A crack is a complete or incomplete separation of concrete into two or more parts produced by breaking or fracturing.
Cracks are one kind of universal problems of concrete construction as it affects the building artistic and it also destroys the wall’s integrity, affects the structure safety and even reduce the durability of structure
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The cracks in the concrete wall would cause the leakage of the building; it reduces the stiffness, durability and seismic performance of buildings.
Cracks on the wall surface damage to the later rendering, will affect to the appearance.
A crack is a complete or incomplete separation of concrete into two or more parts produced by breaking or fracturing.
Cracks are one kind of universal problems of concrete construction as it affects the building artistic and it also destroys the wall’s integrity, affects the structure safety and even reduce the durability of structure
Carbon dioxide penetrates into the concrete through the cracks and speed up carbonation around the cracks, thus shortening the structure usage.
The cracks in the concrete wall would cause the leakage of the building; it reduces the stiffness, durability and seismic performance of buildings.
Cracks on the wall surface damage to the later rendering, will affect to the appearance.
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Multi-storey buildings are becoming increasingly common in developed and developing countries with the increase in
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It also includes the study of causes of failure of formwork and the safety measures to be taken for preventing failure.
Shuttering in concrete construction is used as a mould for a structure in which fresh concrete is poured to harden subsequently curing
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Introduction
Willie Nelson net worth is a testament to his enduring influence and success in many fields. Born on April 29, 1933, in Abbott, Texas. Nelson's journey from a humble beginning to becoming one of the most iconic figures in American music is nothing short of inspirational. His net worth, which estimated to be around $25 million as of 2024. reflects a career that is as diverse as it is prolific.
Early Life and Musical Beginnings
Humble Origins
Willie Hugh Nelson was born during the Great Depression. a time of significant economic hardship in the United States. Raised by his grandparents. Nelson found solace and inspiration in music from an early age. His grandmother taught him to play the guitar. setting the stage for what would become an illustrious career.
First Steps in Music
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Rise to Stardom
Breakthrough Albums
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Iconic Songs
Willie Nelson net worth is also attributed to his extensive catalog of hit songs. Tracks like "Blue Eyes Crying in the Rain," "On the Road Again," and "Always on My Mind" have become timeless classics. These songs have not only earned Nelson large royalties but have also ensured his continued relevance in the music industry.
Acting and Film Career
Hollywood Ventures
In addition to his music career, Willie Nelson has also made a mark in Hollywood. His distinctive personality and on-screen presence have landed him roles in several films and television shows. Notable appearances include roles in "The Electric Horseman" (1979), "Honeysuckle Rose" (1980), and "Barbarosa" (1982). These acting gigs have added a significant amount to Willie Nelson net worth.
Television Appearances
Nelson's char
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In-depth exploration of the carbon cycle reveals the delicate balance required to sustain life and the urgent need to address anthropogenic influences. Through research, education, and policy, we can work towards restoring equilibrium in the carbon cycle and ensuring a sustainable future for generations to come.
1. 1
CAUSES, EFFECTS AND REMEDIES TO THE INCESSANT
BUILDING COLLAPSE IN LAGOS STATE, NIGERIA.
BY
1 *
Akande Basirat F., 1
Debo-Saiye B., 1
Akinjobi Samuel D., 1
Alao Timothy O. & 2
Akinrogunde O. O
1
Department of Architecture, Covenant University, Ota, Ogun State Nigeria.
*
akandefolasade245@yahoo.com, anointedbukie@gmail.com, akinjobisamuel@yahoo.com,
timothy.alao@covenantuniversity.edu.ng.
2
Department of Estate Management & Valuation, Ogun State Institute of Technology, Igbesa, Ogun
State, Nigeria.
tydonard@gmail.com
*Corresponding Author
ABSTRACT
The factors affecting building collapse in Lagos have been a major concern in Nigeria as it threatens human
lives and properties in the state because of its occurrence at close intervals. People erect buildings without
considering some factors and codes which are necessary to put in place before embarking on any
development and these calls for a reason to emphasize on the remedies to put an end to this disasters. This
paper has posited that various factors are responsible for the incessant causes of building collapse in Lagos
state, include the use of substandard materials, coupled with the activities of quacks which have inexorably
contributed to the incidence of building collapse. In an attempt to find a lasting solution to the causes and
effects of building collapse in Lagos state, this paper examines types of collapse, as posited by different
authors; some of the major causes of building collapse include: bad design, fire, lack of proper supervision,
faulty construction and alteration of approved drawings etc. as well as the effects and problems caused by
building collapse. Finally, useful suggestions were proffered as corrective measures, also far reaching
recommendations were made.
Key Words: Incessant, Building Collapse, Lagos State, Building Failure, Effects, Cause and Remedies
2. 2
1.0 INTRODUCTION
In Nigeria like any other countries in the world, building collapse menace is growing at an alarming rate,
seemingly uncontrollable or beyond control. The incessant buildings collapse in Nigeria has become a great
concern to all the stakeholders and the professionals in the building industry, government, private
developers, clients and users, as well as the residents. Fall out of the author’s concern about the increasing
incidents of collapse building nation-wide form the basis for this paper to find out the major causes and
probable remedial measures to collapse of buildings in Nigeria. Many lives and properties have been lost
in the collapse of buildings mostly in Port Harcourt, Abuja and Lagos respectively. Many property owners
have developed high blood pressure and some have been sent to an early grave. According to Windapo
(2006) “frequent types of buildings that collapse are residential buildings which are either on two, three or
four floors.” According to Dada (2002) “Structural Failure has become recurring decimal, a worrisome
menace nightmare and an enduring embarrassment”. The horrifying scene of structural failure is no longer
news breaker this time around. Really, incidents of collapsed buildings, collapsed bridges or collapsed
structures of various types are not peculiar to Nigeria alone. But the current situation is becoming more
rampant and embarrassing, most especially as it relates to Lagos State. Unfortunately, there are still a
number of buildings of similar circumstances dotting the skyline of many cities in Nigeria. Building
collapse incidence are still regularly occurring despite increasing diffusion of engineering knowledge over
the years and this calls for some re-examination of development in building production and control process
(Dimuna, 2010).
