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Chimney Clearances |
Code R1001.15 Chimney clearances. Any portion of a masonry chimney located in the interior of the building or within the exterior wall of the building shall have a minimumair space clearance to combustibles of 2 inches (51 mm). Chimneys located entirely outside the exterior walls of the building, including chimneys that pass through the soffit or cornice, shall have a minimum air space clearance of 1 inch (25.4 mm). The air space shall not be filled, except to provide fire blocking in accordance with Section R1001.16. Exceptions: 1. Masonry chimneys equipped with a chimney lining system listed and labeled for use in chimneys in contact with combustibles in accordance with UL 1777 and installed in accordance with the manufacturers installation instructions are permitted to have combustible material in contact with their exterior surfaces. 2. When masonry chimneys are constructed as part of masonry or concrete walls, combustible materials shall not be in contact with the masonry or concrete wall less than 12 inches (306 mm) from the inside surface of the nearest flue lining. 3. Exposed combustible trim and the edges of sheathing materials, such as wood siding and flooring, shall be permitted to abut the masonry chimney side walls, in accordance with Figure R1001.15 provided such combustible trim or sheathing is a minimum of 12 inches (306 mm)from the inside surface of the nearest flue lining. Combustible material and trim shall not overlap the corners of the chimney by more than 1 inch (25.4 mm).
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Commentary Current code on clearance to combustible materials from masonry chimneys is basically one unbuildable paragraph with three exceptions. Then there is an obvoius exception for any listed and labeled system Exception 2 permits masonry chimneys which are part of masonry walls to be in contact with combustibles provided the combustible are at least 12" from an interior flue lining. This is a relatively new code provision and is interesting becasue it shows how far we have slid since houses were built of brick. Without this exception masonry chimenys could not be built within masonry walls if those walls were anywhere in contact with combustibles. This exception provides something of a solution in that for the first time in many years, it allows thickness and mass to compensate for clearance. Exception 3 is a litany of other specific situations in which combustible trim, flooring and siding may touch the masonry. Again the 12" rule is mentioned and is precident-setting in establishing the principle of thickness and mass as a substitute for air space. We think 8" of solid masonry would be an adequate alternative to 4" of masonry plus 2" of air space based on the experience of historic fire prevention strategies and our limited testing. |
Fireplace Clearance |
Code R1003.11 Fireplace clearance. All wood beams, joists, studs and other combustible material shall have a clearance of not less than 2 inches (51 mm) from the front faces and sides of masonry fireplaces and not less than 4 inches (102 mm) from the back faces of masonry fireplaces. The air space shall not be filled, except to provide fire blocking in accordance with Section R1003.13. Exceptions: 1. Masonry fireplaces listed and labeled for use in contact with combustibles in accordance with UL127 and installed in accordance with the manufacturers installation instructions are permitted to have combustible material in contact with their exterior surfaces. 2. When masonry fireplaces are part of masonry or concrete walls, combustible materials shall not be in contact with the masonry or concrete walls less than 12 inches (305 mm)from the inside surface of the nearest firebox lining. 3. Exposed combustible trim and the edges of sheathing materials such as wood siding, flooring and drywall shall be permitted to abut the masonry fireplace side walls and hearth extension in accordance with Figure R1003.12, provided such combustible trim or sheathing is a minimum of 12 inches (305 mm) from the inside surface of the nearest firebox lining. 4. Exposed combustible mantels or trim may be placed directly on the masonry fireplace front surrounding the fireplace opening providing such combustible materials shall not be placed within 6 inches (152 mm) of a fireplace opening. Combustible material within 12 inches (306 mm) of the fireplace opening shall not project more than 1/8 inch (3.2 mm) for each 1-inch (25.4 mm) distance from such an opening.
