1) The adoption of Industrialised Building System (IBS) construction in Malaysia began in the 1960s to address acute housing shortages, though early closed systems failed.
2) The government launched strategic plans in 1999 and 2003-2015 to promote IBS usage, and mandated 70% IBS content for public projects in 2008.
3) IBS construction is now mainstream in Malaysia, moving from prefabrication to mechanization and robotics, though more work is needed to convince industry stakeholders.
The adoption of Industrialised Building System (IBS) construction in Malaysia has a long history dating back to the 1960s. The government has implemented various policies and roadmaps since 1999 to promote the use of IBS, including mandating a minimum 70% IBS content for public sector projects in 2008. While early adoption attempts failed, IBS is now widely used in Malaysia and has moved from simple prefabrication to more advanced mechanization and automation. However, more work is still needed to fully convince industry players to adopt IBS construction methods.
Industrialized building systems (IBS) refer to building construction techniques that involve prefabricating building components off-site and assembling them with minimal work on-site. The document discusses IBS, providing a definition, characteristics, types including frame, panel and box systems. Benefits of IBS are highlighted such as reduced labor, waste and faster completion times. Challenges to adopting IBS in Malaysia are also examined, including a lack of expertise and the need for regulatory incentives to promote usage. Modular coordination is discussed as an important factor for effective IBS application through standardizing building measurements.
The document outlines the IBS Roadmap 2003-2010 which aims to promote the industrialization of Malaysia's construction sector.
Key points include:
- The roadmap was endorsed by the Cabinet in 2003 to provide a blueprint for achieving industrialized construction and open building concepts.
- It identifies strategies across several areas including manpower, materials, management, monetary incentives, and marketing to promote greater IBS usage.
- Targets include increasing IBS usage in government projects to 70% by 2008 and providing incentives for residential projects using at least 50% IBS.
- Case studies demonstrate how IBS can help complete projects faster through off-site prefabrication of building components.
This document discusses industrialized building systems used in Malaysia, specifically tunnel formwork and aluminum formwork. It provides an overview of each system, including their construction processes. Tunnel formwork involves pouring concrete into steel formwork to form walls and slabs in one operation. Aluminum formwork uses aluminum panels as molds to cast concrete structures and provides benefits like high quality finishes, precision, and reduced construction time. The document also outlines the advantages of these systems such as cost savings, shorter timelines, and improved safety; as well as some disadvantages like high initial costs and transportation challenges.
This document is a research proposal submitted by Than Lek Mei to compare the cost of buildings constructed using the conventional construction method versus the Industrialized Building System (IBS) in Malaysia. The proposal includes an introduction that provides background on IBS implementation in Malaysia, a problem statement on the low adoption of IBS despite its benefits, and a literature review on previous similar studies that have shown conflicting results. The research aims and objectives are defined as determining the most common IBS systems used in Malaysia, identifying factors affecting the costs of both methods, and comparing costs between methods for residential buildings. The proposed research design involves document analysis, questionnaires, interviews, and case studies.
Construction Technology III (Group Assignment) - Semester 3 Yee Len Wan
This document discusses four types of formwork systems used in industrialized building systems (IBS): tunnel formwork system, hydraulic self-climbing formwork system, PERI 'Skydeck' formwork system, and glass-fiber reinforced plastic (GFRP) formwork. It provides details on a case study of The Paramount at Buckhead in Atlanta, which used a tunnel formwork system to construct a 44-story residential building. The key benefits and drawbacks of each formwork system are outlined.
This document provides details about a factory visit assignment to Swissma Building Technologies Sdn. Bhd. and Sanko production sites by a group of quantity surveying students. It includes:
1) An introduction to Swissma's history and formation, services, and notable projects.
2) Descriptions of industrialized building system components produced by Swissma and Sanko, including standing seam roofing, metal tiles, and ribbed panels.
3) Explanations and photos of the installation processes for Swissma's Doppelwelt standing seam and Snapwelt roofing systems.
4) Overviews of the roll forming and crimping manufacturing processes used at Sanko's
IBS - Individual Assignment (Time comparison between IBS & traditional constr...Haziq1511
This document compares the time and speed of construction between cast-in-situ and industrialized building system (IBS) methods. It finds that IBS is typically faster, especially during the building erection phase, as prefabricated components can be assembled more quickly on site than pouring and curing concrete. However, both methods have similar timelines for design, planning and site preparation. The document also notes some potential delays for IBS, such as weather issues during erection or difficulties adapting to late design changes. Overall, IBS is concluded to be faster, but cast-in-situ may be preferable for certain building designs.
The adoption of Industrialised Building System (IBS) construction in Malaysia has a long history dating back to the 1960s. The government has implemented various policies and roadmaps since 1999 to promote the use of IBS, including mandating a minimum 70% IBS content for public sector projects in 2008. While early adoption attempts failed, IBS is now widely used in Malaysia and has moved from simple prefabrication to more advanced mechanization and automation. However, more work is still needed to fully convince industry players to adopt IBS construction methods.
Industrialized building systems (IBS) refer to building construction techniques that involve prefabricating building components off-site and assembling them with minimal work on-site. The document discusses IBS, providing a definition, characteristics, types including frame, panel and box systems. Benefits of IBS are highlighted such as reduced labor, waste and faster completion times. Challenges to adopting IBS in Malaysia are also examined, including a lack of expertise and the need for regulatory incentives to promote usage. Modular coordination is discussed as an important factor for effective IBS application through standardizing building measurements.
The document outlines the IBS Roadmap 2003-2010 which aims to promote the industrialization of Malaysia's construction sector.
Key points include:
- The roadmap was endorsed by the Cabinet in 2003 to provide a blueprint for achieving industrialized construction and open building concepts.
- It identifies strategies across several areas including manpower, materials, management, monetary incentives, and marketing to promote greater IBS usage.
- Targets include increasing IBS usage in government projects to 70% by 2008 and providing incentives for residential projects using at least 50% IBS.
- Case studies demonstrate how IBS can help complete projects faster through off-site prefabrication of building components.
This document discusses industrialized building systems used in Malaysia, specifically tunnel formwork and aluminum formwork. It provides an overview of each system, including their construction processes. Tunnel formwork involves pouring concrete into steel formwork to form walls and slabs in one operation. Aluminum formwork uses aluminum panels as molds to cast concrete structures and provides benefits like high quality finishes, precision, and reduced construction time. The document also outlines the advantages of these systems such as cost savings, shorter timelines, and improved safety; as well as some disadvantages like high initial costs and transportation challenges.
This document is a research proposal submitted by Than Lek Mei to compare the cost of buildings constructed using the conventional construction method versus the Industrialized Building System (IBS) in Malaysia. The proposal includes an introduction that provides background on IBS implementation in Malaysia, a problem statement on the low adoption of IBS despite its benefits, and a literature review on previous similar studies that have shown conflicting results. The research aims and objectives are defined as determining the most common IBS systems used in Malaysia, identifying factors affecting the costs of both methods, and comparing costs between methods for residential buildings. The proposed research design involves document analysis, questionnaires, interviews, and case studies.
Construction Technology III (Group Assignment) - Semester 3 Yee Len Wan
This document discusses four types of formwork systems used in industrialized building systems (IBS): tunnel formwork system, hydraulic self-climbing formwork system, PERI 'Skydeck' formwork system, and glass-fiber reinforced plastic (GFRP) formwork. It provides details on a case study of The Paramount at Buckhead in Atlanta, which used a tunnel formwork system to construct a 44-story residential building. The key benefits and drawbacks of each formwork system are outlined.
