Brick Repair

The process we recommend in the proper maintenance of exterior brickwork is to do as little intervention as possible in regard to the pointing mortar if in fact the large majority is still intact. A mason should replace only what is missing wholly, or eroded back more than 3/8″, with fresh mortar, which will match very closely to the original mortar in composition, color, texture and tooling. The total repointing of a building is often unwarranted. Patch pointing is cost conservative as well as functionally superior than pointing the whole building in an incorrect manner. If total repointing is to be done because the majority of the mortar is past its useful service life, a mortar should never be applied that consists of a Portland cement and fine sand paste placed over the top of the existing joint. This technique employed by many masons is superficial because of a shallow depth which lacks a good mechanical key to the surrounding brickwork. Over time this “scrub joint”, as it is sometimes referred to, may delaminate. However, the extreme disservice that this technique brings is that the fine Portland cement, which will pass through a #200 sieve, (a sieve where even a water droplet is not able to pass through), allows the wetting and drying cycles of the building, (a cause of masonry unit and joint weathering), to occur through the brick or stone thus exacerbating its breakdown instead of more of the mortar joint. The mortar joint is meant to be more sacrificial than the irreplaceable masonry units. The “wicking-in” of water through the brick or stone can then can be driven further into the building by blowing rainwater and cause interior damage.
Category: Brick Repair

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The use of “sealers” on exterior historic masonry is a questionable intervention. Since all historic masonry walls, as well as the individual historic masonry units, need to “breathe”, (i.e. allow moisture vapor to escape), there should be a specific purpose in using some form of coating. Only after physical waterproofing via repointing and physical repair or damaged units should chemical “waterproofing” be considered. Those considered must have properties which maintain a high vapor transmission which will allow moisture to escape. The specific purposes to use a water repellent are:

  1. Inhibiting deterioration of the masonry units by not allowing the wetting/drying cycles, (the very cause of historic masonry failure over time), to occur through the unit or the joints. Although water repellents are not traditional historic material they can act as a “sacrificial barrier” to weather away from the action of the elements before more of the historic fabric weathers away.
  2. As a grain strengthener, (surface consolidant/water repellent).
  3. As an inhibitor to capillary action and the absorption of water into the building if the absorption of the brick is greater than the masonry’s ability to release the water back into the atmosphere before entering the building’s interior.

Overall great concern should be employed and testing should be carried out before simply spraying a building with a water repellent. In the turn of the last century masonry buildings were waxed for protection and sure enough the wax yellowed and picked up atmospheric pollutants which greatly discolored the building. Silicon sealers soon followed which yellowed if not simply breaking down from ultra-violet rays of the sun. Now silane and siloxane breathable water repellents are in vogue. These materials seem to be effective for some applications. The question remains as to whether the breathability of the historic fabric will in time be compromised. Our advice is to remain conservative and do not introduce chemicals to historic masonry just to do it as a final measure.

Category: Brick Repair

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If there is moisture present at the gable end of a brick or stone building and the roof system is working and the flashing system is working around any chimney’s that extend past the roof line, the moisture may be due to condensation. A column of air that exists, in used or unused and capped-off tight chimneys, moves the expanded air through a natural draw upward and the moisture content in the air may be condensed by change in pressure, (dew point), or thermal shock, (at the line where the air in the chimney goes through the roof). All masonry, wood and building materials have an “R” value which means “restriction” to airflow. So a cap that seals a chimney does restrict airflow but does not eliminate it. It takes approximately 11 inches of masonry to equal the “R” value in 1 inch of wood to demonstrate approximate value differential. Air which tries to move up and out but condenses near the top gets quickly absorbed into an unlined and capillary filled brick masonry units of the chimney. The plaster, the lime bedding mortar and soft salmon brick are highly absorptive.

The moisture problem is compounded when a high efficiency gas or oil heating system pumps out an exhaust, into an uncapped/unlined chimney, that is practically nothing but hot air full of moisture and some unburned impurities. Even in the case of a lined chimney, the liner itself should be insulated on the outside of the liner within the walls of the chimney. The “salmon” un-vitrified center of the brick exfoliates on to the floor in the attic as salt crystals, (efflorescence), build up under the “fired skin” of the brick. Salt build-up jacks out the face of the brick and even the continually building up “salt skins” to finally hollow out the brick faces. The moisture wants to move toward the inner warmer attic instead of the colder temperatures outside of the building. Unused chimneys should be filled with free-flowing vermiculite masonry fill insulation and capped off at the top. Liners should be cast-in-place lightweight concrete which is creosote/acids resistant and insulative, or lined with stainless steel with an insulative blanket or vermiculite placed around the outside of the liner with in the walls of the chimney chase. Unfortunately even non-rusting stainless steel liners may deteriorate in time by acids in creosote eating holes in the liner. The stainless option is less expensive at the front-end of installation. The poured-in-place type is an excellent long-term value if installed properly.

