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ARCH 330- Materials/Methods. The course will cover the systems associated with construction materials methods and sequencing primarily in building construction principals. Direct Project Objectives (Eyes of Client in most cases). Time (Schedule) Money Performance
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ARCH 330- Materials/Methods The course will cover the systems associated with construction materials methods and sequencing primarily in building construction principals.
Direct Project Objectives(Eyes of Client in most cases) • Time (Schedule) • Money • Performance • Scope (What are we providing?) • Value (Short term and long term) Client Satisfaction (Designer & Contractor) • Can you have all of the above but still have an unsatisfied client?
Designer’s Role • Designer’s responsibility to provide value regarding: • Client Expectations (Aesthetics) • Form, Fit, Function • Performance • Efficiency • Sustainable (In recent years an academic and public discourse has led to the use of the word sustainability in reference to how long human ecological systems can be expected to be usefully productive.)
Programming Information • Function • People • Activities • Relationships • Form • Site • Environment • Performance Level • Economy • Initial Budget • Operating Costs • Life Cycle Costs • Time • Past • Present • Future Construction Specifications Institute (CSI) Program Information Index
The stage by stage progression following the life cycle of a facility in divided into the stages shown: • Project Conception • Project Delivery • Design • Construction Documents • Bidding/Negotiating/Procurement • Construction • Startup & Commissioning (Added by Professor Cherf) • Facility Management As shown in the “Project Resources Manual of the Construction Specifications Institute (CSI)”
Project Conception/Program Development Project Identification Feasibility Studies Facility Investigation and Development Site Selection Project Planning Project Delivery is the process by which all of the procedures and components of designing and building a project are organized and put together in an agreement that results in a completed project. Project Lifecycle
Design Schematic Design (SD)/Project Definition Design Development (DD)/Detail Engineering The American Institute of Architects (AIA) defines design as occurring in three distinct phases: schematic design, design development and construction documents. Construction Documents This is based on the owner-approved design development documents and any final adjustments to the project or project budget. This will be the documents used to build the project. These will include: Construction Agreements (contracts) Project Manual Project Specifications Drawings
Bidding/ Negotiating/ Procurement– (Procure means to buy or obtain.) It is the process or activities required to obtain labor, equipment and materials by a vendor/subcontractor selection process through delivery of all materials and services to the jobsite. Construction A Program A Project Management Resources Materials Methods Sequencing
7. Startup & Commissioning A thorough understanding of all start up and commissioning requirements by the owner will allow for a better turnover of the project. Identifying and working closely with the owner, a start-up and commissioning plan, will reduce problems encountered at the end of the project to assure the facility is placed properly in service. This includes operations and maintenance procedures. This is the key to proper facility management at the beginning of the occupancy.
Project Life Cyclefor Building Materials • Raw Materials • Manufacture, packaging and distribution • The construction process • Building use • Reuse, recycling or disposal
Performance Specifications Form, Fit and Function Design, Build and it better function.
Design Responsibility MATERIAL SYSTEM ****************************************************** METHOD SEQUENCE
The Role of the Architect “The Architect is not expected to practice engineering, to design in detail the structure of buildings he or she designs. Architects rely on structural engineers and other consultants for the specific design of all load bearing components of buildings. But the architect must know the fundamentals, be able to guide and understand the engineer’s work, and contribute directly to the decision making which determines the look, quality, and cost of a structural system.”
Materials and Methods of Construction “Beyond structural systems architects must know the implications of using the primary structural materials: wood, steel and concrete. Each material has unique characteristics, both structurally and aesthetically, and the architect must choose materials and systems thoughtfully and knowledgeably. Strength, durability, workability, weight, resistance to heat and weather, and cost are among the properties considered.” Architect? A Candid Guide to the Profession Roger K. Lewis
Materials and Methods of Construction “The designer is concerned with the control of moisture, heat loss and gain, dimensional stability, durability, availability of labor and materials, cost and last but not least, appearance. The architect must show in design drawings how pieces fit together, how joints and connections are made, and what the dimension of all assembled components will be. Typical details depict roof, wall, and floor assemblies, window and door assemblies, railings, stairs, cabinetry and decorative finishing elements.’ Lewis
The Need for Integrated Design “To improve overall performance, the team needs to optimize the functioning of the whole building as a system. Integrated design means capturing the benefits of multiple systems designed to work effectively together rather than separately.” The HOK Guidebook to Sustainable Design
MasterFormat Material Selection • Building Design • Industry Standards • Codes • Barrier-Free Design • Sustainable Building Design