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Mit der neuen VOB 2019 ergeben sich zahlreiche Veränderungen und Neuerungen im Teil C, die in der 19. Auflage gewohnt praxisnah und anwendungsbezogen kommentiert werden. Es wurden zahlreiche Normen fachtechnisch überarbeitet. In der DIN 18336 wurden beispielsweise alle Abdichtungsarbeiten aus verschiedenen Normen zusammenführt. Einen besonderen Schwerpunkt der Kommentierung stellen die Regeln der Abrechnung dar. Die textlichen Festsetzungen der VOB/C sind mit anschaulichen Grafiken unterstützt, die einen deutlichen Mehrwert für praktizierende Bauleiter darstellen.
At the beginning of their studies students of architecture are confronted with a wealth of different ways in which to visually present their designs. Expressing ideas in the form of drawings and models is usually required in the early stages of studying: "learning by doing" is the only way for students to quickly develop a repertoire for their design work. However, there are important issues to consider between the phases of devising the spatial concept and recreating it in a two- or three-dimensional drawing or physical model: How to construct a perspective freehand drawing? What plan drawings are necessary to present my design? What scale should my model be and what materials should I use to construct it? Basics Architectural Presentation combines the highly successful single volumes Technical Drawing, Freehand Drawing, CAD, Modelbuilding (new edition) and Architectural Photography from the series BASICS in a new volume. Step-by-step, it conveys possible ways to present architectural projects throughout the various project phases. In an informative and practical approach, the publication discusses the basics of architectural representation from freehand drawing, which is especially important in the design phase, to the plan drawing, model, and architecture photography. The student architect learns the tools necessary for presenting his or her work, supported by many concrete examples and practical tips that are directly applicable.
The construction sector currently accounts for a high proportion of CO2 emissions and gray energy use. This will have to change fundamentally if we are to prevent catastrophic climate change and make urban planning and construction fit for the future. In addition to a paradigm shift in how architects work, we need to rethink how they are trained in higher education. Based on a lifecycle approach and an awareness of resource consumption, this volume in the Basics series explains a wide range of climate-friendly concepts in an easy-to-understand way, inspiring readers to take a closer look at solutions and new approaches in their daily practice. The key factors involved in the various planning stages of buildings are presented and placed in the context of the overall planning. Explains a range of current sustainability concepts Foundational knowledge for all students of architecture Interdisciplinary and networked consideration of challenges and solutions in the area of climate protection
Technical Drawing deals with the representation of plans throughout all phases of a project. For students, the primary focus is on the development and methodical construction of a technical drawing. Themes: Types of plan (from site plan and preliminary drawings to design and detail plans) Components of the plan (floor plan, section, elevation, detail) Line width, dimensioning, hatching, use of text, symbols Plan presentation and compilation
Der Mauerwerksbau steht in aller Regel an erster Stelle der konstruktiven UEbungen im Studium. Die Grundprinzipien der Masslichkeit, der Konstruktion und des Bauteilfugens werden an einfachen Mauerwerksbauten entwickelt. Themen: Material und Masse Bauphysikalischen und tragkonstruktiven Eigenschaften Typischen Verbanden Bauteile Ausfuhrung von Mauerwerk
Design Ideas offers students a variety of different ways to go about finding a design solution. In addition to suggesting fundamental ways to get the creative process moving and develop a design approach, it also proposes various sources of inspiration for design ideas. It focuses on the three elements of place, form, and function, which can sometimes constitute immediate springboards for concrete designs. These elements must eventually be incorporated as the design process. Subjects: Creativity in the design process; Sources of inspiration and design approaches; Working with place; Working with form; Working with function.