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Commentary Current code on clearance to combustible materials from masonry fireplaces is basically one unbuildable paragraph with four exceptions (Did I say tis before?). It is noteworthy that the clearance at the back of the firebox was increased from 2" to 4" based on evidence that the "hot spot" is right behind the fireplace. We too are conservtive here and show all our Rumfords to have 12" thick firebox walls even though 8" thick meets code. Once again, if the fireplce is proprietary and listed, some manufacturer has taken responsibility for it and code allows any exception sanctioned by the manufacturer of a listed system. Exception 2, as in the chimney section, permits masonry fireplaces which are part of masonry walls to be in contact with combustibles provided the combustible are at least 12" from an interior flue lining. Again, this language allows thickness and mass to compensate for clearance. Exception 3 allows combustible trim, flooring and siding to touch the masonry repeating the 12" distance from an interior lining surface rule and reinforcing the principle of thickness and mass as a substitute for air space. We agree with this exception based on history and our testing. Exception 4 allows mantels and trim on the front of a fireplace to be even closer to the firebox (6") as it has been shown over many hundreds of years not to be a problem. In summary, the code could be more sucinctly and directly written instead of being a list of exceptions to an umbuildable general rule. The idea that mass and thickness may compensate for clearance is important, however. Another principle is also improtant but is not stated. It's the idea that combustibles that ar exposed such as trim, siding, mantles and flooring, are not as dangerous or insidius as combustibles like the framing you can't see. The idea that the chimney could be bare (at least not totally enclosed with framing) and that trim could touch it here and there would be safer is implied if not stated. It's also the way houses used to be built. |
Firebox Construction R1003.5 Firebox walls. Masonry fireboxes shall be constructed of solid masonry units, hollow masonry units grouted solid, stone or concrete. When a lining of firebrick at least 2 inches (51 mm) in thickness or other approved lining is provided, the minimum thickness of back and side walls shall each be 8 inches (203 mm) of solid masonry, including the lin- ing. The width of joints between firebricks shall not be greater than 1/4 inch (6.4 mm). When no lining is provided, the total minimum thickness of back and side walls shall be 10 inches (254 mm) of solid masonry. Firebrick shall conform to ASTM C 27 or C 1261 and shall be laid with medium-duty refractory mortar conforming to ASTM C 199. See also Fireplace Clearance |
Hearth extensions R1003.9 Hearth and hearth extension. Masonry fireplace hearths and hearth extensions shall be constructed of concrete or masonry, supported by noncombustible materials, and reinforced to carry their own weight and all imposed loads. No combustible material shall remain against the underside of hearths and hearth extensions after construction. R1003.9.1 Hearth thickness. The minimum thickness of fireplace hearths shall be 4 inches (102 mm). R1003.9.2 Hearth extension thickness. The minimum thickness of hearth extensions shall be 2 inches (51 mm). Exception: When the bottom of the firebox opening is raised at least 8 inches (203 mm) above the top of the hearth extension, a hearth extension of not less than 3/8 -inch-thick (9.5 mm) brick, concrete, stone, tile or other approved noncombustible material is permitted. |
Mantels R1003.12 Mantel and trim. Woodwork or other combustible materials shall not be placed within 6 inches (152 mm)of a fireplace opening. Combustible material within 12 inches (305 mm) of the fireplace opening shall not project more than 1 /8 inch (3.2 mm) for each 1-inch (25.4 mm) distance from such opening. |