Category: Brick Repair

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Lime Products

Quick and short of it…. Make sure the sand meets ASTM C-144. But you might ask yourself, what the heck does that mean? ASTM C-144 is a standard specification for aggregate for masonry mortar, brought to you by the American Society for Testing Materials (ASTM). To start off many people will use the term aggregate rather than sand. This is because aggregate is a broader term which can refer to recycled materials that can be use in lieu of sand if so desired. The specification has a lot of good guidelines to follow when choosing sand, such as cleanliness, shape, composition and grain size distribution.

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Good, clean sand is important. Depending on where you, get sand you may run into some complications. If you’re purchasing your sand from a distributor, pre-bagged sands are very clean as they are typically washed and dried. However, bulk sand may have some impurities, it is unlikely but should be noted for other potential issues discussed in a moment. If you are getting sand from a nearby creek or stream for historical purposes, be careful. You should check with your local laws to see if it is even legal as there could be environmental implications. That being said, be sure that the sand is free of silt and organic matter.The shape or sharpness of sand will help make a mix denser and create overall a more durable mortar. Angular aggregates fill in void spaces better then rounded sands. A good visual for this is to try and imagine a case of bottled water with round bottles, now imagine the same bottles but square. The square bottles will be tight against each other, while the round bottles only touch at four contact points, leaving voids.

Composition of aggregate will determine long term effects of the mortar. There are aggregates out there that can cause delayed expansion and failure of mortar. One to look out for is crushed dolomite limestone. There are others but for most restoration work that is the most common. Your local supplier should know if they carry this type and will most likely not recommend it for any masonry mortar.

Grain size distribution is the most important factor, when choosing an aggregate. The ideal sand should have a wide range to sizes in its composition. Workability and durability are greatly affected with good distribution. If you can gain access to a sieve analysis, look for a bell curve when the numbers are plotted on a graph. This shows that there are a few large pieces, an increasing amount of medium sizes and a small amount of fines or powder. Excess fines in a sand result in poor workability and is often corrected by an excess amount of water, resulting in poor durability.

Good sand that is clean and dry will have a theoretical void ratio of 33%. In other words, given a certain volume of sand there will be an ideal space of air of between the grain of 33% and 66% sand. fortunately there is a simple test anyone can do to see what the void ratio of sand is.

First get two clear containers one being at least twice the size of the other, fill the small container with water and pour it into the large container and make a mark. Then fill the small container again and pour it into the large container, being sure to have left the first measure of water in the container. Mark the level of the second measure and space 4 lines evenly between the two creating a total of six marks on the large container. Empty the large container and fill the small container with water. Pour the small container of water into the large container, reaching the bottom of the six lines. Now fill the dry small container with dry sand pour it into the large container. After everything settles you will be able to see how much water was displaced. Starting with the top line representing 0%, each line moving down the large container will represent 20%. The resulting percentage will be the void ratio and represent the minimum amount of lime by volume you should use to make a good mortar.

Poor sand can have ratios above 50% and will increase the amount of lime required thus resulting in added expense for you project. So when in doubt conduct a small test on the available sands choose the one that has a ratio closest to 33% to save on the amount of lime required and sleep easier knowing that you have decent sand.



Category: Lime Products

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“Cement” was not produced in the United States until 1870 in Coplay, PA, only up until around 1910 was Portland cement starting to find its place in society as a masonry binder. Prior to 1910, most mortars used were based on either lime putty, Natural hydraulic quicklime, or natural cement. Regardless of what the exact mix design was used to build your basement foundation, Ecologic™ Mortar would most likely be suitable for repointing your old stone basement foundation walls as it would be sympathetic to the adjacent mortar mix by maintaining good vapor permeability. An easy way to determine if you have a lime based mortar, especially in stone construction, is to break a piece from the wall and visually inspect for any white nodules or specks. The white nodules are an indicator of what is called a “hot lime” mix and commonly found in stonework. Any presence of those nodules or specks suggests a high lime content mortar, and should thus be repaired with a comparable material.

