The aim of the Building Science Courses is to have students develop their understanding of building system, acquire skill in system selection and set up. The aim of the content of Building Science I is having basic information needed during architectural design studio.
Content of the course is analyzing building system and installation systems (plumbing-illumination-communication-heating-ventilation etc.), having the student information about the other sub systems affected to give form to building system during / at the end of architectural design studio will be achieved. The student will have information about the sub systems forming building and functional elements forming subsystems. Historical development of structural systems keeping building standing, principles of structural system; elements of structural system (foundation, column, arch, wall, curtain, beam, advanced structure system technologies, shell structures, cable structures, air supported structures e.t.c) are the basic subjects of this course.
Prerequisite(s)
-
Corequisite(s)
-
Special Requisite(s)
%80 attendance is mandatory.
Instructor(s)
Professor Esin KASAPOĞLU
Course Assistant(s)
Res.Assist. Elif Çileli Umuç
Schedule
Monday, 13.00-16.45, MTS II.
Office Hour(s)
Make an appointment in advance.
Teaching Methods and Techniques
Lecture with extensive use of illustrations Studio work; drawings + model (the course will be conducted in a discussion format with the students, as well)
Principle Sources
Books
Allen, E., Iano, J., “Fundamentals of Building Construction, Materials and Methods”, John Wiley and Sons, 1990.
Blanc, A., “Internal Components”, Mitchell’s Building Series, Longman, 1994.
Ching, F. D. K., “Building Construction Illustrated”, Van Nostrand Reinhold, 1991.
Chudley, R., “Construction Technology I, II, III, IV”, Longman Ltd., 1999.
Foster, J. S., Raymond Harrington, R., “Structure and Fabric, Part 2”, Mitchell’s Building Series, Longman, 1996.
Foster, J. S., “Structure and Fabric, Part 1”, Mitchell’s Building Series, Longman, 1996.
Millais, M., “Building Structures”, E&FN Spon, 1997.
Olin, H., Schmitt, J.L., Lewis, W. “Construction, Principles, Materials, and Methods, Van Nostrand Reinhold, 1995.
Osborn D., “Introduction to Building”, Batsford Limited, 1985.
Reid, E., “Understanding Buildings - A Multidisciplinary Approach”, Construction Press, 1984.
Smith, J., “Materials of Construction”, Mc Graw Hill, 1988.
Binan, M., “Ahşap Çatılar”, Birsen Yayınevi, 1990.
Binan, M., “Ahşap Kapılar”, Yapı Endüstri Merkezi Yayınları, 1995.
Binan, M., “Doğramalar, Ahşap Pencere”, Kipaş, 1985.
Binan, M., “Yapı Elemanları, Çizimler ve Açıklamalar”, İTÜ Vakfı, 1986.
Erol, A.İ., “Yapılarda Taşıyıcı Sistem” , Zonguldak Karaelmas Üniversitesi, 1997
Salvadori, M., Heller, R., “Mimarlıkta Taşıyıcı Sistemler”, İTÜ Mimarlık F., 1982.
Sarı, A., “ Merdivenler, Düşey Sirkülasyon Araçları”, Yapı Endüstri Merkezi, 1998.
Toydemir, N., “Yapı Elemanı Tasarımında Malzeme”, Literatür, 2000.
Türkçü, Ç., “Yapım”, Mimarlar Odası İzmir Şubesi Yayınları, 1997.
Yücesoy, L., “Temeller, Duvarlar, Döşemeler”, Yapı Endüstri Merkezi Yayınları, 1998.
Journal
DETAIL
Institut für internationale Architektur Dokumentation GmbH, München.
Catalog
Yapı Kataloğu
Yapı Endüstri Merkezi Yayın Bölümü, İstanbul.
Yapı Malzemeleri Kataloğu
TMMOB Mimarlar Odası İstanbul Büyükkent Şubesi, İstanbul.
Web-sites
www.insaat-yapi.gen.tr
www.yapitr.com
www.yapirehberi.net
www.yem.net
Other Sources
Course Schedules
Week
Contents
Learning Methods
1. Week
Introduction + accreditation, Basic Terms: Building, Construction and Architecture Terms. Defining elements of building Classification and codification systems of sources of information.
Theory
2. Week
User-building-environment Interaction: Outdoor Conditions: (Soil Mechanics; topography; plant materials; solar radiation; passive solar design; daylighting; precipitation and site drainage; wind; sound and views; application rules) Performance requirements of the buildings
Theory
3. Week
Functional Building Elements: Foundation, Wall, Floor, Stair, Roof
Theory + Studio Work
4. Week
Functional Building Elements: Foundation, Wall, Floor, Stair, Roof. Studio work: Building System Analysis: Site Plan / İKU
Theory + Studio Work
5. Week
Structural Systems (Historical Development of Structural Systems) / Loadbearing Systems
Theory
6. Week
Loadbearing Systems/ Studio Work: Loadbearing Systems (model)
Theory + Studio Work
7. Week
Loadbearing Systems/ Studio Work: Loadbearing Systems (plan/section)
Theory + Studio Work
8. Week
Frame Systems
Theory
9. Week
Frame Systems
Theory
10. Week
Midterm Exam
Exam
11. Week
Studio Work: Reinforced Concrete Frame Systems (plan/section)
Critical Thinking: Ability to inquire, use abstract ideas to interpret information, consider diverse points of view, reach well-reasoned conclusions.
