1) This Section applies to excavations and foundation systems for buildings.
1) A subsurface investigation, including groundwater conditions, shall be carried out by or under the direction of a professional
engineer having knowledge and experience in planning and
executing such investigations to a degree appropriate for the
building and its use, the ground and the surrounding site conditions. (See Appendix A .)
1) Drawings associated with foundations and excavations shall conform to the appropriate requirements of Section 2.2. of Division C. (See Article 2.2.4.6. of Division C.)
1) A field reviewshall be carried out by the
designer or by another suitably qualified person to ascertain that the subsurface conditions are
consistent with the design and that construction is carried out
in accordance with the design and good engineering practice.
(See Appendix A.)
2) The review required by Sentence (1) shall be carried out
a)on a continuous basis
i)during the construction of all deep foundation units with all pertinent information recorded for each foundation unit,
ii)during the installation and removal of retaining structures and related backfilling operations, and
iii) during the placement of engineered fills that are to be used to support the foundation units, and
b)as required, unless otherwise directed by the authority having jurisdiction,
i)in the construction of all shallow foundation units, and
ii)in excavating, dewatering and other related works.
1) If, during construction, the soil, rock or groundwater is found not to be of the type or in the condition used in design and as indicated on the drawings, the
design shall be reassessed by the designer.
2) If, during construction, climatic or any other
conditions change the properties of the soil, rock or groundwater, the design shall be reassessed by the designer.
1) Wood used in foundations or in support of soil or rock shall conform with the appropriate requirements of Subsection 4.3.1.
1) Wood exposed to soil or air above the lowest anticipated groundwater table shall be treated with preservative in conformance with
CSA O80 Series, “Wood
Preservation”, and the requirements of the
appropriate commodity standard as follows:
a)CSA O80.2, “Preservative Treatment of Lumber, Timber, Bridge Ties, and Mine Ties by Pressure Processes”,
b)CSA O80.3, “Preservative Treatment of Piles by Pressure Processes”, or
c)CSA O80.15, “Preservative Treatment of Wood for Building Foundation Systems, Basements, and Crawl Spaces by Pressure Processes”.
2) Where timber has been treated as required in Sentence (1), it shall be cared for as provided in AWPA-M4, “Care of
Preservative-Treated Wood Products”, as revised by
Clause 6 of CSA O80 Series, “Wood Preservation”.
1) Plain or reinforced masonry used in foundations or in support of soil or rock shall conform with the requirements of Subsection 4.3.2.
1) Where plain or reinforced masonry in foundations or in structures supporting soil or rock may be subject to conditions conducive to deterioration, protection shall be
provided to prevent such deterioration.
1) Plain, reinforced or pre-stressed concrete used in
foundations or in support of soil or rock shall conform with the requirements of Subsection 4.3.3.
1) Where concrete in foundations may be subject to chemical attack, it shall be treated in
conformance with the requirements in CSA-A23.1, “Concrete
Materials and Methods of Concrete Construction”.
[Rev. 12, B.C. Reg. 336/2010.]
1) Steel used in foundations or in support of soil or rock shall conform with the appropriate requirements of
Subsection 4.3.3. or 4.3.4., unless otherwise specified in this Section.
1) Where steel piles are used in deep foundations and act as permanent load-carrying members, the steel shall conform with
one of the following standards:
a)ASTM A 252, “Welded and Seamless Steel Pipe Piles”,
b)ASTM A 283/A 283M, “Low and Intermediate Tensile Strength Carbon Steel Plates”,
c)ASTM A 1008/A 1008M, “Steel, Sheet, Cold-Rolled, Carbon, Structural, High-Strength Low-Alloy and High-Strength Low-Alloy with Improved Formability”,
d)ASTM A 1011/A 1011M, “Steel, Sheet and Strip, Hot-Rolled, Carbon, Structural, High-Strength Low-Alloy and High-Strength Low-Alloy with Improved Formability”, or
e)CAN/CSA-G40.21, “Structural Quality Steel”.
1) Where high strength steel is used for tendons in
anchor systems used for the permanent support of a
foundation or in the erection of temporary support of soil or rock adjacent to an excavation, it shall conform with the requirements of CSA-A23.1, “Concrete
Materials and Methods of Concrete Construction”.
[Rev. 12, B.C. Reg. 336/2010.]
1) Where conditions are corrosive to steel, adequate
protection of exposed steel shall be provided. (See Article 1.2.1.1. of Division A for use of other materials.)