Category: Lime Products

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Masonry Products

Silicate Dispersion Paint is also known as Inorganic Mineral Paints and is unique in regard to its ability to breathe and supply a long service life to masonry materials. Chemical mineral paints are based on “Waterglass” AKA Potassium Silicate, which has been described as liquid stone. When silicate Paint petrifies a mineral substrate such as brick, stone or concrete, it chemically bonds to not only the surface but also beneath. Upon curing, called Silicification the paint becomes part of the substrate, forming a micro-crystalline coating. Because silicate paint becomes one with the substrate it will mimic the natural water vapor transfer and cannot blister or peel due to the laws of chemistry.

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Restoration

Traditionally the only exposed stone is one with a gauged mortar joint. “Free stonework” are irregular pieces of stone shaped to fit with large, squared corner stones with alternating lengths used as borders. Ashlar work is varying sizes of cut blocks of stone that are laid in uniform coursing. You will sometimes see semi-coursed stonework on the front of a building and haphazard stone joinery on the sides and the back of the building. If the stone was shaped with tools used by masons it most likely was meant to be seen. You will often see remnants of the original external plaster or whitewash in the pours of the stone of the building which has already had the stucco removed to tip you off that the building was originally covered or coated and not exposed.

Fieldstones are stones picked up off the field when settling a property and preparing the ground for farming. They are laid up in “rubble work.” Some masons pronounce it “roobil” work. I think they are just repeating the accent of the old-timers. Rubble is junk. Fieldstone is just junk stone It is not dressed up in any way.

But the question remains, “Why did they cover the stone with exterior plaster?” Well, when you don’t gauge the joints and keep them tight the surface exposure to the elements is increased and accelerated the erosion of the pointing mortar. This may quickly deteriorated the bedding mortar and the integrity of the wall. It will at least aid in the transmission of water into the building. So, the same soft, punky mortar that was used for bedding was also used for exterior plaster, (stucco), and finished off with a shelter coat of whitewash. Whitewash is pure calcium carbonate lime and water. It was used as a waterproofer and protecting coat for both beauty and function. Whitewash could be thought of as a coating like an eggshell. It is soft, breathable and will protect the otherwise frail stucco render. Today the appearance of rubblework exposed is thought of as a thing of beauty. Historically fine stonework was squared and formal with straight, true and gauged joinery as the sign of high-end work. Really, it still is throughout the world, but “beauty is in the eye of the beholder.” If historic stone buildings where not plastered, (receiving an external stucco render), but instead received the inverted “v” joint to deflect the downward and angled drive of the rain, they usually were whitewashed right over top of the stone and joint in rubble work. When you don’t see the whitewash over the stone anymore it is because the acidity of a constant rainwater bath has loosened it and it has come off and was not renewed. More often than not it remains under the porch of houses and forebay areas of barns where it has been protected. Look closely in the pours of the stonework on the sides of the building and under the eaves or behind pent roof to see it remnants of the stucco or whitewash has remained. Another tell-tale sign that the building was originally stuccoed over the stone is that the widow trim remains proud to the stonework. If the trim comes out past the stonework at a thickness of 1-1’1/2″ past the stone, then that is indicative that the stone was covered with stucco the meet the outer edge of the wood trim.

The only insulation gained by exterior plaster is that of slowing a driving wind. Overall masonry is a poor insulator. 1940 and newer stucco may have had perlite incorporated into the mix to add an insulatve element.

To correctly restore something would mean to put it back to its original design. For correct architectural restoration of a stucco over stone building means that the plaster should remain and be finished as it was originally. However, many people with unsound exterior plaster, which has lost its bond to the substrate or has cracks throughout it or has paint that is flaking, consider the removal of the offending stucco and coatings without replacing it but rather exposing, cleaning and repointing the stone. It is an option that will help mitigate the water infiltration problem. It is an option for overcoming the eyesore of flaking paint. It even increases the value of the building in many cases more than what the cost was to expose and repoint the stone. But my advise is to “just say no” when you have a formal exterior such as a building with a mansard roof. An exposed stone building which has been repointed and does not have the stucco or whitewash renewed should be reserved for a simple country farmhouse, outbuilding or barn in my opinion. It may effect the value of the property in a negative way by removing historic details. A local historic appropriateness review board may not allow these modifications and a historical society may frown upon changing the unique and appropriate details originally found at the historic structure.