PO-2
Communication: Ability to use appropriate representational media to transmit essential formal elements at design process.
PO-3
Investigation: Ability to gather, record, apply, and comparatively evaluate relevant information within design processes.
PO-4
Design: Ability to reproduce the design information in the creative thinking process, to reach new and original results through universal design principles such as sustainability and accessibility.
PO-5
World Architecture: Understanding world architecture in terms of their historical, geographical and global factors.
PO-6
Local Architecture / Cultural Diversity: Understanding the architectural formations and samples of a geography through its historical and cultural context. Understanding the divergent canons of cultural values, behavioral, social and spatial patterns.
PO-7
Cultural Heritage and Conservation: Understanding of conservation discourses and methods, and the subjects of cultural heritage, conservation awareness, environmental concerns and ethical responsibility.
PO-8
Sustainability: Ability to design projects by using the information regarding the natural and built environment to reduce the undesirable environmental impacts on future generations through means.
PO-9
Social Responsibility: Understanding of the architect’s responsibility about protecting the commonweal, having respect for historical/cultural and natural resources and improving the life quality.
PO-10
Nature and Human: Understanding of the relationship between human, the natural environment and the design of the built environment.
PO-11
Geographical Conditions: Understanding the relationships of site selection, settlement and building design by considering the cultural, economical and social properties as well as the natural characteristics such as soil, topography, vegetation and watershed.
PO-12
Life Safety: Understanding the basic principles of security and life-safety systems in the conditions of natural disasters, fire, etc. through building and environment scales.
PO-13
Structural Systems: Understanding of the basic principles of structural behavior in withstanding gravity and lateral forces and the evolution, range, and appropriate application of contemporary structural systems.
PO-14
Environmental Systems: Understanding the principles of physical environmental systems’ design such as lighting, acoustics, climatization and the use of appropriate performance assessment tools.
PO-15
Building Envelope Systems: Understanding of the basic principles involved in the appropriate application of building envelope systems and associated assemblies.
PO-16
Building Service Systems: Understanding of the basic design principles of building service systems such as plumbing, electrical, vertical transportation, security, and fire protection systems.
PO-17
Building Materials and Assemblies: Understanding of the basic principles utilized in the appropriate selection of construction materials, products, components and assemblies, based on their inherent characteristics and performance, including their environmental impact and reuse.
PO-18
Integration of Building Service Systems: The ability of assessing, selecting and integrating the structural, environmental, security, envelope and service systems of the buildings for building design.
PO-19
Programming and Evaluation: Ability to prepare and evaluate an architectural project program by considering the public benefits in regards of client and user needs, appropriate examplers, space and equipment requirements, financial limitations, site conditions, relevant codes, laws and design principles.
PO-20
Comprehensive Project Development: Ability to produce a comprehensive architectural project that demonstrates to make design decisions across various scales.
PO-21
Considering Building Costs: Understanding the fundamentals of building construction and use costs.
PO-22
Architect-Client Relationship: Understanding of the responsibility of the architect to elicit, understand, and reconcile the needs of the client, owner, user groups, and the public and community domains.
PO-23
Collaboration: Ability to work in collaboration with others and in multidisciplinary teams to successfully complete design projects.
PO-24
Project Management: Understanding of the methods for competing for commissions, selecting consultants and assembling teams, and recommending project delivery methods.
PO-25
Practice Management: Understanding the basic principles in the architectural practice processes like financial management, business planning, quality management, risk management, discussion and reconciliation.
PO-26
Leadership: Understanding of the techniques and skills architects use to work collaboratively in the building design and construction process and on environmental, social, and aesthetic issues in their communities.
PO-27
Legal Rights and Responsibilities: Understanding of the architect’s responsibility to the public and the client as determined by regulations and legal considerations involving the practice of architecture.
PO-28
Professional Practice: Understanding and fulfillment of employer and intern rights and responsibilities for development of profession.
PO-29
Ethics of Profession: Understanding of the ethical issues involved in profession regarding social, political and cultural issues in architectural design and practice.
Learning Outcomes
LO-1
Having knowledge about the relationship between building-environment-user and performance requirements of buildings.
LO-2
Ability to understand and analyze the building system and sub-systems.
LO-3
Having knowledge about principles of structural systems and ability to use this information.
LO-4
Having knowledge about principles of advanced structural systems.
LO-5
Having knowledge about concept and terms related to the profession.