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CHAPTER 6: Substructure
CONTENTS
6.1 BASEMENTS
6.2 WALLS BELOW GROUND
6.3 DAMP PROOFING
6.4 GROUND FLOORS
Chapter 6
FUNCTIONAL FUNCTIONAL REQUIREMENTS
REQUIREMENTS
6.1 SUBSTRUCTURE - BASEMENTS
Definition Design
For the purposes of this Chapter a basement is defined as a storey or i. Design and specifications shall provide a clear indication of the
storeys of a building that is constructed partially or entirely below ground. design intent and demonstrate a satisfactory level of performance.
ii. Basements shall be appropriately designed to ensure that they
Workmanship adequately provide a suitable barrier against contaminants, ground
gases, and ground water.
i. All workmanship must be within defined tolerances as defined in iii. Basement design and construction must be supported by structural
Chapter 1 of this Manual. calculations provided by a suitably qualified expert.
ii. All work to be carried out by a technically competent person in a iv. Design details of the basement waterproofing techniques must be
workmanlike manner. provided prior to commencement on-site.
iii. Certification is required for any work completed by an approved v. Basements must meet the relevant Building Regulations and other
installer. statutory requirements, British Standards and Euro-Codes.
vi. All baserments must be designed and constructed to a minimum of
Materials Grade 2 standard as defined in BS 8102.
vii. The basement design should be completed by a suitably qualified
T
echnical Manual V10 - TS-01 i. All materials should be stored correctly in a manner which will not Waterproofing Design Specialist. The Waterproofing specialist
cause damage or deterioration of the product. must take responsibility for the design liability of the waterproofing
ii. All materials, products and building systems shall be appropriate and and have appropriate professional indemnity cover which covers
suitable for their intended purpose. their business activities. They must also have an understanding
iii. The structure shall, unless specifically agreed otherwise with the of hydrology and soil mechanics and hold a relevant professional
1-10.00-010413 warranty provider, have a life of not less than 60 years. Individual qualification (ie Certified Surveyor in structural Waterproofing (CSSW)
components and assemblies, not integral to the structure, may have a or similar)
lesser durability but not in any circumstances less than 15 years. .
CHAPTER 6: SUBSTRUCTURESCHAPTER 6: Substructures
6.1.1 Introduction 6.1.3 General principle of incidence of issues where systems are designed
waterproofing design without following the advice and considerations
This Chapter provides guidance on the detailed within BS 8102 and associated design
requirements associated with the design and The approach detailed within BS 8102 involves guides.
construction of basements and other below assessment of a given site to determine the
ground structures. Principally, this concerns characteristics which influence risk. With Such scenarios may occur where Project
the process by which the risk of ground water the benefit of knowledge gained through Designers take on the role of Waterproofing
penetration is appraised and addressed, so that this investigation and assessment, suitable Designer without sufficient reference to the stated
problems associated with penetration do not occur designs for dealing with ground water, gases guides, commonly relying on standard design
while consideration is also given to economic and contaminants can then be devised and details and without considering all appropriate
construction. constructed. factors. Please refer to BS 8102 for a list of
requirements that a Designer must meet in order
This process and rationale is primarily detailed 6.1.4 Design responsibility to fulfil the Waterproofing Specialist role.
within BS 8102 (2009) Code of Practice for
protection of below ground structures against Production of a suitable design is one of the Designers must carry professional indemnity
water from the ground (and other associated most important aspects in achieving a successful insurance cover appropriate to the project.
design guides). However, further practical outcome, where the required standard of
guidance on this and compliance with warranty environment is created within the basement space It must be noted that where relying on the
requirements is included herein. and maintained in the long term. A common use of waterproofing product manufacturer
assumption in waterproofing is that workmanship ‘standard details’, they typically disclaim
6.1.2 Limitations of guidance is the most ‘critical factor’ and while this is design responsibility, so it is incumbent on the
undeniably important, the highest standards of Waterproofing Design Specialist to ensure that
This document is not intended as a standalone workmanship will not make up for inadequate such details are correct and appropriate for the
design guide and does not include the full detail of design, and hence correct design is the first step site and structure, or offer suitable variation.
T
echnical Manual V10 - TS-01what must be considered to comply with BS 8102. in achieving the desired outcome.