The core task of the classic architect, in addition to architectural design and planning work, is management of the construction project: from planning operations and tendering, to scheduling and cost planning and construction management. These important practical tasks are usually only covered during studies by one subject: Construction Management or Construction Economics, and thus treated as less significant. But every architect must master these abilities in order to manage and realize his or her own projects successfully. How are the individual processes interrelated? How are professionals networked? How do the different levels of organization function? Because of tight deadlines and strongly interdependent processes, scheduling is an important prerequisite for successful project implementation. Architects have a duty to control all those involved and to procure their services at the right times. Basics Architectural Project Management brings together the successful individual volumes, Project Planning, Tendering, Construction Scheduling, and Site Management from the student series BASICS into one volume, which is completed by the new, not yet published book Budgeting, and answers in one publication the crucial hows and whys of construction.
At the beginning of their studies students of architecture are confronted with a wealth of different ways in which to visually present their designs. Expressing ideas in the form of drawings and models is usually required in the early stages of studying: "learning by doing" is the only way for students to quickly develop a repertoire for their design work. However, there are important issues to consider between the phases of devising the spatial concept and recreating it in a two- or three-dimensional drawing or physical model: How to construct a perspective freehand drawing? What plan drawings are necessary to present my design? What scale should my model be and what materials should I use to construct it? Basics Architectural Presentation combines the highly successful single volumesTechnical Drawing, CAD, Modelbuilding, and Architectural Photography from the series BASICS with a yet to be published volume entitled Freehand Drawing. Step-by-step, it conveys possible ways to present architectural projects throughout the various project phases. In an informative and practical approach, the publication discusses the basics of architectural representation from freehand drawing, which is especially important in the design phase, to the plan drawing, model, and architecture photography. The student architect learns the tools necessary for presenting his or her work, supported by many concrete examples and practical tips that are directly applicable.
The design of a building is a complex process in which the architect develops spaces which are defined by a number of different parameters. The most important of these are space requirements, distances, furniture and fittings, and movement zones. From the dimensions of the human body it is possible to derive guide values for these reference sizes that make spaces comfortable to be in and to use. Spaces in Architecture is a useful reference work for students and designers for quickly looking up detailed information on space scenarios that occur in many different types of buildings. For example, the book lists all important dimensions for entrance areas, doors, staircases, ramps, and elevators. On the basis of this fundamental information it is possible to design buildings in terms of function and type.
As building construction is becoming increasingly complex, the field of building technology is becoming more and more important. As an intermediary between all parties involved in a construction project, the architect must be able to understand what is involved and to advise his clients. This volume covers the fields of water supply and disposal, electric installations and the energy-related subjects, i.e. heating, ventilation and lighting. The compendium combines the successful individual volumes Room Conditioning and Water Cycles and supplements these with the two hitherto unpublished volumes Electric Installation and Lighting design. The student and architect are introduced to the basic principles, terms and systems of building technology installations and equipment.
Fire safety is an important part of building design. It consists of measures to prevent fires from starting, to facilitate the rescue of individuals in a burning building, and to help firefighters contain a blaze. Both statutory provisions and building codes lay down strict fire safety regulations for commercial and residential construction. The main task for architects when it comes to fire safety is to apply the principles and methods of fire prevention at the outset of the design process. The book explains the general concepts and fundamental issues of fire safety in building design beyond the particulars of local building regulations.
In formulating a design concept into a viable plan, architects oscillate constantly between two planes of observation: the actual design task in the context of planning typologies such as residential buildings, office buildings, museum, or airport, and the individual room, meaning the kitchen, office, classroom, sanitary rooms, storage rooms, and so on. Planning Architecture offers architects and students a thought-out planning tool, in which two main sections reciprocally complement one another: the "spaces" and the "typologies" between which the planner can flexibly oscillate depending on his or her plane of observation. All relevant planning information is presented in a detailed clear fashion, and in context. These two sections are flanked by an introductory chapter explaining the basis and framework for typological design, as well as a "reference section" at the end of the book that clearly lists general dimensions and units, regulations and standards.