Category: Restoration

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Correct total repointing requires removing the joint to a depth of approximately 2-1/2 times its width and then using a compatible mortar in relation to the final p.s.i. and both the liquid and vapor transmission rate as that of the remaining joint and brick. High lime content pointing mortar is compatible with the soft and absorptive nature of historic brick which rely on their “fired skin” to protect themselves and the building from rain intrusion. If high concentrations of Portland cement were in the repointing mortar instead of lime, when moisture in the brick were to expand and contract during freeze/thaw cycles, often the unyielding mortar forces the softer face of the brick to exfoliate thus leaving a vulnerable unburned “salmon” center of the brick exposed to the elements.

Category: Restoration

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Invasive cleaning methods such as sandblasting or high-pressure washing should be a questionable intervention upon historic fabric of any kind and should be considered carefully. Quartzite sand should never be the medium used on historic brick whose frail “fired skin” will be destroyed and thus expose a porous “salmon” center. Never sandblast sand upon any stone with intricate carvings or upon a terra cotta unit whose glazing would be irreversibly removed. Other media is available such as ground up walnut shells, baking soda, diatomaceous clays, glass beads. Which media to be used is to be judged on their effectiveness using the most non-invasively method first. The non-invasive method is the one that works upon the historic substrate to lift only the undesirable contaminant. One could employ quartzite sand, (in varying gradation and at various p.s.i. pressure), when there is a sacrificial element allowance and need for aggressive cutting is desired such as in the case of removing tenaciously adhered Portland cement staining from a poor repointing job or from a cementicious whitewash when the substrate is common fieldstone that has no intricate carving.  Modern brick will lack the porous “salmon” center known to be the remaining condition of an historic brick fired in a down-draft kiln. Modern bricks are thoroughly fired in a tunnel kiln which results in more uniform densification throughout. But even modern brick will become “pitted” by the sharp sand action of a sandblaster. If any case where all the drawbacks and limitations are realized and anticipated beforehand still warrant the use of sand as the medium, this method is at your disposal if a test sample proves it is effective. However, be sure of this fact. The surface area of masonry which is exposed to the elements is increased once sandblasted and micro-cracks may be introduced by any violently aggressive sandblasting especially by inexperienced operators. A final draw back in the use of this already unpopular method is that silica dust will be produced. At least a water mist used as a knockdown to dust must be engineered into the application. Water greatly reduces the dust when the sand comes out of the orifice and is pulverized into dust upon impact. A vacuum sandblaster is used when one must collect all of the contaminant such as paint along with the sand. Some municipalities do not allow sandblasting of any kind because of the negligence and misuse of the tool and because of the irreversible damage caused to historic structures. Not allowing sandblasting is generally a good idea since more damage is done than good over all. Should you let them sandblast? Most probably not.

Category: Restoration

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Surface pointing, (also known as a “scrub joint” ) is commonly applied as a pasted joint with little depth of material. It is in fact the most common method of “repointing” a whole building but contributes very little. In fact many times this method accelerates deterioration by trapping water in the wall with high concentrations of Portland cement in the mix used.

Many masons utilize this method because pasting over the top of slightly recessed joints with a thin overlay goes up very quickly and gives the appearance of a lot of work received for what is a small amount of money charged for the work. In the end, the less than savvy building owner may think that since the entire wall has been “repointed” and now has a uniform look with all of the joints filled that they have received a good value.

What actually has happened is that the joint profile is not restored to a tooling within the edges of the brickwork but instead is a flat joint on the faces of the brickwork.

The fineness of Portland cement and fine play sand made in a 1:1 ratio with little or no lime content is often what is used to make this fine paste. The brittle, often gray Portland cement colored, scrub joint cracks and falls out within a few years.

Where the scrub joint does not fall out and was filled into deeper voids it only helps to keep moisture trapped in the bedding mortar. This allows any moisture in the wall to escape through the face of the masonry unit if it were to get out at all. A resulting “picture frame” of proud gray mortar remains with hollowed back masonry units as the final irreversible damage. “Tuck pointing” is what some inappropriately call the scrub joint. The scrub joint is very similar to grouting the face of tile although the scrub joint is applied course by course on the brick joints. The actual root of the name “Tuck pointing” comes from a narrow keyway cut into the center of a molded brick joint and then filled or “tucked” with a bright white, red or black lime putty to give a more formal and gauged appearance to the brickwork.

