Course Objectives: |
The student who takes this course recognizes the performance and composition of various structural systems and materials such as steel, reinforced concrete, masonry and wooden structures, and classifies structural design principles and systems with basic information. Besides, by defining the sub-systems that make up the building (bearing structure, walls, floors, roof, stairs), they can express the basic knowledge that will help in interior design studies. |
Course Content: |
The content of this course, structure and components; structure and its purpose, loads; dead loads, live loads, static, dynamic and different temperature and settlements, properties of structural systems and materials; from the behavior of materials under loads; pressure, tensile, shear, torsion, bending, stress and strain relations, elasticity, plasticity, safety factors, wood; structure of wood, wooden frame systems, finishing elements in wooden systems, laminated wood, cross laminated wood, wood composites, masonry structures; brick masonry structures, stone and concrete masonry structures, masonry load-bearing walls, steel structures; steel columns, steel beams, reinforced concrete structures; reinforced concrete columns, reinforced concrete beams, windows and doors, stairs, endings; ceiling, floor systems, wall systems, carpentry works, sustainable architecture issues. |
Course Learning Outcomes (CLOs) are those describing the knowledge, skills and competencies that students are expected to achieve upon successful completion of the course. In this context, Course Learning Outcomes defined for this course unit are as follows:
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Knowledge
(Described as Theoritical and/or Factual Knowledge.)
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1) Recognizes the structure and material properties of the building and associates it with the interior.
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Skills
(Describe as Cognitive and/or Practical Skills.)
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1) Solves the complex problems encountered and unforeseen in applications.
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2) Explains the problems occurring in structure-related issues using supporting data.
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3) Develops projects with sustainable design awareness.
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Competences
(Described as "Ability of the learner to apply knowledge and skills autonomously with responsibility", "Learning to learn"," Communication and social" and "Field specific" competences.)
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1) Explains the problems and their solutions in building related issues by using data.
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2) Explains the problems and solutions occurring in building related issues by using data.
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3) By following the technological developments related to the building, it shows personal and social development with the awareness of lifelong learning.
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Week |
Subject |
Materials Sharing * |
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Related Preparation |
Further Study |
1) |
Introduction, function and structure, the purpose of structure, selection of materials, standarts.
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2) |
Loads, static loads, dead loads, live loads, thermal and settlement loads, dynamic loads, behavior of materials under loads, tension and compression, stress and strain, elasticity, plasticity.
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3) |
Materials; wood, properties of wood, heavy timber frame construction, light frame timber construction. |
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4) |
Glued laminated timber, cross laminated timber, laminated veneer lumber and panel composites. |
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5) |
Masonry, brick masonry, stone and concrete masonry, masonry loadbearing wall construction. |
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6) |
Steel frame construction |
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7) |
Concrete constructions, sitecast and precast concrete framing systems. |
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8) |
Midterm |
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9) |
Windows and doors. |
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10) |
Stairs. Homework presentations 1. |
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11) |
Finishes; ceiling, wall systems. Homework presantations 2. |
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12) |
Finishes; finish carpentry, finish flooring. Homework presantations 3. |
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13) |
The building examples and analysis with structural materials. Homework presantations 4. |
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14) |
The importance of materials for sustainable architecture |
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Course Notes / Textbooks: |
1- Allen, E. 1999. Fundamentals of Building Construction Materials and Methods, John Wiley&Sons Inc., U.S.A.
2- Erdoğan, S., T., Erdoğan, T., Y. 2014. Basic Materials of Construction, METU Press, Anklara.
3- Eriç, M. 1994. Yapı Fiziği ve Malzemesi, Literatür Yayınları, Istanbul.
4- Lancashire, R., Taylor, L. 2011. Timber Frame Construction;Designing for High Performance, Trada Technology, Cambridgeshire.
5- Mcmorrough, J. 2006. Materials, Structures, Standards: All the Details Architects Need to Know But Can Never Find, Beverly, Massachusetts.
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References: |
6- Rosen, H., J., Heineman, T. 2000. Architectural Materials for Construction, McGraw-Hill, Newyork.
7- Salvadori, M. 1990. Why Buildings Stand Up: The Strength of Architecture, W.W. Norton&Company, U.S.A.
8- Salvadori, M., Heller, R. 1963. Structure in Architecture, Prentice Hall International Series in Architecture, U.S.A.
9- Salvadori, M., Heller R. 1982. Mimarlıkta Taşıyıcı Sistem, I.T.U. Faculty of Architecture, Istanbul.
10- Toydemir, N., Gürdal, E., Tanaçan L. 2000. Yapı Elemanı Tasarımında Malzeme, Literatür Yayınevi, Istanbul.