Research was carried out by Bamidele, 2000 and Fadamiro, 2002 on the causes of building collapse in
Nigeria and identified the following five (5) major causes which include; natural phenomenon, design error,
procedural error, sub-standard material, poor workmanship, the lack of maintenance, the abuse of use of
building etc. Research showed that the substandard material and poor workmanship contribute 45% to the
overall causes of building collapse in Lagos State. (Ogunsemi, 2002) added that substandard materials
amount to 18.4% of the total cause of building collapse while poor workmanship amount to 19%. Building
collapse can be as a result of some defect in building which are not quickly put in place by the property
owner such as; fungus stain and harmful growth, erosion of mortar joints, peeling paint, defective plastered
renderings, cracking of walls and tearing walls, defective rainwater goods, decayed floor boards, insect or
termite attack, roof defect, dampness penetration through walls, unstable/faulty foundation, poor
installation of air-condition units etc.
All these defects in building if not properly controlled and maintained, with time can lead to unexpected
building collapse (Gafar, 2004). Building collapse have been a serious problem and concern to the
government and professionals in building industry as they have been making efforts in their own ways to
reduce this incessant collapse if not totally stopped.
Recommendations from earlier studies on the incidence of building collapse in Lagos have revolved around
improved individual input from professionals in the building industry, carrying out soil test, building
supervision, monitoring of the activities of professionals to discourage quackery among many others.
However, other areas that need to be looked into include the collaboration of building professionals in
ensuring quality delivery of sustainable building construction throughout the construction phases, and the
participation of the public in the regulatory role of building construction.
This paper will examine possible factors responsible for building collapse, as well as its effect on the
economy and individuals as the views of various authors on building collapse shall be extensively
3. 3
discussed. Also, several remedial measures were examined as a means of solving the incidence of building
collapse in Lagos metropolis.
2.0 STATEMENT OF PROBLEM
In the building industry today especially in Lagos, building collapse has been one of the major problem
faced by both the private and public developers, whether for personal use and for investment purposes.
Lagos metropolis is a city where building collapse occur frequently and has the highest number of building
collapse incidents that claimed about 64 lives between 1982-1996 (Dimuna, 2010). In the past thirty seven
(37) years (1974-2010), Lagos State has recorded quite a number of cases of building collapse in areas like
Ebute-Metta, Lagos-Island, Mushin, Oshodi, Maryland, Ojuelegba, Ikeja, Agege, Idumota, Ketu, Central
Lagos, Surulere, etc as well as Abuja, Port Harcourt, Ibadan, Kano that also has the high number of building
collapse cases.
This has posed a very serious challenge to those in the building industry, the government and the individuals
who are into property development in the country and in Lagos State. The worrisome development and
incidents throw the question that, what might be the cause(s) of building collapse in the state? Several
factors have been associated with this, some of which are negligence, greed, deficient foundations,
inadequate or faulty steel reinforcement, hasty construction, no soil test, poor supervision and non-
adherence to the building codes (Ede, 2010).
All these aforementioned problems and question revolves around the ultimate question that; when will
developers in Nigeria begin to follow the appropriate steps and processes before embarking on development
and when will the building regulation be standardize by government? If all these are put in place, the
problems of building collapse would be reduced to the barest minimum.
3.0 MATERIALS AND METHODS
Study Area
Lagos State was created on 17th
May, 1967 by Virtue of State Creation and Transitional Provision Decree
No. 15 of 1967, which restructured Nigeria’s federation into 12 states. The state is located on the South-
Western part of Nigeria on the Narrow Coastal Plain of the Bight of Benin. It lies approximately on
longitude 24o
42 East and 3o
22 respectively and between latitude 60o
22N and 60o
42N.
It is bounded in the North and East by Ogun State of Nigeria, on the West by the Rebubliquè Du Benin
(Republic of Benin) and stretched over 150km along the Guinea Coast of the Bight of Benin on the Atlantic
Ocean. The jurisdiction comprises of the city of Lagos and the four administration divisions (The Colony
Province of Ikeja, Ikorodu and Badagry on 3,577 kilometre). The drainage system of the state is
characterised by a stretch of lagoon and waterways which constitute about twenty-two per cent (22%) or
seven hundred and eighty seven (787km) on seventy-five thousand, seven hundred and fifty-five (75,755)
hectares of the total land masses. The major water bodies are the Lagos and Lekki lagoon.
However, in examining the history of Lagos, two factors may be mentioned. One is the addition of slave
trade and the other, the consequent introduction of the British preventive squadron to patrol the west coast.
This helped to increase the risk and cost of Atlantic Slave trade, the traditional west-coast slaving parts and
thereby helped the rise of small towns like Lagos and Badagry, which offered the traders relatively safe and
cheap part for the evacuation of slaves.
4. 4
Map of Lagos (Source: Wikipedia – The Free Encyclopaedia, 2011)
By 1914, there emerged a single political entity (Nigeria) a central authority (British) and a capital (Lagos).
It should be noted that one of the merit of the existence of Lagos was the gradual opening up of the interior
for both Missionary and business activities. In Lagos, the industrial and commercial nerve of Nigeria
account for over fifth of total population in terms of value added. The primary sector is significant while
the real estate practice is one of the largest activities carried out in Metropolitan Lagos.