Smoke Chambers R1003.8 Smoke chamber. Smoke chamber walls shall be constructed of solid masonry units, hollow masonry units grouted solid, stone or concrete. Corbelling of masonry units shall not leave unit cores exposed to the inside of the smoke chamber. When a lining of firebrick at least 2 inches (51 mm) thick, or a lining of vitrified clay at least 5 /8 inch (15.9 mm) thick, is provided, the total minimum thickness of front, back and side walls shall be 6 inches (152 mm) of solid masonry, in- cluding the lining. Firebrick shall conform to ASTMC 27 or C 1261 and shall be laid with medium-duty refractory mortar conforming to ASTM C 199. Where no lining is provided, the total minimumthickness of front, back and side walls shall be 8 inches (203 mm) of solid masonry. When the inside surface of the smoke chamber is formed by corbeled masonry, the inside surface shall be parged smooth. R1003.8.1 Smoke chamber dimensions. The inside height of the smoke chamber from the fireplace throat to the beginning of the flue shall not be greater than the inside width of the fireplace opening. The inside surface of the smokechamber shall not be inclined more than 45 degrees (0.39 rad) from vertical when prefabricated smoke chamber linings are used or when the smoke chamber walls are rolled or sloped rather than corbeled. When the inside surface of the smoke chamber is formed by corbeled masonry, the walls shall not be corbeled more than 30 degrees (0.26 rad) from vertical. |
Flue lining installation R1001.9 Flue lining (installation). Flue liners shall be installed in accordance with ASTM C 1283 and extend from a point not less than 8 inches (203 mm) below the lowest inlet or, in the case of fireplaces, from the top of the smoke chamber to a point above the enclosing walls. The lining shall be carried up vertically, with a maximum slope no greater than 30 degrees from the vertical. Fireclay flue liners shall be laid in medium-duty refractory mortar conforming to ASTMC199 with tight mortar joints left smooth on the inside and installed to maintain an air space or insulation not to exceed the thickness of the flue liner separating the flue liners from the interior face of the chimneymasonry walls. Flue lining shall be supported on all sides. Only enough mortar shall be placed to make the joint and hold the liners in position. R1003.3 Seismic reinforcing. Masonry or concrete chimneys in Seismic Design Categories D1 and D2 shall be reinforced. Reinforcing shall conform to the requirements set forth in Table R1003.1 and Section R609, Grouted Masonry. R1003.3.1 Vertical reinforcing. For chimneys up to 40 inches (1016 mm) wide, four No. 4 continuous vertical bars shall be placed between wythes of solid masonry or within the cells of hollow unit masonry and grouted in accordance with Section R609. Grout shall be prevented from bonding with the flue liner so that the flue liner is free to move with thermal expansion. For chimneys greater than 40 inches (1016 mm) wide, two additional No. 4 vertical bars shall be provided for each additional flue incorporated in the chim- ney or for each additional 40 inches (1016 mm) in width or fraction thereof. R1003.3.2 Horizontal reinforcing. Vertical reinforcement shall be placed within 1 /4 -inch (6.4 mm) ties, or other reinforcing of equivalent net cross-sectional area, placed in the bed joints according to Section R607 at a minimum of every 18 inches (457 mm) of vertical height. Two such ties shall be provided at each bend in the vertical bars. See also Seismic Issues |
Background Clearance Code Issues A Proposal to Rationalize and Simplify the Code language on Clearance-to-Combustibles Relating to Masonry Fireplaces and Chimneys
by Jim Buckley, 5/9/00 Notes Jerry Frisch - Work masonry heaters into other sections in code: clearances, flue offsets, seismic reinforcement
John Guland 5/7/00 john@gulland.ca Jim, Here is the reference from the 1995 (current) National Building Code of Canada:
Subsection 9.21.5. Clearance from Combustible Construction This requirement has been in the code since I got involved in 1980.
Cheers, Code: Crown Publications 546 Yates Street Victoria, BC V8W 1K8 (250) 386-4636 Masonry Heater Association April 19 - 20, 2000 http://mha-net.org/msb/html/lopezi.htm Discussion: UL-127 Temperature limits on combustible surfaces are: 90F over ambient room temperature for unexposed (ie., in contact and covered) surfaces and 117F over ambient room temperatures for surface exposed to ambient air. Testing done at Lopez in January 2000, indicates that in order to obtain 117F above ambient with a 4" ventilated air space, a heater surface temperature of approximately 350F is required. Below are the results with a horizontal line indicating the 350F surface temperature limit. [chart] Note that the firebox wall built in accordance with current fireplace building code, ie., with a firebrick liner and an 8" wall thickness, clearly meets the UL surface temperature requirement at 4" clearance to combustibles when overfired by 400%.
