Mastering Roof Inspections Slate Roofs, Part 5 — InterNACHI

Mastering Roof Inspections Slate Roofs, Part 5 - InterNACHI

by Kenton Shepard and Nick Gromicko

Although problems related to fabrication can affect slate roofs, fabrication techniques vary among quarries. This makes it difficult to recognize defects related to fabrication and manufacturing methods. Clues as to the quality of fabrication include the size and location of nail holes, and grain orientation.

In the past, slates were usually fabricated with mineral grains oriented along the length of the tiles, or on grain. According to the National Slate Association, “Due to changes in quarry and fabrication practices, it has become more efficient and economical to produce roofing slates of random grain orientation [rather] than on grain.” Slates with random grain alignment need to be thicker than slates with aligned grain in order to offer comparable resistance to breakage. There is some dissatisfaction in the slate industry regarding the current ASTM testing standards, and changes are expected.

General Fabrication Process

Slate is mined in quarries, with only about 5% of the material removed from the pit as usable for slate tiles.

Large blocks are jack-hammered into smaller blocks. If a large block of slate is allowed to freeze before jack-hammering, the block of stone may shatter into useless shards instead of cleaving cleanly.

Once it has been jack-hammered into smaller pieces, the slate is cut into rectangular blocks of the appropriate height and width for the desired tiles. Individual tiles are then split from the block by hand and eye, using a hammer and chisel.

Slates are then punched for nail holes. The punching process is done from the back of the slate, leaving an area of blow-out around each nail hole in the face of the tile that allows the fasteners to be counter-sunk.

Slope Limitations

Slate installed on a roof with a pitch of less than 4:12 should have waterproof underlayment installed beneath it. Slate installed on a roof of less than 4:12 with conventional underlayment is a poor installation. Modern building codes require a minimum slope of 4:12 for slate installation.

Framing and Substrate

The weight of a slate roof is measured in thousands of pounds per square instead of hundreds of pounds, as is typical for most roof-covering materials. A slate roof can weigh up to 8,000 pounds per square, although 3,500 pounds is considered heavy. It’s important to inspect the framing and sheathing from inside the attic. Check rafters for sagging.

Sheathing can be spaced boards, battens or panels, such as OSB or plywood. It should be 3/4-inch minimum. The Ѕ-inch sheathing used on most roofs is inappropriate for a slate roof because it may result in broken slates. Check any areas for advanced decay where you see evidence of past leakage. Spaced boards are a higher-quality installation than plywood or OSB. Most modern codes require solid-roof sheathing to be installed beneath slate shingles.

As you already know, felt underlayment is not permanent and deteriorates as it loses volatile oils over time. This is less of a problem with asphalt shingles because the lifespan of the shingles and felt are likely to be fairly similar.

Because slate roofs have a much longer lifespan, it’s more likely that the underlayment will deteriorate more rapidly than the slate. Of course, the underlayment is mostly hidden beneath the slate, although you may be able to inspect it from the attic if the roof sheathing consists of spaced boards. When inspecting older homes, you should be sure to mention in your inspection report the limitations of inspecting underlayment, even if you don’t see signs of leakage during the inspection. It’s important to give your client realistic expectations, as well as limit your liability.

The quality of the slate tile installation becomes much more important in preventing leaks in roofs with deteriorated underlayment. Many slate roofs have been installed with no underlayment, and leakage is typically not a problem if the slates were installed correctly. If you find a slate roof with underlayment missing, mention this in your report, but refrain from calling it a defect unless you know that it was required by the building code in effect at the time the home was built in the jurisdiction where the home is located. Most modern building codes call for underlayment to be installed beneath slate tiles.

One method used to save money during installation is interlayment of slate. Using this method, the slate exposure is increased substantially in order to save money by using fewer slates. Under normal conditions, this increases the risk of leakage dramatically. In an effort to reduce that risk, a layer of felt is installed as interlayment between each course of slates.

Once the felt has deteriorated — which will probably happen much sooner than the slate — the roof will be more likely to leak, and the repair will involve removal and re-installation of the slate roof. If it’s re-installed with a proper exposure, there won’t be enough slates, and then the problem will be in finding matching slates. It’s a very good idea to alert your client if you find slate installed with interlayment.

When slate arrives at a job site, the pallets may contain slates of slightly different colors. In order to blend them well, slate from different pallets may need to be combined. This requires spreading out the slates on the ground, arranging them so that they blend well, and re-stacking them onto the pallets so they can be loaded onto the roof.

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