The state took off as an administrative entity in April 11, 1968 with Lagos-Island serving the dual role of
being the state and federal capital. Lagos is an area comprising of 557,700 hectares (17 per cent of which
is lagoon and waterways). It is created of the south-west direction of Nigeria and is bounded by Ogun State
in the North and East, the Republic of Benin by the west and Atlantic Ocean (Bight of Benin) by the south.
It is characterised by flat terrain and gentle slopes and as a result, development becomes tedious due to the
presence of poor natural drainage conditions, extensive works to make them suitable for development is
limited because of poor area coupled with dense natural vegetation which covers 60% of the total land
mass.
Lagos is the smallest in area of all Nigeria’s states, the state is arguably the most economically important
state of the country and also the nation’s largest urban area. The actual population of Lagos is disputed
between the official figure of 2006 National Population Census (which puts Lagos State population at
9,013,534) and 17,500,000 figure as claimed by the Lagos State Government. Average population density
of the state is about 2,500/km 2. Meanwhile, Lagos now happens to be the second most populous city in
Africa after Cairo and seventh most populated country in the world. The land use pattern in Lagos is mixed
of all forms of land uses; residential, commercial, industrial, recreational, circulation, agricultural and other
special services.
Lagos metropolis is adequately planned for as a result; there has been excessive urban sprawl with very few
open spaces left in compounds or between buildings. Moreover, there are some general problems peculiar
to Lagos metropolis, these problem include the following;
1. Building Collapse
2. Housing problems (qualitative and quantitative) due to low number of habitable residential
accommodation
3. High level of insecurity in the state
5. 5
4. Poor transportation network
5. Inadequate infrastructure and basic amenities
6. Flooding as a result of poor drainage network and blocked drainage network
7. Over-population, this leads to unemployment in the state, also increase in crime rate.
8. Lack of space for development as little vacant space are very expensive due to the allocation of
business in the state.
4.0 DISCUSSION OF FINDINGS
Causes of Building Collapse in Nigeria
Many causes of building collapse have been identified by difficult scholars. Collapse according to the
Dictionary of Architecture and Construction refers to mechanical failure. According to Dimuna (2010),
collapse is a state of complete failure, when the structure has literally given way and most members have
caved-in, crumbled or buckled; the building can no longer stand as originally built. It can be seen therefore,
that collapse is very extreme state of failure. The causes of building collapse can be categorized as;
1. That is caused by the influence of man
2. That occurred due to natural forces (force majeure)
This paper targeted attention to that caused by the influence of man either due to his negligence or
incompetence. In a communiqué issued at the end of a two-day seminar on structural failure and building
collapse in August 1996; professionals in the building industry summarized the major causes of building
collapse to include the following: the attitude of the public, professional bodies and governments. The
absence of soil test before construction, structural designs and details are sometimes defective, lack of
proper planning, absence of co-ordination between professional bodies and town planning authorities, lack
of adherence to specifications by contractors, use of unqualified and unskilled personnel, poor or bad
construction practices, use of sub-standard building materials, inadequate enforcement of existing laws.
Causes of building collapse as highlighted by Dimuna (2010) are as follows;
Deficient Structural Drawing
Building collapse when structural drawings are based on false assumptions of soil strength, they can also
collapse as a result of faulty structural details. Oyewale (1992) identified design faults accounting for 50%
of collapse of engineering facilities in Nigeria.
Lack of Proper Supervision
Even where a structural design is not deficient, absence of proper supervision on the site by qualified
personnel can lead to building failure.
Alteration of Approved Drawings
During construction, many contractors either on the directive of the client or in a bid to cut corners and
maximize profit, alter approved building plans without corresponding amendment to structural drawings to
the detriment of the structure.
6. 6
Building Without Approved Building Drawings
Building without approved drawings and in some cases no drawings at all, ca result in the collapse of the
building more so when the drawings were not vetted by qualified professionals or relevant authorities before
the buildings are erected. Without drawings, all construction is based on guess work.
Approval of Technically Deficient Drawings
Town Planning authorities at times approve technically deficient drawings. This may be as a result of
ignorance on the part of Town Planning personnel who vet and approved these drawings or as a result of
outright corruption on their part. Money may at times change hands resulting in the approval of such
drawings.
Illegal Alteration to Existing Buildings
Client at times, on their own, alter existing structures (buildings) beyond and above the original design
without any drawings, and relevant Town Planning approval. In some instances, existing bungalows have
been converted to either a storey building or two or three-storey structures without any drawings and
supervision by qualified personnel. The result can be anybody’s guess.
Absence of Town Planning Inspection or Monitoring of Sites
In some cases, Town Planning Authority staff seldom visit sites to inspect or monitor progress of approved
work in sites, the result of which is documented in their forms. Unfortunately, in many cases, this inspection
sis non-existent. What this means is that buildings are put up without the Authority knowing anything about
details of the construction. Unfortunately, these details are only known when such buildings collapse and
their element get exposed for all to see. By that time lives probably may have been lost.
Clients Penchant to Cut Corners
A study of collapsed buildings shows that most of them are residential buildings and owned by individuals.
What this meant is that one person takes all the decisions concerning the construction; due process is not
followed. Nigerian client (mostly individuals) have a penchant for cutting corners by not employing
qualified personnel to produce the contract documents and supervise the building while under construction,
as they want to spend minimum (not optimum) amount of money on the construction (Madu, 2005).
Even where qualified professionals are employed for design and supervision, most clients insist on having
the final say on what goes on in the site to detriment of proper execution of the contract. Unfortunately, if
there is any mishap on site, the client blames the consultants and the contractor. It is therefore obvious that
client’s penchant to cut corners is one of the problems in the building production process.
Use of Substandard Materials
Substandard material especially reinforcement rods, steel sections and cement can contribute immensely to
failure of buildings. Other substandard materials can also contribute to failure of buildings. Hall (1984)
posited that use of low quality materials is one of the major causes of structural failure. Aniekwu and Orie
(2006) in their study, also identified low quality materials as the most important cause of failure of
engineering facilities in Nigeria.