The concept and detailed design of buildings requires a comprehensive approach. Coordinating the different trades is one of the architect’s key tasks. In view of the fact that electrical installations in buildings are becoming increasingly complex, the architect needs to have a solid, basic understanding in this field in order to be able to prepare the design for the input of the specialist engineers. However, most architects find it hard to understand anything but the basic concepts of electrical engineering, in spite of the fact that it is an increasingly important field in view of the complexity of modern buildings. As an intermediary between all parties involved in the construction project, the architect must be able to understand electrical engineering concepts in buildings and competently advise his clients. BASICS Electrical Installations conveys the basic concepts of electrical installations in buildings in practical applications. Selection of subjects covered: Power supply Design of electrical installations Power supply systems and mains lines Distribution boards Forms of installation Wiring layouts Slots and recesses Information technology Lightning protection systems
Once the design has been completed, the architects prepare the tender documents for the contractors, and provide support during the tender procedure. For the purpose of commissioning various building works it is necessary to set up building contracts which contain standard content as well as very individual provisions. The building contract and its extensive drawings and specifications are the basis for the building work; they must be understood by the supervising architect and implemented to create the building. The complexity and diversity of building contracts is increased by the fact that there is hardly a building contract that does not have to be modified after it has been signed. Basics Building Contract offers the typical structures and explanations, as well as the tools for creating project-specific contracts and understanding the inherent complexity.
The aesthetic and constructive quality of a building is also significantly determined by the careful design and implementation of details. Detailed drawings are developed on the basis of the working drawings; they form an important part of the specification and contain precise information for the tradesmen, indicating how materials are to be used and how they are to be joined. Drawings are produced in various degrees of detail. Depending on the function of the drawings, they are produced in scales from 1:20 to 1:1 in order to define the materials and method of joining, and to better illustrate the various dimensions. Basics Detailed Drawings explains, step by step, how to compose detailed designs and produce correct construction drawings, using clear examples.
A roof over one's head is a basic need-it provides shelter from rain, wind and the cold. In addition to these requirements, the structure must be load bearing and stable. Out of traditional craftsmanship, roof shapes and typologies have developed that fulfill these tasks and endure to this day. Basics Roof Construction describes the different kinds of roofs and which advantages and disadvantages each of them has. It explains which tasks are performed by the structural elements and layers and how to account for these in planning construction. The objective is to provide students with the principles, properties and technical terms of construction so that they can implement this knowledge in concrete design plans: from building, to insulation and sealing, all the way to the basics of drainage.
The construction sector currently accounts for a high proportion of CO2 emissions and gray energy use. This will have to change fundamentally if we are to prevent catastrophic climate change and make urban planning and construction fit for the future. In addition to a paradigm shift in how architects work, we need to rethink how they are trained in higher education. Based on a lifecycle approach and an awareness of resource consumption, this volume in the Basics series explains a wide range of climate-friendly concepts in an easy-to-understand way, inspiring readers to take a closer look at solutions and new approaches in their daily practice. The key factors involved in the various planning stages of buildings are presented and placed in the context of the overall planning. Explains a range of current sustainability concepts Foundational knowledge for all students of architecture Interdisciplinary and networked consideration of challenges and solutions in the area of climate protection
Technical Drawing deals with the representation of plans throughout all phases of a project. For students, the primary focus is on the development and methodical construction of a technical drawing. Themes: Types of plan (from site plan and preliminary drawings to design and detail plans) Components of the plan (floor plan, section, elevation, detail) Line width, dimensioning, hatching, use of text, symbols Plan presentation and compilation
From idea to materiality: The basics of architectural designThe fundamental idea is the starting point of every design. The idea is formulated into the concept; the concept is expressed in the formal language; the form requires a particular material; the space is given shape. Architecture is created.Described in this manner, the design process seems simple and straightforward. But for students of architecture, it is in most cases a difficult learning process. But designing can be learned What are the conceptual possibilities for finding the first step towards a design idea? What methods can be used to develop the idea and to arrive at an architectural concept? Furthermore, architecture is first and foremost the designing of (indoor) spaces. But how are rooms structured, rather than merely decorated? What role does the use of materials and materiality play?This compilation of the volumes Design Ideas, Design Methods, Materials and Spatial Design in the successful student seriesBASICS now gathers the fundamental topics of architectural design together in one book and thus in one context answers crucial questions concerning the hows and whys of the design process.
