In the pursuit of a more sustainable and eco-friendly approach in the construction industry, alternative building technologies have emerged, challenging traditional norms. Among these innovations that is now gaining recognition and acclaim is the Cement-Bamboo Frame Technology (CBFT).

CBFT is an innovative construction method that combines bamboo and cement to create a durable and sustainable building material. This technology aims to revolutionize the construction industry, particularly the residential landscape, by providing a cost-effective, environmentally conscious, disaster-resilient, and robust solution for building homes.

In this blog, we will explore the profound benefits of Cement-Bamboo Frame Technology as a construction material and how it is transforming the way we build homes.

Strength and Durability

Bamboo, as one of the key components of CBFT, is a natural wonder that has long been underestimated as a building material. Contrary to popular misconception that bamboo is weak and flimsy, it is actually a viable building material. When properly treated and engineered, it exhibits impressive compression properties and tensile strength, surpassing traditional materials. Homes that are made from Cement-Bamboo Frame Technology are ensured to be sturdy, and resilient against seismic forces and extreme weather conditions, providing homeowners with durable and reliable housing solutions.

Resilience Against Pests and Decay

Critics often argue that bamboo is susceptible to pest infestations and decay. However, CBFT addresses these concerns head-on. Through intensive research and continuous testing, BASE has developed a treatment process to make bamboo resistant to pests, decay, and fungal attacks. With proper preservation techniques, this innovation assures that homes built with the CBFT remain robust and resilient for years to come.

Energy-Efficient Homes

Cement-Bamboo Frame Technology’s exceptional insulation properties contribute to energy-efficient homes. The natural thermal regulation of bamboo-cement composites reduces the need for excessive heating or cooling, cutting down energy consumption and utility costs for homeowners. Embracing CBFT supports eco-conscious living by reducing the overall carbon footprint of residential properties.

Affordable and Accessible Solution

CBFT offers affordable and accessible housing solutions, particularly in regions where traditional construction materials are scarce or costly. With its simplified construction process and the availability of bamboo in various regions, this technology provides an opportunity to build disaster-resilient and sustainable housings that are within reach for many communities.

Sustainable

Bamboo is a rapidly renewable resource, known for its quick growth and minimal environmental impact. As a result, bamboo is a carbon-negative material, absorbing more carbon dioxide from the atmosphere than it emits. By using bamboo as a primary building material, CBFT actively contributes to carbon sequestration, making it a greener and more sustainable alternative to conventional construction methods.

Cement-Bamboo Frame Technology as a building material changes the game in the construction industry, offering a myriad of benefits to both humans and the environment. By embracing this innovation we are closer to a better tomorrow, one house at a time. Learn more about cement-bamboo frame housing here at Base.

Base Bahay Foundation, Inc (BASE) is the pioneer of Cement-Bamboo Framework  in the Philippines. BASE builds affordable and disaster-resilient structures using bamboo-based technology. Through continuous research in the Base Innovation Center (BIC), BASE is optimizing the technology and looking for new applications outside its standard model. BASE also offers training courses under its Bamboo Academy program to share the alternative building technologies and provide further knowledge on bamboo construction. Learn more about BASE projects and initiatives!

Base Bahay Foundation Inc. brings in five bamboo experts from Virginia Tech, ETH Zurich, Hong Kong University of Science and Technology (HKUST), International Bamboo and Rattan Organization (INBAR), and De La Salle University in the upcoming second session of Bamboost: Upscaling Green Construction on September 15, 2023, at The Loft at Manansala, Makati City.

This year’s Bamboo Forum with the theme, “Building with Bamboo: The Future of Sustainable Construction,” will provide the participants with access to the latest research and innovations on bamboo construction, particularly on Bamboo Connections Performance, Life Cycle Assessment, and Design.

Get to know the speakers

HKUST will be represented by Dr. Ilias Dimitrakopoulos who is currently an Associate Professor in the Department of Civil and Environmental Engineering. He is a graduate of Master of Science in Civil Engineering from the Civil Engineering Department of the Polytechnic School at Aristotle University of Thessaloniki, Greece. In 2009, he completed his Doctor of Philosophy degree. His research works focus on bamboo structures, bamboo engineering, nonlinear structural dynamics, the seismic response of structures, and earthquake engineering.