Prior to the tucking in of this lime putty a red color wash used to be applied first to the bricks and to the background mortar joints to give uniformity and aid as a shelter coat. Remnants of this color wash and infill of putty can be found on many historic brick buildings in the eastern states. The “grapevine joint” has taken the place for the name of a true ruled-key tuck pointed joint in my opinion. The grapevine joint is often reproduced in a restoration effort without the proper color wash and lime putty in-fill. This is a side note but shows that hastily going into repointing can result anywhere from improper working dynamics to a wholesale misinterpretation of the original design detail which alters the historic accuracy of the building in its setting.

Category: Restoration

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Reusing old historic mortar is possible in more ways than one. The first methodology would be to leave sound mortar alone and keep using it for as long as possible, only doing “patch” pointing in areas that need to be fixed. In cases where a building owner desires to repoint the whole building you can follow the backyard guidelines below.

Of course if one were to follow these guidelines then there must be a conservation mindset in the back of their head. Knowing this, a mortar analysis would be highly recommended to help conclude an appropriate mortar mix design.

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Reconstitution of historic lime mortar and renders

The purpose of this procedure is to separate the lime from the historic aggregates to reproduce a mortar joint or render while retaining as much of a buildings historic fabric as possible without the use of acids.

Beginning with the removal of any loose, cracked or friable render or mortar in the gentlest means possible, put debris aside.

Using a concrete barrel mixer place all saved debris in the mixer with large heavy stones or steel balls, about the size of a bowling ball. Make sure that the chosen crushing medium is harder than the debris to minimize contamination of the crushed aggregate by foreign matter. The mixer should be filled only to the point where the crushing medium will effectively fall from the apex of the mixing rotation and crush the debris to what would be the consistency of a pre-blended dry bagged mortar. This process should take anywhere from 20 – 60 minutes depending the quantity of the material loaded in the mixer (less is faster) and the desired fineness of the aggregates. Be sure not to over mix. Over mixing will result in the deformation of the aggregate.

Once the debris has been crushed to the desired particle size, place in 5-gallon pails or wheelbarrow for the separation process.

Place the end of a hose running water beneath the crushed aggregate. While the container is filling with water be sure to slowly agitate the wet aggregate mix with a hoe or trowel. Be sure to allow the fine lime particles to spill over the sides of container to be discarded. Make sure that the larger aggregate stays settled to bottom of the container for reclamation. This process should take approximately 20-60 minutes depending on amount of crushed debris and its binder to aggregate ratio. The process is completed when the water runs fairly clear and the remaining fines in the mixture can be easily made into a ball that resembles saturated beach sand.

Upon completion of filtering the lime from the aggregate allow to dry in the open air and strong sun by spreading it out on as thinly as possible over a tarp.

Once the aggregates are dry, the large particles of broken stone, any other foreign matter and large unbroken debris can be dry screened out using the desired sieve size. Typically anything retained on a #4 sieve can be discarded.

Now that the aggregate is dried and sieved, new mortar formulations can commence. Depending on the amount of work to be done with the reclaimed aggregate and the amount that was actually reclaimed, determination of how much other similar aggregate is to be gauged in to the new repointing or rendering mix.

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Category: Restoration

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*Using the modern grapevine jointer in brickwork is a form of what is also called “bastard pointing” whereby the genuine article which is being attempted to be copied is actually the ruled key and tuck point where the bed mortar receives a keyway into the first infill and then later tucked with usually a white or red colored lime putty. This “tuck pointing” was done to give a more formal, (gauged) appearance to a hand molded and irregular sized brick or irregular rubble, and a snecked rubble, stone wall. Bastard pointing in stonework is found in the forms of Ruled Ribbon jointing and further by Cobweb Ribbon jointing in both cases by the Raised Ribbon where material is added or raised to the base infill and not into a keyway first incised. It is also found in the form of Painted Ribbon where whitewash is used for the painted highlight lines in white, graphite black, etc. to create contrast.