This document provides details about a factory visit assignment to Swissma Building Technologies Sdn. Bhd. and Sanko production sites by a group of quantity surveying students. It includes:
1) An introduction to Swissma's history and formation, services, and notable projects.
2) Descriptions of industrialized building system components produced by Swissma and Sanko, including standing seam roofing, metal tiles, and ribbed panels.
3) Explanations and photos of the installation processes for Swissma's Doppelwelt standing seam and Snapwelt roofing systems.
4) Overviews of the roll forming and crimping manufacturing processes used at Sanko's
IBS - Individual Assignment (Time comparison between IBS & traditional constr...Haziq1511
This document compares the time and speed of construction between cast-in-situ and industrialized building system (IBS) methods. It finds that IBS is typically faster, especially during the building erection phase, as prefabricated components can be assembled more quickly on site than pouring and curing concrete. However, both methods have similar timelines for design, planning and site preparation. The document also notes some potential delays for IBS, such as weather issues during erection or difficulties adapting to late design changes. Overall, IBS is concluded to be faster, but cast-in-situ may be preferable for certain building designs.
This document provides an overview of Industrialized Building Systems (IBS) with a focus on precast concrete systems. It defines IBS and discusses the key types, including precast concrete, steel framing, formwork, blockwork, timber framing, and innovative systems. The advantages of IBS are faster construction, higher quality, and lower cost. Potential defects in precast concrete like water leakage and cracking are also outlined. The document presents the standard design and construction workflows for IBS and provides case studies of two apartment buildings in Singapore that utilized precast concrete systems.
This document provides information about an industrialized building system (IBS) course focusing on precast concrete. It includes sections on technical drawings, schedules of IBS components, construction details, and an introduction to IBS that discusses the history and types of IBS in Malaysia as well as advantages and disadvantages of precast concrete systems.
This report summarizes an educational trip by Eraz Aqilah Binti Tajul Edrus to the CIDB Convention Centre to learn about Industrialized Building Systems (IBS). The trip included a presentation on IBS, visiting the IBS Component Gallery to see examples of IBS components like formwork systems, blockwork systems, and steel frame systems. They also toured the IBS Show House and labs at the Construction Research Institute of Malaysia (CREAM) which tests IBS components. The report discusses the purposes, advantages, manufacturing process, and types of IBS classified by structure, material, and relative component weight. It provides details on the testing equipment and applications at CREAM labs.
This document discusses industrialized building systems (IBS) and formwork systems used in construction. It provides details on common formwork systems in Malaysia like precast concrete, steel framing, and timber framing. Formwork systems offer benefits like strength, leak resistance, accuracy, and reusability. Examples of formwork systems discussed are Aluform panels and Mivan panels commonly used in India. The document also analyzes construction timelines for a sample high-rise building and compares benefits of Mivan formwork versus conventional formwork.
The document discusses Industrialized Building Systems (IBS) and proposes using several precast concrete systems - including precast columns, beams, slabs, walls, staircases and balconies - for a building project. It provides details on the manufacturing process for precast components and their advantages such as speed of construction, quality control and reduced maintenance costs. Connection methods are described for joining the various precast elements together on site.
This document discusses Industrialized Building System (IBS) and HC Precast System. It notes that IBS aims to speed up construction and decrease dependence on heavy site work. However, some precast manufacturers only use limited precast elements like beams and columns, still requiring significant brick wall assembly. HC Precast System provides a complete precast building system with load-bearing walls, beams, and stairs that minimizes on-site work. It can produce wall panels with any openings needed without relying on conventional brick walls.
This document discusses tunnel formwork systems, which is a mechanized construction method for building cellular structures efficiently. Tunnel formwork involves casting concrete walls and floors simultaneously using reusable tunnel-shaped molds. Key advantages include reduced construction time of one floor every 3 days, cost savings from fewer workers and repeated formwork use, and improved structural strength and earthquake resistance of the completed buildings. Case studies demonstrate tunnel formwork being used to construct high-rise residential towers in Atlanta and Pune more quickly and affordably than conventional construction methods.
Building Technology I : Project 1 : IBSJing Fan Koh
This document provides information on an Industrialized Building System (IBS) project involving blockwork components. It includes sections that describe the schedule of modular components, IBS score calculation, and conclusions. Diagrams and descriptions are provided on different types of IBS systems including blockwork systems. The fabrication process for blockwork components is outlined involving selection of ingredients, mixing, curing, cubing, and storing. Advantages and disadvantages of IBS construction are also discussed.
Major projects aluminium of formwork civil engineeringGopal jakhar
The document is a project report on aluminium formwork submitted by Gopal Jakhar to his professor Ambesh Ratnu. It discusses the necessity of aluminium formwork systems for mass housing construction in India, where it can maintain quality and speed at a high level. Key features include its reuseability, lightweight panels that require minimal equipment, and ability to form load-bearing walls and other building components faster than traditional construction methods.
IRJET- Comparative Analysis of Aluminium Formwork Building and Conventional F...IRJET Journal
This document compares the use of aluminum formwork and conventional formwork for constructing multi-story buildings using the Line of Balance (LOB) technique. The LOB analysis shows that using aluminum formwork can complete construction of 10 buildings in 42 days, while conventional formwork would take 65 days. Aluminum formwork is found to save both time and costs for mass housing projects compared to conventional formwork.
This document discusses tunnel formwork construction and provides details about a group project on the topic. It begins with an introduction to Industrialized Building Systems (IBS) and focuses on tunnel formwork. The construction process is described along with advantages like quality, speed, cost savings and disadvantages such as initial costs. Two case studies are presented: a 44-story residential building in Atlanta used tunnel forms to complete a floor every 3 days and a residential project in India that used tunnel forms to construct 25 towers efficiently.
ONE OF THE WAY TO IMPROVE THE OUTFLOW OF CURRENCY IS THE UTILIZATION OF INDUSTRIAL BUILDING SYSTEM ( IBS ) :
- IBS is a system which suits all architectural demands. It is neither a machine nor component,
- IBS Superstructure In Malaysia 3in1 : HC PRECAST SYSTEM
- Load Bearing + Modular Shear Keys Wet Joint + Box System
Comparative Study of MIVAN Formwork with Tunnel form System for High Rise Bui...IRJET Journal
This document compares tunnel formwork and aluminum formwork systems for use in high-rise building construction. Tunnel formwork has a higher initial cost but lower cycle times of 1-3 days compared to 8-14 days for aluminum formwork. While aluminum formwork has lower costs, tunnel formwork is more economical for projects with over 450 repetitions due to its faster cycle time and ability to be reused up to 500 times. The document concludes that though tunnel formwork has a higher initial investment and operational costs, it offers reduced construction schedules and is ultimately more cost-effective for large, high-rise buildings.
This document discusses industrialized building systems (IBS) and modular coordination. It defines IBS as building systems where prefabricated structural components are manufactured off-site and assembled with minimal work. Modular coordination standardizes dimensions to facilitate industrial production and assembly of building components. The document outlines various IBS classifications including frame, panel and box systems. It notes advantages like reduced labor, waste and faster completion compared to traditional construction methods.
1.6 _Important element required to complete a buildingTeow Beng Hur
1. The document discusses an Industrialized Building System (IBS) using precast concrete elements for construction. It describes the 5 step process of drawings, mould production, production, delivery, and installation.
2. The system aims to build houses faster and cheaper by using precast concrete panels, beams, walls and other elements. This reduces costs compared to traditional construction methods.