7. 7
Inefficient Workmanship (Labour)
Inefficient and fraudulent labour input can also contribute to failure of buildings. When a contractor cannot
read drawings, or where he refuses to listen to the instruction of the consultant, anything can happen.
Oyewande (1992) posited that faults on construction sites accounts for (40%) of collapse of structures.
Use of Acidic and Salty Water
Use of acidic and salty water, as sources from oceans and seas in cities like Lagos and PortHarcourt can
affect the strength of concrete when used to effect the mix of cement, and sand and rods.
The Activities of Quacks
A cursory look at the building industry in Nigeria today reveals a preponderance of individuals who are ill-
equipped to carry out functions associated with construction. The industry has had more than its fair share
of the activities of quacks and have nothing at stake whenever problems arise. The unsuspecting public is
also at a loss differentiating the real professionals from the quacks until the real harm has been done. Today,
it is not strange to find staff of Town Planning offices who are mainly Town Planners and Site Inspectors,
even some Land Surveyors and Builders taking architectural commissions, and masquerading as architects
and deceiving the unsuspecting public. Masons have overnight transformed to engineers and builders. This
is a major problem of the building industry.
Clients’ Over Reliance on Contractors for Decision Making on Site
Most client rely on contractors than consultants on site. This is because most contractors are either their
friends, relations of the clients, or are recommended by friends or relations. The result of this relationship
is that client rely more on the contractors for decision making than on the consultants. What the clients fails
to realize however, is that profit is the prime motive of most contractors and not because the contractor is
saving them some cost. Then end up reducing the thickness of floor slabs and foundation and even
foundation depth; sizes of reinforcement rods, head room (height) of structures, all in attempt to maximise
profit to the detriment of the construction, and because most clients cannot read drawings, they are ‘taken
for a ride’ by most contractors. It is only when building falls that these facts come to the surface. Even for
big projects owned by corporate bodies and governments etc., the contractors seem to have special
relationship with agents of the clients, some desperate contractors use blackmail and intimidation to scare
away and discourage consultants from project sites. See below plates 1 & 2:
8. 8
Plate 1 Showing: A Cross Section of a Collapse Building in Lekki Area of Lagos
Source: www.google.com.ng.
Plate 2 Showing: The Scene of a Recent Building Collapse in Ikotun Area of Lagos Belonging to the Synagogue Church of All Nations.
Source: www.google.com.ng.
Usually, a combination of factors are implicated in the collapse of building as list above; but the timing of
the recent happenings in Lagos and PortHarcourt indicates that the nature of soil is very central to the main
culprit in the collapse, as these are happening especially now in the rainy season. More attention should
therefore be given to geotechnical investigation for high rise structures in areas with soil that are very
suspect and the water table is high. Onitsha town is an instance of where such high rise buildings are the
norm, but so far no building collapse has been reported. The reason is that the soil bearing capacity is very
high in most areas of the town. Also Divid (2009) identified the following; as causes of building collapse,
they are as follows;
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a. Bad Design: This does not mean only errors of computation, but a failure to take into account the
loads the structure will carry, erroneous theories, reliance on inaccurate data, ignorance of the effect
of repeated impulsive stresses, and improper choice of material or understanding of their properties.
The engineer is responsible for these failures, which are created at the drawing board.
b. Faulty Construction: This has been the most important cause of structural failures, the engineer
is also at fault. Here, if inspection has been lax (i.e. not strict, severe or careful enough about work,
rules or standard of behaviour). This includes the use of salty sand to make concrete, the substitution
of inferior steel for specified one; bad riveting or even improper lightening torque of nuts, excessive
use of the drift pin to make holes line up, bad welds, and other practices well known to the
construction worker.
c. Faulty Or Failing Foundation: Even an excellently designed and constructed structure will not
stand on a bad foundation. Although the structure will carry its loads, but the earth beneath may
not. The living Tower of Pisa is a famous example of bad foundations, but there are many others.
The St. Paul, Minnesota, sink to feet or more into soft clay, but did not collapse. The displacements
due to bad foundation may alter stress distribution significantly. This was such a problem with
railway bridges in America that statically determine trusses were greatly preferred, since they are
not subject to this danger.
d. Extraordinary Loads: These are often natural such as repeated heavy snowfalls, or the shaking of
an earthquake or the winds of a hurricane. A building that is intended to stand for some years should
be able to meet these challenges. A flimsy flexible structure may void destruction in an earthquake,
while a solid masonry building would be destroyed. Earthquake may cause foundation problems
when moist filled land liquefies which can cause building failure.
e. Unexpected Failure Modes: These are most complex of the reasons of collapse, and we have
recently has a good example. Any new type of structure is subjected to unexpected failure, until its
properties are well understood. Suspension bridges seemed the answer to bridging large gaps.
Everything was supported by a strong cable in tension, a reliable and understood member.