Pencylling on both brick and stone joints is a form of trompe l’oeil where these colored limes are painted in straight thin lines on the joint. It really is a faux finish to what originally was genuinely designed to have depth and body to an infill material that would last longer as it wore away. New (colonial style) brick buildings, and reproductions of the same at historic sites, often get what is also called a Colonial style “grapevine jointing” the brickwork. This style is often being copied from the original buildings in which the remnant of the style hardly remains evident in regard to the in-fill of colored lime putty. It is often by an oversight, or by a new interpretation of only what is desired from what remains of the original style that the contrasting infill is not included in the new work. This oversight has happened to the degree that a new style all its own has been created, AKA the grapevine jointing in brickwork. Thus, now all repointing is often generically referred to as tuck pointing from the original meaning to tuck in the colored putty within the center of an incised joint. The grapevine joint in brickwork is now made with a jointer which makes a center impression which is close to straight, but not at all as straight as when using a rule to guide the impression. In nature a real grape vine would never normally grow in straight lines or be incised, unless you are pulling a grapevine out of a building’s mortar. Therefore it is just the grapevine joint in stonework which remains true to its name as a convex protrusion. In brickwork, the grapevine joint is a style of modern times. In brickwork a convex protrusion is called a beaded joint.

Overhung Ridge Joint

A very authentic historic style of pointing whereby a squared appearance is given to snecked rubble work is the Overhung Ridge joint. Snecked rubble is stonework cut in semi-squared blocks of stone laid in level, uniform coursing. Snecked rubble is sometimes wrongly referred to as Ashlar work. Ashlar work is actually perfectly squared blocks of stone, whether they be actually squares or rectangles, with very tight, (usually less than ¼) joinery. The Overhung Ridge joint is often misinterpreted as one of the ribbon joints mentioned above. Overhung Ridge is a joint that meets the flush face of the semi-squared block of stone above it, having a trailing edge to the stone above it and a ruled edge with a inward bevel meeting to the stone below it. Usually the left side of the head joint has the trailing edge and the right side of the head joint, the ruled edge with bevel.

Ecologic™ Mortar G #DGM 250

(greenish ochre-brown colored)

Tools- 1/2″ ribbon jointer, loop and a level

Note that often in Overhung Ridge pointing of snecked rubble stonework, the head joints can be perfectly perpendicular with the horizontally level bed joints or the head joints are angled from the level bedding plane. From a distance this joint appears to make the semi-squared stones seem more squarely shaped. It also makes the joints look a lot like a ribbon joint, which they are not. Although no painted lime lines or additionally material is added on the surface of the ruled lines, the tightly compressed flat area of the Overhung Ridge joint typically dries lighter than the trailing and ruled edge which is scraped away to bleed into the surrounding texture of stone. This gives the appearance of a painted ribbon joint, but is not to say that in some instances pencylling was not still carried out. In Chestnut Hill, Philadelphia many original Overhung Ridge pointed buildings throughout Germantown Avenue and all the surrounding side streets can still be viewed.

**Beveled Ridge is also known in various areas as a Beveled Ridge, Colonial Ridge, Inverted-V, V, Beaked, Peaked, Prism, Crown Ridge or as a Pointed joint along with other regional terms for the same thing. The term for placing mortar between any irregularly shaped stone or brick where the mortared sides of the squared unit and/or bed was not first buttered with mortar and then dipped on to its bed is called pointing or it is called repointing when it is renewed. An actually pointed joint, which comes to a peak in the center best describes the most functional shape for mortar placed between irregular sized, random laid rubble stonework because the protrusion of the mortar allows for more material to be weathered away than any joint which is struck back. It also happens that rain coming at an angle toward the building would deflect away from the wall when the force of the rain hits a beveled edge and bounces away. Finally, in randomly laid rubble stonework where the mosaic-like pieces of stone come together to form one unified wall, a hand struck Beveled Ridge joint follows the contours of the stones’ joinery. This allows the size of each bevel to conform with the opening which it fills. This is aesthetically pleasing and is further improved in aesthetic quality when sunlight casts shadows on the lower half of the bevel making wide joints appear half their size. So, the terms Pointing and to Repoint may have remained because of the shape that mortar for this type of stonework was originally designed to have.

Surface pointing, (also known as a “scrub joint” ) is commonly applied as a pasted joint with little depth of material. It is in fact the most common method of “repointing” a whole building but contributes very little. In fact many times this method accelerates deterioration by trapping water in the wall with high concentrations of Portland cement in the mix used.

Many “Restoration masons” utilize this method because pasting over the top of slightly recessed joints with a thin overlay goes up very quickly and gives the appearance of a lot of work received for what is a small amount of money charged for the work. In the end, the less savvy building owner thinks that since the entire wall has been “repointed” and the uniform look of all joints being filled is a complete job they received a good value.

What actually has happened is that the joint profile is not restored to a tooling within the edges of the brickwork but instead is now a flat joint on the faces of the brickwork much wider than the original joint profile.