3. Key benefits outlined are speed of construction, quality control, minimal waste, and accurate cost estimates since the building is designed digitally before construction.
This literature review examines the cost comparison between conventional construction methods and Industrialized Building System (IBS) methods in Malaysia. It defines conventional construction and IBS, comparing factors like cost, speed, waste, and quality. The types of common IBS methods are described, including precast concrete, steel formwork, steel framing, timber framing, and blockwork systems. Studies comparing standardized and functionally similar building costs between countries are discussed. Factors affecting the costs of IBS implementation are also outlined, such as labor, materials, transportation and overheads. The review finds that IBS can provide higher quality, faster construction, less waste, and potentially lower costs when labor rates are higher. However, cheap foreign labor in
The document discusses modern methods of construction (MMC) and provides examples such as volumetric construction, panelized construction, and hybrid construction. It outlines drivers for MMC including housing supply and quality issues. Benefits of MMC include quicker construction time, reduced waste, improved quality control, and increased safety. The document also provides a case study comparing a 1996 and 2006 project constructed using different methods. It analyzes the use of precast versus insitu construction.
Mivan formwork is an aluminum alloy formwork system originally developed in Europe. It is now widely manufactured and used in Malaysia. The system uses lightweight aluminum forms to construct concrete walls and slabs in a continuous pour. This allows for fast, accurate construction of buildings at lower cost compared to conventional formwork. Some key advantages include high quality finishes with minimal plastering needed, less construction time per floor, minimal formwork waste, and good seismic resistance due to the box-type construction.
Mivan is an aluminum formwork system originally developed in Europe and manufactured in Malaysia since 1990. It is used globally for constructing large numbers of structures rapidly. The system uses lightweight, reusable aluminum panels to cast concrete walls and slabs together in a single pour. This creates a monolithic structure with smooth finishes, high strength, and speed of construction. The document discusses the history and components of the Mivan system, provides examples of its use, and outlines its advantages over conventional construction methods like reduced time, costs, and labor needs. It also notes some limitations and concludes the technology has great potential for affordable housing development in India.
Industrialized Building System (IBS) is a construction technique where building components are manufactured in a controlled environment and then transported and assembled on site. There are five main types of IBS in Malaysia: pre-cast concrete framing, formwork systems, steel framing, prefabricated timber framing, and block work systems. New prefabricated materials like gypsum, wood wool, polymer and fiberglass have also been introduced as IBS components.
This document discusses irritable bowel syndrome (IBS). It provides a brief history of IBS, discussing early descriptions of the condition from the 18th-19th centuries. It also covers the diagnosis of IBS, including the Rome criteria used to positively diagnose IBS based on symptoms. The pathophysiology of IBS is explored, noting enhanced perception, altered motility, and visceral hypersensitivity as factors. Quality of life impacts for patients with IBS are compared to other conditions like depression. Finally, treatment approaches are summarized, including patient education, dietary intervention, pharmacotherapy, psychotherapy, and hypnotherapy.
This document provides an overview of Industrialized Building Systems (IBS) with a focus on precast concrete systems. It defines IBS and discusses the key types, including precast concrete, steel framing, formwork, blockwork, timber framing, and innovative systems. The advantages of IBS are faster construction, higher quality, and lower cost. Potential defects in precast concrete like water leakage and cracking are also outlined. The document presents the standard design and construction workflows for IBS and provides case studies of two apartment buildings in Singapore that utilized precast concrete systems.
This document provides information about an industrialized building system (IBS) course focusing on precast concrete. It includes sections on technical drawings, schedules of IBS components, construction details, and an introduction to IBS that discusses the history and types of IBS in Malaysia as well as advantages and disadvantages of precast concrete systems.
This report summarizes an educational trip by Eraz Aqilah Binti Tajul Edrus to the CIDB Convention Centre to learn about Industrialized Building Systems (IBS). The trip included a presentation on IBS, visiting the IBS Component Gallery to see examples of IBS components like formwork systems, blockwork systems, and steel frame systems. They also toured the IBS Show House and labs at the Construction Research Institute of Malaysia (CREAM) which tests IBS components. The report discusses the purposes, advantages, manufacturing process, and types of IBS classified by structure, material, and relative component weight. It provides details on the testing equipment and applications at CREAM labs.
This document discusses industrialized building systems (IBS) and formwork systems used in construction. It provides details on common formwork systems in Malaysia like precast concrete, steel framing, and timber framing. Formwork systems offer benefits like strength, leak resistance, accuracy, and reusability. Examples of formwork systems discussed are Aluform panels and Mivan panels commonly used in India. The document also analyzes construction timelines for a sample high-rise building and compares benefits of Mivan formwork versus conventional formwork.
The document discusses Industrialized Building Systems (IBS) and proposes using several precast concrete systems - including precast columns, beams, slabs, walls, staircases and balconies - for a building project. It provides details on the manufacturing process for precast components and their advantages such as speed of construction, quality control and reduced maintenance costs. Connection methods are described for joining the various precast elements together on site.
This document discusses Industrialized Building System (IBS) and HC Precast System. It notes that IBS aims to speed up construction and decrease dependence on heavy site work. However, some precast manufacturers only use limited precast elements like beams and columns, still requiring significant brick wall assembly. HC Precast System provides a complete precast building system with load-bearing walls, beams, and stairs that minimizes on-site work. It can produce wall panels with any openings needed without relying on conventional brick walls.
This document discusses tunnel formwork systems, which is a mechanized construction method for building cellular structures efficiently. Tunnel formwork involves casting concrete walls and floors simultaneously using reusable tunnel-shaped molds. Key advantages include reduced construction time of one floor every 3 days, cost savings from fewer workers and repeated formwork use, and improved structural strength and earthquake resistance of the completed buildings. Case studies demonstrate tunnel formwork being used to construct high-rise residential towers in Atlanta and Pune more quickly and affordably than conventional construction methods.
Building Technology I : Project 1 : IBSJing Fan Koh
This document provides information on an Industrialized Building System (IBS) project involving blockwork components. It includes sections that describe the schedule of modular components, IBS score calculation, and conclusions. Diagrams and descriptions are provided on different types of IBS systems including blockwork systems. The fabrication process for blockwork components is outlined involving selection of ingredients, mixing, curing, cubing, and storing. Advantages and disadvantages of IBS construction are also discussed.
Major projects aluminium of formwork civil engineeringGopal jakhar
The document is a project report on aluminium formwork submitted by Gopal Jakhar to his professor Ambesh Ratnu. It discusses the necessity of aluminium formwork systems for mass housing construction in India, where it can maintain quality and speed at a high level. Key features include its reuseability, lightweight panels that require minimal equipment, and ability to form load-bearing walls and other building components faster than traditional construction methods.
IRJET- Comparative Analysis of Aluminium Formwork Building and Conventional F...IRJET Journal
This document compares the use of aluminum formwork and conventional formwork for constructing multi-story buildings using the Line of Balance (LOB) technique. The LOB analysis shows that using aluminum formwork can complete construction of 10 buildings in 42 days, while conventional formwork would take 65 days. Aluminum formwork is found to save both time and costs for mass housing projects compared to conventional formwork.
This document discusses tunnel formwork construction and provides details about a group project on the topic. It begins with an introduction to Industrialized Building Systems (IBS) and focuses on tunnel formwork. The construction process is described along with advantages like quality, speed, cost savings and disadvantages such as initial costs. Two case studies are presented: a 44-story residential building in Atlanta used tunnel forms to complete a floor every 3 days and a residential project in India that used tunnel forms to construct 25 towers efficiently.