February 20, 2000 ---------------------------------------- ----------------message separator----------------------------------------------- February 18, 2000 Dear Mr. Senf, Attached please find a description of the test protocol we propose to use on the BIA standardized fireplace. Testing is scheduled to begin Wednesday March 1, 2000. It is anticipated that Jerry Frisch and Jim Buckley will be here to observe test progress. Please let us know if you have additional suggestions on procedures or specifications or even other data that can be collected. The attached file is MS Word. If anyone needs something else, let me know. Paul Tiegs Exterior Air
From ???@??? Sun Apr 16 16:27:52 2000
To: Jim Brewer
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By 2000 (next year or shortly thereafter) the 50 states and all local city and county building authorities will adopt the new International Building Code (IBC) and its companion the International Residential Code (IRC). It's good news for masonry fireplaces and chimneys in several ways:
One issue that has not been resolved is the requirement for exterior air supply directly into the firebox of a masonry fireplaces. Many of us would like to see this requirement dropped or made optional.
IBC Chapter 21 Rewritten
On March 21 IBC Committee approved a complete re-organization of the sections of Chapter 21 dealing with masonry fireplaces and chimneys, after tabling the issue twice to allow all the proponents to rework the language. Although we did eliminate the controversial clearance to combustibles exceptions to get consensus, we did re-organize the IBC to reflect the IRC in structure, got masonry heaters in the IBC code for the first time, as well as all the ASTM references, seismic and flue sizing language we've been working on for the last few years in the IRC arena. It was an important victory crafted within the Masonry Alliance for Codes and Standards (MACS) with support from the Brick Industry Association (BIA), the National Concrete Masonry Association (NCMA), the Portland Cement Association (PCA), the Clay Flue Lining Institute (CFLI), the Masonry Heater Association (MHA), the National Fire Protection Association (NFPA), the Hearth Products Association (HPA) and the National Chimney Sweep Guild (NCSG) among others.
Clearance to Combustibles
Later in the week, while other code changes were being addressed, we hammered out an agreement on the clearance to combustibles issues. All the codes - the BOCA, UBC, One and Two Family, even the NFPA 211 - have long been ambiguous and even self contradictory on the distance to combustibles issue (see background below).
Two years ago in Nashville, in the effort to combine all these codes into one, some of this ambiguity was resolved but in such a way that the home builders felt they couldn't continue to abut drywall, exterior sheathing or wood trim to masonry chimneys ("combustible framing" was changed to "combustible materials"). The National Home Builders Association (NHBA) said the code was "un-buildable" if the only way to close off the air space around masonry fireplaces and chimneys is with sheet metal. So last year the NHBA changed the wording in the second draft of the IRC to:
For three days and nights Jim Brewer (NCSG), Chip Clark (BIA), Jerry Frisch (MHA and I worked on language. We might not have come to an agreement except that, with three homebuilders on the IRC Committee, not agreeing would likely mean the permissive NAHB language would stay in the code. In the end we did all agree and we secured the support of all the other code change proponents on this issue and worked with the NHBA so that their opposition was only half hearted.
Here then is what the new International Residential Code (IRC) will say about clearance to combustibles around masonry fireplaces and chimneys:
1. Masonry chimneys equipped with a chimney lining system listed and labeled for use in chimneys in contact with combustibles in accordance with UL 1777, and installed in accordance with the manufacturer's installation instructions, are permitted to have combustible material in contact with their exterior surfaces.
2. When masonry chimneys are constructed as part of masonry or concrete walls, combustible materials shall not be in contact with the masonry or concrete wall less than 12 inches (306 mm) from the inside surface of the nearest flue lining.
3. Exposed combustible trim and the edges of sheathing materials, such as wood siding, shall be permitted to abut the masonry chimney side walls, in accordance with FIGURE R1001.15, provided such combustible trim or sheathing is a minimum of 12 inches (306 mm) from the inside surface of the nearest flue lining. Combustible material and trim shall not overlap the corners of the chimney by more than 1 inch (25 mm).
1. Masonry fireplaces listed and labeled for use in contact with combustibles in accordance with UL 127, and installed in accordance with the manufacturer's installation instructions, are permitted to have combustible material in contact with their exterior surfaces.