(See User's Guide - NBC 2005, Structural Commentaries (Part 4 of Division B).)
1) The design of foundations, excavations and soil- and rock-retaining structures shall be based on a subsurface investigation carried out in conformance with the requirements of this
Section, and on any of the following, as appropriate:
a)application of generally accepted geotechnical and civil engineering principles by a professional engineer especially qualified in this field of work, as provided in this Section and other Sections of Part 4,
b)established local practice, where such practice includes successful experience both with soils and rocks of similar type and condition and with a foundation or excavation of similar type, construction method, size and depth, or
c)in situ testing of foundation units, such as the load testing of piles, anchors or footings, carried out by a person competent in this field of work.
(See Appendix A.)2) The foundations of a building shall be capable of resisting all the loads stipulated in Section 4.1., in accordance with limit states design in Subsection 4.1.3.
3) For the purpose of the application of the load
combinations given in Table 4.1.3.2., the geotechnical components of loads and the factored geotechnical resistances at ULS
shall be determined by a suitably qualified and experienced
professional engineer.
4) Geotechnical components of service loads and
geotechnical reactions for SLS shall be determined by a
suitably qualified and experienced professional engineer.
5) The foundation of a building shall be designed to satisfy SLS requirements within the limits that the building is designed to accommodate, including total settlement and differential settlement, heave, lateral
movement, tilt or rotation.
6) Communication, interaction and coordination
between the designer and the professional engineer responsible for the geotechnical
aspects of the project shall take place to a degree
commensurate with the complexity and requirements of the
project.
1) A subsurface investigation shall be carried out to the depth and extent to which the
building or excavation will significantly change the stress in the soil or rock, or to such a depth and extent as to provide all the necessary
information for the design and construction of the
excavation or the foundations.
1) The identification and classification of soil, rock and groundwater and descriptions of their engineering and physical properties shall be in accordance with
a widely accepted system.
1) Except as permitted in Sentence (2), the bearing surface of a foundation shall be below the level of potential damage, including damage resulting from frost action, and the foundation shall be designed to prevent damage resulting from adfreezing and frost jacking. (See Appendix A .)
2) The bearing surface of a foundation need not be below the level of potential damage from frost where the foundation
a)is designed against frost action, or
b)overlies material not susceptible to frost action.
1) Where a foundation is to rest on, in or near sloping ground, this particular condition shall
be provided for in the design.
1) Where there is eccentricity or inclination of loading
in foundation units, this effect shall be fully investigated and provided for in the design.
1) Where dynamic loading conditions apply, the effects
shall be assessed by a special investigation of these conditions
and provided for in the design.
1) Where a foundation or any part of a building is subject to hydrostatic uplift, the effects shall be provided for in the design.
1) Where proposed construction will result in a temporary
or permanent change in the groundwater level, the effects of this change on adjacent buildings shall be fully investigated and provided for in the design.
1) Where conditions of permafrost are encountered or
proven to exist, the design of the foundation shall be based upon analysis of these conditions by a person especially qualified in that field of
work.
1) Where swelling or shrinking soils, in which movements resulting from moisture content changes may
be sufficient to cause damage to a structure, are encountered or
known to exist, such a condition shall be fully investigated and
provided for in the design.
1) Where rock that expands or deteriorates when subjected to unfavourable environmental
conditions or to stress release is known to exist, this
condition shall be fully investigated and provided for in the
design.
1) Buildings may be placed on fill if it can be shown by subsurface investigation that
a)the fill is or can be made capable of safely supporting the building,
b)detrimental movement of the building or of services leading to the building will not occur, and
c)explosive gases can be controlled or do not exist.
1) The structural design of the foundation of a building, the procedures and construction practices shall conform with the
appropriate Sections of this Code unless otherwise specified in
this Section.
(See User's Guide - NBC 2005, Structural Commentaries (Part 4 of Division B).)
1) The design of excavations and of supports for the sides of excavations shall conform with Subsection 4.2.4. and with this Subsection.
1) Every excavation shall be undertaken in such a manner as to
a)prevent movement that would cause damage to adjacent buildings at all phases of construction, and
b)comply with the appropriate requirements of Part 8.
2) Material shall not be placed nor shall equipment be
operated or placed in or adjacent to an excavation in a manner that may endanger the integrity of the excavation or its supports.