ONE OF THE WAY TO IMPROVE THE OUTFLOW OF CURRENCY IS THE UTILIZATION OF INDUSTRIAL BUILDING SYSTEM ( IBS ) :
- IBS is a system which suits all architectural demands. It is neither a machine nor component,
- IBS Superstructure In Malaysia 3in1 : HC PRECAST SYSTEM
- Load Bearing + Modular Shear Keys Wet Joint + Box System
Comparative Study of MIVAN Formwork with Tunnel form System for High Rise Bui...IRJET Journal
This document compares tunnel formwork and aluminum formwork systems for use in high-rise building construction. Tunnel formwork has a higher initial cost but lower cycle times of 1-3 days compared to 8-14 days for aluminum formwork. While aluminum formwork has lower costs, tunnel formwork is more economical for projects with over 450 repetitions due to its faster cycle time and ability to be reused up to 500 times. The document concludes that though tunnel formwork has a higher initial investment and operational costs, it offers reduced construction schedules and is ultimately more cost-effective for large, high-rise buildings.
This document discusses industrialized building systems (IBS) and modular coordination. It defines IBS as building systems where prefabricated structural components are manufactured off-site and assembled with minimal work. Modular coordination standardizes dimensions to facilitate industrial production and assembly of building components. The document outlines various IBS classifications including frame, panel and box systems. It notes advantages like reduced labor, waste and faster completion compared to traditional construction methods.
1.6 _Important element required to complete a buildingTeow Beng Hur
1. The document discusses an Industrialized Building System (IBS) using precast concrete elements for construction. It describes the 5 step process of drawings, mould production, production, delivery, and installation.
2. The system aims to build houses faster and cheaper by using precast concrete panels, beams, walls and other elements. This reduces costs compared to traditional construction methods.
3. Key benefits outlined are speed of construction, quality control, minimal waste, and accurate cost estimates since the building is designed digitally before construction.
This literature review examines the cost comparison between conventional construction methods and Industrialized Building System (IBS) methods in Malaysia. It defines conventional construction and IBS, comparing factors like cost, speed, waste, and quality. The types of common IBS methods are described, including precast concrete, steel formwork, steel framing, timber framing, and blockwork systems. Studies comparing standardized and functionally similar building costs between countries are discussed. Factors affecting the costs of IBS implementation are also outlined, such as labor, materials, transportation and overheads. The review finds that IBS can provide higher quality, faster construction, less waste, and potentially lower costs when labor rates are higher. However, cheap foreign labor in
The document discusses modern methods of construction (MMC) and provides examples such as volumetric construction, panelized construction, and hybrid construction. It outlines drivers for MMC including housing supply and quality issues. Benefits of MMC include quicker construction time, reduced waste, improved quality control, and increased safety. The document also provides a case study comparing a 1996 and 2006 project constructed using different methods. It analyzes the use of precast versus insitu construction.
Mivan formwork is an aluminum alloy formwork system originally developed in Europe. It is now widely manufactured and used in Malaysia. The system uses lightweight aluminum forms to construct concrete walls and slabs in a continuous pour. This allows for fast, accurate construction of buildings at lower cost compared to conventional formwork. Some key advantages include high quality finishes with minimal plastering needed, less construction time per floor, minimal formwork waste, and good seismic resistance due to the box-type construction.
Mivan is an aluminum formwork system originally developed in Europe and manufactured in Malaysia since 1990. It is used globally for constructing large numbers of structures rapidly. The system uses lightweight, reusable aluminum panels to cast concrete walls and slabs together in a single pour. This creates a monolithic structure with smooth finishes, high strength, and speed of construction. The document discusses the history and components of the Mivan system, provides examples of its use, and outlines its advantages over conventional construction methods like reduced time, costs, and labor needs. It also notes some limitations and concludes the technology has great potential for affordable housing development in India.
Industrialized Building System (IBS) is a construction technique where building components are manufactured in a controlled environment and then transported and assembled on site. There are five main types of IBS in Malaysia: pre-cast concrete framing, formwork systems, steel framing, prefabricated timber framing, and block work systems. New prefabricated materials like gypsum, wood wool, polymer and fiberglass have also been introduced as IBS components.
This document discusses irritable bowel syndrome (IBS). It provides a brief history of IBS, discussing early descriptions of the condition from the 18th-19th centuries. It also covers the diagnosis of IBS, including the Rome criteria used to positively diagnose IBS based on symptoms. The pathophysiology of IBS is explored, noting enhanced perception, altered motility, and visceral hypersensitivity as factors. Quality of life impacts for patients with IBS are compared to other conditions like depression. Finally, treatment approaches are summarized, including patient education, dietary intervention, pharmacotherapy, psychotherapy, and hypnotherapy.
This document provides details on the Reinvestment Allowance (RA) incentive in Malaysia. Some key points:
- Effective 2009, to qualify for RA a company/person must be in operation for at least 36 months, increased from 12 months previously. An exception allows continued RA claims if the first claim was before 2009.
- RA provides a 60% allowance on capital expenditures for qualifying projects. It is deducted from statutory income but limited to 70% of income, except some projects in promoted areas can deduct 100% of income.
- Qualifying projects must be manufacturing, processing, or certain agricultural activities. Capital expenditures must be incurred for factory/plant assets used in Malaysia.
- Unused RA
This document discusses Industrialised Building System (IBS), which is a construction technique where building components are manufactured in a controlled environment and assembled with minimal work on site. It provides examples of early IBS use dating back to 1624 and its introduction in Malaysia in 1966. The benefits of IBS include reduced labor, waste and costs. However, only 15% of contractors use IBS due to lack of expertise and higher initial costs compared to traditional methods where labor is cheap. The document also categorizes different types of IBS and problems faced in its implementation.
Konkrit siap tuang dan teknologi pasang siapArduni Ahmad
Dokumen tersebut membahas tentang konkrit siap tuang dan teknologi pasang siap. Ia menjelaskan definisi konkrit siap tuang yang dibuat di pabrik dan dituang di tapak, serta teknologi pasang siap yang melibatkan pembuatan komponen struktur di pabrik lalu dipasang di tapak. Jenis dan kaedah pembuatan, pengangkutan, serta pemasangan untuk kedua-dua jenis konkrit tersebut juga dibahas.
This document provides an overview of irritable bowel syndrome (IBS), including its definition, prevalence, demographics, pathophysiology, clinical features, diagnosis, differential diagnosis, severity assessment, management, and prognosis. Some key points are:
- IBS is a functional bowel disorder characterized by abdominal pain associated with changes in bowel habits. It predominantly affects those aged 15-65 and is more common in women.
- The pathophysiology involves altered gut motility, visceral hypersensitivity, abnormal gas handling, low-grade inflammation, food sensitivities, abnormal gut microbiota, and central nervous system dysregulation.
- Diagnosis is based on symptoms meeting certain criteria and exclusion of organic diseases. Management focuses on
This document provides an overview of capital allowances under Malaysian tax law. It discusses that while accounting depreciation is not tax deductible, taxpayers are granted tax depreciation or "capital allowances" on qualifying capital expenditures to determine taxable income. Capital allowances are only given for business sources and only to the person who incurs the qualifying expenditure. The document outlines the types of capital allowances (initial allowance, annual allowance, notional allowance), eligibility requirements, qualifying expenditures, treatment of plant and machinery purchases and disposals, and other related topics.