However, sad experience shared that bridge deck was capable of galloping and twisting without
restraint from the supporting cables. Ellet’s Bridge at Wheeling collapsed in the 1840s and the
Tacoma Narrows Bridge in the 1940s from this cause.
f. Incompetence Of Contractors Or Craftsmen: This is a serious issue that can lead to building
collapse even before the completion of such structure, if those in charge of the project are not
capable or able to do the right thing at the right time on site, it may lead to building failure e.g.
improper columns, poor erections, poor settings, poor mixing etc. and as well as lack of
professionalism.
g. Unapproved Plan or Self-Help Method: Many property owner and developer deviate from plan
approval in order to reduce cost of construction. And by so doing, they may not take the proper
design structurally or in a wrong location, and so will not meet the standard of building code and
build for their personal satisfactions which leads to collapse.
h. Corruption and Greed: Many contractors, professionals in building industry and even the
government are corrupt and selfish, the contractor will minimise cost to barest minimum by buying
substandard materials, so as to keep some money in their personal pocket, even though they have
10. 10
collected their contractor fee for the job. Some Engineers and Architects will emerge in for more
contract by this, will not be able to supervise the job properly. Also the government agent that is
sent to site to inspect the material that are used are also collecting bribe for their selfish interest and
will not see anything wrong on site of construction.
i. Natural Disasters: Examples are earthquakes, floods, fire hazards, bomb blasts, traditional charm
by enemies etc. These natural disasters cannot be stop or prevented since they are unaware and
natural.
j. High Cost of Building Materials: This is a serious issue due to poverty on the part of many
developers who want to have shelter, may not be able to buy the quality material due to the high
cost and persistent increase day-to-day, and by this, they will go for less quality which is harmful
and leads to building failure.
k. Lack of Maintenance: Many property owners build and are careless about the maintenance of the
property, they cannot maintain the building and by these it will reduce the lifespan of the property,
example are building with breaking walls, broken louvers, cracks ion walls, leakage in roof etc. All
these little by little will reduce the strength of the building as one faults leads to another.
l. Spiritual Attack: In the Nigerian context, research also shown that charm and spiritual attack can
lead to building collapse, even if the building is free from any structural defect. If there is an existing
problem on land issue or people fighting on a piece of land, some may go extra mile by using charm
or placing charm on the site of development or while developing the building before completion, it
will collapse, and no structural fault will be trace to it.
5.0 EFFECTS OF BUILDING COLLAPSE IN NIGERIA
It can be rightly said that any pursuit of human endeavour has its cost, but the cost being paid in the Nigerian
building industry cannot be justified. Each collapse carries along with it tremendous effects that cannot be
easily forgotten by any of its victims. The consequences are usually in form of economic and social
implications. These includes: loss of human lives, injuries, economic waste in terms of loss of properties,
investments, jobs, incomes, loss of trust, dignity and exasperation of crises among the stakeholders and
environmental disaster (Ede, 2010).
The quantification of the complete effects of any collapse is extremely difficult as there are so many factors
involved, and these including emotional and subjective factors. Apart from the number of deaths that can
often be truly identified, the rest of the effects are surrounded by so many uncertainties which make the
analysis only approximate. Leaving aside the grossly quantifiable economic sums, the stress, trauma and
shocks may have some far-reaching effects upon the building owner and/or employees, occupant, and others
involved in one way or the other with the structure. The negative impact of such failures on the social-
economic development of our economy is obvious. As many previous lives are lost, the nation loses the
contribution that could have come from these victims towards the socio-economic growth of the nation.
More so, this increasing rate of death from building collapse in Nigeria runs against the United Nations
MDGs (Millennium Development Goals) programmes aimed at reducing the mortality rate and improving
safety and life expectancy of the world population. For this, incidence of deaths during the collapse is
deeply analysed in the remaining parts of this research work as to proffering solutions towards reducing it.
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5.1 BUILDING FAILURE
Failure is an unacceptable difference between expected and observed performance. A failure can be
considered as occurring in a component when that component can no longer be relied upon to fulfil its
principal functions. Limited deflection in a floor which causes a certain amount of cracking/distortion in
partitions could reasonably be considered as defect but not a failure, whereas excessive deflection resulting
in serious damage to partitions, ceilings and floor finishes could be classed as a failure (Roddis, 1993).
Those who investigate and report on failures of engineered facilities are in a good position to identify trends
leading to structural safety problems and to suggest topic for critical research to mitigate this trend
(Chapman, 2000). Frequently, consultants in the office, when they visit sites, see the same mistakes being
made time and time again. Many of these are indicators of lack of knowledge on the part of the people
undertaking the construction. It is strange to see well-fitted houses that have associated poor construction
details that results in large subsequent repair bills.
Unfortunately, many of the explanation given for these poor practices are that they are common trade
practices. This leads to repetition to bad practices resulting in construction failure (Philips, 2002). Failure
in buildings could be of two types namely; cosmetic failure that occurs when something has been added to
or subtracted from the building, thus affecting the structures’ outlook and structural stability of the building.
In Nigeria, building failures have been attributed to the following causes: design faults (50%), faults on
construction site (40%) and product failure (10%) (Oyewande, 1992). Hall (1984) ascribed faulty design,
faulty execution of work and use of faulty materials as major causes of structural failures. Fredrick and
James (1989) suggested that the overturning of structures due to heavy wind loads, sliding of structures due
to high wind, roof uplift or sliding, and building sway due to lateral loads are major types of failures of
buildings. On the other hand, Akinpelu (2002) categorized the following as major causes of structural
failures; environmental changes, natural and manmade hazards, improper presentation and interpretation in
the design. Richard (2002) opined that deterioration of reinforced concrete could occur as a result of:
corrosion of the reinforcement caused by overloading, subsidence or basic design faults, and construction
defects.
Seeley (1993) recognized three major types of maintenance in building in order to restore its defective
element to an acceptable standard namely; day-to-day, cyclic, and planned maintenance.
5.2 THE VARIOUS DEFECT IN BUILDING
Defect in building is a common failure occurring on building which no building can do without any
particular type of defect. The defect in building without and response can lead to building collapse. Ghafar,
2004 highlighted the following defects in building which are commonly found in building;
Fungus Stain and Harmful Growth
Fungal stain or mud occur when there is moisture content in the walls. It flourishes in an environment of
high humidity with lack of ventilation. Harmful growth includes creeping an ivy, plant that can grow either
on walls, roof or gutter, this usually happens when dirt penetrates small opening in the walls and mortar
joints creating suitable ground for seed to grow. Roots can go deep into the existing holes causing further
cracks and water penetration.