2. When masonry fireplaces are constructed as part of masonry or concrete walls, combustible materials shall not be in contact with the masonry or concrete walls less than 12 inches (306 mm) from the inside surface of the nearest firebox lining.
3. Exposed combustible trim and the edges of sheathing materials, such as wood siding, flooring and drywall, shall be permitted to abut the masonry fireplace side walls and hearth extension, in accordance with FIGURE R1003.12, provided such combustible trim or sheathing is a minimum of 12 inches (306 mm) from the inside surface of the nearest firebox lining.
Of particular interest to flue liner manufactures the new codes will reference ASTM C315, the flue lining standard and ASTM C 1283, the clay flue installation standard and chimney construction in seismic areas was also rationalized.
The Uniform Building code (UBC) adopted by most western states has not referenced ASTM C315 and has allowed reinforcing bars to be grouted in solid between the flues and the masonry chimney. "Seismic zones" have been replaced by "seismic design categories" that depend on new detailed maps and soil conditions. Seismic requirements are definitely moving east. The new language in both Chapter Ten of the IRC and Chapter 21 of the IBC will require an air space around the flues in accordance with ASTM C315 even when seismic reinforcing is required. (See seismic requirements below.)
The code also references ASTM C 27 or C 1261 for firebrick and requires that firebrick be laid with medium-duty refractory mortar conforming to ASTM C 199.
Masonry heaters were included in the code for the first time with a reference to ASTM E 1602. For the actual code language check below.
We failed to come to an agreement at the Cosa Mesa code meeting on the exterior air supply issue. The NFPA 211 representative as well as those representing the HPA and the NCSG wanted to eliminate or make the exterior air supply optional while the BIA and the NAHB representatives wanted more research. So the IRC Committee suggested we get it together for next year and disapproved all four proposals dealing with the exterior air supply for fireplaces issue.
The whole concept of requiring an exterior source of combustion air for fireplaces is flawed and has led to some unsafe practices. Three of the four proposed changes to the IRC would
have made the provision of exterior combustion air optional and only permitted if certain safety rules to prevent back drafting were followed.
The value of exterior air supplied directly to the firebox of a fireplace has never been tested. Many say it simply doesn't work. At best the six square inches required is insufficient for an open fireplace. And it can lead to bad smells, blowing ashes, enough turbulence to make the fireplace smoke and, if it can back draft as in a positively pressured space such as an upstairs bedroom, it can be a fire hazard.
There are those who feel that the exterior air supply is needed to keep the fireplace cool in the event glass doors are added to the fireplace. In any event, since we couldn't agree among ourselves, the IRC Committee left the code language as it was, requiring exterior air supply.
We have not challenged any of the code changes ourselves even though we'd still like to make some minor changes. The September ICC meeting with hundreds of code officials voting on hundreds of code issues is just too complicated. Rather, we will make some code change proposals through the Masonry Alliance for Codes and Standards (MACS) next year in the 2000 code change cycle.
The International Building Code (IBC) and the International Residential Code (IRC) will be published in April, 2000 and will be ready for adoption by the various states and local governments that are charged with code enforcement. The code change process goes on, of course, and there will be opportunities to propose changes in future years, but the Code 2000, and all the work it represents, will be seminal.
In the most comprehensive re-writing of the code since the 1940s, Chapter 10 of the IRC and Chapter 21 of the IBC, dealing with fireplaces and chimneys, takes an
encompassing view of building styles and construction methods practiced
all over the country, and also addresses some of the ways fireplaces and chimneys used to be built before the post World War II building boom and continue to be built in some custom homes and restorations.
The old (current) codes were promulgated during the unprecedented
building boom after WWII and focused narrowly on the building methods
commonly used then - mostly wood-frame construction. It was
assumed that masonry chimneys would be built in houses built of wood,
and the codes generally required a 2-in. clearance, or air space, to
combustibles.