The fineness of Portland cement and fine play sand made in a 1:1 ratio with little or no lime content is what makes this fine paste. The brittle, often gray Portland cement colored, scrub joint cracks and falls out within a few years.

Where it does not fall out and was filled into deeper voids it helps to keep moisture trapped in the bedding mortar and only allows any moisture in the wall to escape through the face of the masonry unit, if it were to get out at all. A resulting “picture frame” of proud gray mortar remains with hollowed back masonry units as the final irreversible damage. “Tuck pointing” is what some inappropriately call the scrub joint. The scrub joint is very similar to grouting the face of tile although the scrub joint is applied course by course on the brick joints. The actual root of the name “Tuck pointing” comes from a narrow keyway cut into the center of a molded brick joint and then filled or “tucked” with a bright white, red or black lime putty to give a more formal and gauged appearance to the brickwork.

Prior to the tucking in of this lime putty a red color wash is first applied to the bricks and mortar joints to give uniformity and aid as a shelter coat. Remnants of this color wash and infill of putty can be found on many historic brick buildings in the eastern states. The “grapevine joint” has taken the place for the name of a true ruled key and tucked joint and what is often reproduced in a restoration effort is simply the grapevine joint without the proper color wash and lime putty in-fill.


Example of “stone-filled framing” often found in early house construction. This is not how the interior walls were intended to remain. Owners in later years took off the interior plaster and exposed the brick or stone-filled framing and pointed up the work. This cobweb ribbon style mortar joint is considered a “bastard pointing.” It was not achieved by white material placed over gray background mortar nor was it painted on white lines. Simply by compressing the wet mortar in the center and scraping away and leaving an open texture to the feathered edges of the mortar did the centerline dry whiter and more prominent.

Another example of how the exterior plaster used to cover the rubble fieldstone foundation was “lined-out” to look like cut blocks of stone. The exterior plaster render above it is harling. A type of plaster harled (literally hurled) at the wall while wet. The English call it Rough Cast and the Scots call it Harling.

An example of squirrel tail bake oven underside: Slates were used for the underside of a bake oven again arranged in the same successful pattern. Slate was an available local stone in the area of PA were this photo was taken.

An example of squirrel tail bake oven underside: Slates were used for the underside of a bake oven again arranged in the same successful pattern. Slate was an available local stone in the area of PA were this photo was taken.

The “grapevine” joint in stonework is a protruded bead. Easton, PA Note to those in College Hill and the Easton, PA area- 1 part Ecologic™ Mortar G #DGM 200 (brown/grayish color) and 1/4 part washed coal flecks, (or medium grade slag bits), is a good match for most mortar repointing work needed on buildings built there before 1940.

The “beaded joint” in this brickwork is a protruded bead. Annapolis, MD

Metal sheets from late 1800’s into early 1900’s meant to reproduce the work of early brick masons correctly interpreted a detailing that was found in most all old brickwork where some detail, whether a bead or a tucked-joint ribbon or a slight raised “V” from cutting the lime mortar usually was the finished profile. Today a concave, 1/2 round, striking is commonly done to cement mortars so that they are tightly compressed using a convex or “bucket” jointer. Unlike lime mortars, which allow absorption and evaporation of all water, modern Portland cement joints must keep water out by being tightly compressed.

Find the original whitewash on a building and you will often see bluing. Ultra Marine Blue was added as well as other types of bluing pigments to help a not so white lime wash to become whiter. I have heard tales of superstitions about putting blue in the whitewash but I don’t have substantial information to offer about whether they have any truth to the tales or not. A very white whitewash helped to increase moonlight reflection and often one can see plaster remaining over the brick or stone under a front porch for this very reason.

Example of “brick-filled framing” often found in early house construction.
Example using over-burned “clinker brick” which twists out of shape from over firing and then laid in a wall as a decorative form of brickwork called “skintled” brickwork

A pent roof was removed from a rubble fieldstone farmhouse in Pennsylvania and the owner’s who did this work showed me this beautiful original lime plaster which was “lined-out” to look like cut ashlar blocks of stone. For some reason we often see these blocks scribed around 26-27″ long and 9″ high. We have also measured many other variations but the 26 x 9 is common.

