
The easiest section to separate was the PVC to PVC without purple primer. Next was the ABS to PVC without purple primer. The ABS to PVC connections with purple primer were as strong as the PVC to PVC connections with purple primer, if not stronger. It actually seemed to pull the surface of the ABS right off of the pipe. The only connection that refused to come apart was the ABS to ABS; the plastic would probably rip apart before that connection would fail.
Again, an ABS to PVC glued connection isn’t technically correct, but this connection is highly unlikely to fail. I think failure is close to impossible; if I hadn’t used a vice, there’s no way I could have separated the two. There’s no need to lose sleep over connections like this.
About the author
Reuben Saltzman is a second-generation home inspector and the owner and president of Structure Tech Home Inspections in Minnesota.
ncG1vNJzZmivp6x7p63MoqOyoJGjsbq5wKdlnKedZK6zwMico55nk5a7brWMo6aipl2Wr7R506hkqa6TZA%3D%3D