Tests showed that, while masonry takes a long time to heat up, it isn't a very good insulator and with steady operating temperatures of 1,000 degrees F or more the temperature on the outside surface of the chimney would never reach an acceptable equilibrium and would keep on getting hotter. The idea of the air space was to have some air circulating around the masonry to cool it. You wouldn't want to enclose the chimney within combustible materials or have combustible materials in contact with large areas of the surface. And you wouldn't want to seal up and insulate the air space, which would interfere with the cooling air circulation, but the edges (not the flat sides) of "sheet materials", like siding, flooring and drywall, could safely touch the masonry, some said.
None of this was very clearly spelled out in any of the model codes but in practice code officials allowed builders to close the gap between a frame wall and the masonry chimney with sheet materials such as drywall and siding. Most allowed the "air space" within the wall to be insulated but this practice was deplored by other officials.
In recent years these old arguments and the "intent of the code" have all but been forgotten. In some areas of the country building officials who have worked their profession for ten years may never have inspected a masonry chimney and when asked to do so (guess what?) they read the code.
Unfortunately the codes are poorly written, self contradictory and unclear. No combustible materials within 2" of the chimney is what the codes say. So how do you close the gap between the wall and the chimney or around the hearth? With sheet metal? How many living rooms have you seen with sheet metal trim around the mantel? And in the next paragraph the mantel, it says, must be 6" away from the fireplace opening - but presumably 6" away it is in contact with the masonry. What about the clearance to combustibles or are wooden mantels not "combustible"?
And how does that distance-to-combustibles rule apply to a chimney in a masonry wall? A few companies are promoting brick or block residential wall systems. We've heard of more than one official who wouldn't allow a combustible window or door frame several feet away from the chimney unless there was a 2" air space somewhere between the chimney and the combustible framing. The rule may be silly but usually the builder just puts a metal fireplace and metal chimney within a wooden chase on his masonry house rather than deal with the patched and ambiguous language governing masonry chimneys and fireplaces. (Wooden chimneys on masonry houses! It should be illegal.)
While the new clearance to combustible language is much better than the current linguistic ambiguity and the resultant policy of letting builders and inspectors figure it out in the field, most of us would like to see some testing or at least heat transfer calculations. Many tests have been performed on code minimum masonry chimneys (a clay flue lining surrounded by 4" on masonry) completely wrapped in a plywood enclosure as specified by UL 1777. The masonry chimneys don't pass, meaning the combustible plywood gets hotter than the allowable 90 degrees F above ambient temperature, unless the flue lining is insulated. But what if only the edge of the plywood sheeting touches the chimney? Or maybe 6" of combustible trim only touching on the sides of the chimney 8" or 12" away from the flue? It would stand to reason that a masonry chimney with its surface mostly exposed would dissipate more heat and not get as hot as a totally enclosed chimney. But would it be too hot? How about a bigger chimney with more mass than the minimal chimney - one that is five feet wide with three flues or one that is part of a masonry wall?
These are not new issues. In a larger historical context, modern codes have narrowly focused on the kind of production frame houses built after WWII. Older and historic masonry chimneys, especially the ones in better houses, often contained three or four flues or were built into thick solid masonry walls. For safety many old chimneys were 8" thick or corbeled out so the chimney walls were increased in thickness to 8" where they passed through combustible floors and roofs. These were long standing practices based on experience. It would be nice to re-examine some of these methods of building safe masonry chimneys, not only to help us maintain and restore these older chimneys but also because some new houses are being well built using masonry and traditional building techniques.
Rumford Fireplaces and Masonry Heaters
The IBC and the IRC now both permit Rumford fireplaces and masonry heaters
and provide guidelines about their construction and safety.