Modular construction involves prefabricating building components off-site and transporting them to the construction location for assembly. This document discusses the benefits of modular construction compared to standard construction methods. Some key benefits include reduced construction costs through industrialized manufacturing, faster installation times, standardized components that improve productivity, and reusability of modular units that provide flexibility. The document also explains modular coordination, which involves dimensioning buildings and components using a standard module unit of 100mm to facilitate industrialized production and assembly of standardized building parts.
In-building Solution (IBS) / Distributed Antenna System (DAS)
Small Cell Coverage within building premises
Signal is restricted inside the building
Antenna installed inside the building
Low Transmit Power of Antenna
Smaller Antenna size
Industrialised Building System in Malaysia.pdfKamalGhazali2
The document discusses the history and use of Industrialized Building Systems (IBS) in Malaysia. It begins by outlining how the Malaysian government first explored IBS in the 1960s based on visits to European countries. Early projects in the 1960s using IBS showed success in accelerating construction timelines and improving quality and affordability of housing. The document then discusses the classification of different IBS approaches and provides examples of modern Malaysian projects using IBS techniques. It notes that while IBS has been used in Malaysia for decades, its application remains relatively low and continued infrastructure improvements are needed to expand its use in the future.
This document provides information about Industrialized Building Systems (IBS) in Malaysia. It defines IBS and discusses its benefits such as improved quality, safety, and productivity compared to conventional construction methods. The document outlines the types of IBS, including precast concrete, steel framing, and block work systems. It presents case studies of IBS projects in Malaysia and discusses challenges to adopting IBS like lack of expertise and higher initial costs. Modular coordination principles that standardize building component dimensions to facilitate use of IBS are also covered.
The document outlines an IBS Roadmap for 2003-2010 that was developed by CIDB Malaysia to promote greater adoption of Industrialised Building Systems in the country's construction industry. The roadmap establishes targets and strategies across five areas (manpower, materials/components/machines, management/processes/methods, monetary, and marketing) to industrialize the sector and achieve open building standards by 2010. Implementation of the roadmap is aimed at improving quality, productivity and safety in construction while reducing reliance on foreign labor.
This document discusses Mivan formwork, which is an aluminum formwork system used in construction. Some key points:
- Mivan formwork was developed by a European construction company in 1990 and is now commonly used worldwide due to advantages like faster construction speed.
- It allows constructing large numbers of houses quickly by using room-sized forms to construct walls and slabs in a single concrete pour.
- Major projects in India like towers in Mumbai have used Mivan formwork. However, traditional wooden formwork is still used in some areas.
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1. The adoption of Industrialised Building System (IBS)
construction in Malaysia: The history, policies,
experiences and lesson learned
Mohd Idrus Din, Noraini Bahri, Mohd Azmi Dzulkifly, Mohd Rizal Norman, Kamarul
Anuar Mohamad Kamar *, and Zuhairi Abd Hamid
Construction Industry Development Board (CIDB) Malaysia
* Corresponding author (kamarul2411@gmail.com)
Purpose Industry and government in Malaysia coined the term industrialised building system (IBS) to describe the
adoption of construction industrialisation, mechanisation, and the use of prefabrication of components in building
construction. IBS consists of precast component systems, fabricated steel structures, innovative mould systems, modular
block systems, and prefabricated timber structures as construction components. Parts of the building that are repetitive
but difficult – and too time consuming and labour intensive to be casted onsite – are designed and detailed as
standardised components at the factory and are then brought to the site to be assembled. The construction industry in
Malaysia has started to embrace IBS as a method of attaining better construction quality and productivity, reducing risks
related to occupational safety and health, alleviating issues for skilled workers and dependency on manual foreign
labour, and achieving the ultimate goal of reducing the overall cost of construction. The chronology of IBS-adoption in
Malaysia goes back a long way, reaching back to the 1960s, when precast elements were adopted in the building
industry to address the problem of an acute housing shortage. However, the introduction of IBS was never sustained
beyond this period. As a result of the failure of early closed-fabricated systems, the industry is now avoiding changing its
construction method to IBS. Some of the foreign systems that were introduced during the late 1960s and 1970s were
also found to be unsuitable in Malaysia’s climate and not very compatible with social practices. IBS has regained its
popularity presently due to problems with construction workforces where the industry has been relying for a long time on
unskilled workers from neighbouring countries. Method In 1999, the IBS Strategic Plan was launched to promote the
system’s usage in the industry. This was followed by the IBS Roadmap 2003-2010 and IBS Roadmap 2011-2015; these
are blueprints for industrialised construction by 2015. The roadmaps have been developed by the government to chart
progress and guide the awareness programmes, incentives, vendor scheme development, training, quality control and
research and development programmes. The government also took the lead in 2008, by mandating that all public-sector
projects must attain no less than 70% IBS-content under the Treasury Circular SPP 07/2008. This policy aims to build up
momentum and to establish demand for IBScomponents, thus bringing the cost down. Results & Discussion At
present, IBS-construction is widely used as a mainstream method and the implementation has moved from prefabrication
towards mechanisation, automation, and robotics applications. This paper highlights some of the history, policies,
experiences, and lesson learned in adopting IBS in Malaysia. The outlook for IBS-implementation in Malaysia is bright,
but much work is still needed from the government to convince the contractors, manufacturers, and suppliers to adopt
IBS-construction.
Keywords: construction, industrialized building systems, Malaysia
INTRODUCTION
Industrialised Building System (IBS) is the term
coined by the industry and government in Malaysia
to represent the adoption of construction
industrialisation and the use of prefabrication of
components in building construction. IBS is defined
as a construction technique in which components
are manufactured in a controlled environment (on or
off site), transported, positioned and assembled into
a structure with minimal additional site work (Hamid
et al., 2008; CIDB, 2007; CIDB, 2005 and CIDB,
2003). It consists of precast component systems,
fabricated steel structures, innovative mould
systems, modular block systems and prefabricated
timber structures as construction components (CIDB,
2003). Parts of the building that are repetitive but
difficult – and too time consuming and labour
intensive to be casted onsite – are designed and
detailed as standardised components at the factory
and are then brought to the site to be assembled
(CIDB, 2003). The onsite casting activities in IBS
utilise innovative and clean mould technologies
(CIDB, 2007; CIDB, 2005 and CIDB, 2003). In the
Malaysian context, the classification by the CIDB is
widely used and well understood by scholars and
practitioners. CIDB has classified the IBS systems
into five categories as depicted in Table 1 (CIDB,
2003).
2. Table 1: IBS classification (CIDB, 2003)
Classification Descriptions
Precast concrete
framed buildings
The most common group of IBS products is the precast concrete elements; precast
concrete columns, beams, slabs, walls, 3-D components (e.g. balconies, staircases,
toilets, lift chambers, refuse chambers), lightweight precast concrete, as well as
permanent concrete formworks.
Formwork System Considered as one of the low-level or the least prefabricated IBS, as the system
generally involves site casting and is therefore subject to structural quality control, the
products offer high-quality finishes, and fast construction with less site labour and
material requirement.
Steel Framing System Commonly used with precast concrete slabs, steel columns and beams, steel framing
systems have always been the popular choice and used extensively in the fast-track
construction of skyscrapers. Recent developments in this type of IBS include the
increased usage of light steel trusses consisting of cost-effective profiled cold-formed
channels and steel portal frame systems as alternatives to the heavier traditional hot-
rolled sections.