1) The sides of an excavation in soil or rock shall be supported by a retaining structure conforming with the
requirements of Articles 4.2.5.1. and 4.2.5.2., except as permitted in Article 4.2.5.4.
1) The sides of an excavation in soil or rock may be unsupported where a design is prepared in conformance with the
requirements of Articles 4.2.5.1. and 4.2.5.2.
1) Surface water, all groundwater, perched groundwater and in particular artesian groundwater shall be kept under control at all phases
of excavation and construction.
1) At all phases of excavation and construction, loss of ground due to water or any other cause
shall be prevented.
1) All sides of an excavation, supported and unsupported, shall be continuously maintained and
protected from possible deterioration by construction activity
or by the action of frost, rain and wind.
1) Where an excavation is backfilled, the backfill shall be placed so as to
a)provide lateral support to the soil adjacent to the excavation, and
b)prevent detrimental movements.
2) The material used as backfill or fill supporting a footing, foundation or a floor on grade shall be of a type that is not subject to detrimental volume
change with changes in moisture content and temperature.
(See User's Guide - NBC 2005, Structural Commentaries (Part 4 of Division B).)
1) The design of shallow foundations shall be in conformance with
Subsection 4.2.4. and the requirements of this Subsection.
1) Where a shallow foundation is to be placed on soil or rock, the soil or rock shall be cleaned of loose and unsound material and shall be adequate to support the design load taking into
account temperature, precipitation, construction activities and
other factors that may lead to changes in the properties of
soil or rock.
1) Where a shallow foundation unit has not been placed or located as indicated on the
drawings,
a)the error shall be corrected, or
b)the design of the foundation unit shall be recalculated for the altered conditions by the designer and action taken as required in Article 2.2.4.7. of Division C.
1) If a shallow foundation unit is damaged,
a)it shall be repaired, or
b)the design of the foundation unit shall be recalculated for the damaged condition by the designer and action taken as required in Article 2.2.4.7. of Division C.
(See User's Guide - NBC 2005, Structural Commentaries (Part 4 of Division B).)
1) A deep foundation shall provide support for a building by transferring loads by end-bearing to a competent stratum at
considerable depth below the structure, or by mobilizing
resistance by adhesion or friction, or both, in the soil or rock in which it is placed. (See Appendix A .)
1) Deep foundations shall be designed in conformance with Subsection 4.2.4. and this Subsection.
2) Where deep foundation units are load tested, as required in Clause 4.2.4.1.(1)(c), the determination of the number and
type of load test and the interpretation of the results shall be
carried out by a professional engineer especially qualified in
this field of work. (See Appendix A .)
3) The design of deep foundations shall be determined on the basis of
geotechnical considerations taking into account
a)the method of installation,
b)the degree of inspection,
c)the spacing of foundation units and group effects,
d)other requirements in this Subsection, and
e)the appropriate structural requirements in Section 4.1. and Subsections 4.3.1., 4.3.3. and 4.3.4.
4) The portion of a deep foundation unit permanently in contact with soil or rock shall be structurally designed as a laterally supported compression member.
5) The portion of a deep foundation unit that is not permanently in contact with
soil or rock shall be structurally designed as a laterally unsupported compression
member.
6) The structural design of prefabricated deep foundation units shall allow for all stresses resulting from driving, handling and testing.
1) Permissible deviations from the design alignment and
the location of the top of deep foundation units shall be determined by design analysis and shall
be indicated on the drawings.
1) Where a deep foundation unit has not been placed within the permissible deviations
referred to in Article 4.2.7.3., the condition of the foundation shall be assessed by the designer, any necessary changes made and action taken as required in Article 2.2.4.7. of Division C.
1) Deep foundation units shall be installed in such a manner as not to impair
a)the strength of the deep foundation units and the properties of the soil or rock on or in which they are placed beyond the calculated or anticipated limits,
b)the integrity of previously installed deep foundation units, or
c)the integrity of neighbouring buildings .
1) Where inspection shows that a deep foundation unit is damaged or not consistent with
design or good engineering practice,
a)such a unit shall be reassessed by the designer,
b)any necessary changes shall be made, and
c)action shall be taken as required in Article 2.2.4.7. of Division C.
1) Where special foundation systems are used, such systems shall conform to Subsection 4.2.4., Sentence 4.1.1.5.(2) and Article 1.2.1.1. of Division A.
1) Existing foundations may be used to support new or altered buildings provided they comply with all pertinent requirements of this
Section.