Rumford fireplaces were so common in the 19th and early 20th century that
"Rumford" was synonymous with "fireplace" and Thoreau listed Rumfords along with plaster walls and venetian blinds as luxuries a civilized man could take for granted. Masonry heaters, a tradition even older than Rumford fireplaces, are culturally important features in the homes built by Scandinavians, Germans, and Russians. Both Rumfords and
masonry heaters were not clearly permitted by the codes developed with the decorative but ineffective fireplace of the 1950s in mind. The IBC and the IRC now specifically permit the construction and restoration of these efficient and clean-burning Rumford fireplaces and masonry heaters. Rumford fireplaces have been specifically permitted in the BOCA and UBC codes for several years but the code issues involved in building masonry heaters have never before been addressed in any of the model codes. Here is the language:
R1005.2 Installation. Masonry Heaters shall be listed or installed in accordance to ASTM E-1602
R1005.3 Seismic reinforcing. Seismic reinforcing shall not be required within the body of a masonry heater whose height is equal to or less than 2.5 times it's body width and where the masonry chimney serving the heater is not supported by the body of the heater. Where the masonry chimney shares a common wall with the facing of the masonry heater, the chimney portion of the structure shall be reinforced in accordance with Section R1006.
R1005.4 Masonry heater clearance. Wood or other combustible framing shall not be placed within 4 inches (102 mm) of the outside surface of a masonry heater, provided the wall thickness of the firebox is not less than 8 inches (203 mm) and the wall
thickness of the heat exchange channels is not less than 5 inches (127 mm). A clearance of at least 8 inches (203 mm) shall be provided between the gas tight capping slab of the heater and a combustible ceiling. The required space between the heater and combustible material shall be fully vented to permit the free flow of air around all heater surfaces.
The late 1970s and early 1980s saw many chimney fires caused by air-tight wood stoves and inserts inappropriately installed or improperly used by many of us following the energy crisis a few years earlier. As one might expect, regulations followed the crisis and in the next few years various standards were developed to specify how these appliances should be installed and used. Now, after the dust has settled, the best of these standards - a positive connection to the flue and UL listed relining systems - have been incorporated, either directly in the IBC and IRC or by reference. We have learned from the rash of fires in the '70s and '80's and the new code will result in safer building practices.
Seismic and Wind Load Design Issues
The new model codes also make more sense out of seismic and wind load design issues that were often unclear, self-contradictory or at least varied widely from one model
code to another.
In most of the country, for example, clay flues were installed with an
air space around them for expansion, but in the earthquake-prone areas
of the west that space was often filled with reinforcing bars and
grouted solid. Then again, maybe not. In California, builders and inspectors
worried about thermal expansion and the code didn't specifically say the
steel had to be grouted. Lots of the chimneys that fell over in the
recent California quakes were not grouted nor attached to the house as required by code - sort of.
The new IRC will fix all that. The new code preserves the air space for
expansion and, at the same time, is clear about proper reinforcing and
grout placement where required.
R1006.3.1 Vertical reinforcing. For chimneys up to 40 inches (1016 mm) wide, four No. 4 continuous vertical bars, anchored in the foundation, shall be placed in the concrete, or between wythes of solid masonry, or within the cells of hollow unit masonry, and grouted in accordance with Section R609. Grout shall be prevented from bonding with the flue liner so that the flue liner is free to move with thermal expansion. For chimneys greater than 40 inches (1016 mm) wide, two additional No. 4 vertical bars shall be provided for each additional 40 inches (1016 mm) in width or fraction thereof.
R1006.3.2 Horizontal reinforcing. Vertical reinforcement shall be placed
enclosed within 1/4-inch ties, or other reinforcing of equivalent net
cross-sectional area, spaced not to exceed 18-inches on center in concrete,
or placed in the bed joints of unit masonry, at a minimum of every 18 inches (457 mm) of vertical height. Two such ties shall be provided at each bend in the vertical bars.
R1006.4 Seismic anchorage. Masonry and concrete chimneys and foundations in Seismic Design Category D shall be anchored at each floor, ceiling or roof line more than 6 feet (1829 mm) above grade, except where constructed completely within the exterior walls. Anchorage shall conform to the following requirements:
R1006.4.1 Anchorage. Two 3/16-inch by 1-inch (4.8 mm by 25 mm) straps shall be embedded a minimum of 12 inches (305 mm) into the chimney. Straps shall be hooked around the outer bars and extend 6 inches (153 mm) beyond the bend. Each strap shall be fastened to a minimum of four floor joists with two 1/2-inch (12.7 mm) bolts.
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