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Autodesk revit 2018 architecture fundamentals free - |
Autodesk revit 2018 architecture fundamentals free. What is Revit?
Autodesk revit 2018 architecture fundamentals free -
Topics include: basic terminology, physical and chemical properties, the manufacturing processes of various materials and how this affects their implementation in the construction project, and introduces issues of sustainable construction. Also includes terminology used to describe building envelope materials, assemblies, and performance, properties of air and water vapour, characteristics of indoor and outdoor environments, exterior claddings, roofing and waterproofing, rain wetting and moisture penetration, need for flexible joints with sealants which prevent leakage when bonded to various common envelope substrates, windows and glazing.
The course will be presented as a combination of classroom material and practical labs involving samples and models of building envelope materials and assemblies. This course is a basic introduction to the fundamental concepts of engineering economics related specifically to the building industry. It covers various financial topics such as interest rates, the time value of money, financial decision-making, and capital budgeting. The course also presents the concept of life-cycle cost analysis and the basic principles of market supply-and-demand.
This course covers interior and exterior construction detailing. It is an introduction to post and beam construction. Lectures include a brief examination of reinforced concrete structures used in low-rise construction. Lab assignments include partial preparation of working drawings for roof framing and foundations using plans, sections and construction details.
Covers general theories of measurement and pricing of construction work, emphasising sound estimating procedures and accuracy. Introduces recognition of work, specific methods of measurement, estimating forms, and common techniques used for quantity take-off with a focus on concrete foundation related work, earthwork, masonry, above-grade concrete, wood frame, and structural steel work items.
Continuation of BLDG This course focuses on the tasks associated with the production of architectural construction drawings. Using AutoCAD, and expanding on the skills learned in BLDG , students will gain more hands-on experience with how projects are organised and produced in a professional environment.
Topics include blocks, xrefs, paperspace, annotative scale, and more complex editing functions. Proper management and procedures for drawing set-up, information management, and techniques will be emphasised to allow students to perform at a competent entry-level CAD draftsperson. This course presents the elementary principles of mechanics of materials and an introduction to wood design. The course is delivered through lectures and problem-solving sessions.
Topics include concepts of axial stress and strain, section properties of structural shapes, bending and shear stresses in beams, deflection of beams, column buckling, BC Building Code gravity and wind loads, limit states design philosophy, and preliminary sizing of wood bending members, columns, and beam-columns using the Canadian Wood Council Wood Design Manual.
Students also participate in a team-oriented, hands-on, design-build project which involves a preliminary structural design and construction of a small wood-frame structure. Formerly CIVL COMM continues to develop the skills required for effective communication in other courses of the program, and in the workplace. Students learn different types of short reports based on industry-related case studies.
Descriptive statistics, including measures of central tendency and dispersion, and graphical presentation of data. Basic probability techniques, binomial and normal probability distributions. Inferential statistics, including large and small sample estimation and hypothesis testing with an introduction to experimental design, linear correlation and regression, and acceptance sampling in an applied setting.
Prerequisite s : Program admission. This course is designed to meet the specific needs of Architectural and Building Engineering Technology. Major topic areas include thermal physics temperature, thermal expansion, specific heat, latent heat, heat transfer methods , electricity electrostatics, DC circuits, introduction to AC , and illumination nature of light, human eye sensitivity, luminous flux and intensity, illuminance and luminance.
Emphasis is placed on good problem-solving techniques and practical applications. There is also a lab component that emphasizes proper measurement and data analysis techniques, technical report writing, and use of computer data analysis software. Structural systems covered may include steel, concrete, precast and tilt-up concrete and heavy timber.
The course will also expand on the application of envelope components such as wall assemblies, roofing and windows and also touch on interior interior partitions and ceilings.
To reinforce the above we will apply particular graphics, technical and procedural methods in the development of working drawings in the context of construction contract documents.
Guest lecturers and field trips may supplement formal lecture and lab activities. The CCDC2 is discussed in detail with regard to the rights and responsibilities of those involved, risk allocation, construction insurance and bonds, and administrative procedures relating to payment, changes in the work, claims, disputes and dispute resolution. The information provided will benefit everyone involved in construction regardless of their perspective, and is essential for any career related to construction contracting.
Prerequisite s : COMM This course is a continuation of the study of building construction estimating and the manual preparation of the contractor-oriented bid. It covers bidding procedures; measurement, pricing, and preparation of an estimate summary for specific items of work; requests for subcontractor quotations and subcontractor bid analysis; a simulated bid closing, and submission of a bid.