BASE also invited Dr. Edwin Zea Escamilla, a Senior Assistant at the Chair for Sustainable Construction of ETH Zurich. His research centers on a comprehensive exploration of the sustainability and life cycle of construction materials and buildings. Dr. Escamilla studied Architecture in Colombia and obtained an MSc in Urban Environmental Management from Wageningen University in the Netherlands. Subsequently, in 2016, he successfully completed his doctoral degree, showcasing his commitment to academic advancement. 

One of this year’s roster of experts is Liu Kewei, who currently serves as the Coordinator for the Global Bamboo Construction Programme. Since 2008, she has been deeply engaged in advancing the utilization of bamboo construction on a global scale. She has overseen the successful execution of over 20 international bamboo construction projects and played an active role in establishing the INBAR Bamboo Construction Task Force. Kewei graduated from Beijing Jiaotong University with a master’s degree in Structural Engineering and is currently a Ph.D. candidate at the School of Civil Engineering at Tsinghua University.

Jonas Hauptman, Co-Founder of the VT BioDesign Research Group and currently an Associate Professor of Industrial Design at Virginia Tech in the United States will also be sharing his expertise in the forum. His research endeavors involve a wide array of materials, notably including recycled plastics and bamboo. He has won several prestigious awards including the 2004 University of Michigan’s Oberdick Fellowship, and a 2018 AIA Upjohn award. His work has also been featured in the media including Architect, Metropolis, Dwell, the New York Times, and others. His recent video “Building with Biology” was included in the 17th Venice Architecture Biennale. 

The De La Salle University will be represented by Dr. Lessandro Estelito Garciano. His involvement extends beyond the academic community, where he contributes as a member of the Wind Loads Committee of the National Structural Code of the Philippines (NSCP). Additionally, he currently serves as the Vice President of the Association of Structural Engineers of the Philippines (ASEP). His research interests involve various fields, including wind, earthquakes, flood hazard mapping, Bayesian updating methods, risk assessment, reliability theory, and the multi-hazard assessment of historical structures, hospitals, and schools.

BASE resident expert, Engr. Luis Lopez will also share how bamboo can be utilized to build disaster-resilient structures. Luis is responsible for overseeing the research, training, and practical application of BASE’s Cement-Bamboo Frame Technology in the Philippines. Currently, he is part of the ISO Committee TC 165 (Timber and bamboo structures) representing Colombia, where he worked keenly on the update of the ISO 22156 “Bamboo structural design” standard, published in June 2021. He is also the newly appointed Co-Chair for the National Structural Code of the Philippines (NSCP) 8th Edition, 2022 – Chapter 8 Bamboo Volume I. Luis graduated with a degree in Civil Engineering from Universidad Nacional de Colombia in 2000. 

Bamboost is free to all professional architects, civil engineers, students, researchers, developers, and bamboo enthusiasts. After successfully completing the program, licensed architects and civil engineers will earn CPD units. For more information about BASE, visit www.base-builds.com.

Amidst the global environmental challenges we face, prioritizing sustainability has become imperative. One notable solution gaining traction is the transition towards a circular economy. The circular economy represents a fundamental shift in the way we produce and consume goods, moving away from the traditional linear “take-make-dispose” approach. It promotes a model where resources are utilized for as long as possible, with their value maximized through practices such as recycling, reusing, repairing, and remanufacturing.

At its core, circular economy is based on three principles:

• Eliminate waste and pollution
• Circulate products and materials (at their highest value)
• Regenerate nature

Bamboo, with its remarkable properties and characteristics, presents significant opportunities to support the principles of a circular economy. Recognizing this potential, BASE, through extensive research, training, and value chain development, developed the Cement-Bamboo Frame Technology (CBFT). 

In this blog, we will delve into the role of bamboo in driving the circular economy, highlighting CBTF’s contributions to a more sustainable and efficient economic system.