Prefabricated Timber
Framing System
The system consists of timber building frames and timber roof trusses. While the latter
are more popular, timber building frame systems also have their own niche market,
offering interesting designs from simple dwelling units to buildings requiring high
aesthetical values such as chalets for resorts.
Blockwork System The construction method of using conventional bricks has been revolutionised by the
development and usage of interlocking concrete masonry units (CMU) and lightweight
concrete blocks. The tedious and time-consuming traditional brick-laying tasks are
greatly simplified by the usage of these effective alternative solutions.
The construction industry has started to embrace
IBS as a method of attaining better construction
quality and productivity, reducing risks related to
occupational safety and health, alleviating issues for
skilled workers and dependency on manual foreign
labour, and achieving the ultimate goal of reducing
the overall cost of construction. Apart from this, it
offers minimal wastage, fewer site materials, a
cleaner and neater environment, controlled quality,
and lower total construction costs (Pan et al. 2008,
Hamid et al. 2008 and Pan et al. 2007). Already
utilized in Malaysia since 1960s, IBS is the way
forward for the industry stakeholders to make leaps
and bounds progress in the Malaysian construction
industry. Sufficient exposure and incentives are
pouring in to encourage industry players to make a
paradigm move – from conventional to IBS
construction.
THE CHRONOLOGY OF IBS ADOPTION IN MALAYSIA
1. Development of IBS in post-independent
Malaysia:
IBS has been introduced in Malaysia since early
1960s when Public Work Department (PWD) and
Ministry of Housing and Local Government (MHLG)
of Malaysia visited several European countries and
evaluate their housing development program
(Thanoon et al. 2003). In 1963, the
government sent a group of architect from PWD to
learn industrialised building in some of European
countries. The following year, another group of
architect from the Federal Capital Commission was
sent to France for about 6 month for exposure in
industrialised buildings (Sumadi et al. 2001). In the
same year, Ministry of Housing and Local
Government (MHLG) was being set up by the
government to concentrate to development of
housing. The ministry officers and representatives
visited West Germany, Denmark and France to
gather more information on industrialised building
later that year (Sumadi et al. 2001).
2. Development in 1964 to 1970s:
After their successful visit in 1964, the government
had started its first IBS project aims to speed up the
delivery time and built affordable and quality houses
as stipulated under the 2nd
Malayan Plan 1960-1965
and the 1st
Malaysian Plan 1966 – 1970. About 22.7
acres of land along Jalan Pekeliling, Kuala Lumpur
was dedicated to the project comprising 7 blocks of
17 stories flat consists of 3000 units of low-cost flat
and 40 shops lot. This project was awarded to JV
Gammon and Larsen and Nielsen using Danish
System of large panel pre-cast concrete wall and
plank slabs. The project was completed within 27
months from 1966 to 1968 including the time taken
in the construction of the RM 2.5 million casting yard
at Jalan Damansara. In 1965, the second housing
project initiated by the government comprising 6
blocks of 17 stories flats and 3 block of 18 stories
flats at Jalan Rifle Range, Penang. The project was
awarded to Hochtief and Chee Seng using French
3. Estoit System (CIDB, 2006 and CIDB, 2003). Both
projects utilised the large panel system which
required large concrete panel cast in the factory and
transported to site on trailers for assembly. The
speed of construction is much faster although the
tendered price was slightly higher by 5% to 8%
(Sarja, 1998). Another earliest IBS project was at
Taman Tun Sardon in Penang (consists of 1,000
units five-storey walk up flat). IBS pre-cast
component and system in the project was designed
by British Research Establishment (BRE) for low
cost housing (BRECAST system). A similar system
was constructed almost at the same time at
Edmonton, North London and about 20,000
BRECAST dwellings were constructed throughout
UK from 1964 to 1974 (CIDB, 2006). Nonetheless,
the building design was very basic and not
considering the aspect of serviceability such as the
local needs to have wet toilet and bathroom
(Rahman and Omar, 2006).
3. Development in 1970s to early 1980s:
In 1978, the Penang State Government launched
another 1200 units of housing using prefabrication
technology. Two years later, the Ministry of Defense
(MOD) adopted large prefabricated panel
construction system to build 2800 unit of living
quarters at Lumut Naval Base. As one can observed,
IBS was engage at first place in the construction of
low-cost high-rise residential building to overcome
the increasing demand for housing needs. Many
construction in at this time utilised precast wall panel
system. Nonetheless, the industrialisation of
construction was never sustained in this period.
Failure of early closed fabricated systems had
resultant the industry to avoid of changing their
construction method to IBS. Some of the foreign
systems that were introduced during the late 60s and
70s were also found not to be suitable with Malaysia
climate and social practices. Newer and better
technologies were constantly being introduced than
in the market since wet joint systems were identified
to be more suitable to be used in our tropical climate
and it was also better to utilised the bathroom types
which were relatively wetter than those in the Europe
(CIDB, 2005). At the same time recent innovation the
form of precast concrete sandwich wall panels
developed in Europe, has received wide
acceptability in countries having hot temperature
climates due to better insulating properties resulting
in a cooler in door environment and has been send
in several pilot projects in Malaysia through 1970s to
1980s period (Trikha and Ali, 2004).
4. Development in 1980s to 1990s:
During the period of early 80s up to 90s the use of
structural steel components took place particularly in
high rise buildings in Kuala Lumpur. The usage of
steel structure gained much attention with the
construction of 36-storey Dayabumi complex that
was completed in 1984 by Takenaka Corporation of
Japan (CIDB, 2003 and CIDB, 2006). In the 90s,
demand for the new township has seen the increase
in the use of precast concrete system in residential
buildings. Between 1981 and 1993, Perbadanan
Kemajuan Negeri Selangor (PKNS) a state
government development agency acquired pre-cast
concrete technology from Praton Haus International
based on Germany to build low cost houses and
high cost bungalows for the new townships in
Selangor (CIDB, 2003 and Hassim et al. 2009). It
was recorded then, around 52,000 housing units was
constructed using Praton Haus system (Trikha and
Ali, 2004) and the state of art pre-cast factory was
set up in Shah Alam (Sarja, 1998). Other than the
use of Praton House technology from Germany,
PKNS was also embarked in other IBS systems at
the same period; Taisei Marubumi - large panel are
cast in factory using tilt-up system where one panel
forms the base for next panel cast (1,237 housing
units and 11 shop lots at PJS), Hazama system
(3,222 flat units and 1,112 housing units at Bandar
Baru Bangi), Ingeback system which is Swedish
system using large panels in vertical battery mould
and tilt-up table mould (3,694 flat units) All the
project were constructed by local contractor with
international technical support from established
international firms in joint venture partnership
(Hashim et al. 2009 and Sarja, 1998).In that period
IBS used in Malaysia are large panel system
(housing project in Shah Alam and Taman Brown),
metal form system in Wangsa Maju, Pandan Jaya
and Taman Maluri and modular systems which are
heavily promoted by CIDB in government project.
Although the system originated overseas, local
contractors has made modification to suit local
requirement. Instead of steel, high quality film coated
plywood shuttering is used in an innovative mould
system. The form can be easily dismantled and
handled by small crane and can be adjusted to suit
architectural requirement (Sarja, 1998). Other
systems are framing system, modular system and
partially pre-cast system (the Cemlock Built System
which is originate in Australia and used by the
National Housing Department in Pekan Selama
housing project) (Sarja, 1998).
