06 General Defects

Question 1

Name 10 defects you would commonly find in a Georgian building.

Answer 1

1. Leaning chimneys
2. Overloading of roof due to change of materials (e.g. concrete tiles)
3. Removal of chimney breasts but not the stack
4. Blocked internal gutters
5. Brick walls prone to distortion due to lack of restraint at each floor level
6. Damp penetration through solid walls
7. Rotting timber joists that are built into external wall
8. Dry rot caused by poor cross-ventilation in narrow, long terraces
9. Shallow foundations causing dropping of central spine wall
10. Damp basements

Question 2

Name 10 defects you would commonly find in a Victorian building.

Answer 2

1. Leaning chimneys
2. Overloading of roof due to change of materials (e.g. concrete tiles)
3. Removal of chimney breasts but not the stack
4. Damp penetration through solid walls
5. Rotting timber joists that are built into external wall
6. Wall tie failure (if a cavity wall, particularly in black ash mortar)
7. Differential settlement of bay windows (little to no foundations)
8. Rising damp caused by lack, failure or bridging of DPC
9. Blocked air vents to ground floors, causing dry rot
10. Lead water pipes

Question 3

What defects would you expect to see in properties built between 1945-1970?

Answer 3

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Question 4

Name 10 defects you would commonly find in a 1960s high-rise office block.

Answer 4

1. Flat roof problems
2. Parapet walls (loose copings)
3. Poor workmanship (inadequate re-bar cover)
4. Concrete defects - carbonation/chloride attack
5. Deleterious material - asbestos/HAC/brick slips
6. Cold bridges
7. Overloading of floors (filing cabinets)
8. Poor access and egress - narrow staircases, change in levels
9. Brittle metal windows
10. Corrosion of steel fixings

Question 5

A 1960s building has misaligned concrete panels - what are the possible causes and what investigates would you undertake?

Answer 5

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Question 6

Name some common defects in a 1970s building.

Answer 6

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Question 7

In a steel frame brick wall 1950s building, what particular defects would you be looking for?

Answer 7

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Question 8

What defects would you commonly find in a CLASP building?

Answer 8

1. Penetrating damp through failed joints
2. Poor gaskets around windows
3. Pitched fibre drainage deformed, collapsed or become blocked
4. Cold bridges
5. Excessive solar gain to some elevations
6. Poor U-values of the building fabric
7. Asbestos - boarding around steel members/ceiling tiles/pipe lagging/floor coverings etc
8. Rotting of timber floors and roofs in earlier Marks

Question 9

What is cold bridging?

Answer 9

• Cold bridging occurs in localised spots where the nature of the construction allows heat to escape through the structure at a higher rate than normal
• This creates situations where there may be quite low internal surface temperatures which can encourage patches of local condensation

Question 10

Where would you expect to find cold bridging?

Answer 10

1. Concrete lintels crossing cavity walls
2. Uninsulated box-section lintels
3. Jambs and sills with returned blockwork inner leaf
4. Floor slabs lacking insulated upstands

Question 11

What is radon and why is it a problem?

Answer 11

1. Natural radioactive gas that cannot be seen, smelt, heard or felt
2. Emanates from minute amounts of uranium that occur naturally in all rocks and soils
3. Most radon disperses harmlessly into the air outside but some will collect in spaces under or within buildings
4. Exposure to high levels of radon can increase the risk of developing lung cancer

Question 12

In which areas of the UK are you most likely to come across radon?

Answer 12

Some parts of the country (e.g. the West Country, Derbyshire and Northamptonshire) have higher levels than elsewhere

Question 13

Other than radon, what other ground gases are problematic and why?

Answer 13

1. Methane - explosive in air at concentrations between 5-15%, generated by the anaerobic (absence of oxygen) degradation of organic material
2. Carbon dioxide - dlassed as highly toxic - can result in headaches and shortness of breath

Question 14

Name some legislation that detail requirements when considering ground gases.

Answer 14

1. Town and Country Planning Act 1990 - potential for contamination and risk from landfill and ground gases must be considered during development
2. Environmental Protection Act 1990 - where potential for significant harm exists to a development (either existing or proposed), the local authority can enforce appropriate remediation or mitigation
3. Building Regulations Approved Document C - where there is a potential risk, further investigation is required to determine whether gas measures are required and what level of protection is necessary

Question 15

How would you find out whether radon gas was a problem in a particular area?

Answer 15

1. Desk-based study of the history and geology of the area and any additional information such as mining or landfill activities
2. Public Health England (formerly the Health Protection Agency) and the British Geological Survey publishes maps of radon affected areas across and sets threshold levels for both commercial and residential properties
3. Maps can also be found in BRE Report BR 211 (Radon)

Question 16

What steps would you need to take if your client wanted to build in an area where radon gas was present?