See ‘references’ for details of other associated The early involvement of a Waterproofing
design guides. To this end, BS 8102 includes a section regarding Designer is an important consideration because
‘design team’, which states that the advice of a the waterproofing design typically has an
It must also be noted that structural waterproofing Geotechnical Specialist be sought for assessment influence on elements of the structural and / or
design and geotechnical investigation are of the Geology and Hydrogeology and that a architectural design. Early involvement allows
specialist fields and while general guidance is Waterproofing Specialist be included as part of the the waterproofing to be duly considered in
1-10.00-010413provided, advice must be sought from suitably design team from the earliest stages, so that an association with these other aspects, and prevents
experienced parties. Appropriate structural design integrated and practical waterproofing solution is situations where design fees are increased as a
must be undertaken by a Chartered Structural created. result of necessary redesign, or waterproofing is
Engineer. compromised by working within the constraints of
The need for a dedicated Waterproofing Specialist an ill-considered structure relative to achieving the
within the design team is intended to reduce the required standard of environment.
Chapter 6
CHAPTER 6: SUBSTRUCTURESCHAPTER 6: Substructures
Designers must have on-going involvement during of ground is included within the Basement Designer’s Risk Assessment and associated
the build, maintaining good communication with Information Centre publication; Basements: design rationale.
site management and providing supervision and Waterproofing – General Guidance to
guidance wherever necessary. BS 8102:2009. 6.1.6 Water resisting design
6.1.5 Site and risk assessment Ground gases and contaminants must also be The principle of this is to consider and design for
considered within the risk assessment. It must the pressures which the structure / waterproofing
The degree of water present within the ground, be noted that while the site investigation forms must resist based upon the site investigation and
and the propensity for waterlogging to occur part of what guides the waterproofing design, an risk assessment detailed above. However, it also
over the lifetime of a structure is a principal driver equally important consideration is the intended concerns the means by which the degree of water
in assessing risk and the degree of waterproofing use of the space and implicit consequences, in the ground can be influenced by design.
required. Simplistically, if a basement is in the event that water penetration occurs. For
constructed into a permanent high water table, example, in properties where the consequences 6.1.6.1 Structural resistance
then the degree of protection will necessarily be of penetration would be severe, such as in
greater than a similar structure constructed into a habitable space, suitably low risk methods must The ability of the structure to provide resistance
generally dry site. be provided. to the penetration of water has a bearing upon all
forms of waterproofing. Retaining walls in plain
Assessment of a site must be based on the results Furthermore, whilst in theory it could be assumed or reinforced masonry provide comparatively
of the site investigation and other site specific that based upon a site investigation, the risk little resistance to the penetration of water under
factors. Seasonal variations in the water table of water pressure ever occurring is low, BS pressure, because of the crack pattern associated
must be accounted for unless long term monitoring 8102 advises that consideration is given to the with the degree of joints (mortar beds) present.
is undertaken. However, even where standing effects of climate change and burst water mains
water levels are not noted during such pre-start and sewers, as well as stating that it should be The degree of water excluded by concrete
site investigation, the drainage characteristics assumed that there is risk of waterlogging ‘even elements (walls and slab) is influenced by the
T
echnical Manual V10 - TS-01of the ground must receive particular attention. where site examination indicated dry conditions’. nature of the design and construction. While
Soils with low permeability represent risk of concrete in itself is relatively impermeable, the
waterlogging,or encouraging ‘perched water table’, In summary, the site investigation guides the degree to which water is excluded will greatly
where water stands temporarily or permanently design but it should never be assumed that some be influenced by crack sizes and detailing of
within the ground against a structure, and arguably degree of water pressure will not occur. construction joints and service penetrations.
this affects more properties with basements versus
the true water table level. Furthermore, and particularly if no site 6.1.6.2 Exclusion of surface water
1-10.00-010413 investigation has been undertaken or there is
Other factors such as topography and orientation reasonable doubt as to ground water conditions, Surfaces external of the basement structure
may have a bearing on the propensity for pressure to the full height of the below ground at ground level can act to limit or attenuate
pressure to come to bear and should also receive structure must be assumed at some point in the penetration into vulnerable positions, i.e. the
consideration. Further guidance on the drainage life of the structure. The Site Audit Surveyor may more permeable excavated and backfilled ground
characteristics associated with different types request a copy of the Site Investigation Report, directly around the basement structure. The
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