Sustainable Material

As we have known, Cement-Bamboo Frame Technology utilizes bamboo, a renewable and fast-growing resource, as a primary construction material. Bamboo has a minimal environmental impact compared to traditional construction materials like wood or steel. By incorporating bamboo into the construction value chain, CBFT promotes the use of sustainable and regenerative materials, reducing the reliance on non-renewable resources and supporting the circular economy’s principle of resource efficiency.

Waste Reduction

CBFT minimizes waste generation throughout the construction process. Bamboo culms are utilized efficiently, leaving very little waste behind. Additionally, any byproducts or residues from bamboo processing can be repurposed or recycled, contributing to a closed-loop system. By reducing waste and maximizing resource utilization, CBFT aligns with the circular economy principle of eliminating waste.

Extended Lifespan

Buildings constructed using this innovative technology have demonstrated longevity and durability. Bamboo possesses impressive structural properties, including strength and flexibility. Structures built with CBFT can withstand various environmental conditions such as typhoons and earthquakes, reducing the need for frequent repairs or replacements. This extended lifespan contributes to resource conservation and the reduction of construction waste, supporting the circular economy’s goal of prolonging the useful life of products and materials.

Carbon Sequestration

Bamboo used in Cement-Bamboo Frame homes actively contributes to carbon sequestration. Bamboo plants absorb carbon dioxide from the atmosphere as they grow, acting as a carbon sink. By incorporating bamboo into the construction process, CBFT helps offset carbon emissions, by storing these into the Bamboo, thus mitigating the impacts of climate change. This carbon sequestration aspect aligns with the circular economy’s aim of regenerating nature and reducing greenhouse gas emissions.

Local Value Chain

Lastly, CBFT promotes local value chain development, creating employment opportunities and supporting local communities. BASE, through its comprehensive approach, ensures the active involvement of various stakeholders in the entire value chain, including bamboo farmers, treatment workers, and the local community. This localized approach not only drives economic growth but also facilitates knowledge transfer and skills development. 

Indeed, CBFT contributes to the establishment of an inclusive and sustainable circular economy, where resources are maximized, waste is minimized, and communities thrive. Learn more about how we can build a sustainable future with Base.

Base Bahay Foundation, Inc (BASE) is the pioneer of Cement-Bamboo Framework  in the Philippines. BASE builds affordable and disaster-resilient structures using bamboo-based technology. Through continuous research in the Base Innovation Center (BIC), BASE is optimizing the technology and looking for new applications outside its standard model. BASE also offers training courses under its Bamboo Academy program to share the alternative building technologies and provide further knowledge on bamboo construction. Learn more about BASE projects and initiatives!

Cement-Bamboo Frame Technology (CBFT) is revolutionizing the construction industry, providing affordable and sustainable housing solutions. This innovative construction method combines cement’s strength with bamboo’s natural resilience, showcasing bamboo as a viable and sustainable building material. 

The collaboration between cement and bamboo creates disaster-resilient, energy-efficient, and aesthetically pleasing structures. Whether it’s a single detached house, a two-story residence, or a special structure – Structures using CBFT offer versatility in design while ensuring safety and longevity. This innovative approach supports global efforts toward sustainable construction by reducing carbon emissions and promoting alternative building technologies.

Base Bahay Foundation, Inc (BASE) pioneered this technology in the Philippines by utilizing bamboo-based frameworks to create sustainable and resilient structures. Let’s delve into the world of Cement-Bamboo Frame Structures and explore how they offer numerous benefits for different types of construction, contributing to the attainment of sustainable development goals and mitigating negative environmental impacts.

Residential Structures

CBFT offers significant advantages for residential structures, promoting bamboo housing in the Philippines and sustainable construction practices. The incorporation of bamboo, which is a renewable material and abundant in the Philippines reduces costs, while its natural resilience enhances the durability and safety of these houses. Here are some of BASE’s residential structures using the Cement-Bamboo Frame Technology: 

1. Single-storey Houses

CBFT homes can be built in either single-detached, duplex, triplex, or row houses. Majority of the BASE socialized homes are single-storey houses commonly with a total floor area of 25 sqm. This type of house contains two (2) bedrooms, a dining and living room, a bathroom, and a kitchen extension. The design also varies depending on the needs of the community.