Answer 16

Passive (basic protection):

• Usually achieved by increasing the airtightness of the DPM and extending it across the external leaf of brickwork
• Can also improve ventilation under suspended timber and concrete floors by installing airbricks

Active:

• Used where risks are higher
• Sump pumps connected to a fan in order to extract
• May be required if protective membrane is damaged

Alarm Systems:

• Designed to trigger when gas concentration reach a certain level

Question 17

What is Japanese Knotweed and when was it introduced?

Answer 17

• A hardy bamboo-like plant that grows quickly and strongly
• Introduced to the UK in the mid-19th Century

Question 18

What legislative controls exist for Japanese Knotweed?

Answer 18

1. Banned in the Wildlife and Countryside Act 1981, making it an offence to plant or cause the growth of Japanese Knotweed
2. The Environmental Protection Act 1990 also contains a number of legal provisions, designating contaminated soil as controlled waste, meaning only properly licensed organisations can remove it

Question 19

What problems are associated with Japanese Knotweed?

Answer 19

• Japanese Knotweed is extremely invasive and can cause serious damage to:
  
  • Drains and buried services - can exploit cracks and gaps in pipework
  • Patios, paths and drives - can grow between joints
  • Boundary and retaining walls - can undermine walls with shallow foundations
  • Outbuildings - can overwhelm lightweight structures (sheds, garages etc.)
• There are claims that damage to building foundations can also occur, however this is rare
• The plant can remain dormant, so eradication may be difficult to guarantee

Question 20

How would you identify Japanese Knotweed?

Answer 20

RICS Information Paper ‘Japanese Knotweed’ - Appendix C contains an identification chart throughout the seasons, namely:

1. Hollow stems within distinct raised nodes (like bamboo) which develop purple speckles
2. Can reach heights up to 3-4m in its growing season (summer) and grow in dense clumps (aka ‘stands’)
3. Leaves are lush green and flat heart/shield shaped, approx. 70-140mm long and 50-120mm wide
4. Flowers are small, creamy white spikes of length approx. 60-150mm

Question 21

How would you remediate the problems caused by Japanese Knotweed?

Answer 21

Specialist contractor required, who may specify:

1. Excavation/removal of plant and roots - can extend 3m down and 7m across
2. Biological control - use of ‘pests’ that attack and control the plant
3. Chemical control - use of specialist herbicides (can take up to 3 years to completely eradicate)
4. On-site burial - may require a specialist root barrier membrane

Question 22

What is Giant Hogweed and when was it introduced?

Answer 22

Introduced as an ornamental plant in the 1890s

Question 23

What legislative controls exist for Giant Hogweed?

Answer 23

Banned in the Wildlife and Countryside Act 1981, making it an offence to plant or cause the growth of Giant Hogweed

Question 24

What are the problems with Giant Hogweed?

Answer 24

1. Contact with its sap (present inside the stem and on the hairs that cover the leaves and stem) makes skin highly sensitive to ultra-violet light
2. No discomfort is experienced until around 15-20 hours after exposure, where burns develop that quickly turn into large watery blisters, which recede and leave scars that remain highly photosensitive for years or even life
3. Can cause blindness if contact is made with the eyes
4. Suggestion that toxins within the sap are carcinogenic and could cause cancer or result in malformations of unborn foetuses in pregnant women

Question 25

How would you identify Giant Hogweed?

Answer 25

1. Often grows between 3-5m over four years
2. Stems - hollow, purple (or green speckled with purple) and covered in fine hairs
3. Leaves - dark green, coarsely toothed, hairy like stems, measuring up to 2m across
4. Flowers - numerous small and white flowers, emerge in mid to late summer on top of the stems in umbrella-like clusters

Question 26

How would you remediate the problems caused by Giant Hogweed?

Answer 26

Specialist contractor required, who may specify:

1. Herbicidal treatment - effective, but must be undertaken regularly over several years (seeds can remain dormant for up to 7 years)
2. Dig up and dispose as controlled waste (may need to excavate up to 4m around plants due to seed spread)
3. Combination of both

Question 27

What should you do if you come into contact with Giant Hogweed?

Answer 27

1. Wash immediately with soapy water any area of skin that comes into contact
2. If contact is made with the eyes, flush immediately with water
3. Cover affected areas and keep out of sunlight for at least 48 hours
4. Seek medical advice

Question 28

What is Regent Street Disease and how is it caused?