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(KPLOs and SPLOs are the abbreviations for Key & Sub- Programme Learning Outcomes, respectively. )
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Programme Learning Outcomes |
Contribution Level (from 1 to 5) |
1) |
Explains the basic, theoretical and practical knowledge about Interior Architecture and Environmental Design. |
5 |
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1.1 To have knowledge about national and international laws, regulations and universal design principles. |
5 |
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1.2 Explain the historical development of architecture. |
5 |
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1.3 Summarizes all development processes of design. |
3 |
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1.4 Summarizes all the development processes of furniture history. |
3 |
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1.5 Defines the historical development process of art. |
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2) |
Can reveal original and innovative designs. |
4 |
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2.1 Transfers the bill or idea in her/his mind to paper |
4 |
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2.2 Defines and applies design principles and elements. |
3 |
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2.3 Manages the space planning process in the light of technical knowledge in the field of design. |
3 |
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2.4 Apply the acquired theoretical knowledge in design techniques. |
3 |
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2.5 Designs the furniture and its combination details and manages the furniture production process. |
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2.6 Designs by considering the anatomical, anthropometric features, psychological, physical capacity and tolerances of the user. |
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3) |
Use the drawing programs required by the profession. |
4 |
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3.1 Be able to use Autocad program effectively in technical drawing language. |
4 |
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3.2 He/she capable of using 3Ds Max program as presentation technique in modeling. |
4 |
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3.3 Can use the necessary presentation programs actively when transferring information to the relevant people. |
4 |
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4) |
Apply the theoretical knowledge learned in business life for one semester |
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4.1 To be able to organize and implement projects and activities for the social environment in which they live with a sense of social responsibility. |
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4.2 Transfers the professional knowledge to individuals and institutions orally and in writing. |
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4.3 To be able to manage activities for the development of employees working under their responsibility. |
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4.4 Explain problems using professional data. |
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4.5 Solves the complex problems encountered and unforeseen in applications. |
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5) |
S/he acquires the competencies that develop by the expectations of business world and the society defined as the institutional outcomes of our university on the advanced level in relation with his/her field. |
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5.1 Acquires the analyzing solving the problems and managing the conflicts. |
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5.2 Participates as a team member and takes responsibility in the environments that require the solving of the conflicts and acts as a leader when necessary. |
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5.3 Has awareness for ethical and social responsivity. |
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5.4 By supporting the learnt courses with quantitative and qualitative data; and by using verbal and visual communication means, s/he transfers them to the groups within and outside his/her group in a systematical and effective way. |
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5.5 Evaluates the norms and standards present in the works in which s/he takes responsibility in a critical point of view. |
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5.6 Develops strategical, innovative and entrepreneurial ideas. |
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5.7 Acquires competence of managing the change. |
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5.8 Shows development personally and socially with and awareness for lifelong learning. |
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5.9 Follows advanced technologies and developments about digital transformation. |
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5.10 Has cultural awareness and s/he transfers this to the groups within and outside his/her field. |
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5.11 Has awareness about citizenship competency. |
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5.12 Acquires communication in a Foreign Language (English) competence defined on the level of at least B1 in European Language Portfolio. (In programs whose medium of instruction is English, on the level of B2/B2+). |
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WORKLOAD OF TEACHING & LEARNING ACTIVITIES |
Teaching & Learning Activities |
# of Activities per semester |
Duration (hour) |
Total Workload |
Course |
14 |
4 |
56 |
Laboratory |
0 |
0 |
0 |
Application |
0 |
0 |
0 |
Special Course Internship (Work Placement) |
0 |
0 |
0 |
Field Work |
0 |
0 |
0 |
Study Hours Out of Class |
0 |
0 |
0 |
Presentations / Seminar |
0 |
0 |
0 |
Project |
0 |
0 |
0 |
Homework Assignments |
1 |
10 |
10 |
Total Workload of Teaching & Learning Activities |
- |
- |
66 |
WORKLOAD OF ASSESMENT & EVALUATION ACTIVITIES |
Assesment & Evaluation Activities |
# of Activities per semester |
Duration (hour) |
Total Workload |
Quizzes |
0 |
0 |
0 |
Midterms |
1 |
10 |
10 |
Semester Final Exam |
1 |
20 |
20 |
Total Workload of Assesment & Evaluation Activities |
- |
- |
30 |
TOTAL WORKLOAD (Teaching & Learning + Assesment & Evaluation Activities) |
96 |
ECTS CREDITS OF THE COURSE (Total Workload/25.5 h) |
4 |