2. Two-Story Structures

BASE has been recently accredited by the Accreditation of Innovative Technologies for Housing (AITECH) committee to build up to two-storey structures. BASE’s first two-storey housing project is located in Jaro, IloIlo in partnership with Homeless People’s Federation of the Philippines (HPFP) in 2012. These houses can withstand wind zones up to 200 kph. Currently, BASE is building two-storey duplex housing in Panabo, Davao in partnership with AOF Foundation. These homes are composed of three (3) bedrooms, a bathroom, a living and dining room, and a kitchen extension.

Special Structures

The technology extends beyond residential buildings and offers tremendous benefits for special structures, integrating bamboo research and development. Bamboo-based technology allows for the construction of multipurpose buildings and livelihood facilities, supporting the goal of providing socially inclusive and environmentally friendly spaces.

1. Weaving Center:

In a remarkable expansion beyond housing initiatives, The Hilti Foundation, BASE, Holcim Philippines, Inc., and Kanya Kawayan co-develop the Kanya Kawayan Weaving Center in Nasugbu, Batangas. Spanning 148 square meters, this innovative hub serves as the production site for artisanal creations, showcasing the remarkable potential of bamboo while generating employment and alternative livelihood opportunities for women. With a commitment to sustainability, the Weaving Center stands as a beacon of empowerment, symbolizing the transformative power of partnerships in fostering economic growth, and environmental consciousness.

2. Children’s Home:

Happyland in Tondo, Manila, is renowned as one of the most impoverished areas in Metro Manila, housing a high concentration of vulnerable urban poor residents, including children in conflict with the law. In 2017, For People (4P), a humanitarian organization, envisioned a sustainable village to provide a home for these children. The collaboration between the Hilti Foundation, BASE, and 4P brought this vision into reality by buildingthe Rejoice Children’s Village in Nasugbu, Batangas. The village is comprised of four Children’s Homes or eight (8) units accommodating up to six children and two caretakers each, alongside a community center and housing units for other families in need, offering a nurturing and secure environment where these children can thrive, grow, and embrace a brighter future within a supportive community.

3. Multipurpose Building

This building located in Bagong Silangan, Quezon City is a product of the Engaged Beyond Business (EBB) Program of the Hilti Foundation wherein executive management team of Hilti A2 Region participated in the construction of this structure together with BASE and the Vincentian Foundation. This structure serves as a post-harvesting facility of the Planting for Productivity (P4P) project and is part of the Kawayan Housing community.

BASE aims to create sustainable solutions that not only address housing needs but also support economic growth and community development, fostering a more sustainable future. BASE leads the way in implementing this innovative technology in the Philippines, promoting sustainable and socially inclusive housing options.

Base Bahay Foundation, Inc (BASE) is the pioneer of Cement-Bamboo Framework  in the Philippines. BASE builds affordable and disaster-resilient structures using bamboo-based technology. Through continuous research in the Base Innovation Center (BIC), BASE is optimizing the technology and looking for new applications outside its standard model. BASE also offers training courses under its Bamboo Academy program to share the alternative building technologies, provide further knowledge about bamboo, and engage other institutions in sustainable construction. Learn more about BASE!

Sustainability has gained significant importance in recent years across various industries, including the construction sector. As the world grapples with climate change and growing concerns about environmental impact, the need for the construction industry to adopt sustainable practices has become more urgent than ever. One possible strategy to attain sustainability is through training and learning programs that provide professionals with the information and skills required for sustainable construction.

As part of BASE’s commitment to engage more institutions in sustainable practices, the organization provides training programs to workers, professional builders, students, researchers, and bamboo enthusiasts.

Continuing Professional Development (CPD) Program

BASEis an accredited CPD provider by the Professional Regulation Commission (PRC) since 2021.

Under its Bamboo Academy program, BASE resident experts equip professionals with knowledge and skills about the proper application of the Cement-Bamboo Frame Technology as well as an overview of the bamboo codes and standards. This program also provides free learning modules for architects, and civil engineers. The Foundation aims to lead in bamboo-based research and technology, driving its integration into mainstream construction.

Currently, BASE has conducted 10 CPD Programs attended by over 1,000 professional builders. Aside from in-person training programs, BASE also conducts online sessions to cater more builders.