Answer 28

1. Also known as steel frame corrosion
2. Affects buildings constructed circa 1905 onwards (i.e. when steel became a popular construction material)
3. Load-bearing frames of steel were clad with stone, brickwork or terracotta (notched around the steel frame) with the voids between the two filled with low grade mortar
4. Mortar compaction was poor and often contained lumps of brick or stone, which increased the number of voids
5. Inevitable shrinkage cracks meant that water and oxygen could penetrate the fabric, facilitating corrosion of the steel

Question 29

What problems are associated with Regent Street Disease?

Answer 29

1. Corroded steel expands at least four times its original volume
2. Due to the infilled voids around the steel, expansion inevitably results in cracking of façade, allowing more water to penetrate
3. In extreme cases, loss of support can result from horizontal cracking, causing collapse of pieces of stone or brick

Question 30

How would you identify Regent Street Disease?

Answer 30

1. Vertical or horizontal cracking reflecting the location of the steel frame
2. Physically opening up the façade is an option, although disruptive and may require consent if listed
3. NDT (non-destructive testing) systems are also available to determine the extent of the corrosion or prognosis for future deterioration

Question 31

What steps would you recommend to remediate Regent Street Disease?

Answer 31

1. Expose, clean and protect the steel - expensive and disruptive
2. Provide a corrosion barrier to the steel and then create a void around it so if further corrosion does occur, it will not result in cracking
3. Cathodic Protection Systems

Question 32

Give an example of an interesting pathology issue you have had to deal with?

Answer 32

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Question 33

What are the common causes of spalled brickwork?

Answer 33

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Question 34

What is frost action?

Answer 34

1. Caused by a combination of excessive wet brickwork and freezing temperatures
2. When water turns to ice, it expands
3. The repeated freeze-thaw cycle produces stresses on the brick causing it to spall (the face flaking/crumbling off)

Question 35

Why may the use of strong mortars exacerbate the problem of frost action?

Answer 35

Strong mortar tends to suffer from shrinkage cracks which will allow water to penetrate, and because strong mortars are not as ‘breathable’, it will be difficult for the water to evaporate

Question 36

A white powdery substance has appeared on the surface of some new brickwork. What might it be and what can you do about it?

Answer 36

Efflorescence:

• May only be problematic in cases of rising damp, as the crystals can sometimes block pores in brickwork, thus preventing evaporation and driving damp higher up the wall
• Can be brushed off if appearance is causing a concern

Question 37

You notice the gable wall of an end terrace property is bowing - what could be the reason for this?

Answer 37

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Question 38

What is ‘bookend effect’ and how is it caused?

Answer 38

1. Bulging of a flank wall due to lack of lateral restraint, often due to floor joists running parallel with the wall and/or lack of buttresses
2. Common in buildings built before the mid-1980s however can occur later if alteration are undertaken (e.g. removing a chimney breast that was previously acting as a buttress, removing an internal perpendicular wall or even creating an opening in such a wall)
3. Problem often accentuated by the presence of the staircase adjacent to the flank wall

Question 39

How can ‘bookend effect’ be remediated?

Answer 39

Remedial works involves mechanical insertion of metal tie rods along the length of wall

Question 40

What problems are likely to be associated by rendering over external brickwork?

Answer 40

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Question 41

What issues may there be with a partial fill cavity wall in respect of workmanship?

Answer 41

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Question 42

What is snapped header defect and how is it caused?

Answer 42

1. Often used to save money (facing bricks were much more expensive than commons and therefore ‘snapping’ the brick in two could provide two facing brick heads)
2. Header bricks were traditionally used to tie solid walls together
3. Snapped headers cause defects as there is a lack of tying-in between the inner and outer face

Question 43

How can you tell when timber structural members are deflected or bowed?

Answer 43

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Question 44

A hall floor is re-laid but the screed fails - what are the possible reasons for this?

Answer 44

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Question 45

How can stonework be repaired?

Answer 45

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Question 46

What causes rainwater goods to become defective?

Answer 46

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Question 47

How would you determine if a drainage run was free from and breaks or blockages?

Answer 47

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Question 48

What action might be necessary to free up sliding sash windows that are sticking?

Answer 48

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Question 49

What defects would you associate with portal framed warehouse units?

Answer 49

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Question 50

What is cut edge corrosion?

Answer 50

Occurs when the protective coating on metal sheeting peels back at lap joints (usually where it has been cut), exposing the base metal to risk of corrosion, which can cause section loss

Question 51

How do you repair cut edge corrosion?

Answer 51

1. Remedial work involves cleaning the effective area, removing the defective coating (e.g. by chemical stripping) and treating the sheet lap with a silicone based paint
2. Current guidance states cut edges should be painted before installation, however this is often neglected

Question 52

What problems can arise from using two different metals next to each other?

Answer 52

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