The course also identifies the role of construction cost accounting in the construction estimating process. Microsoft Excel will be demonstrated and applied to various applications related to construction administration, estimating and management, featuring formatting, use of formulas, logical functions, financial functions, charting and database management. The course also introduces budget estimating techniques and elemental analysis for buildings. This course covers the basics of Autodesk Revit in an architectural environment, from design through construction documentation.
Students will be introduced to the tools and concepts of working with a fully parametric building modeler. This course presents a general survey of codes and regulations affecting the design and construction of buildings. It focuses on the British Columbia Building Code, latest edition, with particular reference to Part 3: Fire Protection, Occupant Safety and Accessibility, and the control of fire hazards.
Lab exercises provide students with an opportunity to practice code applications for a variety of building conditions. Introduces the factors and concerns influencing indoor comfort and heat transfer in buildings, properties of air and air conditioning processes.
Application of these principles will be applied to preparing load estimates for a small building of a non-specialized nature. Includes review of mechanical systems with descriptions of function and operation of components. This course introduces students to the theory of architecture and principles of architectural design through a series of lectures and practical design problems. The lecture component introduces topics where the historical, cultural, technical, and economic roots of contemporary architecture are explored.
The lab periods comprise a series of design studios where architectural problems are explored. Projects increase in complexity from the three-dimensional arrangement of space needed to encompass a specific human activity to the comprehensive design of small buildings, and incorporate functional and behavioural requirements, siting and contextual considerations, structure, construction, environmental controls, and codes and regulations.
Students discover their own potential by exploring the issues raised by design problems and by searching for solutions, They learn to develop, explain, and defend their work in situations varying from individual tutorials and group seminars to discussions and critiques involving the entire class. Students develop an awareness, sensitivity, perception and appreciation of architecture and its influence and role in our lives.
Prerequisite s : Completion of first-year program. This course covers economic factors affecting development and construction, principles of land development, valuation techniques for real property, cost planning and control, cash flow analysis, and feasibility analysis of land development. Presents principles of building science with applications in envelope design and diagnostics. In this first of two courses in a progression, students study the primary energy and mass transfer processes relevant to building envelope performance.
The course is delivered through lectures, problem-solving sessions, assignments, and an on-campus field trip. Topics include weather and climate; characteristics of indoor environments; measurement methods; vapour diffusion and condensation; thermal radiation; heat conduction and convection; expansion and contraction; wind- and buoyancy-induced air pressure differentials; orifice flow and air leakage; and rain wetting and moisture penetration.
Demonstrates elementary structural design concepts for steel and concrete structures, and the use of tables, handbooks, manuals and estimating techniques for preliminary sizing of members.
Topics include fundamental properties of steel and concrete materials, steel and concrete structural components, and the use of design aids. Earthquake engineering, pre-stressed and post-tensioned and tilt-up concrete construction will be introduced.
This course gives students hands-on industry experience with an industry related firm. Students will observe and participate in regular activities at an industry sponsor's place of business. Students will conduct prior research of their assigned firm. There is an emphasis on particular technical and procedural concerns in the development of working drawings in the context of construction contract documents. Formerly known as BLDG This course is an introduction to construction specifications and the role they play in the building design and construction industry.
As an essential component of the contract documents, the specifications must be clearly and accurately written in order to be effective and enforceable. Principles and procedures of specification writing are covered, as well as practical applications in locating, retrieving and interpreting technical information found in the specifications.
General topics include the relationship of specifications to other contract documents, specification organization and format, language and style, specifying techniques, and product research and evaluation. This course provides students with an understanding of the fundamental concepts for planning and scheduling a construction project. Applying the Critical Path Method, and with the aid of the Microsoft Project software application, students assemble task lists, establish dependencies, assign resources, and conduct related analyses to build a project construction schedule.
Course activities include tracking and managing a simulated project. The course is delivered as a 3-hour computer lab session which meets once per week. This course continues to develop the skills required for effective communication in other courses of the Architectural and Building Technology program, and in the workplace.
This course will support both the elective course and practicum course. The focus of this course is on the basic components of electrical and lighting systems used in buildings. This course builds on concepts learned in the applied physics course and gives students the required background to understand electrical and lighting designs in residential and commercial buildings.
Topics include electrical circuits, electrical drawings, specifications, the Canadian Electrical Code, industry practices, single-phase power, three-phase systems, proper wiring techniques, lighting fundamentals and terminology, light sources, illumination requirements and interior lighting design calculations.
Prerequisite s : PHYS Encompasses a study of principles and practices of plumbing systems with a strong emphasis on achieving an acceptable level of proficiency in understanding components, materials and design layout as applied to potable water, storm and sanitary systems in buildings.