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Erosion of Mortar Joints
The main function of a mortar joint is to even out the irregularities of individual works either stones or
bricks. Causes of mortar joint erosion includes salt crystallisation, scoring actions of winds, the
disintegrating effect of wall growing plant; and water penetration resulting in dampness. Decayed mortar
can be forcibly remove with a mechanical disc or manually raked out using a knife or spike.
Peeling Paint
Peeling paint usually occurs on building facades, mainly or plastered wall columns and other areas that are
exposed to excessive rain and dampness. Some building located near the sea may face a greater risk. The
amount of constant wind, rain and sun received can easily turn the surface of the paint to become chalky
and unclad or blistered. As is the case in many vantage building, several layers of paints have been applied
onto the plastered walls over the decades. Apart from line wash, other types of paints used include emulsion,
oil-based, for bituminous and oil-bound water paint. Different types of paints require different methods of
removal depending on their nature.
Defective Plastered Rendering
Defective plastered rendering occurs mostly on the external walls, columns and ceiling. In a humid tropical
climate, defective rendering are normally caused by biological attacks arising from penetration of rain,
evaporation, condensation, air pollution, dehydration and thermal stress. Other causes may be the mould or
harmful growth, insects, animals and traffic vibration prior to being decomposed and broken apart,
deteriorating may crack due to either shrinkage or movement in the substrate.
Cracking of Walls And Leaning Walls
External walls may be harmful to a building if they are structurally unsound. Vertical or diagonal cracks in
the wall are common symptoms of structural instability. Such defects should be investigated promptly and
the causes diagnosed; be it the foundations, weak materials and joints; or any shrinkage or thermal
movements such as those of timber window frames. Diagonal cracks, usually widest at the foundations and
may terminate at the corner of a building, often occurs when shallow foundations are laid on shrinkage
subsoil which is drier than normal or when there is a physical uplifting action of a large trees much roots
close to the walls. Common causes of leaning walls include a spreading root which forces the weight of the
root down towards the walls, sagging due to soil movement, weak foundation due to the presence of
dampness, shrinkable clay soil or decayed building materials and disturbance or heavy mature trees with
roots expanding to the local settlement.
Defective Rainwater Goods
Problems associated with the defective rainwater goods includes sagging or missing caves, gutters, corrodes
or broken down pipes, and lacking rainwater reads. Other problems include undersized gutters or down
pipes which cause an overflow of water during heavy rain, and improper disposal of water at ground level
due to inadequate painting, iron rainwater goods can rust and fracture. Lack of proper wall fixing,
particularly by projecting leads ears or hugs can cause instability to the down pipes; if routine building
inspection and maintenance have been neglected, rainwater goods can be easily exposed to all sorts of
defects.
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Decayed Floorboards
Widely used in many vantage building including churches, school residences and railway stations, some
timber floorboards have been subjected to surface abuse and subsequently deteriorate leading to structural
and public safety problems. The main causes are past attacks, careless lifting of weakened boards, by
occupied electricians and plumbers, lack of natural preservatives and corroded walls.
Insect Or Termite Attacks
Timber can deteriorate easily if not exposed to water penetration, high moisture content and loading beyond
its capacity. Insects or termite attacks pose a threat to damp and digestible timber found in water plates, the
feet of rafter, bearing ends of beans and trusses, as well as timber which are place against or built into damp
walling. It is unwise to ignore timber that is lined with insect or termite holes because they may in the time
soften the timber and form further cracks. Affected timber can be treated by pressure spraying with
insecticide or fumigant insecticidal processes.
Roof Defect
As roof often acts as a weather shield, it is important to treat aging roof tiles. Clay roof tiles have been
widely used in the heritage building. Common defects of roof tiles includes corrosion of nails that fixe the
tiles to battens and rafters, the decay of battens, and the cracking of tiles caused by harmful growth. Harmful
growth poses a danger to the tiles because it may lift tiles which tend to decay or take off over the years.
Dampness Penetration Through Walls
Dampness penetration through walls can be a serious matter, particularly to buildings located near water
sources. Not only does it deteriorate building structures, but also damages on furnishings. The main causes
of dampness is water entering a building through different routes. Water penetration occurs commonly
through walls exposed to prevailing wet wind or rain. With the existence of gravity, water may penetrate
through capillaries or cracks between mortar joints, and bricks or blocks, before building up trap moisture
behind the hand renders. Water may also drive further up the wall to emerge at a higher level. Dampness
also occurs in wall due to other factors such as leaking gutters or dampness, defective drain, burst plumbing
and condensation due to inadequate ventilation. Dampness may also enter a building from the grange
through cracks or mortar joints in the foundation walls.
Faulty Foundations
Foundation are critical in distributing from roofs, walls and floors onto the earth below. They are
structurally important to the permanence of a building and should thus be lacking, it is pointless investing
on superficial restoration work. Most of the common problems associated with the foundation depend on
the geology of the ground upon which a building stands, structural failures as well as presence and height
of a water table. Additionally, inherent failures may also happen in a building in which has to cope and
carry any unsettled building structure, which is unsafe to users and occupants. Unstable foundation may
occur because of several reasons including shrinking clay soil penetration of dampness and water that may
decay walls and foundation; presence of large trees near the building and the undertaking of excavation
nearby. They may also occur due to traffic vibrations, deterioration of building materials and the increased
loads, particularly with a change in a building function.