In a world of tight time frames and highly interdependent processes, scheduling is an indispensable prerequisite for successful project implementation. It is the duty of the architect to manage all the project participants in a goal-oriented manner and to call for their results when the time is right. For this reason, a systematic schedule of target dates, adapted to a project's sequences and workflows, is a necessary tool for the day-to-day management and monitoring of complex construction projects. Topics:
Each type of construction has its special characteristics which cannot be compared with those of other building materials. The first building construction designs in the architectural curriculum are planned as masonry or timber buildings. On the basis of these two traditional and elementary building materials, students familiarize themselves with construction details and structural principles, which are also the basis of construction with "modern" materials such as steel, concrete and glass. Basics Building Construction is clearly structured and focused, and explains the characteristics of these important construction materials. The book familiarizes the reader with the most common construction systems, their rules and applications, and enables architectural students to contemplate creative solutions that may also be outside the standardized solutions offered by the construction industry. This compendium combines the successful individual volumes Timber Construction, Masonry Construction and Glass Construction of the BASICS series in one book, which has been expanded by the two new, hitherto unpublished, Steel Construction and Concrete Construction volumes.
Each type of construction has its special characteristics which cannot be compared with those of other building materials. The first building construction designs in the architectural curriculum are planned as masonry or timber buildings. On the basis of these two traditional and elementary building materials, students familiarize themselves with construction details and structural principles, which are also the basis of construction with "modern" materials such as steel, concrete and glass. Basics Building Construction is clearly structured and focused, and explains the characteristics of these important construction materials. The book familiarizes the reader with the most common construction systems, their rules and applications, and enables architectural students to contemplate creative solutions that may also be outside the standardized solutions offered by the construction industry. This compendium combines the successful individual volumes Timber Construction, Masonry Construction and Glass Construction of the BASICS series in one book, which has been expanded by the two new, hitherto unpublished, Steel Construction and Concrete Construction volumes.
At the beginning of their studies students of architecture are confronted with a wealth of different ways in which to visually present their designs. Expressing ideas in the form of drawings and models is usually required in the early stages of studying: "learning by doing" is the only way for students to quickly develop a repertoire for their design work. However, there are important issues to consider between the phases of devising the spatial concept and recreating it in a two- or three-dimensional drawing or physical model: How to construct a perspective freehand drawing? What plan drawings are necessary to present my design? What scale should my model be and what materials should I use to construct it? Basics Architectural Presentation combines the highly successful single volumes Technical Drawing, CAD, Modelbuilding, and Architectural Photography from the series BASICS with a yet to be published volume entitled Freehand Drawing. Step-by-step, it conveys possible ways to present architectural projects throughout the various project phases. In an informative and practical approach, the publication discusses the basics of architectural representation from freehand drawing, which is especially important in the design phase, to the plan drawing, model, and architecture photography. The student architect learns the tools necessary for presenting his or her work, supported by many concrete examples and practical tips that are directly applicable.
At the beginning of their studies students of architecture are confronted with a wealth of different ways in which to visually present their designs. Expressing ideas in the form of drawings and models is usually required in the early stages of studying: "learning by doing" is the only way for students to quickly develop a repertoire for their design work. However, there are important issues to consider between the phases of devising the spatial concept and recreating it in a two- or three-dimensional drawing or physical model: How to construct a perspective freehand drawing? What plan drawings are necessary to present my design? What scale should my model be and what materials should I use to construct it? Basics Architectural Presentation combines the highly successful single volumesTechnical Drawing, CAD, Modelbuilding, and Architectural Photography from the series BASICS with a yet to be published volume entitled Freehand Drawing. Step-by-step, it conveys possible ways to present architectural projects throughout the various project phases. In an informative and practical approach, the publication discusses the basics of architectural representation from freehand drawing, which is especially important in the design phase, to the plan drawing, model, and architecture photography. The student architect learns the tools necessary for presenting his or her work, supported by many concrete examples and practical tips that are directly applicable. |
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