This course continues with the introduction to the theory of architecture and principles of architectural design begun in BLDG Lab projects explore more complex building and site design issues, including building systems interface with architectural solutions. Students continue the development of their drawing, architectural rendering and model-making skills and participate in a short industry-based practicum. Other activities may include field trips or guest lecturers.
This course is intended for students taking the Architectural Elective. It covers 3D CAD applications and presentation tools to perform tasks associated with 3D modelling and architectural presentation. The course explores AutoCAD and 3D Studio Max and their uses in the production of digital presentations and computer aided visualization. The course provides students with hands-on experience using the technology tools and techniques to stay current with emerging methods of practice.
This course is a continuation of BLDG Its primary focus is to present project management techniques currently used in the construction industry. Lecture topics introduce the fundamentals of various management procedures used by contractors.
Labs are structured to demonstrate the practical application of the lecture material. In addition to the regular lab assignments, there are two major term projects. The first project involves the application of land development issues presented in BLDG by requiring the students to identify a site, and then prepare a written analysis and audiovisual presentation of the development potential for the site.
The second term project requires the students to participate in a national bid competition. It builds on the concepts of construction measurement and quantity take-off covered in the previous estimating courses and introduces Sage Timberline Office Estimating Software as a tool for preparing construction estimates.
Topics include: various take-off procedures, building new databases by creating database elements, designing simple and smart assemblies, and using some built-in software features. Through a series of hands-on exercises, students learn to create a database, use it to prepare an estimate, and create and print various estimating reports.
Building on BLDG , this second course in the progression presents an overview of the design of durable, healthy, and sustainable built enclosures. Based on the applications of fundamental principles, the content is delivered through lectures, problems-solving sessions, and lab sessions. Topics include building envelope assemblies and details, boundary conditions for building envelope analysis, diagnostic techniques, passive solar design and energy performance, and introduction to building integrated energy systems.
Major activities include a design assignment and a research project. GenerativeComponents, parametric CAD software developed by Bentley Systems, [9] was first introduced in , became increasingly used in practice especially by the London architectural community by early , and was commercially released in November GenerativeComponents has a strong traditional base of users in academia and at technologically advanced design firms.
GC epitomizes the quest to bring parametric modeling capabilities of 3D solid modeling into architectural design, seeking to provide greater fluidity and fluency than mechanical 3D solid modeling.
Users can interact with the software by either dynamically modeling and directly manipulating geometry, or by applying rules and capturing relationships among model elements, or by defining complex forms and systems through concisely expressed algorithms. The software can also integrate with Building Information Modeling systems. The software has a published API and uses a simple scripting language, both allowing the integration with many different software tools, and the creation of custom programs by users.
This software is primarily used by architects and engineers in the design of buildings, but has also been used to model natural and biological structures and mathematical systems. VIKTOR is an application development platform that enables engineers and other domain experts to rapidly build their own online applications using Python. It is used to create parametric design models and integrates with many software packages.
This makes it possible to make the applications available to persons without programming affinity. Applications made with VIKTOR are online, meaning data is update automatically and everyone works with the same information and the latest models.
It includes a user management system, allowing to give different rights to users. Marionette is an open source [ citation needed ] graphical scripting tool or visual programming environment for the architecture, engineering, construction, landscape, and entertainment design industries that is built into the Mac and Windows versions of Vectorworks software.
The tool was first made available in the Vectorworks line of software products. Marionette enables designers to create custom application algorithms that build interactive parametric objects and streamline complex workflows, as well as build automated 2D drawing, 3D modeling, and BIM workflows within Vectorworks software. Built in the Python programming language, everything in Marionette consists of nodes which are linked together in a flowchart arrangement.
Each node contains a Python script with predefined inputs and outputs that can be accessed and modified with a built-in editor. Nodes are placed directly into the Vectorworks document and then connected to create complex algorithms. Since Marionette is fully integrated into Vectorworks software, it can also be used to create entirely self-contained parametric objects that can be inserted into new and existing designs.
Modelur is a parametric urban design software plug-in for Trimble SketchUp , developed by Agilicity d. Its primary goal is to help the users create conceptual urban massing. In contrast to common CAD applications, where the user designs buildings with usual dimensions such as width, depth and height, Modelur offers design of built environment through key urban parameters such as number of stories and gross floor area of a building.
Modelur calculates key urban control parameters on the fly e. This way it helps taking well-informed decision during the earliest stages, when design decisions have the highest impact.
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