5. Development in 1990s to 1998s
In this booming period of Malaysian construction
1994 -1997, hybrid IBS application used in many
national iconic landmarks such as Kuala Lumpur
Convention Centre (steel beam and roof trusses and
precast concrete slab: Victor Buyck Steel
Construction), Lightweight Railway Train (LRT), KL
Sentral Station (steel roof structure and precast
hollow core: RSPA – Bovis), KL Tower (steel beams
4. and columns for tower head: Wayss and Freytag),
Kuala Lumpur International Airport (steel roof
structure: KLIAB – Eversendai) and Petronas Twin
Towers (steel beams and steel decking for the floor
system – Mayjus JV and SKJ JV). The booming
period of construction during that time includes the
development and construction of new administration
capital of Malaysia; Putrajaya and Cyberjaya. Both
cities are the massive development areas consist of
new government buildings, business boulevard and
residential area, and most of them were built in IBS
or a hybrid IBS, combination between IBS and
conventional construction.
6. Development in 1998 – 2008
At this state, the use of IBS as a method of
construction in Malaysia is evolving. Many private
companies in Malaysia have teamed up with foreign
expert to offer solutions to their IBS projects (Eastern
Pretech, BPB Malaysian Gypsum, Lafarge and
Duralite). Many had acquired enough knowledge
through technology transfer to build up own capacity
in IBS technologies (PKNS Engineering, Setia
Precast and Global Globe). Setia Precast and Global
Globe using technologies first adopted by Taisei
Corporation of Japan. In fact, Malaysian was also
developed their own IBS technologies (Zenbes,
CSR, IJM Formwork, Pryda, Baktian and HC
Precast). The local IBS manufacturers are
mushrooming, although the facilities yet to operate in
full capacity. The IBS system is largely used for
private residential projects in Shah Alam, Wangsa
Maju and Pandan, Dua Residency, Taman Mount
Austin and Tongkang Pecah, Johor. It used in public
residential projects in Putrajaya Prescient 17 and
Prescient 9, PPR Sungai Besi, Sungai Bedaun, and
Telipok, Sabah. The new generation of building that
utilised IBS is better in term of quality, and
architectural appearance compared to the earlier
generation. IBS is also widely used to construct
government’s schools and teachers housing
complexes (Kuala Kangsar, Yan and Sungai Petani),
hospitals (Serdang Hospital and UKM Hospital),
collages and universities (Penang Matriculation
Collage, UiTM, Kuching and University PETRONAS
and University of Malaysia Sabah), custom and
immigration complexes (Kelana Jaya and Johor
Bahru), private buildings (Weld Tower, Maju
Perdana, Traders Hotel, City Square and Olympia
Tower, Jaya Jusco, IKEA) and police quarters
(Senawang). The IBS agenda was further boosted
with the 2004, 2005 and 2006 Malaysia Budget
announcements. In 2004, new government building
projects had been strongly encouraged to have at
least 50% of IBS content in their construction
elements which had been calculated using IBS
Score Manual developed by CIDB. Furthermore, in
2005, the government had pledged to construct
100,000 units of affordable houses using IBS (Hamid
et al. 2008). Finally, in 2006, a tax incentive was
offered through Acceleration Capital Allowance
(ACA). IBS manufacturers would be given ACA for
expenses incurred in the purchase of steel moulds
used for production of precast concrete components
to be claimed within three years (CIDB, 2005 and
Shaari, 2006).
7. 2008 – Present
One of the most important milestones of IBS policy is
regulation on the use of IBS in the construction of
public buildings. In November 2008, the Treasury
Malaysia issued a Treasury Circular Letter, now
referred to as SPP 7/2008, to all Malaysian
government agencies directing them to increase the
IBS contents of their building development projects
to a level not less than 70 points of the IBS score
and in that sense IBS must be incorporated as part
of the contract document for tender (Hamid et al.
2008). The circular letter took effect immediately and
the Implementation and Coordination Unit (ICU) of
the Prime Minister’s Department has been given the
task of monitoring the level of compliance to this
directive by the respective agencies. The decision
was to create sufficient momentum for the demand
for IBS components and to create a spill-out effect
throughout the nation. To monitor the
implementation, the government established the
National IBS Secretariat. It involves coordination
between inter-ministry levels to make sure the policy
is successfully implemented. During a period from
October 2008 and May 2010, about 331 projects
under 17 ministries were awarded and constructed
using IBS (CIDB, 2010). The majority of the projects
were construction of public schools, hospitals, higher
learning institutions and government offices
throughout Malaysia. The total cost of the projects
was about RM 9.6 billion (CIDB, 2010).
EXPERIENCES AND LESSONS LEARNED ON IBS
CONSTRUCTION IN MALAYSIA
1. There is a change in paradigm regarding
IBS in Malaysia in the past few years. In the past,
the majority of contractors and industry stakeholders
still divided either to use IBS or conventional method
although the benefits of IBS are clear and eminent.
But this is not the case now, the industry, nowadays
has to think of a system to be implemented in their
project (weather it conventional or IBS) due to the
increase need of quality end-product and speed of
construction, and coping with the issue of foreign
workers. In the case of public building projects, the
industry is instructed to use IBS system. So, the
industry both in the private and public construction
projects has no other choice but to be involved in
IBS and adopt industrialisation in construction. (In
November 2008, the Treasury Malaysia issued a
5. Treasury Circular Letter, now referred to as SPP
7/2008, to all Malaysian government agencies
directing them to increase the IBS contents of their
building development projects to a level not less than
70 points of the IBS score and IBS must be
incorporated as part of the contract document for
tender. The decision was to create sufficient
momentum for the demand for IBS components and
to create a spill-out effect throughout the nation).
Due to this policy, the cost of constructing in IBS has
reduced significantly. The adoption in the past was
normally based on wanting rather than by viability.
IBS system in Malaysia is now, mostly competitive if
not cheaper if one compare it to the conventional
practices depending on type of projects, type of
systems and volume.
2. The IBS in Malaysia promotes open
system or hybrid system and encourages full
industry participation compared to the prefab closed
system where only limited industry companies can
participate. IBS supply chain should comprises of
modular component-based products that can be
produce and interchangeable between any project
thus promote mass customisation at the customers
end. Therefore, a company that can utilize the IBS
supply chain will enable it to sell systems rather than
selling single products. Standardising the
construction industry is a critical factor in
establishing an Open System in Malaysia. The
concept of the OBS is similar to what has happened
in the ICT industry whereby through standardization
of jointing parts such as USB ports, consumers can
buy computer equipment such as mouse or scanner
anywhere in the world. The equipment can then be
easily installed by the users as the connection from
the equipment to the computer has been
internationally standardized.
3. One of the important milestones in IBS
Roadmap 2003-2010 was the introduction of
Modular Coordination (MC). MC is a concept of
coordination of dimensions and space where
buildings and components are dimensioned and
positioned in a basic unit or module known as 1M
which is equivalent to 100 mm, as stipulated in MS
1064, and developed in 2000. The concept allows
standardisation in design and building components.
It encourages participation from manufactures and
assemblers to enter the market, thus reducing the
price of IBS components. Modular need to be
adopted to cut down the waste in IBS. However the
implementation of modular coordination requires
better design planning.
4. Malaysian construction industry is very
good in modifying and adopting IBS technologies
captured from oversea practices. Many private
companies in Malaysia in present day have teamed
up with foreign expert to offer solutions to their IBS
projects. Many had acquired enough knowledge
through technology transfer to build up own capacity
in IBS technologies. Many world-class Malaysian
developers have chosen IBS over the conventional
methods for important projects such as the Petronas
Twin Towers, Putrajaya, KL Sentral and KLIA. There
is ample evidence that the failures of past
construction systems are due to blind acceptance of
foreign products that were not open (flexible) and
were unsuitable to our climate and culture.