You know that you are dealing with historic fabric when you see greater detail in the use of lime/sand mortars. Above are down-draft kiln fired red brick with a pigmented red lime mortar. The black painted “ribbon joint” found on the stonework was originally installed to create a more formal appearance of gauged joinery. This creates contrast between the stone and the colors of the brick above it. Ask for Ecologic™ #DGM Black mortar

Another couple of examples of “lining out” where incised lines were scored into wet lime/sand exterior plaster to simulate brick and their joints. Although the mosaic of rubble fieldstone is considered a desirable thing of beauty today, it was more a sign of affluence to have had brick made and delivered to a building site rather that using scrap fieldstone laid up in a rubble wall. So, the shelter coat of lime/sand plaster was often embellished with lining-out to create something more sophisticated such as cut blocks of stone or expensive bricks.

I would love someone to tell me what this is. A 250 year old threshold stone made of granite had an inlaid area. However, nothing was inlaid. The imprint of a center “mat-like” area is actually the original stone with only a vermiculated center area tooled in, as if to catch dirt. Something may have been poured in to the crevices and sat up on top of the stone but it is now worn completely away. Montgomery County, PA.

Another example of Pencylling. Cut blocks of sandstone were color washed and pencylled-in with a ruled black line to give the appearance of even a closer tolerance to the stonework’s joinery. The white part of the mortar would have been stained the uniform color applied to all of the stonework’s faces and joints except for the prominent black line.

Category: Restoration

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Moisture that is seen in the masonry walls at first and second floor level when it has been determined that no plumbing is leaking within the wall, or improper pointing, flashing or cracks are apparent on the outside, may be due to various causes.

  1. “Rising damp” originating from earth sloped toward the building instead graded to lead water away may sometimes absorb into the mortar or stucco. To correct this the grade should be sloped away from the building. Heat from the baseboard units pull the air containing water toward itself too. This is apparent when plaster crumbles near the baseboard of the first floor or above the baseboard heating unit. A full damproof course of low absorptive masonry such as terra cotta tile can be installed to arrest this condition. Below grade it has been a traditional building technique to parge coats of external plaster on the foundation and coat the parging with tallow, (animal fat). Dig down along that side of the house and after a parge coat of 1 part NHL 5 and 1 part sand apply a bituminous foundation coat to seal out moisture. Consider use of a sheet drain which leads to a french drain tile. Finally remember to grade away from the building and remove loose-fill that causes drainage against the building instead use a less percolating soil that allows water to be shed-off.
  2. There are unused flues built directly into the thickness of solid brick or stone walls that need to be filled with vermiculite or if used, properly lined. Sometimes you will see an accelerated decay of the brick faces and joints where the hidden chimney within the wall is located. If a high efficiency heater is installed without a liner in these hidden chimneys you may see old creosote being carried through the brick or stone wall by the catalyst of condensed water from the efficient heater to the outside face of the wall. This often leaves a brownish streak coming down the wall. The correction is to properly line the chimney with insulative liner.
  3. The moisture content in the room or an adjoining room/basement is great and requires proper ventilation. Often rooms in older houses are tightened up with thermal windows and further power-cooled. They should be equally power-ventilated and not rely on ridge, soffit, or unbalanced venting methods. Natural venting ports in basements are sometimes closed-off. This modification sometimes changes the dynamics of the original design for proper ventilation.
  4. When north-east driving rains push against a wall which was recently repointed or re-stuccoed in Portland cement based material the result is often a water infiltration into the building’s bedding mortar. You may see a “water-logged” look to the exterior masonry. The moisture gets caught up in the punky, loose and absorptive bedding mortar in the deep mass-masonry wall and can’t get out. The answer is not to replace the bedding mortar. The answer is to re-repoint or remove and re-stucco the exterior with the correct lime/sand mortar and stucco so as to return to the appropriate breathability of the historic system.
Category: Restoration

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Working with Us

Yes. Here are some local and some not so local examples of our consulting work:

Denbigh Hall Condominiums, Wilmington Delaware

Denbigh Hall Condominiums, Wilmington Delaware

Andy deGruchy taking moisture meter readings.
We were hired to hunt down leaks in the large building and put together a plan to correct the root cause. A year later we fulfilled the plan and spent over a year executing the work to solve the water infiltration problem to the building.


A small luxury hotel located in Massachusetts where we prepared an intervention plan and put preliminary budget numbers together to carry out the plan.


This is the deLabra School in San Turce, Puerto Rico. The General contractor who won the project had me visit the site and spend a few days reviewing specifications and preparing a masonry restoration bid.
Category: Working with Us

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