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Poor Installation of Air-Conditioning Units
Most heritage buildings were built without air-conditioning system. Where people have to content with
warm temperatures, the need to install air-conditioning system to meet modern building requirement seems
necessary. Subject to the building function, structures and the effects on building fabrics, one should
consider several factors before installing air-conditioning units in buildings. The cooler as drier air produced
by the air-conditioning system may causes shrinkage of building materials. There may also be a possibility
of condensation either on the surface or within the structure the fabric, eventually allowing the build-up of
mud. Moreover, it may be difficult installing the air-conditioners as evidences by how units were
haphazardly placed on windows or the front facades of some heritage buildings. Such poor practices have
greatly affected the appearance of these heritage buildings.
6.0 CAUSES OF BUILDING DEFECT AND REMEDIES
In any building defect, there is a cause of such defect, and as such, does have remedies. Olowoake (2006)
asserted that defects are failures occurring on a mortar and they are structural failures in building. Defects
are caused either as a result of mistake in design and poor supervision on site.
Causes of Defect in Foundation of a Building
The defect in foundation of building are caused as a result of the following;
1. Mistake in design or specification
2. Low quality workmanship
3. Poor supervision
4. Wear and tear
5. Applied forces (ground environment)
6. Vibration, presence of magnesium, aluminium sulphates in the soil
7. Gases or liquids (causing dampness, chemical attacks)
8. Biological agent (root, mould and fungi)
9. Climate or temperature
10. Fire
Having identified the causes of defect in foundation of building, the remedies have been suggested below;
Proper attention should be devoted into knowing the nature of the soil where the structure is to be built,
right from the design stage. This will determine the type and depth of the foundation, thickness of the
foundation concrete, and the types, size of the concrete materials to be used. Soil test should be carried to
determine the presence and extent of magnesium and aluminium sulphates and this will dictate the type of
special cement and other treatment to be used. At the design stage, special consideration should be given
to the depth of the foundation located near heavy trolley traffic.
Causes of Cracking of Wall and Remedies
The identified cause of cracking of wall in building are as follows;
1. Movement of foundation and failures
2. Subsoil movement (including change in water)
3. Crack leaking on blocked guttering on outlet behind parapet
4. Gutter full of frozen snow which blocks down pipe flow than those in gutter and overflows
15. 15
5. Big trees beside the building
6. Too much of imposed road
Below are the remedies to the aforementioned caused of cracking of wall in a building;
1. Take down and rebuild the parapet in order to add or replace a damp-proof courses if the damp-
proof already check that water running off it does not run into the wall.
2. Repairs of defective parapet roof function
3. Provide additional installation
4. Repairs or clean outlet
5. Fit bigger flushing and improvement of overlap into the gutter
6. Proper design and effective supervision
7.0 THE EFFECTS AND PROBLEMS CAUSED BY BUILDING COLLAPSE
Building collapse has many effect on the economy of nations as a whole (lives and properties) and as a
result, the following have been identified as the effect of building collapse;
Abrupt Loss Of Lives And Property
when a building suddenly caves in is no doubt very serious because it is always accompanied to
unpreventable loss of innocent lives and their properties as well e.g. the last occurrence of building collapse
in Synagogue Church of all Nations belonging to Pastor T.B Joshua in Ikotun area of Lagos State accounted
for more than 100 losses of lives (majority of who were South African Nationals) and property running into
millions of Naira was destroyed. Collapse of building affect many individual lives that occupy such
property at the moment, collapse of building occur in such building without any notice, therefore,
individuals in the building may lose their lives if there is no quick response/intervention and attention from
the people around. Also, it causes injuries on people like; broken legs, hands, waste etc. that may last
forever.
Waste of Properties
Property worth millions of Naira has been wasted in Nigeria most especially in Lagos due to building
collapse. People invest for the purpose of making profit and/or personal uses and when it collapses, it
discourage investors for further investment in property. The collapsed property most time cannot be regain
except such property has been insured, which most developers hardly do these days.
Discouragement of Property Development
Persistent collapse has discourage many developers to invest in property development, most especially
those who are new in the system. As a result of this, they may move into other investments e.g. stock and
shares.
Scarcity of Property
Continuous collapse of property may lead to scarcity of property in a particular area as the demand for
property may go higher. Also as it discourages investors or property developers, the units of dwelling will
also reduce, and this will lead to scarcity of property.
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7.1 PREVENTION AND SOLUTION TO BUILDING COLLAPSE IN NIGERIA
Many authors agreed that building collapse cause a lot of problems in the building industry and have so
many effect on the economy of the country. Hence, the need to prevent building from collapsing requires
serious attention. Stella (2010) stated that the need for a functional Building Code that is enforced against
all odds has always been canvassed for at the end of the occurrence. Yet after a while the clamour dies until
another one occurs.
However, the Lagos State Habitat 2011 Board is on board and is currently proposing to Lagos State Building
Control Agency (LABCA), an agency that will ensure that construction professionals adhere strictly to lay
down standard as part of efforts to address the problems and other issue in the state. Therefore, as part of
the objectives of the board and National Institute of Architect (NIA) will work together to find some
modalities in shaping the new Lagos devoid of quackery to ensure professionalism in the construction
industry to preventing these unending collapse of building. Prevention of building collapse should not be
limited to the efforts of the government and professionals, but the properties developers also have their vital
role to play by building at the right place, the right time, using the right people and the right resources.
Adewunmi (2009) added that building collapse in Nigeria are man-made and not natural; disasters, therefore
they are avoidable. Building collapse can be control if all building design are carried out by qualified
professional Architect, Engineers etc. and ensuring certified builders are fully involve in the construction
of buildings. Considerably, more work will need to be done to encourage (or ensure) that prospective
developers are enlightened on the respective roles of foremen, civil engineers, builder and architects. In
addition, qualified Town Planners should always inspect and approve building plan appropriately. The
federal government through COREN (Council for Regulation of Engineering in Nigeria), CORBON
(Council for Regulation of Building in Nigeria) and NSE (Nigerian Society of Engineers) etc. should
mandate compulsory Health and Safety by certification for developers and builders. Architects should
restrict their activities to preparation of drawing and verification; visits to sites and should not be involve
in Jack-of-all-trade by insisting in supervision of building.