As BASE continues to work with the Association of Structural Engineers of the Philippines (ASEP) on the inclusion of bamboo in the National Structural Code of the Philippines (NSCP), the organization is more eager to encourage other institutions and professionals on bamboo construction. Promoting sustainable construction through comprehensive training and learning programs is also crucial for the long-term viability of the construction industry.

Technical Skills Training to Workers

Prior to the start of any construction, BASE conducts technical skills training to workers and ensures the proper application of CBFT on every step of the process. This is to ensure the quality of structures being built.

BASE also provides TESDA accredited programs on Carpentry and Masonry. These accreditations can be used by every worker even after finishing the BASE project, which helps them to be engaged on more construction projects and eventually generate income for their family.

Beyond skills training, workers were also equipped with knowledge on using Hilti tools through representatives of the Hilti Philippines, which is one of BASE’s committed partners in all its construction projects.

Base Bahay Foundation, Inc (BASE) is the pioneer of Cement-Bamboo Framework in the Philippines. BASE builds affordable and disaster-resilient structures using bamboo-based technology. Through continuous research in the Base Innovation Center (BIC), BASE is optimizing the technology and looking for new applications outside its standard model. BASE also offers training courses under its Bamboo Academy program to share the alternative building technologies, provide further knowledge about bamboo, and engage other institutions in sustainable construction. Learn more about BASE!

Global warming and deforestation have become chronic issues that demand immediate action. As we find alternative solutions, bamboo emerges as a compelling solution that not only finds application in housing but also contributes to environmental conservation.

Bamboo is a prominent example of a sustainable material that is being used in eco-friendly construction. Its rapid growth is the source of its remarkable sustainability, making it readily available compared to other construction materials. The abundance of bamboo further reduces market prices, making it a cost-effective building material. In addition, if the bamboo is properly treated and protected from the sun and rain then these structures can have a lifespan of 30 to 50 years. This longevity, combined with bamboo’s innate strength, allows it to withstand natural disasters such as earthquakes and strong winds. This durability ensures stability and also minimizes resource consumption over time.

In this article, we will demonstrate keyways how bamboo can help the earth mitigate and adapt to the impacts of climate change that we have today.

Astounding Growth Rate

Certain species of bamboo can grow more than three feet per day. In addition, a distinguishing feature of bamboo is its ability to regenerate quickly after harvesting. When bamboo is harvested, new branches grow from the plant’s existing roots without the need for additional planting or cultivation.

Provide Livelihood Opportunities 

Bamboo provides diverse livelihood opportunities for communities especially on areas where it is abundant. Farmers and rural communities cultivate bamboo for commercial purposes, selling shoots, poles, and culms. Skilled artisans create exquisite bamboo handicrafts, while bamboo’s strength enables employment in construction for building houses and structures. The textile industry benefits from bamboo fibers as well, producing sustainable clothing and bedding. Bamboo farming generate income through propagation and sales. Bamboo’s versatility sustains livelihoods by providing income generation and employment across various sectors.

Sustainable Resource 

The UN FAO’s estimation of an annual deforestation rate of 10 million hectares highlights the alarming reality of forests being cut down for various purposes. This emphasizes the urgent need to explore alternatives to conventional building materials. Bamboo, with its properties, serves as an ideal alternative. Opting for bamboo instead of traditional materials can alleviate the pressure on our forests and safeguard the diverse ecosystems they sustain.

One organization at the forefront of promoting the sustainable use of bamboo in construction is BASE. Their pioneering technology, known as Cement Bamboo Frame Technology, is a prime example of their commitment. Through this innovative approach, they have developed homes and special structures that are designed to be resilient in the face of various climatic challenges.

Base Bahay Foundation, Inc (BASE) is the pioneer of Cement-Bamboo Framework in the Philippines. BASE builds affordable and disaster-resilient structures using bamboo-based technology. Through continuous research in the Base Innovation Center (BIC), BASE is optimizing the technology and looking for new applications outside its standard model. BASE also offers training courses under its Bamboo Academy program to share the alternative building technologies, provide further knowledge about bamboo, and engage other institutions in sustainable construction. Learn more about BASE!