5. Successful IBS contractors as observed
are not a user of technology or limit its role as project
manager and assembler. Most successful IBS
contractors have an in-house manufacturing and
design capacity. They also invest in and sometimes
invent systems, and so do not just depend on
existing manufacturers. The also partner with
oversea partners to acquire the technologies.
6. One of the major issues of IBS is on
changing users’ perception. Users tend to think that
IBS buildings is easy to leak and can not be
renovated. However, through the advancement of
technologies and better planning and design, IBS
buildings/housings in the present days have
improved in term of performance and can be
renovated by users.
7. Some of the foreign systems that were
introduced during the late 60s and 70s were also
found not to be suitable with Malaysia climate and
social practices. Newer and better technologies were
constantly being introduced than in the market since
wet joint systems were identified to be more suitable
to be used in our tropical climate and it was also
better to utilised the bathroom types which were
relatively wetter than those in the Europe.
8. IBS in Malaysia is seen as a threat to
traditional methods but in reality many IBS
technologies like block works is exist together with
conventional practices. The failure of IBS to
penetrate the market is due to a misconception that
it will eventually replace the traditional sector, while it
actually should work closely in tandem to promote
best practice in construction. The sharing of best
practice between the two approaches is essential for
the continued successful development of both
construction sectors. IBS should be looked by the
industry as easy, simple and cost effective solutions
to the players.
9. Each IBS system has its own advantages
and limitations. The selection and implementation of
correct technology in IBS projects is perhaps the key
to IBS success. There is a need to realise that
precast concrete IBS is not suitable for every project.
If more people were aware of its capabilities and
available technology, they could identify particular
system that suited the project. The advantages of
IBS systems in Malaysia are as follows:
BARRIERS TO IBS ADOPTION IN MALAYSIA
6. 1. Currently, the incentives for IBS are not
sufficient. IBS adoption requires more pull and push
factors from the government. Due to the small profit
margin, the change from conventional to IBS was not
feasible, unless, more attractive incentive systems
and benefits which can lure the conventionalist to
IBS are in place.
2. The availability of cheap foreign labour which
offsets the cost benefit of using IBS is a root cause
of the slow adoption in the past. As long as it is easy
for the industry to find foreign workers, labour rates
will remain low and builders will find it unattractive to
change into simplified solutions such as IBS.
3. The limited take up also relates to sheer cost of
investment and the inadequacy of market size. Since
the Asian financial crisis in 1997 and global
recession in 2008, it becomes apparent that large
investments in central production plants are
uneconomical.
4. To use a higher level of IBS, the adopters
require a huge volume of works to break even on the
investment. Although it creates more value to
construction, it is literally a more expensive option
due to the paid up capitals and maintenance of
machineries. Inconsistency of volume over time and
lack of business continuity resulted in the investment
in latest innovation not being commercially
sustainable.
5. Low standardisation of components also
hinders successful use of IBS. The tailor-made
components which do not fit into another project will
increase initial costs due to the cost of the mould
and design. Lack of standardisation was due to a
lack of a certification and accreditation scheme on
IBS and the lukewarm response to Modular
Coordination (MC) promotion under MS 1064.
6. There is a general consensus among
practitioners that IBS needs mass production to
achieve economic viability, but currently, in Malaysia,
there is no assurance of continuity of production,
thus limiting interest in IBS.
7. Supply Chain Management (SCM) and
partnering concept has not been fully understood by
the industry. Currently, the cooperation between
contractors, manufacturers and suppliers is weak in
many cases. Improving the procurement system and
supply chain is the key to achieving IBS success for
contracting companies.
THE WAY FORWARD
The lesson learnt on IBS construction in Malaysia
has led to the following recommendations towards
the future improvement of IBS adoption in Malaysia:
1. The rising sustainability awareness around the
globe has put the construction industry under
immense pressure to improve project efficiency and
deliverables. Industrialised Building System (IBS)
has the potential to promote sustainability
development and green construction. This may be
achieved from a controlled production
environment, minimization of construction waste,
extensive usage of energy efficient building
material, a safer and more stable work
environment, and possibly better investment for long
term project economy. The industry need to seize
this opportunity and use IBS as their competitive
advantages in promoting sustainable construction.
2. The mass construction workforce, especially
the locals, needs to upgrade their skills to be
involved in IBS. The policy on labour focuses on
encouraging personnel to acquire skills in more than
single trade. This would add more value by providing
a more skilled workforce which would ultimately
enhance the competitive advantage of the industry in
facing the issue of adoption from conventional to the
IBS. They must be equipped in design, installation
and project management skills which are critical to
IBS. A comprehensive preliminary study should be
conducted by the government to identify the skill
gaps in the IBS sector in order to create a
comprehensive and systematic training programme.
The preliminary study will ensure that the training fits
the needs of IBS organisations and accommodates
current skill shortages in the market, particularly
specialist skills such as design and installation,
based on information from real practice.
3. A vendor development programme modeled
along the lines of the development of the national car
industry should be established to target delivery of
building components for the construction. The
vendor program is to be accredited by existing
government agencies which can provide a vetting
process not only to guarantee consistent quality but
also the achievement of structural capacity, fire
rating and other requirements. The selected vendor
are to be provided training, seed capital,
components design, and selected private sector
consultant to start up production factories. The
location of this vendor’s manufacturing plant has to
be located in the areas with available labour. Based
on educated assumption, the expected investment
requirement of RM 1.25 million is considered within
the reach of SMEs and small contractors displaced
by the new technology. A system is to be developed
such that building component accredited will be
given green lane approval such that technical and
non-technical legislation that hinders implementation
of the new technology will be removed. The
government can help by conducting market research
to ascertain market opportunities to the vendors. The
vendors also need inventory management
consultancy and advice and development of better
tools and infrastructures required for location of
manufacturing plant.
4. Manufacturers and all players of IBS sectors
need to create highest value for IBS to serve the
7. clients best interest, as we know clients in a private
sector are more demanding in term of design
esthetic value. With this regards, we need to move
from mass production of components to mass
customisation of buildings where the building design
can be tailor-made to specific customer needs. The
industry shall need to encourage automation and
robotic to be really reduce the use of workers in
construction and prefabrication. The government
also perhaps needs to encourage manufacturers to
produce ‘modular housing’ which move all the work
trade at site to the manufacturing floor. We need to
move up the level of industrialisation and encourage
innovation, whilst low innovative systems which do
contained enough value like mould systems will be
discouraged. Proper incentive and tax holiday need
to introduce to cater the production of innovative
IBS.
5. Malaysian IBS contractors need to benchmark
IBS technologies, lesson learnt and best practices
from other countries. Construction industrialisation is
a worldwide agenda. IBS is already successful
adopted in Finland, Sweden, Japan, Germany and
Singapore where offsite technologies had eventually
modernised and improved the industry. This
research recommended the industry players to find
ways to capture and disseminate technologies,
lesson learned, and best practices from successful
countries and companies to expedite our learning
curve on IBS and to guide the way forward. The
government should launch a forum on a regular
basis of academics and associated practitioners
active in IBS for exchange of information and
experience, development of new techniques and
advice on promotion and implementation of IBS. An
online portal was also suggested to disseminate
international trends, products and processes
associated with the IBS.
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