There should be mutual respect among professionals. Standard Organisation of Nigeria (SON) that is not
known to many people in the industry should be mandated that standard materials are not sold in the market,
while their colleagues COREN, CORBON and NSE should come up with a Nigeria Local Code of practice
rather than “copy-and-paste” existing foreign base ones. In summary, if the following steps are followed,
it will stand as a solution to the problem of building collapse;
Frequent Maintenance
Maintenance should be carried out in building periodically so as to keep the building in good condition
always and enable it to have long life span
Building Plan Approval
Before any construction work starts, the plan approval should be the first thing so as to know if the building
is rightfully designed at the right place, acceptable design and bearable load.
Lubrication Soil Test
This is also very important so as to know the strength of the soil if it can bear load or not and to know the
rightful foundation to be used because foundation design is the strength of the building.
17. 17
Quality Materials
Quality materials should always be used, and must be tested before usage. Cost should not be minimized
to get sub-standard material. As it is dangerous to the life of the developers and the property itself, when
sub-standard materials are being used.
Good Design
The design must be given to the professional e.g. the Plan drawing to the Architect, while the structural,
electrical and mechanical drawing should be done by the Engineers. And the drawing should have good
drainage and ventilation so as to enable the building to have good strength, durability and stability.
Involvement of Professionals
At all level from conception to the delivery stage, professionals of all kinds should be involve in all aspect
of the project for perfection, and professional touch and advice.
8.0 RECOMMENDATIONS
Having done justice to the issues surrounding the incidence of building collapse in Lagos state, the
following were recommended;
1. The developers should not be in a hurry and also keep enough funds for development and deal
directly with professionals with good track records and credibility.
2. Adequate and proper test should be carried out for property that have reached old age and if defects
were numerous, occupants should be advised in their best interest to vacate the building premises.
3. Building professionals should ensure to carryout proper and efficient supervision of works on site
as well as thorough inspect of materials to be used for the construction from sub-structure to
superstructure.
4. The government and professional team involve in building construction ought to enlighten each
other on how to embrace good and quality professional practice as well as enlightening the general
public from time to time on the best professional to approach whenever the decision to go into
development is made. Also, to warn them that if the right channel is not pass or using the right
people, the end result could be disastrous.
5. The professionals such as the Architects, Builders, Engineers, Town Planners, Estate Surveyors
and Valuers as Project Manager, Quantity Surveyors, Estimators need to come together periodically
to discuss the problems facing the industry and suggest way forward.
6. To save Nigeria from further agony and trauma, building approval should be in phases, design and
site of the building should be approved by the concerned ministry and the government agencies
should take the task very serious without bribe collection from client
7. Government should enact a Law that will aim to curbing the use of sub-standard materials and
making sure that high quality material prices are subsidised so that all income level can afford it.
18. 18
Hence, if all these recommendations can be taken seriously, it would provide a lasting situation to
the menace of collapsed building and the psychological traumas it causes on its victims.
8. There should be issuance of Certificate of Commencement of construction work, issuance for
stages of construction works base on application by builders in charge on site. Government should
also apply strict development control.
9. Government should ensure that before any work commence on site, the materials to be used must
be stamped by various professionals working on the site.
10. The menace of building collapse is one that requires all stakeholders’ urgent attention. To this end,
both government and private individuals make conscientious efforts to make sure that they only
approved plans are strictly followed.
11. Government officials in the Housing and Environmental Ministries must constantly inspect
construction sites to ensure that only the approved plan are followed.
12. Proper supervision and monitoring team should periodically inspect building materials to ensure
building materials to ensure that sub-standard goods are not used.
13. The only way through which this problem can be solved is by engaging the service of a qualified
building, civil engineer and an Estate Surveyor and Valuer for construction and proper supervision
of the project.
14. The building professionals should enlighten the populace of the importance of their profession and
the need for ordinary man to contact a certified builder for a new development. Also, government
institutions in charge of buildings and development should ensure that the building codes are
followed in the course of a new development.
15. Foundation of building should be taken into consideration before putting load on i.e. this would
determine the number of floors. Approved plan of the building should be strictly adhered to. Avoid
using building that is meant for Residential use as Commercial. As we understand that Residential
building cannot withstand intensive use and human traffic.
9.0 CONCLUSION
Building development in all its ramification is more than shelter. It entails processes evolve in stages. The
stages involved include; the planning, designing, costing, and execution of the project by professional in
accordance with the legal provision, bye-laws, standards and specifications.
The aim of every developer is to develop properties and enjoy the investment wither through personal use
or by generating income from it, and not to claim the lives of loved ones and properties. This paper has
shown that building collapse have very high effect on human lives and property and as a result of personal
greed of many developers, corrupt government agencies on site and professionals who are contractors and
project managers in the building industry are adding more to the problems. Most property developers
patronise quacks due to lack of funds for development and are desperate to have shelter; the government
agencies collect bribe and are unable to do the thorough supervision of plan approval and project, the
contractors and project managers failed to use quality materials for building projects.
19. 19
These are becoming the habits in Lagos. People loses their lives and properties very often in various
crannies in Lagos and Nigeria at large due to some peoples’ negligence, corruption and greediness. The
incidents of building collapse therefore calls for the sites works and also to investigate the quality of
materials, craftsmen and the nature of contractors involve in the construction on sites. This will justify the
need to carryout research work on building collapse in Lagos with a view of examining its design and
construction problem.
Therefore, recommendations highlighted above should be taken with serious attention, as it would provide
a lasting solution to the problems of design and construction of building which results to building collapse
in Lagos and Nigeria at large.
20. 20
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